HomeMy WebLinkAbout2024 W 14th St Technical - BuildingTECI I\ ICAL
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Upon reviewing your application and plans submitted for a Manufactured Home,
the following are some of the items that will need to be taken in to consideration.
Property
Manufactured homes.
The City of Port Angeles
Building Division.
Property boundary pins are to be identified and marked at footing inspection to verify minimum set
back requirements.
"Wains" installer tags must be on unit and appropriate box checked for each item completed.
Manufactured home foundation design shall be included with the application. Foundations are
required to be pit set with 12" maximum and 6" minimum reveal on foundation. Blocking and tie
down inspection is required
Wood framed skirting, framing shall be 2 "x 6" treated wood with 3 anchor bolts w/ 3 "x 3 "x 1/4"
washer at 6' -0" OC and within 12" of P T sill ends. Stud pacing shall be 16" OC. 15/32" min
thickness structural grade treated plywood 30 PCF equivalent -fluid weight soil pressure horizontal
(max unbalanced back fill at 18" in height). Face grain across studs.
Skirting, foundation crawl space and ventilation are required per WAC 296 -150M -0610 (1) (d)
section 1 through 3.
1. Skirting must be made of approved material by the building division. Metal fasteners must
be of hot dip zinc -galv stainless steel or other corrosive resistant materials. Ferrous metal
members in contact with earth, except those made of galvanized or stainless steel, must be
coated with asphaltic emulsion. Skirting must not trap water between the skirting and siding
or trim. All skirting must be recessed behind the siding or trim.
2. The ventilation required is one (1) sf. Per 150 sf. of crawl space.
3. Access to under floor area to be a min. 18 "x 24" and positioned so that all areas under
manufactured home are available for inspection. Access opening must be covered and that
cover must be made of metal, pressure treated wood or vinyl.
Foundation protection requires finish grade to be a minimum of 6" slope in 10' -0" away from the
foundation. Footing /downspout drains (if required) to be directed to a drywell or other approved
locations.
An inspection of the water, sewer, electrical, footing and down spout drains is required before
backfill is allowed.
If outside of (4) minute response area a sprinkler system or an exterior bell tied into the smoke
detector, approved by the Fire department may be required.
A final inspection is required to be approved before occupancy
c iiriatCRWORT .ANGELES Construction
The Issuance of this permit based upon these plans specifi-
cations and other data shall not prevent the building 01.iO4 31
from thereafter requiring the correction of errors in s aid
pie specifications and other data, or from preventing
building operation being carried on thereunder when in
violation of all code and ordinance of this jurisdiction.
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Garages.
A continuous footing is required around the perimeter of the load bearing walls, although some
manufactured homes are designed to accommodate a garage. The garage must be designed as though
it is independent from the manufactured home.
Sill and bottom plate anchor requirements for seismic zone D2. As per the 2003 IRC.
Garages detached and attached to a manufactured homes, require standard wall bracing methods to
be met, If they cannot be met, then refer to "Alternate Braced wall panel" Section of the 2003 IRC. If
any of the aforementioned methods cannot be met, engineering design will be required for the
"SHEAR WALL, ALTERNATE BRACED WALL PANEL" design under 2' -8" in width.
This letter is not intended to cover all items required by the City of Port Angeles, but is to serve as a
guide to help you understand frequently asked questions, "ALL WORK IS SUBJECT TO FIELD
APPROVAL"
1/05
2 -fort
maximum
1
Single Strap 4725 lbs.
Double Strap 4725 lbs.'
Clove .3
see chart
6' 0"
7 i
tlote
t Unless listedflatieied for a higher capacity by the anchor manufacturer
2 Untess a greater spacing is specified 'by the anchor manufacturer
S All homes located in Wind Zones -l1 and III shall have a vertical tie
2 -foot
maximum
Frame I
/Anchor
iJ
V
-6,
Soil Type
Based on the unified classification
system
Rcc or hard van
Sandy gravel and gravel
Sand, silty sand, clayey sand, silty
gavel, or clayey travel
Clay sandy clay, silty day, or clayey
sift
lJncompacted fill
Peat or oroanic days
Table 3-1 General Description of Soils
Allowable Pressure
(pounds per square foot)
No -allowances made for overburden
pressure, embedment depth, water table
height, or settlement problems
4,000 and up
2,000
1,500
1 000
Special analysis is required
Special analysis is required
NOTE
T. To be used only when none of the following is available: soils investigation and analysis of the site;
compliance wfth the local bolding code; and evaluation by .a registered professional engineer, architect, or
building official.
2. Hereafter, the words engineer' or "architecT shall refer to a registered professional engineer or architect.
Place piers on both sides of side wall exterior
doors and any other side wall openings greater
than 4 feet (such as entry and sliding glass
doors), under porch posts, fireplaces, and wood
stoves; and under the locations where heavy
pieces of furniture, such as pianos organs
waterbeds, etc. are expected to be placed.
4.2 Footings
Footings shall be placed a minimum of 4 inches
below grade in undisturbed soil. Support every
pier with a properly designed footing (see
4.2.1 1).
4.2.1 Acceptable types of footings
4.2.11 Concrete
Footings may consist of precast or
poured -in -place concrete, pads slabs, or
ribbons at least 3 1 /2- inches thick, with a 28 -day
compressive strength of at least 3,000 pounds
per square inch.
4.2.1.2 Pressure-treated permanent wood
Two layers of nominal 2 -inch thick
pressure treated wood having 0.60 retention in
accordance with AWPA C22 Standard, with the
tong dimensions of the second layer placed
perpendicular to that of the first, may also be
used
4.2.1.3 Other materials
Other materials approved for footings may be
used when approved by local authorities if they
provide equal load- bearing capacity and
resistance to decay Examples include:
8
NCSBCS /ANSI A225.1
are not available.
4 1.5.3 Perimeter blocking
1/2 inch maximum crushed stone,
3/8 inch or 3/4 inch graduated gravel;
coarse sand, with grains no smaller than
1/16 inch, placed so it provides a soil bearing
capacity of at least 3,000 pounds per square
foot.
4.9 .9 Placement in freezing climates
4.2.2.1 Conventional footings
In areas subject to ground frost heave, place
footings below the frost line Consult local
authorities to determine the depth of the frost
line In the absence of a local code use the
frost penetration map provided in figure 4 -4 as
a guide
4.2.2.2 Floating slab systems
When properly designed by a registered
professional engineer a 'floating slab system`
may be used above the frost line. The design
shall accommodate the anchorage
requirements identified in 5
4.2.2.3 Insulated foundations
Footings may also be placed above the frost
line when the home is provided with a perimeter
foundation or skirting having insulation
properties sufficient to prevent freezing of the
soil under or adjacent to every load- bearing
component of the foundation and acceptable
for this purpose to the authority having
jurisdiction. Useful design guidelines may be
found in the references found in Annex F
Insulation systems should be compatible with
the requirement to cross ventilate the entire
space under the home
4.2.3 Proper sizing of footings
Proper sizing of footings depends upon the
load- carrying capacity of both the piers and the
soil See table 4 -3 for recommended footing
sizes.
4.3 Permanent foundations
Check local building codes and regulations and
consult a registered engineer when the home is
to be sited on a permanent foundation (such as
a full basement, crawl space or load bearing
perimeter foundation) To obtain a permanent
foundation design that meets most local codes,
write to the manufacturer of the home. Useful
ideas and design guidelines can also be found
in reference publications, such as those listed in
Annex F
ru�av �vvfl
Main beam
Required perimeter
support (see note 4)
Frame support
Figure 4-2 Typical blocking diagram for single section home when manufacturer's
instructions are not available
Note (applies to both figures 4-2 and 4-3)
1 See table 4.1 for required pier capacity and spacing.
2. See table 4.3 and section 4-2 to footing requirements.
3. Piers shall be located at a maximum of 2 feet from both ends_
4. Place piers on both sides of entry doors and at any other openings
greater than 4 feet in width. such as patio or atrium doors; under
porch posts, fireplaces, and wood stoves: and under those places
where heavy pieces of furniture such as pianos, organs, waterbeds,
etc. may be placed.
tit l
Required perimeter
support (see note 4)
Patio door
Front (hitch)
Exterior door of home
8i
Required perimeter
support (see note 4)
Exterior wall
line of home
r shall be sized
according to table 4.2 or calou-
lated by a design professional and
located under the bearing points of
clear -span openings in center
mating wails
7 M 6 r T r 1 1
1 1
1 i 1 I I I I I
i 1 1 I 1 1 1
I I. -L`-
I 1 I 1 1 1 I I I I I 1 I 1 -'-1-..,1
1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 I I I I I I L'i
Slide -out fireplace
door of ome
1 I
Exterior wall
line of home
Figure 4 Typical blocking diagram for multisection home when manufacturer's installation
instructions are not available
is
J
I
Section
I Width
(feet)
a-
Follow down the 'Section Width° column to "14 feet." Follow across to "30 pounds per square foot"
psf) in the °Roof Live Load column. Since the mating wall opening is 18 feet wide, follow across to
e column headed "20." (For any opening width that is not shown, use the next highest number on
he chart.) The required pier capacity is 5,400 pounds.
:VCAMPLE: 14 -foot section width
30- pounds per square -foot roof live load
18- foot -wide mating -wall opening
Roof
Live
Load
(pounds
per
square
toot)
Table 4 -2 Minimum Pier Capacity
Multisection Center- Beam Blocking
Pier Load and Minimum Pier Capacity (pounds)
Mating Wall Opening (feet)
5 I 10 15 I 20 I 25 30 35
8 20 600 1200 1800 2400 l 3000 3600 4200
30 800 1600 2400 3200 4000 4800 5600
40 1000 2000 3000 4000 5000 5000 7000
10 20 800 1500 2300 3000 3800 4500 5300
30 1000 2000 3000 4000 5000 6000 7000
40 1300 2500 3800 5000 6300 7500 8800
12 20 900 1800 2600 3500 4400 5300 6100
30 1200 2300 3500 4700 5800 7000 8200
40 1500 2900 4400 5800 7300 8800 10200
14 20 1000 2000 3000 4100 5100 6100 7100
30 1400 2700 4100 5400 6800 8100 9500
40 1700 3400 5100 6800 8400 10100 11800
16 20 1200 2300 3500 4700 5800 7000 8100
30 1600 3100 4700 6200 7800 9300 10900
40 1900 3800 5800 7500 9700 11600 13600
Roof
Section Live Pier
Width Load Location
(feet) (pounds
per
square
foot)
8
10
12
14
16
18
Frame Plus Perimeter Blocking
(Both Frame and Perimeter Blocking Required)
4 I 6
20 Frame 900 1300
Perimeter 600 800
30 Frame 900 1300
Perimeter 700 1100
40 Frame 900 1300
Perimeter 900 1300
20 Frame 1100 1700
Perimeter 700 1100
30 Frame 1100 1700
Perimeter 900 1400
40 Frame 1100 1700
Perimeter 1100 1700
20 Frame 1300 1900
Perimeter 800 1200
30 Frame 1300 1900
Perimeter 1100 1600
40 Frame 1300 1900
Perimeter 1300 1900
20 Frame 1500 2200
Perimeter 900 1400
30 Frame 1500 J 2200
Perimeter 1200 1800
40 Frame 1500 2200
Perimeter 1500 2200
20 Frame 1700 2600
Perimeter 1100 1600
30 Frame 1700 2600
Perimeter 1400 2100
40 Frame 1700 2600
Perimeter 1700 2600
20 Frame 1900 2900
Perimeter 1200 1800
30 Frame 1900 2900
Perimeter 1600 2400
40 Frame 1900 2900
Perimeter 1900 2900
Minimum Pier Capacity (pounds)
Maximum Pier Spacing (feet)
I 8 I 10 i
1800 2200
1100 1400
1800 2200
1400 1800
1800 2200
1800 2200
2200 2800
1400 1800
2200 2800
1800 2300
2200 2800
2200 2800
2600 3200
1600 2000
2600 3200
2100 2600
2600 3200
2600 3200
3000 3700
1900 2400
3000 3700
2400 3000
3000 3700
3000 3700
3400 4300
2200 2700
3400 4300
2800 3500
3400 4300
3400 4300
3900 4800
2500 3100
3900 4800
3200 3900
3900 4800
3900 4800
Single-section Multisection
DO- Crown and grade the site to slope away from the home and cover it with
6-mil-thick polyethylene sheeting or the equivalent.
DON'T Grade the site so that water collects beneath the home
Figure 3-2 Elimination of water beneath the home
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Gross Drive Rock Anchor MRA
Engineered for ln5taliation into Solid rock within 1 in. from
bottom of the anchor base. Lxact alignment is achieved with
the swivel tensioning head.
Drill 518' diameter hole s 112' deep in center of anchor
location Insart pnor stud Into hole.
Drill two 3,4` diameter holes into the rook at 45" angics,
using the anchor tread as a locating guide
Place rod through top and
corresponding bottom web flange
and into 45' hole. Drive rod Into
rock. Rea must be driven Into rock
at least 80,b of its length to
achiev =e minimum allowable
pullout rosistante Repeat using
2ntl rod
Maximum pullout resistance Is
developed when ground surface is
solid rock A4axlmurn distance
inn luaest edge of anchor flange
to rack 5urfaa is 1 let.
Pa rni smp
when Avis,
JAN 2 4 TOtri
h Y
r r
Cxhrhea 1 vG G�
s w .li,o w
7+r r lAnhla angle mooeeie 48° wn seidlrJanal
14. frame clamp Moat) avert be attached to
s a I the nppowt.0 from s l,te/140 d iv the darted Ili,
.r 6rowld K.erel
A 5Fab1@:er rigs fault bs Idealisd t err frame Ilea.
(pr aloarnai6c method Of srtabIlGdna pr0imd a »char.)
Jalaa proar anehar for *0 ed i R*.ic urlln8
VW Sell Teta Pmba.
Strap Buckle o MBU
Next, thread long and of
strap between 1r'arne and
floor of home Bring Strap
through buckle as shown
In diagram slid fasten to
anchor head.
'I..
XePlato Anchor
"i" D0111P9 FPaitid
I,FANN 34 U4UI
X- Plate for Soli Class 2
2 23/32" x 30" rods
InCludod. Part 59118
Thread 7' length of
Tahiti tie Strap through
strap buckle as shown.
tin
Diagram shows strap i fl
position around frame and
through buckle. It iS
important to remove ail
stack from system.
Frame Tie to Anchor
If the angle of the frame tie connection
is greater than 45° (as indicated try the
dattcd line Illustration Oct*, an addi-
tional frame tie must be attached to the
opposite "I" beam frame member
TIE DOWN ENGINELRltN� 5901 Wheaton Drive Atlanta GA `.30336 OWN
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