HomeMy WebLinkAboutPP - 220 STRANDER BLVD - CHEVRON - PERMITS AND PLANS220 STRANDER BLVD
ASSOCIATED PERMITS
15-F-201
95-F-006
SITE LOCATION
CITY OF TUKWILA
FIRE MARSHAL'S OFFICE
206-575-4407
FIRE PROTECTION SYSTEMS PERMIT APPLICATION
Applications and plans must be complete in order to be accepted for plan review.
**PLEASE PRINT**
King Co. Assessor's Tax No.:
Site Address: 220 Strander Blvd., Tukwila WA 98188 Suite Number: Floor:
Tenant Name: Chevron New Tenant? - Yes ❑ - No
Property Owner's Name: `,ambo Tej L L C & Maraka Inc
Mailing Address: 220 Strander Blvd. Tukwila WA 98188
City State Zip
262304-9104
CONTACT PERSON -if there are questions about the submittal.
Name: Lita Browning Day Telephone: 877-899-3473
Company Name: MR Industries, LLC dba Infinity Fire Protection
Mailing Address:17701 108th Ave SE, Renton, WA 98055
LBrowning@Infinity-fire.com City State Zip
E-mail Address: Fax Number: 87-806-9473
Contractor's City of Tukwila Business License number: BUS -0996171
Total number of new/relocated devices or sprinkler heads: 28 new items
Valuation of Project (contractor's bid price): $ 10,445.00
Scope of Work (please provide detailed information): Install FACP, AES Radio, Smoke Detectors, heat detectors,
pull stations, strobes ceiling mount, weather proof horn/strobe, horn/strobes indoor ceiling mounted
PERMIT APPLICATION NOTES
Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be
reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules.
Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit
is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or
abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in
writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing
and justifiable cause demonstrated.
I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE
UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY
FOR THIS PERMIT.
BUILDING OWNER OR AUTHORIZED AGENT:
Lita Browning o pp °,"ro3 M -fm, =11_ �
Signature: Date: 11/24/15
Print Name: Lita Browning Day Telephone: 877-899-3473
Plan Permit App.doc 8/22/14 TFD FP Form 8
Plus
The FireNET Plus Battery Calculator Tool will help you determine the batteries needed for your installation. In order to use this tool you must
know the number and type of devices that will be attached to your control panel, and the current requirements of any auxiliary devices
being powered by the control panel. Please enter this information in the yellow boxes. To use the FireNET Plus outputs for Auxiliary Power
in the calculation, select the desired circuit or select "N, External" to not use the panel auxiliary power in the calculation.
How much Standby Time (in hours) is required for the installation? 24 Hours
How much Alarm Time' (in minutes) is required for the installation? 5 Minutes
FireNET Plus Panel Hardware
Total Alarm
Current
SLC 1
SLC 2
Panel Totals
Panel Standby
Current
Total Standby
Current
FNP -1127 1 -Loop Panel
1
5
N
1
0.20000
0.20000
FNP -1127 -SLC Loop Expander
0
Alarm Aux Power from SLC above
0
0
0.07500
0.00000
FN4127-NIC Network Card
0
0
0.00039
0
0.06000
0.00000
Integrated DACT Option
0
0.00035
0.00000
0
0.02500
0 00000
SLC Device Communication Current
000035
1
0
1
0.00675
0.00675
5 Device Alarm LEDs
1
0
1
0.00000
0.00000
0.20675 A
SLC Devices
Total Alarm
Current
SLC 1 Devices
SLC 2 Devices
SLC Device
Total
Device Standby
Current
SLC Standby
Current
ALG -V Analog Photo Smoke
NAC programmed for Aux Power
5
N
5
0.00039
0.00195
ACA -V Analog Multi -Sensor
0.0000
Alarm Aux Power from SLC above
0
0.00045
0 00000
ALK -V Analog Photo Smoke
0.00000
0 0000
0
0.00039
0 00000
AIE-EA Analog Ion Smoke
0.0000
Total NAC standby current
0
0.00035
0.00000
ATG -EA Analog Heat Sensor
8
0.840
8
000035
0.00280
Number of Alarm LEDs
0.00000
0.06000
0
0.00000
0.00000
ASB Analog Sounder Base
0.00000
0 00016
0.00000
0
0.00011
0.00000
24V AUX Power Source for ASB
N, External
N, External
0
0.00055
DH98-A Analog Duct Smoke
0
0 00039
0.00000
DH98-AR Analog Duct w/Relay
0
0.00039
0.00000
DH98-AR Remote Alarm LEDs
0
0.00000
DH98-AR Remote Power LEDs
0
0.01500
24V AUX Power Source for DH98-AR
N, External
N, External
0
0.01000
FRCME-4, P Input Module
0
0.00055
0.00000
FRCME-A, Al Class A Input Module
0
0.00063
0.00000
FRCME-M Input Module
2
2
0.00034
0.00068
DIMM Dual Input Monitor Module
0
0.00060
0.00000
AMS Addressable Pull Station
3
3
0.00055
0.00165
CZM Conventional Zone Module
0
0 00068
0.00000
24V AUX Power Source for CZM
N, External
N, External
0
0.00775
SOM Supv. Output Module
0
0.00015
0.00000
SOMA, SOMA -I Class A Output Mod.
0
0.00042
0.00000
SOM-R Supv. Output Module
0
0.00015
0.00000
See Auxiliary Power Devices Below for SOM
AUX Power
R2M, R2ML, R2MH Dual Relay Module
0
0 00039
0.00000
R2ML-I, R2MH-I Dual Relay Module
0
0.00035
0 00000
SCI Short Circuit Isolator
0
0.00027
0.00000
SLC Device Count Total - Does not include
ASBs or SCis
18
0
18
Notification Appliance
Circuits
Total Alarm
Current
NAC 1
NAC 2
NAC Appliance Current per Circuit
0.000
0.84
0.19
NAC programmed for Aux Power
0.00000
N
N
Standby Aux Power from SLC above
0.02500
0 0000
0.0000
Alarm Aux Power from SLC above
0.0000
0.0000
Standby Aux Power from page 2
0.00000
0 0000
0.0000
Alarm Aux Power from page 2
0.0000
0.0000
Total NAC standby current
0.00000
0.000
0.000
Total NAC alarm current
0.00068
0.840
0.192
Auxiliary Power Circuit
Total Alarm
Current
24V OUT
Aux 24V
Other Auxiliary Power Current
0.000
0 00
0.00
Constant 24V Power
0.00000
Y
Y
Standby Aux Power from SLC above
0.02500
0.0000
0.0000
Alarm Aux Power from SLC above
0 0000
0.0000
Standby Aux Power from page 2
0.00000
0.0000
0.0000
Alarm Aux Power from page 2
0.0000
0.0000
Total Aux Power standby current
0.00000
0.000
0.000
Total Aux Power alarm current
0.00068
0.000
0.000
External Power Supply
Requirements
Total Alarm
Current
EXTERNAL
STANDBY
TOTAL
External Standby and Alarm Current
0.07500
0.000
EXTERNAL
ALARM TOTAL
0.000
0.007 A
NAC
STANDBY
TOTAL
0.000
AUX
STANDBY
TOTAL
0.000
A
A
Panel Alarm
Current
Total Alarm
Current
0.25000
0.25000
0.07500
0.00000
0.06000
0.00000
0.02500
0.00000
0.00675
0.00675
0.02500
0.02500
0.28175
Device Alarm
Current
SLC Alarm
Current
0.00054
0.00270
0 00054
0.00000
0.00080
0.00000
0.00046
0.00000
0.00050
0 00400
0.00800
0.00000
0.00011
0.00000
0.01800
0.00054
0.00000
0.00054
0.00000
0.01500
0.01500
0.06000
0.00066
0.00000
0.00063
0.00000
0.00034
0.00068
0.00072
0.00000
0.00066
0.00198
0.00072
0.00000
0.06000
0.00016
0.00000
0 00050
0.00000
0 00016
0.00000
0.00040
0 00000
0.00040
0 00000
0 00027
0.000(k
A
0.009 A
NAC ALARM
TOTAL
1.032
AUX ALARM
TOTAL
0.000
A
A
Continue calculation on Page 2. Revision 1.13
Plus
The amount of current needed to power Auxiliary Devices varies with application. Large amounts of current may be necessary.
The table below by default calculates the total current required by the Auxiliary Devices and assumes that none of FireNET Plus circuits
will be used for this auxiliary power requirement. You may change this in the Select AUX PWR Source column. Calculate and enter
the amount of current necessary for your application. Total the current used for all SOMs and enter in the table.
Auxiliary Power Devices
# of SOMs X Alarm Current per SOM
FN -LCD -N Network Annunciator
FN -LLD -S Serial Annunciator
Bosch D9068 Contact Dialer
Device
Quantity
Standby Select AUX
Current Alarm Current PWR Source
0
0.150
0.020
0 150
0 270
0 110
0190
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
N, External
uevice
Standby
Current
0.000
0.000
0.000
0.000
0.000
0.000
0 000
0 000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
uevice
Alarm
Current
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
Total Aux Pwr
0.000
A
0.000
Auxiliary Power Devices On FireNET Plus Circuits
S I ANUKY
0.000
A
ALARM
0.000
Auxiliary Power Devices On External Power Supply
S 1 ANUBY
0.000
A
ALARM
0.000
The amount of current needed to power the I/O Board varies with application. Large amounts of current may be necessary if I/O Board outputs
are used. The table below by default calculates the total current required by the I/O Boards and assumes the FireNET Plus Aux. Power is not used.
To use the FireNET circuit (NAC or Aux Power) in the calculation, change the "N" to "Y" and select the desired circuit. Calculate and
enter the amount of Output current necessary for your application.
I/O Boards
Number of I/O
Circuits In
Standby
I/O Current in
Standby
Number of I/O
Circuits in
Alarm
1/0 Current In
Alarm
Select FireNET
Plus AUX PWR
Source
I/O Standby
Current
I/O Board Address #1
N, External
0.000
Number of Inputs
0.001
0.001
0.000
Number of Outputs
0 000
IITO-Board Address #2
N, External
0.000
Number of Inputs
0 001
0 001
0.000
Number of Outputs
0.000
I/O Board Address #3
N, External
0.000
Number of Inputs
0.001
0.001
0.000
Number of Outputs
0 000
I/O Board Address #4
N, External
0.000
Number of Inputs
0.001
0.001
0.000
Number of Outputs
0.000
I/O Board Address 85
N, External
0.000
Number of Inputs
0.001
0.001
0.000
Number of Outputs
0.000
110 Board Address #6
N, External
0 000
Number of Inputs
0.001
0.001
0.000
Number of Outputs
0.000
110 Board Address #7
N, External
0.000
Number of Inputs
0 001
0 001
0 000
Number of Outputs
0.000
I10 Board Address #8
N, External
0.000
Number of Inputs
0.001
0.001
0.000
Number of Outputs
0.000
I/O Alarm
Current
0.000
0.000
0 000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0 000
0.000
0.000
0 000
0.000
0.000
0.000
0.000
0.000
0.000
I/O Board Loads On FireNET Plus Circuits
b IANU0Y
0.000
A
ALARM
0.000
I/O Board Loads On External Power Supplies
b I ANUIIY
0.000
A
ALARM
0.000
Up to 32110 Boards can be connected to a single FireNET Plus control panel. To determine total current requirements, the number of inputs and outputs
In the table above per I/O Board can be multiplied to reflect a fully loaded 321/0 Board system.
Note: Each I/O Board has 2 banks of 81/0 channels. The maximum current output per channel is 0.100A with a total of 0.500A per bank.
Total Standby Current Draw = 0.214 AMPS
x Standby Time 24 Hours
Standby Amp -Hours Required = 5.13 AH
Total Alarm Current Draw= 1.323 AMPS
x Alarm Time 0.083 Hours*
Alarm Amp -Hours Required = 0.11 AH
Total AH Required = 5.24 AH
x Derating Factor 1.20 (20%)
Minimum Battery Size: 6.3 AH
(The FireNET Plus panel can support batteries up to 60 AH. )
* Alarm Time: 0.083 = 5 minutes, 0.250 = 15 minutes, 0 500 = 30 minutes.
NOTE: Hochiki hereby disclaims all warranties relating to this software product, whether expressed or
implied. Including without limitations any implied warranties of merchantability or fitness for a
part cular purpose. Hochiki cannot and will not be liable for any incidental, consequential, special,
indirect or similar damages for any reason. It is the responsibility of the user to ascertain the
accuracy and the reliability of any and all information generated or provided by this software
Site Name-
Address-
City -
State & ZIP-
Phone -
Panel Info -
Install Date-
Misc:
Site Information
Chevron
220 Strander Blvd
Tukwila
WA, 98188
877-899-3473
Chevron
11/23/2015
Revision 1.13
E-8112-030-230
D8112 Communicator Standby Battery and Current Rating Chart
AC Power On
Normal Current
AC Power OU
Minimum Current
AccessoryytQuan- Each Total • Each Total
'Model •''.' tity . Unit ' System .. Unit System
Used A
200 x Quan.= 2O0
r. ,,}::.:.: •17 x Quan. _ •t7 .
- �;r. r .� •"-r., 15 x Quan. _ •
50'xOuan. = S7 •
I 25 x Quan: = Z�
1 10 x Quan. = i 0
44.SCT_ • .04 x"Quan. =
• ESL -204A
2
200 x Quan. = 200
-; 17 x Quan., = ri •
•4.1.5xQuart •
50-x Quan..= `= Z)
25 x Quan. :. 25-
10
5•10 x Quan. = j 0
.04.x Quan.
• 40-x Quan: = • 40 x Quan.
25 x Quan. = 25 25 x Quan. =
• 85 x Quan. = 65 x Quan. =
M801,2,3 0 x Quan. =
M806 0 x Quan. _
0 0 x Quan. = 0
0 O x Quan. = 0
'The current requirement for the ESL 425CT smoke detector is included with the D125.
Ratings of other devices inthe system which are not shown above:
e• vdete4e4-t i 5. 2 xQuan. = (2-S 2SxQQan. = I2-•S—
korn . Z xQuan. = 0
x Quan. =
x Quan. = x Quan. =
x Quan. = x Quan. =
Column A Column B
In Alarm
Maximum Current
Each Total
Unit . System
C
300 x Quan: =
115xQuan.
65xQuan: = ..
170xQuan. l 7D
5O x Quan. _ o -
50 x Quan. = 5 0 •
. 40 x Quan. =
40 x Quan.
90xQuan. = 'l0
180 x Quan. =
60 x Quan.
100 xQuan. =
7S'
x Quan. = -7-SD
ZxQuan.
=1-h.
x Quan.
x Quan. _ •
Column C
Total = 3J "S . o u Total -33`P Total = B - C2
s[... T..4 .1 ..i "nosh nn/rrmn.nhntin
L-8 t 12-030-2'eu
16.2 Battery Standby Calculations for Fire Alarm Applications
The "8112 Communicator Standby Battery and Current Rating Chart" on the following page provides
guidelines for calculating the system's current requirements and outlines standby power requirements for
the various standards.
16.2.1 Central Station (NFPA 71) Systems require 24 hours of standby battery .capacity. Two
batteries must be installed in the D8112 system to meet the basic standby requirements for an NFPA 71
installation. To verify compliance with NFPA 71 you only need to add the current Values listed in cokimn B
(AC Power Off) and confirm that this total does not exceed 450 mA.
: . •
An alternate means of verifying compliance with standby battery requirements for NFPA 71 systems is to
use the formula•shown below to determine the ampere hour_(A.H:) requirements of the system as related
to the ampere hour capacity of the batteries. Note that the formula includes a 100/0 contingency factor.
This.factor makes allowance for depletion of battery capacity with age c'.
:..1; .. :i :i...
_FORMULA FOR NFPA 71 AMPERE HOURCALCULATION:
x 24) + 100% _ C2 . 10
Column B Hours Contingency : Total A.H.
. Total Factor
Total A.H. requirements must not exceed A.H. capacityof batteries:
Two D126 Batteries'= 12 A.H. •
.
:.: r.: .; -NOTE: ALL CURRENTS IN CHART ABOVE ARE IN MILLIAMPERES
• MAXIMUM CURRENT PER TERMINAL: 1 AMPERE (1000 MILLIAMPERES)
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CONSULTANTS
PROJECT NAME:
CHEVRON EXTRA MILE CONVERSION
NEW FIRE ALARM INSTALL
220 STRANDER BLVD
TUKWILA, WASHINGTON 98188
FIRE ALARM SUPPLIER:
INFINITY FIRE PROTECTION
18833 SE RENTON—MAPLE VALLEY RD
MAPLE VALLEY, WASHINGTON 98055
PHONE: (877) 899-3473
WWW.INFINITY—FIRE.COM
REFERENCES:
NFPA 70 NATIONAL ELECTRICAL CODE
NFPA 72 NATIONAL FIRE CODE
UL -864 AND OTHER APPLICABLE STANDARDS
COMPLETE FIRE PROTECTION SYSTEM, UL LISTED
CONFORM TO REQUIREMENTS OF NFPA APPLICABLE SECTIONS
THE AMERICAN DISABILITIES ACT (ADA)
ELECTRICAL NOTES
1. THE CONTROL PANEL REQUIRES 120 VAC, 50/60 HZ, 5 AMP MAX. POWER TO THE CENTRAL PANEL
MUST BE A DEDICATED CIRCUIT WITH A BREAKER LOCK BY OTHERS.
2. ANY EQUIPMENT LOCATION CHANGE FROM THAT SHOWN ON THE DRAWINGS REQUIRES PRIOR
APPROVAL. WIRE RESISTANCE FOR DETECTION CIRCUITS MUST NOT EXCEED 20 OHMS
(APPROXIMATELY 3000 FT. OF 18 AWG OR 7700 FT. OF 14 AWG WIRE).
3. DETECTOR, ALARM AND DISCHARGE CIRCUITS ARE SUPERVISED AND MUST BE CONNECTED AS SHOWN.
ALL LOW VOLTAGE SUPERVISORY WIRING FOR EACH ZONE MUST BE SHIELDED FROM
ALL OTHER WIRING.
ALL CONTACTS ARE RATED AT 1.5 AMP, 120 VAC/28 VDC.
WIRE RANGE FOR TERMINALS IS 14 AWG TO 18 AWG. TWO WIRES ON THE SAME TERMINAL MUST
NOT DIFFER BY MORE THAN TWO GAUGES. COMPLIANCE WITH ALL LOCAL WIRING CODES IS REQUIRED.
DO NOT CONNECT DISCHARGE DEVICES TO PANEL. SERVICE TECHNICIAN WILL DO TIE—INS AT
FINAL CHECKOUT.
120 VAC SUPPLY AND 24 VDC BATTERY STANDBY MUST BE DISCONNECTED BEFORE PERFORMING
ANY TYPE OF SYSTEM MAINTENANCE. ALLOW 30 SECONDS AFTER POWER DISCONNECT BEFORE
PERFORMING MAINTENANCE.
9. BATTERY STANDBY POWER IS PROVIDED FOR THIS SYSTEM.
10. END OF LINE RESISTORS ARE INCLUDED WITH THE PANEL.
AES RADIO NOTES
THE RADIO COMMUNICATORS REQUIRE 12V 7.5AH BATTERIES PER AES MANUAL 40-7788, Rev 3
PAGE 10.
2. RADIO SIGNALS REQUIRED ARE AT MINIMUM 2 GOOD PATHS WITH LINK LAYER AND NETCON ADDED
TOGETHER CAN NOT BE MORE THAN 7.
3. THE NETCON CANNOT BE MORE THAN 5
4. WIRE RANGE FOR TERMINALS IS 14 AWG TO 18 AWG. TWO WIRES ON THE SAME TERMINAL MUST
NOT DIFFER BY MORE THAN TWO GAUGES. COMPLIANCE WITH ALL LOCAL WIRING CODES IS REQUIRED.
5. 120 VAC SUPPLY AND 24 VDC BATTERY STANDBY MUST BE DISCONNECTED BEFORE PERFORMING
ANY TYPE OF SYSTEM MAINTENANCE. ALLOW 30 SECONDS AFTER POWER DISCONNECT BEFORE
PERFORMING MAINTENANCE.
6. BATTERY STANDBY POWER IS PROVIDED FOR THIS SYSTEM.
7. END OF LINE RESISTORS ARE INCLUDED WITH THE PANEL.
STANDARD MOUNTING HEIGHT DETAIL
0 MOUNT NOTIFICATION DEVICES 80" ABOVE FLOOR
OR 6" BELOW CEILING, WHICHEVER IS LOWER,
PER ADA REQUIREMENTS.
"T" BAR CEILING I MAX. --DIFFUSER
®
DOOR
OUTSIDE
OF
ROOM
FIRE
PANEL
P
r
NOT LESS THAN 3'-6"
NOT MORE THAN 4'-6"
72"
BOTTOM OF LENS
NOT LESS THAN
80" AND NO
GREATER THAN. 96"
(7.5.4)
FINISHED FLOOR
CHEVRON EXTRA MILE CONVERSON
220 STRANDER BLVD
TUKWILA, WASHINGTON 98188 Fiz&f,
NEW FIRE ALARM INSTALL
REVISION: 0
SCOPE OF WORK:
INFINITY FIRE PROTECTION WILL BE INSTALLING NEW FIRE ALARM CONTROL PANELS WITH AES RADIOS.
PULL WIRE THROUGHOUT BUILDING TO ALL SMOKE DETECTORS, HEAT DETECTORS, PULL STATION, HORN STROBE,
STROBES. INSTALL AES RADIO FOR MONITORING OF THE FIRE ALARM PANEL. TEST FOR PROPER SIGNALS PER NPFA
72 FIRE ALARM SYSTEM REQUIREMENT.
aar,•, s 61-1
P`
�r<
DESCRIPTION
SLC CIRCUIT #1
HORN CIRCUIT (S2)
CO ..OR
ED
(-)
SLACK
WIRE GUIDE
A = 2#16 SLC (RED/BLACK)
B = 2#14 NAC CKTS 1,2,3,4 (RED/BLACK)
ALL WIRE SHALL BE FIRE WIRE—SOLD
D = X#XX
\--WIRE SIZE (AWG)
NUMBER OF CONDUCTORS
DESIGNATOR
WIRE TAG DESCRIPTION
Without —
As Note. - =v
Per The kuiL..: _iter
Thee plans have been reviewed by 'The Tukwila Fire
Prcvention Bureau r?;- conformance +ivrt '. current City
Acceptonco i..' subject to i:rrorF, and
ofoissk:r€s which :,o tnorize violations of adopted
anti oroinT,irices. The responsibility for the
o design rz:,scs totally with itie designer.
de letioi €.w or ;-evisions to these drawings after
acceptance and will require a
riCtibMIU-al o ;'`'': r:= C' d;'i:+n/fnjs for subsequent approval.
Finalacceptance:.-, :;• .ft? eci: to field test and Inspection by
'IncTukwila. Fire Prevention Bureau.
-ata:12 L j . y:. v ''"‘ 51
THIS DRAWING CONTAINS CONFIDENTIAL PROPRIETARY INFORMATION OF INFINITY FIRE PROTECTION LLC,
ALL RIGHTS ARE EXPRESSLY RESERVED. IT IS SUBMITTED UNDER A TRUST_ RELATIONSHIP FOR YOUR
USE IN CONSIDERING ThE PURCHASE OF THE EQUIPMENT DESCRIBED HEREON FROM INFINITY FIRE
PROTECTION LLC. THS DRAWING IS _N€OT TO BE USED FOR ANY OTHER PURPOSE NOR COPIED IN _
WHOLE OR PART NOR I TS DESIGN FEATURES USED IN OTHER PRODUCTS AfIIHOUT OUR WRITTEN CONSENT.
IT IS TO BE RETURNED WHEN NO LONGER REQUIRED, OR UPON REQUEST.
LEGEND
ITEM
QTY.
PART NUMBER
DESCRIPTION
FACP
1
FNP1.127 (HOCHIKI)
1
ADDRESSABLE FIRE ALARM CONTROL PANEL
AES
2
77551" (AES)
1
RADIO COMMUNICATOR
• AES
..
7067(AES)
1
INTELLITAP—H DIGITAL DIALER INTERFACE
12V7AH
3
12VDC 7.5AHR BAI I ERIES
P
5
DCP—SMS (HOCHIKI)
3
ADDRESSABLE PULL STATION
®
6
ALN\/ (HOCHIKI)
5
ADDRESSABLE PHOTOELECTRIC SMOKE DETECTOR
®
7
ATJ—EA (HOCHIKI)
5
ADDRESSABLE HEAT DETECTOR
®
8
MODEL 302
2
ALL WEATHER HEAT DETECTOR
0
9
ATJ—EA (HOCHIKI)
5
ADDRESSABLE HEAT DETECTOR ABOVE CEILING
10
HSB—NSA-6 (HOCHIKI)
15
PHOTOELECTRIC SMOKE DETECTOR BASE
®,<
11
HCC24CR (HOCHIKI)
5
CEILING MOUNT HORN STROBE
®
12
HCS24Cf (HOCHIKI)
2
LOW FREQUENCY HORN STROBE
[<<
15
WHEC24 -75WR (HOCHIKI)
2
WEATHER PROOF HORN STROBE
_f ud! liviui . ° 'a e... E7ARTMENT
c,!;20b-57S-4,1-07 and
d
O;v3 th.j Permit No®
exact adcha'ss for shut-
down
hutdown or restoration approval.
44:ItiSA-0( G rew,cs4 C1hhvhcicA If 44-+4 1'h9'1h e41-4
es- FAcr /4E5 o, deka/4444A cije-,A-,‘+eal �✓f breal,c-
hahcik Lla"'f
NOTICE
A completed, signed, Tukwila
Fire Department Pre-test
Certificate musi be presented
to the inspecf_or. prior to
commence r,4;r,i: of Acceptance
Testier r) , ",,, Fire Alarm
and l: =: _ on Systpms.
Failul c.of :est will result
in a Re -inspection Fee and
termination of the testing
CONDITION
1
2
3
4
STANDBY CONDITION
SEQUE\CE OF OPE
PATI O \ S
FAC P
FUNCTIONS
A B
•
C D E
L M
SYSTEM TROUBLE CONDITION
SMOKE DETECTOR
PULL STATION
0
0
0
0
0
0
0
0
0
0
0
PAID
Nov 2! �2015
2 d 3 1-2(
33,
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DWG BY: MB
ENG BY: MB
CHK BY: JM APP BY: JM
SCALE: Not To Scale
DRAWING NUMBER:
FA15--o85B
DATE:
11/1c9/15
OF
C 11
PAGE:
C\
SP.
WIRE GUIDE
A = 2#16 SLC (RED/BLACK)
B = 2#14 NAC CKTS 1,2,3,4 (RED/BLACK)
ALL WIRE SHALL BE FIRE WIRE -SOLD
D = X#XX
018
WIRE SIZE (AWG)
NUMBER OF CONDUCTORS
DESIGNATOR
WIRE TAG DESCRIPTION
15CRf
EOL
017
016
1-7
30CD
30CD
008 ;«<
ARE
015
75CD
1-2
003
THIS DRAWING CONTAINS AINS CONF IDENTIAL. PROPRIETARY ARY INFORMATION OF INFINITY FIRE PROTECTION LLC.
ALL RIGHTS ARE EXPRES=SLY RESERVED. ri IS SUBMITTED UNDER A TRUST RELATIONSHIP FOR YOUR
USE IN CONSIDERING THE PURCHASE OF THE: EQUIPMENT DESCRIBED HEREON FROM INFINITY FIRE
PRO€ECTION LLC. THIS DRAWING IS NOT_TO SE USED �1 FOR ANY OTHER PURPOSE NOR COPIED IN
WHOLE OR PART NOR € TS DESIGN FEATURES USED IN OTHER PRODUCTS WITHOUT OUR WRITTEN CONSENT,
IT IS To SE RERJRNED WHEN NO LONGER REQUIRED, OR UPON REQUEST.
ITEM
PART NUMBER __..---W 1
LEGEND
QTY.w
_._ DESCRIPTION
FACP
FNP1127 (HOCHIKI)
'1
ADDRESSABLE FIRE ALARM CONTROL PANEL
AES
2
7788E(AES)
1
RADIO COMMUNICATOR
AES
3
7067(A S)
1
INTELLITAP-II DIGITAL. DIALER INTERFACE
4
€ V7AH
3
12VDC r .5AHP BATTERIES
P
5
CP -AMS (HOCHIKI)
3
ADDRESSABLE PULL. STATION
®
6
ALN-\' (HOCHIKI)
5
ADDRESSABLE PHOTOELECTRIC SMOKE DETECTOR
®
7
AJ-EA(HOCHIKI)
7
ADDRESSABLE HEAT DETECTOR
Q
8
MODEL 302
4.
ALL WEATHER HEAT DETECTOR
Q
9
ATJ A (HOCHIKI)
5
ADDRESSABLE HEAT DEI ECTOR ABOVE CEILING
10
HS NSA- (HOCHIKI)
15
PHOTOELECTRIC SMOKE E I ECTOR BASE
11
HCC24CR (HOCHIKI)
5
CEILING MOUNT HORN STROBE
®
12
CS24C (HOCHIKI) IKI)
2
LOW FREQUENCY HORN STROBE .
ig<
13
WH : 4 -75WR (HOCHIKI)
2
WEATHER PROOF HORN STROBE
014
Q
K1-6
A 75CD
(pp
WP
013
I
006
005
2-1 W
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75CD
1-1
75CD
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SCALE: 1 /•4"--1>
DRAWING NUMBER:
FA15- 0855
67)
OF
DATE:
11/19/15
PAGE:
2
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SUPERVISORY
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015
014
013
012
011
010
009
008
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DRAWING NUMBER:
FA15--085B
OF
i
DATE:
11/19/15
PAGE:
3