HomeMy WebLinkAboutProduct Evaluation ReportD �� . AI.UAAIt!lE�AA SC BEEN DESIGN
`H`' Aluminum & Construction Engineering
*Plan Types:
RScreen RoomOSun Room ❑Fill In
Pool Screen/Cage (Non-Removable7FEB
ECE v e
Car Port nPatio Cover
QOther: q �1 19 2020
1 \\ a -d \a Coun Pern
*Project Address: 12.b3 45ao.k-5►M:L1%
*Contractor Name: 14e.c.Lodi.• Z4.w A, 1 Scot
*Address: sag -7 Dl ew.nr.Q. e2 gtAt
*City: F6aA- `:7t%ec� e
*Zip Code: 3L•°%.4
actual Wind Speed)
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*Phone/Fax: 7-iz-7o13 - N0g5
`Email: 57 53a0 qrti,4 Cow —
*Choose One:xmaii []Pickup DE -File ❑Fed Ex/UPS* y# of Copies
❑ Single PDF
❑ Each Page Separate
*(For FedEx option go to www.alutninumscreendesign.com and provide FedEx/UPS account #)
*Payment: OCheck Credit Card*
*(For Credit Card option go to evw-maluminumscreendesign.corn to pay by credit card)
Engineering prepared by: FILE CO
Effi][NIASD
REVIEWED FOR
CODE COMPLIANCE
Engineer: Michael Thompson, MSc, P.E. (P.E. #47£ LUCIE COUNTY
4401 Vineland Road- Suite A6 Orlando, FL 3281
Office:407-734-1470 Cell:407-721-2292 BOCC
Project Manager Paul Thomas 386-479-9504 Fax: 888-923-8181
Email: aluminumscreendesign0vahoo.com
Website: www.aluminumscreendesi(in.COM CA#30e30
ALUMINUM SCREEN DESIGN
E❑ t -n D Aluminum & Construction Engineering
* Ultimate Wind Speed (mph): ISO Exposed Category: C Risk Category: 1
❑ Screen Room Sun Room ❑Fill In
❑ Insulated FPan Roof
❑ Gutter ❑Fascia ❑Block wall ❑Conventional Wall ❑ 4"' Wall
Uprights X Top Plate X Chair Rail —X
—
Uprights X Top Plate X Chair Rail —X
—
Kick Plate
Pool Screen/Cage:
❑ Dome ❑Gable 2Mansard/Hip ❑Shed/Slope
❑ Gutter ❑Fascia ❑Block Wall ❑ Conventional Wall
.Beams 2 X to Uprights 2 X�_ Purlin �_X 3 Chair Rail
Beams X Uprights X Purlin —X—Chair Rail X
Kick Plate tUo
❑ Patio Cover ❑ Car Port
❑ Insulated ❑Pan Roof
❑ Gutter ❑Fascia ❑Block wall ❑Conventional Wall ❑ 4w Wall
Beams X Post —X
—
Concrete:
❑ Existing ❑ New: 4"Slab ❑Pier
MPavers ❑6" Thickened Edge
Other:
❑Ribbon Footer��X__g_#g
Note: In the event that there is a conflict with the design plans and general notes and design standard, the contractor
shall utilize the more stringent dimensions and member sizes prior to ordering materials, fabrication and/or
construction between the plans and the general notes and design standard.
Engineer: Michael Thompson, MSc, P.E. (PE#47509)
4401 Vineland Road Suite A6, Orlando, FL 32811
(CA#30930)-Ph 407-734-1470/Fax 407-734-1790
NAS
ALUMINUM SCREEN DESIGN
Aluminum 3 Conslrucfion Engineering
General Notes & Design Standards
(Non -Removable Pool Screen)
The following are general design standards. More stringent design standards may be noted on the plans. In the event
of a conflict in plans and/or design standard dimensions and/or member sizes, the contractor must utilize the more
stringent dimensions and/or member sizes prior to ordering materials, fabrication and/or construction.
Design Codes:
Florida Building Code 2017 (6"Edition)
Aluminum Design Manual 2015
ASCE 7-10
Design Loads:
Pursuant to FBC Chapters 16 & 20
Ultimate Wind: -150 MPH: (FBC Table 2002.4)
Risk Category: -See attach site specific plan sheet (FBC Table 1604.5)
Exposure Category: -See attach site specific plan sheet (FBC 1609.4.3)
Additional Load requirements.
Structural members supporting screened enclosures are designed for wind in both of two orthogonal directions using
the pressures given in Table 2002.4. Each primary member is also designed for a 300 pound load applied vertically
downward along any 1 foot of any member, not occurring simultaneously with wind load. In addition to wind
pressures, purlins is also be designed for a 200 pound load applied vertically downward along any 1 foot of any
member, not occurring simultaneously with wind load.
Design Basis:
Allowable Stress Design (ASD) =Allowable Strength Design (ASD) divide by safety factor
General Requirements:
Reproductions of contract drawings by contractor in lieu of preparation of shop drawings signifies acceptance of
information shown as correct and obligates himself to any expense, real or implied, arising from their use.
A change to the structural drawings due to the acceptance of alternates and/or substitutes is the responsibility of the
contractor and must be submitted to the engineer for approval.
The general contractor and each subcontractor shall review the approve construction plans in its entirety and verify
all existing conditions prior to the start of any work. All inconsistencies shall be reported to the designer and/or
structural engineer, if needed. Should contractor construct the premises in a fashion not consistent with the plans
prepared by the designer and/or structural engineer, or in any fashion, change the plans and drawing without the
review and approval from the designer and/or structural engineer. Then designer and/or structural engineer shall
bear no responsibility or liability for the construction of premises and accuracy of the drawings.
Foundation and Earthwork:
Applicable only when unsuitable soils are encountered.
When unsuitable soils are encountered as specified bearing strata, notify owner's representativelengineer.
Soil bearing capacity-2,000 psf Minimum
Provide neat excavation for footing and place concrete immediately after excavation and inspection.
Pump water from footing excavation if greater than one inch.
Compact all fill to 95%ASTM D698 density.
Unit soil weight = 105 pcf
Internal angle of friction = 30 degrees
Coeff. Of friction between footing and soil = 0.5
Michael Thompson, P.E. #47509/CA#30930
4401 Vineland Road., Suite A6, Orlando, FL 32811. (P) 407-734-1470 (F) 407-734-1790
www.aluminumscreendesign.com
INS 'No
ALUMINUM SCREEN DESIGN
Aluminum & Construction Engineering
Structural Aluminum:
Conform to latest edition of Florida Building Code and Aluminum Design Manual standard practice for aluminum
design.
All aluminum shall be 6005-T5 (E=10,000 ksi; Fy = 35 ksi) with a minimum wall thickness of 0.046"
Splicing prohibited without prior approval as to location and type.
Burning of holes in aluminum members is prohibited. Any member with burned holes must be replaced.
Aluminum Protection:
Shall be pursuant FBC 2003.8.4. Aluminum surfaces in contact with dissimilar materials, lime -mortar, concrete, or
other masonry materials, shall be protected with powder coated or ESP paint or alkali -resistant coatings, such as
heavy -bodied bituminous paint or water -white methacrylate lacquer.
Screws:
Aluminum self -tapping screws shall conform to ASME B 18.6.4 specification.
Self —tapping screws shall meet the requirements of ADM J.5
Maximum fastener spacing shall not exceed (3+20t) where ` t" is the member thickness in inches.
For roofing and siding connection, use minimum #12 screws for end and side laps spaced at 12" max for side lap
and end lap fasteners shall be no more than 2" from the end of overlapping sheets.
For bottom plate and column base, secure with''/." tapcons a minimum embedment of 1 1/8" and 2'/." respectively
into concrete looter.
Bolts:
Bolts and other fasteners shall be aluminum, stainless steel, hot -dip or electro-galvanized steel. Double cadmium
plated steel bolts may also be used. Bolt holes diameter shall not exceed 1/16" larger than the bolt diameter and shall
be spaced at a minimum of 2.5 times the bolt diameter with minimum edge distance of 1.5 times the bolt diameter.
Bolts shall meet the requirements of ADM J.3
Chair Rails. Purlins & Wind Brace:
Chair rails, purlins and wind brace shall conform with the below maximum span length. If the event contractor's
specific site plan conflict with the below recommended length, the contractor shall utilize the more stringent
dimensions and member sizes prior to ordering materials, fabrication and/or construction.
Wind Speed =150 MPH
2 x 2 Chair Rail = 4'-9" 2 x 2 Purlins = 6'-6" 2 x 2 Wind Brace = 4'-3" 2 x 3 (0.125) Wind Brace = 8'-0"
2 x 3 Chair Rail = 6'-9" 2 x 3 Purlins = 6'-9" 2 x 3 Wind Brace = 6'-9" 2 x 4 W ind Brace = 8'-0"
Concrete
Conform to ACI 318, latest edition and ACI 301
Compressive Ultimate Strength (Minimum at 28 days) shall be 3000 psi
Exposed chamfer edges shall be 3/4"
Reinforcine Steel:
Conform to ACI 318 and 315, Latest edition
All reinforcement steel shall be ASTM A615 Grade 60.
Smooth dowels & ties shall be ASTM A185
Welded Wire Fabric shall be ASTM A185 or A82 (Flat sheet).
Deformed bar anchors shall be ASTM A496, Grade 70
Cover: Footing 3"
Washer:
Washers shall be used under bolt heads and under nuts.
Michael Thompson, P.E. #47509/CA#30930
4401 Vineland Road., Suite A6, Orlando, FL 32811. (P) 407-734-1470 (F) 407-734-1790
www.aluminumscreendesign.com
�,JJLW
®W ALUMINUM SCREEN DESIGN
IASDAluminum. 3 Consiructi. E.nglneering
Hole Alignment: -
Poor matching holes must be rejected. Contractor shall prevent holes from drifting and distort the metal. All chips cit ,v
and foreign matter between contacting surfaces shall be removed before assembly.
Cables:
Contractor shall provide a minimum 1/8" diameter stainless steel cable tie down at side and rear walls of pool screen
enclosure. Contractor shall secure cable to top of column located at each corner and where there is a difference in
column height locations. In addition, cables shall be spaced to provide wall support not exceeding 227.5 fti with
bottom each end of cables secure to concrete slab with a minimum 3"ASTM A-36 steel clip with 2-1 %s" x '/."
tapcons or equal.
Beams & Uprights:
In the event of a conflict with the values in this table and the site specific plan, the contractor must utilize the more
stringent dimensions and/or member sizes between the site specific plan and the below applicable span limitations
nrior to ordering materials- fabrication and/or construction.
150 MPH
PRIMARY ROOF MEMBERS -POOL CAGE ENCLOSURES
SIZE
Roof Span
*Maximum Beam
Spacing = 6'-0"
Roof Span
*Maximum
Beam Spacing =
6'-8"
Roof Span
*Maximum Beam
Spacing = 7'-2"
2 X 4
14'-3"
13'-3"
10'-6"
2 X 5
19'-0"
18'-0"
15'-6"
2 X 6
22'-3"
20'-0"
18'-9"
2 X 7
1 24'-0"
1 21'-8"
21'-6"
2 X 8
28'-0"
26'-9"
26'-6"
2 X 9
30'-0"
28'-5"
28'-0"
2 X 10
33'-6"
31'-11"
31'-6"
Upright -Pool Cage Enclosures
Upright
SIZE
2X4
2X5
kHeight
2X6
2X7
2 xa2X9
Knee Bracing -
Contractor shall provide knee bracing on 45 degree angle pursuant the attach detail sheet that specified size and
length requirements. Knee bracing on upright above super gutter intersection shall be connected to upright no more
than 6" above the super gutter. Knee brace size shall be a minimum of 2 x 2 for beam span of 15' max; 2 x 3 for 30'
max; 2 x4 for beam span greater than 30'.
Purlin-
Contractor is required to install purlins spaced to align with column spacing; however, spacing between purlins shall
not exceed 7'-2'.
Header Beam:
Contractor is required to install a minimum 2 x 7 header beam supported with 3 x 3 column space at 10 feet (max)
with a 2' x 2' x l'-6" concrete footer with 3#5 each way when screen enclosed is required to be attached super
gutter at the interface of the insulated roof panel. Contractor is required to install insulated roof covering pursuant to
the Florida product approval specification (45 psf).
Intermediate Girts:
Contractor is required to install intermediate chair rails/girts spaced at mid -span between the chair rails and top rail
or 6'-0" max on center when column height exceeds 11 feet. Contractor is also required to install one additional
intermediate chair rail/girt to be located 3 feet below the top rail when column height exceeds 14 feet.
Edge Distance:
Contractor is required to install uprights to provide a 2" minimum clearance from edge of slab and/or footer.
Michael Thompson, P.E. #47509/CA#30930
4401 Vineland Road., Suite A6, Orlando, FL 32811. (P) 407-734-1470 (F) 407-734-1790
www.aluminumscreendesign.com