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PTautt AopTWI Menu > PmEutt ar Aooliration SearM > AnoA<aHon List >�A.ppl�Detailon Detail
FL # Fi'15213-R3
Application Type Revision
Code Version 42gfWv
Application Status Approved
Comments
Archived ❑
Product Manufacturer Plastpro9nd.-,Nanya-Plastics-Corp.,,,.
Address/Phone/Email 5200 W CENTURY BLVD. ����
LOS ANGELES, CA 90045
(440)969-9773 Ext 16
rickw@mbldgconsultants.com
Authorized Signature Vivian Wright
rickw@mbidgconsultants.com
Technical Representative Scott Johnson
Address/Phone/Email 5200 W Century Blvd.
Los Angeles, CA 90045
(440) 969-9773 Ext 18
scottjohnson@plastproinc.com
Quality Assurance Representative Ron O'Connell
Address/Phone/Email 5200 W Century Blvd.
Los Angeles, CA 90045
(440) 969-9773 Ext 16
ronoconnell@plastpro.com
Category ateriocDoors—_
Subcategory Sv�g_ng,1Exterio"`�r�Doorr�nssemhlies
Compliance Method Evaluation Report from a Florida Registered Architect or a Licensed
Florida Professional Engineer
D Evaluation Report- Hardcopy Received
Florida Engineer or Architect Name who developed
Lyndon F. Schmidt, P.E.
the Evaluation Report
Florida License
PE-43409
Quality Assurance Entity
National Accreditation and Management Institute
Quality Assurance Contract Expiration Date
12/31/2021
Validated By
Ryan J. King, P.E.
2 Validation Checklist - Hardcopy Received
Certificate of Independence
FL15213 R3 COI (b) Certificate of Independence.odf
Referenced Standard and Year (of Standard)
Standard
101/1.S.2
101/1'.S.2/NAFS
AAMA/ W DMA/CSA 101/I. S.2/A440
ASTM E1886
ASTM E1996
ASTM E330
TAS 201, 202, 203
Year
97
2 2
2005
�- 2002
2002
2002
`V 1994
1994
https://www.floridabuilding.orglprlpr_app_dtl. aspx?param=wGEVXQwtDgv3yV VKJZ 1 Q... 3/4/2020
Florida Building Code OnFn-
Page 2 of 5
Equivalence of Product Standards
Certified By
Sections from the Code
Product Approval Method
Date Submitted
Date Validated
Date Pending FBC Approval
Date Approved
Summary of Products
Go to Page =
Florida Licensed Professional Engineer or Architect
FL15Z13 R3 Equily (a)Equivalency f Standards.pdf
Method 1 Option D
10/20/2017
10/20/2017
10/24/2017
12/12/2017
0 0 Page 1/ 2 0 0
FL* _
Model, Number or Name
Description
W5213.1-
p`�5mdoth/.Wood'-Gra1nj*6ltF Woad
6'8 "Impact" Opaque Fiberglass Single Door -
'
F_r,_' Rustic/MahooganySeries, y
Inswing/Outswing (X - Conflguabon)
1
iberglaSs1o0
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL15213 R3 II (a) Inst 15213 1 odf
Approved for use outside HVHZ: Yes
Verified By: Lyndon F. Schmidt, P.E. 43409
Impact Resistant: Yes
Created by Independent Third Parry: Yes
Design Pressure: N/A
Evaluation Reports
Other. See INST 15213.1 for Design Pressure Ratings, any
FL15213 R3 AE (a) Eval 15213.1.odf
additional use limitations, installation Instructions and product
Created by Independent Third Party: Yes
particulars.
15213.2
b. Smooth/Wood Grain/White Wood
6'8 "Impact" Opaque Fiberglass Single Doorwith Sidelite
Gain/RustictMahogany Series
utilizing "Snap Fame" Glazing - Inswing/Outswing (OX or XO
Fiberglass Door
- Configurations)
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL15213 R3 II (a) Inst 15213.2.adf
Approved for use outside HVHZ: Yes
Verified By: Lyndon F. Schmidt, P.E. 43409
Impact Resistant.• Yes
Created by Independent Third Party: Yes
Design Pressure: N/A
Evaluation Reports
Other: See INST 15213.2 for Design Pressure Ratings, any
FL15213 R3 AE (a) Eval 15213.2.odf
additional use limitations, installation instructions and product
Created by Independent Third Party: Yes
particulars.
15213.3
c. Smooth/Wood Grain/White Wood
68 "Impact" Opaque Fiberglass Single Door with Sidelites
Gain/Rustic/Mahogany Series
utilizing "Snap Frame" Glazing - Inswing/Outswing (OXO -
Fiberglass Door
Configuration)
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FLIS213 R3 It (a) Inst 15213.3.odf
Approved for use outside HVHZ: Yes
Verified By: Lyndon F. Schmidt, P.E. 43409
Impact Resistant: Yes
Created by Independent Third Party: Yes
Design Pressure: N/A
Evaluation Reports
Other: See INST 15213.3 for Design Pressure Ratings, any
FLI5213 R3 AE (a) Eval 15213.3.odf
additional use limitations, installation instructions and product
Created by Independent Third Party: Yes
particulars.
15213.4
d. Smooth/Wood Grain/White Wood
6'e "Impact" Opaque Fiberglass Single Door with Sidelite
Grain/Rusti4Mahogany Series
utilizing "Lip Lite" Glazing - Inswing/Outswing (OX or XO -
Fiberglass Door
Configurations)
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL15213 R3 II (a) Inst 15213.4,odf
Approved for use outside HVHZ: Yes
Verified By: Lyndon F. Schmidt, P.E. 43409
Impact Resistant: Yes
Created by Independent Third Party: Yes
Design Pressure: N/A
Evaluation Reports
Other: See INST 15213.4 for Design Pressure Ratings, any
FL15213 R3 AE (a) Eval 15213.4 odf
additional use limitations, installation instructions and product
Created by Independent Third Party: Yes
particulars.
15213.5
e. Smooth/Wood Grain/White Wood
6'8 "Impact" Opaque Fiberglass Single Door with Sidelites
Gain/Rustic/Mahogany Series
utilizing "Up Lite" Glazing - Inswing/Outswing (OXO -
Fiberglass Door
Configuration)
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL15213 R3 i1 (a) Inst 15213.5.odF
Approved for use outside HVHZ: Yes
Verified By: Lyndon F. Schmidt, P.E. 43409
Impact Resistant: Yes
Created by Independent Third Parry: Yes
https://www.floridabuilding.orglprlpr_app_dtl.aspx?param=wGEVXQwtDgv3yV V KJZ 1 Q... 3/4/2020
plastpro
oyy
5200 W. CENTURY BLVD.
LOS ANGELES, CA 90045 37MMAXOA
—
FRAMEWIDTH
//rIIII I111 1 O A 2
Smooth / Wood Grain / White Wood Grain N gin gmg�
Rustic / Mahogany m e ll m aal'
Series Fiberglass Door o
INSWING / OUTSWING R a
"IMPACT' 3
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w� w
GENERAL NOTES
W ® am 8c
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I.. This product has been evaluated and Is in compliance Qh the 6th Edition
(2017) Florida Balding Code (FBC) structural requirements excluding the "Ffigh 0
Velocity Hurricane Zone' (HVM. a
2. Product anchors shall be as listed and spaced as shovm on detaik. Anchor '
embedment to base material shag be beyond wall dressing or stucco.
3. When used in areas requiring wlntl borne debris protection this product
complieswilh FBC Sections 1609.1.2 & R301.2.1.2 and does not require an 9.
Impact resistant covering. This product meets missile level "D" and includes Wind N
Zone 4 as defined In ASTM El 996 end FBC Sections 1609.1.22 & R301.2.1.2.1. 1313
iE IE
4. For 2x stud framing construction, anchoring of these units shall be the same as =
thatshovm for2x buck masonry construction.
5. Site conditions that deviate from the details of this drawing require further a
engineering analysts by a licensed engineer or registered architect. B
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FL—15213.1
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TABLE Of CONTENTS
SHEETS
DESGptP1i0N
I
Typical elevation. design rassums,&general notes
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OVfRA�
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BUILDING CONSULTANTS. INC.
P.O. Baz MO. V.1d... F O3595
PARR. NO.: 813.659.9197
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1. Concrete ancho' locations at the comes maybe adjustecl to rnahtosn the min. edge distance to mortarlonf..
2. Concrete oncharlocations noted as 'MAXON CS4rErrnusf be adpted to
minfafn the min. edge ref the to mortanft. oacriflonal concrete anchors a d
maybe required to ensure the WAX ON CENTER' dknemlon on, not exceeded (21
3. �ncrefocnchorfabte. /--N
ANCHOR''. I ANCHOR I . . 'MIN. -�::z
CLEARANCE
BILL Of MATERIALS
ITEM
DESCRIPTION
MATERIAL
1
MASONRY - 3,000 PSI MIN. CONCRETE CONFORMING TO ACT
301 OR HOLLOW BLOCK CONFORMING TO ASTM C90
CONCRETE
2
1X BUCK SG>=0.55
WOOD
3
2XBUCKSG>=0.55
WOOD
4
1/4"MAX.SHIMSPACE
5
1/4" X 2-3/4" PFH ELCO OR ITW CONCRETE SCREW
STEEL
6
#10x2-1/2PFH WOOD SCREW 1.15'MIN. EMBEDMENT1
STEEL
8
09 x 3X PFH WOOD SCREW
STEEL
9 1
DOOR SKIN MIN. 0.075°THICK
FIBERGLASS
10
INSWING VINYL DOOR BOTTOM SWEEP BY ENDURA
VINYL
10A
VINYL DOOR BOTTOM SWEEP#3628 BY HOLM IND.
VINYL
I
REINFORCEMENT WOOD FOR LOCK
WOOD
12
FINGER JOINTED PINE JAMB
WOOD
13
#9x2-1/4"PFH WOOD SCREW
STEEL
14
BOTTOM RAIL
CELLULAR PVC
15
INSWING ADJUSTABLE THRESHOLD BY ENDURA
ALUM.! WOOD
15A
INSWING ADJUSTABLE ALUMINUM THRESHOLD BY DIP
ALUM. WOOD
16
FORCE 5 WEATHER STRIPPING BYENDURA
FOAM
16A
COMPRESSION WEATHER STRIP QLON 650 BY SCHLEGEL
FOAM
17
1 KWIKSEF KEYED ENTRY -SIGNATURE SERIES
STEEL
18
KWIKSET DEADBOLT- SIGNATURE SERIES 780
STEEL
20
POLYURETHANE FOAM BY NANYA
POLYURETHANE
21
4"x 4" BUR HINGE
STEEL
23
POLY FIBER JAMB
COMP./VINYL
24
HINGE&LATCH STILE
CELLULAR PVC
25
TOP RAIL
CELLULAR PVC
26
DEADBOLTSTRIKEPIATE
STEEL
27
LATCH STRIKE PLATE
STEEL
28
OUISWING BUMP THRESHOLD
ALUM. I WOOD
29
HINGE& IATCH STILERDNFORCEMENT
I LVL
30
11 /4" X 33/4' PFH ITW CONCRETE SCREW
STEEL
31
#9xi"PFHWOODSCREW
STEEL
32
1/4"X 3-1/4" PFH ITW CONCRETE SCREW
STEEL
33
3/16°X3-1/4° PFH ITW CONCRETE SCREW
I STEEL
40
1 DOOR PANEL- SEE DOOR PANEL DETAIL SHEET FOR CONSTRUCTION DETAILS
I 1
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FL-15213.1
BOO Home 11a01n I User legloMb.n ; Hot Tell. 1 Submit Surcharge , Stets a Facts 1 Publlabons I FM Staff I BCIS SM Map I unks I search
Glonaa
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IW. USER: Public User
us�?ex_n�T
P.vru¢ Approval Menu > Pmau3 or nyollCatlrn SearU > Avvllranrn List > Application Detail
FL #
Application Type
Code Version
Application Status
Comments
Archived
Product Manufacturer
Address/Phone/Email
Authorized Signature
Technical Representative
Address/Phone/Email
Quality Assurance Representative
Addrese(Phone/Emall
fLL75617116
Revision
f�2_Dl7v".
Approved
0
FjiCe7At rrmTnum -oC ryoratio'rt--;i'
4650 Lyons Technology Parkway
Coconut Creek, FL 33073
(954) 949-3200
d k@dokimengineerin g.net
Do Kim
dk@dokimengineerin g •net
Bruce Peacock
4650 Lyons Technology Parkway
Coconut Creek, FL 33073
(954) 949-3200
bpeacock@elltealuminum.com
Category
Roo0ng _
-,-...,
Subcategory
Troddcts•Intr0 � ce `as'a,ResulEofNDw Technology,
Compliance Method
Evaluation Report from a Florida Registered Architect or a Licensed
Florida Professional Engineer
❑ Evaluation Report - Hardcopy Received
Florida Engineer or Architect Name who developed
Do Kim, P.E.
the Evaluation Report
Florida License
PE-49497
Quality Assurance Entity
QAI Laboratories
Quality Assurance Contract Expiration Date
12/30/2022
Validated By
CBUCK Engineering
G Validation Checklist- Hardcopy, Received
Certificate of Independence FL7561 R4 COI Certof Indeoendence.odf
Referenced Standard and Year (of Standard)
Equivalence of Product Standards
Certified By
Sections from the Code
1709.2 qv�
r ^1C
C
t�
rr�J
Product Approval Method Method 2 Option B
Date Submitted D811512017
Date Validated 08/16/2017
Date Pending FBC Approval 08/20/2017
Date Approved 10/10/2017
Summary of products
1 �
FL,ipn`:Jyy,
ModelNumb'eror.Name
Description
756OT1 q'"�b-•
Ahiminum%A minWgomposite
3'/4"/6"x0.024"x111b EPS Composite Panel,
3'/4°/6"x0.032x1Ib EPS Composite Panel,
"-
3'/4'y6"x0.e24"x21b EPS Composite Panel,
3'/4"/6"x0.030"x21b EPS Composite Panel,
Limits of Use
Installation Instructions
Approved for use in HVHZ: Yes
FL7561 R4 If 2017 FBC-Elite Aluminum Corp -Install
Instruct,Dd
Approved for use outside HVHZ: Yes
Impact Resistant: No
Vedfied By: Do Kim, P.E. PE 49497
Design Pressure: +80/-80
Created by Independent Third Party: Yes
Other. In HVHZ, not to be used in structures considered
Evaluation Reports
living areas per FBC Section 1616 unless Impact protection
FL7561 R4 AE FL 7561 Evaluation Report-2017 FBC.odf
Created by Independent Third Party: Yes
Is provided. See installation drawing for nominal allowable
design pressures and spans,
eaNr nose
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Product Approval A¢ tar
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To detemdne If van are a Himasse under
ELITE PANEL SPAN TABLES
-'Cxi(1.024'?x3Ui.3YL'BJFE&P $PANELS
(ALLOW A'BLCr-CLIEAR--SPAN-CHARiP
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LOAD (PSFI
MAX, ALLOWABLE SPAN (FT)
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L/240
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NET
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LOAD (PSF)
MAX, ALLOWABLE SPAN (FT)
L/80
L/120
L/18(1
L/240
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(ALLOWABLE CLEAR SPAN CHARTS)
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MAX. ALLOWABLE SPAN ITT)
1 L/813
I L/120
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3' IS 0.032 x 1 - LB EPS PANELS
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NET
ALLOWABLE
LOAD ('Sr)-
MAX ALLOWABLE SPAN (ET)
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L/120
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3' x 0.024 x 2 - LB EPS PANELS
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L/I20
L/I80
L/240
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4' x 0.024 x 2 - LB EPS PANELS
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NET
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MAX. ALLOWABLE SPAN (FT)
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Willer, to olundnum facings Willi Aeblund Chemical 2020D ISO OF. FNuicn k," W be by Elite Polcl Products only in
«nsdalco Willi oppwvcd Ontaication nallwds.
2. Ili(s FIAT panalS,n inWbsa UL 1715(let) Cie.113' jai) riling and Mo N81L'501 WPliaTed.
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Chapter 26 Section 2603. All local building Lode Wmendincr s shall be adhered to On "ul Wd.
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load cnvbiradntn) using dW data fmm Ilse Clioavlde loads awes vad spins in his approml.
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L/180
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I ORwinB No.-FL-1001 I
Florida Building Code 07I;-,-
Page 1 of 5
{ 160A
� � 0'1ffl��ftt
BUS Home j We In� t user Registration Hot Toplo submit SumhaMp { Stats a Facts Publications I contact Us I BUS site Map f ❑nkc Search
lDIda
4�� Cry :� Product Approval
$ 'a' �� USER: Public user
L==
Pmd mt Aj,n, uM Menu > Product m Aunllonlnn Search > Annllcatlan Llst> Application Detail
FL # F{.' 191R6
Application Type Revision
Code Version 6t
Application Status Ap roved
*Approved by DBPR. Approvals by DBPR shall. be reviewed and ratified by
the POC and/or the Commission if necessary..
Comments
Archived
Product Manufacturer AY
Address/Phone/Email 1 Memorial Drive
Richford, VT 05476
(662)252-9991 Ext 231
joe.lundine@kpproducts.com
Authorized Signature Joe Lundine
joe.lundine@kpproducts.com
Technical Representative Joe Lundine
Address/Phone/Email 402 Boyer St
Williston, VT 05495
(662) 252-9991
joe.lundine@kpproducts.com
Quality Assurance Representative
Joe Lundine
Address/Phone/Email
402 Boyer St
Williston, VT 05495
(662)252-9991
joe...lundine@kpproducts,com
Category
-h�P ei'walls
Subcategory
Siding' l
Compliance Method Evaluation Report from a Product Evaluation Entity
Evaluation Entity
ICC Evaluation Service, LLC
Quality Assurance Entity
Architectural Testing, Inc., an Intertek Company
Quality Assurance Contract Expiration Date
12/31/2020
Validated By
Robert J. Amoruso, P.E.
J Validation Checklist - Hardcopy Received
Certificate of Independence FL12192 R6 COI ICC Certificate of Indeoendence.odf
Referenced Standard and Year (of Standard) Standard ,Year
ASTM D3679 2011
Equivalence of Product Standards ��
Certified By O •
Sections from the Code 00S
https://www.floridabuilding.orglprlpi _app_dtl. aspx?param=wGEVXQwtDquk24AUC%2fE... 3/4/2020
Florida Building Code Online
Page 2 of 5
Product Approval Method
Date Submitted
Date Validated
Date Pending FBC Approval
Date Approved
Summary of Products
Go to Page = e
Method 1 Option C
12/03/2018
12/03/2018
12/04/2018
d 0 Page l/20 0
FL V
Model, Number or Name
Description
12192.1
Board & Batten
Single 7" Vertical Siding
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL12192 R6 II Kavcan Installation.odf
Approved for use outside HVHZ: Yes
Verified By: ICC Evaluation Service, LLC
Impact Resistant: N/A
Created by Independent Third Party:
Design Pressure: +0/-70
Evaluation Reports
Other: Design Pressure Rating applicable to negative
FL12192 R6 AE ESR-1495.Ddf
direction only. Installed only on exterior walls over solid
sheathing capable of withstanding the design wind loads.
Must be Installed as per the manufacturers Installation
Instructions.
12192.2
Center Vented 12"/Solid 12"
Triple 4 inch Partially Perforated Soffit
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL12192 R6 11 Kavran Installation.odf
Approved for use outside HVHZ: Yes
Verified By: ICC Evaluation Service, LLC
Impact Resistant: N/A
Created by Independent Third Party:
Design Pressure: +0/-70
Evaluation Reports
Other: Design Pressure Rating applicable to negative
FL12192 R6 AE ESR-1495.pdf
direction only. Installed only an exterior walls over solid
sheathing capable of withstanding the design wind loads.
Must be installed as per the manufacturers Installation
Instructions.
4492
D-4 Avanb
Double 4" Horizontal Dutch Lap
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL12192 R6 II Kavcan Installation. odf
Approved for use outside HVHZ: Yes
Verified By: ICC Evaluation Service, LLC
Impact Resistant: N/A
Created by Independent Third Party:
Design Pressure: +0/-70
Evaluation Reports
Other: Design Pressure Rating applicable to negative
FL12192 R6 AE ESR-1495.odf
direction only. Installed only on exterior walls over solid
sheathing capable of withstanding the design wind loads.
Must be Installed as per the manufacturers Installation
Instructions.
12192.4
D-4 Marquis
Double 4" Horizontal
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL12192 R6 11 Kavcan Installation.odf
Approved for use outside HVHZ: Yes
Verified By: ICC Evaluation Service, LLC
Impact Resistant: N/A
Created by Independent Third Party:
Design Pressure: +0/-70
Evaluation Reports
Other: Design Pressure Rating applicable to negative
FL12192 R6 AE ESR-1495.odf
direction only. Installed only on exterior walls over solid
sheathing capable of withstanding the design wind loads.
Must be installed as per the manufacturers Installation
Instructions.
12192.5
D-5 Contessa
Double 5" Horizontal
Limits of Use
Installation Instructions
Approved for use in HVHZ: No
FL12192 R6 11 Kavcan Installation.odf
Approved for use outside HVHZ: Yes
Verified By: ICC Evaluation Service, LLC
Impact Resistant: N/A
Created by Independent Third Party:
Design Pressure: +0/-70
Evaluation Reports
Other: Design Pressure Rating applicable to negative
FU 2192 R6 AE ESR-1495.ndf
direction only. Installed only on exterior walls over solid
sheathing capable of withstanding the design wind loads.
Must be Installed as per the manufacturers installation
Instructions.
.12192.E
D-5 Elegance
Double 5" Horizontal Dutch Lap
Limits o! Use
Installation Instructions
Approved !or use In HVHZ: No
FL12192 R5 II Kavcan Installation.odf
Approved for use outside HVHZ: Yes
Verified By: ICC Evaluation Service, LLC
Impact Resistant: N/A
Created by Independent Third Party:
Design Pressure: +0/-70
https://www.floridabuilding.org/pr/pr_app_dtl.aspx?param=wGEVXQwLDquk24AUC%2fE... 3/4/2020
,..14.
Q
KAYCAN TM
General estimating tips
Estimating for soffit
Soffit material will be used on the front and rear eaves, the gable overhangs, the dormer overhangs and any porch ceilings.
Calculating the eaves
For the front and rear eaves, add the total length of each section and multiply by the width. The width is a straight-line distance from
the wall to the tails of the rafters. This would also be done on the ends of the home on a hip roof.
Our sample home in GENERAL ESTIMATING TIPS was 40' long with a 12" overhang on each of its two gables. Total length of the
home then, would be 42'. If the overhang is 12' on both the front and the rear eave, then the square footage of soffit needed is
42' x V = 42 sq. ft,
The back is a duplicate of the front so the total is 42 sq. ft + 42 sq. ft = 84 sq. ft
These low eaves will require vented soffit for attic ventilation, so we will order 1 square of vented soffit for this job.
Use the same process of rounding up to the next highest 3" increment as described in general estimating tips . Do the same
for any dormer eaves.
Calculating the gable overhangs
For the gable or dormer overhangs (rakes), you must determine the length of each section. These will be angled and the length
will be dependent upon the pitch of the roof. The easiest way is to scale them off of the building plan. If you don't have access to
the plan, here is the process.
Let's use the same home we used in general estimating tips. The width of this home was 30' with a 12" overhang, front and rear,
making the gable width 32'. The run is half this width or 16'.
The height as we calculated earlier was 6.72'. To figure the diagonal, which is the measurement we want, we do the following:
Multiply 16' x 16' and record the answer. (16' x 16' = 256')
Multiply 6.72' x 6.72' and record the answer. (6.72' x 6.72' = 45.16')
Add the two answers. (256' + 45.16' = 301.16')
Put this number into your calculator and hit the square root button.
The answer is 17.35'.
This is the length of one side of the gable or soffit overhang.
As there are always two pitched sides to a gable or dormer, multiply the result by 2.
17.35' x 2 = 34.7 linear feet Round it up to 35 linear feet
Multiply this by the width of the overhang. Lets assume 12" or 1 ft.
35 linear feet x 1 foot = 35 square feet. Enter this into your worksheet.
The other gable is the same, so enter 35 square feet for it into the worksheet.
Total soffit material required for both gables is 35 + 35 = 70 sq. ft This does not have to be vented, so solid soffit is
ordered for this section. We will order 1 square of solid (non -vented) soffit for this portion. Continue this same process
for all gables and pitched dormers.
Soffits
Measure the width of the eave.be tocovered. Measure the`lengih of the eave.' "
Do this;for
each eave; mcluding•(he rakes of the -gables
and dormer eaves:, .4,
Eave 1-
(width) x
(length}=;
sq: ft. vented soffit
Eave 2;-
. (width) x
(length).=- >
' sq ft. vented soffit
Eave 3`
(width) x
- Qength),=
sq, ft. vented soffit
Eave 4:.
'- (width) x
(length)'=
sq.-ft, ventedsofft
Eave 5i'
' IN x
Qength)'= -
sq. ft, solid soffit
Eave 6
{width} x.
(length) =
sq.,ft. solid soffit
Eave7:
(width)z
(length)=
sq:ft.solid soffit
Eave 8.
(width) x• _
(length),=
sq.•ft. solid soffit:.
Total Venied•Soffit
- sq ft:.,
Total Non-Vented(solid) Soffit
_, ' 'ft q.
4 KAYCAIV—
General estimating tips
Wall surfaces
Measure the height(excluding gables). Measgre the width.
Do not deduct for doors`and-windows: Do this for each wall:section,'>
r
.including any surface,to receive siding.
W6111
(hxw)=
Wall
{hxw)= =
sq ft
.2:,,
Wa113' _
(It x w) _'
sq ft.
Wa114-
-{hx.w)-
Wall5:
(hx;w)
sq ft
Wall6:
'(hxw)= ,
sq.ft
,
Wall
7f
Ah x w)
'sq: fit:
Wall8-
(hxw)
$q ft.
Wall9:
(hxw)=
sq.ft '
Wall 10:
(h x w)
Total'.
Gab
Dori
Po r(
surfaces
Measure the 'height at the center, Measure the width.
Do notdsductfor doorstand windows. Do this for each gable to=receive -'
-
sidin
"g Mulliply.ihe results by 15 (7M/.) -
Gable 1:
(width) x {height) xJ5 =
sq. ft
Gable 2 r
(width) x {height) x.75 -
sq. ft
Gable 3: -
(width) (width) x {height) x .75 -
sq. ft`,
Gable4:
(width)x (height)x75'
"'
sq! A
Gable 5,
(width) x (height)
a 75
so- ft
Gable 6:
(width)'x (height)
x .75
sq:.R '
Total.
r surfaces
'Measure the height of the dormer. Measure -the width:
'
Multiply the results by-:75 (75%), Multiply the results by 2 to takeoff both ,
sides of each dormer. Do
this for each dormer-.
Dorrtierl' `(hxw)=
x.75{x2)•=
q.ft,
Dormer 2: (h x w) =
x .75,,(x 2)
sq. ft. ,
Dormer3: "(hxw)=
x'.75`(x2) .
". sq.fl''
Dormer4. (h x w)
(x 2) •=
sq;ft
Dormer5. `° - (hxw)
x.75(x2)-
sq, ft.'
Dormers. (h x w)•=
x _75 {x 2) =
sq. ft.
Total
sq. ft.
:eilings
Multiply the width of, eabh,rectangular area by the length; add totals of-;
' each rectangular area.
(width) x (tength)'bf area 1 = : sq. ft. '-
(width) x, (length) of area 2 sq. ft.
Total Noh..Vente'd (solid) Soffit.
Height B
worh
Height
ICAYCAN— 5
Terms to know
Backerboard — a flat material used on the face of the house, applied between the studs and the siding
(or over existing wall surface), to provide an even surface for installing vinyl siding.
Buttlock — the bottom edge of a siding or soffit panel, or accessory piece, opposite the nailing slots, which locks
onto to the preceding panel.
Channel — the area of the accessory trim or corner post where siding or soffit panels are inserted. Channels also
refer to the trim itself, and are named for the letters of the alphabet they resemble (e.g., J-channel, F-channel, etc.).
Course — a row of panels, one panel wide, running the length of the house from one side to the other, or, in the case
of vertical siding, from top to bottom.
H-channel — a siding accessory that joins two soffit panels, or used as transition between two siding sections.
Face — refers to the side of a siding or soffit panel that is showing once the panel has been installed.
Face -nailing —the action of fastening directly onto the "face" side of a panel (instead of using the nail hem slot).
This practice is generally not used in siding installation.
Fascia— the trim covering the ends of roof rafters and gables.
Fascia board — a board attached to the ends of the rafters and gables between the roofing material and the soffit
overhang. Fascia cap is the covering around that board.
Flashing — a thin, flat material, usually aluminum, positioned under or behind J-channels, comer posts, windows,
etc., to keep draining water from penetrating the home. Flashing is also used around the windows and doors.
Furring/Furring strip — usually a 1" x 2" wood strip used to even a surface in preparation for installing vinyl siding.
To "hid' a surface means to apply these strips.
Lap — to overlap the ends of two siding panels or accessory pieces to allow for expansion and contraction.
Tab — the raised "ears" on a siding panel, created by a snap lock punch, which can be used to lock a siding panel
into place when the nailing hem has been removed.
Miter— to make a diagonal cut, beveled to a specific angle (usually 45°). Sometimes miter cuts are made into an
overlapping siding or soffit panel surface, to provide a neater appearance.
Nailing hem —the section of siding or accessories where the nailing slots are located.
Plumb— a position or measurement that is truly and exactly vertical, 900 from a level surf-,
Rake (roof) — the inclined, usually projecting edge of a sloping roof. Rake (wall) —the boa
or molding placed along the sloping sides of a gable to cover the ends of the siding.
Scoring —running a utility knife blade, a sharpened awl, scoring tool, or other sharp
implement across a soffit or siding panel face without cutting all the way through the
panel. This weakens the vinyl surface in a specific area and allows the panel to be bent
and broken off cleanly.
Sealant —any of a variety of compounds used to fill or seal joints in wood, metal,
masonry, vinyl, and other materials.
Shim — a building material used to even a surface prior to installing vinyl siding.
Soffit— material used to enclose the horizontal underside of an eave, cornice, or
overhang. Soffit is designed to be installed lengthwise from wall to fascia.
Starter trim — an accessory applied directly to the surface of the building and used to
secure the first course of siding to the home.
Square — a square represents an area of 10' by 10' (100 sq. ft.) and is generally
the term used in the industry v when referring to the quantity of siding. Vinyl siding is
measured in squares, i.e.: this house requires 20 squares of siding.
UnderlaymentlUnderlayment board —weather resistant material placed under vinyl
siding panels.
Undersill trim —a piece of trim used any time the top lock has been removed from the
siding, to secure a siding panel.
Weep holes — openings cut into siding or accessories to allow for water runoff.
Window)door drip cap —an accessory installed with vertical siding to ensure that water
drips away from panels and does not infiltrate them.
Outside and inside corner posts — Corner posts are used to provide a finished edge at an inside or outside
corner. The siding from adjoining walls fits neatly into the inside or outside comer post channels. Appropriate
widths of channel openings are available to accommodate various configurations of siding.
Tap bk
Siding description
KAYCAN"
Fasteners
Fastener choices
Use aluminum, galvanized steel, or other corrosion -resistant nails, staples, or screws when installing vinyl siding.
Aluminum trim pieces require aluminum or stainless steel fasteners. All fasteners must be able to penetrate not less than
3/4" into framing or furring. Review your local building codes for variations that may apply to specific geographic areas
Nails
Nail heads should be 5/16' minimum in diameter. Shank should be 10 in diameter.
UB°min
T
&16' min.
IA
T
Screw fasteners
Screw fasteners can be used If the screws do not restrict the normal etgransion and contraction movement of the vinyl
siding panel on the wall. Screws must be centered in the slot with a minimum 1/32" space between the screw head and
the vinyl. Screws must be able to penetrate not less than 3/4" into framing or furring and should be:
• Size i16, truss head or pan head.
• Corrosion -resistant, self -tapping sheet metal type.
New construction
Fastener
_' -� ' - _'
Fastener
Vinyl siding
Vinyl siding
ng
7
Wood lap
'�-�
/
siding
Wood
-, - Concrete -
',
Framing
Fanfold
i or blocks ,', I
underlayment
' r , , ,
Funing strip
- '
(3/4° min.)
Original
- • ' _ -
\,
sheating
,
Residing
Over concrete
or blocs
Staples
If staples are being used instead of nails or screws, they must:
• Not be less than 16-gauge semi -flattened to an elliptical cross-section.
• Penetrate not less than 3/4' into framing or furring.
• Be wide enough in the crown to allow free movement of the siding
(1/32' away from the nailing hem).
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Use of staples when installing siding
KAYCAN" 7
Accessories
Starter trim 10'
r'
Window/door drip cap 10'
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Undersill trim 12' 6"
G
Dual undersill trim 12' 6"
How to determine the number
of pieces required:
Measure structure perimeter.
Convert to decimal, divide by 10 and round up.
# of pieces needed:
Measure tops of all window and door cap openings.
Convert to decimal, divide by 10 and round up.
# of pieces needed:
Measure bottom of all areas where siding must be out horizontally
(at the top of wall and under all door and window openings).
Convert to decimal, divide by 12.5 and round up.
# of pieces needed:
Measure bottom of all areas where siding must be out horizontally
(at the top of wall and under all door and window openings).
Convert to decimal, divide by 12.5 and round up.
# of pieces needed:
F-channel 12' 6"
Measure span where all soffits return to wall,
Convert to decimal, divide by 12.5, and round up.
# of pieces needed:
For open eaves, multiply the pieces calculated above by 2:
J-channel 12' 6"
Measure around all openings (doors, windows and gable ends).
Convert to decimal, divide by 12.5 and round up.
# of pieces needed:
Outside corner post 10'
Measure length on all outside corners.
Convert to decimal, divide by 10 and round up.
# of pieces needed:
Inside corner post 10'
Measure length of all inside corners.
Convert to decimal, divide by 10 and round up.
# of pieces needed:
Vertical base flashing 10'
Measure bottom of sidewall where vertical siding is being installed.
Convert to decimal, divide total by 10 and round up.
# of pieces needed:
Vinyl fascia 12' 6'
Measure span of all roof lines to determine total footage of fascia required.
Convert to decimal, divide by 12.5 and round up.
# of pieces needed:
H-channel 12' 6"
Measure span from inside wall to end of roof line (typically 45').
Convert to decimal, divide by 12.5 and round up.
# of pieces needed:
3-112" Window Surround 12'
Measure around all openings (doors, windows and comers) where
the lineal is to be installed. Convert to decimal, divide by 12 and round up
# of pieces needed:
5" Window Surround 12'
Measure around all openings (doors, windows and comers) where
the lineal is to be installed. Convert to decimal, divide by 12 and round up.
# of pieces needed:
Starter Strip 12'
Equal quantity of Lineal starter is required
for the amount of lineal ordered.
# of pieces needed:
6" Fluted corner 10'
F 6" Traditional corner 10'
Measure all corners where the piece is to be installed.
Convert to decimal, divide by 10 and round up .
# of pieces needed:
Measure all comers where the piece is to be installed.
Convert to decimal, divide by 10 and round up.
# of pieces needed:
KAYCAN"
Summary sheet
Siding
Total from horizontal wall area
sq. ft.
Total from gable area
sq. ft.
Total from dormer area
sq. ft.
Total siding
Trims
Starter trim 10'
Color::
# of pieces needed:
Window/door drip cap 10'
Color::
# of pieces needed:
Undersill trim 12' 6"
Color::
# of pieces needed:
Dual undersill trim 12' 6
Color::
# of pieces needed:
F-channel 12' 6"
Color.:
# of pieces needed:
J-channel 12' 6"
Color.:
# of pieces needed:
Outside corner post 10'
Color::
# of pieces needed:
Inside comer post 10'
Color::
# of pieces needed:
Vertical base flashing 10'
Color::
# of pieces needed:
Vinyl fascia 12' 6"
Color.:
# of pieces needed:
Hchannel 12' 6"
Color::
# of pieces needed:
Montebello 1 1/4" J-channel 12'6"
Color::
# of pieces needed:
Montebello 4" Outside Corner post 1 114" 12'
Color::
# of pieces needed:
5" Window Surround 12'
Color::
# of pieces needed:
31/2" Window Surround 12'
Color::
# of pieces needed:
Starter Strip 12'
Color::
# of pieces needed:
6" Fluted corner 10'
Color::
# of pieces needed:
6" Traditional corner 10'
Color::
# of pieces needed:
Soffit
Total from soffit
sq. ft.
Total from porch ceiling
sq. ft.
Total soffit:
Vented
sq. ft.
Non -Vented
sq. ft.
Color: ❑ White
El Match Siding
Add a factor of 10 percent to all material estimates to allow for waste
KAYCAN" 9
General installation tips
Important installation tips
Before getting started, it is important to review several rules of thumb for vinyl siding application.
The following rules, which come up throughout this guide, are critical for proper vinyl siding installation:
The following are absolute "must -do's" for every siding installation:
1. Installed panels must move freely from side to side. Don't nail too tightly.
Always allow a minimum of 1132" space between the back of the head and
the nailing hem. Space fasteners 12" -16" apart on center.
2. When installing a siding panel, push up from the bottom unfil the lock is fully
engaged with the piece below it. Without stretching the panel, reach up and
fasten it into place.
3. When finishing the top of the wall perforate the cut edge using snap -lock
punch approximately every 8", ensuring the "tabs" face outward.
4. Leave 1/4" clearance at all openings and accessory channel stops.
This allows for normal expansion and contraction. When installing in
temperatures below 400 F, leave 3/8".
5. DO NOT CAULK the space between the panels and the J-channel, outside
and inside comers and any other trims. Do not caulk overlapping joints
between siding panels.
6. NEVER NAIL THROUGH THE FACE OF THE SIDING! Face nailing is
driving a fastener through the panel outside of the center of a nail slot.
7. Center fasteners in nail slots. Fastening at the end of the slot will cause
permanent damage to the siding panel. If you need to lengthen the nail
slot, you can do so with a nail -slot punch.
8. Drive fasteners in straight. Nailing at an angle will distort siding panels and
cause buckling.
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Nailing guidelines
9. Be careful not to stretch panels. Apply slight upward pressure until the lock
is fully engaged, then secure allowing panels to move freely without strain.
10. Overlap horizontal siding panels 1". Excessive overlap can restrict free
movement and cause product failure.
11.. Use fasteners long enough to penetrate a minimum of 3/4" into the
nailable base.
12. In residing, furring or removal of uneven original siding may be necessary.
13. In new construction, avoid the use of green lumber as the underlayment.
Keep in mind that siding can only be as straight and stable as what lies tinder it.
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and level
Materials Fasteners detail
Position of fasteners
Sh eathinglBackerboard
Vinyl siding should be applied over a sheathing that provides a smooth, flat surface. Consult local
building codes for sheathing requirements. Vinyl siding should never be applied directly to open studs without sheathing.
As an alternative, installation of specific types of contoured foam undedaymentfor various styles of vinyl siding are available.
Weather Resistant Barrier
Vinyl siding should be installed over a continuous weather resistant barrier to stop the intrusion of incidental Water.
Consult your local building code for requirements in your area.
Flashing
Code compliant flashing should be integrated with the weather resistant barrier and applied around windows, doors, and other openings.
Flashing should also be applied to inside and outside comers, and the intersection of walls and roofing to prevent water infiltration.
KAYCAN"
11
Preparing to install
Preparing your house
Proper surface preparation is one of the most important parts of your siding installation job.
All exterior wall surfaces must be even, so that your new vinyl siding will be straight, and
look sharp.
1. Remove all shutters, downspouts and fixtures. On older homes, replace any rotten wood
and securely nail all loose boards, siding and wood trim. Tie back all shrubbery and
trees when plantings are close to the house. Remove any old caulking around windows
and doors.
2. Flashing: Use aluminum trim coil or other material which will not absorb water. Apply
flashing below, on the sides of, and above (in that order) any openings where water
might penetrate. This will help in directing water away from the opening.
3.Installing Furring: Furring or strapping must be applied to create an even base for
siding. Apply 1" x 3" (minimum size) wood furring, not more than 16' on centers. Shim
low spots to create an even surface. For horizontal vinyl siding, install furring vertically.
For vertical siding, install furring horizontally. Place furring along all sides of door and
window frames, comers, and top and bottom of areas to be sided. As an alternative,
solid sheathing can be applied directly over the old surface to create a smooth base, or
over furring to provide even support for the vinyl siding.
4. Housewrap: If required by building codes, apply a weather -resistant barrier over the
sheathing. We recommend an approved breather -type code housewrap.
5.Insulation: The ideal time to increase the insulation value of the sidewall is before
installing siding. Simply install insulating sheathing over existing siding, over or between
the turning strips.
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6. Laying the groundwork: Determine a starting point for your siding — it should be the
lowest point. Measure at corners, and pull a chalk line across the wall to ensure a level Furing for
starting position. Plumb comers, and shim if necessary, to ensure they are vertical.
Preparing the Walls
Important notes: Weather Resistant Barrier
Vinyl siding has always been designed as an exterior cladding, not a weather resistant barrier.
Vinyl siding is designed to allowthe material underneath it to breathe; therefore, it is not a watertight covering. Because of
its design and application, it provides a supplemental rain screen that enhances the weather resistant harder system by reducing the
amount of water that reaches the underlying weather resistant barrier.
Preparing the Walls
A flat, level wall surface is necessary for proper installation of vinyl siding.
Install flashing before starting to apply the siding. Unless already installed, a weather resistant barrier should be applied to the house
prior to installing vinyl siding. Always consult local building code for requirements in your area.
New Construction
• Tip: To reduce the possibility of the floor -plate compression, drywall, roofing, or other heavy building materials should be installed
or stored throughout the house prior to the installation of vinyl siding. Floor -plate compression can result in buckled siding at the
intersection of the floor and the wall.
Residing
• Nail down loose boards of existing siding, and replace any rotten ones. Do not install vinyl siding over rotting wood.
• Scrape off loose caulk and re -caulk around windows, doors, and other areas to protect from moisture penetration.
• Remove all protrusions such as gutters, downspouts, and light fixtures.
• Check all walls for evenness and install furring strips where necessary. When installing furring strips, please take appropriate
measures to establish a smooth and continuous surface.
Note: In cases where the lower portion of a horizontal siding panel must be trimmed so that it may be
installed over steps, porches, etc., the panel should be built out ("furred") for proper angle and rigidity.
Undersill trim can be used to seal the cut edge of the panel and then secured to the wall.
72 KAYCAN"
Installing accessories
Before the siding itself can be hung, a number of accessories must be installed first, including starter strips,
comer posts, window flashing, trim, and J-channels over the roof lines.
Starter trim
• In order for the siding to be installed properly in a level fashion, the starter strip at the bottom
of the wall must be level.
• Determine the lowest point of the wall that will be sided; from that point, measure up 1/4" less
than the width of the starter trim and partially drive a nail at one corner.
• Attach a chalkline; go to the next comer and pull the line taut.
• Make sure the line is level by using a line level or a V level.
• Snap the chalkline and repeat the procedure around the entire house.
• Optional method to determining the position of the starter trim in new construction and some
residing applications: Measure down from the soffit at one comer of the house to the top of
the foundation and subtract 1/4" less than the width of the starter strip. Make a mark on the
wall and record the measurement. Transfer the measurement to the other comer of the wall.
Snap a chalk line in between the corners at the marks. Repeat the procedure around the
entire house.
• Using the chalkline as a guide, install the top edge of the starter strip along the bottom of the
chalkline, nailing at 10" intervals. Allow space for the corner posts, J-channels, etc.
• Keep the ends of starter trims at least 1/4" apart to allow for expansion
• Nail in the center of the starter strip nailing slots.
Notes:
When using insulation/backerboard, fur the starter trim, If necessary, to accommodate thickness.
For a vertical siding starter strip, see vertical siding section. In certain situations, it may be
necessary to use J-channel as a starter strip; remember to drill minimum 1/8" diameter
weep holes no more than 24" apart.
Outside and inside corner posts
• A water resistant material should be used to flash the inside and outside corners a
minimum of 10" on each side before installation of the corner.
• Place the corner post in position, allowing a 114" gap between the top of the post and
the save or soffit.
• Position a nail at the top of the upper slot on both sides of the corner post, leaving a
1/32" gap between the nail heads and the corner posts. The corner post hangs from
these nails.
• The balance of the nailing should be in the center of the slot, 8" to 12" apart, again
leaving 1132" between the nail head and the corner post. This allows for the expansion
and contraction to occur at the bottom.
• The comer post should extend 314" below the starter strip. Make sure the posts are
plumb (i.e., vertically straight).
• If more than one length of comer post is
I
required, overlap the upper piece over
the lower piece by cutting away 1" of thej~
nailing flange on the top piece. Overlap 314",
f
allowing 114" for expansion. This method will
produce a visible joint between the two posts,
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but will allow water to flow over the joint,
reducing the chance of water infiltration.
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Inside_ inner
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Starter trim installation
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Starter trim at corners
Starter trim and outside comer post
Starter trim and inside comer post
13
Installing accessories
Windows, doors and roof lines flashing
The following instructions should be followed when applying window flashing
to an existing window:
• Apply a continuous bead of sealant adjacent to the sill of the existing window.
For windows with nailing flanges, the sealant should be applied to the nailing flange in
a manner that covers the nails and nail slots (figure A).
• Apply a minimum of 9° wide horizontal sill flashing level with the bottom edge of the
existing window by pressing the flashing into the sealant bead at its top edge.
• Cut the sill flashing long enough to extend a minimum of 9" beyond each jamb.
o Fasten the sill flashing at the bottom and side edges (figure B).
• Apply a continuous bead of sealant adjacent to the side jambs of the window.
For windows with nailing flanges, the sealant should be applied to the nailing flange
in a manner that covers the nails and nail slots.
• Continue the bead of sealant at the jambs vertically a minimum of 8112" above the
head of the window to allow for bedding the top portion of the jamb flashing into
sealant in the next step (figure C).
• Install the jamb flashing by pressing the flashing into the sealant beads at the
window jambs. Extend the bottom edge of the jamb flashing approximately 112"
short of the sill flashing edge, and extend the top edge approximately 8112" beyond
the head of the window, where the head flashing will be placed next (figure D).
• Fasten the jamb flashing along the edges further most from the window.
• Apply a continuous bead of sealant adjacent to the head of the installed window. For
windows with nailing flanges, the sealant should be applied to the nailing flange in a
manner that covers the nails and nail slots (figure E).
• Install the head flashing by pressing the bottom edge of the flashing into the sealant
bead previously applied across the mounting flange.
• Extend the ends of the head flashing approximately 10" beyond the jamb flashing at
each end. Fasten the head flashing into place along the top edge (figure F).
Note:
Sealant should be compatible with window, flashing, and weather resistant barrier
materials. Contact sealant manufacturer forjob-specificrecommendations.
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17 ffm
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Flashing new window installations
Refer to window manufacturer's instructions and ASTM E211 Z Standard Practice for
Installation of Exterior Windows, Doors and Skylights for the proper flashing installation
method for the window type and wall configuration on the project.
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Installing accessories
J-channel installation
J-channel is used around windows and doors to receive the siding.
Follow the steps below when applying trim.
• Cut and bend the tab of the top piece of J-channel down to provide flashing over
the side J-channel.
• Fold the bottom end of the side piece of J-channel inward at the bottom of the window,
to fit over the existing J-channel to prevent water from entering under the sill.
• Cut the side J-channel members longer than the height of the window or door, and
notch the channel at the top.
• Miter cut the free flange at a 450 angle and bend the tab down to provide flashing
over the side members. A similar miter and tab may be provided at the bottom of the
window, depending on the sill's condition. The J-channel should fit snug to the window.
• To trim the bottom of windows, and at the save, J-channel can be used with the
undersill molding inside the J-channel. The J-channel and undersill combination will
secure the out siding panel and help to keep the alignment straight Dual undersill
molding combines both functions into one part. Cut and secure dual undersill similarly
to using J-channels.
J-channel over roof lines
Install the flashing before the J-channel to prevent water infiltration along the
intersection of a roof and wall.
• Keep the J-channel approximately 1/2" from the roof line. Chalk a straight line
up the roof flashing to guide J-channel installation. Tip: You can use another
J-channel laid over the shingles as a spacer to create the straight line desired.
• Overlap the J-channel (lapping the upper piece over the lower piece) if it is
necessary to use more than one piece.
• Extend the J-channel past the edge of the roof, channeling water into the gutter,
in order to ensure proper runoff.
• With dark shingles, or a south or west exposure, it is recommended to either use
a metal J-channel or to install the vinyl J-channel as far away from the roofing as
is aesthetically acceptable, having first ensured that there is sufficient flashing
behind the J-channel to prevent water infiltration.
• Fasten the nail, screw, or staple that is closest to the roof line at the far end of the
nail hem slot, to ensure that siding will expand away from the J-channel.
Note:
Vinyl J-channels should not be in direct contact with roofing shingles, since the
shingles may transfer enough heat to the vinyl J-channel to cause its distortion.
J-channel installation in a gable
Before applying siding to the gables, the J-channel should be installed to receive the
siding at the gable ends:
• Where the left and right sections meet at the gable peak, let one of the sections
butt into the peak with the other section overlapping.
• A miter out should be made on the face flange of this piece for better appearance.
• Fasten the J-channel every 8° to 12°.
• If more than one length of J-channel is required to span
a wall surface, be sure to overlap the J-channels by 3/4".
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KAYCAJV "
15
Horizontal siding installation
Installing panels
• The first course (row of panels) should be placed in the starter
trim and securely locked along the entire length of the siding
panel. Make sure the panel is securely locked before fastening.
• Fasten the panels in the center of the nailing slots. Allowance
should be made for expansion and contraction by leaving a
1/4" gap between the siding and all comer posts and channels
(increase to 3/8" when installing in temperatures below 400 F.
If the panels are 20 feet or longer, increase the gap to 3/8".
• Do not drive the head of the fastener tightly against the nail slot.
Leave 1/32" between the fastener head and the vinyl (about the
thickness of a dime).
• Do not force the panels up or down when fastening. Panel locks
should be fully engaged; however, the panels should not be under
vertical tension or compression when they are fastened.
• Since vinyl siding moves as the temperature changes, make
certain that the vinyl panels can move freely in a side -to -side
direction once fastened.
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• Check every fifth or sixth course for horizontal alignment. Also check siding
alignment with adjoining walls.
• When panels overlap, make sure they overlap by one half the length of the
notch at the end of the panel, or approximately 1".
• Stagger the siding end laps so that no two courses (rows of panels) are aligned
vertically, unless separated by at least three courses (rows of panels).
• Always overlap joints away from entrances and away from the point of greatest
traffic. This will improve the overall appearance of the installation.
Fitting siding around fixtures
Use a commercially available trim ring to fit siding to a penetration such as a faucet
or railing attachment, following the manufacturer's installation instructions. If a
commercial trim ring is not available for the application, refer to the figure below,
which illustrates how to fit the siding to the penetration. In addition, the following tips
are suggested:
• If hand -fitting to the fixture, always begin a new course of siding at the fixture
to avoid excess lap joints.
• Cut an opening 1/4" bigger than the fixture or the trim ring.
• When cutting, match the shape and contour of the obstruction.
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Triming pieces for faucet
J-channel detail
Siding panel overlap
KAYCAN"
in
Horizontal siding installation
Fitting under windows
To mark the section to be out, perform the following:
• Hold the panel under the window and, mark the width of the window opening on the panel.
Add approximately 1/4" to both sides to allow for expansion and contraction of the siding.
These marks represent the vertical cuts.
• Lock a small piece of scrap siding into the lower panel next to the window. This will be
used as a template for the horizontal cuts. Mark it 114" below the sill height.
• Transfer the horizontal measurement to the panel, which will be installed under the
window. Measurement may not be the same on both sides of the window.
• Cut the panel with tin snips and a utility knife.
The cut panel is now ready for installation under the window. Perform the following:
• Using a snap lock punch, punch the vinyl siding
along the out edge every 6" so the raised tab is
on the outside face.
• Install undersill trim under the window, as a
receiver for the cut siding. Undersill trim is used
any time the top lock has been removed from
the siding. Furring may be needed to maintain
the face of the panel at the desired angle.
• Install the siding panel, making sure the tabs
(from the snap look punch) lock into the
undersill trim.
Cutting and preparing the
Sidewall flashing at roof lines
• Install the siding panel, making sure the tabs (from the snap lock punch) lock into the
undersill trim.
• Run the siding until the last full course under the roof area.
• Cut a diverter from aluminum trim sheet, making sure it sits on the nail hem of the last
full course.
• Also make sure to slip it behind all J-channels and roof flashing (similar to flashing the
bottom of window detail).
• As an alternative to the diverter, create a "kickouf from metal flashing.
• Cut the next piece of siding, making sure the vertical lap falls behind the roof flashing
and roof J-channel.
• Cut a small piece of siding that will be placed on top of the previous piece of siding and
sits in the roof J-channel.
• Install the remaining course of siding. Water running behind the panel will be directed by
the diverter into the butt of the panel, draining out in the weep holes.
Note: "Kick -out flashing" is an additional flashing strip that extends beyond the edge of the
fascia that is required in some oold-climate localities.
Measuring the width of the section to out
Measuring the height of the section to cut
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17
Horizontal siding installation
Under eave installation
• Nail undersill trim along the top of the wall, flush with the eave of
the house. Furring may be necessary to maintain the proper pitch of
the topmost siding panel. Should more than one length of undersill
trim be required, make a splice as shown by cutting away 1° from
the back of the undersill trim and lapping the sections, leaving a 1/4"
space between nailing strip sections.
• If topmost siding panel is trimmed near the butt leg, an undersill trim
alone may not be sufficient.
• Either combine an undersill trim inside a J-channel, or use an
undersill trim molding to hold the siding panel firmly.
• A dual undersill trim molding replaces the need for both a J-channel
and undersill molding. Simply place the snap -lock punched top panel
in the appropriate receiving pocket to keep the proper siding angle.
• Another alternative to finishing the top panel of a wall is to use a
frieze plate and crown molding. Secure frieze plate (either with or
without a soffit receiver), no more than 16' on center. Allow 1/4"
between adjoining frieze plates.
• Using a nail slot punch, create nail slots every 12° -16" in the top
panel of siding and secure normally. Finish the application by cutting
crown moldings to length as needed, and snapping them into the
frieze plate receivers.
Fitting and installing top siding panel
• Measure and cut siding panel to the desired length.
• Determine how much of the top panel must be removed by
measuring the distance between the top of the undersill trim and the
lock of the panel below, and subtracting 11T. Be sure to measure
several times across the wall as the dimension could change slightly.
• Cut the top siding panel to proper height, removing the nailing strip.
• Using a nail slot punch, create nail slots every 12" -16" in the top
panel of siding and secure normally.
• Finish the application by cutting crown moldings to length as needed,
and snapping them into the frieze plate receivers.
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KAYCAN"
Horizontal siding installation
Finishing a gable end
To install around gable ends, make a pattern that duplicates the slope
of the gable:
• Lock a short piece of siding into the gable starter course (i.e., the last
course before the gable starts).
• Hold a second piece of siding against the J-channel at the slope of the
gable. Mark the slope with a pencil on the short piece of siding. Check
the angle template every few courses.
• Remove the short piece and out along the pencil line as a pattern for the
gable angle ads. Repeat the procedure on the opposite side of the gable.
• It may be necessary to fasten the last panel at the gable peak with a
trim nail. Use a 1 1/4" to 1 1/2" nail. This is the only time a nail should be
placed in the face of the vinyl siding.
Eaves treatment
The last course of siding may be out to fit the eaves opening.
• Measure from the soffit to the base of the upper lock on the previous
course of panels. Subtract 1l4". Mark this dimension on the panel to be
cut, measuring from the bottom edge of the panel. It is a good idea to
check the dimension in several locations along the length of the wall.
• Using a snap lock punch, punch the vinyl siding along the cut edge every
6", so the raised tab is on the outside face.
• Push the siding into the undersill trim that has been nailed in place along
the top of the wall. Furring may be needed to maintain the face of the
panel at the desired angle. The raised tabs will catch and hold the siding
firmly in place.
Transition from horizontal to vertical
• Finish the last course of horizontal siding with the J-channel and/or finish
trim. Install a drip cap and a J-channel. The top piece of J-channel must
have minimum 118" diameter weep holes drilled no more than 24" apart to
allow for water runoff.
Transition transition from brick to vinyl siding
• Caulk where the sheathing meets the brick or stone exterior.
Flashing should be caulked where it meets the brick or stone and a drip cap
should be in place.
• If horizontal siding is used, a J-channel or starter strip may be used.
If a starter strip is used, it is necessary to provide at least 3/8" clearance for
proper engagement of the siding.
• Use a J-channel to receive vertical siding; remember to drill minimum 1/8"
diameter weep holes no more than 24" apart.
alad
Measuring the cutting angle
Installing the cut panel
Position of top nail
KAYCAJV "
CONTRACTOR: Master Craft AIr- -;•m Products
DESIGN CRITERIA:
Applicable Codes, Regulations, and Standards
1. Ttie 6th Edition (2017) Florida Building Code, specifically Chapter 16 Structural Design, Chapter 20
Aluminum, and Chapter 23 Wood.
2. AA ASM 35 and AA ADM1 Specifications for Aluminum Structures, Part 1-A of the Aluminum
Design Manual prepared by The Aluminum Association. and the AAF Guide to Aluminum
Construction in Hgh Wind Areas.
3. ASCE 7-10.
Loading Criteria
1. Live Load: 10 PSF per 6th Edition (2017) Florida Building Code, Appendix I Section 105.1
2. Dead Load: 2 PSF
3. Wind Load:
3.1. Building Occupancy Category, Section 1604.5 and Table 1604.5: Risk Category 1.
3.2. Ultimate Design Wind Speed: Vucr =160 MPH Nominal Design Wind Speed: VAm =124 MPH
33. Exposure Category, Section 1609.4.3: Exposure B
3.4. Screen Enclosure Section 2002.4
4. Building Category for Aluminum Structures, Section 2002.6: Category Type 1 - Patio Cover / Wood
Shed: Non -Habitable, Unconditioned
Specifrratians
The following specifications are applicable to this project:
1. All work shall be in accordance with the 6th Edition (2017) Florida Building Code, and any other
applicable local codes andregulations.
2. Aluminum extrusions shall be 6005 T5 Alloy. Due to quality control issues, no manufacturer
substitution is acceptable without the specific written, signed and sealed authorization offilorida
Aluminum Engineering, Inc.
3. Fasteners are required to be corrosion resistant, minimum SAE Grade 2 or better zinc plated to ASTM
B633, or coated stainless steel series "300", or uncoated stainless steel series "400".
4. Approved concrete screw anchos to be Simpson Titen-FID or equivalent.
5. All Self Mating Beam Sections we to be stitched with either #14 screws 6" from ends and 24" center to
center or #12 screws 6" from ends and 12" center to renter.
6. Door location shall be determined by contractor in the field.
7. Where concrete specifications are required, whether in the screen enclosure scope or not, by one or
more regulatory agency, the following specifications are applicable:
a. Concrete shall conform to ASTM C94 for the following components:
i. Portland Cement Type 1,- ASTM C 150
E. Aggregates - Large Aggregate 3/4" max - ASTM C 33
ill. Air entraining+/-1%-ASTMC260
iv. Water reducing agent- ASTM C 494
v. Clean Potable water
vi. Other admixtures not pemdtted
b. Metal accessories shall conform to:
I. Reinforcing Bars - ASTM A615, grade 60
ii. Welded wire fabric - ASTM A185
c. Concrete slump at discharge chute not less than 3" or mom than 5". Water added after batcldng
is not permitted.
d. Prepare and place concrete per American Concrete Institute Manual of Standard Practice, Parts
1, 2, and 3 including hot weather recommendations.
e. Moist core or polyethylene curing permitted.
f Prior to placing concrete, treat the entire subsurface area for termites in compliance with the
FBC.
g. Concrete shall be placed over a polyethylene vapor barrier.
IL All aluminum components embedded within concrete shall be roared with a bituminous paint
orepoxy.
8. All lumber and plywood shall have grade marks and treatment identification and Shall conform to the
following:
a. Framing lumber shall be minimum no. 2 southena yellow pine and have a maximum moisture
content of 15%
b. Pressure treatments shall be osmosalts, osmose k-33, womamalts or celcure, as recomm nded
for the use condition. Pressure treated lumber shall be impregnated with a eca salt treatment in
accordance with fs. tt-w-571 and bear the American Wood Preservatives Institute quality mark
Ip-2.
c. Wail Sheathing: APA rated Sheathing, thickness as indicated, Exposure 1.
d. Aluminum members that are uncoated shall be separated from PT lumber by 30# felt paper, 10
mil polyethylene sheet or equivalent material.
9. Contractor shall provide Florida Product Approval information as to the exact window being utilized
for this project, including manufacturers specifications, and installation methods for anchoring the
submitted windows to alum members and specific sizes as indicated on A-1.
10. Contractor shall provide any additional backing (aluminum, wood etc..) and anchors as required by
the window manufacturers recommended procedures.
11. All glass panels within 24" of a door opening shall be of tempered glass per FBC-R308.4
12. All flashing and weatherproofing shall be provided by the contractor.
13. Use of these plans acknowledges and accepts a limit of fiabitity not to exceed design and
engineering fee.
_Wtnln_SPEED AND EXPOSURE HAVE
BIETERMINED USING THE ADVANCED
T 'OLOGY COUNCIL'S WEBSITE
AND GOOGLE EARTH.
0
N
3X3XO.093
POST
i- 8'-9"
I 9-0.
NOTE:
BUILDER TO PROMDE CERTIFICATION
FROM MANUFACTURER FOR NEW
ADDITIONS
o
3'X48'(0.024'
0
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1.00 DENSITY
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02/25/20
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EACH SIDE OF UPRIGHT
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ROOF PANEL
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2 x 10 SMB: 2" x 10" x 0.092"x 0.398"
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MANUFACTURER FOR NEW ADDITIONS
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NOTES FOR ALL FOUNDATION TYPES
1. THE FOUNDATIONS SHOWN ARE BASED ON A MIN SOIL BEARING
DRAWN BY
NOTES FOR ALL FOUNDATION TYPES:
1. THE FOUNDATIONS SHOWN ARE BASED ON A MIN SOIL BEARING PRESSURE
PRESSUREOUNDATF 1.500 PSF.
2. THE SLA&FOUNDATION SHALL BE CLEARED OF DEBRIS, ROOTS AND
(4)#12%3/4"SMS
3" COMPOSITE PANEL EACH PANEL -
-
TP
DATE DRAWN
02/25/20
OF 1,500 PSF.
2. THE SLABIFOUNDATION SHALL BE CLEARED OF DEBRIS, ROOTS AND
COMPACTED PRIOR TO PLACEMENT OF CONC.
3. CONCRETE SHALL BE PER SPECIFICATIONS ON SHEET A.1.
3"x 0.O6T'EMRLID-
COMPACTED PRIOR TO PLACEMENT OF CONC.
3. CONCRETE SHALL BE PER SPECIFICATIONS ON SHEEP A.I.
4. FIBERMESH MAY BE USED IN LIEU FOR WELDED WIRE MESH.
5. VAPOR BARRIER NEED NOT BE INSTALLED FOR EXTERIOR
RECEIVER CHANNEL
REVISION
4. FIBERMESH MAY BE USED IN LIEU FOR WELDED WARE MESH.
5. VAPOR BARRIER NEED NOT BE INSTALLED FOR EXTERIOR NON -HABITABLE
NON -HABITABLE CONCRETE FLAT WORK
O.C.
CONCRETE FLAT WORK
# x 3" ST- T 8"
INTO HOST -SITE BEAM
(�
A
A -'I TYPE I FOOTING SLAB
SCALE: NIS
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`FIEADER
SHEET NO:
TYPE It FOOTING
A_2
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A_Y7 SCALE; NTS
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COMPOSITE
)OF PANEL
(2) 2X4
HEADER SCHEDULE
OPENING
HEADER SIZE
UPT034-
(2)7xe
5'd°TOS6"
(2)2'x1D'
8'-7 TO 17$'
(2)2'.12'
VINYL SIDING ON TY-VE(
VAPOR BARRIER PAPER OR
HOUSE WRAP ON 12" ARA
RATED SHEATHING 2X4
S.Y.P. t$IS, O.C.
BASED ON A MIN SOIL BEARING
PRESSURE OF 1500 PSF
BEARING CAPACITY OF SOIL
SHALL BE VERIFIED BY LICENSED
CONTRACTOR PRICR TO
POURING CONCRETE
2. THE SLA&FOUNDATION AREA
SHALL BE CLEARED OF DEBRIS
AND ROOTS AND SHALL BE
COMPACTED PRIOR TO
PLACEMENT OF CONCRETE
3. CONCRETE SIiALL BE PER
SPECIFICATIONS IN THE DESIGN
SUMMARY.
2X4 STUD
® 16" O.C.
(5)1/4" DIA x 5 718" LAG
SCREWS W/ 1 11Z' DIA
NEOPRENEFACED
WASHER PER PANEL
�7 Z' OVERHANG MAX
HEADER SCHEDULE
CONTINUOUS FROM BOTTOM OF
BOTTOM PLATE TO TOP OF TOP
PLATE SHEATHING IS PART OF
LOAD PATH TO GROUND.
2. IF SHEATHING HAS HORIZONTAL
BREAK, IT CANNOT BE USED AS
PART OF LOAD PATH - USE
H2.SAT BOTTOM AND H.2 AT TOP
OF EACH STUD.
NAIL PATTERN:
Ed 4" O.C. @ EDGES
6d S' O.C. INFILL
ALL WOOD SIDING, SHEATHING,&
WALL FRAMING ON THE EXTERIOR
OF A BUILDING LESS THEN 6 INCHES
FROM THE GROUND SHALL BE
PROTECTED FROM DECAY BY USE
OF NATURALLY DURABLE WOOD OR
WOOD THAT IS PRESERVATIVE
TREATED. THIS INCLUDES ALL STUDS
AND PLYWOOD (FBRC 317.1(6)).
(1) 2" x 4" PT BOTTOM PLATE
W1316' x 4" DIA. SCREW
ANCHOR @ 2 O.C.
S-2 TYPICAL WOOD FRAME WALL SECTION
A-3 SCALE: NTS
H 2.5 AT ALL
2X4 HORIZONTAL
BLOCKING AT
SHEATHING SPLICE
(2) 16d TOE NAILS
EACH END
(2) LSTA24 EA END
1
H 2.5 AT
SIMPSON STRONG
LTT
HEADER SCHEDULE
OPEN MO
M(2)2 SIZE
8'-8'TO SB
(2)rx1P
TOP PLATE H 2.5 AT ALL
DOUBLE2X
16d x 5 EACH SIDE IN
2X4 HORIZONTAL
CH HEADER
BLOCKING AT
SHEATHING SPLICE
(2) 1 Ed TOE NAILS
EACH END
ADER PER SCHEDULE
- 2X4PT STUDS MIN.
CH SIDE OF OPENING (2) LSTA24 EA END-
O.C.
STUDS @ 16" O.C.
PLATE
X PT
I STRONG TIE SIMPSON STRONG
TT
0A—A a TYPICAL WOOD FRAME WALL DOOR SECTION
A-3 SCALE NTS
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DUBLE 2X
- i6d x 5 EACH SIDE IN
NCH HEADER
EADER PER SCHEDULE
- 2X4PT STUDS MIN,
NCH SIDE OFOPENING
] ® 24" OC STAGGERED
K4 STUDS Q 1E" O.C.
OTTOM PLATE
INGLE 2X PT
IMPSON STRONG TIE
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DATE DRAWN
02/25/20
REVISION
SHEET NO:
A-3
DESIGN OF HANDRAIL SYSTEM BY FABRICATOR AND
SHALL COMPLY WITH PARAGRAPH R312.1.1 THRU R312.1.3
OF THE 6TH EDITION (2017) OF THE FLORIDA BUILDING
CODE RESIDENTIAL AND PARAGRAPH 1607.8 OF THE 5TH
EDITION FLORIDA BUILDING CODE IN ADDITION TO ANY
REQUIREMENTS HEREIN.
PROVIDESTANDARD
INTO EACH FILLED CELL
DESIGN OF HANDRAIL SYSTEM BY FABRICATOR AND
SHALL COMPLY WITH PARAGRAPH R312.1.1 THRU R312.1.3
OF THE 6TH EDITION (2017) OF THE FLORIDA BUILDING
CODE RESIDENTIAL AND PARAGRAPH 1607.8 OF THE STH
EDITION FLORIDA BUILDING CODE IN ADDITION TO ANY
REQUIREMENTS HEREIN.
TREAD&RISERS TO CONFORM TO
6TH EDITION (2017) FBC.R311.7.5 4" SPHERE CANNOT
PASSTHROUGH
TREADSIRISERS TO CONFORM TO
6TH EDITION (2017) FBC.R311.7.5
4" z
2" % 12" PRE -CAST
)NCRETETREADS
(TYP)
A-2 ALT CONCRETE STAIR SECTION
A-� SCALE: NTS
AS
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4"
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MANUFACTURERS SPECS
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DRAWN BY
TP
DATE DRAWN
02/25/20
A-4