FireFlex TOTALPAC X Installation guide
FM-076G-0-18A
Advanced Integrated Fire Protection System
TOTALPAC®X
Owner's Operation
and
Maintenance Manual
DELUGE SYSTEM
HYDRAULIC RELEASE
Page ii TOTALPAC®X
Integrated Fire Protection System
OWNER'SOPERATION & MAINTENANCE MANUAL
FM-076G-0-18A
Copyright © 2021 FIREFLEX Systems Inc.
All Rights Reserved
Reproduction or use, without express written permission from FIREFLEX Systems Inc, of any portion of this manual is prohibited.
While all reasonable efforts have been taken in the preparation of this manual to assure its accuracy, FIREFLEX Systems Inc
assumes no liability resulting from any errors or omissions in this manual, or from the use of the information contained herein.
TOTALPAC ®is a registered trademark of FIREFLEX Systems Inc.
FIREFLEX Systems Inc. reserves the right to make changes to this manual and the data sheets herewith at any time, without prior
notification.
TOTALPAC®XPage iii
Integrated Fire Protection System
OWNER'SOPERATION & MAINTENANCE MANUAL
FM-076G-0-18A
Table of Contents
Deluge System - Hydraulic Release
General Section ..........................................................................................................Section A
1- General description
2- Listings and approvals
3- Applicable standards
4- Environment
5- Features
6- Configuration description
7- System release
Mechanical Section......................................................................................................................Section B
1- Installation, operation & maintenance instructions
1.1 Installation
1.2 Preliminary inspection before placing the system in service
1.3 Placing the system in service
1.4 System operation
1.5 Emergency instructions
1.6 Placing the system back in service after operation
1.7 Inspections & tests
1.8 Maintenance
2- System trim
2.1 Normal condition
Trim Options.................................................................................................................................Section C
1- Shut-off valve & sight glass
N/A.................................................................................................................................................Section D
Control Section.............................................................................................................................Section E
1- Remotely supervised unit without control panel
1.1 Product description
1.2 Technical data
Electrical Section..........................................................................................................................Section F
1- Remotely supervised configuration
Dimensional Data & Cabinet.......................................................................................................Section G
1- Cabinet unit
Limited Warranty..........................................................................................................................Section H
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TOTALPAC®XPage 1of 2
Integrated Fire Protection System
A
General Section - Deluge System -Hydraulic Release
FM-076G-0-38A
1- General description
This TOTALPAC®Xintegrated fire protection system by
FIREFLEX Systems Inc. consists of a deluge system trim
totally pre-assembled, pre-wired and factory tested. All
electrical and mechanical components of the system are
contained in one single unit.
The only connections required for installation are the water
supply inlet, the water discharge outlet, the main drain, the
hydraulic detection inlet and the electrical supervisory and
alarm connections. The discharge outlet is connected to a
fixed piping network, in parallel to the hydraulic detection
piping network (pilot line). Water is the extinguishing
agent.
On hydraulic detection piping network, closed heat
sensitive automatic sprinklers are spaced and located in
accordance with recognized installation standards in order
to detect a fire. Only those sprinklers immediately over or
near to fire operate.
Deluge system with hydraulic release uses open type
sprinklers and/or spray nozzles on the system piping
network. The hydraulic detection piping network uses
automatic sprinklers. Hydraulic detection system gives an
alarm signal when it operate.
Deluge system is designed so the deluge valve will open
when a loss of pressure from the hydraulic detection piping
network occurs. When the deluge valve opens, water will
flow into the system piping network and out of all open
type sprinklers and/or spray nozzles.
Note: Every TOTALPAC®Xunit is identified with its unique
serial number. This number is located on an adhesive
label inside the main door panel and is used to maintain a
record in our computerized data base. Have this serial
number handy when calling for information on your unit
(format is TOT3####).
2- Listings and approvals
In addition to being fabricated under tight ISO-9001
manufacturing and quality control procedures, your
TOTALPAC®Xunit has also been tested and approved by
recognized laboratories.
WARNING Any unauthorized modification or addition made
on-site to a factory built Listed unit will void this Listing.
Such modifications or additions may void the unit's
warranty as well. Consult your nearest FIREFLEX Systems
authorized distributor before proceeding with such
modifications or additions.
3- Applicable standards
The TOTALPAC®Xcomplies with the following standards:
-NFPA-13 Sprinkler Systems
-NFPA-15 Water Spray Fixed Systems
-NFPA-16 Foam-Water Sprinkler and Foam-Water Spray
Systems
-NFPA-72 Fire Alarm Systems
Before installation, the contractor installing the unit shall
also be familiar with the following documents and
standards:
- Applicable Local & State Building Codes
- Any additional requirements of the Local Authority Having
Jurisdiction
4- Environment
TOTALPAC®Xunit can be installed in none heated or in a
corrosive atmosphere area, depending on the selected
cabinet (see section GCABINET SECTION). Refer to
section ECONTROL SECTION for environment data.
The unit and its components must be kept free of foreign
matter, contaminated water supplies, and any condition
that could impair its operation or damage the components.
The frequency of the inspections and maintenance will
vary depending on these environmental conditions as well
as the condition of the air supply to the system. The owner
is responsible for maintaining the fire protection system
and devices in proper operating condition. Refer to
section BMECHANICAL SECTION for maintenance
instructions.
Page 2of 2TOTALPAC®X
A
Integrated Fire Protection System
General Section - Deluge System -Hydraulic Release
FM-076G-0-38A
5- Features
The TOTALPAC®Xunit is superior to many other products
which are actually available on the fire protection market.
It is manufactured by FIREFLEX Systems Inc. which has
developed and introduced the concept of integrated fire
protection systems.
Main features are:
Trouble free design for safe and easy application
Available in 5 sizes from 1½" (40 mm) to 6" (150mm)
diameter
Uses the Viking deluge valve
Compact, aesthetic and easy to move
User-friendly standardized owner's manual with every
unit
Unique serial number on every unit
Uses only c-UL-us Listed and FM Approved components
Designed in accordance with NFPA Standards
Trim is fully assembled and tested at the factory
All trims are galvanized steel, Listed and Approved for
250 PSI (1724 kPa) service maximum
Quick connections to water supply and drain at the
bottom, and sprinkler riser on top of unit, all with grooved
end fittings
No open drain cup inside unit
Sturdy 14 gauge steel cabinet, painted fire red with oven
baked polyester powder on phosphate base
Textured rust proof finish
Neoprene gasket on all doors
Separate unlocked access hatch to emergency manual
release
Key-alike locks on all cabinet doors
Manufactured under ISO-9001 quality control procedures
6- Configuration description
TOTALPAC®Xdeluge system is built around the Viking trim
using straight through deluge valve model F-1 (model F-2
is the Halar®coated version for use in corrosive
environments).
The valve is rated up to a maximum of 250 PSI WWP
(1724 kPa) and is available in the following diameters:
1½" (40 mm) 3" (80 mm) 6" (150 mm)
2" (50 mm) 4" (100 mm)
TOTALPAC®3X deluge system is supplied with groove/
groove deluge valve.
6.1 Deluge system
The hydraulic detection piping network is pressurized with
water.The deluge system uses the Viking deluge valve
which open by the releasing of the hydraulic detection
piping network, or anytime the handle of the emergency
release valve is pulled.
7- System release
7.1 Hydraulic release
Deluge system with hydraulic release requires a hydraulic
detection piping network equipped with thermostatic (rate
of rise) releases, and/or fixed temperature releases, and/or
pilot heads. Release trim for the deluge valve requires a
fixed connection from the priming chamber of the deluge
valve to the external hydraulic detection piping network,
which is pressurized with water.
In fire condition, the activation of a releasing device on the
hydraulic detection piping network opens the deluge valve.
Water will flow into the system piping network and out of all
open type sprinklers and/or spray nozzles.
TOTALPAC®XPage 1of 8
Integrated Fire Protection System
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Mechanical Section - Deluge System -Hydraulic Release
FM-076G-0-58A
1- Installation, operation & maintenance
instructions
Note: Numbers indicated between brackets refer to figure 1
DETAILED SYSTEM TRIM SCHEMATICS from this section.
1.1 Installation
1. Conform to local municipal or other codes regarding
installations of fire protection systems.
2. Install the TOTALPAC®Xunit and connect the system
according to instruction manual and technical data
supplied.
IMPORTANT ! The cabinet must be firmly anchored to the
floor using all four (4) anchoring holes (see section G
CABINET).
Note: The drain collector shall be connected to an open
drain. Do not restrict or reduce drain piping.
3. Install the system piping network and hydraulic release
piping network (pilot line) in accordance with applicable
standards.
4. Connect supervisory and alarm signals according to
electrical schematics (see section FELECTRICAL).
Note: Electrical conduit connectors shall be NEMA-4 type.
5. Perform preliminary inspection prior to put system in
service (see paragraph 1.2 of the current section).
6. Place the system in service (see paragraph 1.3 of the
current section).
7. Perform the annual inspection sequence (see
paragraph 1.8 of the current section).
8. If the system does not operate as it should, make the
necessary corrections according to manuals issued or
consult your distributor or FIREFLEX Systems Inc.
9. Make sure that building owner or a delegated
representative has received instructions regarding the
operation of the system.
WARNING ! TOTALPAC®Xunit must be installed in an area
not subject to freezing temperatures or physical damage.
1.2 Preliminary inspection before placing the system in
service
1. Open door to mechanical section.
a) Main water supply valve (D1) must be CLOSED.
b) Priming valve (B1) must be CLOSED.
c) Flow test valve (B6) and main drain valve (D3) must
be CLOSED.
d) Alarm test valve (B5) must be CLOSED.
e) Gauges (B11 and B12) should show 0 PSI (0 kPa).
f) If applicable, the shut-off valve (D4) must be OPEN.
2. OPEN the manual emergency release valve (B10) and
make sure the deluge valve (A1) is tripped.
3. Using the built-in contractor's hydrostatic test ports (see
figure 1 of this section), fill system piping network with
water and maintain pressure as per NFPA-13
requirements.
WARNING ! Do not subject the pressure gauges and
pressure transducer to hydrostatic pressure above 250 PSI
(1724 kPA). Close gauge valves before proceeding with
hydrostatic test.
4. Correct leaks if any before completing test.
5. Verify that main water supply valve (D1)is still CLOSED.
6. OPEN main drain valve (D3) to completely drain the
system piping network.
Page 2of 8TOTALPAC®X
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Integrated Fire Protection System
Mechanical Section -Deluge System -Hydraulic Release
FM-076G-0-58A
1.3 Placing the system in service
1. Verify that the main water supply valve (D1) is CLOSED.
Verify that the system has been properly drained.
2. Verify that all system piping auxiliary drain valves are
CLOSED.
3. CLOSE main drain valve (D3). Verify that the manual
emergency release valve (B10) is CLOSED.
4. OPEN priming valve (B1). Verify that the pressure
indicated at the priming pressure gauge (B11) is equal
to, or greater than the pressure indicated at the water
supply pressure gauge (B12).
5. OPEN flow test valve (B6).PARTIALLY OPEN main water
supply valve (D1).
6. When full flow develops from the flow test valve (B6),
CLOSE the flow test valve. Verify there is no flow from
drip check valve (B7) when the plunger is pushed.
7. FULLY OPEN the main water supply valve (D1).
8. Verify that the alarm test valve (B5) is CLOSED and that
all other valves are in their "normal" operating position
(see paragraph 2.1NORMAL CONDITION of the current
section).
9. Check and repair all leaks.
10. On new installation, system that has been placed out of
service, or where new equipment has been installed,
trip test the system to verify that all equipment functions
properly (see paragraph 1.7.1FULL FLOW TRIP TEST of
the current section).
11.Notify the AUTHORITY HAVING JURISDICTION, remote
station alarm monitors, and those in the affected area
that the system is in service.
Note: When a valve has been removed from service and is
subject to freezing or will be out of service for an extended
period of time, all water must be removed from the priming
chamber, trim piping, water supply piping and any other
trapped areas.
1.4 System Operation
1.4.1 In the SET condition
System water supply pressure enters the priming chamber
of the deluge valve (A1) through the priming line which
includes a normally open priming valve (B1), strainer (B2),
restricted orifice (B3) and spring loaded check valve (B4).
Water pressure is trapped in the priming chamber of the
deluge valve (A1) and the hydraulic release piping network
(pilot line) by aspring loaded check valve (B4),PORV (B9)
(pressure operated relief valve) and manual emergency
release valve (B10). The pressure in the priming chamber
holds the deluge valve clapper closed, keeping the outlet
chamber and system piping dry.
1.4.2 In a fire condition
When a releasing device operates,it releases the pressure
from the hydraulic release piping network (pilot line) and
the priming chamber of the deluge valve (A1).
Pressure from the priming chamber of the deluge
valve (A1) is released to the open drain manifold faster
than it is supplied through the restricted orifice (B3). The
deluge valve clapper opens to allow water to flow into the
piping network and alarm devices, causing water flow
alarms connected to the alarm pressure switch (C1) and
the optional water motor alarm (C2) to activate. Water will
flow from all open sprinklers/spray nozzle on the system
piping network.
When the deluge valve (A1) opens, the sensing end of the
PORV (B9) is pressurized, causing it to open. It then
continually vent the priming chamber, preventing the
closure of the deluge valve. The deluge valve can only be
reset after the system is taken out of service.
Note: If a releasing device from the hydraulic release piping
network (pilot line) operates due to mechanical damage or
malfunction, the deluge valve (A1) will open. Alarm
devices (C1 and optional C2) will operate. Water will flow
from the system piping network and flood the protected
area.
1.4.3 Manual operation
Anytime the handle of the manual emergency release
valve (B10) is triggered, pressure is released from the
priming chamber of the deluge valve (A1) causing deluge
valve to open. Water will flow into the system piping
network and alarm devices (C1 and optional C2) will
operate. The PORV (B9) will keep the deluge valve (A1)
open. Water will flow from all open sprinklers/spray nozzle
on the system piping network.
TOTALPAC®XPage 3of 8
Integrated Fire Protection System
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Mechanical Section - Deluge System -Hydraulic Release
FM-076G-0-58A
1.5 Emergency instructions
To take system out of service
WARNING ! Placing a control valve or detection system out
of service may eliminate the fire protection capabilities of
the system. Prior to proceeding, notify all local
AUTHORITIES HAVING JURISDICTION. Consideration should
be given to employ a fire patrol in the affected areas.
After a fire, verify that the fire is OUT and that placing the
system out of service has been authorized by the
appropriate local AUTHORITY HAVING JURISDICTION.
Sprinklers piping that have been subjected to a fire must
be returned to service as soon as possible. The entire
system must be inspected for damage, and repaired or
replaced as necessary.
1. CLOSE main water supply valve (D1).
2. OPEN main drain valve (D3).
Note: Electric alarms controlled by a pressure switch
installed at the ¾"-NPT (20mm) connection (C2) for a non-
interruptible alarm signal cannot be shut-off until the
deluge valve (A1) is reset or taken out of service.
3. OPEN flow test valve (B6).
4. CLOSE priming valve (B1).
5. Replace any releasing device from the hydraulic release
piping network (pilot line) that have been damaged.
6. Replace any automatic sprinkler that have opened,
been damaged or exposed to fire conditions.
7. Return the system to service as soon as possible (see
paragraph 1.6 PLACING THE SYSTEM BACK IN SERVICE
AFTER OPERATION of the current section).
8. Perform all recommended maintenance procedures
(see paragraph 1.8 MAINTENANCE in the current section).
Note: When a system has been removed from service and
is subject to freezing or will be out of service for an
extended period of time, all water must be removed from
the priming chamber, trim piping, water supply piping and
any other trapped areas.
1.6 Placing the system back in service after operation
1. Verify that the system has been properly drained. Verify
that all system piping auxiliary drain valves are CLOSED.
2. Verify that the manual emergency release valve (B10) is
CLOSED, and that the main water supply valve (D1) is
CLOSED.CLOSE main drain valve (D3).
3. OPEN priming valve (B1). Verify that the pressure
indicated at the priming pressure gauge (B11) is equal
to, or greater than the pressure indicated at the water
supply pressure gauge (B12).
4. OPEN flow test valve (B6).PARTIALLY OPEN main water
supply valve (D1).
Note: Do not open main water supply valve (D1) until
gauge (B11) shows stabilized pressure.
5. When full flow develops from the flow test valve (B6),
CLOSE the flow test valve. Verify there is no flow from
drip check valve (B7) when the plunger is pushed.
6. FULLY OPEN the main water supply valve (D1).
7. Verify that the alarm test valve (B5) is CLOSED and that
all other valves are in their "normal" operating position
(see paragraph 2.1NORMAL CONDITION of the current
section).
8. Check and repair all leaks.
9. Notify the local AUTHORITY HAVING JURISDICTION, remote
station alarm monitors, and those in the affected area
that the system is back in service.
Page 4of 8TOTALPAC®X
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Integrated Fire Protection System
Mechanical Section -Deluge System -Hydraulic Release
FM-076G-0-58A
1.7 Inspections and tests
NOTICE: The owner is responsible for maintaining the fire
protection system and devices in proper operating
condition.
It is imperative that the system be inspected and tested on
a regular basis in accordance with NFPA-25. Refer to
Inspections and Tests recommended in Viking technical
data describing individual components of the deluge
system used.
The frequency of the inspections may vary due to
contaminated or corrosive water supply or corrosive
atmospheres. For minimum maintenance and inspection
requirements, refer to NFPA-25. In addition, the
AUTHORITY HAVING JURISDICTION may have additional
maintenance, testing, and inspection requirements that
must be followed.
WARNING ! Any system maintenance that involves placing
a control valve or detection system out of service may
eliminate the fire protection capabilities of that system.
Prior to proceeding any testing, notify all local AUTHORITIES
HAVING JURISDICTION. Consideration should be given to
employment of a fire patrol in the affected areas.
1.7.1Full flow trip test
Performance of a full flow trip test is recommended
annually during warm weather. Consider coordinating this
test with operation testing of the releasing devices.
Caution !Performance of this test will cause the deluge
valve (A1) to open and the water to flow through all open
sprinklers/spray nozzle from the system piping network. If
it is not required to have water flow from the system piping
network, use the shut-off valve (if applicable) (see
paragraph 1.7.3OPERATION OF THE SHUT-OFF VALVE of the
current section).
To trip test the electric release system
1. Trip the deluge valve (A1) by performing the following
paragraph “a” or “b”.
a) Activate a releasing device according to the
manufacturer's instructions.
b) Open the door of the manual emergency release
valve(B10) and trigger the handle.
2. The deluge valve (A1) should open. Alarm devices (C1
and optional C2) should operate. Water will flow from
all open sprinklers/spray nozzle on the system piping
network.
When trip testing is complete
1. Perform steps 1 through 4of paragraph 1.5 EMERGENCY
INSTRUCTIONS to take the system out of service.
2. Perform steps of paragraph 1.6PLACING THE SYSTEM
BACK IN SERVICE AFTER OPERATION.
1.7.2 Main drain test
A main drain test shall be conducted to determine whether
there has been a change in the condition of the water
supply piping and control valves.
Test procedure
1. Record the pressure indicated by the water supply
gauge (B12).
2. If applicable, CLOSE the alarm control valve.
3. FULLY OPEN the flow test valve (B6).
4. Record residual pressure.
5. CLOSE the flow test valve (B6) slowly.
6. Record the time taken for supply water pressure to
return to the original pressure.
Note: A main drain test shall be conducted any time the
main water supply valve (D1) is closed and reopened at
the system.
1.7.3 Operation of the optional shut-off valve
Inspection of the system can be implemented without filling
the system piping network with water. The use of shut-off
valve (D4) and sight glass assembly (D5) allows to verify
the operation of the system and prevents water from
reaching the piping network.
1. CLOSE the shut-off valve (D4) to isolate the system
piping network.
2. Execute the full flow trip test (see paragraph 1.7.1 of the
current section). The deluge valve (A1) should open.
3. Using a flashlight in one of the sight glasses, verify that
water flows through the sight glass assembly (D5).
When trip testing is complete
1. Perform steps 1 through 4 of paragraph 1.5 EMERGENCY
INSTRUCTIONS to take the system out of service.
2. Perform steps of paragraph 1.6 PLACING THE SYSTEM
BACK IN SERVICE AFTER OPERATION.
TOTALPAC®XPage 5of 8
Integrated Fire Protection System
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Mechanical Section - Deluge System -Hydraulic Release
FM-076G-0-58A
1.8 Maintenance
NOTICE: The owner is responsible for maintaining the fire
protection system and devices in proper operating
condition.
The system shall be maintained in full operation condition
at all times.
All troubles or impairments shall be corrected promptly
consistent with the hazard being protected.
Refer to MAINTENANCE INSTRUCTIONS provided in Viking
Technical Data describing individual components of the
system used.
The following requirements are based upon NFPA-25.
Records
Records of inspections, tests and maintenance of the
system and its components shall be made available to the
AUTHORITY HAVING JURISDICTION upon request. Typical
records include, but are not limited to: valves inspection;
flow, drain, and pump tests, and trip test of the deluge
valves.
Acceptance test records should be retained for the life of
the system or its special components. Subsequent test
records should be retained for a period of one (1) year
after the next test. The comparison determines
deterioration of system performance or condition and the
need for further testing or maintenance.
1.8.1 Monthly
1. Inspection of gauges (water supply (B12) and priming
chamber (B11) pressure) to ensure good condition and
normal water supply pressure.
2. Control valve shall be externally inspected. The valve
inspection shall verify the following:
a) The gauges indicate that normal supply water
pressure is being maintained.
b) The valve is free of physical damage.
c) All valves are in the appropriate open or closed
position (see paragraph 2.1 of the current section).
d) There is no leakage from the alarm drains.
1.8.2 Quarterly
1. Check alarm pressure switch (C1)and optional water
motor gong (C2)by opening the alarm test valve (B5).
1.8.3 Semi-annually
1. Main water supply valve (D1) switch shall be operated
to verify the switch actuation upon movement of the
hand wheel.
2. Check alarm pressure switch (C1)and optional water
motor gong (C2)by opening the alarm test valve (B5).
3. Perform functional test of all components of the system.
1.8.4 Annually
1. Perform full flow trip test (see paragraph 1.7.1 of the
current section).
2. Record indicating the date of the last trip, tripping time
and name of the organization conducting the test shall
be maintained at a location available for review by the
AUTHORITY HAVING JURISDICTION.
3. Perform main drain test (see paragraph 1.7.2 of the
current section).
1.8.5 Every 5 years
1. Test on gauge (gauge precision required: less than 3%
of the full scale).
2. Perform test on control valve operation.
3. Deluge valve (A1) and their associated strainers, filters
and restriction orifices shall be inspected internally.
4. Perform main drain test (see paragraph 1.7.2of the
current section).
Page 6of 8TOTALPAC®X
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FM-076G-0-58A
2- Deluge system with hydraulic release
Note: Numbers indicated between brackets refer to figure 1
DETAILED SYSTEM TRIM SCHEMATICS from this section.
2.1 Normal condition
1. Valves
a) Main water supply valve (D1) is OPEN.
b) All upstream water supply valves are OPEN.
c) Priming valve (B1) is OPEN.
d) Flow test valve (B6) is CLOSED.
e) Main drain valve (D3) is CLOSED.
f) Alarm test valve (B5) is CLOSED.
g) Manual emergency release valve (B10) is CLOSED
(handle in vertical position).
h) All gauge valves are OPEN.
i) Shut-off valve (D4) is OPEN (if applicable).
2. Gauges
a) Water supply pressure (B12) shall not exceed
250 PSI (1724 kPa).
b) Priming chamber pressure (B11) should be equal to,
or higher than, water supply pressure (B12).
3. Pressure switches & settings (factory set)
a) Alarm pressure switch (C1) should activate when
pressurized higher than 5 PSI (34 kPa).
TOTALPAC®XPage 7of 8
Integrated Fire Protection System
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Mechanical Section - Deluge System -Hydraulic Release
FM-076G-0-58A
Figure 1 - Detailed system trim schematic
Typical deluge system with hydraulic release (3" (80 mm) system shown)
FM-061H-0-398A
B7
B8 A1
FIELD CONNECTION
TO OPEN DRAIN
(bottom entry)
FIELD CONNECTION
TO WATER SUPPLY
(bottom entry)
FIELD CONNECTION TO
SPRINKLER PIPING NETWORK
CONTRACTOR'S
HYDROSTATIC TEST PORT
(water supply side)
C1
B5
B13 B6
CONTRACTOR'S
HYDROSTATIC TEST PORT
(system side)
D1
B9
D3
TOTALPAC XBase
(shown without enclosure)
B10
B11
B12
B4
B2
B1
C2
B3
TO HYDRAULIC RELEASE
PIPING NETWORK
(pilot line)
Trim components
A1 Deluge valve
B1 Priming valve (N.O.)
B2 Strainer
B3 1/16" (1.6 mm) Restricted orifice
B4 Spring loaded check valve
B5 Alarm test valve (N.C.)
B6 Flow test valve (N.C.)
B7 Drip check valve (N.O.)
B8 Drain check valve
B9 PORV (pressure operated relief valve)
B10 Manual emergency release valve (N.C.) (shown in
closed position)
B11 Priming pressure water gauge & valve (N.O.)
B12 Water supply pressure gauge & valve (N.O.)
B13 Clapper check valve
C1 Alarm pressure switch (PS10-1)
C2 ¾"-NPT (20 mm) connection to optional water motor
gong (strainer to be supplied by contractor)
D1 Main water supply valve (N.O.)
D3 Main drain valve (N.C.)
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TOTALPAC®XPage 1of 2
Integrated Fire Protection System
C
Trim Options
FM-076G-0-62B
Deluge trim options
1. Shut-off valve & sight glass
The shut-off valve & sight glass option is intended to be
used for applications where testing of the system operation
without filling the sprinkler piping network is desirable and
where it is critical that all functions of the deluge system be
tested under actual discharge conditions. Examples of
such applications are freezers, ovens, museums, data
processing and other hazards where the possibility of
water leaking from the piping system is to be avoided at all
costs.
Operation of the shut-off valve
Inspection of the system can be implemented without filling
the sprinkler piping network with water.
1. CLOSE the sprinkler piping network shut-off valve (D4);
the valve is supervised on the same circuit as the main
water supply valve (D1).
2. OPEN the main drain valve (D3).
3. Simulate the operation of the system to open the deluge
valve (A1); see annual test under section B
INSPECTION AND MAINTENANCE. Using a flashlight in the
sight glasses, verify that water flows through the sight
glass assembly (D5).
4. Once tests are completed, make sure the main drain
valve (D3) is completely CLOSED.Return the system in
service as per section BPLACING THE SYSTEM BACK IN
SERVICE.
5. Fully OPEN the shut-off valve (D4). Reset the release
control panel as per section ECONTROL BUTTONS.
Figure 1 –Shut-off valve & sight glass
(system is shown without cabinet for clarity)
FM-061H-0-59B
TOTALPAC XBase
(shown without enclosure)
Point flashlight
HERE
Sight Glass
Assembly (D5)
Main Drain
Valve (D3)
Supervised main water
supply valve (D1)
Supervised Shut-off
Valve (D4)
Page 2of 2TOTALPAC®X
C
Integrated Fire Protection System
Trim Options
FM-076G-0-62B
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TOTALPAC®XPage 1of 2
Integrated Fire Protection System
E
Control Section
FM-076G-0-105A
1. Remotely supervised unit without control
panel
1.1 Product description
The TOTALPAC®Xdeluge unit is provided without control
panel. A field wiring electrical junctions box is integrated
with the cabinet for connection of pressure switches,
supervisory switches, etc. in the trim is factory wired to a
terminal strip (TBA & TBC) for contractor's field wiring (see
figure 2and the section FELECTRICAL SECTION).
1.2 Technical data
Steel enclosure: Refer to section GCABINET SECTION for
further details.
Environment (electrical section): 39°F (4°C) minimum.
AC Power
The TOTALPAC®Xunit may be provided with optional light
and/or heater. Refer to section FELECTRICAL SECTION for
contractor's field wiring to terminal strip (TBB) to determine
applicable power requirements.
Figure 1 - Typical system layout
Junctions Box
TBA, TBB & TBC
Door Lock (4) Optional Heater
FM-06HA-0-249A
Optional Light & Door Switch
Emergency Release Valve
(accessible via small door )
Typical Deluge Trim
Drain Outlet
Water Inlet
Page 2 of 2 TOTALPAC ®X
E
Integrated Fire Protection System
Control Section
FM-076G-0-105A
Figure 2 - Junctions box layout for system without control panel
All conduits are installed
by the Contractor
Refer to Electrical Section
for Wiring Diagrams.
TBA
F
NOTE : Junction box is shown with cover removed.
SYSTEM DEVICES
TBB Terminals
TBB
FM-061H-0-360A
AC POWER
120VAC, 60Hz or
220/240VAC, 50/60Hz
OPT.
TBC
TBA & Optional TBC Terminals
POWER LIMITED CIRCUITS
TOTALPAC ®X Page 1 of 2
Integrated Fire Protection System F
Electrical Section - Deluge System - Hydraulic Release
FM-076G-0-99A
1. Remotely supervised configuration
This TOTALPAC ®X unit has been provided without an
integrated control panel since all internal supervisory
devices are to be connected and supervised from a remote
Listed fire alarm control panel.
The remote alarm control panel is to be wired to the
contractor wiring junction box and terminals provided
(TBA, TBB & optional TBC) as shown in figure 1, and be
compatible with supervisory and alarm system contact
devices.
Note : No connection should be made directly in the trim
components as this would void warranty and might prevent
the normal operation of the unit.
Make sure the system will perform as required and is
tested to confirm it meets all requirements, as described in
section B MECHANICAL SECTION.
Figure 1 –Field wiring diagrams
NC
MAIN VALVE
SUPERVISORY
C
NO
NC
SHUT-OFF
VALVE
SUPERVISORY
Contacts provided for connection to the building's central Fire Alarm Panel.
OPTIONAL
LOS ANGELES OPTION
CHICAGO OPTION
NOTE:
MAIN VALVE
SUPERVISORY SWITCH
SHUT-OFF VALVE
SUPERVISORY SWITCH
EOL
EOL
EOL
1
2
3
4
TBB
LINE
NEUTRAL
GROUND
WIRING OF AC POWER SOURCE
Refer to Local Electrical Codes for wiring size.
HEATING AND
OR LIGHTING
5
6
115VAC, 60Hz
400W MAX
230VAC, 50/60Hz
400W MAX
EOL
MAIN VALVE
SUPERVISORY SWITCH
MAIN VALVE
SUPERVISORY
LOW TEMPERATURE
SENSOR LOW TEMPERATURE
EOL devices (not included) must be compatible with the Release Control Panel used.
HEATER OPTION
All devices are factory wired.
1
TBC
2
3
4
5
6
C
NO
2
3
4
5
6
7
8
9
10
11
12
WATER FLOW
ALARM
All devices are shown in their normal supervisory state.
NOTES:
Use dry contacts with power limited circuits only.
Contacts are rated:
Pressure switches: 2A, 30VDC 10A, 125/250VAC
Supervisory switches: 0.5A, 125VDC 0.25A, 250VDC 5A, 1/6HP, 125/250VAC
WATER FLOW
PRESURE SWITCH
SHUT-OFF VALVE
SUPERVISORY SWITCH
OPTIONAL
SHUT-OFF VALVE
SUPERVISORY
13
14
15
16
FM-061H-0-367A
1
TBA
Page 2of 2TOTALPAC®X
F
Integrated Fire Protection System
Electrical Section -Deluge System - Hydraulic Release
FM-076G-0-99A
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