HomeMy WebLinkAboutBLDG PERMIT #7714 (Fire Upgrade Plans) CITY OF CAPE CANAVERAL
DOCUMENT COVER SHEET
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Box #: 2
Item #9 — 280 Columbia Dr.; Permit #7714 (31) 8 '/2 x 11 pgs. &fi large format
plans (Fire)
UPON RETURN OF PAPER ORIGINALS FROM MCCI, add to file name:
CITY OF CAPE CANAVERAL
DOCUMENT COVER SHEET
Box #: 2
Item #9 — 280 Columbia Dr.; Permit #7714 (31) 8 1/2 x 11 pgs. & 6 large format
plans (Fire)
UPON RETURN OF PAPER ORIGINALS FROM MCCI, add to file name:
SCOPE OF WORK
PHASE 1 OF 2 PHASE UPGRADE TO FIRE ALARM SYSTEM IN EXISTING BUILDING
LOCATED AT: 230 COLUMBIA DR. CAPE CANAVERAL, FL 32920
PHASE 1
UTILIZE THE EXISTING BOSCH D7024 DIALER AS NEW FIRE PANEL
REPLACE ALL HORN/STOBES WITH NEW SYSTEM SENSOR FOR SYNCHRONIZATION
REUSE ALL WIRING FOR NAC AND INITIATING CIRCUITS
PHASE 2
TO BE PERMITTED AT A LATER DATE PER OWNER'S REQUEST
INSTALL SOUNDERS IN ALL LIVING SPACES PER NFPA
INSTALL ELEVATOR RECALL PROVISIONS FOR LATER USE
CLASSIFICATION OF THIS FIRE ALARM SYSTEM
THE FIRE ALARM SYSTEM IS A CENTRAL STATION SERVICE
THE FIRE ALARM SYSTEM TO BE MONITORED BY A LISTED CENTRAL
STATION SERVICE
THE FIRE ALARM SYSTEM IS POWER LIMITED
THE FIRE ALARM SYSTEM IS IN CONDUIT WHERE REQUIRED BY NEC
CONDUIT FILL NOT TO EXCEED 40%
COMPLIANCE
THE DESIGN AND INSTALLATION OF THE FIRE ALARM SYSTEM
SHALL COMPLY WITH THE NFPA - 72 2002 EDITION,
THE NFPA-70 NATIONAL ELECTRICAL CODE (NEC) 2005 EDITION,
THE FLORIDA BUILDING CODE 2005 EDITION, THE NFPA-101 2006 EDITION,
AND THE FLORIDA FIRE PREVENTION CODE 2007 EDITION
BUILDING DESCRIPTION
THIS IS A THREE STORY BUILDING CONSISTING CONSISTING OF 55,000 SQFT
THIS BUILDING IS NOT SPRINKLERED
CEILING HIEGHT IS 9 FEET THROUGHOUT
SEQUENCE OF OPERATION
ALARM CONDITION
UPON ACTIVATION OF ANY MANUAL STATION, OR SMOKE DETECTOR OR
WATER FLOW THE FOLLOWING SHALL OCCUR:
1. HORN/STROBES WILL ACTIVATE UNTIL SILENCED
2. THE FACP & ANNUNCIATOR SHALL DISPLAY THE DEVICE OR ZONE IN ALARM.
3. AN ALARM SIGNAL SHALL BE SENT TO THE CENTRAL STATION VIA DACT.
TROUBLE CONDITION
ANY OPEN LOOP,GROUND FAULT,SHORT CIRCUIT,MISSING DETECTOR AND/OR
MODULE WILL GENERATE A TROUBLE AND THE FOLLOWING SHALL OCCUR:
1. THE FACP SHALL DISPLAY THE DEVICE, ZONE OR NOTIFICATION LOOP
IN TROUBLE.
2. TROUBLE INDICATOR HORN WILL SOUND UNTIL SYSTEM IS SILENCED.
3. A TROUBLE SIGNAL SHALL BE SENT TO THE CENTRAL STATION VIA DACT.
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SYSTEM NOTES
FIRE ALARM SYSTEM CONSISTS OF 36 DEVICES
ALL DEVICES ARE NEW
ALL EQUIPMENT AND DEVICES USED IN
THE FIRE ALARM SYSTEM ARE COMPATIBLE
INITIATING DEVICE CIRCUITS SHALL BE
CLASS "B" STYLE "4"
NOTIFICATION APPLIANCE CIRCUITS SHALL
BE CLASS "B" STYLE "Y"
THE FIRE ALARM SYSTEM IS IN CONDUIT WHERE REQUIRED BY NEC
CONDUIT FILL NOT TO EXCEED 40%
FACP NOT LOCATED IN AIR CONDITIONED SPACE
CONTRACTOR NOTEES
CONTRACTOR IS APPROVED BY A NATIONALLY RECOGNIZED TESTING LABORATORY
ETL CERTIFICATION
SYSTEM TO BE CERTIFIED AND MAINTAINED BY ETL CERTIFIED CONTRACTOR
Guide XHEZ October 03, 2001
Through -Penetration Flrestop Systems C -AJ -1080-A Card
System No. C -AJ -1080
F -Rating - 3 Hr
T -Rating - 0 Hr
L Rating At Ambient - Less Than 1 CFM/sq ft
L Rating At 400 F - Less Than 1 CFM/sq it
rA (�
3B
I
313 Ri
2
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Section A -A
., e11Na,'As_ ,.r5 - .icA ,,f ,j ---i ,oht,100 150 po con,,e,e
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male ial
P Fill V.11 0T Ca,'ty Ma'-- a ma1,1 applied •n,h,n the --lus _
(1051 "nth Io, 5',! :e o; fieo, 0i „ith b0111udaces 01 -11
s�ECIF1ED TECH?40LO'3'ES MJC Spec9eb? 100 191, 105 S, 1]
'9e'a�1ng the 1JL CIass lig' eticn ,r'a,kn
Wall Penetration
4" Of
BOX
RING - CONDUIT
MOUNTING SURFACE
HEAD ----"BASE
IONIZATION OR PHOTOELECTRIC DETECTOR
MOUNTING DETAIL
(NOT TO SCALE)
HORN -STROBE —\
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HORN/STROBE MOUNTING
AY LEVE
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WALL -MOUNTED NOTIFICATION APPLIANCES SHALL HAVE THEIR
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TOPS ABOVE THE FINSIHED FLOORS AT HEIGHTS OF NOT LESS
THAN 90" AND BELOW THE FINISHED CEILINGS AT DISTANCES
I
OF NOT LESS THAN 6'. (NFPA 72 7.4.6.1. (2002 ed.)
CONTROL
0
MIN. 80" FROM ADA SFBC
W
PANEL
CID
BOTTOM OF LENS THE APPLIANCE SHALL BE PLACED 80" ABOVE THE HIGHEST
FLOOR LEVEL WITHIN THE SPACE. OR 6" BELOW THE CEILING
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96" MAX. WHICHEVER IS LOWER.
TO TOP OF LENS SFBC 2004 sec 11
CHECKED:
Jason
66" MANUAL PULL
10/29/10
SCALE:
PULL STATION MOUNTING
3/3211= 1'
JOB NUMBER:
XXXXX
NFPA 72 - SECTION 5.12 .4 - 2002 Ed
4
„
THE OPERABLE PORTION OF EACH MANUAL PULL STATION
SHALL BE NOT LESS THAN 1.1M (3 1/2 FT), NOR GREATER
TO
THAN 1.37M (4 112 FT) ABOVE FLOOR LEVEL.
C.L.
FLORIDA BUILDING CODE- SECTION 907 3,2 - 2004 Ed.'.
THE HEIGHT OF THE MANUAL FIRE ALARM BOXES SHALL BE A
MINIMUM OF 42 IN (1067mm) AND A MAXIMUM OF 48 IN
(1219mm), MEASURED VERTICALLY, FROM THE FLOOR LEVEL TO
THE ACTIVATING HANDLE OR LEVER OF THE BOX.
FINISH FLOOR
TYPICAL
EQUIPMENT ELEVATION
REVIEWED FOR COMPLIANCE
This approval shall not be OWStrued as authority to
violate, cancel, alter or set aside any provisions of
any state or local governing "ority regulating
constructon or the per1`0rM8ft6 of construction.
All provisions of law and ordriances.§ovdming
this type of work rnuSt be omplied with whether
herein specified tar not Nor shall lilpikoval of these
plans prevent the Fire Department from requiring
additional specificatio uir, g correction'
In plans for n.
ATE s Examinor
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DRAWN:
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CHECKED:
Jason
DATE:
10/29/10
SCALE:
3/3211= 1'
JOB NUMBER:
XXXXX
SEAL
1 OF 6 SHEETS
SCOPE OF WORK
PHASE 1 OF 2 PHASE UPGRADE TO FIRE ALARM SYSTEM IN EXISTING BUILDING
LOCATED AT: 230 COLUMBIA DR. CAPE CANAVERAL, FL 32920
PHASE 1
UTILIZE THE EXISTING BOSCH D7024 DIALER AS NEW FIRE PANEL
REPLACE ALL HORN/STOBES WITH NEW SYSTEM SENSOR FOR SYNCHRONIZATION
REUSE ALL WIRING FOR NAC AND INITIATING CIRCUITS
_Colonial House 2nd Floor Plan
Scale: 3/32"=1'-0"
F_ACP
Bosch D7024 Fire Alarm Control Panel:
1
FAPS
1 ------
Silent Knight 5295 Fire Alarm Power supply
1
..T.FAAN
Remote Annunciator
1
BG -10 Manual Pull Station Dual Action
11
1 0 I
Duct Detector
O521
B Photoelectric Smoke Detector
1
OHeat
Detector
CR
Control Relay
System Sensor P2R Multi cd Horn/Strobe
21
�Q
Mini Horn
Strobe Only
®
Ditek DTK-FPK Surge protector
3
GE Security End of Line Resistor
3
E
Existing Devise
Total number of Fire Alarm devices
42
LEGEND/ EQUIPMENT LIST
This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering).
Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction
Point to Point Method End of Line Method Load Centering Method
Project Name The Colonial House I CIRCUIT IS WITHIN LIMITS I CIRCUIT IS WITHIN LIMITS I CIRCUIT IS WITHIN LIMITS
Date #######!##
Circuit Number FACP CKT 1
Area Covered 1st,2nd, Floor
Nominal System Voltage 1 20.4
Minimum Device Voltage 16
Total Circuit Current 1.099
Wire
Ohm's
Voltage
Drop
Gauge
Per 1000
Distance from source to 1st device 20
16
4.89
Wire Gauge for balance of circuit
16
4.89
Enter current in amps. Distance
325
1.73
Totals
Voltage
Drop
Totals
Voltage
Drop
Totals
Voltage
Drop
Current I
Distance
Current
Distance
1
Current
Distance
1.099
325
1.73
1.099
325
3.493
1.099 1
325
1.747
End of Line Voltage
18.67
End of Line Voltage
16.91
End of Line Voltage
18.65
Percent Drop
8.49%
Percent Drop
17.12%
Percent Dropl
8.56%
End of Line and Load Centering Methods use only the wire guage for the first device to source
Standard Wire Resistance in Ohms per 1000 feet.
18=7.77 16=4.89 14=3.07 12=1.98 10=1.24
18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors
FACP CKT 1
.150 = 150
ma
Device
Current
from
previous
device
At
Device
Voltage
Drop from
source
Percent
Drop
Notes:
Wire resistance is doubled in the calculations for two wires (Positive and Negative)
The voltage calculated to the last device in any method must not be lower then
the manufactures listed minimum operating voltage (IE: rated operating voltage 20-3:2 VDC)
Device Mar ufacturer JSystem Sensor
Current
@Rated
Model # Candela Voltage Model # Candela
P2R 75 0.157
Device
Number
Device 1
Device 2
Device 3
Device 4
Device 5
Device 6
Device 7
END
END
END
END
END
END
0.157 20 20.19 0.215 1.05%
0.157 30 19.91 0.491 2.41%
0.157 36 19.63 0.768 3.760/6
0.157 25 19.48 0.921 4.52%
0.157 135 18.86 1.543 7.56%
0.157 44 18.72 1.678 8.23%
0.157 35 18.67 1.732 8.49%
18.67 1.732 8.49%
18.67 1.732 8.49%
18.67 1.732 8.49%
18.67 1.732 8.49%
18.67 1.732 8.49%
18.67 1.732 8.49%
END
18.67 1.732
8.49%
END
END
END
END
END 1
18.67 1.732
8.49%
18.67 1.732
8.49%
18.67 1.732
8.49%
18.67 1.732
8.49%
118.67 1.732
8.49%
END 1
Totals
1 18.67 1.732
1.099 325 End of Line Voltage
8.49%
18.67
This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering).
Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction
Point to Point Method I End of Line Method =Load Centering Method
Project Name The Colonial House I CIRCUIT IS WITHIN LIMITS I CIRCUIT IS WITHIN LIMITS I CIRCUIT IS WITHIN LIMITS
Date 10/29/2010
Circuit Number FACP CKT 2
Area Covered 1 st,2nd Floor
Nominal System Voltage 20.4
Minimum Device Voltage 16
Total Circuit Current 1.099
Wire
Ohm's
Voltage
Drop
Gauge
Per 1000
Distance from source to 1st devic 25
16
4.89
Wire Gauge for balance of circuit
16
4.89
Enter current in amps Distance
280
1.67
Totals
Voltage
Drop
Totals
Voltage
Drop
Totals
Voltage
Drop
Current
Distance
Current
Distance
Current
Distance
1.099
280
1.67
1.099
280
3.010
1.099
280
1.505
End of Line Voltage
18.73
End of Line Voltage
17.39
End of Line Voltage
18.90
Percent Drop
8.17%1
Percent Drop
14.75%1
Percent Dropl
7.38%
End of Line and Load Centering Methods use only the wire guage for the first device to source
Standard Wire Resistance in Ohms per 1000 feet.
18=7.77 16=4.89 14=3.07 12=1.98 10=1.24
18-14 Awg = Solid Conductors 12-10 Awq = Stranded Conductors
FACP CKT 1
.150 =
150 ma
Device
Current
from
previous
device
At
Device
Voltage
Drop from
source
Percent
Drop
Notes:
Wire resistance is doubled in the calculations for two wires (Positive and Negative)
The voltage calculated to the last device in any method must not be lower then
the manufactures listed minimum operating voltage (IE: rated operating voltage 20-32 VDC).
Device Manufacturer GEMSIS
Current
@Rated
Model # ICandela Voltage Model # Candela
P2R 75 0.157
Device
Number
Device 1
Device 2
Device 3
Device 4
Device 5
Device 6
Device 7
END
END
END
END
END
END
END
END
END
END
END
END
END
Totals
0.157 25 20.13 0.269 1.32%
0.157 30 19.85 0.545 2.67%
0.157 30 19.62 0.775 3.80%
0.157 95 19.04 1.359 6.66%
0.157 30 18.90 1.497 7.34%
0.157 40 18.78 1.620 7.94%
0.157 30 18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
1 18.73 1 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
18.73 1.666 8.17%
1.099 280 End of Line Voltage 18.73
This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering).
Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction
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Point to Point Method
End of Lone Method
Load Centering Method
Project Name
The Colonial House
CIRCUIT IS WITHIN LIMITS
CIRCUIT IS WITHIN LIMITS
CIRCUIT IS WITHIN LIMITS
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Date
10/29/2010
Circuit Number
FACP CKT 1
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Totals
Voltage
Totals
Voltage
Totals
Voltage
Area Covered
1st,2nd, Floor
Current
Distance
Drop
Current
Distance
Drop
Current
Distance
Drop
Nominal System Voltage
1
20.41
1.099
300
1.86
1.099
1 300
3.224
1.099
1 300
1.612
Minimum Device Voltage
161
End of Line Voltage
18.54
End of Line Voltage
17.18
End of Line Voltage
18.79
Total Circuit Current
1.099
Wire
Ohm's
Percent Drop
9.11%
Percent Drop
15.81 %
Percent Dropl
7.90%
Gauge
Per 10010
End of Line and Load Centering Methods use only the wire guage
for the first device to source
Distance from source
to 1st devic
40
16
4.89
Standard Wire Resistance in Ohms per 1000 feet.
Global Project Values:
Wire Gauge for balance of circuit
16
4.89
18=7.77 16=4.89 14=3.07 12=1.98 10=1.24
Enter current in amps
Distance
18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors
Project Name: IThe Colonial House
Standby Hours: 24
.150 = 150 ma
Device
from
At
Voltage
Drop
Notes:
Project ID:7_7771Alarm
Mins: 5
Device
previous
from
Percent
Wire resistance is doubled in the calculations for two wires (Positive and Negative)
Number
Current
device
Device
source
Drop
The voltage calculated to the last device in any method must not be lower then
Pre pared B :Shaun
p
Nichols
Derating Factor: 1.2
Device 1
0.157
40
19.97
0.430
2.11%
the manufactures listed minimum operating voltage (IE: rated operating voltage 20-32 VDC).
Date: 10/29/2010
Voltage Drop Warning
Device 2
0.157
30
19.69
0.706
3.46%
Device 3
0.157
30
19.46
0.937
4.59%
Threshold %: 15
Device 4
0.157
100
18.85
1.551
7.60%
Device 5
0.157
30
18.71
1.689 1
8.28%
Device 6
0.157
40
18.59
1.812
8.88%
Device Manufacturer GENiSIS
Panel ID:
5495
Model: 5495 Power Expander
Max NAC Current: 3.0 Amps
Device 7
0.157
30
18.54
1.858
9.11%
Current
Current
Location:
Cape Canaveral
Volts: 24 VD1C
Max Panel Currer,.. 6.0 Amps
END
18.54
1.858
9.11%
@Rated
@Rated
END
18.54
1.858
9.11%
Model # Candela Voltage
Model # Candela Voltage
END
18.54
1.858
9.11%
P2R 75 0.157
Ckt.#
Circuit Name
Current Draw Wire AWG Ohms Per
Length(ft) Actual Volts @
END
18.54
1.858
9.11%
Standby Alarm & Type 1000 Ft.
°
One -Way Ohms EOL /o Drop
END
18.54
1.858
9.11%
5495
5495 Pwr Module 1
1
0.075
0.205
END
18.54
1.858
9.11°%
END
18.54
1.858
9.11/°
NAC #1
5495 Circuit 1
0.000
1.099
#16 Solid
4.02
325
2.61
17.53
14.08%
END
18.54
1.858
9.11%
NAC #2
5495 Circuit 2
0.000
1.099
#16 Solid
4.02
280
2.25
17.93
12.13%
END
END
18.54
1.858
9.11%
NAC #3
5495 Circuit 3
0.000L3.502
#16 Solid
El
4.02
300
2.41
17.75
12.99%
18.54
1.858
9.11%
END
18.54
1.858
9.11%
NAC #4
5495 Circuit 4
0.000#12
Solid T
1.59
0.00
20.40
0.00%
END
END
18.54
1.858
9.11%
Aux
5495 Aux Power Out
0.000#12
Solid
1.59
0.00
20.40
0.00%
18.54
1.858
9.11%
Totals 1.099
300 End of Line Voltage
18.54
Total Standby Current (Amps)
0.075Total
Alarm Current (Amps)
Standby Time In Hours
24
Alarm Time In Minutes / 60
(5 Mins)Total
Standb AH Required
1.800Total
Alarm AH Required
Total Combined AH Required
2.09
Wire resistances are based upon an
ambient temperature of 72 degrees F.
Multiply By The Derating Factor
1.20
Because of the minimal difference between
solid and stranded wire no differential
Minimum
Battery AmpHours Requiredl
2.51
was made.
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DRAWN:
Shaun
CHECKED:
Jason
DATE:
10/29/10
SCALE:
NTS
JOB NUMBER:
XXXXX
7714
SEAL
6 OF 6 SHEETS
N
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DRAWN:
Shaun
CHECKED:
Jason
DATE:
10/29/10
SCALE:
NTS
JOB NUMBER:
XXXXX
7714
SEAL
6 OF 6 SHEETS