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St Lucre Coin
DESIGN CALCULATIONS
FOR
SANDPIPER PLAZA
Y x IO' CABINETS
10760 S. US Hwy 1— Port St Lucie
GENERAL NOTES:
1. Design is in accordance with the 2010 Florida Building Code for use within
and outside the High Velocity Hurricane Zone (HVHZ).
2. Wind loads have been calculated per the requirements of ASCE 7-10 as
shown herein.
3. These engineering calculations pertain only to the structural integrity of
those systems, components, and/or other construction explicitly specified
herein and/or in accompanying engineering drawings. The existing host
Index:
structure (if any) must be capable of supporting the loaded system as
Pg 1 Cover
verified by building department or architect / engineer of record. No
Pg 2 Wind Loads
warranty, either expressed or implied, is contained herein.
Pg 3 Anchor Design
4. System components shall be as noted herein. All references to named
components and installation shall conform to manufacturer's or industry
specifications as summarized herein.
S. Where site conditions deviate from those noted herein, revisions may be.
Engineer' signature ah4 seal valid
'(fir-'�1
required or a separate site -specific engineering evaluation performed.
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6. Aluminum components in contact with steel or embedded in concrete shall
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P
be protected as prescribed in the 2005 Aluminum Design Manual, Part 1A.
= �:No. 7382 '
Steel components in contact with, but not encased in, concrete shall be
coated, painted, or otherwise protected against corrosion.
=
Q-TAT F��S:
7. Engineer seal affixed hereto validates structural design as shown only. Use�C)
•,
'-
of this specification by contractor, et. Al, indemnifies and saves harmless
�`•
this engineer for all costs & damages including legal fees & apellate fees
Christdri jau7ilgde� ' �tJ�?P,E�# 67382
resulting from deviation from this design.
Easy S&ISI,,,,,,cett Auth # 29531
Federal Hwy, #200 Easy Seals .com Page 1
Bocaoca Raton,
ton, FL 33492
CALCULATIONS F MALL -MOUNTED SIGNS
ASCE 7-10 Design Wind Loads
WALL -MOUNTED SIGNS
Builsli_ng Specs
V = 165 mph Basic wind speed
Exposure C
Calculations
a=9.5 3-sec gust speed power law exponent
Zg = 900' Nominal ht. of atmos. boundary layer
Gcpi = 0 Internal pressure coeff
ASD Load Combo Coeff: 0.6
Kd = 0.85 Directionalityfactor
KA = 1.0 Topographic factor
A = 10 sq ft Tributary area
16S mph - Exp "C"
WALL -MOUNTED SIGNS
ASD WIND PRESSURES
SIGN CENTER CORNER
]EIGHT (Zone 4) (Zone 5)
Y Y
qz
a
'
15 ft
33.2 psf
42.2 psf
0.85
50.3
-1.10
-1.40
20 ft
35.3 psf :
44.9 psf
0.90
53.4
-1.10
-1.40
25 ft
37.0 psf
47.0 psf
0.95
56.0
-1.10
-1.40
30 ft
38.4 psf
48.9 psf
0.98
58.2
-1.10
-1.40
35 ft
39.7 psf
50.5 psf
1.01
60.1
-1.10
-1.40
40 It
40.8 psf :
51.9 psf
1.04
61.8
-1.10
-1.40
45 ft
41.8 psf
53.2 psf
1.07
63.4
-1.10
-1.40
50 ft
42.8 psf
54.4 psf
1.09
64.8
-1.10
.-1.40
55 ft
43.6 psf
55.5 psf
1.12
66.1
-1.10
-1.40
60 ft
44.4 psf
56.6 psf
1.14
67.3
-1.10
-1.40
70 ft
37.6 psf
75.1 psf
1.17
69.6
-0.90
-1.80
80 ft
38.6 psf
77.3 psf
1.21
71.5
-0.90
-1.80
90 ft
39.6 psf
79.2 psf
1.24
73.3
-0.90
-1.80
100 ft
40.5 psf
81.0 psf
1.27
75.0
-0.90
-1.80
110 ft
41.3 psf :
82.6 psf
1.29
76.5
-0.90
-1.80
120 ft
42.1 psf
84.1 psf
1.32
77.9
-0.90-1.80
130 ft
42.8 psf
85.6 psf
1.34
79.2
-0.90
-1.80
140 ft
43.5 psf
86.9 psf
1.36
80.5
-0.90
-1.80
150 ft
44.1 psf
88.2 psf
1.38
81.7
-0.90
-1.80
175 ft
45.6 psf :
91.1 psf
1.42
84.4
-0.90
-1.80
200 ft
46.8 psf
93.7psf
1.46
86.8
-0.90
-1.80
250 It
49.1 psf
98.2 psf
1.53
90.9
-0.90
-1.80
Page 2
CALCULATIONS FMALL-MOUNTED SIGNS
� =Wl'�i earyiytsrom
Wall Sign Anchor Design
Structure Dimensions & Loading
Design wind pressure:
Sign type:
Sign size:
Wall material:
Anchor type/size:
Anchor tensile capacity:
Check Anchors for Pullout
P = 48.9 psf
Cabinet
A= 30.0 sgft (entire cabinet)
Wood CDX or equiv, thickness to match Min Embed
3/8" Bolt+ Nut
Ref: AAMATIR-A9-1991
Min Embedment: Full
Min edge dist: 1.5" Min Spacing: 1.5"
Tcap = 312.5 lb (per anchor)
Total Reaction: Rt = 1466 lb ... = P"A (entire cabinet)
No. of anchors req'd: n = 4.7 total anchors ... = Rt/Tcap
Total anchors required: 5 total anchors balanced over cabinet
OK, use min (3) attachments at top & bottom = (6) total.
Page 3
easyseals.4
OGANNED
BY
S4 Lucie COUnty
DESIGN CALCULATIONS
FOR
SANDPIPER PLAZA
Y x IO' CABINETS
10760 S. US Hwy 1— Port St Lucie
GENERAL NOTES:
1.
Design is in accordance with the 2010 Florida Building Code for use within
and outside the High Velocity Hurricane Zone (HVHZ).
2.
Wind loads have been calculated per the requirements of ASCE 7-10 as
shown herein.
3.
These engineering calculations pertain only to the structural integrity of
those systems, components, and/or other construction explicitly specified
herein and/or in accompanying engineering drawings. The existing host
Index:
structure (if any) must be capable of supporting the loaded system as
Pg 1 cover
verified by building department or architect / engineer of record. No
Pg 2 wind Loads
warranty, either expressed or implied, is contained herein.
Pg 3 Anchor Design
4.
System components shall be as noted herein. All references to named
components and installation shall conform to manufacturer's or industry
specifications as summarized herein.
S.
Where site conditions deviate from those noted herein, revisions may be
Engineers signature and seal valid
required or a separate site -specific engineering evaluation performed.
4brq ages'1,,trou C� o�
6.
Aluminum components in contact with steel or embedded in concrete shall
; .r . �
be protected as prescribed in the 2005 Aluminum Design Manual, Part 1A.
.4
N'
Steel components in contact with, but not encased in, concrete shall be
= e
coated, painted, or otherwise protected against corrosion.
JAE
k�of
7.
Engineer seal affixed hereto validates structural design as shown only. Use
=
this specification by contractor, et. AI, indemnifies and saves harmless5;`a�
this engineer for all costs & damages including legal fees & apellate fees
Chrisf)an;L•'aaligip �'��1uP.l? # 67382
resulting from deviation from this design.
Easy Seals+,,,,, let't\Auth # 29531
Federal Hwy, p200 EQsy Seals .com ` Page 1
Bocaoca Raton,
ton, FL 33432
4
'Seats
ASCE 7-10 Design Wind Loads
WALL -MOUNTED SIGNS
Building Specs
V = 165 mph
Exposure C
Calculations
a = 9.5
zg = 900,
Gcpi = 0
Basic wind speed
3-sec gust speed power law exponent
Nominal ht. of atmos. boundary layer
Internal pressure coeff
CALCULATIONS F' _._I WALL -MOUNTED SIGNS
ASD Load Combo Coeff: 0.6
Kd = 0.85 Directionality factor
Kzt= 1.0 Topographicfactor
A = 10 sq ft Tributary area
1w Illpll - CAy b
WALL -MOUNTED SIGNS
ASD WIND PRESSURES
SIGN CENTER CORNER
HEIGHT (Zone4) (Zone5)
Y Y
q�
U a
'1
15 ft
33.2 psf
42.2 psf
0.85
50.3
-1.10
-1.40
20 ft
35.3 psf
44.9 psf
0.90
53.4
-1.10
-1.40
25 ft
37.0 psf
47.0 psf
0.95
56.0
-1.10
-1.40
30 ft
38.4 psf
48.9 psf
0.98
58.2
-1.10
-1.40
35 ft
39.7 psf
50.5 psf
1.01
60.1
-1.10
-1.40
40 ft
40.8 psf
51.9 psf
1.04
61.8
-1.10
-1.40
45 ft.
41.8 psf
53.2 psf
1.07
63.4
-1.10
-1.40
50 ft
42.8 psf
54.4 psf
1.09
64.8
-1.10
-1.40
55 ft
43.6 psf
55.5 psf
1.12
66.1
-1.10
-1.40
60 ft
44.4 psf
56.6 psf
1.14
67.3
-1.10
-1.40
70 ft
37.6 psf
75.1 psf
1.17
69.6
-0.90
-1.80
80 ft
38.6 psf
77.3 psf
1.21
71.5
-0.90
-1.80
90 ft
39.6 psf
79.2 psf
1.24
73.3
-0.90
-1.80
100 ft
40.5 psf
81.0 psf
1.27
75.0
-0.90
-1.80
130 ft
41.3 psf
82.6 psf
1.29
76.5
-0.90
-1.80
120 ft
42.1 psf
84.1 psf
1.32
77.9
-0.90
-1.80
130 ft
42.8 psf
85.6 psf
1.34
79.2
-0.90
-1.80
140 ft
43.5 psf
86.9 psf
1.36
80.5
-0.90
-1.80
150 ft
44.1 psf
88.2 psf
1.38
81.7
-0.90
-1.80
175 ft
45.6 psf
91.1 psf
1.42
84.4
-0.90
-1.80
200 ft
46.8 psf
93.7 psf
1.46
86.8
-0.90
-1.80
250 ft
49.1 psf
98.2 psf
1.53
90.9
-0.90
-1.80
Page 2
a _
J,vSea Ls
�' ' emysWuvm
Wall Sign Anchor Design
Structure Dimensions & Loading
Design wind pressure:
Sign type:
Sign size:
Wall material:
Anchor type/size:
CALCULATIONS f _.Z WALL -MOUNTED SIGNS
P = 48.9 psf
Cabinet
A = 30.0 sqft (entire cabinet)
Wood CDX or equiv, thickness to match Min Embed
3/8" Bolt+Nut
Ref: AAMATIR-A9-1991
Min Embedment: Full
Min edge dist: 1.5" Min Spacing: 1.5"
Anchor tensile capacity: Tcap = 312.5 lb (per anchor)
Check Anchors for Pullout
Total Reaction: Rt = 1466 lb ... = P*A (entire cabinet)
No. of anchors req'd: n = 4.7 total anchors ... = Rt/Tcap
Total anchors required: 5 total anchors balanced over cabinet
OK, use min (3) attachments at top & bottom = (6) total.
Page 3