Codorniz TR 32070 BRES2014-1080 (Plans 1-3, 4-4 & 4-2) 2013 Code UpdateBin #
City of La Quinta
Building 8T Safety Division
P.O. Box 1504, 78-495 Calle Tampico
La Quinta, CA 92253 - (760) 777-7012
Building Permit Application and Tracking Sheet
Permit #,
d" 1�''
�5
Project Address: 5�-40 oeA'-r�
Owner's Name: RJT Homes - Codorniz, LLC
A. P. Number:
Address: P.O. Box 6089
Legal Description:
1( 3 2
City, ST, Zip: La Quin t a, CA
Contractor: RJT Investments, Inc.
69224i8
Telephone: 7 6 0 - 5 6 4- 3�"
Project Description:
Address: P.O. Box 6089
City,ST,Zip: L-a Quinta, CA 92248
Telephone: 7 6 0- 5 6 4- 476
CityLic.#:6089 9
r
StateLic.#: 690645
Arch., Engr., Designer
5 �" �•
Address:
City, ST, Zip:
Z,
Telephone:
Construction Type: Occupancy:
State Lic. #:
Project type (circle one): New Add'n Alter Repair Demo
i
Name of Contact Person: �,j�
Sq. Ft :
#Stories: # Units:
Telephone # of Contact Person: �% ' 0 Z
Estimated Value of Project:
APPLICANT: DO NOT WRITE BELOW THIS LINE
#
Submittal
Req'd
Rec'd
TRACMG
PERMIT FEES
Plan Sets
Plan Check submitted
Item
Amount
Structural Calcs.
Reviewed, ready for corrections
Plan Check Deposit
Truss Cales.
Called Contact Person
Plan Check Balance
Title 24 Cales.
Plans picked up
Construction
Flood plain plan
Plans resubmitted
Mechanical
Grading plan
2"! Review, ready for correctionsAssue
Electrical
Subcontector List
Called Contact Person
Plumbing
Grant Deed
Plans picked up
SALL
H.O.A. Approval
e
Plans resubmitted
Grading
IN HOUSE:-
'"' Review, ready for correctionvissue
I Developer Impact Fee
Planning Approval
Called Contact Person
A.I.P.P.
Pub. Wks. Appr
Date of permit Issue
School Fees
Total Permit Fees
e/z/ ; )545x:C
00 \1
DATE: 8/13/2014
EsGil Corporation
In (Partnership with Government for ouifding Safety
JURISDICTION: City of La Quinta
PLAN CHECK NO.: BRES 2014-1080 SET: I
PROJECT ADDRESS: CODORNIZ
❑ APPLICANT
❑ JURIS.
❑ PLAN REVIEWER
❑ FILE
PROJECT NAME: 2013CODE UPDATE PLAN 1A, 2A, 2X-A, 2XSG-A, 3A, 3B, 4-4A, 4-4B,
4-2A, 4-2B
® The plans transmitted herewith have been corrected where necessary and substantially comply
with the jurisdiction's building codes.
❑ The plans transmitted herewith will substantially comply with the jurisdiction's
codes when minor deficiencies identified below are resolved and checked by building
department staff.
❑ The plans transmitted herewith have significant deficiencies identified on the enclosed check list
and should be corrected and resubmitted for a complete recheck.
❑ The check list transmitted herewith is for your information. The plans are being held at Esgil
Corporation until corrected plans are submitted for recheck.
❑ The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant
contact person.
❑ The applicant's copy of the check list has been sent to:
® EsGil Corporation staff did not advise the applicant that the plan check has been completed.
❑ EsGil Corporation staff did advise the applicant that the plan check has been completed.
Person contacted: Telephone #:
Date contacted: (by: ) Email: Fax #:
Mail Telephone Fax In Person
® REMARKS: structural only
By: David Yao Enclosures: existing calculation for 4-4 and 4-2
EsGil Corporation
❑ GA ❑ EJ ❑ MB ❑ PC 8/6
9320 Chesapeake Drive, Suite 208 ♦ San Diego, California 92123 ♦ (858) 560-1468 ♦ Fax (858) 560-1576
Con.bvctio� Debris Management Plan-
proufalote)
n sat tttai 144#264
Job sta A cm" V3rtau€ Cordork -
(amodm W 70 times;
tauuner's I une RJT Cordoniz, LLC,, = _
urabStre�, Pt Bar :PO Box Q089
�l r `teiate, I crJs L3 Cuk tt tzCA SZ48RE
Otis Phone Mania 81 0-4214 t`
Dut y E-NWElkdtvw
a Prr t Mangpet Nhrm Mai _ NO V t 0 �C
Pit Man sft Phar_a Flmbtr 6104214 Y a
P °ae�MMeeft P-wd Ad descan , w CITY � � A �� ��TA
CQMMUNIrY l EVELt�'Mi NT
rilder 7orrtaicbor P.i'i C iriiz; LI.:`'
Nurnoar efts w-- PO Boa FO 3ax 30-39
cp_State, --tatei cote = is QLdntB. _ A 92248
PigW Sgmt Foot pe ` 9O: OGO (averse of 1-500 of per home)
My
AAPt`oyy
a
Dw -of City J`pprovai
Mate als T, Be D i+ded:
- Ptraduot Tons If
'ash "36 bD _Nat recy bf _ - P.. oduct Tors _
Asphalt OiOD a Wssonry: (broken) C-_ RWJabte
E-dehtfock 4OD Recyck to '!ester 21.O01 R�.table
t erdburd 34.65 Recyctaiie ;, Screp Metal 0.00 t�roifab�
Cc r if led QOO Recyota- - 'File (floor) 17.85 Recyclable-
Ccr a 8. Recyrclahta THe (roof) 400 RecyoRble
- Dirk^" M Wood 28250 ReWbbIe
rit") Rem' C.00 Recyctab Landscape Debris aO0 'Rec Sable
Vesodbe tarns
Totals: R e Tash Pry ected Diversion: ;
BEG6 '159 5 '} p
i undenow 51 is the i»!ae'tif at mes nnonabulty tc aubm it maples of weight -jcMts or receipts tattii olmftt:
Erwrenmertza %oominatof ast mae haulm oaaur. t herebylripl am% :hat con;Won, ementdm and niharaice of ate
Dwis Manaprmet t P .(DMtf� for fie ate naned pmjad eW 3annteettret,at least 60% of the Jobaite wash fe ch�&W
fmm leaf) ft The renal rrng=nater�l WE be r or rased. tall d art,'fa es Uag or reuse, ranain>np matarlale �
oe�temw -`rflr= tee ftrs. _U d tt prt t�'tro I fe camp
tetfon of the protect in aocacanae troith We plan. Tpis DMP to
f ued?in tie merle of fm p vm ti a mtr(e; ar-d wail nwrtah their papedy thmnhout the construction and/or ietnoli *n
prgea A cortator wring = egem of the owm may d t In a OMP for the mmw. Hoover, the DMP is etfa !sand ih `he
nmu of the F qx* o+fner tk ar eai the owner Petal a legal risponsb ty for emtrng life the provisions of ft DMP are adhered
to. Tice Drgm% Sumer e}itanc -gad cm -ma aor shell be kqx lnfwmd of the dwmIon _�rogrese through bi- no4* rapers. It
se?f-ha,.tiKo-
I
, 4. erl:m= f refuse r rom ri� ple3t Va must ba taiorr tc art apprnted 'recy er or _
-
', DNO= WAM I SUzediterdsift 4& Die }
71
SIP. Engineering
Consultants, LLC ..
7-18-14
Chad Meyer
RJT Homes — Codorniz, LLC
P.O. Box 6089
LaQuinta, CA 92248
14845 SW Murray Scholls Dr
Suite 110 PMB 306
Beaverton, OR 97007
503-564-4178
RE: Codorniz Housing Development
Review of Updated Truss Calculations for 2013 CBC Req'ts
Code Updated Models: 1A, 2A, 3A, 313, 4-2A, 4-26, 4-4A, 4-4B, 2XA, 2XA - SG
Chad,
Wood roof truss calculations originally submitted late last year under the 2010
CBC have been updated by the manufacturer, Spates Fabricators, to the new
2013 CBC wind loading criteria, and submitted to me for review.
The new design wind speed and exposure matches the information indicated
on the General Notes (S1) sheets of my structural drawings.
A"000&-S�wt
Mike Nelson, PE
RECE,vEt)
AUG042014
Cr" F1
COMMUNm DVVII1APMEW
May 17,2010
To Whom It. May Concerm
This is to verify that Spates Fabricators, Inc. of Thermal, CA is a Subspriber in the
Timber Products Inspection. (TP) and.General Testing and Inspection (GTI) Truss
Quality Auditing Program since June, 1990. The TP and GTI Truss Quality Auditing
Programs are recognized by the International Accreditation Service(IAS) with the
assigned number of A-A-664...
TP and, the GTI quality assurance marks have been recognized in the'Westby the truss
.industry and code jurisdictions since 1969, TP currently :audits truss manufacturing
facilities nationwide.
TP is conducting unannounced., third party audits at Spates Fabricators, Inc. of Thermal.,
CA. This facility is:currently in good stand .. in,g in the TP Truss Quality Auditing Program.
Spate's Fabricators, Inc. personnel are authorized. to apply the GTI quality mark to.
trusses thatare manufactured in accordance with the latest revision of the ANSI/TRI
Standards. All stamping takes place at the truss manufacturing facility, under
supervision of qualified plant personnel.
If you have questions regarding the status of any plant in the TP/GTI Program, please
contact m,e:on my cell 208.818.7869.
Sincerely,
I TIMBER PRODUCTS INSPECTION
Brian.Hensley
Truss Manager —Western Division
/j r
Xc: File
1055E 1241h Avenue P.O. Box 91.9 v 1641 Sigman Road
Vancouver -Wash . ington 98684 Conyers, Georgia 30012
360/449-3840 - FAX: 360/449-3953 77.0/922-8000 c. FAX: 776/922-1990
IMES Evaluation Report ESR-1988
www.icc-es.org 1 (800) 423-6587 1 (562) 699-0543
DIVISION: 06 00 00-WOOD, PLASTICS AND
COMPOSITES
Section: 0617 53-Shop-Fabricated Wood Trusses
REPORT HOLDER:
MITEK INDUSTRIES, INC.
14515 NORTH OUTER FORTY, SUITE 300
CHESTERFIELD, MISSOURI 63017
www.mii.com
EVALUATION SUBJECT:
MiTek® TRUSS CONNECTOR PLATES: TL18, MT18,
MT18HS-, M18SHS-, TL20 and MT20
1.0 EVALUATION SCOPE
Compliance with the following codes:
■ 2009 International Building Code® (2009 IBC)
■ 2009 International Residential Code® (2009 IRC)
■ 2006 International Building Code® (2006 IBC)
■ 2006 International Residential Code® (2006 IRC)
■ 1997 Uniform Building CodeTM (UBC)
Property evaluated:
Structural
2.0 USES
MiTek® metal truss connector plates are used as joint
connector components of light wood -frame trusses.
3.0 DESCRIPTION
3.1 MiTek®TL18 and MT18:
Models TL18 and MT18 metal truss connector plates are
manufactured from minimum No. 18 gage [0.0466 inch
total thickness (1.18 mm)], ASTM A 653 SS, Grade 40
steel, with a G60 galvanization coating [0.0005 inch
thickness on each side (0.013 mm)] and having a
base -metal thickness of 0.0456 inch (1.16 mm). The plates
have teeth 3/8 inch (9.5 mm) long, punched in pairs formed
at right angles to the face of the parent metal so that two
teeth per hole occur along the length. The spacing along
the longitudinal direction of each punched slot is 1 inch
(25.4 mm) on center. The transverse centerlines of
adjacent slots are staggered 0.10 inch (2.54 mm). The
distance between longitudinal centerlines of the slots is
0.25 inch (6.35 mm). There are eight teeth per square inch
(645 mm2) of surface area. Plates are available in 1/2-inch
(12.7 mm) width increments, up to 12 inches (304.8 mm),
and lengthwise in 1-inch (25.4 mm) multiples. See Figure 1
for details.
Reissued December 1, 2010
This report is subject to re-examination in two years.
A Subsidiary of the International Code Council°
3.2 MiTek® MT18HS-:
Model MT18HSTM metal truss connector plates are
manufactured from minimum No. 18 gage [0.0466 inch
total thickness (1.18 mm)], ASTM A 653, Grade 60,
high -strength, low -alloy steel (HSLAS) with a G60
galvanization coating [0.0005 inch thickness on each side
(0.013 mm)] and having a base -metal thickness of 0.0456
inch (1.16 mm). The plate has teeth 3/8 inch (9.5 mm) long,
punched in pairs formed at right angles to the face of the
parent metal so that two teeth per hole occur along the
length. The spacing along the longitudinal direction of each
punched slot is 1 inch (25.4 mm) on center. The transverse
centerlines of adjacent slots are staggered 0.10 inch
(2.54 mm). The distance between longitudinal centerlines
of the slots is 0.25 inch (6.35 mm). There are eight teeth
per square inch (645 mm2) of surface area. Plates are
available in 1/2-inch (12.7 mm) width increments, up to
12 inches (304.8 mm), and lengthwise in 1-inch (25.4 mm)
multiples. See Figure 1 for details.
3.3 MiTek® M18SHSTm:
Model M18SHSTM metal truss connector plates are
manufactured from minimum No. 18 gage [0.0466-inch
(1.18 mm) total thickness], hot -dipped galvanized steel that
meets the requirements of ASTM A 653 SS, Grade 80
steel, with a G60 galvanization coating [0.0005 inch
thickness on each side (0.013 mm)] and having a base
metal thickness of 0.0456 inch (1.16 mm). The plates have
3/8-inch-long (9.5 mm) teeth, punched in pairs formed at
right angles to the face of the parent metal so that two
teeth per hole occur along the length. The spacing along
the longitudinal direction of each punched slot is 1 inch
(25.4 mm) on center. The transverse centerlines of
adjacent slots are staggered 0.10 inch (2.54 mm). The
distance between longitudinal centerlines of slots is 0.25
inch (6.35 mm). There are eight teeth per square inch (645
mm2) of surface area. Plates are available in'/2-inch-width
(12.7 mm) increments, up to 12 inches (304.8 mm), and
lengthwise in 1-inch (25.4 mm) multiples. See Figure 1 for
details. ,
3.4 MiTek® TL20 and MT20Tm:
Models TL20 and MT20TM metal truss connector plates are
manufactured from minimum No. 20 gage [0.0356 inch
total thickness (0.9 mm)], ASTM A 653 SS, Grade 40 steel,
with a G60 galvanization coating [0.0005 inch thickness on
each side (0.013 mm)] and having a base -metal thickness
of 0.0346 inch (0.88 mm). The plates have teeth 3/8 inch
(9.5 mm) long, punched in pairs formed at right angles to
the face of the parent metal so that two teeth per hole
occur along the length. The spacing along the longitudinal
direction of each punched slot is 1 inch (25.4 mm) on
center. The transverse centerlines of adjacent slots are
]CC -ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed 1
as an endorsement of the subject of the report or a recommendation for its use. 'There is no warranty by ICC Evaluation Service, LLC, express or implied, as
to any finding or other matter in this report, or as to any product covered by the report. +an.
-
Copyright 0 2011 Page 7 of 3
ESR-1988 I Most Widely Accepted and Trusted Page 2 of 3
staggered 0.10 inch (2.54 mm). The distance between
longitudinal centerlines of the slots is 0.25 inch (6.35 mm).
There are eight teeth per square inch (645 mm2) of surface
area. Plates are available in 1/2-inch width (12.7 mm)
increments, up to 12 inches (304.8 mm), and lengthwise in
1-inch (25.4 mm) multiples. See Figure 1 for details.
4.0 DESIGN AND INSTALLATION
4.1 General:
All truss plates are pressed into the wood for the full depth
of their teeth by hydraulic -platen embedment presses,
multiple roller presses that use partial embedment followed
by full -embedment rollers, or combinations of partial
embedment roller presses and hydraulic -platen presses
that feed trusses into a stationary finish roller press.
Trusses must be assembled within the tolerances provided
by the Truss Plate Institute's Quality Criteria for Metal Plate
Connected Wood Trusses, shown as Section 4 in
ANSI/TPI 1 National Design Standard for Metal Plate
Connected Wood Truss Construction.
4.2 Allowable Design Values:
Allowable design values for MiTek® metal truss connector
plates to be used in the design of metal plate connected
wood roof and floor trusses are shown in Tables 1 and 2.
Allowable design values are applicable when the
connection is made with identical plates on opposite sides
of the joint. This evaluation report is limited to the
evaluation of connection capacity of the MiTek® metal truss
connector plates listed in this report. The design,
manufacture, and installation of trusses employing the
truss plates have not been evaluated.
5.0 CONDITIONS OF USE
The MiTek® Industries metal truss connector plates
described in this report comply with, or are suitable
alternatives to what is specified in, those codes listed in
Section 1.0 of this report, subject to the following
conditions:
5.1 This evaluation report and the manufacturer's
published installation instructions, when required by
the code official, must be submitted at the time of
permit application. In the event of a conflict between
the manufacturer's published installation instructions
and this document, the instructions in this document
govern.
5.2 Each application for a building permit, using these
truss plate connectors, must be accompanied by
documentation showing that the design, manufacture,
and proposed installation conform with the
requirements of the applicable code.
5.3 This report establishes plate design values only. For
items not covered by this report, such as truss design,
fabrication, quality assurance and special inspection,
refer to ANSI/TPI 1, engineering drawings and the
applicable code.
5.4 The design values (lateral resistance values, effective
tension strength ratios, and effective shear resistance
ratios) used in the design of trusses, using MiTek®
Industries metal truss connector plates, must not
exceed those listed in Tables 1 and 2 of this report.
Load combination reductions must be in accordance
with the applicable code.
5.5 All lumber used in the fabrication of trusses using
MiTek® Industries metal truss connector plates must
be graded in compliance with the applicable building
code, and must have a moisture content not
exceeding 19 percent at the time of assembly. Wet
service factors from ANSI/TPI 1 Section 6.4.5 must be
applied to the table values when the lumber moisture
content exceeds 19 percent. Allowable values shown
in the tables of this report are not applicable to metal
connector plates embedded in either fire -retardant -
treated lumber or preservative -treated lumber.
5.6 Metal truss connector plates must be installed in pairs
on opposite faces of truss members.
5.7 Galvanized G60 metal truss plate connectors subject
to corrosive environments must be protected in
accordance with Section 6.5 of ANSI/TPI 1.
5.8 MiTek® metal truss connector plates are
manufactured in St. Charles, Missouri; Phoenix,
Arizona; Tampa, Florida; Edenton, North Carolina;
and Bradford, Ontario, Canada.
6.0 EVIDENCE SUBMITTED
6.1 Data in accordance with the National Design
Standard for Metal Plate Connected Wood Truss
Construction, ANSI/TPI 1- 2007.
6.2 Manufacturer's descriptive literature.
6.3 A quality control manual.
7.0 IDENTIFICATION
The MiTek® connectors are identified by an imprint of the
plate name embossed into the surface of the plate (for
example, the MT20TM plate is embossed "MT20").
Additionally, boxes containing the connector plates must
be labeled with the MiTek® Industries name, the metal
connector plate model, and the evaluation report number
(ESR-1988).
TABLE I -ALLOWABLE LATERAL RESISTANCE VALUES, HYDRAULIC -PLATEN EMBEDMENT' (lb/inZ/PLATE)
LUMBER SPECIES SG I AA I EA I AE EE
TL18, MT18, MTI8HS rm, M18SHSTm, TL20 and MT20TM
Douglas fir -larch
0.49
248
203
170
171
Hem -fir
0.43
188
159
133
141
Spruce -pine -fir
0.42
206
162
125
122
Southern pine
0.55
244
192
171
178
For SI: 1lb/in Z = 6.9 kPa.
NOTES:
'Tooth -holding units = psi for a single plate (double for plates on both faces when applying to area on only one face). To achieve values,
plates must be installed on opposite sides of joint.
AA = Plate parallel to load, wood grain parallel to load.
EA = Plate perpendicular to load, wood grain parallel to load.
AE = Plate parallel to load, wood grain perpendicular to load.
EE = Plate perpendicular to load, wood grain perpendicular to load.
'All truss plates are pressed into the wood for the full depth of their teeth by hydraulic -platen embedment presses, multiple roller presses that
use partial embedment followed by full -embedment rollers, or combinations of partial -embedment roller presses and hydraulic -platen presses
that feed trusses into a stationary finish roller press.
ESR-1988 ( Most Widely Accepted and Trusted Page 3 of 3
TABLE 2-EFFECTIVE TENSION AND SHEAR RESISTANCE ALLOWABLE DESIGN VALUES'
PROPERTY
FORCE
DIRECTION
TL18 AND MT18
MT18HSTM
M18SHSTM
TL20 AND MT20TM
Efficiency
Pounds/
inch/Pair of
Connector
Plates
Efficiency
Pounds/
inch/Pair of
Connector
Plates
Efficiency
Pounds/
inch/Pair of
Connector
Plates
Efficiency
Pounds/
inch/Pair of
Connector
Plates
Tension values in accordance with Section 5.4.4.2 of TPI-1 (Minimum Net Section over the joint)2
Tension @ 01
0.5
1149
0.48
1596
0.52
2247
0.49
857
Tension @ 90,
0.52
1208
0.5
1671
0.53
2292
0.49
854
Tension values in accordance with TPI-1 with a deviation [see Section 5.4.9 (e) 1]
(Maximum Net Section Occurs over the joint)
Tension @ 01
0.59
1349
0.59
1975
0.6
2586
0.59
1035
Tension @ 901
0.53
1214
0.51
1727
0.54
2341
0.49
861
Shear Values
Shear @ 01
0.56
874
0.55
1099
0.53
1363
0.51
604
Shear @ 30°
0.66
1023
0.57
1153
0.57
1482
0.74
876
Shear @ 600
0.83
1283
0.74
1492
0.7
1805
0.82
970
Shear @ 90°
0.49
757
0.52
1052
0.39
1012
0.58
686
Shear @ 120'
0.39
608
0.4
1 802
0.41
1073
0.42
498
Shear @ 150°
0.45
702
0.37
745
0.33
868
0.5
592
For SI: 1 lb/inch = 0.175 N/mm, 1 inch = 25.4 mm.
NOTES:
'Minimum coated thickness is 0.0356 inch (0.904 mm) for 20 gage, or 0.0466 inch (1.184 mm) for 18 gage in accordance with Section 4.3.4 of
ANSI/TPI 1. Minimum coating thickness for G60 is 0.0010 inch (0.025 mm) total for both sides in accordance with Section 4.3.6 of ANSI/TPI 1.
2Minimum Net Section - A line through the plate's tooth pattern with the minimum amount of steel for a specified orientation. For these plates,
this line passes through a line of holes.
3Maximum Net Section - A line through the plate's tooth pattern with the maximum amount of steel for a specified orientation. For these
plates, this line passes through a section of the plate with no holes.
0.125" 0.250" 0.125" 0.375"
3.2 mm 6.4 mm 3.2 mm
F
E Lu
Ld
��ooa�ao��o
hii/iDTti
MT18, TL18, MT18HS,
M18SHS, MT20, TL20
FIGURE 1-APPROXIMATE DIMENSIONS OF MITEK CONNECTOR PLATES (inches) (1 inch = 25.4 mm)