HomeMy WebLinkAbout521 S Francis St Technical - BuildingTECHNICAL
Permit 0 q 5 7
Address 52.1 S FvAmc;s S+
Project description 331
At+-6L&
P neu\aw e
Date the permit was finaled b --5 -09
Number of technical pages
LINDBE
AR CHIk CT S
319 s. peabody, suite b, port angeles, wa 98362
360.452.6116 fax 360.452.7064
Project: 614)272.
Subject WreirAL-5
Date: AVE., 1 2Cer1
Project No.
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LINDBER TH
A R C H I C T S
319 S. Peabody Suite B. Port Angeles, WA 98362
360.452.6116 fax 360.452.7064
contactnalindarch.com www.lindarch.com
Project: 0L11,' Pd
Subject: LAMM
Date 244 1001
SHEAR WALL SUMMARY
W I L C H I V
14110
I/ ALLOFIT/FIRMINFO/FORMS /SHEARWAL
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5 M4XMUM WEAR 560 PUP
USE IR' BHEATNG ONE SIDE CF WALL. NLAL ALL EDGES UM lOd NAILS
AT 3' O. FOR M USE 3X PP NO2. DOUOLE OOR MATES ATES AIR:
IREC U11R°D, OOLTTF I4 BON PLATES UATH ANCHOR DCVO. PROVIDE
5/5' PIAhETER ANCHOR 501.76 AT 24' 0.C. FW 1 M Orman AT TIE
OWATI014 FOR TIE DOW45 AT EACH ED OP TIE WALL;
S AI1S 4NE,AR K AN&
FOUNDATION S! -TEAR WALL PLAN
GENERAL Au. SWATHS EDGES S ALL DE S14O P UN Kota S P A000)
TO SHEAR WALL SCIED(LE OR 2' NOMIWL CLOCKING, CONECTIONS
OEMUE84 RoCF BEATING AND WILL SWEATING CR BETWEEN UPPER WALL
SNEATHNG AND LOWER WALL WEANING 13144L. DE 8UC14 THAT RECLINED
EDGE NA1LNG PER BCIEDILE 16 COMM THROUGH OLOOCNG AND
MALI: PLATES. SPACE IAd NAILS AT II' 0.0. ALCM INTERMEDIATE FRAMU46
MEI'CER9 TWIG TIE DOWNS ARE RECUIPED al UPPER FLOOR WALLS,
THE TIE P 11N5 SHALL DE BOLTED -TO THE UPPER AND LOWER WALL STUDS
AND REPOFF@D ED ST RO
THREADED D AS PER h�iPACTUIRER'S
CONCRETE PAD 5' X 3
PROVIDE NEW 4° THICK
CCNORETE DRIVE TO
crrY APPROVED CURD CUT
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FLOOR PLAN ROOF FRAMING
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PROVIDE 0O E NEW 2 5-0'
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PROVIDE MEW 4' THICK
CONCRETE DRIVE TO
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GUTTER AND DOIISPCUTS
TIE INTO EXITING STORM WATER
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11 I f OT MAT 14 EARNS
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6' THICK CCNCREIE SEEM
WALL WTH NOA OARS AT
4'= O' OZ. VEST. AND 24'Oa
NORM MIi (2) NORM 5483
GTi DEW
111114 (2) NOEL DARE
SCALE, V4' ?-O'
A. PLYWOOD OR O.S.B, SHEAR WALLS
1 MAXIMUM SHEAR 250 P L.F
USE W SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 6"
0 C. FOR FRAMING, USE DF NO.2. PROVIDE W DIAMETER ANCHOR BOLTS AT
32" 0 C MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH
END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS.
2. MAXIMUM SHEAR 315 P L.F
USE W SHEATING ONE SIDE OF WALL NAIL ALL EDGES WITH 8d NAILS AT 5"
0 C FOR FRAMING, USE DF NO.2. PROVIDE DIAMETER ANCHOR BOLTS AT
32" O C MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH
END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS.
3 MAXIMUM SHEAR 375 P.L.F
USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT4"
0 C. FOR FRAMING, USE 3X DF NO.2. PROVIDE DIAMETER ANCHOR BOLTS
AT 24" 0 C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT
EACH END OF THE WALL, SEE FRAMING /SHEAR WALL PLANS.
4 MAXIMUM SHEAR 490 P.L.F
USE SHEATING ONE SIDE OF WALL NAIL ALL EDGES WITH 8d NAILS AT 3"
O.0 FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE
REQUIRED BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8"
DIAMETER ANCHOR BOLTS AT 32' 0 C MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS_
5. MAXIMUM SHEAR 560 P.L.F
USE W SHEATING ONE SIDE OF WALL NAIL ALL EDGES WITH 10d NAILS AT 3"
O C FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE
REQUIRED BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8"
DIAMETER ANCHOR BOLTS AT 24° 0 C. MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS.
6. MAXIMUM SHEAR 685 P LF
USE W SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT
2 1/2" 0 C STAGGERED FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM
PLATES ARE REQUIRED BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS.
PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 20' 0 C. MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS.
7 MAXIMUM SHEAR 770 P.L.F
USE SHEATING ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT
2" 0 C STAGGERED FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM
PLATES ARE REQUIRED BOLT THROUGH BOTH PLATES WITH. ANCHOR BOLTS.
PROVIDE 518" DIAMETER ANCHOR BOLTS AT 18' 0 C. MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS
8. MAXIMUM SHEAR 870 P.L.F
USE SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT
3 1/2" 0 C FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE
REQUIRED BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4'
DIAMETER ANCHOR BOLTS AT 20" 0 C. MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS.
9 MAXIMUM SHEAR 980 P.L.F
USE W SHEATING —BOTH SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT
3" 0 C FOR FRAMING, USE 3X OF NO.2. DOUBLE BOTTOM PLATES ARE
REQUIRED BOLT THROUGH BOTH PLATES ANCHOR BOLTS. PROVIDE 3/4"
DIAMETER ANCHOR BOLTS AT 18" 0 C MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS.
10 MAXIMUM SHEAR 1,200 P.L.F
USE W SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT
3" 0 C STAGGERED FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM
PLATES ARE REQUIRED BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS.
PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 14" 0 C MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS.
11 MAXIMUM SHEAR 1,540 P.L.F
USE SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT
2 ".O C STAGGERED FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM
PLATES ARE REQUIRED BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS.
PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 11 0 C MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS
12. MAXIMUM SHEAR 1 740 P L.F
USE 5/8" SHEATING BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT
2" 0 C. STAGGERED FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM
PLATES ARE REQUIRED BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS.
PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 9" 0 C MAXIMUM SPACING AT THE
FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE
FRAMING /SHEAR WALL PLANS.
Roof Beam( 2000 International Building Code (97 NDS) 1 Ver 6.00 7
By Charles Smith Lindberg Smith on. 08 -16 -2007 06.5914 AM
Project: OLIVER Location. ROOF 1
Summary
3.5 IN x 7.25 IN x 9.0 FT #2 Douglas Fir -Larch Dry Use
Section Adequate By 163.2% Controlling Factor Section Modulus Depth Required 4 47 In
Deflections.
Dead Load: DLD= 0.04 IN
Live Load. LLD= 0 06 IN U1735
Total Load: TLD= 0 11 IN L/1012
Reactions (Each End)
Live Load: LL -Rxn= 338 LB
Dead Load: DL -Rxn= 241 LB
Total Load: TL -Rxn= 579 LB
Bearing Length Required (Beam only support capacity not checked) BL= 0.26 IN
Beam Data.
Span. L= 9 0 FT
Maximum Unbraced Span. Lu= 2.0 FT
Pitch Of Roof RP= 4 12
Live Load Deflect. Criteria: U 240
Total Load Deflect. Criteria: L/ 180
Roof Loading:
Roof Live Load -Side One: LL1= 25.0 PSF
Roof Dead Load -Side One. DL1= 15 0 PSF
Tributary Width -Side One. TW1= 2.0 FT
Roof Live Load -Side Two LL2= 25.0 PSF
Roof Dead Load -Side Two DL2= 15.0 PSF
Tributary Width -Side Two TW2= 1 0 FT
Roof Duration Factor Cd= 1 15
Beam Self Weight: BSW= 6 PLF
Slope /Pitch Adjusted Lengths and Loads.
Adjusted Beam Length. Ladi= 9 0 FT
Beam Uniform Live Load: wL= 75 PLF
Beam Uniform Dead Load: wD_adi= 54 PLF
Total Uniform Load. wT= 129 PLF
Properties For #2 Douglas Fir -Larch
Bending Stress. Fb= 900 PSI
Shear Stress Fv= 95 PSI
Modulus of Elasticity E= 1600000 PSI
Stress Perpendicular to Grain. Fc_perp= 625 PSI
Adjusted Properties
Fb' (Tension) Fb'= 1342- PSI
Adjustment Factors. Cd =1 15 CI =1 00 Cf =1.30
Fv' Fv'= 109 PSI
Adjustment Factors: Cd =1 15
Design Requirements.
Controlling Moment: M= 1302 FT -LB
4.5 ft from left support
Critical moment created by combining all dead and live loads.
Controlling Shear V= 509 LB
At a distance d from support.
Critical shear created by combining all dead and live loads.
Comparisons With Required Sections.
Section Modulus (Moment) Sreq= 11 65 N3
S= 30 66 N3
Area (Shear) Areq= 6.99 N2
A= 25.38 N2
Moment of Inertia (Deflection) Ireq= 19 77 N4
I= 111 15 N4
Roof Beam( 2000 International Building Code (97 NDS) Ver 6.00 7
By Charles Smith Lindberg Smith on. 08 -16 -2007 06.5946 AM
Project: OLIVER Location: ROOF 2
Summary
3 5 IN x 5.5 IN x 3.0 FT #2 Douglas Fir -Larch Dry Use
Section Adequate By 950.5% Controlling Factor Area Depth Required 1 48 In
Deflections:
Dead Load: DLD=
Live Load: LLD=
Total Load: TLD=
Reactions (Each. End)
Live Load: LL -Rxn=
Dead Load: DL -Rxn=
Total Load: TL -Rxn=
Bearing Length Required (Beam only support capacity not checked) BL=
Beam Data.
Span: L=
Maximum Unbraced Span. Lu=
Pitch Of Roof RP=
Live Load Deflect. Criteria. L/
Total Load Deflect. Criteria. L/
Roof Loading:
Roof Live Load -Side One LL1=
Roof Dead Load -Side One DL1=
Tributary Width -Side One TW1=
Roof Live Load -Side Two LL2=
Roof Dead Load -Side Two DL2=
Tributary Width -Side Two' TW2=
Roof Duration Factor Cd=
Beam Self Weight: BSW=
Slope /Pitch Adjusted Lengths and Loads:
Adjusted Beam Length. Ladj=
Beam Uniform Live Load. wL=
Beam Uniform Dead Load: wD_adj=
Total Uniform Load: wT=
Properties For' #2 Douglas Fir -Larch
Bending Stress: Fb=
Shear Stress: Fv=
Modulus of Elasticity E=
Stress Perpendicular to Grain. Fc_perp=
Adjusted Properties
Fb (Tension) Fb'=
Adjustment Factors. Cd =1 15 CI =1 00 Cf=1.30
Fv' Fv'=
Adjustment Factors. Cd =1 15
Design Requirements:
Controlling Moment: M=
1.5 ft from left support
Critical moment created by combining all dead and live loads
Controlling Shear V=
At a distance d from support.
Critical shear created by combining all dead and live loads.
Comparisons With Required Sections.
Section Modulus (Moment) Sreq=
S=
Area (Shear) Areq=
A=
Moment of Inertia (Deflection) Ireq=
1=
0 00 IN
0 00 IN U20452
0 00 IN U12067
113 LB
78 LB
191 LB
0 09 IN
3 0 FT
2.0 FT
4 12
240
180
25.0 PSF
15 0 PSF
2.0 FT
25 0 PSF
15 0 PSF
10 FT
1 15
5 PLF
3 0 FT
75 PLF
52 PLF
127 PLF
900 PSI
95 PSI
1600000 PSI
625 PSI
1343 PSI
109 PSI
143 FT -LB
133 LB
1.28
17 65
1.83
19.25
0 72
48 53
N3
N3
N2
N2
N4
N4
Roof Beamf 2000 International Building Code (97 NDS)1 Ver 6 00 7
By Charles Smith Lindberg Smith on. 08 -16 -2007 07 AM
Project: OLIVER Location. ROOF 3
Summary
3.5 IN x 5.5 IN x 3 0 FT #2 Douglas Fir -Larch Dry Use
Section Adequate By 170 1% Controlling Factor Area Depth Required 2.92 In
Deflections
Dead Load. DLD=
Live Load LLD=
Total Load: TLD=
Reactions (Each End)
Live Load: LL -Rxn=
Dead Load- DL -Rxn=
Total Load- TL -Rxn=
Bearing Length Required (Beam only support capacity not checked) BL=
Beam Data.
Span. L=
Maximum Unbraced Span: Lu=
Pitch Of Roof- RP=
Live Load Deflect. Criteria. U
Total Load Deflect. Criteria. L/
Roof Loading
Roof Live Load -Side One: LL1=
Roof Dead Load -Side One DL1=
Tributary Width -Side One: TW
Roof Live Load -Side Two: LL2=
Roof Dead Load -Side Two DL2=
Tributary Width -Side Two TW
Roof Duration Factor Cd=
Beam Self Weight: BSW=
Slope /Pitch Adjusted Lengths and Loads:
Adjusted Beam Length. Ladj=
Beam Uniform Live Load- wL=
Beam Uniform Dead Load wD_adj=
Total Uniform Load. wT=
Properties For #2 Douglas Fir -Larch
Bending Stress. Fb=
Shear Stress. Fv=
Modulus of Elasticity E=
Stress Perpendicular to Grain: Fc_perp=
Adjusted Properties
Fb' (Tension) Fb'=
Adjustment Factors: Cd =1 15 CI =1 00 Cf =1 30
Fv' Fv'=
Adjustment Factors: Cd =1 15
Design Requirements
Controlling Moment: M
1.5 ft from left support
Critical moment created by combining all dead and live loads.
Controlling Shear V
At a distance d from support.
Critical shear created by combining all dead and live loads.
Comparisons With Required Sections.
Section Modulus (Moment)- Sreq=
S=
Area (Shear) Areq=
A=
Moment of Inertia (Deflection) Ireq=
1=
0.00 IN
001 IN= L/5113
001 IN= L/3102
450 LB
292 LB
742 LB
0.34 IN
3 0 FT
2.0 FT
4 12
240
180
25 0 PSF
15 0 PSF
7 0 FT
25 0 PSF
15 0 PSF
5 0 FT
1 15
5 PLF
3 0 FT
300 PLF
194 PLF
494 PLF
900 PSI
95 PSI
1600000 PSI
625 PSI
1343 PSI
109 PSI
556 FT -LB
519 LB
4 97 N3
17.65 N3
7 13 N2
19.25 N2
2.82 N4
48.53 N4