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Home My WebLink About1924 W. 4th Street Address: 11924 W 4t" Street PREPARED 12/12/14, 12:06:37 INSPECTION TICKET PAGE 4 CITY OF PORT ANGELES INSPECTOR: JAMES LIERLY DATE 12/12/14 ------------------------------------------------------------------------------------------------ ADDRESS . : 1924 W 4TH ST SUBDIV: CONTRACTOR HI-LINE HOMES PHONE (253) 840-1849 OWNER GEORGE SUHR AND LEWIS BENNETT PHONE (832) 298-0912 PARCEL 06-30-00-9-0-0124-0000- A APPL NUMBER: 14-00001052 RES NEW SFR ------------------------------------------------------------------------------------------------ PERMIT: BPR 00 BUILDING PERMIT - RESIDENTIAL REQUESTED INSP DESCRIPTION TYP/SQ COMPLETED RESULT RESULTS/COMMENTS ------------------------------------------------------------------------------------------------ BL1 01 10/21/14 JLL BLDG FOUNDATION FOOTING 10/21/14 AP October 21, 2014 9:58:16 AM jlierly. rod 908-5510 October 21, 2014 3:59:29 PM jlierly. BL2 01 10/30/14 JLL BLDG FOUNDATION STEM WALL 10/30/14 AP October 30, 2014 8:41:08 AM pbarthol. Rod 360-908-5510 October 30, 2014 3:48:39 PM jlierly. BFF O1 11/24/14 JLL BLDG FLOOR FRAMING 11/24/14 AP November 24, 2014 9:30:26 AM jlierly. 460-8604 Jack November 24, 2014 4:30:37 PM jlierly. BL9 01 12/1- 2/14 JLL BLDG Decemberber 12 12,, 2014 8:46:52 AM pbarthol. 460-8604 -------------------------------------- COMMENTS AND NOTES -------------------------------------- �� IM ILs HE-Y-T- 621oc BUILDING DIVISION CITY OF PORT ANGELES Correction ®tic Job Located at HZ4 )%V 16 5r- Inspection of your work revealed that the following i's not in accordance with the codes governing the work in this jurisdiction: �.r t k o t h W 1 ! u�� t�i✓�r t..-n'a.�t v�� PlO 1Ci ti�.I �nt�roti d'�", These corrections must be made and are not to be covered until reinspection is made. Wh n corrections have been made, please calls for inspection. Date Inspector for Building Division DO NOT REMOVE THIS TAG City of Port Angeles Correction Notice Building Division Job Located at Iq ;C�, 0 Inspection of your work revealed that the following is not in accordance with the codes governing the work in this jurisdiction: 1 tv ,s Qflef2�c> a EU L These corrections must be made and are not to be covered until reinspection is made. When corrections have been made, please call 3 417-4815 r inspection. Date nsp for faVBjAding Division �b-6J�3 DO NOT REMOVE THIS TAG l P_ y L) . V11- S f PREPARED 4/10/15, 14:49:01 INSPECTION TICKET PAGE 2 CITY OF PORT ANGELES INSPECTOR: JAMES LIERLY DATE 4/10/15 ------------------------------------------------------------------------------------------------ ADDRESS . : 1924 W 4TH ST SUBDIV: CONTRACTOR HI-LINE HOMES PHONE (253) 840-1849 OWNER GEORGE SUHR AND LEWIS BENNETT PHONE (832) 298-0912 PARCEL 06-30-00-9-0-0124-0000- APPL NUMBER: 14-00001052 RES NEW SFR ------------------------------------------------------------------------------------------------ REQUESTED INSP DESCRIPTION TYP/SQ COMPLETED RESULT RESULTS/COMMENTS ------------------—---------------------------------------------------------------------------- 2/12/15 AP February 12, 2015 9:20:46 AM pbarthol. Todd 253-227-6407 February 12, 2015 4:11:45 PM jlierly. BL3 02 2/12/15 JLL BLDG FRAMING 2/12/15 AP February 12, 2015 9:20:02 AM pbarthol. Todd 253-227-6407 February 12, 2015 4:11:45 PM jlierly. BL9 03 2/12/15 JLL BLDG SHEARWALL 2/12/15 AP February 12, 2015 9:19:06 AM pbarthol. Todd 253-227-6407 February 12, 2015 4:11:45 PM jlierly. BL99 01 4/10/15L/� BLDG FINAL April 10, 2015 9:40:41 AM pbarthol. Todd 253-227-6407 ------------------------------------------------------------------------------------------------ PERMIT: ME 00 MECHANICAL PERMIT REQUESTED INSP DESCRIPTION TYP/SQ COMPLETED RESULT RESULTS/COMMENTS ------------------------------------------------------------------------------------------------ ME1 01 1/22/15 JLL MECHANICAL ROUGH-IN 1/22/15 AP January 22, 2015 9:18:59 AM pbarthol. Todd 253-227-6407 January 22, 2015 4:38:20 PM jlierly. ME99 01 4/10/15MECHANICAL FINAL i�L 110----April-10,-2015-9:41:12 AM pbarthol. -------------------------- Todd 253-227-6407 ------------------------------------------ PERMIT: PL 00 PLUMBING PERMIT REQUESTED INSP DESCRIPTION TYP/SQ COMPLETED RESULT RESULTS/COMMENTS ------------------------------------------------------------------------------------------------ PL2 01 1/22/15 JLL PLUMBING ROUGH-IN 1/22/15 AP January 22, 2015 9:19:10 AM pbarthol. Todd 253-227-6407 January 22, 2015 4:38:25 PM jlierly. PL99 01 4/10/15LL PLUMBING FINAL April 10, 2015 9:41:22 AM pbarthol. Todd 253-227-6407 ------------------------- - ---------- COMMENTS AND NOTES -------------------------------------- PREPARED 4/17/15, 9:46:06 INSPECTION TICKET PAGE 2 CITY OF PORT ANGELES INSPECTOR: JAMES LIERLY DATE 4/17/15 ------------------------------------------------------------------------------------------------ ADDRESS . : 1924 W 4TH ST SUBDIV: CONTRACTOR HI-LINE HOMES PHONE (253) 840-1849 OWNER GEORGE SUHR AND LEWIS BENNETT PHONE (832) 298-0912 PARCEL 06-30-00-9-0-0124-0000- APPL NUMBER: 14-00001052 RES NEW SFR ------------------------------------------------------------------------------------------------ REQUESTED INSP DESCRIPTION TYP/SQ COMPLETED RESULT RESULTS/COMMENTS ---------------------------------=------------------------ ------------------------------ 2/12/15 AP February 12, 2015 9:20:46 AM pbarthol. Todd 253-227-6407 February 12, 2015 4:11:45 PM jlierly. BL3 02 2/12/15 JLL BLDG FRAMING 2/12/15 AP February 12, 2015 9:20:02 AM pbarthol. Todd 253-227-6407 February 12, 2015 4:11:45 PM jlierly. BL9 03 2/12/15 JLL BLDG SHEARWALL 2/12/15 AP February 12, 2015 9:19:06 AM pbarthol. Todd 253-227-6407 February 12, 2015 4:11:45 PM jlierly. BL99 01 4/10/15 JLL BLDG FINAL 4/10/15 DA April 10, 2015 9:40:41 AM pbarthol. Todd 253-227-6407 April 10, 2015 4:15:53 PM jlierly. Hand rails on front steps/ adress numbers on fornt of structure/ energy data required to be posted on or near elec panel/ electrical inspection required to be complete/jll BL99 02 4/17/15LL BLDG FINAL April 17, 2015 9:48:43 AM jlierly. GEORGE 832-298-0912 -------------------------------------- COMMENTS AND NOTES -------------------------------------- CITY OF PORT ANGELES s DEPARTMENT OF COMMUNITY&ECONOMIC DEVELOPMENT- BUILDING DIVISION 321 EAST 5TH STREET, PORT ANGELES, WA 98362 1 Application Number . . . . . 14-00001052 Date 9/18/14 O Application pin number . . . 351956 Property Address . . . . . . 1924 W 4TH ST �A ASSESSOR PARCEL NUMBER: 06-30-00-9-0-0124-0000- REPORT SALES TAX Application type description RES NEW SFR on your state excise tax form Subdivision Name . . . . . . Property Use . . . . . . . . to the City of Port Angeles Property Zoning . . . . . . . RS7 RESDNTL SINGLE FAMILY (Location Code 0502) Application valuation . . . . 169432 ---------------------------------------------------------------------------- Application desc 1768 SQ FT SFR ---------------------------------------------------------------------------- Owner Contractor ------------------------ ------------------------ GEORGE SUHR AND LEWIS BENNETT HI-LINE HOMES 1924 W 4TH ST 11306 62ND AVE EAST PORT ANGELES WA 98363 PUYALLUP WA 98373 (832) 298-0912 (253) 840-1849 -� ---------------------------------=------------------------------------------ Permit . . . . . . BUILDING. PERMIT -RESIDENTIAL Additional desc . . 1768 SQ FT SFR Permit Fee . . . . 1412.25 Plan Check Fee 917.96 Issue Date . . . . 9/18/14 Valuation . . . . 169432 Expiration Date . . 3/17/15 Qty Unit Charge Per Extension \� BASE FEE 1020.25 `A -------70_00--------5_6000 THOU BL-100,001-500K (5.60 PER-K)--------392.00 1 -------------------------------- -- Permit . . . . . . MECHANICAL PERMIT Additional desc . . SFR MECHANICAL Permit Fee . . . . 267.25 Plan Check Fee .00 Issue Date . . . . 9/18/14 Valuation . . . . 0 Expiration Date 3/17/15 Qty Unit Charge Per Extension BASE FEE 50.00 2.00 14.8000 EA ME-FURN/HP/FAU < OR = 5 TON 29.60 4.00 7.2500 EA ME-VENT FAN (SINGLE DUCT) 29.00 1.00 10.6500 EA ME-HOOD/DUCT-MECH. EXHAUST 10.65 10.00 14.8000 EA ME-HEATER(SUSP/WALL/FLOOR-MTD) 148.00 ---------------------------------------------------------------------------- Permit . . . . . . PLUMBING PERMIT Additional desc . . SFR PLUMBING Permit Fee . . . . 184.00 Plan Check Fee .00 Issue Date 9/18/14 Valuation . . . . 0 Expiration Date 3/17/15 Qty Unit Charge Per Extension BASE FEE 50.00 10.00 7.0000 EA PL-PLUMBING TRAP 70.00 1.00 7.0000 EA PL-WATER LINE 7.00 5.00 7.0000 EA PL-DRAIN VENT PIPING 35.00 Separate Permits are required for electrical work,SEPA,Shoreline,ESA,utilities,private and public improvements. This permit becomes null and void if work or construction authorized is not commenced within 180 days,if construction or work is suspended or abandoned for a period of 180 days after the work has commenced, or if required inspections have not been requested within 180 days"from the last inspection. I hereby certify that I have read and examined this application and know the same to be true and correct. All provisions of laws and ordinances governing this type of work will be complied with whether specified herein or not. The granting of a permit does not presume to give authority to violate or cancel the provisions of any state or local law regulating construction or the performance of construction. Date Print Name Signature of Contractor or Authorized Agent Signature of Owner(if owner is builder) T:Forms/Building Division/Building Permit BUILDING PERMIT INSPECTION RECORD PLEASE PROVIDE A MINIMUM 24-HOUR NOTICE FOR INSPECTIONS— Building Inspections 417-4815 Electrical Inspections 417-4735 Public Works Utilities 417-4831 Backflow Prevention Inspections 417-4886 IT IS UNLAWFUL TO COVER,INSULATE OR CONCEAL ANY WORK BEFORE INSPECTED AND ACCEPTED. POST PERMIT INCONSPICUOUS LOCATION. KEEP PERMIT AND APPROVED PLANS AT JOB SITE. Inspection Type Date Accepted By Comments FOUNDATION: Footings Stemwall Foundation Drainage/Downspouts Piers Post Holes(Pole Bldgs.) PLUMBING: Under Floor/Slab Rough-in Water Line Meter to Bldg) Gas Line Back Flow/Water FINAL Date Accepted b AIR SEAL: Walls Ceiling FRAMING: Joists/Girders/Under Floor Shear Wall/Hold Downs Walls I Roof/Ceiling Drywall Interior Braced Panel Only) T-Bar INSULATION: Slab Wall/Floor/Ceiling MECHANICAL: Heat Pump/Furnace/FAU/Ducts Rough-in Gas Line Wood Stove/Pellet/Chimney Commercial Hood/Ducts FINAL Date Accepted b MANUFACTURED HOMES: Footing/Slab Blocking&Hold Downs Skirting PLANNING DEPT. Separate Permit#s SEPA: Parkin /Lighting ESA: Landscaping SHORELINE: FINAL INSPECTIONS REQUIRED PRIOR TO OCCUPANCY/USE Inspection Type Date Accepted By Electrical 417-4735 Construction-R.W. PW /Engineering 417-4831 Fire 417-4653 Planning 417-4750 Building 417-4815 T:Forms/Building Division/Building Permit CITY OF PORT ANGELES DEPARTMENT OF COMMUNITY&ECONOMIC DEVELOPMENT-BUILDING DIVISION 321 EAST 5TH STREET, PORT ANGELES,WA 98362 Page 2 Application Number . . . . . 14-00001052 Date 9/18/14 Application pin number . . . 351956 REPORT SALES TAX Qty Unit Charge Per Extension on your state excise tax form 1.00 15.0000 EA PL-SEWER LINE 15.00 1.00 7.0000 EA PL-WATER HEATER 7.00 to the City of Port Angeles ------------------ --------------------------------------------- 02) Special Notes and Comments (Location Code 05 September 10, 2014 7:23:27 AM rbecker. If you are installing a lawn sprinkler system, you will need to install a backflow assembly. If you have any questions call Ron Becker at 360-417-4886, Fax:360-452-4972, or E-mail: rbecker@cityofpa.us Address numbers shall be plainly visible from the street. Address numbers shall be a minimum of six inches high and be of contrasting color from the background. September 12, 2014 8:44:22 AM sroberds. The proposal will result in a new sfr in the RS-7 for total lot cov of 25%. No land use issues anticipated. September 9, 2014 11:04:48 AM banders. Electrical service line will.come from pole across alley from the southwest corner of property. Plan shows service mast on the east side of garage which will be problematic as the line will have necessary clearance over peak of garage. West side of garage would be preferred location for overhead electrical service. Electrical load calculations and electrical permits are required. 1. Establishing Construction Access. 2. Install sediment controls BMPs.. 3. Stabilize exposed soils. 4. Protect slopes from erosion. 5. Protect drain inlets. 6. Control pollutants including but not limited to spills, concrete wash out, exposed aggregate processes, concrete grinding and saw cut waste water. 7. Maintain temporary and permanent erosion control BMPS during project. All construction work within the City right of way requires a separate Right of Way Construction application to be completed by the contractor and approved by Public Works Engineering prior to the start of work. A pedestrian or traffic control plan is to be submitted for approval with the application as necessary. Consider applying for the City Green Infrastructure Rebate of up to $750.00 towards the materials to install rain garden to control roof and driveway runoff. Also rebates available for downspout disconnections.Contact Jonathan Boehme at 360 417-4811 Sanitary sewer connection inspection is required by Public Works prior to back fill of ditch. 24 hour advance notice is required. Public Works Inspection request line 417-4831 Trench safety per applicable laws. Temp erosion control and Separate Permits are required for electrical work,SEPA,Shoreline,ESA,utilities,private and public improvements. This permit becomes null and void if work or construction authorized is not commenced within 180 days,if construction or work is suspended or abandoned for a period of 180 days after the work has commenced,or if required inspections have not been requested within 180 days from the last inspection. I hereby certify that I have read and examined this application and know the same to be true and correct. All provisions of laws and ordinances governing this type of work will be complied with whether specified herein or not. The granting of a permit does not presume to give authority to violate or cancel the provisions of any state or local law regulating construction or the performance of construction. Date Print Name Signature of Contractor or Authorized Agent Signature of Owner(if owner is builder) T:Forms/Building Division/Building Permit BUILDING PERMIT INSPECTION RECORD PLEASE PROVIDE A MINIMUM 24-HOUR NOTICE FOR INSPECTIONS— Building Inspections 417-4815 Electrical Inspections 417-4735 Public Works Utilities 417-4831 Backflow Prevention Inspections 417-4886 IT IS UNLAWFUL TO COVER,INSULATE OR CONCEAL ANY WORK BEFORE INSPECTED AND ACCEPTED. POST PERMIT INCONSPICUOUS LOCATION. KEEP PERMIT AND APPROVED PLANS AT JOB SITE. Inspection Type Date Accepted By Comments FOUNDATION: Footings Stemwall Foundation Drainage/Downspouts Piers Post Holes(Pole Bldgs.) PLUMBING: Under Floor/Slab Rough-in Water Line Meter to Bldg) Gas Line Back Flow/Water FINAL Date Accepted b AIR SEAL: Walls Ceiling FRAMING: Joists/Girders/Under Floor Shear Wall/Hold Downs Walls/Roof/Ceiling Drywall Interior Braced Panel Only) T-Bar INSULATION: Slab Wall/Floor/Ceiling MECHANICAL: Heat Pum /Furnace/FAU/Ducts Rough-in Gas Line Wood Stove/Pellet/Chimney Commercial Hood/Ducts FINAL Date Accepted b MANUFACTURED HOMES: Footing/Slab Blocking&Hold Downs Skirting n G DEPT. Separate Permit#s SEPA: i htin ESA: ngI I SHORELINE: FINAL INSPECTIONS REQUIRED PRIOR TO OCCUPANCY/USE Inspection Type Date Accepted By Electrical 417-4735 Construction-R.W. PW I Engineering 417-4831 Fire 417-4653 Planning 417-4750 Building 417-4815 T:Forms/Building Division/Building Permit CITY OF PORT ANGELES DEPARTMENT OF COMMUNITY&ECONOMIC DEVELOPMENT- BUILDING DIVISION 321 EAST 5TH STREET, PORT ANGELES, WA 98362 Page 3 Application Number . . . . . 14-00001052 Date 9/18/14 Application pin number 351956 ------------------------- REPORT SALES TAX Special Notes and Comments on your state excise tax form surface restoration responsibility of applicant. Contact City inspector prior to start of work @ 360 417-4831. No to the City of Port Angeles attachment to sanitary sewer of stormwater roof leaders, (Location Code 0502) foundation drains, yard drains, or any other CSO contribution is allowed. ---------------------------------------------------------------------------- Other Fees . . . . . . . . . RES OVERHEAD SERVICE FEE 440.00 STATE SURCHARGE 4.50 ---------------------------------------------------------------------------- Fee summary Charged Paid Credited Due ----------------- ---------- ---------- ---------- ---------- Permit Fee Total 1863.50 1863.50 .00 .00 Plan Check Total 917.96 917.96 .00 .00 Other Fee Total 444.50 444.50 .00 .00 Grand Total 3225.96 3225.96 .00 .00 Separate Permits are required for electrical work,SEPA,Shoreline,ESA,utilities,private and public improvements. This permit becomes null and void if work or construction authorized is not commenced within 180 days,if construction or work is suspended or abandoned for a period of 180 days after the work has commenced,or if required inspections have not been requested within 180 days from the last inspection. I hereby certify that I have read and examined this application and know the same to be true and correct. All provisions of laws and ordinances governing this type of work will be complied with whether specified herein or not. The granting of a permit does not presume to give authority to violate or cancel the provisions of any state or local law regulating construction or the performance of construction. Date Print Name Signature of Contractor or Authorized Agent Signature of Owner(if owner is builder) T:Forms/Building Division/Building Permit BUILDING PERMIT INSPECTION RECORD — PLEASE PROVIDE A MINIMUM 24-HOUR NOTICE FOR INSPECTIONS— Building Inspections 417-4815 Electrical Inspections 417-4735 Public Works Utilities 417-4831 Backflow Prevention Inspections 417-4886 IT IS UNLAWFUL TO COVER,INSULATE OR CONCEAL ANY WORK BEFORE INSPECTED AND ACCEPTED. POST PERMIT INCONSPICUOUS LOCATION. KEEP PERMIT AND APPROVED PLANS AT JOB SITE. Inspection Type Date Accepted By Comments FOUNDATION: Footings Stemwall Foundation Drainage/Downspouts Piers Post Holes(Pole Bldgs.) PLUMBING: Under Floor/Slab Rough-In Water Line Meter to Bldg) Gas Line Back Flow/Water FINAL Date Accepted b AIR SEAL: Walls Ceiling FRAMING: Joists/Girders/Under Floor Shear Wall/Hold Downs Walls/Roof/Ceiling Drywall Interior Braced Panel Only) T-Bar INSULATION: Slab Wall/Floor/Ceiling MECHANICAL: Heat Pum /Furnace/FAU/Ducts Rough-in Gas Line Wood Stove/Pellet/Chimney Commercial Hood/Ducts FINAL Date Accepted b MANUFACTURED HOMES: Footing/Slab Blocking&Hold Downs Skirting n G DEPT. Separate Permit#s SEPA: i htin ESA: ng JSHORELINE: FINAL INSPECTIONS REQUIRED PRIOR TO OCCUPANCY/USE Inspection Type Date Accepted By Electrical 417-4735 Construction-R.W. PW I Engineering 417-4831 Fire 417-4653 Planning 417-4750 Building 417-4815 T:Forms/Building Division/Building Permit i Abdelouahab Abrous,Ph.D.,P.E. HiLine Homes 11306 62nd Ave E Puyallup,WA 98373 (253)770-2244 x132 February 2,2015 Clallam County / Department of Community Development �/ D 223 East 4th Street Port Angeles,WA 98362 Re:Repair of Holdown Connections JOB#: 10106063 PLAN#: 1768 Owner(s): George Suhr This letter addresses the pro' ct at 1924 West 4th St. P' rt Angeles, WA 98382. A previously noted issue concerned the in ''veness of i talled STHD14 straps in a cripple wall application as these straps extended only partially into the chords of the shear walls above. A repair was recommended in which we specified installing additional holdowns at the STHD14 locations. This repair consisted of installing Simpson HTT4 Tension Ties fastened to 3" framing with 18-10dx1?/z nails and then fastening the HTT4 ties to the concrete stem wall with 5/8-in threaded rod coupled to 5/8" x 8.5" Simpson Wedge All anchor with a 5/8" coupler. The specified minimum embedment depth of the anchors was 4.5"into concrete. At the repair, it appears from the photographs sent for review that the average embedment length was approximately 3.2" and two anchors could not be added to the narrow shear wall at the front right of the living room due to the presence of the air vent underneath that location. The reduction of embedment depth of the anchors from 4.5"to an assumed conservative depth of 2.75"will reduce the adjusted available tension load from 1,958-1b to 1,069-1b. However, the partial connection of the existing STHD14 into the chords of the existing shear walls will develop partial tension loads of 1,308-1b/1,100-1b for wind and seismic loading, respectively. As a result, the total tension loads will be 2,377-1b/2,169-1b for wind and seismic loading respectively. Consequently,the added connections are adequate to resist the design loads even with the lack of reinforcement of the shorter shear wall, particularly when account is taken of the site specific wind and seismic conditions which will result in wind/seismic loads of 86%/89% of the calculated wind/seismic loads,respectively. Please contact contact me if you have any questions. Off.WAS/'�`l��rp` Sincerely, r --, Abdelouahab Abrous,Ph.D.,P.E. �s� r THE ORT TELE Ci�°Y OF For City Use WASHINGTON , U . S . I Permit# d/-- Date Received: 321 East S" Street 14L,. Date Approved Port Angeles, WA 98362 `� P: 360-417-4817 F: 360-417-4711 permits@cityofpa.us Building Permit Applic ti n Project Address: - 4 4 V �V, � Sr- Main Contact: r Phone # 932 2 9'80?12 G-f--6 N�c SuNE-Mail: G cd Property Namec� Phone 93 Z D Owner Zg Mailing Address J Email City V� u I ✓n S W /"� 1 ,79 Zip . Contractor NaII1ePhone HiLINE HOMES (253)840-1849 Mailing Address Email 11306 62ND AVE E Pre-Construction@HiLineHome.com city zip PUYALLUP state WA 98373 Contractor License# Expiration: HILINH*983BD 11/08/2015 Project Value: Zoning: Tax Parcel#4163000'1,0912-1-1 Lot# �sH Type of Residential Commercial ❑ Industrial Public ❑ u8 d •.Su Permit Demolition ❑ Fire ❑ Repair ❑ Reroof(tear off/lay over) ❑ For the following,fill out both pages of permit application: New Construction V Remodel ❑ Addition ❑ Tenant Improvement ❑ Mechanical ❑ Plumbing ❑ Other ❑ Existing Fire Sprinkler System? Maximum height of structure Proposed Bedrooms Proposed Bathrooms Yes 13No IV 3 Project Description I have read and completed the application and know it to be true and correct I am authorized to apply for this permit I understand that it is my responsibility to determine what permits are required and to obtain permits prior to working on projects. I understand that the plan review fee is not refundable after plan review has occurred. I understand that I will forfeit the review fee if I cancel or withdraw the application before the permit is issued. I understand that if the permit is not issued within 180 days of receipt,the application will be considered abandoned and the fees forfeit Date Print Name Signature Residential Structures For Office Use Area Description(SQ FT) Existing Proposed $$value Basement First Floor ® Second Floor Covered Deck/Porch/Entry Z�/ 3 3 1,7-- Deck Deck !� Garage Carport C7 Other(describe) Area Totals Commercial Structures For Office Use Area Descriptions(SQ FT) Existing Proposed $$Value Existing Structure(s) Proposed Addition Tenant Improvement? Other work(describe) Area Totals Lot/Site Coverage Calculations Footprint(SQ FT)of all Structures: Lot Size: %Lot Coverage SQ FT Site coverage(all impervious+ %Site Coverage structures Mechanical Fixtures Indicate how many of each type of fixture to be installed or relocated as part of this project. Air Handler Size: # Haz/Non-Haz Piping #of Outlets: Appliance Vent # Heater(Suspended,Floor,Recessed wall) # Boiler/Compressor Size: # Heating/Cooling appliance # p repair/alteration ` Evaporative Cooler(attached,not # Pellet Stove/Wood-burning/Gas # portable) Fireplace/Gas Stove Gas Cook Stove/Misc. Fuel Gas Piping #of Outlets: Ventilation Fan,single duct # Furnace/Heat Pump/ Size- # Ventilation System # Forced Air Unit ;56 PlumbingFixtures Indicate how manyof each a of fixture to be installed or relocated Plumbing Traps # `® Fuel gas piping #of Outlets: Water Heater # r Medical gas piping #of Outlets: Water Line # Vent piping # Sewer Line # t Industrial waste pretreatment # I/ interceptor Other(describe): T:\BUILDING\APPLICATION FORMS\BUILDING PERMIT 081212.DOCX co r ........ s 3 n�� £ If III E 3 € i t f _ ."' J 34-0" T-W2Z-W 12'-0" O1 W 5 E� o� 18'x 7'OHD(MTL.INSULATED) f c g L_-----__---J GARAGE // 4 e INSULATE,SHEETROCKJ �8.FLUSH TAPE GARAGE 1'-10" Z F T-N" 4'-3" 10'-Y J 4x4 POST SURF CE WARM WALL W/ W O In. G.W.B CONTINUE TO ROO ———— SOUD CORE 1-318"MIN. BACK =m O W/ WIT HER STRIP PORCH A 0 W (nxo" J4 ITE () g=m R&S COf 18'x24,. O 3- 2 3^ PREF I I -RANGEVI 4 cRn UTIL. 73,-0 i Hoop o) 30 TU R.of I, 2' KITCHEN J ,r PAN. 11 30 � I -i• I 34 4 1—t S 1 vENERGY CREDITS TABLE R406.2: 4-q 9-35" ro 1. HIGH EFFICIENCY HVAC EQUIPMENT 3D:DUCTLESS 4, 1g}(2q• 2' CLIPPED 42y2"WALLF- DINING SPLIT SYSTEM HEAT PUMPS,ZONAL CONTROL Z DUCTLESS 2. EFFICIENT WATER HEATING SA-ELECTRIC WATER O CRAWL 3-`" CLOS. HEATER W/A MINIMUM EF OF 0.93.AND ALL SHOWERHEAD AND KITCHEN SINK FAUCETS O J HEAT PUMP INSTALLED IN THE HOUSE SHALL BE RATED AT 1.75 A 13'J" 20'-9" GPM OR LESS.ALL OTHER LAVATORY FAUCETS S MASTER LIVING RM. HALL L.L BE RATED AT 1.0 GPM OR LESS. r _BEDROOM NTRY 3o O 3� 5057 20 5 FIX 5!I�N 50 50 H f a S.G. A AREA SUMMARY HILINE HOMES r-0 + PUYYAALLLUP WAX373 mMAIN FLOOR AREA 884 SQ.FT. (263)779-22"ea 129 6'-0" 6'-9" r-0' Thi" '3• 5'-0" UPPER FLOOR AREA 884 SQ.FT. t —————— —————————————— TOTAL FLOOR AREA 1768 SQ.FT. PLAN: 1768 FRONT PORCH 204 SQ.FT. 4xa POST BACK PORCH 72 SQ.FT. DATE: 7/17/14 11'4" 111 GARAGE 528 SQ.FT. JOB#: 10106063 { 0=HOSE BIB S.G.=SAFETY GLAZING FIRST FLOOR PLAN Al � ire•,r-o• ill 1 . 1 � E w o e J �O =� O I 14'-7- 54" 14'-1" A I "* A I 111/"1-JOISTS 0 50 40 HS 19.2"O.C.START --I POINT S R STORAGE STORAG 8 J p —act l I 21 2+ ZO n po 'L'L^1I NN 0, ..tj I VIII )I •'� C !4 V LL XN BAT 3`�}" 5'1" 2a ----- BDRM.3 O �m o _ - n, 1, T z CE 1i x1v, J --- w N TIMBER I ® �I ;n W �Y 2 cn ST D LS 2� I (� a0 g O I =.- I oU_ ® /8" Y"X11%' 3STUDS q ATTACH 42Y STRAND LSL JOIST iHo HALF WALL I DUCTLESS HANGERS FLOOR 4x8 D.F.#2 3 STUDS FRAMING W/ 1q 2' HEAT PUMP DOUBLE STUDS CUT INTO 3.-ye 3'-5}' e'4'• 14'-1" FLOOR 26 FOR LOAD w SHEATHING m BEARING AND ATTACHED UPPER a LLTO JOIST. SOAK z' MSTR.BD M. O ® 111/e WOISTS819.2'O.C. c +• O BONUS RM.;: s'-3}^ •-1 r J 4x10 D.F.#2 4x10 D.F.#2 WOO. #2 50 40 HS F,040[S 50 40 HS A A O3-3}" g-3" 5'.(7' U SECOND FLOOR FRAMING v) 1/8"=1,-0„ SECOND FLOOR PLAN 118„=V-O" 11LINE HOMES 11308 82ND AVENUE PUYALLUP WA,98373 (253)770-2244 exl 129 =INTERIOR LOAD PLAN: 1768 BEARING WALL DATE: 7/17/14 JOB#: 10106063 Al-1 a CGENERAL CONSTRUCTION NOTES HEADER&ROOF FRAMING NOTES FOUNDATION& LATERAL DESIGN CRITERIA FLOOR FRAMING NOTES AND MINIMUM SITE CONDITIONS INFORMATION 1. SUB-CONTRACTOR IS RESPONSIBLE FOR THE FOLLOWING:VERIFYING AND MEETING 1. HEADERS OCCUPANCY CATEGORY II ALL LOCAL AND STATE CODE REQUIREMENTS,REVIEWING APPROVED PLANS AND 1.1. UNLESS NOTED OTHERWISE,ALL EXTERIOR 1. ALL FOOTINGS SHALL BEAR ON STIFF,FIRM SOIL BASIC/ULTIMATE WIND SPEED ASCE 7-10 110/140 COMPLYING WITH ALL APPROVED REQUIREMENTS OF THE ENGINEER AND THE WALL HEADERS SUPPORTING ROOF LOADS ARE MEETING THE REQUIREMENTS OF DEFAULT SITE WIND EXPOSURE FACTOR C 5 BUILDING DEPARTMENT,MEETING ALL SAFETY REQUIREMENTS AND STANDARD TO BE A MIN.4 x 8 D.F.#2 W/R-10 RIGID CLASS"D"PER IBC SECTION 1613.5.2.DESIGN IS MINIMUM WIND LOADS PSF 16/8 E E SAFETY PRACTICES THAT ARE RECOMMENDED AND/OR REQUIRED BY STATE AND INSULATION AT HEATED AREAS. BASED ON 1500 p.s.f.SOIL.CONTRACTOR MUST SEISMIC/WIND IMPORT.FACTOR I E LOCAL AUTHORITIES, VERIFYING ACCURACY OF ALL DIMENSIONS.DO NOT SCALE 1.2. U.N.O.ALL EXTERIOR WALL HEADERS VERIFY W/BUILDING DEPARTMENT THAT THESE LJ iv m SEISMIC USE GROUP 1.0 THE DRAWINGS.IF DISCREPANCIES OCCUR PLEASE CONTACT THE DESIGNER. SUPPORTING ROOF AND FLOOR LOADS ARE TO CONDITIONS ARE MET PRIOR TO WORK E SEISMIC DESIGN CATEGORY D2 = BE 4 x10 D.F.#2 W/R-10 RIGID INSULATION AT SHORT PERIOD ACCELERATION 1.17 2. NO CHANGES ARE TO BE MADE TO THE PLANS WITHOUT THE CONSENT OF THE 2. ALL WOOD IN CONTACT WITH CONCRETE OR SOIL m o HEATED AREAS. -N DESIGNER AND BUILDING DEPARTMENT. SHALL BE 2x HEM-FIR#2 MIN.TREATED WITH AN DEFAULT SITE CLASS D Zli t 1.3. ALL SINGLE STORY NON-STRUCTURAL GABLE END OR 2nd FLOOR OF 2 STORY APPROVED PRESERVATIVE AND HOT-DIPPED MAXIMUM GROUND SNOW LOAD(P F) 30 = �®❑ a 3. THIS STRUCTURE IS ENGINEERED LATERALLY USING THE DESIGN CRITERIA SHOWN NON-STRUCTURAL GABLE END HEADERS UP TO GALVANIZED CONNECTORS(OR)STANDARD ROOF DEAD LOAD(PSF) 15 8 ON SHEET"CS".THIS PLAN HAS BEEN DESIGNED TO CARRY ALL LOADS FROM THE6'-0"TO BE SINGLE 2x6 H.F.#2 PER DETAIL 6 ON HEM-FIR ON AN IMPERVIOUS MOISTURE BARRIER EXTERIOR WALL DEAD LOAD PSF 15 O ROOF TO THE FOUNDATION. SHEET A4. (IRC R317.1)(OR)BORATE TREATED HEM-FIR#2 I INTERIOR WALL DEAD LOAD PSF 10 MINIMUM. MAXIMUM ROOF SLOPE 5/12 4. SEE SHEET"ST FOR ALL SHEARWALL PLACEMENTS AND REQUIREMENTS. 2. UNLESS NOTED OTHERWISE,JOISTS AND RAFTERS 3. PROVIDE APPROPRIATE BLOCK-OUTS IN FOOTINGS GENERAL STRUCTURAL NOTES: SHEARWALL DETAILS MUST BE FOLLOWED EXACTLY. NOTIFY THE DESIGNER OF ANY ARE TO BE A MIN.H.F.#2.RAFTERS MUST BE OR WALLS FOR PLUMBING&ELECTRICAL WIND AND SEISMIC NATURAL FORCES IMPOSED ON THIS DISCREPANCIES OR CONCERNS. SUPPORTED BY POSTING DOWN TO FLAT BLOCKING STUB-OUTS. THAT SPANS A MIN.OF TWO TRUSSES WHEN STRUCTURE ARE RESISTED BY A SYSTEM OF ENGINEERED MEMBERS AND FASTENERS DESIGNED TO RESIST DESIGN 5. FIRE BLOCKING IS REQUIRED AT ALL PENETRATIONS AT THE WALLS AND PLATES, RAFTER SPANS EXCEED 6 FT. 4. WHERE REQUIRED,USE A MIN.OF 3000 p.s.i. BASE LOADS SET FORTH BY THE CRITERIA OPTIONS LISTED INCLUDING:PLUMBING,ELECTRICAL,AND MECHANICAL PENETRATIONS.FIRE BLOCK CONCRETE PER IRC TABLE R402.2,INCLUDING: T ABOVE.THE STRUCTURAL SYSTEM IS DESIGNED O AT MIN.10 FT.O.C.HORIZONTALLY IN WALL CAVITIES. 3. TRUSSES SHALL CARRY MANUFACTURER STAMP FOUNDATION WALLS,PORCH AND GARAGE SLABS, TRANSFER LOADS T ACCORDANCE WITH THE D T Z 6. WATER HEATER IS TO BE INSTALLED PER MANUFACTURER SPECIFICATIONS,IRC AND HAVE ENGINEERING DRAWINGS ON SITE FOR STEPS,AND ALL OTHER AREAS THAT ARE EXPOSED (IBC)TO A PRESCRIPTIVE _j o INTERNATIONAL BUILDING CODE IB INSPECTION.ALL TRUSS BRACING REQUIREMENTS TO THE WEATHER.MAXIMUM STRENGTH IS AT 28 Z � REQUIREMENTS,AND THE STATE ADOPTED PLUMBING CODE.IN SDC D1,D2,TANK MUST BE INSTALLED PER TRUSS DRAWINGS.DO DAYS.ALLOW ADEQUATE TIME FOR FOUNDATION FOUNDATION.STRUCTURAL MEMBERS NOT A PART OF THE 00 MUST BE STRAPPED AT THE UPPER AND LOWER THIRD OF THE TANK.AT THE LOWER NOT FIELD MODIFY ANY TRUSS WITHOUT PRIOR TO SET BEFORE BACK FILLING. ENGINEERED STRUCTURAL SYSTEM SHALL BE W Lo STRAP,STRAP IS TO BE 4"MIN.ABOVE THE CONTROLS(IRC M1307.2). APPROVAL FROM THE ENGINEER AND BUILDING CONSTRUCTED IN ACCORDANCE WITH THE CONVENTIONAL Ix� X N DEPARTMENT.IF A TRUSS IS DAMAGED DO NOT 5. FOUNDATION VENTS ARE TO BE INSTALLED AT LIGHT-FRAME CONSTRUCTION REQUIREMENTS OF 2012 IRC. 7. WHEN INSTALLED IN A GARAGE,ALL APPLIANCES MUST HAVE THE SOURCE OF INSTALL IT.CONTACT THE BUILDER IMMEDIATELY 1/300 FT2 EVENLY PLACED TO PROVIDE CROSS O m 000 IGNITION A MINIMUM OF 18"ABOVE THE FLOOR SLAB(IRC Ml 307.3).MECH/PLUMBING FOR A REPLACEMENT TRUSS. VENTILATION EXCEPT THAT ONE SIDE ISw U)W O N `` EQUIPMENT IS TO BE PROTECTED FROM IMPACT OF A VEHICLE(IRC M1307.3.1). PERMITTED TO HAVE NO OPENINGS.THE NET FREE DOCUMENT SHEET INDEX nn `S ch 4. FRAMING CONNECTIONS SHALL BE"SIMPSON AREA MAY BE REDUCED TO 1/1500 FT2 IF GROUND V CS COVER SHEET J1 8. USE 5/8"GYPSUM OR 1/2"SAG-RESISTANT GYPSUM AT THE CEILING PER IRC TABLESTRONG TIE"(OR)AN APPROVED EQUIVALENT. SURFACE IS COVERED W/6 MIL.BLACK POLY o� - - R702.3.5. SHEETING AND VENTS ARE PLACED TO PROVIDE Al FIRST FLOOR PLAN 5. PROVIDE ATTIC VENTILATION PER IRC R806.2.THE CROSS VENTILATION OF THE SPACE.IRC R408.2 Al-1 SECOND FLOOR PLAN 9. FLASHING IS REQUIRED AT ALL EXTERIOR TRIM EXTRUSIONS,WINDOW AND DOOR NET FREE VENTILATED AREA SHALL BE 1/300 FT2 A2 BUILDING SECTIONS OPENINGS,WALL AND ROOF INTERSECTIONS,DECKATTACHMENT TO WALL,AND PROVIDED THAT MIN.50%AND MAX.80%OF THE 6. UNLESS NOTED OTHERWISE,2x MUDSILL TO BE A3 EXTERIOR ELEVATIONS OTHER AREAS THAT WATER MAY INTRUDE.WINDOWS AND DOORS SHALL BE REQUIRED VENTILATION AREA SHALL BE A MINIMUM INSTALLED FLUSH WITH THE INSIDE FACE OF A3-1 EXTERIOR ELEVATIONS INSTALLED PER MANUFACTURER INSTRUCTIONS. OF 3 FT.ABOVE EAVE VENTS.THE BALANCE OF FOUNDATION WALL AT JOIST BEARING POINTS TO A4 ARCHITECTURAL DETAILS ACCEPT JOIST HANGERS.VERIFY THAT THE A5 CABINET DETAILS 10.SINGLE STORY CONDITION U.N.O.ON S2 SHEET:NAIL ALL TOP PLATES TOGETHER W/ REQUIRED VENTILATION SHALL BE PROVIDED AT MUDSILL IS SQUARE AT ALL CORNERS. THE EAVES. A6 TALL FOUND.WHERE RECI'D 10d NAILS @ 12"O.C.AND AT SPLICES W/10d NAILS @ 6"O.C. LAP SPLICES A MIN.OF S1 FOUNDATION PLAN 48"TYPICAL,NAIL ALL BOTTOM PLATES TO FLOOR SHEATHING AND MUDSILL W/(2) 6. PROVIDE A MIN.ROUGH OPENING 22"x30"ATTIC 7. .ATTACH THE MUDSILL TO THE FOUNDATION WITH 32 SHEAR WALL PLAN 10d NAILS EA.STUD BAY,NAIL ALL FLOOR SHEATHING W/8d NAILS @ 6"O.C.EDGE1/2"x10"ANCHOR BOLTS WITH NUT AND STANDARD ACCESS PANEL WITH ATIGHT-FITTING/SELF- WASHER @ 6 FT.O.C.AND WITHIN 12"OF EACH END S3 ROOF FRAMING PLAN AND 12"O.C.FIELD,EXTERIOR STUDS MUST BE SPACED AT 16"O.C. CLOSING DOOR.DOOR SHALL BE BACKED WITH OF THE PLATE SECTION. 34 STRUCTURAL DETAILS n/ INSULATION IF LOCATED ABOVE HEATED SPACE. 7.1. IN SDC D0,DI,D2,USE 1/4"x3"x3"PLATE S5 STRUCTURAL DETAILS LJ.. 11.TWO STORY CONDITION U.N.O.ON S2 SHEET:NAIL ALL TOP PLATES TOGETHER W/ VERIFY ACCESS LOCATION WITH OWNER AND WASHER ON EACH BOLT. E1 ELECTRICAL PLAN w w 10d NAILS @ 12"O.C.AND AT SPLICES W/10d NAILS @ 5"O.C.ON FIRST FLOOR,6"O.C. PLANS, 7.2. WHERE ANCHOR BOLTS ARE MISSED USE A \ w ON SECOND FLOOR.LAP SPLICES A MIN.OF 48"TYPICAL,NAIL ALL BOTTOM PLATES 1/2"x 8"TITAN HD MECHANICAL ANCHOR BOLT. TO FLOOR SHEATHING AND MUDSILL W/(2)10d NAILS EA.STUD BAY,NAIL ALL FLOOR 7, SHEATH ROOF PER IBC CASE 1 (STAGGERED SHEATHING W/8d NAILS @ 6"O.C.EDGE AND 12"O.C.FIELD,EXTERIOR STUDS MUST PANELS UNBLOCKED)FASTEN PANELS W/8d NAILS 8. REBAR IS REQUIRED IN SDC D0,D1,D2 PER IRC DESIGN ENGINEER O BE SPACED AT 16"O.C. @ 6"O.C.EDGE AND 12"O.C.FIELD.DO NOT R403.1.3.A MIN.(1)#4 REBAR IN FOOTINGS.AND(1) 0 V J STAPLE. #4 REBAR WITHIN 12"OF TOP OF WALL. ABDELOUAHAB(Wahab)Abrous,Ph.D.,P.E. 12.ALL BEDROOMS ARE TO HAVE AN EGRESS WINDOW WITH A MIN.WIDTH OF 20" ANDA HiLine Homes Inc. MIN.HEIGHT OF 24"WITH A MINIMUM NET CLEAR OPENING NOT LESS THAN 5.7 FT2. 8. UNLESS NOTED OTHERWISE,TOE-NAIL ALL GABLE 9. THE FOUNDATION IN THIS PLAN IS DESIGNED Design&Engineering Department 36110 END TRUSSES WITH(2)10d NAILS @ 16"O.C.INTO PRESCRIPTIVELY,BUT THE CONNECTION FROM Washington State License Number.19PE 13.SEE SHEET"E1"FOR EXHAUST FAN,SMOKE AND CARBON MONOXIDE DETECTORS, THE FOUNDATION TO THE MUDSILL IS ENGINEERED Oregon State License Number:81419PE TOP PLATES. AND ELECTRICAL FIXTURE LOCATIONS. FOR RESISTING LATERAL LOADS AS OUTLINED IN Idaho State License Number.P-14132(253)770-2244 x 132 Alternate x129 9. UNLESS NOTED OTHERWISE,TOE-NAIL EACH END THE DESIGN CRITERIA ON SHEET"CS". 14.CABINET,PLUMBING FIXTURE,AND DOOR ROUGH OPENINGS ARE CRITICAL OF TRUSS AT BEARING WALLS W/(2)10d NAILS AND wabrous@hilinehomes.com DIMENSIONS.TAKE CARE TO VERIFY THAT THESE DIMENSIONS ARE FRAMED FASTEN WITH TRUSS CLIPS PER PLAN. 10.FOOTINGS AND STEM WALLS SHALL BE AS HILINE HOMES ACCURATELY. FOLLOWS(UNLESS NOTED OTHERWISE): 11306 62ND AVENUE 10.1. BELOW ONE STORY PORTIONS OF A BUILDING: PUYALLUP WA,98373 10.ASPHALT SHINGLES MUST COMPLY WITH WIND FOOTINGS=12"WIDE. g`Z-$'I'1 (253)770-2244 ext.129 15.SMOKE ALARMS ARE REQUIRED IN ALL SLEEPING ROOMS,OUTSIDE ALL SLEEPING SPEED SITE CONDITIONS AND BE SEALED IN AREAS,AND ON EACH ADDITIONAL STORY OF THE DWELLING.SYSTEM MUST BE ACCORDANCE WITH ASTM D 7158 OR UNSEALED IN STEM WALLS=6"THICK. �pU A I I /J 1/ INTERCONNECTED IN SUCH A WAY THAT ALL ALARMS SOUND WHEN ONE ISACCORDANCE WITH ASTM D 3161.IRC R905.2 10.2. BELOW TWO STORY PORTIONS OF A BUILDING:FOOTINGS=15"WIDE DATE: 7/17/14� 0,: ��;�5/ /rO PLAN: 1768 ` ACTUATED.IRC R314 STEM WALLS=6"THICK �� J '� J )' j 16.AN APPROVED CARBON MONOXIDE ALARM IS REQUIRED OUTSIDE EACH SLEEPING 11.MIN.4"STEP FLASHING AT WALL/ROOFJOB#: 10106063CONNECTIONS AND TURNED OUT AT THE BOTTOM 11.WHERE REQUIRED PER IRC R406.1,FOUNDATION AREA IN THE IMMEDIATE VICINITY OF THE BEDROOMS AND ON EACH LEVEL OF THE TO DIRECT WATER AWAY FROM THE WALL.IRC WALLS SHALL BE DAMP PROOFED AROUND THE DWELLING.IRC R315.1 R905.2.8.3 ENTIRE PERIMETER USING A METHOD THAT IS \ � ` APPROVED BY THE BUILDING DEPARTMENT. x, 12.PROVIDE DRIP EDGE AT EAVES AND GABLES OF (v'v` SHINGLED ROOFS. , i �� r O � p � til d 34'-0" 22,_0„ 12,_0„ (n E T-0" 16'-0" 3'-0" W �x F11- E 0- 16'x 16'x 7'OHD(MTL.INSULATED) o C'7V OF PORT ANGELES—Conptucl;on rIrns c J h, Issuance of this per, ;' Ir^on these plans,spe-_fi- ��C1 _ canons and other ds.. ` ' nc,'p +`�`the building official iron thereafter rer. ' the corn.,",1 of errors in said I L _ _ _ _ _ _ _ _ _ plans, specificatiac.. and other data, Pr from preventing budding operations b..: ? carried z,, ;reunder schen in GARAGE 4 !i,1Afjn of all codes of this jurisdiction. nota. ,l INSULATE,SHEETROCK,–/ 6Y ,�-- FLUSH TAPE GARAGE A � 91-92 4'_321„ 1 U-21. 4x4 POST �1� � r /�� Z C) Z � SURFACE WAgA W/'/2 _ LLI 0 ti co G.W.B CONTI — — — — t !' � if✓ Q N SOLID CORE 1BACK � J/JGV� _ o W/WEATHER PORCH0mcozo U-1 I,, W �Y0 c�TE HB � *Iv �AR&S OP C 18'x24' WH A � RANGE /CRA HOOD O ° Tu oRY]i P5 KITCHEN o r z O I_ �II PAN. _ rc� J C— 7C--7 (V c�o; I N-.-- ?OtDjvo)�- 4 R. DWI ENERGY CREDITS TABLE R406.2: v ——— o-t„ 3,_72„ 4,_92, 9'-3T., N 3° _ _ 1. HIGH EFFICIENCY HVAC EQUIPMENT 3D:DUCTLESS 24 42%z'HALF- DINING N SPLIT SYSTEM HEAT PUMPS,ZONAL CONTROL O CLIPPED 2. EFFICIENT WATER HEATING 5A-ELECTRIC WATER H4'-51" 18"x24" WALL O CRAWL CLS.IN HEATER W/A MINIMUM EF OF 0.93.AND ALL 3'-52' CLOS. DUCT PUMP SHOWERHEAD AND KITCHEN SINK FAUCETS INSTALLED IN THE HOUSE SHALL BE RATED AT 1.75 J �1 13'-3" 20'-9" GPM OR LESS.ALL OTHER LAVATORY FAUCETS SHALL L.L m BE RATED AT 1.0 GPM OR LESS. MASTER LIVING RM. _ BEDROOM r o NTRY o 3 a OI rn 3° HB 50 50 HS 20 5 FIX 50 50 HS 50 50 H S.G. FR NT A AREA SUMMARY HILINE HOMES 9 2-s PO CH 2 MAIN FLOOR AREA 884 SQ. FT. 11306 62ND AVENUE PUYALLUP WA,98373 6'-6" 6'-9„ 2'-0" 7'-6" 6'-3" 5'-0' (253)770-2244 ext.129 UPPER FLOOR AREA 884 SQ. FT. - - - - - - - - - - - ` — _ — _ — _ TOTAL FLOOR AREA 1768 SQ. FT. PLAN: 1768 FRONT PORCH 204 SQ. FT. 4x4 POST BACK PORCH 72 SQ. FT. DATE: 7/17/14 11,-4„ 11,-4„ GARAGE 528 SQ. FT. JOB#: 10106063 HB =HOSE BIB 34'-0" S.G. =SAFETY GLAZING FIRST FLOOR PLAN Al 1/8"= 1'-0" N E 0m E W max' E � OJ 2= m o CR J_t 34'-0" 2 14'-7' 5'4" 14•_1" 6._q„ 4'-32.. 4,-3, 6.-6. A A 11/8'I-JOISTS @ 50 40 HS 19.2"O.C.START r --� POINT SH ® --- I--- M W/ R STORAGE STORAGE N I J O 24 24 a° W O ti c fl3'_52"" 5'_l" 21 5.�.. ih V IL N uLJI ' BATrkN _ o t= fjE M 1314'x 11�i8' I BDRM. 3 00 TIMBER I OLLI �W Z ^ STRA D LS 24 i L9 r� Y 2 aMo g = � oU Y2°X 11�/s" 3 STUDS - I U STRAND LSL ) — JOIST ATTACH 42 Ya" I DN WAC o HANGERS N HALF WALL T I o o N 4x8 D.F.#2 FLOOR DUCTLESS 3 STUDS FRAMING W/ 24 `+' HEAT PUMP YN CUT INTO O' DOUBLE STUDS T-9'� 3-52" 6'-8" FLOOR FOR LOAD io SHEATHING 26 "' <n BEARING cq AND ATTACHED UPPER o °' i2 - LL TO JOIST. SOAK C MSTR. BDRM, o Lo 11'/8'I-JOISTS @ 19:2"O.C. = TUB = O 0 v BONUS RM.; 5'-31' 4'_1 co V-1 J ATH-V 2" I LL z 4x10 D.F.#2 4x10 D.F.#2 4x10 D. #2 50 40 HS 50 40 HS 50 40 HS Q J A A Z O 6,-6„ 3._32,. 2'-10" 6'-3" 5'-0" 9 SECOND FLOOR FRAMING '- 1/8"=1'-0" SECOND FLOOR PLAN 1/8"=1'-0" HILINE HOMES 11306 62ND AVENUE PUYALLUP WA,98373 (253)770-2244 ext.129 =INTERIOR LOAD PLAN: 1768 BEARING WALL DATE: 7/17/14 JOB#: 10106063 AM RIDGE VENTING ROOF SHEATHING REQUIREMENTS MIN.ROOF MATERIALS: COMPOSITON SHINGLES INSULATION BAFFLE 1 Ground snow load CLASS'B'15#FELT OVER AIRSPACE) MAX.40 psf MAX.70 psf Beyond 70 psf APA RATED 24/0 X16" SHEATHING. MANUFACTURED PRE- N E 7/16"O.S.B. 15/32"O.S.B. 1 5/8"O.S.B. ENGINEERED TRUSSES @ 24" 0a O.C. E 1 w w= NOTE: 2x VENT BLOCK HALF WALL OR SOLID WALL o STAIRWAYS SIMILAR. PROVIDE f 1 c N HANDRAIL MIN.(1)SIDE. TYPICAL G.W.B.(OR)%Z'SAG cc ___ EAVE END 4 ♦�--- � R-49 INSULATION RESISTANT(TABLE 0_❑ MIN.CLEAR WIDTH AT AND R702.3.5) O BELOW THE HANDRAIL HEIGHT, TYPICAL EXTERIOR WALL: "SIMPSON"HURRICANE TIES INCLUDING TREADS AND 2X6 TOP PLATES,2x6 H-2.5A UP TO 535#UPLIFT, TYPICAL INTERIOR WALL: I STUDS @ 16"O.C.,2x6 H-1 OA UP TO 1015#UPLIFT. LANDINGS, SHALL BE 312'MIN. BOTTOM PLATE,/,fi'OSB (2)2x4 TOP PLATES, 2x4 STUDS @ 19.2"O.C.W/Yi' d� SHEATHING.WRAP HOUSE WITH G.W.B.EA.SIDE,2x4 BOTTOM r 27"WHERE HANDRAILS ARE AN APPROVED WATER RESISTANT R-23 INSULATION W/VAPOR PLATE PROVIDED ON BOTH SIDES BARRIER(R703.2) LBARRIER PAINT OVER SHEET �� - �♦ ROCK / Y4"T&G SUB-FLOORING.APA MATCH HOUSE EAVE 1 1 7 LEDGER 117/8"I-JOISTS RATED 48/24 GLUED&NAILED ELEVATION \ / \ / t} CONNECTION @ 19.2 O.C. J o Z 412"MAX. --_ 1 1 ��W��11 0 co HANDRAIL BEAM PER PLAN ' V X N G.W.B.(OR)Y2"SAG TYPICAL EXTERIOR WALL: _ ~ 1}'-2" i ♦ --- Srj pNNECOTOION O FLOOR RESISR702 3T5NT(TABLE 2x6 TOP PLATES,2x6 O D m z 00 7 4x4 POST STUDS @ i6"O.C.,2x6 W U)Y O N BOTTOM PLATE,/6 OSB 2 co 4 SHEATHING.WRAP HOUSE RISERWITH AN APPROVED WATER o U o TYPICAL INTERIOR WALL: m RESISTANT BARRIER(R703.2) p O¢ (2)2x4 TOP PLATES, Uj PATIO OR DECK BY 2x4 STUDS @ 19.2"O.C.W1 Y2" MOWNER MAX.7-3/4" R-23 INSULATION W/VAPOR G.W.B.EA.SIDE,2x4 BOTTOM wLL THRESHOLD TO BARRIER PAINT OVER SHEET PLATE LANDING ROCK O 27"MIN. 4Z"MAX. _ 3/a"T&G SUB- - Z R-30 FLOOR INSULATION FLOORING.APA RATED 4%4 9/2 I JOISTS 36"MIN. PROJECTION _ GLUED&NAILED @ 19.2 O.C. TYPICAL HANDRAIL 1 BLACK 6 MIL.POLY VISQUEEN VAPORL TYPICAL I v DIMENSIONS \ / 1 r ♦ ��_��/ BARRIER THROUGHOUT CRAWL SPACE. i I S4 PONYWALL I z z c 3 POST TO PIER 0 O S4 CONN. PICAL \♦_�' BUILDING SECTION A-A \♦'/ �_ U HANDRAIL 1/4"=1'-0" S5 OUNDATION U /111 ) Z v r O O �;, o ��LL o NOTE: NOTE: w m PROVIDE THE FOLLOWING CLEAR PROVIDE LIGHTING PER N R303.6.AT TOP AND = 0 DIMENSIONS: BOTTOM OF STAIRWAYHEADROOM 6-8"MIN. HILINE HOMES ACCESS W/SWITCHES w 2X8 LEDGER TYP• TREAD WIDTH 36"MIN. 11306 62ND AVENUE - � AT BOTH LOCATIONS 1/2"SHEETROCK �� HANDRAIL HEIGHT BETWEEN 34%38"00 PUYALLUP WA,98373 W/OUT TRAVERSING o (3)2x12 STRINGERS i� 3 (253)770 2244 ext.129 ANY STEPS. — RISE 7-4"MAX. o co RUN 10"MIN. FIRE BLOCKING i� �„ LO PLAN: 1768 14'-1" 0 6'-11Z T-2" PROVIDE HANDRAILS ON ALL STAIRS DATE: 7/17/14 CLOSED OFF W/(3)OR MORE RISERS.A SINGLE UNUSABLE SPACE HANDRAIL IS ACCEPTABLE WHEN JOB#: 10106063 2x4 WALL STAIRWAYS ARE LESS THAN 44" WIDE. HANDRAIL SHALL BE 1 1/2"-2"ROUND OR EQ.GRIPPING A STAIR DETAILS SHAPE SET MIN. 1 1/2"FROM WALL. 2 STANDARD CEILING NTS FIBERGLASS COMP.SHINGLES CLASS"B"MIN. RIDGE VENTING .. ........... ................ 7 ........... .......... 0 . E .......... U . ......................= . ....... . .... .... .... ----—------- E LLI ................ ................................ .................... ----------............ ........................ .................. E L7- 0 ........... CN Zi fi =Ell - E ZEE � 3:11O . ................ -------------............. ......... ........ ... ......... 4 X CORNER TRIM El 0 . OWNER FINISHED GRADE BY OWNER M FRO z M E:]E:IEII:JEI=F-]F-1 BUILDING 6"IN 10'-0"MIN. 0 00 . El D El D 1:1, SHALL SLOPE AWAY FROM — u I - S.G. DEDEDODO CEMENT LAP SIDING OM13 POST& REAR ELEVATION WRAPPEBEAM--- D W/ FRONT ELEVATION 4X4 POSTJ c6" 1/8"=11-01, FIBER CEMENT .1 SIDING 1/8" V-0 0 u)LU Z LjJ y o N 2x6 BARGE BD. co W/METAL DRIP EDGE ................. o Q C) SITE ADDRESS: 1924 WEST 4TH ST. PORT ANGELES,WA 98382 ................................. ............... ............................... ADDRESS MUST BE LOCATED U) .. .......... ON THE HOUSE WHERE IT IS EASILY .............-.......... ....... ............................... .............. ............................ SEEN FROM THE MAIN ACCESS ROAD LJ. z (OWNER RESPONSIBILITY) 0 LL r 12 w < X >w Lu W % V%n x4NDOWTRIM-i 4x POST AND-i FIGHT ELEVATION BEAM 1/8"=1'-0" 2x6 RAFTER . .............................................. ...... HILINE HOMES 11306 62ND AVENUE -- ---- PUYALLUP WA,98373 ........ —-------------- (253)770-2244 ext.129 ... .............. PLAN: 1768 4x POST AND BEAM DATE: 7/17/14 JOB#: 10106063 LEFT ELEVATION NOTE: A3 1/8" EXTERIOR APPEARANCE WILL VARY BY SIDING CHOICE,MATERIAL AVAILABILITY AND BUILDER DISCRETION. INSULATION CONT. FrMFR. BEHIND"T'WALLS RUSSES @ 24"O.C. JOISTS @ CONTINUOUS N E 19.2"O.C. 2x4 PLATES m 2x VENT BLOCKING W/BORED HOLES `y U.N.O. LJ m &INSECT SCREENS.NAIL W/8d NAILS m @6"O.C.THROUGH ROOF SHEATHING. 2x4 STUD(INTERIOR �t o= TOE-NAIL BLOCKING TO EACH TRUSS WALL) m o W/(1)10d NAILS EA.END OF BLOCK. CN 0 = a BUILT UP PONY LL 2x6 DRYWALL BACKER HEADER = ^i Z TRIMMER io FASTEN BLOCKING TO TOP 2x6 STUDS @ 16"O.C. 2'-0" PLATE W/"SIMPSON"RBC EXTERIOR WALLS MIN. CLIPS @24"O.C.FILL ALL FOOTING NAIL HOLES. Z SIMPSON"H"CLIPS PER S3 V-4" JO HOLES.FILL ALL NAIL TRUSS TAILS 2 INTERIOR WALL DETAIL CRAWL ACCESS DETAIL W Lo TYPICAL NTS 3TYP0 x N 2x6 TOP PLATE ICAL NTS O j m 60 ao W (nYOM :D—EAVE END DETAIL c) Q TYPICAL NTS FULLY INSULATED 2x6 DOUBLE TOP METAL FLASHING CORNER PLATE 2x8 LEDGER MIN.ATTACH TO INSULATION STUDS W/(3) 10d NAILS @ 16" O.C. =�'� 2x6 RAFTERS @ 24"O.C. Q 2x6 VERTICAL H1 OR 2.5A CLIP 2x4 DRYWALL BACKER OR CLIPSSOLID "SIMPSON" 2x6 FLAT DRYWALL � EXT.SHEATHING BLOCK LUS26 HANGER j"`1JJJ 2x6 STUDS @ 16"O.C. I OR EQUAL Q w EXTERIOR WALLS BEAM PER PLAN �— W qYEXT. CORNER DETAIL GABLE END HEADER DETAIL POST°A (FILL (=j 77PICAL NTS TYPICAL NTS ALL NAIL HOLES) Q 2x6 DOUBLE TOP POSITIVE CONNECTION PLATE ` SEE DETAIL 3 ON SHEET S4. PIER PER HILINE HOMES PLAN 11306 62ND AVENUE R-10 RIGID PUYALLUP WA,98373 INSUL. (253)770-2244 ext.129 2x NAILER PLAN: 1768 DRYWALL DATE: 7/17/14 EXT.SHEATHING JOB#: 10106063 4x HEADER U.N.O. PORCH FRAMING DETAIL c INSUL. HEADER DETAIL TYPICAL NTS A4 `� TYPICAL NTS L i FILLER T-O" T-6" 1'_3„ V-0„ 1 r-Orr 1,_3, 9„ 2'-0„ Z-6' 2'-0„ 1.0„ 0 . UI £ V E 1 w E 90 O m o � C N E;�I J_W ---- N -1 a I 11E 04 7 3:1 I I I I I I RANGE I HOOD I I zo I I r I / I REF.J I � 0 I I < o Z� ti a0 I I � I � W � t0 ih rn DZE K ANG DW n m Z 0 W (nYOm C� g = v FILLER FILLER o U_ r n r n C 2 2'-9" 1'-0" 2'-0" 2-0 1'-o" 2-6 2'-9" 2'-0" 2'-0" 1'-6" T-0" 2r-Orr "T "T KITCHEN 2 KITCHEN KITCHEN NTS NTS NTS W J Z Q ❑ - ❑ ❑ ❑ Q w ❑ ❑ o o U o a 1'-0" 2'-0" 1'-0" FILLER HILINE HOMES 1'-3" 2'-0" 1'-0" T-0" 11306 62ND AVENUE PUYALLUP WA,98373 (253)770-2244 ext.129 q�MSTR. BATH 5 MSTR. BATH 6 BATH PLAN: 1768 NTS NTS NTS DATE: 7/17/14 NOTES: JOB* 10106063 1. CABINETMAKER TO VERIFY ALL CABINET DIMENSIONS ON SITE. 2. THIS DRAWING IS AN APPROXIMATE REPRESENTATION FOR THE CABINET DESIGN.ACTUAL CABINET UNITS MAY VARY PER CABINET MAKER. A5 3. FOR 9'CEILING OPTION-ADD 6"OF HEIGHT TO UPPER CABINETS. NOTE: ATTACH MAIN LEVEL FRAMING TO 1. FOR SEISMIC DESIGN AREAS D0,D1 AND D2,WHERE UNBALANCED BACKFILL DOES FOUNDATION W/Y2"x 7"HILTI QB-TZ NOT EXCEED 4'-0"AND FOUNDATION WALL DOES NOT EXCEED 4'-6"IN HEIGHT, ATTACHED TO A Yi'COUPLING, FOUNDATION WALL IS PERMITTED TO BE 6"THICK W/(1)#4 CONTINUOUS REBAR ATTACHED TO A Y2"THREADED ROD WITHIN TOP 12"OF FOUNDATION WALL.(§R404.1.4.2,EXCEPTION 3.) In OR ASTM A 307 BOLT,ATTACHED E TO A"SIMPSON"L_rT20B HOLDOWN 2. WHERE THERE IS MORE THAN 4'-0"OF UNBALANCED BACKFILL WALLS MUST BE E ATTACHED TO MAIN FLOOR LATERALLY RESTRAINED AT THE TOP AND BOTTOM(OR)DESIGNED AS A W m FRAMING PER MFR.INSTRUCTIONS. RETAINING WALL. E J USE A 2"WASHER AND Yi'NUT. a 3. FOUNDATION SUB-CONTRACTOR IS REQUIRED TO VERIFY STEP LOCATIONS WITH CONTRACTOR AND BUILDING DEPARTMENT. c J II ATTACH UPPER WALL =.T FRAMING TO LOWER WALL 4. ALL CRIPPLE WALLS ARE TO BE SHEATHED AND NAILED PER SHEARWALL DETAILS o FRAMING W/"SIMPSON"CS14 AS SHOWN ON PLANS.WHEN PLANS CALL FOR A HOLDOWN AND THERE IS A 0 STRAP(U.N.O.ON SHEET S2). CRIPPLE WALL THEN THERE MUST BE A CONNECTION MADE FROM THE 3 ATTACH SHEATHING EDGES FOUNDATION TO THE BOTTOM PLATE OF THE MAIN LEVEL WALL USING A 1/2" _ II �. AT SOLE PLATE AND TOP COUPLER ATTACHED TO A THREADED ROD OR AN ASTM A 307 BOLT.CONNECT TO I� FOR PLATES W/8d NAILS @ 4"O.C. MAIN LEVEL WALL BOTTOM PLATE WITH A"SIMPSON"LTT20B HOLDOWN(SEE RIMBOARD DETAIL"A"). WHEN A RIM BOARD IS USED,ATTACH WALL ABOVE AND BELOW OPTION WITH"SIMPSON"CS14 STRAP,U.N.O.ON SHEET S2(SEE DETAIL"B"). I I 5. THE FOUNDATION IN THIS PLAN IS DESIGNED PRESCRIPTIVELY.THE MUDSILL ii CONNECTION IS ENGINEERED. WHERE 1/2"ANCHOR BOLTS ARE MISSED PER PLAN THEN A REPLACEMENT IS ALLOWED PER SHEET CS"FOUNDATION&FLOOR FRAMING NOTES".THIS DETAIL IS INTENDED TO SHOW THE SHEAR TRANSFER Z ti DETAIL A FROM THE MAIN LEVEL WALLS TO THE PRESCRIPTIVE FOUNDATION USING Z TOE-NAIL RIMBOARD W/ CRIPPLE WALLS THAT DO NOT EXCEED SIX FEET IN HEIGHT. w O r-- � 10d NAILS @ 12"O.C.U.N.O. _ H N DETAIL B z co ATTACH O.S.B.SHEATHING O =tLu o TO TOP PLATE W/8d NAILS rLrLnI Y M PER SHEARWALL PLAN TOP FLANGE JOIST HANGER TO V g = s NAILING.NAIL TOP PLATES HANG OFF THE DOUBLE TOP o U TOGETHER W/10d NAILS @ PLATE OF THE CRIPPLE WALL. 0 12"O.C.SPLICES ARE TO BE ATTACH HANGER PER MFR. A MIN.OF 48"ATTACHED W/ SPECIFICATIONS. 10d NAILS @ 6"O.C. SEE DETAIL"A"ABOVE WHEN FRAME ALL EXTERIOR 2x STUDS 2x SOLE PLATE HOLDOWNS ARE REQUIRED WALLS AT CRIPPLE @ 16"O.C. WHERE A CRIPPLE WALL IS WALL PERIMETERS PER Via'T&G SUBFLOORING _ USED. DETAIL 1 ON S4 SHEATHING LAPS TOP 2x MUD SILL z PLATE O U) J � Q Ali �- \ t z o v oATTACH O.S.B.SHEATHING TO J Q MUDSILL W/8d NAILS PER LL< 1 LL W SHEARWALL PLAN NAILING. m w < ATTACH MUDSILL TO '' \ FOUNDATION WITH Yz' • "i. _ w J to - ANCHOR BOLTS SPACED ' ; I ' 0 _j PER PLAN.SEE SHEET CS s I s vZ Y a HILINE HOMES g U ¢ 11306 62ND AVENUE "FOUNDATION&FLOOR ¢ 98373 FRAMING NOTES". " M z 253)A770 2244 ext 129 PLAN: 1768 DATE: 7/17/14 I i JOB#: 10106063 I - = 1I— I ' STEPPED FOUNDATION / CRIPPLE WALL A6 SHEAR TRANSFER TO PRESCTIPTIVE FOUNDATION NTS 33'-11" 21'-11"(•12"FOOTING) 12'-0"(15^FOOTING) In E o -, 16,_3„ 4 E 0" ROUGH OPENING 2'-10" W d m 2 2 E o= , C — J — — — — — — — i N _t �_❑ = n II II �z �o II I I I 6"TYP I 1 STRY12"TYP � ATTENTION o I I Ca"CONC.SLAB ON 1 S RY o O I COMPACTED GRAVEL FILL. I O _"SIMPSON"STHD14 HOLDOWN SEE N I I SLOPE SLAB DN.2"TO cm T. DOOR. I 24"0x12"CONC. V. J DETAIL 3 ON SHEET S5.(TOTAL=6) 5 I I PIER W/POS. *r!, Z ri Q SS 12._o-„ CONN. o ''Lun O ti 0 N I I I N V _"SIMPSON"STHD10 HOLDOWN SEE I I �/ _ p (2 a->- >-wDETAIL 1 ON SHEET S5.(TOTAL=4) I I I POST TO 3 �i® m 0 co a} PIER CONN. S4 �1�,�/ O Z UU ~v~iSTOOP BY OWNER _ W c/)Y M Co N w 18"x24"INSULATED MAX.7%"RISE, A �0 9Y2"I-JOISTS @ g = 00 _"SIMPSON"STHD10 HOLDOWN SEE I io 19.2"O.C.START I CRAWL ACC.W/TIGHT I MIN.36"SQUARE O U DETAIL 2 ON SHEET S5.(TOTAL=2) I — — — FITTING DOORPOINT— — — J (IRC,R311.3) — — —0 3 M FOUNDATION FOOTING WIDTHS — — — TI VARY ON THIS PLAN.PLEASE V I. 16 x81'SCREENED VERIFY FOOTING WIDTHS. I I ; ' TYPICAL 2 FOUNDATIONIVENT PONYWALL S4 \6 N11L uISQUEEN.VPIPOR I =� 19-102' BARRIER THROUGHOUT CRAWL I 9 REBAR. + rt SPACE LAP SPLICES 12"MIN. �i �DRYER� — — — 32� 5 1' 9 14" I O I VENT F H CD 21-0'I #4 REBA H — — 24"x241'x120 J 136"#4 REBAR. CONCRETE I ACL N I JOISTS BEAR ON 2x4 FTG. 211-011 N PONYWALL OVER 12"X 6" _ _ _ _ CONTINUOUS FOOTING 9 "I-JOISTS 19 2 OIC. — ILL TOP FLANGE JOIST I v —17 HANGER.MUDSILL �2jj in FLUSH TO INSIDE I Ov`�{li1l3 I 13 mi 5'6° 4'-3" TO H. TOiH.D. TO H.D._ — — — I OI 06 HILINE HOMES 11306 62ND AVENUE STOOP BY OWNER qy PUYALLUP WA,98373 MAX.7 3/"RISE, (253)770-2244 ext.129 b" MIN.36"SQUARE CID 1 10 )4_VYPICALz—' 1 ri (IRC,R311.3) �F �� 1 1 io CG ' PLAN: 1768 i' �N tO- i' rG�. �ri.��G.�� { % DATE: 7/17/14 • %% S5 FOUND. 1 • j l • j 1 • 1 �.S S ` : /��,v n 1. JOB#: 10106063 POST TO PIE 3 11'4" l'-4" 11'4" 24"0x12"CONC. CONN. S4 PIER W/POS. 34'-0"(IS-FOOTING) CONN. FOUNDATION PLAN S 1 1/8"= 1'-0" GENERAL LATERAL NOTES ul R 12 2 2 1. NO CHANGES SHALL BE MADE WITHOUT THE CONSENT OF THE LEGEND E ITGENERAL CONTRACTOR AND BUILDING DEPARTMENT. u E D =SHEARWALL SEGMENT W _ 2. O.S.B.WALL SHEATHING 7/16"MINIMUM ONLY FOR EXTERIOR E m E C -- 2 SHEARWALLS.NAIL SHEARWALLS PER EXTERIOR SHEARWALL ="SIMPSON"STHD14 HOEDOWN SEE _ DETAIL 1 ON SHEET S4 U.N.O. DETAIL 3 ON SHEET S5.(TOTAL=6) c N 3. NAIL ALL TOP PLATES TOGETHER WITH 10d NAILS @ 12"O.C.AND 1 J AT SPLICES W/10d NAILS @ 5"O.C.ON FIRST FLOOR,6"O.C.ON lm 12D SECOND FLOOR.LAP SPLICES A MIN.OF 48"TYPICAL,NAIL ALL ="SIMPSON"STHD10 HOLDOWN SEE f BOTTOM PLATES TO FLOOR SHEATHING AND MUDSILL W/(2)10d DETAIL 1 ON SHEET S5.(TOTAL=4) 2 NAILS EACH STUD BAY. 2 4. FASTEN ALL O.S.B.SHEARWALLS W/8d NAILS @ 6"O.C.EDGE AND 12"O.C.FIELD.U.N.O.AT GARAGE PORTALS:FASTEN ALL OSB ="SIMPSON"STHD10 HOLDOWN SEE GARAGE SHEARWALLS W/8d NAILS @ 4"O.C.EDGE AND 12"O.C.FIELD DETAIL 2 ON SHEET S5.(TOTAL=2) U.N.O. 3 5. WHERE PLAN REQUIRES SHEATHING TO BE ATTACHED TO THE I =ATTACH MAIN FLOOR TO UPPER MUDSILL ON THE PONY WALLS PER SHEARWALL DETAILS, — FLOOR"SIMPSON"CS14 STRAPS, i PONYWALL STUDS MAY BE OFFSET TO ALIGN W/ONE EDGE WHEN U) END LENGTH=16",SEE DETAIL 8 ON z A 2x6 MUDSILL IS USED.THIS WILL ALLOW FOR THE REQUIRED U O SHEET S4. (TOTAL=4) Z v MUDSILL ATTACHMENT.SEE PLANS FOR THIS REQUIREMENT. W O ti 00 4 SHEARWALL rn S4 O.S.B ON GARAGE BACK N 2 SIDE PORCH A I A O 0° z tO W (n Y O M CS14 g U m ----- --- -- -- � - I�-- co - I o UTI [oss7r�-� ` I I V CE KITCHEN L !_Ji O BAT BDRM. 3 co_ _ 4 I � II I .w II ---� DINING , WIC Q z UPPER � Q MASTER LIVING RM. MSTR. BDRM. Q BEDROOM BONUS RM. W ENTRY = r r U) BATH I CS14 FRONT PORCH A U SECOND FLOOR A v I HILINE HOMES 1 1 1 1 1 1 ( 1 1 �_ ^I 11306 62ND AVENUE \`JJ 1 PUYALLUP WA,98373 4"EDGE NAILING 3 �( (253)770-2244 ext.129 - - — — — I �0 'lig, PLAN: 1768 FIRST FLOOR e, c ° t,� Gf, DATE: 7/17/14 JOB#: 10106063 3 )rte V SHEAR WALL PLAN 0 ., S2 WU' 4X12 D F.#2 0 m W m= _ I ..... E o= LEGEND t ® = CUT OUT FOR VENTING.SEE 5:12 :3_ 1=❑ = a PLAN FOR HOLE SIZE. _ _ _ _ _ _ J "SIMPSON"HURRICANE TIES ® = GUTTER DOWNSPOUT LOCATION - ---- H-2.5A UP TO 535#UPLIFT, O U z H-10A UP TO 1015#UPLIFT. I NON-STRUCTURAL FULL HEIGHT WALL FOR SHEET - O.... F ...... ... ....___ _.. _.._.. ROCK ATTACH.ATTACH STUDS TO TRUSS BOTTOMN w CHORD W/(2)10d NAILS AT EA.FRAMED UP STUD. > w 0 U .. PORCH t6 D civ FRAMING � ATTIC VENTILATION: 0 4X4 POST W/ LL SIMPSON BC4 Z EAVE VENTS=(3)2.125"0 HOLES PER BLOCK=8.51 INZ/BLOCK TYPICAL 12" — — — J RIDGE VENT("LOMANCO"LOR9-4)=11 IN2/FT. RIPPED ROOF a SHEAR TRANSFER HAND FRAME W 2X6 RAFTER POST CAP Z C) SHEATHING AT GABLE - �` � GARAGE: S3 @GARAGE ROOF PLAIN A uJ O I� U) TOTAL ATTIC AREA= 531 FT =76,464 IN2 -- ----- ------ - -... LP 5:12 2 N TOTAL VENTILATION REQUIRED X00)= 254 IN2 1 =m 0 M TOTAL EAVE VENT=22 BLOCKS - 1871N2 / 1 0 U)w O C,4 Y TOTAL RIDGE VENT =20 FT. = 220 IN _ TOTAL VENTILATION PROVIDED = 407 IN 2X4 LOOK- HOUSE: OUTS @ 48" �. 4 ............ ....... O.C. TOTAL ATTIC AREA= 884 FT2 =127,296 IN TOTAL VENTILATION REQUIRED%oo)= 424 IN rr=== TOTAL EAVE VENT=34 BLOCKS = 289 IN I I TOTAL RIDGE VENT =32 FT. = 352 IN2 TOTAL VENTILATION PROVIDED = 641 IN2 I I 47 fn CUT SHEATHING BACK 1" 32'RIDGE VENTING I 5:1 V EA.SIDE OF PEAK FOR I1 z VENTING. Lf.L'.. Z P.E.TR SES @ 24"O.C. I.B,C:'CASE 1 ROOF LL J ..............- E A SHEATHING.LAYOUT LL I.L 5:12 HAND FRAME W/2X6 RAFTERS PLAIN LP 1 AI I �t3 HILINE HOMES _ Ov `I/j� 11306 62ND AVENUE 4X10 D.F.#2 4X1U D.F.#2 _4'10 D.F.#2 ;� o\ ��.\.S///l r0 PUYALLUP WA,98373 G4p, (253)770-2244 ext.129 �! 1 6 PORCH 44 POST W/ PLAN: 1768 4 FRAMING SIMPSON BC4 l POST CAP DATE: 7/17/14 JOB#: 10106063 ROOF FRAMING PLAN S3 1/8"= 1'-0" FCBIRDBLOCKING. ES REQUIRED WHEN JOISTS ARE 10d HUNG ON THE MUDSILL U.N.O. "SIMPSON"ABU" C. CONNECTOR OR EQUIVALENT DOUBLE TOP PLATES INSTALLED PER MFR. 4x4 POST PER W/AMINIMUM48" FLOOR JOIST INSTRUCTIONS.ATTACH TOPLAN 2 N(OR) E CONT.BLOCKING.NAIL LAP AT SPLICES. CONCRETE PIER PER PLAN W/ G y THROUGH ROOF ( l l l'I 2X4 WALL 19.2" AT JOISTS TO TOP 5/8"x 6""SIMPSON"TITEN HD (Z E @ OR EQUIVALENT. SHEATH.W/8d NAILS @ O.C.STUDS DIRECLTY PLATES W/(2)1 O NAILS AT W 0 6"O.C. I I I l BELOW JOISTS TYP. EA.BEARING POINT TYP. — I� 1� �, III - m o 7 l l SHEATH PONY 2x TREATED PLATE(OR) _III- III 1 1 c NAIL MIN./6 WALL WALLS AT INTERIOR J t SHEATHING W/8d COMMON SHEAR WALLS ONLY 2x PLATE OVER VAPOR = a �Ii:\13 BARRIER — ..: III �O I/, ��❑ NAILS @ 6"O.C.EDGE AND I I I I 12"x6"CONTIN. %z'ANCHOR BOLTS @ I= ' 1 ��\ 0\ Y 12"O.C.FIELD(U.N.O.ON FOOTING. —I - �' S2 SHEET) 6'O.C.W/3„x3"XYa„ III III —�\ ^�t: r WASHER U.N.O. 1— ;'F Aon I PONY WALL DETAIL 3 POST TO PIER CONN. 2x STUDS @ ^�� TYPICAL NTS "SIMPSON"ABU44 W/TITEN NTS 3611 16”O.C. I•l J/. r<?;ISI'1;�i�' c FASTEN BLOCKING TO TOP BOTTOM PLATE I I PLATE W/"SIMPSON"RBC S�O N A L L` O.S.B. CLIPS @24"O.C.FILL ALL 2x MUDSILL STOOD I NAILw UPRIGHT 2x VENT BLOCKING W/BZ 2 10d NAILS EACH Isl (OR) &INSECT SCREENS.NAIJ O ( ) 6"O.C.THROUGH ROOF z STUD BAY BLOCKED l I TOE-NAIL BLOCKING TO Q 00 TRUSS W/(1)10d NAILS _END OF BLOCKENGINEERED ° — ', i/ I CONNECTION FROM �MUDSILL TO N INSULATION BOARD O nFOUNDATION.SEE +; PRESCRIPTIVE ' " aR SPAQE FOR APPROXIMATELYY ATTACH 2x MUDSILL TO HANG OVER OUND. LLI '^W ZONCONNECTION ILATION. VI YDETAILS ON S4 FOUNDATION jj SHEATHING.0 MUDSILL N S2 SON TRUSS CLIPS PER NAILS(a�6"O.C.(U.N.O.ON S2 S3 SHEET.FILL ALL NAIL SHEET). O 0 EXTERIOR S H EA RWA L L n HALES.BEND TO CLEAR (2)2X6 TOP PLATES W/MIN. BOTTOM CHORD.(WHERE —��` EE 1 48"LAP.ATTACH W/10d 0 NAILS @ 12"O.C. REQUIRED AT VAULTS) ` TYPICALLY AND AT 6"O.C. OVER PRESCRIPTIVE FOUNDATION WALL NTS AT LAPS. ENGINEERED CONN ECTION- EXTERIOR WALL ATTACH MUDSILL W/112"x10" TVP.WALL SHEATHING: / STUDS @ 16'O.C. (2)2X6 TOP PLATES W/ ANCHOR BOLT W/STD.WASHER ' i NAIL'TOP PLATES SHEATH W/MIN.7/16"O.S.B. MIN.48"LAP.ATTACH W/ @ 6 FT O.C.UNO ON S1 SHEET. I ATTACH TO WALL STUDS ATTACH BOTTOM PLATE , - TOGETHER W/1 Od STOOD UPRIGHT OR W/10d NAILS @ 8"O.C. 10d NAILS @ 12"O.C. DIAPHRAGM (IN SOC D0,Dt,D2 USE i - 1/4"x3"x3"PLATE WASHER). T TYPICALLY AND AT 6" CONNECTION BLOCKED W/Bd NAILS(B 6 I•I �•I " • __ NAILS @ 12"Q.C. I O.C.EDGE AND 12"O.C. II O.C.AT LAPS. DETAIL PER PLAN EMBED BOLT A MINIMUM 7 INCHES(DO NOT _ FIELD.SHEATHING MUST BE 11%"MANUFACTURED"I" TYP.WALL SHEATHING: COUNTERSINK.) - BIRD BLOCKING.(OR) ATTACHED TO MUDSILL.SEE JOISTS AND RIM JOISTS UNLESS NOTED OTHERWISE, S2 SHEET FOR ADDITIONAL EXTERIOR WALL CONT.BLOCKING.NAIL PER PLAN. SHEATH BOTH SIDES Wt MIN. STUDS @ 16"O.C. THROUGH ROOF SHEATH, l l l•I REQUIREMETS. 1/2"G.W.B.ATTACH TO WALL SI LLCO N N ECTI O N W/8d NAILS @ 6"O.C. I I I I BLOCKED W/TYPE S OR STUDS STOOD UPRIGHT OR ST NTS ATTACH ALL BOTTOM TYPE W DRYWALL SCREWS INSULATION PER LAP WALL SHEATHING AT J 4EDGE AND 4FIELD. THE A2 SHEET PLATES W/10d NAILS PLATES.LOCATION MAY @ " " i Q O.S.B.GARAGE SIDE OF l'l VARY DEPENDENG ON WALL @ 8 O.C. FIRE TAPE ALL SEAMS.SEE J WALL FASTEN W/8d HEIGHTS.ATTACH WALL FLOOR SYSTEM: THE S2 SHEET FOR FLOOR SYSTEM: 3/4"MIN.T&G SUBFLOOR ADDTIONAL REQUIREMENTS. SHEATHING AT BOTH THE 3/4"MIN.T&G SUBFLOOR COMMON NAILS @ 6"O.C. l GLUED AND NAILED TO W TOP OF THE MAIN LEVEL GLUED AND NAILED TO Q EDGE AND 12"O.C.FIELD JOIST w/8d @ 6"O.C. WALL AND THE BOTTOM OF HOLDOWN JOIST w/8d @ 6"O.C. 1 DOUBLE 2X (U.N.O.ON S2 SHEET) THE UPPER LEVEL WALL. EDGE&12"O.C.FIELD. CONNECTIONS MAY BE EDGE&12"O.C.FIELD. FLOOR JOISTS PER PLAN FRAMING REQUIRED.SEE THE S2 FLOOR JOISTS PER PLAN ATTACH MAIN FLOOR TO @19.2"O.C. O 'w SHEET FOR TYPE AND @ 19.2"O.C. z V, w UPPER FLOOR W/ LOCATION. ❑ "SIMPSON"CS14 STRAP Z PER MFR.INSTRUCTIONS. HOEDOWN INSULATION PER ATTACH G.W.B. w CONNECTIONS MAY BE _ THE A2 SHEET. SHEATHING TO BOTTOM (2)10d NAILS EA. REQUIRED.SEETHE S2 PLATE AND MUDSILL W/ — STUD BAY INTO NOTE: O.S.B. SEE SHEET S2 FOR 2X STUDS SHEET FOR TYPE AND "` TYPE S OR W SCREWS BOTTOM PLATES I l l STOOD I ��— " END LENGTH HILINE HOMES @ 16"O.C. LOCATION. 4"O.C.EDGE AND 4"O. UPRIGHT ' i , FIELD. ) ii (I ' REQUIREMENTS \ 11306 62ND AVENUE (OR) j ) i14" �iL R ) i TOE-NAIL RIMBOARD TO PUYALLUP WA,98373 2x MUDSILL HBLOCKED I { F' {253)770-2244 ext.129 l I I _� tI I GARAGE 11 f-SEE GARAGE TOP PLATES W/10d NAILS (2)10d NAILS EA. it ' SLAB II I FOUNDATION ' @ 12"O.C. — II DETAIL FOR SIZE it i-, STUD BAY ENGINEERED —III " IP ♦—SEE HOUSE ENGINEERED ) 11- ) AND REBAR x I ATTACH TOP PLATES W/ PLAN: 1768 CONNECTION- ) FOUNDATION I, ..11' I i B=iv - SEE CONNECTION- ) I :_ II. ) REQUIREMENTS. c� 10d NAILS @ 12"O.C. DATE: 7/17/14 ENGINEERED a SEE FOUNDATION ) ) DETAIL FOR SIZE SEE FOUNDATION ) w CONNECTION FROM DETAIL. — AND REBAR DETAIL. —i :II ) o MUDSILL TO FOUND. PRESCRIPTIVE I -: _� REQUIREMENTS. _ ( II. ) w OSB SEAM JOB#: 10106063 CONNECTION �i FOUNDATION �/ I. II —�J BUILDING CORNER DETAILS ON S4 _ �`f -� '-��=� I-i I I-' ' -' �+..� —' � —I_ DOUBLE 2x FRAMING S4��•------�� S 4 i • 4 SHEARWALL DETAIL C EXTERIOR WALL FRAMING �+ GARAGE FIRE WALL FRAMING CONNECTION DETAIL OVER PRESCRIPTIVE FOUNDATION WALL NTS J JOISTS IHUNG TORFOU DATION WALL NTS V JOISTS HUNG TO FOUNDATION WALL NTS 8 CS-14 STRAP/FACE OF WALL NTS BIRD BLOCKING OR TRUSS T I BOTTOM CHORD.NAIL THROUGH ROOF SHEATH. _ _ _ . . . . . . . . . . . . . . . .. W/8d NAILS @ 6"O.C.AT T_ I • • • FAVE ENDS I I I I III FLOOR FRAMING ABOVE FLOOR FRAMING ABOVE N E 0 . GARAGE HEADER W/ MIN.6"BEARING % W m= i- - � - I- - � - E NAIL TOP PLATES TOGETHER W/10d NAILS @ 12"O.C.U.N.O. c N IIIT NAIL W/8d COMMON NAILS @ 4" I I I I I I I I° NAIL TOP PLATES TOGETHER �\ NAIL TOP PLATES TOGETHER [3 = a O.C.EDGE AND 12"O.C.FIELD I I III° W/10d NAILS @ 12"O.C.U.N.O. g (U.N.O.ON S2 SHEET) I I I I I I,I %�• W/10d NAILS @ 12"O.C.U.N.O. Q WINDOW OR DOOR HEADERV 3:1 2x STUDS @ 16"O.C. I I I I I° III I III° WINDOW OR DOOR HEADER (2)10d NAILS EA.STUD BAY I I I I O.S.B. III, NAIL W/8d COMMON NAILS @ 6" III I I I (• O.C.EDGE AND 12"O.C.FIELD III NAIL W/8d COMMON NAILS @ 6" (VERTICAL I I' (U.N.O.ON S2 SHEI O.C.EDGE AND 12"O.C.FIE ET) LD III' ATTACH SHEATHING TO BLOCKED I I I I (U.N.O.ON S2 SHEET) III I,I MUDSILL AND BOTTOM ( I PANELS 2�-Z�a/ 2x STUDS @ 16"O.C. III I I O.S.B. I I I° PLATES W/8d NAILS @ 4"O.C. Y I O.S.B. VERTICA zx STUDS @ 16"O.C. I I I I VERTICA "SIMPSON"STHD10 HOLDOWN, I'I O I/ (2)10d NAILS EA.STUD BAY I I I pANELS� I ° (2)10d NAILS EA.STUD BAY I I BLOCKED UPI(:\13 ATTACH PER MFR.SPECS. III' I I I I PANELS ° , '`; G I III, Zv P.T.MUDSILL G SIMPSON"STHD10 „ W O � 0 II I I III SIMPSON"STHD14 HOLDDOWN. I v l-. 1 9 1 �!R. HOLDDOWN.ATTACH PER I I O Yi'x10"ANCHOR BOLTS `' j MFR.SPECS. III• u 0 4: �'•i ATTACH PER MFR.SPECS. V � x (V 04 W1X"x3"WASHER - ____ __ o i - — m #4 HORIZONTAL REBAR 12 �(>I l ti.�� v — — — — Y Z 00 P.T.MUDSILL 0 II II �r� M SHEARWALL DETAIL S/UNr P.T.MUDSILL 0 0 V00 Yi'x10"ANCHOR BOLTS 10 I __ WI-- -=-_ _- Yz'"x10"ANCHOR BOLTS 101--_ -__I01 O U W/Y4"x3"WASHER Lru_ *------ W/Y4"x 3"WASHER 0 SIMPSON STHD10 AT GARAGE NTS #4 HORIZONTAL REBAR 1Z #a HORIZONTAL REBAR 12' SHEARWALL DETAIL SHEARWALL DETAIL FLOOR SYSTEM: SIMPSON STHD10 NTS SIMPSON STHD14 NTS 3/4"MIN.T&G SUBFLOOR GLUED AND NAILED TO ATTACHMENT PER JOIST w/8d @ 6"O.C.EDGE&12"O.C.FIELD. SHEARWALL FLOOR JOISTS PER PLAN @ 19.2"O.C.HUNG W/ DETAILS TOP FLANGE JOIST HANGERS. ATTACHMENT PER 2x BORATE TREATED MUDSILL(OR) SHEARWALL 2X PRESSURE TREATED n/ ' ENGINEERED DETAILS LL U) CONNECTION- 4"CONCRETE SLAB OVER ATTACH MUDSILL W/ _ _ ENGINEERED COMPACTED GRAVEL FILL 1/2"x10"ANCHOR CONNECTION-ATTACH ;; 1 BOLT W/STD. „ 2x BORATE TREATED MUDSILL(OR) MUDSILL W/1/2"x10" I' 2 10d NAILS EA.STUD 0 W WASHER @ 6 FT O.C. I. 2X PRESSURE TREATED ANCHOR BOLT W/STD. ( ) BAY INTO RIM BOARD UNO ON S2 SHEET.(IN? ";;� WASHER @ 6 FT O.C. � «-�� Q SDC DQ D1,D2 USE REBAR REQUIREMENTS: UNO ON S2 SHEET.(IN SLOPE 1/4"x3"x3"PLATE co SLOPE USE(1)#4 HORIZ.BAR WITHIN 12" SDC D0,D1,D2 USE DSI �( REBAR REQUIREMENTS: WASHER).EMBED i( OF TOP OF STEM WALL.WHERE A 1/4"x3"x3"PLATE 6"IN 1 '0— �` �� USE(1)#4 HORIZ.BAR BOLT A MINIMUM 7 p T 1—I L �,, _ WITHIN 12"OF TOP OF 6"IN 1p� — it CONSTRUCTION JOINT EXISTS USE WASHER).EMBED _ 1 - INCHES(DO NOT I ��`` STEM WALL.WHERE A TOE-NAIL RIMBOARD TO ., (1)#4 VERT.REBAR @ 48"W/ BOLT A MINIMUM 7 ,�� ,�., -_� --��, COUNTERSINK.) _Z _Z STANDARD HOOK.EXTEND 14"MIN. INCHES(DO NOT z -) I I�„' CONSTRUCTION JOINT TOP PLATES W/10d NAILS _ I—� °.�� 1 \= 12"O.C. INTO STEM WALL.(IRC R403.1.3) COUNTERSINK.) ` �.-�I EXISTS USE(1)#4 VERT. @ —II i�; REBAR @48"W/ _ i= �� •\�. STANDARD HOOK. USE(1)#4 CONT. —I i �I _) ! I �-- �'+, EXTEND 14"MIN.INTO HILINE HOMES �MM 11306 62ND AVENUE STEM WALL. IRC R403.1.3 OSB TO LAP AT TOP PLATE REBAR 6 MIL POLY VAPOR BARRIER.PLACE ( ) PUYALLUP WA,98373 IN FOOTING =I -��, USE 1 #4 CONT. �- (253)770 2244 ext.129 — M THROUGHOUT CRAWL SPACE.LAP O SEAMS 12"AND EXTEND 12"UP WALL. REBAR DRAINAGE SYSTEM - = DAMP PROOF EXTERIOR IN FOOTING ' '' 6' -I - 10d NAILS @ 12"O.C. PLAN: 1768 WHERE REQUIRED PER 6.. -I �- - FOUNDATION WALLS.(IRC R408.2) 15"(*12") INTO TOP PLATES DATE: 7/17/14 LOCAL CODES.(HOME 15"(*12") DRAINAGE SYSTEM WHERE OWNERS REQUIRED PER LOCAL JOB#: 10106063 RESPONSIBILITY) *FOOTING WIDTHS MAY VARY.SEE THE S1 CODES.(HOME OWNER *FOOTING WIDTHS MAY VARY.SEE THE 8d NAILS @ 4"O.C. SHEET FOR FOOTING WIDTHS. RESPONSIBILITY) S1 SHEET FOR FOOTING SIZES. 4 FOUNDATION DETAIL 5 GARAGE FOUNDATION DETAIL 6 RAIMV DETAIL S5 MAX.4'-6"WALL, MAX.4'-0 BACKFILL NTS MAX.4'-6"WALL, MAX.4'-0" BACKFILL NTS FLOOR TO FLOOR CONN. NTS PRESCRIPTIVE FOUNDATION PRESCRIPTIVE FOUNDATION e ELECTRICAL NOTES 1. SMOKE DETECTORS SHALL BE 110v.HARD WIRED to WITH BATTERY BACKUP AND SHALL BE ELECTRIC SYMBOLS 4 E INTERCONNECTED.OWNER SHALL BE W m RESPONSIBLE FOR SMOKE DETECTORS IF A $ LIGHT SWITCH SURFACE MNT.LIGHT E MONITORED FIRE SYSTEM IS REQUIRED. _mc 110 V.DUPLEX OUTLET RECESSED DOWN LIGHT a 2. ELECTRICAL CONTRACTOR SHALL COORDINATE / 220 V.OUTLET LOCATION OF PANEL AND METER WITH ® EQUIPMENT CONNECTION J CONTRACTOR. WPO WEATHERPROOF OUTLET 3. ELECTRICAL CONTRACTOR SHALL PROVIDE SMOKE/CARBON MONOXIDE DET. 3 HEAT-LOSS CALCULATIONS(OR)FOLLOW THE GFi� GROUND FAULT INTERRUPTER Qi SMOKE DETECTOR O \` PRESCRIPTIVE PATH REQUIREMENTS FOR SIZING RECESSED CAN LIGHTS ll HEATING EQUIPMENT. ® HEATERIFAN COMBO-V.T.O. J\\ 4. ELECTRICAL CONTRACTOR SHALL CONFORM TO D TELEPHONE JACK ALL LOCAL AND STATE CODES. o ZONED ELEC.HEATER 1 TELEVISION OUTLET 5. EXACT PLACEMENT OF OUTLETS MAY VARY 0 EXHAUST FAN-V.T.O. � I DEPENDING ON CONSTRUCTION VARIABLES. / 110v \ I NOTE �} CLG Q } 6. WHERE A DRYER IS VENTED TROUGH A 1. EXACT LOCATIONS OF ELECTRICAL FEATURES SUCH AS SWITCHES,OUTLETS,LIGHTS, Z r'- OUTLET / FOUNDATION VENT THE VENT MUST BE OPTIONS,ETC.MAY VARY PER BUILD AREA AND ELECTRICAL CONTRACTOR. COMPLETELY SEALED TO PREVENT MOIST 2. EXACT LOCATIONS OF HVAC SUPPLY AND RETURN VENTS MAY VARY PER BUILD AREA 0 co I EXHAUST AIR FROM REENTERING THE CRAWL AND HVAC CONTRACTOR. rwn Lo V SPACE. ()� > N _ � = M 1 - - - - - Q m o ao \� 1 LU W 0 04 M 110v. \ \ a 0 FREEZER \ / WP I o D: OUTLET { PANASONIC WHISPERGREEN I I PANASONIC OO vii FV-08VKS3.(MIN _ �� - / WHISPERGREEN / }- SETTING 30 CFM ❑I II(- CONT.) I_ I 'I SETTING 3.(MIN \ - �� / 1 TI( I SETTING 30 CFM TK ( r- CONT.) Q I / GRI ' U// TK 10 0 DUCTLESS) 0 DUCTLESS) HEAT UMP ' - �tnf) O/ �) HEAT PUMP •--� / 141 W } GF _ \ o TK EA rol C>-- HILINE HOMES 11306 62ND AVENUE Wp ` PUYALLUP WA,98373 \ I (253)770-2244 ext.129 MECHANICAL VENTILATION PLAN: 1768 • WHOLE HOUSE VENTILATION USING CONT. DATE: 7/17/14 RUNNING EXHAUST FANS IN MASTER BATH — — — — — — — — —— ` — AND GUEST BATH(SEE PLAN). JOB#: 10106063 • VENTED WINDOWS IN HABITABLE ROOMS. • IRC§M1507.3.4,TABLE M1507.3.3(1) ELECTRICAL PLAN El 1/8"= 1'-0" Prescriptive Energy Code Compliance for All Climate Zones in Washington Project Information Contact Information George Suhr H Line,Homes 1924 W. 4thi St Pbrt Angeles WA 98382 253-840-1849 ClafiOm Cnty PsarWc #063000900124 This project will use the requirements of the Prescriptive Path below and incorporate the the minimum values listed. In addition, based on the size of the structure,the appropriate number of additional credits are checked as chosen by the permit applicant. Authorized Representative Date All Climate Zones R-Value U-Factor Fenestration U-Facto n/a 0.30 Skylight Ll-Factor n/a 0.50 Glazed Fenestration SHGC n/a n/a Ceiling 491 0.026 Wood Frame Wall " " 21 int 0.056 Mass Wall R-Value' 21/21 0.056 Floor 30 0.029 Below Grade Wall 10/15/21 int+TB 0.042 Slab R-Value&Depth 1 10,2 ft n/a *Table R402.1.1 and Table R402.1.3 Footnotes included on Page 2. Each dwelling unit in one and two-family dwellings and townhouses,as defined in Section 101.2 of the International Residential Code shall comply with sufficient options from Table R406.2 so as to achieve the following minimum number of credits: 01.Small Dwelling Unit: 0.5 points Dwelling units less than 1500 square feet in conditioned floor area with less than 300 square feet of fenestration area. Additions to existing building that are less than 750 square feet of heated floor area. Q2.Medium Dwelling Unit: 1.5 points All dwelling units that are not included in#1 or#3, including additions over 750 square feet. E]3. Large Dwelling Unit: 2.5 points Dwelling units exceeding 5000 square feet of conditioned floor area. Table R406.2 Summary Option Description Credit(s) 1a Efficient Building Envelope 1a 0.5 1 b Efficient Building Envelope 1 b 1.0 1c Efficient Building Envelope 1c 2.0 2a Air Leakage Control and Efficient Ventilation 2a 0.5 E 2b Air Leakage Control and Efficient Ventilation 2b 1.0 a 2c Air Leakage Control and Efficient Ventilation 2c 1.5 3a High Efficiency HVAC 3a 0.5 ❑ 3b High Efficiency HVAC 3b 1.0 ❑ 3c High Efficiency HVAC 3c 2.0 3d High Efficiency HVAC 3d 1.0 a 1.0 4 High Efficiency HVAC Distribution System 1.0 5a Efficient Water Heating 0.5 0.5 5b Efficient Water Heating 1.5 0 6 Renewable Electric Energy 0.5 *120kwh 0.0 Total Credits 1.50 *Please refer to Table R406.2 for complete option descriptions http://www.energy.wsu.edu/Documents/2012`/`2ORes`/`2OEnergV.pdf A% Table R402.1.1 Footnotes For SI: 1 foot.= 304.8 mm, ci .= continuous insulation, int .= intermediate framing. a R-values are minimums. LI-factors and SHGC are maximums. When insulation is installed in a cavity which is less than the label or design thickness of the insulation,the compressed R-value of the insulation from Appendix Table A101.4 shall not be less than the R-value specified in the table. b The fenestration LI-factor column excludes skylights.The SHGC column applies to all glazed fenestration. Exception: Skylights may be excluded from glazed fenestration SHGC requirements in Climate Zones 1 through 3 where the SHGC for such skylights does not exceed 0.30. 1110/15/21.+TB" means R-10 continuous insulation on the exterior of the wall, or R-15 on the continuous insulation on the interior of the wall, or R-21 cavity insulation plus a thermal break between the slab and the basement wall at the interior of the basement wall. "10/15/21.+TB" shall be permitted to be met with R-13 cavity insulation on the interior of the basement wall plus R-5 continuous insulation on the interior or exterior of the wall. "10/13" means R-10 continuous insulation on the interior or exterior of the home or R- 13 cavity insulation at the interior of the basement wall. "TB" means thermal break between floor slab and basement wall. d R-10 continuous insulation is required under heated slab on grade floors. See R402.2.9.1. e There are no SHGC requirements in the Marine Zone. f Basement wall insulation is not required in warm-humid locations as defined by Figure R301.1 and Table R301.1. g Reserved. h First value is cavity insulation, second is continuous insulation or insulated siding, so "13.+5" means R-13 cavity insulation plus R-5 continuous insulation or insulated siding. If structural sheathing covers 40 percent or less of the exterior, continuous insulation R-value shall be permitted to be reduced by no more than R-3 in the locations where structural sheathing is used to maintain a consistent total sheathing thickness. 'The second R-value applies when more than half the insulation is on the interior of the mass wall. For single rafter-or joist-vaulted ceilings,the insulation may be reduced to R-38. k Int. (intermediate framing) denotes standard framing 16 inches on center with headers insulated with a minimum of R-10 insulation. Log and solid timber walls with a minimum average thickness of 3.5 inches are exempt from this insulation requirement. Table R402.1.3 Footnote a Nonfenestration LI-factors shall be obtained from measurement,calculation or an approved source or as specified in Section R402.1.3. r Glazing Schedule Project Information Contact Information George Suhr HiLine Homes 1924 W. 4th St Port Angeles WA 98382 253-840-1849 Clallum Cnty Parecl#063000900124 R402.3.3 Exception (15 sq.ft. max.)0 Vertical Glazing (Windows and glazed doors) Plan Component Glazing Width Height Glazing ID Description Ref. U-factor Qt. Feet Inch Feet Inch Area UA MBR 0,30 1 5 15 25.0 7.50 ENTRY FX 0.30 12 5 10.0 3.00 LIVING RM HS ALL 0.30 3 5 5 75.0 22.50 FRONT, BACK AND GARAGE MAN DR 0.00 3, 3 66 �' 60.0 0.00 ALL U'PSTAJ'RG WINDOWS 10.30 55, 4 1 1 100.01 30.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.01 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.01 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.01 0.00 0.0 0.00 0.0 0.00 0.00.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0-01 0.00 0.01 0.00 Sum of Area and UA 1 270.01 63.00 Area Weighted U= UA/Area 1 0.23 Simple Heating System Size: Washington State This heating system sizing calculator is based on the Prescriptive Requirements of the 2012 Washington State Energy Code(WSEC)and ACCA Manuals J and S.This calculator will calculate heating loads only.ACCA procedures for sizing cooling systems should be used to determine cooling loads. The glazing(window)and door portion of this calculator assumes the installed glazing and door products have an area weighted average U-factor of 0.30. The incorporated insulation requirements are the minimum prescriptive amounts specified by the 2012 WSEC. Please fill out all of the green drop-downs and boxes that are applicable to your project.As you make selections in the drop-downs for each section, some values will be calculated for you. If you do not see the selection you need in the drop-down options,please call the WSU Energy Extension Program at(360)956-2042 for assistance. Project Information Contact Information George Suhr HiLine Homes 1924 W.4th St Port Angeles WA 98382 253-840-1849 Callum Cnty Pared#063000900124 Heating System Type: O All Other systems Q Heat Pump To see detailed instructions for each section,place your cursor on the word'Instructions". Design Temperature Instructions +��....��.v..._. Design Temperature Difference(AT) 42 Port _ AT=Indoor(70 degrees)-Outdoor Design Temp Area of Building Conditioned Floor Area Instructions Conditioned Floor Area(sq ft) Average Ceiling Height Conditioned Volume Instructions Average Ceiling Height(ft) 14,144 Glazing and Doors U-Factor X Area = UA Instructions 0.30 270 81.00 Skylights U-Factor X Area = UA Instructions 0.50 00 Insulation Attic _ U-Factor X Area = UA Instructions R-49 0.026 884 22.98 Single Rafter or Joist Vaulted Ceilings U-Factor Area UA Instructions - select R_valkie No selection --- Above Grade Walls(see Fioure 1) U-Factor Area UA Instructions ,65 R-21 Interrne6ate J 0.056 10 92.40 Floors U-Factor Area UA Instructions0.029 884 25.64 R-30 Below Grade Walls(see Fioure 1) U-Factor Area UA Instructions SeNo selection 0 leU ll --- Slab Below Grade(see Figure 1i F-Factor Length UA Instructions No selection 0 Select corditioni � --- Slab on Grade(seeFloure 1) _ F-Factor Length UA Instructions Select R-value No selection --- Location of Ducts InstructionsDuct Leakage Coefficient No Ducts - _. �� 1.00 Sum of UA 222.02 Envelope Heat Load 9,325 Btu/Hour FI ure 1. Sum of UA XAT Air Leakage Heat Load 6,416 Btu/Hour Volume X 0.6 X AT X.018 Above Grade Building Design Heat Load 15,741 Btu/Hour Air Leakage+Envelope Heat Loss Building and Duct Heat Load 15,741 Btu/Hour Ducts in unconditioned space:Sum of Building Heat Loss X 1.10 Ducts in conditioned space:Sum of Building Heat Loss X 1 Maximum Heat Equipment Output 19,676 Btu/Hour Building and Duct Heat Loss X 1,40 for Forced Air Furnace Building and Duct Heat Loss X 1.25 for Heat Pump (07/01/13) A. Abrous, Ph.D., P.E. HiLine Homes Page 1 of 25 PLAN 1763-13 [30-PSF SNOW, 110 mph, Exp. C, & SDC D21 PROJECT INFORMATION AND CRITERIA 1. PROJECT INFORMATION OWNER/ADDRESS GEORGE SUHR SITE ADDRESS: 1924 WEST 4TH ST. PORT ANGELES, WA 98382 JOB NUMBER: 10106063 2. STRUCTURAL DESIGNER INFORMATION 7 r ABDELOUAHAB ABROUS, Ph.D., P.E. HiLine Homes Design & Engineering Department 11306 62ND Ave E., Puyallup, WA 98373 Phone: (253) 770-2244 Ext. 132 Email: Wabrous(c_HiLinehomes.com "o,. �r�.6��s.��.<<�V S�UVALL"� Washington License No: 36110 Oregon License No: 81419PE Note: The Above stamp applies to the structural members and assemblies described in the following Idaho License No: P-14132 calculations only and is valid with a copied or wet stamp intended for reuse by HiLine Homes. 3. SCOPE OF DESIGN TYPE OF DESIGN LATERAL ENGINEERING ANALYSIS OF WIND AND SEISMIC FORCES EXTENT OF DESIGN Structural specifications 2009 International Building Code (IBC) for Washington & 2010 Oregon Structural Special Code OSSC for Oregon 2009 International Residential Code (IRC) for Washington & 2011 Oregon Residential Special Code ORSC for Oregon REFERENCE CODES AND STANDARDS 2005 National Design Specification (NDS) American Society of Civil Engineers ASCE Standard 7-10 American Society for Testing Materials ASTM Standard A307 Special Design Provisions for Wind and Seismic 2008 Edition Revised PROJECT INFORMATION AND DESIGN CRITERIA Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 2 of 25 4. DESIGN CRITERIA GROUND SNOW LOAD: pg = 30-psf FLAT ROOF SNOW LOAD PER ASCE 7-10(LIVE LOAD): pf = 21.0-psf MINIMUM ROOF SNOW LOAD PER COUNTY: pf = 25.0-psf ADOPTED FLAT ROOF SNOW LOAD (LIVE LOAD): pf = 25.0-psf ROOF DEAD LOAD: Droof = 15-psf EXTERIOR WALL DEAD LOAD: Dwall = 15-psf INTERIOR WALL DEAD LOAD: Dw.11 = 10-psf SEISMIC DESIGN CATEGORY: SDC D2 BASIC WIND SPEED: 110-mph ASCE 7-10 DESIGN WIND SPEED: 140-mph WIND EXPOSURE FACTOR: C ALLOWABLE SOIL PRESSURE: 1,500-psf Framing Material: No. 2 Hem-Fir minimum. Wood Structural Panels: APA Rated. 10d Nails Diameter: 0.148-in MATERIAL SPECIFICATIONS: 8d Nails Diameter: 0.131-in Concrete Strength @ 28-days: 2,500-psi Anchor Bolts: ASTM A307 Steel CONTENTS Project Information and Criteria Page 1 Description Page 3 Specifications and Design Criteria Page 3 Engineering Calculations Page 3 LIST OF TABLES Table A. Structural Specifications and Allowable Loads Page 5 Table B. Building Data Page 10 Table C. Wind Design Criteria Page 11 Table D. Seismic Design Criteria Page 12 Table E-1. Wind Loads (house) Page 13 Table E-2. Wind Loads (garage) Page e 15 Table F-1. Minimum Wind Loads (House) Page 16 Table F-2. Minimum Wind Loads (Garage) Page 18 Table G-1. Seismic Loads (House) Page 19 Table G-2. Seismic Loads (Garage) Page 21 Table H. Controlling Shear Loads Page 22 Table I. Wind Shear Wall Loads Page 23 Table J. Seismic Shear Wall Loads Page 24 Table K. Roof Diaphragm Load Calculations Page 25 Revised PROJECT INFORMATION AND DESIGN CRITERIA Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 3 of 25 DESCRIPTION This report provides engineering calculations and structural design specifications for HiLine Homes Plan 1768. This two-story house is 1768-sf in area plus an optional two-car garage. Design specifications are provided in Table A, building data are given in Table B, and wind and seismic criteria, including calculations, are included in Tables C and D, respectively. Lateral engineering calculations are provided in Tables E through K. Calculations are performed using Microsoft Excel worksheets. SPECIFICATIONS AND DESIGN CRITERIA Structural specifications and design criteria are provided in Tables A, B, C, and D as discussed in the following paragraphs. Table A. Specifications of Structural Components and Fasteners Specifications are provided for size and spacing of anchors bolts, shear wall hold-downs, shear wall sheathing and nailing, shear transfer, and roof framing. Structural specifications are identified with respect to Wall Lines, which are shown on Plan Sheet S2. Table B. Building Data The building geometrical dimensions are specified, including lengths of exterior walls, and interior partitions for the transverse and longitudinal directions. The maximum ground snow load is Pg of 30-psf. Table C. Wind Design Criteria ASCE Standard 7-10, Section 28.5, "Enclosed Simple Diaphragm Low-Rise Building" method is used for determining wind loads. Wind design criteria are based on a 110-mph basic wind speed and Building Height and Exposure Factor (A) C. Overturning moments due to wind forces are less than allowable restorative dead load moments as shown in Table G. Uplift loads for roof tributaries are calculated assuming the maximum uplift for wind Zone E or F applies to the tributary area. Table D. Seismic Design Criteria Seismic design loads are based on Site Class D soils per ASCE Standard 7-10, Section 11.4.2 and Table 20.3-1 for stiff soils. The Equivalent Lateral Force Procedure of the American Society of Civil Engineers (ASCE) Standard 7-10, Section 12.8 is used for calculating seismic forces. ENGINEERING CALCULATIONS Engineering calculations are documented in Tables E through K based on specifications in Tables B, C, and D. These tables provide the following information: Table E. Wind Loads Wind loads and overturning moments are calculated in Table E for two orthogonal directions, transverse and longitudinal. Calculated values are linked to Table H, Controlling Shear Loads to determine if wind, minimum wind, or seismic loads control design of lateral restraint. Unit uplift on the building is also calculated for both the transverse and longitudinal directions. Overturning loads due to design base winds are calculated with a link to Table G, Seismic Loads where they are compared to seismic and building restoring Table F. Minimum Wind Revised PROJECT INFORMATION AND DESIGN CRITERIA Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 4 of 25 Minimum wind loads are provided in Table F based on horizontal pressures equal to 16-psf for zones A and C, 8-psf for zones B and D, and vertical pressures equal to zero per ASCE 7-10, Section 28.6.4. Calculations are performed for both transverse and longitudinal directions and linked to Table H for comparison to wind and seismic loads. Table G. Seismic Loads Table G provides seismic shear loads based on seismic design criteria in Table D. Calculations are based on seismic design criteria in Table D and the Lateral Force Procedure method of ASCE Standard 7-10, Section 12.8. This procedure is valid for Risk Category I or II buildings of light frame construction not exceeding three stories in height for SDC D and higher per ASCE 7-10, Table 12.6.1. Seismic loads are calculated for transverse and longitudinal directions. Overturning moments are calculated in the table and compared to allowable restoring dead load moments. The building is stable with respect to overturning. Table H. Controlling Shear Loads Table H provides a summary of seismic shear loads. Shear load values from Tables E, F, and G are compared to determine controlling lateral forces. The controlling values are linked to Tables I and K for calculating maximum shear wall loads for wind and seismic forces, respectively. Table I. Wind Shear Loads Table H provides transverse and longitudinal loads on the building structure including wall length, applied unit shear, shear wall length, resistive unit shear, unit dead load on shear walls, and hold-down loads for the various shear wall lengths based on controlling wind shear loads from Table H. Shear wall hold-downs are calculated based on wind and dead load combinations using the allowable stress design method per ASCE Standard 7-10, Section 2.4. Table J. Seismic Shear Loads Table J provides transverse and longitudinal loads on the building structure including wall length, applied unit shear, shear wall length, resistive unit shear, unit dead load on shear walls, and hold-down loads for the various shear wall lengths based on seismic shear loads from Table H. Shear wall hold-down loads are calculated based on wind and dead load combinations using the allowable stress design method per ASCE Standard 7-10, Section 2.4. Table K. Roof Diaphragm Calculations Table H provides roof diaphragm load calculations for determining diaphragm shear for seismic loads and comparing these loads with wind and minimum wind loads from Table H. Shear wall and roof diaphragm deflections are calculated to confirm that the diaphragm is flexible as allowed by ASCE Standard 7, Section 12.3.1.1. Strength level seismic unit shear values are used to calculate deflections. Calculations are based on American Plywood Association (APA) Report T2002-17, Estimating Wood Structural Panel Diaphragm and Shear Wall Deflection, April 17, 2002. Uplift due to design base wind loads are calculated assuming that the roof experiences a maximum uplift pressure from wind zone E or Zone F. Allowable roof dead loads plus truss connections exceed uplift by an acceptable margin. Revised PROJECT INFORMATION AND DESIGN CRITERIA Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 5 of 25 TABLE A. STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS THIS TABLE PROVIDES SUMMARY STRUCTURAL SPECIFICATIONS. ADDITIONAL DETAILS FOR STANDARD SPECIFICATIONS AND CALCULATION OF ALLOWABLE LOADS ARE PROVIDED AT THE END OF THIS TABLE. EXPLANATION OF WALL LINES Shear walls and structural specifications are identified with Wall Lines on plan Sheet S2. Lettered Wall Lines are generally identified from the front to the rear of the building and Numbered Wall Lines start at the left and continue to the right(STANDARD PLAN). For reversed plans, Lettered Wall Lines remain the same and the Numbered Wall Lines start at the right of the plan (REVERSED PLAN). STRUCTURAL SPECIFICATIONS =4 FOUND ATIQN.ANCHORINGPEFICAONS LL1 ►LL ` IES) Maximum Applied Shear per Tables I or J (lb) 5,035 Wall length under maximum applied shear per Tables I or J (ft) 26 Minimum number of anchor bolts when installed at 72-in o.c. minimum 2 anchors/mudsill 6 Maximum anchor bolt Load @ 72-in o.c. minimum 2 anchors per mudsill (lb) 795 Basic allowable single shear for fastening 1.5-in Hem-Fir framing to concrete with 1/2-in dia. ASTM A307 bolts with minimum 6-in embedment = 590-Ib per 2005 NDS Table 11E. Adjustment for 10-minute 944 wind/seismic loads = 1.6 per 2005 NDS Table 2.3.2. Allowable shear load =(1.6)(590)=944-Ib. Install 1/2-in dia. ASTM A307 anchor bolts @ 72-in o.c., minimum 7-in embedment in concrete and maximum 12- in from end of mudsills with minimum 2 anchors per mudsill. SEAR-NALL:HOLDDOWN SPEC- ICA JONS UPPER LEVEL Wall Line A (Perforated Shear Wall Analysis) Maximum overturning tension due to wind load per Table I (lb) 485 Maximum overturning tension due to seismic load per Table J (lb) 798 Maximum wind shear(V) per Table I or J (lb) 1,611 Maximum seismic shear(V)per Table I or J (lb) 2,294 Shear Wall Clear Height(ft) 8.0 Maximum Opening Height(ft) 4.0 Percentage of Full-Height sheathing(%) 51.0 Ratio of Maximum Opening Height to Wall Clear Height 0.50 Shear Resistance Adjustment Factor(Co) per 2005 NDS Table 4.3.3.4 0.8 Sum of Perforated Shear Wall Segment Lengths(ft) 17.5 Design Wind Shear Capacity of Wall (lb)-6-in o.c. 5,110 Design Seismic Shear Capacity of Wall (lb)-6-in o.c. 3,640 CHECK IF SHEAR CAPACITY OF PERFORATED SHEAR WALL IS ADEQUATE YES Hold-Down Wind Tension Load, T=Vh/COFLi (lb) 921 Anchorage Force for Wind Shear, v=V/COELi (Ib/ft) 115 Hold-Down Seismic Tension Load, T=Vh/COZLi (lb) 1,311 Anchorage Force for Seismic Shear, v=V/COZLi (Ib/ft) 164 Allowable tension load for CS14 Coil Strap is 2,490-Ib 2,490 At both ends on the walls, install Simpson CS14 Coil Strap of minimum length of 50-in, centered between the two floors and nail to 2x studs with 30-10d nails on each side. Nails are not required in clear span and the strap end length should be a minimum of 16-in. Wall Line 3 (Perforated Shear Wall Analysis) Revised STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 6 of 25 TABLE A. STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Maximum overturning tension due to wind load per Table I (lb) 479 Maximum overturning tension due to seismic load per Table J (lb) 671 Maximum wind shear(V) per Table I or J (lb) 1,790 Maximum seismic shear(V) per Table I or J (lb) 2,294 Shear Wall Clear Height(ft) 8.0 Maximum Opening Height(ft) 4.0 Percentage of Full-Height sheathing (%) 80.0 Ratio of Maximum Opening Height to Wall Clear Height 0.50 Shear Resistance Adjustment Factor(Co) per 2005 NDS Table 4.3.3.4 0.91 Sum of Perforated Shear Wall Segment Lengths (ft) 21 Design Wind Shear Capacity of Wall (lb)-6-in o.c. 6,975 Design Seismic Shear Capacity of Wall (lb)-6-in o.c. 4,969 CHECK IF SHEAR CAPACITY OF PERFORATED SHEAR WALL IS ADEQUATE YES Hold-Down Wind Tension Load, T=Vh/COFLi (lb) 749 Anchorage Force for Wind Shear, v=V/COFLi (Ib/ft) 94 Hold-Down Seismic Tension Load, T=Vh/COELi (lb) 960 Anchorage Force for Seismic Shear, v=V/COFLi (Ib/ft) 120 Allowable tension load for CS14 Coil Strap is 2,490-Ib 2,490 At both ends on the walls, install Simpson CS14 Coil Strap of minimum length of 50-in, centered between the two floors and nail to 2x studs with 30-10d nails on each side. Nails are not required in clear span and the strap end length should be a minimum of 16-in. LOWER LEVEL Wall Line C (Garage Door Location) Maximum overturning tension due to wind load per Table I (lb) 1,269 Maximum overturning tension due to seismic load per Table J (lb) 954 Allowable wind Tension Load for Simpson STHD10 Strap Ties at endwall location is 1,705-Ib 1,705 Allowable seismic Tension Load for Simpson STHD10 Strap Ties at endwall location is 1,435-Ib 1,435 At both ends of each garage portal, install Simpson STHD10 Strap Tie Holdowns per manufacturer's instructions as shown on the plan. Fasten to minimum 3-in framing. (total of 4 STHD10s). Wall Line A- Segmental Shear Wall Analysis Maximum overturning tension due to wind load per Table I (lb) 2,018 Maximum overturning tension due to seismic load per Table J (lb) 2,147 Maximum wind tension load accounting for upper level uplift(lb) 2,938 Maximum seismic tension load accounting for upper level uplift(lb) 3,458 Allowable Wind Tension Load for Simpson STHD14 Strap Ties in 6-in stem wall with cracked concrete at corner/midwall location is 5,150-Ib 5,150 Allowable Seismic Tension Load for Simpson STHD14 Strap Ties in 6-in stem wall with cracked concrete at corner/midwall location is 3,695-Ib 3,695 Where shown on the plan, install Simpson STHD14 Strap Tie Holdowns at each corner per manufacturer's instructions as shown on the plan. Fasten to minimum 3-in framing with 30-16d sinker nails (total of 6 STHD14s). Apply 7/16-in. OSB wood structural panels to Hem-Fir framing members with 8d nails @ 6-in o.c. on panel edges, 12-in o.c. in the field, and all edges blocked. Wall Line 3 (Perforated Shear Wall Analysis) Maximum overturning tension due to wind load per Table I (lb) 1,668 Revised STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 7 of 25 TABLE A. STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Maximum overturning tension due to seismic load per Table J (lb) 1,160 Maximum wind shear(V) per Table I or J (lb) 5,035 Maximum seismic shear(V) per Table I or J (lb) 3,668 Shear Wall Clear Height(ft) 7.8 Maximum Opening Height(ft) 5.0 Percentage of Full-Height sheathing (%) 80.0 Ratio of Maximum Opening Height to Wall Clear Height 0.64 Shear Resistance Adjustment Factor(Co) per 2005 NDS Table 4.3.3.4 0.83 Sum of Perforated Shear Wall Segment Lengths(ft) 21 Design Wind Shear Capacity of Wall (lb)-6-in o.c. 6,362 Design Seismic Shear Capacity of Wall (lb)-6-in o.c. 4,532 CHECK IF SHEAR CAPACITY OF PERFORATED SHEAR WALL IS ADEQUATE YES Hold-Down Wind Tension Load, T=Vh/COZLi (lb) 2,241 Anchorage Force for Wind Shear, v=V/COZLi (Ib/ft) 289 Hold-Down Seismic Tension Load, T=Vh/COFLi (lb) 1,633 Anchorage Force for Seismic Shear, v=V/COFLi (Ib/ft) 210 Maximum wind tension load accounting for upper level uplift(lb) 2,991 Maximum seismic tension load accounting for upper level uplift(lb) 2,593 Allowable wind Tension Load for Simpson STHD10 Strap Ties at corner location is 3,140-Ib 3,140 Allowable seismic Tension Load for Simpson STHD10 Strap Ties at corner location is 2,640-Ib 2,640 Where shown on the plan, install Simpson STHD10 Strap Tie Holdowns at each corner per manufacturer's instructions as shown on the plan. Fasten to minimum 3-in framing with 24-16d sinker nails (total of 2 STHD10s). Apply 7/16-in. OSB wood structural panels to Hem-Fir framing members with 8d nails @ 6-in o.c. on panel edges, 12-in o.c. in the field and all edges blocked. s SHEAR WALLiSHEATHING SPECIFICATIONS All Exterior Wall Lines (Except Wall Line A) Maximum resistive unit wind shear load per Table'l (lb/ft) 240 Maximum resistive unit seismic shear load per Table J (Ib/ft) 175 Basic allowable shear for wind loads = 785-Ib/ft per SPECIAL DESIGN PROVISIONS FOR WIND AND SEISMIC Table 4.3A for 8d nails @ 6-in o.c. on edges., 12-in o.c. in the field, &framing @ 16-in o.c. per note 365 2. Adjustments 0.50 for ASD and 0.93 for Hem-Fir framing. Allowable shear=(0.50)(0.93)(785)=365-Ib/ft. Basic allowable shear for seismic loads = 560-Ib/ft per SPECIAL DESIGN PROVISIONS FOR WIND AND SEISMIC Table 4.3A for 8d nails staggered @ 6-in o.c. on edges, 12-in o.c. in the field &framing @ 16-in o.c. 260 per Note 2. Adjustments are 0.50 for ASD and 0.93 for Hem-Fir framing. Allowable shear= (0.50)(0.93)(560) =260-Ib/ft. Apply 7/16-in. OSB wood structural panels to Hem-Fir framing members with 8d nails @ 6-in o.c. per standard specification. Wall Line A (Lower Level) Maximum resistive unit wind shear load per Table I (Ib/ft) 302 Maximum resistive unit seismic shear load per Table J (Ib/ft) 319 Basic allowable shear for wind loads = 1,205-Ib/ft per SPECIAL DESIGN PROVISIONS FOR WIND AND SEISMIC Table 4.3A for 8d nails staggered @ 4-in o.c. on edges, 12-in o.c. in the field, &framing @ 16-in o.c. 560 per Note 2. Framing on panel edges is 3-in nominal. Adjustments are 0.50 for ASD and 0.93 for Hem-Fir framing. Allowable shear=(0.50)(0.93)(1,205) =560-Ib/ft. Revised STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, $ SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 8 of 25 TABLE A. STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Basic allowable shear for seismic loads = 860-Ib/ft per SPECIAL DESIGN PROVISIONS FOR WIND AND SEISMIC Table 4.3A for 8d nails staggered @ 4-in o.c. on edges, 12-in o.c. in the field &framing @ 16-in o.c. 400 per Note 2. Adjustments are 0.50 for ASD and 0.93 for Hem-Fir framing. Allowable shear= (0.50)(0.93)(860) =400-Ib/ft. Apply 7/16-in. OSB wood structural panels to Hem-Fir framing members with 8d nails @ 4-in o.c. per standard specification. SH:EA 'TRANSFER;SPECIFICATIONS LOWER LEVEL - HOUSE All Wall Lines Fasten double top plates together with 10d nails @ 12-in o.c. and 6-in o.c. at splices. Overlap splices 4-ft. minimum. Fasten OSB wall sheathing between shear wall segments at same fastener spacing as on shear walls. Fasten OSB panels to mudsills with minimum 8d nails @ 6-in o.c. Lap bottom of Upper Level OSB panels 3/4-in. onto Main Level wall top plates and fasten with 8d nails @ 6-in o.c. per Floor-to-Floor Connection detail. UPPER LEVEL - HOUSE and GARAGE Fasten double top plates together with 10d nails @ 12-in o.c. and 6-in o.c. at splices. Overlap splices 4-ft. minimum. Fasten OSB wall sheathing between shear wall segments at same fastener spacing as on shear walls. Fasten OSB panels to mudsills with minimum 8d nails @ 6-in o.c. Wall Lines 1, 3 & C (Gables) Maximum applied unit wind shear per Table I (Ib/ft) 69 Maximum applied unit seismic shear per Table J (Ib/ft) 88 Basic allowable load for 10d common nails fastened with 1.5-in side members = 102-Ib per NDS Table 11 N. 163 Adjustment for 10-minute wind/seismic loads = 1.6. Allowable load =(1.6)(102)= 163-Ib. Allowable load for 10d common toenails @ 12-in o.c. =(0.83)(1.6)(102)= 135-Ib/ft. 135 Allowable load for 2-10d common toenails @ 16-in o.c. =(0.83)(2)(12/16)(1.6)(102) =203-Ib/ft. 203 Allowable load for seismic loads = 150-Ib/ft per NDS Section 4.1.7 150 Fasten gable-end trusses to double top plates with 2-10d toenails @ 16-in o.c. or 1-10d nail @ 8-in o.c. Wall Lines A, B, 1 & 2 (Eaves) Maximum applied unit wind shear per Table I (lb) 101 Maximum applied unit seismic shear per Table J (Ib/ft) 90 See Roof Framing Specification for truss connections and blocking. Fasten per Roof Framing Specification for truss connections and blocking. 381 ROOF-,DIAPHRAGM:FRAMING SPECIFICATIONS 9 Roof Sheathing Maximum applied unit wind shear per Table I (Ib/ft) 69 Maximum applied unit seismic shear per Table J (Ib/ft) 88 Basic allowable unit shear for wind/seismic loads = 645/460-Ib/ft per NDS Table 4.26 for 7/16-in unblocked panel diaphragms. Adjustment Factor (AF)for ASD = 0.5. Adjusted allowable unit shear = (0.50)(645/460) = 323/230 323230-Ib/ft. Revised STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 9 of 25 TABLE A. STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Allowable snow (live) load for 7/16-in APA Span Rated 32/16 with supports @ 24-in o.c. per APA Table 25 = 40 40-psf Allowable snow(live) load for 15/32-in APA Span Rated 24/16 with supports @ 24-in o.c. per APA Table 25 = 70 70-psf Up to 40 psf ground snow load, install 7/16-in unblocked APA Span Rated 24/16 (32/16) panels to engineered trusses @ 24-in o.c. per IBC Case 1. Fasten with 8-d nails @ 6-in o.c. on supported edges and 12-in o.c. in the field. Beyond 70 psf ground snow load, use See Truss Blocking & Boundary Nailing below for additional requirements. Beyond 40 psf ground snow load, use 15/32-in panels instead. Beyond 70 psf ground snow load, use 19/32-in sheathing. Truss Blocking & Boundary Nailing Fasten 2X4 vent blocking in each truss bay with 1-10d toenail into truss, each side. Fasten roof diaphragm to blocking with 8d nails @ 6-in o.c. Truss Connections (Lateral Loads) Maximum applied unit shear per Table H (lb/ft) 105 Truss Connections (Longitudinal Loads) Maximum applied unit shear per Tables I and J (Ib/ft) 67 Basic allowable single shear for 10d common toenails with 1.5-in thickness Hem-Fir side members = 135 Allowable load for 2-10d common toenails =(0.83)(2)(1.6)(102) =271-Ib/ft. 271 Simpson H2.5A/H1 Seismic& Hurricane Tie lateral load resistance F2 = 110/140-Ib 110/140 Simpson H2.5A/H1 Seismic& Hurricane Tie longitudinal load resistance F, = 110/415-Ib 110/415 Allowable load for 2-10d common toenails = (2)(0.83)(1.6)(102) = 271-Ib per truss end. Allowable load forl 381 Fasten truss tails to top plates with 2-10 toenails and a Simpson H2.5A or H1 Seismic & Hurricane Tie fastened to truss and top plates per manufactures instructions. (see sheet S3, Roof Framing Plan). Allowable load for Simpson RBC Clip @ 24-in o.c. =(12/24)'`(380)= 190-Ib/ft. 190 Nail roof sheathing to blocking with 8d nails @ 6-in o.c. Fasten blocking to top plates with Simpson RBC clips @ 24-in o.c. -fill all nail holes. Truss Connections (Uplift Loads) Maximum net uplift on truss connection for 85 mph, Exposure C per Table K(lb). -205 Maximum net uplift on truss connection for 95 mph, Exposure C per Table K(lb). -364 Maximum net uplift on truss connection for 110 mph, Exposure C per Table K(lb). 850 Allowable uplift for H2.5A/H1 Seismic& Hurricane Ties =520/400-Ib for Hem-Fir framing. 520/400 Allowable uplift for 1-110 Seismic& Hurricane Ties =850-Ib for Hem-Fir framing. 850 Fasten truss tails to top plates with H2.5A or 1-111 Seismic & Hurricane Ties for 85-mph wind speeds. Use H10 Ties for higher speeds. Truss Chord Splice Nailing Maximum applied chord tension load per Tables J, C=T = M/b=vrL2/b8(lb). 750 Allowable chord splice tension load for 10d nails @ 6-in o.c. 1,469 Fasten exterior wall top plate splices together with 10d nails @ 6-in o.c. Minimum splice length =48-in. Revised STRUCTURAL SPECIFICATIONS AND ALLOWABLE LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 10 of 25 TABLE B. BUILDING T Description Value Description Value BUILDING DIMENSIONS BUILDING INERTIAL DATA Transverse Width of Buildingft - 1St Fl. 26.0 Roof Diaphragm Dead Load (psf) 15 Longitudinal Len th of Building ft - 1St FI. 34.0 Exterior Walls Dead Load (psf) 15 Transverse Width of Building ft -2nd FI. 26.01 Partition Walls Dead Load (psf) 10 Longitudinal Lencith of Building ft -2nd Fl. 34.0 Roof Slope(5/12) 0.42 Length of Gable-End Roof Overhang (ft) 1.0 MEAN AND MAXIMUM BUILDING HEIGHTS Length of Eave-End Roof Overhang (ft) 1.3 Roof Height(ft) 16.6 Maximum Truss Span (ft) 26.0 Mean Height(ft) 19.3 Maximum Height(ft) 22.0 MAIN FLOOR DIMENSIONS Wall Height(ft) 7.8 CALCULATION OF LENGTH OF END ZONE, 2a Transverse Exterior Walls Length (ft) 52.0 Least horizontal Building Dimension, b (ft) 26.0 Longitudinal Exterior Walls Length (ft) 68.0 0.4* Mean Building Height(ft) 7.7233 Total Exterior Walls Length(ft) 120.01 0.1*b (ft) 2.6 Total Partitions Weight(lb)-ASCE 7-10 12.7.2 8,840 End Zone Dimension, a(ft) 2.6 Adjusted End Zone Dimension, a(ft) 3.0 UPPER FLOOR DIMENSIONS Length of End Zone, 2a(ft) 6.0 Wall Height(ft) 8.8 Transverse Exterior Walls Length (ft) 52.0 BUILDING ENCLOSED AREA Longitudinal Exterior Walls Length (ft) 68.0 Building Enclosed Area (sf)- 1St Floor 884.0 Total Exterior Walls Length (ft) 120.0 Building Enclosed Area (sf)-2nd Floor 884.0 Total Partitions Weight(lb)-ASCE 7-10 12.7.2 8,840 Garage Enclosed Area (sf) 528.0 GARAGE DIMENSIONS GARAGE LENGTH OF END ZONE, 2a Wall Height(ft) 7.8 Least horizontal Building Dimension, b (ft) 22.0 Transverse Width of Garage (ft) 22.0 0.4*Mean Building Height(ft) 4.0367 Longitudinal Length of Garage (ft) 24.0 0.1*b(ft) 2.2 Transverse Exterior Walls Length (ft) 44.0 End Zone Dimension, a(ft) 2.2 Longitudinal Exterior Walls Length (ft) 48.0 Adjusted End Zone Dimension, a(ft) 3.0 Maximum Truss Span (ft) 22.0 Length of End Zone, 2a(ft) 6.0 Mean Height(ft) 10.1 Maximum Height(ft) 12.4 Total Exterior Walls Length (ft) 92.0 Total Partitions Weight(lb)-ASCE 7-10 12.7.2 0 SNOW DATA Maximum Ground Snow Load, p (psf) Assumed 30.0 Exposure Factor, Ce ASCE 7-10 Table 7-2,for Exposure C 1.0 Thermal actor, Ct ASCE 7-10 Table 7-3,for Residences 1.0 Snow Importance Factor, I., ASCE 7-10 Table 1.5-2,for Category II 1.0 Slope Factor, C., ASCE 7-10 Figure 7-2a 1.0 Flat Roof Snow Load, pf(psf) ASCE 7-10 Equation 7.3-1, pf=0.7 Ce Ct IS p 21.0 MINIMUM Flat Roof Snow Load, pf(psf) BUILDING DEPARTMENT 25.0 ADOPTED Flat Roof Snow Load, pf(psf) CONTROLLING VALUE 25.0 Note: Transverse Width is measured perpendicular to the ridge line and longitudinal length parallel to the ridge line. Revised BUILDING DATA Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 11 of 25 TABLE C. WIND DESIGN CRITERIA Description Value Description Value WIND DESIGN CRITERIA MAIN FLOOR Basic Wind Speed Vas(mph) 110 TRANSVERSE BUILDING ZONE DATA ASCE 7-10 Design Wind Speed (mph) 140 Horizontal Wind Force Loading Wind Exposure Category C Transverse Zones A& B Width (ft) 6.0 Simplified Procedure per ASCE 7-10 28.5 Yes Transverse Zones C &D Width (ft) 28.0 Exposure&Height Factor, A(1st Floor) 1.21 Transverse Zones A&C Height(ft) 7.8 Exposure & Height Factor, A(2nd Floor) 1.29 Transverse Zones B &D Height(ft) 0.0 Topographical Factor, Kt 1.00 LONGITUDINAL BUILDING ZONE DATA DESIGN WIND PRESSURES(psf) Horizontal Wind Force Loading TRANSVERSE DIRECTION (CASE A) Longitudinal Zone A Width (ft) 6.0 A- End Zone of Wall 40.9 Longitudinal Zone C Width (ft) 20.0 B- End Zone of Roof -2.21 Longitudinal Zone A Height(ft) 7.8 C- Interior Zone of Wall 28.4 Longitudinal Zone C Height(ft) 7.8 D- Interior Zone of Roof 0.3 E- End Zone of Windward Roof -26.9 UPPER FLOOR F- End Zone of Leeward Roof -24.8 TRANSVERSE BUILDING ZONE DATA G- Interior Zone of Windward Roof -19.01 Horizontal Wind Force Loading H - Interior Zone of Leeward Roof -19.3 Transverse Zones A&B Width (ft) 6.0 Eo- End Zone of Windward OVHG Roof -41.9 Transverse Zones C &D Width (ft) 28.0 Go- Interior Zone of Windward OVGH Roof -33.9 Transverse Zones A&C Height(ft) 8.8 LONGITUDINAL DIRECTION (CASE B) Transverse Zones B &D Height(ft) 5.4 A- End Zone of Wall 31.1 Vertical Wind Force Loading B- End Zone of Roof -16.1 Transverse Roof Zones E&F Width (ft) 6.0 C- Interior Zone of Wall 20.6 Transverse Roof Zones G &H Width (ft) 28.0 D- Interior Zone of Roof -9.6 Transverse Roof Zones E&F Length (ft) 13.0 E- End Zone of Windward Roof -37.31 Transverse Roof Zones G &H Length (ft) 13.0 F- End Zone of Leeward Roof -21.2 G - Interior Zone of Windward Roof -26.0 LONGITUDINAL BUILDING ZONE DATA H - Interior Zone of Leeward Roof -16.4 Horizontal Wind Force Loading Eo- End Zone of Windward OVHG Roof -52.3 Longitudinal Zone A Width (ft) 6.0 Go- Interior Zone of Windward OVGH Roof -40.9 Longitudinal Zone C Width (ft) 20.0 Longitudinal Zone A Height(ft) 10.1 GARAGE Longitudinal Zone C Height(ft) 11.9 TRANSVERSE BUILDING ZONE DATA Vertical Windforce Loading Horizontal Wind Force Loading Longitudinal Roof Zones E &F Width (ft) 6.0 Transverse Zones A& B Width (ft) 6.0 Longitudinal Roof Zones G & H Width (ft) 20.0 Transverse Zones C &D Width (ft) 18.0 Longitudinal Roof Zones E &G Length (ft) 17.0 Transverse Zones A&C Height(ft) 7.8 Longitudinal Roof Zones F&H Length (ft) 17.0 Transverse Zones B & D Height(ft) 4.6 LONGITUDINAL BUILDING ZONE DATA Horizontal Wind Force Loading Longitudinal Zone A Width (ft) 6.0 Longitudinal Zone C Width (ft) 16.0 Longitudinal Zone A Height(ft) 9.1 Longitudinal Zone C Height(ft) 10.5 Note: Transverse Width is measured perpendicular to the ridge line and longitudinal length parallel to the ridge line. Revised WIND DESIGN CRITERIA Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC 132_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 12 of 25 TABLE D. SEISMIC DESIGN CRITERIA Description I Reference/Calculation Value SEISMIC GROUND MOTION VALUES AND SITE SPECIFICATIONS Building Risk Category ASCE Standard 7-10, Table 1-5.1 II Seismic Importance Factor, Ie ASCE Standard 7-10, Table 1.5-2 1.0 Default Seismic Site Classification ASCE Standard 7-10, Table 20.3-1 D Seismic Design Category 2009 IRC Table R301.2.2.1.1 D2 Response Modification Coefficient, R ASCE Standard 7-10, Table 12.2-1 6.5 Building Period Parameter: Ct ASCE Standard 7-10, Table 12.8-2 0.02 Redundancy Factor, p ASCE Standard 7-10, Section 12.3.4.2 1.000 Site Short Period Design Acceleration, SDS (g) 2009 IRC Table R301.2.2.1.1,for SDC D2 1.170 Mapped MCE Long Period Acceleration, SMS (g) ASCE Standard 7-10, Figure 22-2 0.600 Ground Snow Load (psf) Building Department 30.0 Flat Roof Snow Load (psf) Calculation, See Table B 25.0 COMPUTATION OF DESIGN RESPONSE SPECTRUM DATA Mean Building Height, h(ft) Per Plan(Calculated in Table B) 19.3 Building Period, Ta=Cth314(sec) ASCE Standard 7-10, Section 12.8.2.1 0.184 Site Long Design Period Acceleration, SW (g) ASCE Standard 7-10, 11.4.4, SW =2/3SM, 0.400 To=0.2*SD1/SDS(sec) ASCE Standard 7-10, Section 11.4.5 0.068 TS=SD1/SDS(sec) ASCE Standard 7-10, Section 11.4.5 0.342 COMPUTATION OF SEISMIC DESIGN COEFFICIENT Seismic Design Coefficient: CS=SDS*le/R JASCE Standard 7-10, Section 12.8.1.1 0.180 Revised SEISMIC DESIGN CRITERIA Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 13 of 25 TABLE E-1. WIND LOADS (HOUSE) Wind Zone Zone Zone Area Zone Moment Moment Zone Pressure Width Ht./Leng. Force Arm (Psf) (ft) (ft) (sf) (lb) (ft) (ft-Ib) TRANSVERSE WIND LOADING UPPER LEVEL Horizontal Wind Loads Transverse Wall Zone A 40.9 6.0 8.8 52.8 2,786 12.2 33,987 Transverse Roof Zone B 0.0 6.0 5.4 32.5 0 16.6 0 Transverse Wall Zone C 28.4 28.0 8.8 246.4 9,027 12.2 110,131 Transverse Roof Zone D 1 0.3 28.0 5.4 151.7 59 16.6 974 STRENGTH LEVEL UPPER LEVEL Lateral Force/Moment 5,965 145,092 CONVERT TO ALLOWABLE STRESS DESIGN 3,579 87,055 MAIN LEVEL Horizontal Wind Loads Transverse Wall Zone A 40.9 6.0 7.8 46.8 2,316 3.9 9,033 Transverse Roof Zone B 0.0 6.0 0.0 0.0 0 7.8 0 Transverse Wall Zone C 28.4 28.0 7.8 218.4 7,505 3.9 29,270 Transverse Roof Zone D 0.3 28.0 0.0 0.0 0 7.8 0 STRENGTH LEVEL MAIN LEVEL Lateral Force/Moment 101817 38,303 CONVERT TO ALLOWABLE STRESS DESIGN 6,490 22,982 TOTAL STRENGTH LEVEL TRANSVERSE LATERAL FORCE/MOMENT 16,782 .183,394 TOTAL ASD TRANSVERSELATERAL FORCE/MOMENT 10,069 110,037 ROOF Vertical Wind Loads Transverse Roof Zone E -26.9 6.0 13.0 78.0 -2,539 19.5 49,507 Transverse Roof Zone F -24.8 6.0 13.0 78.0 -2,341 6.5 15,214 Transverse Roof Zone G -19.0 28.0 13.0 364.0 -8,368 19.5 163,183 Transverse Roof Zone H -19.3 28.0 13.0 364.0 -8,500 6.5 55,253 Roof Overhang Zone E -41.9 6.0 1.3 8.0 -405 26.7 10,788 Roof Overhang Zone F -24.8 6.0 1.3 8.0 -239 -0.7 -159 Roof Overhang Zone G -33.9 28.0 1.3 37.2 -1,528 26.7 40,732 Roof Overhang Zone H -19.31 28.0 1.31 37.2 -870 -0.7 -578 STRENGTH LEVEL Uplift Force and Overturning'Moment on Building -24,790 333,940 CONVERT TO ALLOWABLE STRESS DESIGN -14,874 200,364 Total Overturning Moment Due to Transverse Wind Loading (ASD) 223,345 Unit Uplift on Building (psf) -16.81 1 LONGITUDINAL WIND LOADING UPPER LEVEL Horizontal Wind Loads Longitudinal Wall Zone A 31.1 6.0 10.1 60.3 2,419 12.8 31,026 Longitudinal Wall Zone B 0.0 6.0 0.0 0.0 0 16.6 0 Longitudinal Wall Zone C 20.6 20.0 11.9 238.9 6,349 13.8 87,444 Longitudinal Wall Zone D 0.0 20.0 0.0 0.0 0 16.6 0 STRENGTH LEVEL UPPER LEVEL Lateral Force/Momenti 5,3701 118,470 CONVERT TO ALLOWABLE STRESS DESIGN 1 3,2221 71,082 MAIN LEVEL Horizontal Wind Loads Longitudinal Wall Zone A 31.1 6.0 7.8 46.8 1,761 3.9 6,868 Longitudinal Wall Zone B 0.0 6.0 0.0 0.0 0 7.8 0 Longitudinal Wall Zone C 20.6 20.0 7.8 156.0 3,888 3.9 15,165 Longitudinal Wall Zone D 0.01 20.01 0.01 0.0 0 7.8 0 STRENGTH LEVEL MAIN LEVEL Lateral Force/Momentl 6,2221 1 22,033 CONVERT TO ALLOWABLE STRESS DESIGN 1 3,7331 1 13,220 Revised WIND LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 14 of 25 TOTAL STRENGTH LEVEL LONGITUDINAL LATERAL FORCE/MOMENT1 11,5931 1 140,503 TOTAL ASD LONGITUDINAL.LATERAL FORCE/MOMENT1 6,9561 1 84,302 ROOF Vertical Wind Loads Longitudinal Roof Zone E -37.3 6.0 17.0 102.0 -4,604 25.5 117,391 Longitudinal Roof Zone F -21.2 6.0 17.0 102.0 -2,617 8.5 22,240 Longitudinal Roof Zone G -26.0 20.0 17.0 340.0 -10,696 25.5 272,758 Longitudinal Roof Zone H -16.4 20.0 17.0 340.0 -6,747 8.5 57,349 Roof Overhang Zone E -52.3 6.0 1.0 6.0 -380 34.5 13,100 Roof Overhang Zone F -21.2 6.0 1.0 6.0 -154 -0.5 77 Roof Overhang Zone G -40.9 20.0 1.0 20.0 -990 34.5 34,147 Roof Overhang Zone H -16.4 20.0 1.0 20.0 -397 -0.5 -198 STRENGTH LEVEL Uplift Force and Overturning Moment on Building -26,584 1 516,864 CONVERT TO ALLOWABLE STRESS DESIGN -15,950 310,118 Total Overturning Moment Due to Longitudinal Wind Loads (ASD) 323,338 Unit Uplift on Building (psf) -18.0 Note: (+)and(-)signs signify wind pressures acting toward and away from the projected surfaces, respectively per ASCE Standard 7-10. Revised WIND LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 15 of 25 TABLE E-2. WIND LOADS (GARAGE) Wind Zone Zone Zone Moment Zone Pressure Width Ht./Leng. Zone Area Force Arm Moment (psf) (ft) (ft) (sf) (lb) (ft) (ft-Ib) TRANSVERSE WIND LOADING Horizontal Wind Loads Transverse Wall Zone A 40.9 6.0 7.8 46.8 2,316 3.9 9,033 Transverse Roof Zone B 0.0 6.0 4.6 27.5 0 7.8 0 Transverse Wall Zone C 28.4 18.0 7.8 140.4 4,825 3.9 18,816 Transverse Roof Zone D 0.3 18.0 4.6 82.5 30 7.8 234 STRENGTH LEVEL Lateral Force/Momentl 3,6001 1 28,083 CONVERT TO ALLOWABLE STRESS DESIGN 1 2,1601 1 16,850 Vertical Wind Loads Transverse Roof Zone E -26.9 6.0 11.0 66.0 -2,148 16.5 35,446 Transverse Roof Zone F -24.8 6.0 11.0 66.0 -1,981 5.5 10,893 Transverse Roof Zone G -19.0 18.0 11.0 198.0 -4,552 16.5 75,108 Transverse Roof Zone H -19.3 18.0 11.0 198.0 -4,624 5.5 25,431 Roof Overhang Zone E -41.9 6.01 1.3 8.0 -405 22.7 9,170 Roof Overhang Zone F -24.8 6.0 1.3 8.0 -239 -0.7 -159 Roof Overhang Zone G -33.9 18.0 1.3 23.9 -982 22.7 22,257 Roof Overhang Zone H -19.3 18.0 1.3 23.9 -559 -0.7 -372 STRENGTH LEVEL Uplift Force and Overturning Moment on Building -15,490 177,774 CONVERT TO ALLOWABLE STRESS DESIGN -9,294 106,664 Total Overturning Moment Due to Transverse Wind Loading (ASD) 123,514 Unit Uplift on Building (psf) -10.5 LONGITUDINAL WIND LOADING Honzontal YVind Loads ` Longitudinal Wall Zone A 31.1 6.0 9.1 54.3 2,043 4.5 9,246 Longitudinal Wall Zone B 0.0 6.0 0.0 0.0 0 7.8 0 Longitudinal Wall Zone C 20.6 16.0 10.5 167.7 4,181 5.2 21,911 Longitudinal Wall Zone D 0.0 16.0 0.0 0.0 0 7.8 0 STRENGTH LEVEL Lateral Force/Momentl 3,7881 31,157 CONVERT TO ALLOWABLE STRESS DESIGN 1 2,2731 18,694 Vertical Wind Loads i Longitudinal Roof Zone E -37.3 6.0 12.0 72.0 -3,250 18 58,492 Longitudinal Roof Zone F -21.2 6.0 12.0 72.0 -1,847 6 11,082 Longitudinal Roof Zone G -26.0 16.0 12.0 192.0 -6,040 18 108,726 Longitudinal Roof Zone H -16.4 16.0 12.0 192.0 -3,810 6 22,860 Roof Overhang Zone E -52.3 6.01 1.0 6.0 -380 24.5 9,303 Roof Overhang Zone F -21.2 6.0 1.0 6.0 -154 -0.5 77 Roof Overhang Zone G -40.9 16.0 1.0 16.0 -792 24.5 19,400 Roof Overhang Zone H -16.4 16.0 1.0 16.0 -318 -0.5 -159 STRENGTH LEVEL Uplift Force and Overturning Moment on Building -16,590 229,781 CONVERT TO ALLOWABLE STRESS DESIGN -9,954 137,868 Total Overturning Moment Due to Longitudinal Wind Loads (ASD) 156,562 Unit Uplift on Building (psf) -11.3 Note: (+)and (-)signs signify wind pressures acting toward and away from the projected surfaces, respectively per ASCE Standard 7-10. Revised WIND LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 16 of 25 TABLE F®1. MINIMUM WIND LOADS (HOUSE) Wind Zone Zone Zone Moment Zone Pressure Width Ht./Leng. Zone Area Force Arm Moment (Psf) (ft) (ft) (sfl (lb) (ft) (ft-Ib) TRANSVERSE WIND LOADING UPPER LEVEL Horizontal Wind Loads Transverse Wall Zone A 16.0 6.0 8.8 52.8 845 12.2 10,307 Transverse Roof Zone B 8.0 6.0 5.4 32.5 260 16.6 4,316 Transverse Wall Zone C 16.0 28.0 8.8 246.4 3,942 12.2 48,097 Transverse Roof Zone D 8.0 28.0 5.4 151.7 1,213 16.6 20,141 STRENGTH LEVEL UPPER LEVELLateral Force/Momentl 3,8671 82,861 CONVERT TO ALLOWABLE STRESS DESIGN 1 2,3201 49,717 MAIN'LEVEL Horizontal Wind Loads Transverse Wall Zone A 16.0 6.0 7.8 46.8 749 3.9 2,920 Transverse Roof Zone B 8.0 6.0 0.0 0.0 0 7.8 0 Transverse Wall Zone C 16.0 28.0 7.8 218.4 3,494 3.9 13,628 Transverse Roof Zone D 8.0 28.0 0.0 0.0 0 7.8 0 STRENGTH LEVEL MAIN LEVEL Lateral Force/Moment 4,5151 16,548 CONVERT TO ALLOWABLE STRESS DESIGN 2,7091 9,929 TOTAL ASD TRANSVERSE LATERAL FORCE/MOMENT 5,0291 59,646 ROOF_ Vertical Wind_Loads Transverse Roof Zone E 0.0 6.0 13.0 78.0 0 19.5 0 Transverse Roof Zone F 0.0 6.0 13.0 78.0 0 6.5 0 Transverse Roof Zone G 0.0 28.0 13.0 364.0 0 19.5 0 Transverse Roof Zone H 0.0 28.0 13.0 364.0 0 6.5 0 Roof Overhang Zone E 0.01 6.0 1.3 8.0 0 26.7 0 Roof Overhang Zone F 0.0 6.0 1.3 8.0 0 -0.7 0 Roof Overhang Zone G 0.0 28.0 1.3 37.2 0 26.7 0 Roof Overhang Zone H 0.0 28.0 1.3 37.2 0 -0.7 0 STRENGTH LEVEL Uplift Force and Overturning Moment on Building 0 0 CONVERT TO ALLOWABLE STRESS DESIGN 0 0 Total Overturning Moment Due to Transverse Wind Loading (ASD) 9,929 Unit Uplift on Building (psf) 0.0 LONGITUDINAL WIND LOADING UPPER LEVEL Horizontal Wind Loads Longitudinal Wall Zone A 16.0 6.0 10.1 60.3 965 12.8 12,374 Longitudinal Wall Zone B 8.0 6.0 0.0 0.0 0 16.6 0 Longitudinal Wall Zone C 16.0 20.0 11.9 238.9 3,823 13.8 52,649 Longitudinal Wall Zone D 8.0 20.0 0.0 0.0 0 16.6 0 STRENGTH LEVEL UPPER LEVEL Lateral Force/Momentl 2,957 65,023 CONVERT TO ALLOWABLE STRESS DESIGN 1 11774 -t-39,014 MAIN LEVEL Horizontal Wind Loads Longitudinal Wall Zone A 16.0 6.0 7.8 46.8 749 3.9 2,920 Longitudinal Wall Zone B 8.0 6.0 0.0 0.0 0 7.8 0 Longitudinal Wall Zone C 16.0 20.0 7.8 156.0 2,496 3.9 9,734 Longitudinal Wall Zone D 8.0 20.0 0.0 0.0 0 7.8 0 STRENGTH LEVEL UPPER LEVEL Lateral Force/Moment 3,453 12,655 CONVERT TO ALLOWABLE STRESS DESIGN 2,072 7,593 TOTAL ASD LONGITUDINAL LATERAL FORCE/MOMENT 3,846 46,607 Revised MINIMUM WIND LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 17 of 25 'ROOF'Vertical Wind Loads Longitudinal Roof Zone E 0.0 6.0 17.0 102.0 0 25.5 0 Longitudinal Roof Zone F 0.0 6.0 17.0 102.0 0 8.5 0 Longitudinal Roof Zone G 0.0 20.0 17.0 340.0 0 25.5 0 Longitudinal Roof Zone H 0.0 20.0 17.0 340.0 0 8.5 0 Roof Overhang Zone E 0.0 6.0 1.0 6.0 0 34.5 0 Roof Overhang Zone F 0.0 6.0 1.0 6.0 0 -0.5 0 Roof Overhang Zone G 0.0 20.0 1.0 20.0 0 34.5 0 Roof Overhang Zone H 0.0 20.0 1.0 20.0 0 -0.5 0 STRENGTH LEVEL Uplift Force and Overturning Moment on Building 0 0 CONVERT TO ALLOWABLE STRESS DESIGN 0 0 Total Overturning Moment Due to Longitudinal Wind Loads (ASD) 7,593 Unit Uplift on Building (psf) 0.0 Note: (+)and (-)signs signify wind pressures acting toward and away from the projected surfaces, respectively per ASCE Standard 7-10. Revised MINIMUM WIND LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 18 of 25 TABLE F-2. MINIMUM WIND LOADS (GARAGE) Wind Zone Zone Zone Moment Zone Pressure Width Ht./Leng. Zone Area Force Arm Moment (psf) (ft) (ft) (sf) (lb) (ft) (ft-Ib) TRANSVERSE WIND LOADING Horizontal Wind Leads Transverse Wall Zone A 16.0 6.0 7.8 46.8 749 3.9 2,920 Transverse Roof Zone B 8.0 6.0 4.6 27.5 220 7.8 1,716 Transverse Wall Zone C 16.0 18.0 7.8 140.4 2,246 3.9 8,761 Transverse Roof Zone D 8.0 18.0 4.6 82.5 660 7.8 5,148 STRENGTH LEVEL Lateral Force/Momentl 2,3781 1 18,545 CONVERT TO ALLOWABLE STRESS DESIGN] 1,4271 1 11,127 Vertical Wind Loads Transverse Roof Zone E 0.0 6.0 11.0 66.0 0 16.5 0 Transverse Roof Zone F 0.0 6.0 11.0 66.0 0 5.5 0 Transverse Roof Zone G 0.0 18.0 11.0 198.0 0 16.5 0 Transverse Roof Zone H 0.0 18.0 11.0 198.0 0 5.5 0 Roof Overhang Zone E 0.0 6.01 1.3 8.0 0 22.7 0 Roof Overhang Zone F 0.0 6.0 1.3 8.0 0 -0.7 0 Roof Overhang Zone G 0.0 18.0 1.3 23.9 0 22.7 0 Roof Overhang Zone H 0.0 18.0 1.3 23.9 0 -0.7 0 STRENGTH LEVEL Uplift Force and Overturning Moment on Building 0 0 CONVERT TO ALLOWABLE STRESS DESIGN 0 0 Total Overturning Moment Due to Transverse Wind Loading (ASD) 11,127 Unit Uplift on Building (psf) 0.0 LONGITUDINAL WIND LOADING Horizontal Wind Loads. Longitudinal Wall Zone A 16.0 6.0 9.1 54.3 869 4.5 3,931 Longitudinal Wall Zone B 8.0 6.0 0.0 0.0 0 7.8 0 Longitudinal Wall Zone C 16.0 16.0 10.5 167.7 2,683 5.2 14,064 Longitudinal Wall Zone D 8.0 16.0 0.0 0.0 0 7.8 0 STRENGTH LEVEL Lateral Force/Momentl 2,1791 17,996 CONVERT TO ALLOWABLE STRESS DESIGN 1 1,3081 10,797 Vertical Wind Loads Longitudinal Roof Zone E 0.0 6.0 12.0 72.0 0 18 0 Longitudinal Roof Zone F 0.0 6.0 12.0 72.0 0 6 0 Longitudinal Roof Zone G 0.0 16.0 12.0 192.0 0 18 0 Longitudinal Roof Zone H 0.0 16.0 12.0 192.0 0 6 0 Roof Overhang Zone E 0.0 6.01 1.0 6.0 0 24.5 0 Roof Overhang Zone F 0.0 6.0 1.0 6.0 0 -0.5 0 Roof Overhang Zone G 0.0 16.0 1.0 16.0 0 24.5 0 Roof Overhang Zone H 0.0 16.0 1.0 16.0 0 -0.5 0 STRENGTH LEVEL Uplift Force and Overturning Moment on Building 0 0 CONVERT TO ALLOWABLE STRESS DESIGN 0 0 Total Overturning Moment Due to Longitudinal Wind Loads (ASD) 10,797 Unit Uplift on Building (psf) 0.0 Note: (+)and (-)signs signify wind pressures acting toward and away from the projected surfaces, respectively per ASCE Standard 7-10. Revised WIND LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 19 of 25 TABLE G-1. SEISMIC LOADS (HOUSE) SEISMIC SHEAR LOADS Load Height/ Area Seismic Building Component (p s f) Width Length (ft) (sf) Weight ft Ib UPPER LEVEL SEISMIC LOADS Roof Diaphragm &Ceiling 15.0 884 13,260 20%of Flat Roof Snow Load >30-psf 0.0 884 0 One-Half Exterior Walls 15.0 120.0 8.8 1,056 7,920 One-Half Partitions 10.0 884 4,420 Upper Level Dead Load for Restoring Moment(lb-ft)l 37,940 Roof Diaphragm Tributary Dead Load (lb)l 25,600 MAIN LEVEL SEISMIC LOADS Upper Level Floor Diaphragm 10.01 1 1 884 8,840 One-Half Exterior Walls 15.01 120.01 7.8 936 7,020 One-Half Partitions 10.01 1 1 884 4,420 Main Level Dead Load for Restoring Moment(Ib-ft) 31,720 Main Floor Diaphragm Tributary Dead Load (lb) 32,620 TOTAL DEAD LOAD FOR ENTIRE BUILDING (lb) 69,660 TOTAL TRIBUTARY SEISMIC LOAD FOR ENTIRE BUILDING (lb) 58,220 TOTAL BASE SHEAR FOR BUILDING (lb) 10,480 VERTICAL DISTRIBUTION OF SEISMIC FORCES Story wX hX wXhX wXhX/Ewxhx FX(SL) FX(ASD) Roof- R 25,600 16.6 424,960 0.63 6,555 4,588 2nd Floor 32,620 7.8 254,436 0.37 3,925 2,747 1st Floor 0 SUM 1 58,220 1 1 679,3961 1.00 1 10,480 1 7,336 OVERTURNING ANALYSIS DUE TO TRANSVERSE LOADS Building Component Force(lb) Dist. Moment (ft) (ft-Ib) Roof Diaphragm &Ceiling 4,588 16.6 76,161 Upper Level Floor Diaphragm 7,336 7.8 57,219 Total Dead Load 37,940 13.0 493,220 Total Moment Due to Transverse Seismic Forces 133,379 Total Moment Due to Transverse Wind Forces 223,345 Total Overturning Moment in Transverse Loading 223,345 Total Restoring Moment in Transverse Loading 493,220 6/10 of Total Restoring Moment in Transverse Loading 295,932 OVERTURNING STABILITY YES OVERTURNING ANALYSIS DUE TO LONGITUDINAL LOADS Revised SEISMIC LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 20 of 25 Building Component Force(lb) Dist. Moment ftft-Ib Roof Diaphragm &Ceiling 4,588 16.6 76,161 Upper Level Floor Diaphragm 7,336 7.8 57,219 Total Dead Load 37,940 17.0 644,980 Total Moment Due to Longitudinal Seismic Forces 133,379 Total Moment Due to Longitudinal Wind Forces 323,338 Total Restoring Moment in Longitudinal Loading 323,338 Total Restoring Moment in Longitudinal Loading 644,980 6/10 of Total Restoring Moment in Longitudinal Loading 386,988 OVERTURNING STABILITY1 YES Revised SEISMIC LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, &SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 21 of 25 TABLE G-2. SEISMIC LOADS (Garage) SEISMIC SHEAR LOADS Load Height/ Length Area Seismic Seismic Building Component (psf) Width (ft) (sf) Weight Shear ftIb Ib Roof Diaphragm &Ceiling 15.0 528 7,920 1,426 20%of Flat Roof Snow Load >30-psf 0.01 1 1 528 0 0 One-Half Exterior Walls 15.0 7.81 92.01 718 5,382 969 One-Half Partitions 10.01 1 1 0 0 0 Total Dead Load for Restoring Moment 18,684 Roof Diaphragm Tributary Dead Load 13,302 STRENGTH LEVEL BASE SHEARI 2,394 CONVERT TO ALLOWABLE STRESS DESIGN BASE SHEARI 1,676 OVERTURNING ANALYSIS DUE TO TRANSVERSE LOADS Building Component Force Dist. Moment (lb) (ft) (ft-Ib) Roof Diaphragm &Ceiling 1,676 7.8 13,073 Total Dead Load 18,684 13.0 242,892 Total Moment Due to Transverse Seismic Forces 13,073 Total Moment Due to Transverse Wind Forces 123,514 Total Overturning Moment in Transverse Loading 123,514 Total Restoring Moment in Transverse Loading 242,892 6/10 of Total Restoring Moment in Transverse Loading 145,735 OVERTURNING STABILITY YES OVERTURNING ANALYSIS DUE TO LONGITUDINAL LOADS Building Component Force Dist. Moment Ib ft ft-Ib Roof Diaphragm &Ceiling 1,676 7.8 13,073 Total Dead Load 18,684 17.0 317,628 Total Moment Due to Longitudinal Seismic Forces 13,073 Total Moment Due to Longitudinal Wind Forces 156,562 Total Overturning Moment in Longitudinal Loading 156,562 Total Restoring Moment in Longitudinal Loading 317,628 6/10 of Total Restoring Moment in Longitudinal Loading 190,577 OVERTURNING STABILITY YES Revised SEISMIC LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 22 of 25 TABLE H. CONTROLLING SHEAR LOADS House Floor Level Main Floor Level Second Floor Level Type Load Transverse Longitudinal Transverse Longitudinal ASD Wind Load (Ib) 10,069 6,956 3,579 3,222 ASD Minimum Wind Load (lb) 5,029 3,846 2,320 1,774 ASD:Controlling Wind Load (lb) 10,069 6,956 3,579 3,222 ASD"Seismic Diaphragm Load (Ib) 7,336 7,336 4;588 X4,588 Nature of Controlling Load WIND SEISMIC SEISMIC SEISMIC ASD Maximum wind/seismic load (lb) 10,069 7,3361 4,588 4,588 Garage Type Load Transverse Longitudinal Transverse Longitudinal ASD Wind Load (lb) 2,160 2,273 N/A N/A ASD Minimum Wind Load (lb) 1,427 1,308 N/A N/A ASD Controlling rWind`Loads{Ib) ,-2,160 _. .x- x;273- N/A N/A ASD Seismic Diaphragm'Load (Ib) 1,6761 1,676 N/A I N/A Nature of Controlling Load WINDI WIND N/A I N/A ASD Maximum wind/seismic load (Ib) 2,1601 2,273 N/A N/A NOTE: ASD=ALLOWABLE STRESS DESIGN Revised CONTROLLING LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 23 of 25 TABLE 1. WIND SMEAR WALL LOADS TRANSVERSE LOADS Floor Level Main Floor Level Upper Floor Level Wall Identification 1 2 3 Check 1 3 Check Wall Type OSB OSB OSB Total OSB OSB Total Tributary Load Distance(ft)- H 17.0 17.0 34.0 17.0 17.0 34.0 Tributary Load Fraction- H 0.500 0.500 1.000 0.500 0.500 1.0 Tributary Load Distance(ft)-G 11.0 11.0 22.0 Tributary Load Fraction-G 0.500 0.500 1.000 AppliedShear(lb) 5,035 1,136 5,035 11,206 1,790 1,790 3,579 Wall Length (ft) 50.0 24.0 26.0 26.0 26.0 Applied Unit Shear(Ib/ft) 101 47 194 69 69 Shear Wall Length (ft) 50.0 24.0 21.0 26.0 21.0 Resistive Unit Shear(IbMt) 101 4T 240. 69 %, 85 - Shear Wall Height(ft) 7.8 7.8 7.8 8.0 8.0 Unit DL on Wall (Ib/ft) 270 305 270 1501 150 0.60*[Unit DL on Wall] (Ib/ft) 162 183 1621 90 90 Max. Hold-Down 2.5-ft SW (lb) 1,668 Max. Hold-Down 4.5-ft SW (lb) 479 Max. Hold-Down 16:5-ft SW(lb) -61 Max. Hold-Down 1>8.5-ft SW (lb) 372 Max. Hold-Down 22.0-ft SW (lb) -1,227 Max. Hold-Down 24.0-ft SW (lb) -1,826 Max. Hold-Down 26.0-ft SW (lb) -1,321 =619 LONGITUDINAL LOADS Floor Level Main Floor Level Upper Floor Level Wall Identification A B C Check A B Check Wall Type OSB OSB OSB Total OSB OSB Total Tributary Load Distance (ft)- H 13.0 13.0 26.0 13.0 13.0 26.0 Tributary Load Fraction- H 0.500 0.500 1.000 0.500 0.500 1.0 Tributary Load Distance(ft)-G 12.01 12.0 24.0 1 48.0 Tributary Load Fraction-G 0.500 0.500 1.000 2.0 Applied Shear(lb) 3,478 4,558 1,080 9,116 1,611 1,611 3,222 Wall Length (ft) 34.0 34.0 22.0 34.0 34.0 Applied Unit Shear_(Ib/ft) '102 134 49 47. 47 Shear Wall Length (ft) 11.5 26.51 6.0 17.51 29.0 Resistive'Unit:Shear(Ib/ft) 302 172 180 92 56' - Shear Wall Height(ft) 7.8 7.8 7.8 8.0 8.0 Unit Wall DL(Ib/ft) 455 455 150 335 335 0.6*[Unit DL on Wall] (Ib/ft) 273 273 90 201 201 Max. Hold-Down 2.5-ft SW (lb) 2,018 485 Max. Hold-Down 3.0-ft SW (lb) 1,269 Max. Hold-Down 4.0-ft SW (lb) 1,813 335 43 Max. Hold-Down-5.0-ft SW (lb) 1,676 Max. Hold-Down 8.5-ft SW (lb) 181 Max. Hold-Down 11.0-ft SW (lb) -369 Max. Hold-Down 18.0-ft SW (lb) -1,115 Max. Hold-Down 25.0-ft SW (lb) 1 -2,0681 1 Revised WIND SHEAR LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 24 of 25 TABLE J. SEISMIC SMEAR WALL LOADS TRANSVERSE LOADS Floor Level Main Floor Level Upper Floor Level Wall Identification 1 2 3 Check 1 3 Check Wall Type OSB OSB OSB Total OSB OSB Total Tributary Load Distance(ft)- H 17.0 17.0 34.0 17.0 17.0 34.0 Tributary Load Fraction - H 0.500 0.500 1.000 0.500 0.500 1.0 Tributary Load Distance(ft)-G 11.0 11.01 22.0 Tributary Load Fraction-G 0.500 0.5001 1.000 Applied Shear(lb) 4,506 8381 3,668 9,012 2,294 2,294 4,588 Wall Length (ft) 50.0 24.0 26.0 26.0 26.0 Applied UnitShear.(Ib/ft) 90; 35 141 88 88 Shear Wall Length (ft) 50.0 24.0 21.0 26.01 21.0 Resistive Unit Shear_(lb/ft): ..90 . 35 175 -88 1,09 , Shear Wall Height(ft) 7.8 7.81 7.8 8.0 8.0 Unit DL on Wall (Ib/ft) 270 305 270 150 150 0.60*[Unit DL on Wall] (Ib/ft) 162 183 1621 90 90 Max. Hold-Down 2.5-ftSW (lb) _ 1,160 Max. Hold-Down 4.5-ft SW (lb) 671 Max. Hold-Down 16.5-ft SW (lb) 131 Max. Hold-Down-18.5.-ft SW (lb) -136 Max. Hold-Down 22.0-ft SW (lb) -1,310 Max. Hold-Down 24.0-ft SW (lb) _1,923 Max. Hold-Down 26.0-ft SW (lb) -1,403 -464. LONGITUDINAL LOADS Floor Level Main Floor Level Upper Floor Level Wall Identification A B C Check A B Check Wall Type OSB OSB OSB Total OSB OSB Total Tributary Load Distance(ft)- H 13.0 13.0 26.0 13.0 13.0 26.0 Tributary Load Fraction - H 0.500 0.500 1.000 0.500 0.500 1.0 Tributary Load Distance(ft)-G 12.01 12.0 24.0 1 48.0 Tributary Load Fraction-G 0.500 0.500 1.000 2.0 Applied Shear(lb) 3,668 4,506 838 9,012 2,294 2,294 4,588 Wall Length (ft) 34.0 34.0 22.0 34.0 34.0 Applied Unit Shear(Ib/ft) 108 133 38 S7 =67 Shear Wall Length (ft) 11.5 26.51 6.0 17.5 29.0 Resistive Unit Shear(Ib/ft) 319 170 140 131 79 Shear Wall Height(ft) 7.8 7.8 7.8 8.0 8.0 Unit Wall DL(Ib/ft) 455 455 150 335 335 0.6*[Unit DL on Wall] (Ib/ft) 273 273 90 201 201 Max. Hold-Down 2.5-ft SW (lb) 2,147 798, Max. Hold-Down 3.0-ft SW (lb) 954 Max. Hold-Down 4.0-ft SW (lb) 1,942 647 231 Max. Hold-Down 5.0-ft SW (lb) 1,805 Max. Hold-Down 8.5-ft SW (lb) 166 Max. Hold-Down 11.0-ft SW (lb) -57 Max. Hold-Down 18.0-ft SW (lb) 1 -1,130 Max. Hold-Down 25.0-ft SW (lb) I I 1 1 -1,879 Revised SEISMIC SHEAR LOADS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014 A. Abrous, Ph.D., P.E. HiLine Homes Page 25 of 25 TABLE K. ROOF DIAPHRAGM CALCULATIONS DIAPHRAGM CHORD SPLICE & STRESS CALCULATIONS Maximum Transverse Shear Load (lb) Calculation V= 4,588 Diaphragm Span (ft) Design Drawings b = 26 Diaphragm Length (ft) Design Drawings L= 34.0 Diaphragm Unit Shear(Ib/ft) Calculation w=V/Length = 135 Diaphragm Maximum Moment(ft-Ib) Calculation M =wL2/8 = 19,501 Diaphragm Chord Force(lb) Calculation C=T =M/b= 750 Allowable Nail Load (lb) NDS Table 11 N H-F& 10d Common 102 Adjustment For Wind/Seismic Loads NDS Table 2.3.2 10-minute loads 1.6 Adjusted Allowable Nail Load (lb) Calculation F= 1.6FNa;, 163.2 Minimum Number of Nails Required At Splices Calculation NN-Min=C/FA 4.6 Maximum Nail Spacing at Splices (in) Design Drawings S = 6.0 Minimum Splice Length (in) Calculation Ls lice-SNN-Min 21.6 Design Splice Length (in) Design Drawings Design Specification 48.0 Allowable Diaphragm Chord Force(lb) Calculation 10d @ 6-in o.c. 1,469' Cross Sectional Area of Shear Wall Chords int Design Drawings Acno,d =2(1.5)(5.5)= 16.5 Axial Chord Stess (psi) Calculation Fcn= C/A=T/A 45 Allowable Parallel Compressive Stress (psi) JWWPA Table 1 No.2 Hem-Fir 1,250 Allowable Parallel Tensile Stress(psi) JWWPA Table 1 No.2 Hem-Fir 500 ROOF UPLIFT CALCULATIONS Roof Truss Span, b (ft) Design Drawings 26.0 Tributary Area to Truss Connection (sf) Trusses @ 24-in o.c. JA=2b/2 = b 26.0 Maximum Wind Uplift Pressure, 85 mph, C (psf) Calculated [0.5*(0.6*(23.1+16.0)]x 1.21 -14.2 Maximum Wind Uplift Pressure, 95 mph, C (psf) Calculated [0.5*0.6*(27.4+19.1)]x 1.21 -16.9 Maximum Wind Uplift Pressure, 110 mph, C (psf) Calculated [0.5*0.6*(37.3+26.0)]x 1.21 -23.0 Maximum Wind Uplift Load At Connection (lb) 85 mph, Exp. C up=P -368 Maximum Wind Uplift Load At Connection (lb) 95 mph, Exp. C Fup= P -439 Maximum Wind Uplift Load At Connection (ib) 110 mph, Exp. C up= P -598 Roof Unit Dead Load, wdi(psf) Design Criteria 15.0 Roof Dead Load to Truss Connection (lb) FDL=0.6 wd 234 Net Load to Truss Connection (lb) 85 mph, Exp. C FNet- FUP+ FDL -134 Net Load to Truss Connection (lb) 95 mph, Exp. C FNet— Up+ DL -205 Net Load to Truss Connection (lb) 110 mph, Exp. C Net- FUp + FDL -364 Allowable Uplift for Simpson H10 Clip(lb) SPF/Hem-Fir with 160% Increase 850 Allowable Uplift For Simpson H2.5A Clip(lb) SPF/Hem-Fir with 160% Increase 535 Allowable Uplift For Simpson H1 Clip (lb) SPF/Hem-Fir with 160% Increase 400 Revised ROOF DIAPHRAGM CALCULATIONS Printed 8/26/2014 Plan 1768-13 30-PSF Snow, 110 mph, Exp C, & SDC D2_SUHR 8/27/2014