1.FIRE PROTECTION SYSTEMS
1.1.
FOAM BASED EXTINGUISHING SYSTEM
1.1.1.
FOAM-WATER SPRINKLER SYSTEM
A
special system that consists of a pipe connected to a source of foam
concentrate and a source of water. The system is equipped with suitable
discharge devices for discharging the extinguishing agent and for dispensing to
the area to be protected. The piping system is connected to the water supply
via a control valve, usually operated by automatic detection equipment
installed in the same areas as the sprinklers. When this valve opens, water
enters the piping system, foam concentrate is injected into the water and the
resulting foam solution that discharges through the discharge devices generates
and dispenses foam. When the amount of foam concentrate is depleted, water
flows and then continues until manual closure. The systems can be used first to
evacuate the water, then to evacuate the foam for a specified period of time,
then with water until manual closure. Existing deluge sprinkler systems that
have been converted to the use of an aqueous film forming a foam or
film-forming fluoro protein foam are classified as a water sprinkler and foam
systems.
1.1.2.
FOAM-WATER DELUGE SYSTEM
Foam
water sprinkler system using open discharge devices, connected to piping the system connected to a water supply through an open valve through a detection
system installed in the same areas as the discharge devices. When this valve
opens, water enters the piping system and discharges all discharge devices
attached to it.
1.1.3.
FOAM-WATER DRY PIPE SYSTEM
A
sprinkler system using sprinklers or automatic nozzles attached to piping the system containing pressurized air or nitrogen, the release of which (from the
opening of a sprinkler) allows the pressure to the water to open a valve called
dry pipe valve. The water then flows into the piping system and exits through
open sprinklers.
1.1.4.
FOAM-WATER PREACTION SYSTEM
Sprinkler the system using sprinklers or automatic nozzles attached to a piping system containing air under pressure or not, with an additional detection system installed in the same zone as the sprinklers. Activation of the detection the system opens a valve that allows water to flow into the sprinkler piping system and be evacuated from activated sprinklers.
1.2.
CLEAN AGENT FIRE EXTINGUISHING SYSTEM
The
benefits of a clean agent fire suppression system are the speed at which fires
are suppressed, the damage is reduced, floor space is saved and visibility is
available. It leaves no residue and does not require expensive cleaning, unlike
sprinklers and other fire protection systems. Our systems are designed to put
out a fire quickly and efficiently, allowing businesses to continue operating
with minimal disruption. Clean agent fire suppression systems are ideal for
applications ranging from telecommunications and data processing to switch
rooms, military applications and cell sites to advanced medical applications.
1.
Master Cylinder
2.
Slave Cylinder
3.
Abort Button
4.
Control Panel
5.
Warning Sign
6.
Warning Sign
7.
Siren
8. Zone 1 Detector
9.
Zone 2 Detector
10.
Piping
11.
Nozzle
12.
Pressure Switch
13.
Manifold
14.
Discharge Hose
1.2.1.
FM-200 GAS BASED FIRE EXTINGUISHING SYSTEM
•
Colorless, odorless and non-conductive
•
No Ozone layer depletion
•
Extinguishes fires mainly by physically
•
No residue to clean up after discharge
•
Suitable for occupied areas
•
Widely accepted as a substitute to Halon 1301
•
Economic
•
Discharge time: 10 seconds
Applications:
Computer rooms, electrical equipment rooms/centers, industrial areas, valued material
storages, archives, museums, telecommunication equipment rooms, oil and gas
industry, turbine cabinets.
1.2.2.
NAF 125 (HFC 125) GAS BASED FIRE EXTINGUISHING SYSTEM
•
Colorless, odorless and non-conductive
•
No Ozone layer depletion
•
Extinguishes fires mainly by physically
•
No residue to clean up after discharge
•
Suitable for occupied areas
•
Widely accepted as a substitute to Halon 1301
•
Discharge time: 10 seconds
Application:
Computer rooms, electrical equipment rooms/centers, values material warehouses,
archives, etc.
1.2.3.
INERT GAS (ARGON IG01) FIRE SUPPRESSION SYSTEM
• Natural gas present in the atmosphere
• Design in compliance with ISO 14520, NFPA
2001 and CEA 4008
• Suitable for occupied areas
• Electrically non-conductive
• No residue to clean up after discharge
• More economical and less storage space
• Zero Ozone Depletion Potential
• No greenhouse effect
• No decomposition products
Application:
Ideal for the protection of archives, computer rooms, any other electrical
installation likely to present a risk of fire.
1.3.
CO GASEOUS SUPPRESSION SYSTEM
• No Ozone layer depletion
• Extinguishes fires mainly by physically
• Local application or total flooding
application
• Not suitable for occupied areas
• Low refilling cost, locally available and
easily refilled
• Discharge time: 60 seconds
Applications:
Transformer rooms, electrical equipment rooms/centers, valued material
storages, archives, cable and installation galleries, flammable equipment
warehouse, etc.
1.4.
WATER MIST SYSTEM
•
Ecological. Does not harm the environment
•
Safe for the protection of equipment and occupied areas
•
Minimal water damage
•
Efficient for flammable liquid fires
•
Electrically non-conductive (use of dematerialized water)
•
Rapid temperature reduction
•
Economical. The minimum cost of extinguishing agent
•
Independent system or pumping equipment
Applications:
Flammable liquid fires, wet chemical and industrial fries, turbine and
generator cabins, transformer rooms, walking ladders, and escalators, valued
material warehouse, cable and installation galleries, road tunnels.
1.5.
FIRE SPRINKLER SYSTEM
For
fire protection purposes, integrated underground and overhead piping systems
designed in accordance with fire protection technical standards. The
installation comprises at least one automatic water supply supplying one or
more systems. The portion of the sprinkler system above the ground is a system
of special size or hydraulically designed piping installed in a building,
structure or area, generally in height, to which sprinklers are routinely
attached. The Eanc system has a control valve located in the riser of the
system or its supply piping. The system is usually activated by the heat of a
fire and discharges water into the fire zone.
1.5.1.
WET SPRINKLER SYSTEM
Sprinkler the system using automatic sprinklers attached to a piping system containing water
and connected to a water supply so that water is immediately discharged from
open sprinklers to the heat of a fire.
1. Control Valve
2. Wet Alarm
3. Check Valve
4. Water Supply
5. Water Motor Gong
6. Automatic Sprinkler
7. Test & Drain Valve
1.5.2.
DRY SPRINKLER SYSTEM
A
sprinkler system using automatic sprinklers attached to a piping system containing
pressurized air or nitrogen, the triggering of which (from the opening of a
sprinkler) allows the pressure of the water To open a valve called a dry pipe
valve, the water then flows into the piping system and exits through the open
sprinklers.
1.
Control Valve
2. Alarm Check Valve
3. Dry Pipe Valve
4. Check Valve
5. Water Supply
6. Water Motor Gong
7. Automatic Sprinkler 8. Test & Drain Valve
1.5.3.
PRE-ACTION SPRINKLER SYSTEM
Sprinkler the system using automatic sprinklers connected to a piping system containing air
under pressure or not, with an additional detection system installed in the
same zones as the sprinklers.
1.
Check Valve
2.
Control Valve
3.
Precaution Valve
4.
Check Valve
5.
Water Supply
6.
Water Motor Gong
7.
Sprinkler (closed)
8.
Detector
9.
Siren
10.
Manual Release Station
11.
Control Panel
12.
Test & Drain Valve
1.5.4.
DELUGE SPRINKLER SYSTEM
Sprinkler the system using open sprinklers connected to a piping system connected to a water
supply via an open valve via a detection system installed in the same zones as
the sprinklers when this valve opens, water enters the piping system and
discharges all sprinklers attached to it.
1.
Check Valve
2.
Control Valve
3.
Deluge Valve
4.
Check Valve
5.
Water Supply
6.
Water Motor Gong
7.
Sprinkler (open)
8.
Detector
9.
Siren
10.
Manual Release Station
11.
Control Panel
1.6.
KITCHEN WET CHEMICAL SYSTEM
The
wet chemical is most commonly used to extinguish cooking oil fires. This is the
main source of fire extinguishing in the kitchen. Most potassium chemical
compounds are highly corrosive and have limited uses for fire protection. A wet
chemical removes fires through a process called saponification. Saponification
is the process of chemical conversion of the fatty acid contained in the
cooking medium into soap or foam. It achieves extinction by forming a surface
coating.
1.7.
DRY CHEMICAL FIRE SUPPRESSION SYSTEM
Dry
Chemical System provides 24-hour fire protection for a wide variety of
industrial processes, equipment, and machinery and spray booths. The system has
the choice between two effective dry chemical agents on class A, B and C fires.
Total flood or local application design options. The system includes detectors,
a control unit, agent storage cylinders, hoses, and discharge nozzles.
Application:
Paints storage areas, spray paint booths, gas stations
1.8.
FIRE PUMPS
Fire
pumps are required when the local municipal water system cannot provide
sufficient pressure to meet the hydraulic design requirements of the sprinkler
system. This usually occurs when the building is very high, for example in
high-rise buildings or in systems requiring relatively high terminal pressure
at the sprinkler to provide a large volume of water, for example in storage
warehouses. Fire pumps are also required if the fire protection water supply is
provided by a ground level water storage tank.
The
fire pump starts when the pressure in the sprinkler system falls below a
threshold. The pressure of the sprinkler system drops significantly when one or
more fire sprinklers are exposed to heat above their design temperature and
open, releasing water. All pumps are designed and manufactured in accordance
with NFPA 20.
Electric:
Capacity
Range: 100 - 5000 GPM
Pressure
Range: 40 - 470 PSI
HP:
20 – 1000 HP
Diesel:
Capacity
Range: 100 - 5000 GPM
Pressure
Range: 40 - 475 PSI
BHP:
20 – 1000 HP
RPM: 1470– 3000 RPM
|
2.1.
FIRE CABINETS
2.1.1.
SURFACE MOUNTED CABINET
2.1.1.1.
MODEL S2
Model
S2 is a built-in cabinet with a separate compartment for housing a portable
fire extinguisher or similar equipment. The spool was attached to a bracket
hanging 180 ° and installed on the right side of the cabinet. This model
complies with DIN 14461. Designed and manufactured according to EN 671-1
2.1.1.2.
MODEL SYR
The
SYR model is a cabinet suitable for surface mounting. A rail unit with valve has
been installed on the right side of the cabinet. Designed and manufactured
according to EN 671-2
2.1.1.3.
MODEL HMD Swing Hose Reel
HMD
mobile reels are mounted on a hanging arm. The coil is hanged with a 180 °
slope. This hose can be extended in any direction easily without the need for a
hose rail. Designed and manufactured according to EN 671-1
2.1.1.4.
MODEL STD Fire Extinguisher Cabinet
The
STD model is surface mount type housing for housing a fire extinguisher.
2.1.1.5.
MODEL KYD with Foam Mixer
The
KYD is a single compartment surface mount cabinet with an additional 2
"firefighter valve, the retractor has been attached to a 180 ° hanging
bracket and installed to the right of the cabinet. Of this model complies with
the DIN 14461 standard.
2.1.2. RECESSED CABINET
2.1.2.1.
MODEL G22–R2T with Equipment Compartment
Model
G22-R2T is a three-compartment built-in cabinet with vertical divisions for two
portable fire extinguishers. The spool was attached to a bracket hanging 180 °
and installed on the right side of the cabinet. The valve-hose connection of
this model complies with DIN 14461. This model has been designed with special
regard to the SIP standard. Designed and manufactured according to EN 671-1
2.1.3.
OUTDOOR CABINET
2.1.3.1.
MODEL DSH
Cabinet
for Fire Fighting Equipment the GYM model is a suitable cabinet for recessed
installation. The spool was attached to a bracket hanging 180 ° and installed
on the right side of the cabinet. Designed and manufactured according to
EN671-2
2.2.
FIRE EXTINGUISHERS
2.2.1.
WATER FIRE EXTINGUISHERS
Water
is always one of the most useful fire extinguishers. It operates by its cooling
effect on fire and under the pressure of a controllable discharge extinguisher,
can penetrate and extinguish the Class A fires at depth. The fire resistance
ratings measure the effectiveness of a fire extinguisher in terms of the
maximum size of the fire that can be extinguished. BS-EN3 certified
2.2.2.
FOAM FIRE EXTINGUISHERS
Foam
extinguishers are a fast and powerful way to fight class "A" and
"B" fires. Very effective against gasoline and volatile liquids,
forming a flame-smothering seal on the surface and preventing resignation.
Ideal for multi-risk use. The fire resistance ratings measure the effectiveness
of a fire extinguisher in terms of the maximum size of the fire that can be
extinguished. Certified to BS-EN3
2.2.3.
POWDER FIRE EXTINGUISHER
Dry
powder fire extinguishers are a very versatile class A, B & C firefighting
device for most hazards. In addition to fighting against electrical hazards,
flammable liquids and gases, the powder is also effective against vehicle
fires. BS-EN3 certified
2.2.4.
CARBON DIOXIDE EXTINGUISHER
The
fire resistance ratings measure the effectiveness of a fire extinguisher in
terms of the maximum size of the fire that can be extinguished. Class B is
linked to the surface of the fire and the nominal value to the quantity of
flammable liquid in a ratio 1/3 of water, 2/3 of fuel can be extinguished in a
circular tank. Gas is safe for delicate equipment and materials. Ideal for
modern office environments, all electronic hazards, and where oils, essences,
solvents, and waxes are used. BS-EN3 certified
2.2.5.
MOBILE TROLLEY UNITS
Designed
to protect large industrial and marine hazards, mobile wheeled units can be
provided in a choice of sizes and extinguishers to meet specific risks.
-
Foam
-
Powder
-
CO2
Certified
to BS-EN1866
2.2.6.
STAINLESS STEEL FIRE EXTINGUISHERS
•
Corrosion resistant construction.
•
Simple seizes and squeezes operation.
•
Controllable discharge assures efficient use of contents and minimizes
clean-up.
•
Unique tamper evident safety pin with the OK indicator.
Certified
to BS-EN3
2.3.
FIRE HOSES
2.3.1.
SYNTEX 500
Applications
•
Municipal fire brigades
•
Shipboard
•
Industrial fire brigades
•
Refineries
•
Irrigation Construction
•
100 % high tenacity polyester yarn
•
Circular-woven twill weave, warp threads multiple twisted
•
High-quality, very light synthetic rubber on Special Options the basis of EPDM
Other
diameters Features
•
Maximum lengths up to 500 m
•
Seawater-resistant, weather-resistant
•
Individual stenciling (e. g. -Company-logo Ageing and ozone resistant or name)
•
Temperature range from –40 °C up to +100
•
All international couplings standards °C Approvals
•
Minimum friction loss because of very
•
DIN 14811: 2008 class 1/class 2 smooth inner lining
•
Germanischer Lloyd
•
Light and flexible
•
M.E.D. 96/98/EC
•
Minimum maintenance
•
BS 6391 Type 1 (white)
•
PU-coating on request
•
BS 6391 Type 2 (red coated)
2.3.2.
SYNTEX UNIDUR
Applications
•
Municipal fire brigades
•
Shipboard, marine and offshore
•
Chemical industry
•
Refineries, irrigation, agriculture
Construction
•
100 % high tenacity ¬polyester yarn, circular-woven (reinforcement)
•
Embedded in a high-quality, special synthetic rubber on the basis of
Nitrile/PVC
•
Extruded through the polyester weave
Special
Options Features
•
Maximum lengths up to 120 m
•
Absolute tough, durable and very abrasion
•
Individual stenciling (e. g. Company-logo or resistant-name)
•
Resistance to oil, petrol, and a wide range
•
All international couplings of chemicals
•
Standard color: red (others on request)
•
Temperature range from –40 °C up to Approvals+100°C
•
DIN 14811:2008 classes 3
•
Resistance to UV and ozone
•
BS 6391 Type 3
•
Low elongation and very low friction loss
•
prEN 1924 class 4
•
Excellent adhesion between rubber and
•
M.E.D. 96/98/EC textile
•
Lloyd’s Register of Shipping
•
No cleaning or drying required
•
Germanischer Lloyd
2.3.3.
SYNTEX SIGNAL
Applications
•
Municipal fire brigades
•
Shipboard
•
Industry
•
Military
Construction
•
100 % high tenacity polyester yarn yellow dyed
•
Circular-woven twill weave, warp threads multiple twisted
•
High-quality, very light synthetic rubber on the basis of EPDM
Features
•
By fluorescent signal color highly visible in darkness and smoke
Special
Options
•
Reduces the risk of accidents during operation
•
Maximum lengths up to 120 m
•
Temperature range from –40 °C up to
•
Individual stenciling (e. g. Company-logo or +100°C-name)
•
Minimum friction loss because of very
•
All international couplings standards smooth inner lining
•
Standard color: yellow (others on request)
•
Suitable for seawater, hot water, and steam Approvals
•
Aging and ozone resistant
•
DIN 14811: 2008 classes 1
•
Minimum maintenance
•
Germanischer Lloyd
2.4.
NOZZLES
2.4.1.
SPRAY NOZZLE
Infinitely
variable jet, spray, water curtain, and shut-off.
Size:
½” - 2 ½“
2.4.2.
CELLAR NOZZLE ROTATING
Universal
use for firefighting in premises, preferably for hard to reach places. The
nozzle moves forward and starts rotating automatically when in use. The
extinguishing water circulates the case body.
Size:
2"
2.4.3.
JET-SPRAY NOZZLES
Flow
equal to jet and spray with an additional rinse position without cut-off. Spray
nozzle: 1 "- 2 ½"
2.4.4.
AUTOMATIC NOZZLES
Nozzle
diameter automatically pressures regulated, no shut-off.
Automatic
Nozzle: 2” – 2 ½”
2.4.5.
BRANCH PIPES
1”
– 2 ½” 2” – 2 ½”
2.4.6.
NOZZLE TIPS
2”
– 2 ½”
2.4.7.
TERRACE
D
NOZZLE TIPS
2
½”
2.4.8.
FOAM NOZZLES
Self-priming
foam nozzles (SW / S) have a built-in foam inducer with a control valve for a
transfer rate of 0% to 6%. Foam pressure concentrate inlet automatically Storz
regulated, no stopping. 25 = D, at SW 30 / S Storz automatic nozzle: 2 "-
2 ½" 52 = C.
2.5.
SPRINKLER
Standard
Spray Sprinkler
Residential
Sprinkler
Extended
Coverage Light Hazard Sprinkler
Nozzle
& Window Sprinkler
Sprinkler
Types:
•Upright
Sprinkler
•Conventional
•Pendant
•Vertical
Sidewall
•Horizontal
Sidewall
Temperature
Ratings: 57°C, 68°C, 79°C, 93°C, 141°C, 182°C Water Working Pressure Rate: 175
Psi (12 Bars) UL Listed, FM Approved
2.6.
VALVES
2.6.1.
ALARM CHECK VALVE
Alarm
check valves used in wet pipe sprinkler systems. They mainly have a dual
purpose in that they prevent the reverse flow of water into their bodies (no
return) and also provide for the use of a hydraulic fire alarm that does not
depend on a power supply for its operation. Water Use Pressure - 175 psi (12
bars) Sizes: 3 "- 4" - 6 "- 8" UL listed, FM approved
2.6.2.
GATE VALVE
Working
Pressure:
½”
– 2” Cold Water, Non-Shock 175 lbs
UL
Listed, FM Approved
2.6.3.
GLOBE VALVE
Working
Pressure:
1½”
– 1” W.O.G., Non-Shock 175 lbs
1¼”
– 2” W.O.G., Non-Shock 200 lbs
UL
Listed, FM Approved
2.6.4.
SWING CHECK VALVE
Working
Pressure:
W.O.G.,
Non-Shock 200 lbs,
Cold
Water, Non-Shock 175 lbs
Saturated
Steam 125 lbs
Sizes
½” through 12”
2.6.5.
WAFER CHECK VALVE
Sizes
4, 6 & 8 inch
Working
Pressure: 300 Psi, Non-Shock
UL
Listed, FM Approved, ULC Listed
2.6.6.
OS&Y VALVE
Working
Pressure:
200
Psi through 400 Psi
Working
Temperature: 0.6°C to 52°C
UL
Listed, FM Approved
2.6.7.
BUTTERFLY VALVE
Working
Pressure:
175
PSI to 300 PSI
Max.
Working Temp.: 120°C
Sizes
2 ½” through 8”
UL
Listed, FM Approved
2.6.8.
BALL VALVE
Threaded
or Grooved Body Style
Sizes
1” through 2 ½”
UL
Listed, FM Approved
2.6.9.
PRESSURE RELIEF VALVE
Factory
Mutual Approved UL Listed Sizes 3”
thru 8” FM Approved Sizes 3” thru 8”
ULC Listed Sizes 2” thru 10”
2.6.10.
PRESSURE REDUCING VALVE
Globe
or Angle Pattern Grooved Ends (1 ½” – 8”) UL Listed, ULC Listed, MEA Approved
2.7.
MONITORS
2.7.1.
MANUAL MONITORS
2.7.1.1.
DECK/PORTABLE MONITOR
•The
compact folding base can be stored in any truck compartment or pre-connected in
the hose bed
•Legs
lock in folded and deployed positions
•Safety
stops at 30 degrees above horizontal
•Stainless
steel ball bearings at all rotation joints
•Liquid
filled pressure gauge •Grease fittings for lubrication
•Red
paint finish
•Dual
application-use as portable monitors or adds the top flange for deck mount use
2.7.1.2.
SINGLE WATERWAY MONITORS
•Durable,
Lightweight Aluminum Construction
•Corrosion
resistant brass construction
•Grease
fittings at each swivel joint
•Stainless
steel ball bearings at each swivel joint
•
360-degree rotation w/positive lock
•Vanes
at each elbow to reduce friction loss, improving the range of stream
2.7.1.3.
HANDWHEEL MONITOR
•Corrosion
Resistant Brass Construction
•Single
waterway low friction loss
•Full
360-degree rotation with positive twist lock
•Stainless
steel ball bearings •Red epoxy paint finish
•Vertical
travel from 90° above to 60° below horizontal
2.7.2.
WATER-POWERED OSCILLATING MONITORS
•The
monitor and body of the oscillating unit are manufactured of brass. The water
drive wheel is bronze with a bronze supply gate valve.
•UL
Listed
•Capable
of flowing foam or water
•Unique
water drive wheel design
•Arc
of oscillation adjustable via 6 set points
•Manual
overrides capabilities in both horizontal and vertical degree field
•Double
reduction of oil bath gearbox •Grease fittings and two rows of stainless steel
ball bearings at all rotation joints on the monitor
•All
brass and stainless steel construction
•The
monitor has one tiller bar control for manual control
•The
unit equipped with a garden hose test connection. This allows a functional
check of the oscillation mechanism without system flow.
2.8.
MISCELLANEOUS
2.8.1.
COUPLINGS
German
Couplings
Type
Storz
German
Couplings
Light
Alloy Type Storz,
British
Couplings
Brass
BS 336
Couplings
for
Compressed
Air
Russian
GOST
Couplings
2.8.2.
WATER MOTOR ALARM
Water
Engine Alarms are hydraulically operated internal and external alarms intended
for use with fire protection systems.
UL
Listed, FM Approved
2.8.3.
PRESSURE SWITCH
It
is designed for the detection of water flow conditions in automatic fire
sprinkler systems of particular designs, such as wet piping systems with alarm
check valves, dry pipes, gate valves anticipated or deluge. The device has a
pressure range of 4-15 psi and a nominal system pressure of 300 psi. It is UL,
ULC, CSFM, FM, LPC, NYMEA, and CE approved.
2.8.4.
VANE TYPE WATERFLOW ALARM
SWITCH
WITH REGARD
UL,
CUL, CSFM Listed, FM Approved, LPCBA Approved, CE Marked Service Pressure: 450
Psi (31 Bar)
2.8.5.
FLOWMETER
Working
Pressure:
34
bar (500 psi) for Butt Welded and Grooved Ends. 19 bar (275 psi) for ANSI 125
Flanged Ends. FM Approved
2.9.
SMOKE & HEAT DETECTORS & SIRENS
2.9.1.
SMOKE DETECTOR
The
smoke detectors sample the atmosphere every four seconds and the measurements
are processed by a microprocessor. Processing power is used as part of the
design to eliminate unwanted alarms.
2.9.2.
HEAT DETECTOR
The
heat detector monitors the temperature using a unique thermostat network that
provides a voltage output proportional to the outside air temperature.
2.9.3.
SIRENS
A
compact combination of a high-efficiency siren and beacon for areas requiring
an audible and visual indication of alarms, ideal for noisy work areas.
2.10.
FIRE TRUCK
Construction
The
superstructure is made of steel. All components of the superstructure are
assembled to an auxiliary frame. This frame is attached to the main frame by
means of a suitable attachment to avoid any adverse influence on the bodywork.
Design
In
such a way to allow maximum accessibility to all areas
Working
Deck
Covered
by anti-slip material with light alloy handrails.
Roof
Access
The
climbing ladder is attached to the rear of the vehicle to access the roof of
the vehicle. Handles are provided if necessary.
Storage
Lockers
There
are four storage bins on each side of the vehicle. The lockers are closed by
aluminum shutters. The base of the lockers is covered with aluminum plates.
Drainage holes are provided on the floor of the compartment to allow drainage
of water.
3.
SAFETY
PRODUCTS
|
3.1.
EYE & FACE
3.1.1.
EYEWEAR
Practical
and durable eye screen offering a high level of protection and comfort. Perfect
for eyeglasses. Side panels and frosted face guards reduce glare and
reflections
EC
Category PPE: Category II, Standards EN 166 169, European
Directives
89/686/EEC, Optical Class 1, F-Low energy impact
3.1.2.
FACE SHIELD
Advanced
ergonomic design with 2,784 possible positions, extended chin, and head
protection and ratchet mechanism for a secure and comfortable fit
•
AS/NZS 1337 - AS/NZS 1337,
•
EC Category PPE - EC Category PPE
•
EN 169 / EN 170 / EN166 - Standards EN 169/EN 170/EN166
3.1.3.
GOOGLE
Impact-resistant
polycarbonate lens for excellent protection against flying particles, coarse
dust, droplets, mists and aerosols EN166 - EPI category CE, EN166 standards,
optical class I, impact degrees B & F droplets liquid), 4 (resistance to
large dust particles)
3.2.
HEARING 3.2.1. EARMUFF
Noise-canceling
helmets provide workers with a total solution for hearing protection and
visibility at night and during the day.
•
29 CFR 1910.95 - OSHA Occupational Noise Exposure (US)
•
ANSI S3.19-1974 - Attenuation Test Protocol (US)
•
EN-352-1:2002 - EU Standards
3.2.2.
EARPLUG
Dual-material
design for all-day comfort, easy handling
•
29 CFR 1910.95 - OSHA Occupational Noise Exposure (US)
•
ANSI S3.19-1974 - Attenuation Test Protocol (US)
•
EN-352-1:2002 - EU Standards
3.3.
RESPIRATORY
3.3.1.
SELF CONTAINED BREATHING APPARATUS
Specially
developed for long-term maintenance operations in industrial environments,
where the atmosphere is toxic or deficient in oxygen.
•
EN 139
•
EN 142
•
EN 137
•
EN 136
•
CE0194/0060
3.3.1.1
SCBA FOR LONG DURATION OPERATION
It
can be used with a cylinder or connected to an external breathing air source.
Very comfortable and perfectly versatile, it offers the wearer complete
protection of the airways. Complies with EN137: 2006, type 2.
•
EN137:2006 Type 2
•
ISO 9001
•
Bureau VERITAS for Marine use (SOLAS, MSC, and MED)
3.3.1.2.
SCBA FOR FIRE FIGHTING AND OIL&GAS INDUSTRY
Self-contained
breathing apparatus designed for firefighting and the oil and gas industries.
It meets the requirements of the latest standard EN 137, type 2
classifications.
•
EN 137:2006 Type 2
•
CE0194/0060
•
ISO 9001
•
Bureau VERITAS for Marine use (SOLAS, MSC, and MED)
3.3.1.3.
SCBA DESIGNED FOR SHIPPING
Self-contained
breathing apparatus designed for shipping where such devices are mandatory. It
is a user-friendly device that allows safe and comfortable breathing. Complies
with the latest MED, SOLAS and EN 137, Type 2 standards.
•
EN 137:2006 Type 2
•
Bureau VERITAS for Marine use (SOLAS, MSC and new MED)
•
CE0194/0060
3.3.1.4.
SCBA FOR FIRE FIGHTING
Self-contained
breathing apparatus specially designed for fire fighting. It is very
comfortable thanks to its thermo-compressed harness. It meets the requirements
of EN 137: 2006, type 2.
•
EN137:2006 Type 2
•
CE0194/0060
•
ISO 9001
•
Bureau VERITAS for Marine use (SOLAS, MSC, and MED)
3.3.1.5.
SCBA FOR SHORT INSPECTIONS
Self-contained
breathing apparatus designed with a jacket. User-friendly and versatile, it is
ideal for short inspections in confined spaces or for maintenance operations.
Can be used to escape thanks to its autonomy of 10 to 35 mm.
•
EN 137:2006 Type 1
•
CEO194 /0060
•
ISO 9001
3.3.1.6.
MINI SCBA
Self-contained
breathing apparatus developed for short-term operations. Can be connected to an
external air source for longer interventions. Lightweight, comfortable and
designed for fast donning, it provides the end user with excellent comfort and
respiratory safety. Can also be used to escape.
•
EN 402
•
ISO 9001
3.3.2.
ESCAPE SOLUTIONS 3.3.2.1. ESCAPE HOOD
Compact
and easy-to-use exhaust hood in case of a chemical emergency. Lightweight bag
for optimal comfort in long-lasting work. Aluminum bag for safe storage.
Widescreen and highly visible color for protection and safety during
evacuation.
3.3.2.2.
EMERGENCY ESCAPE BREATHING DEVICES
Lightweight,
compact and easy to use, our emergency escape breathing devices (EEBD) are
ideally suited for applications in confined spaces, marine, industrial and
petroleum. They are available with a duration of 10 to 20 minutes.
•
CE 0194
•
EN 402
•
EN 1146
•
ISO 9001
3.3.3.
TALLY BOARD
The
use of personal meters records the firefighter at the control panel allowing
the transfer of data by radio. The data available to the firefighter is
repeated on the display of the control panel.
•
Telemetry JCDD40 • ADSU JCDD38 • Intrinsic
Safety EN 50020, EN 50014 • EMC EN 61000-4-3 EN 6100-6-2 •
Breathing Apparatus PrEN 137
3.3.4.
COMPRESSED AIR CYLINDER
Steel
and composite compressed air cylinders meet a wide range of applications,
needs, and budgets. All valves comply with EN 144-1 and 144-2 standards
3.3.5.
FRESH AIR-SUPPLY SYSTEM
Fresh
air supply systems are generally used for outdoor work, where air transport
systems are not available and there is easy access to clean air.
•
EN 138
3.3.6.
REUSABLE RESPIRATORS
3.3.6.1.
FILTERS
A
wide range of filters for particles, gases/vapors, and combined protection.
Lightweight filters and ergonomic shape for optimum comfort for long-term work.
Durable plastic housing for long life. Specific threading for increased safety.
•
EN 14387
3.3.6.2.
HALF MASKS FOR SHORT USE
Easy
to use, safe and hygienic. The large field of vision thanks to the positioning
of the low filters.
•
EN 405
3.3.6.3.
FULL FACE MASK
Comfortable
wearing and wide field of vision for long-term work. Soft silicone skirt with
ergonomic design for optimal fit.
•
EN 136
3.3.6.4.
SINGLE AND BI-FILTER HALF MASK
Increased
comfort and durable protection. Very soft and comfortable mask: silicone skirt.
Harness very comfortable for long-term work.
•
EN 140
3.4.
INSTRUMENTATION
3.4.1.
PORTABLE GAS DETECTOR
In
order to assess the extent to which humans are threatened by hazardous
substances in the ambient air or explosive mixtures of gases and vapors in the
air, appropriate measuring instruments may be used to recognize and measure the
concentrations dangerous.
•SGS
USTC Class 1 Division 1 Groups, A, B, C, D Temp code T3C (Approved to UL-913)
•SGS/USTC
Class II, Division 1, Groups E, F, G
•ATEX
(DEMKO) Ex d in LLC 170C (T3)
•ATEX
(DEMKO) Ex d in LLC 170C (T3)
3.5.
FALL PROTECTION
3.5.1.
HARNESSES
High
quality and ergonomic work harnesses for many application areas
•EN
358, EN 361, ANSI Z359.1, CSA Z259.10, AS/NZS 1891.1, LA-MARK
3.5.2.
FALL ARREST DEVICE
Fall
arrest devices are used to position workers safe when working at height.
•
i.V. m. EN 1496
3.5.3.
LANDYARD & WORK POSITION ROPE
3.5.3.1.
LANDYARD
The
lanyards may be ropes or belts and serve to directly connect the harness
catching the eye to the attachment point.
•
EN 354, EN 355
3.5.3.2.
WORK POSITION ROPE
Holding
the ropes help the user maintain a good position, which makes his work safer
but also easier.
•
EN 358, ANSI Z359.3
3.5.4.
ROPE
It
is extremely resistant to abrasion, naturally suitable for sharp edges and has
a very low slip of the sheath. This means that it can be used for many recall
operations and is very durable.
•
EN 892
3.5.5.
DESCENDER & RESCUE DEVICE
The
decanters are extremely durable and offer high performance, making them ideal
for rescue operations.
•
EN 341 Kl. A, EN 1496, ANSI Z359.4
3.5.6.
AUTOMATIC FALL ARREST BLOCKS
Automatic
fall arrest blocks are lightweight and compact while providing maximum
functional reliability and resiliency. They are a safety companion for working
at height day after day.
•
EN 360
3.6.
HYDRAULIC RESCUE DEVICE
3.6.1.
CUTTERS
Heavy-duty
blades offer a non-slip cutting action. Two mobile blades with spreading
capacity makes this mill the ideal solution for the heaviest cuts and excellent
performance in simultaneous use
•Opening
widths up to 10’’
•Cutting
force up to 248,000 lbs
•Operating
pressure 9,135 to 10,440 PSI
•High-pressure
pigtails, 20’’ long, equipped with kink protection
•Automatic
locking, flat face quick connect couplings
3.6.2.
SPREADER
Made
from a high strength but lightweight metal alloy. With high forces for
spreading, traction and compression applications.
•Spreading
widths up to 32 1/4’’
•Spreading
force up to 156,195 lbs
•Operating
pressure 9,135 to 10,440 PSI
•High-pressure
pigtails, 20’’ long, equipped with kink protection
•Automatic
locking, flat face quick connect couplings
3.6.3.
COMBINATION TOOL
A
combination of tools with exceptional performance: Extreme width and dispersion
forces, cuts with "bite" The cutting blades are replaceable.
•
Spreading width up to 18’’
•
Unique: design is based on the construction principle of a spreader
•
Operating pressure 9,135 to 10,440 PSI
•
High-pressure pigtails, 20’’ long, equipped with kink protection
3.6.4.
RESCUE RAMS
Emergency
rams are the ideal complement to spreading tools.
•
Opening widths up to 63’’ / Spreading force up to 50,400 lbs
•
Operating pressure 9,135 to 10,440 PSI
•
High-pressure pigtails, 20’’ long, equipped with kink protection
•
Automatic locking, flat face quick connect couplings
3.6.5.
PULLING CHAIN
Traction
chains can be attached directly to the tips of the spreaders without spike
exchange. The required length is easily adjusted by inserting the links of the
chain into the attached collection.
3.6.6.
MISCELLANEOUS POWER UNITS
3.6.6.1.
POWER UNITS
Power
Units with Gasoline Engine Power Units with Electric Motor Atex Certified Power
Units
3.6.6.2.
MOBILE
Gasoline
Engine
Electric
Engine
Diesel
Engine
3.6.6.3.
HAND & AIR HYDRAULICS
Compressed
Air Hydraulic Pump
•
Low weight, easy to use, very mobile
•
Low operating noise
Hand
Pump
•
Low weight, easy to use, very mobile
•
Automatic switch-over from low to high pressure for quick work
•
Flow rate low pressure: 10, 8 cm³
3.7.
GLOVES
3.7.1.
CHEMICAL
•
Gloves for Chemical Industry
•
Coated Seamless Knits
•
Cut & Sewn
•
Linemen
•
Metal Mesh
•
Seamless Knits
•
Sleeve
3.8.
PROTECTING CLOTHING
3.8.1.
REUSABLE TECHNICAL WORKWEAR
Reusable
protection suit. Gastight available with SCBA outdoors or indoors.
•
EN 943-1 A - Performance requirements for ventilated and non-ventilated
"gas tight" chemical protective suits. Type A: with breathable air
supply
•
EN 943-1 B - Performance requirements for ventilated and non-ventilated
"gas tight" chemical protective clothing. Type B: with breathable air
supply
Protection
from head to toe for the user against accidental contact with a flame, splashes
of aluminum and molten metal, convection heat, and high radiant heat.
•
EN ISO 11612: 2008 (A1-B1-C3-D3-E3-F1) - Protective clothing against heat and
flame
Designed
to protect the user against small splashes of molten metal, short-term contact
with the flame and the radiant heat of the arc.
•
EN ISO 11612: 2008 (A1-B1-C1-E2) - Protective clothing against heat and flame.
•
EN ISO 11611: 2007 (A1 - Class 1) - Protective clothing used for welding and
related technical operations.
Light
and effective, it protects against the risks of contact with fire, convective
heat, radiant heat and the risks associated with the accumulation of
electrostatic charges.
•
Category 3 PPE - European directive
•
EN 340 - Protective clothing - General requirements
•
EN 469: 2005 - Protective clothing for firefighters and firefighting
•
EN 1149-5: 2008 - Electrostatic properties. Requirements for materials and
design.
Fully held from head to toe, it protects them
user from insect bites and prevents wasp and hornet bites.
•
EN 340/2003 - General ergonomics and size requirements
3.8.2.
SINGLE USE CLOTHING
Breathable
disposable protective coveralls designed to protect against particle
contamination and chemical splashing.
•
Airborne Particulates
•
Biohazard
•
Chemical
•
Contamination
•
Splash
Disposable
protective clothing designed to protect against contamination by particles and
chemical contamination
•
Airborne Particulates
•
Biohazard
•
Chemical
•
Contamination
•
Splash
A
line of single-use waterproof protective clothing designed to protect against
chemicals.
•Airborne
Particulates
•Chemical
•Contamination
•Splash
The
range of disposable, liquid-proof protective clothing designed to protect
against chemicals.
3.8.3.
WORKWEAR
A
full range of comfortable work parkas offering protection from all types of bad
weather with waterproof seams, quilted liners, waterproof outer shells and
breathable liners
For
those who work indoors, a full range of functional, windproof and warm vests
providing comfort and protection
•89/686/EEC
- Comply with the European Directive 89/686/EEC and the EN standard 340-PPE
category
Functional
and elegant trousers suitable for all workwear styles, weathering products or
high visibility products.
•89/686/EEC
- Comply with the European Directive 89/686/EEC and the EN standard 340 - PPE
category
Ideal
waterproof and windproof parkas that will protect you in an environment not
very visible.
•European
Directive 89/686/EEC standards 471 Class 3, EC Category PPE II and EN 340
Protective Clothing General Requirements
4. MARINE SAFETY
|
4.1.
LIFE-SAVING APPLIANCES
4.1.1.
SURVIVAL SUIT
•6
hours of thermal protection
•
Insulated 5 finger gloves
•Ankle
and wrist adjustments for a snug fit
•Light
pocket
•Reflective
panels, whistle
•Non-slip
soles
•Approved
according to MED
•Complies
with the latest requirement of SOLAS'74
4.1.2.
THERMAL PROTECTIVE AID
•Thermal
protective aid with sleeves covering the whole body
•With
hood and a long zipper for easy donning
•Reflective
panels
•Metallic
inside layer to retain body heat
•Waterproof
•Approved
according to MED
•Complies
with the latest requirement of SOLAS
4.1.3.
LIFEBUOY
•Color:
orange
•Reflective
panels
•Grab
line
•Approved
according to MED
•Complies
with the latest requirement of SOLAS'74/96 and LSA Code
4.1.4.
BUOYANT CUSHION
•With
reflective panels and grab line
•Oil
resistant
•Flame
resistant
•Approved
according to MED
•Complies
with the latest requirement of SOLAS
4.1.5.
LIFE JACKET
•The
additional collar provides excellent floating position
•Color:
orange
•Buoyancy:
190 Newton
•Reflective
panels
•Whistle
•Approved
according to MED
•Complies
with the latest requirement of SOLAS
4.1.6.
MOB - LIGHT - SMOKE – SIGNALS
•Position
marking of a lifebuoy ring MOB system
•Smoke
duration: 15 min
•Light
duration: 2 hrs
•with
bracket
4.1.7.
HELICOPTER RESCUE BASKET
•MOB
rescue devise for helicopter rescue operations
•Stainless
steel basket
•Floatable
basket with 2 ethafoam cylinders, orange with reflective panels
•Bails
can be folded for compact storage
4.2.
HELICOPTER RESCUE EQUIPMENT
4.2.1.
RESCUE EQUIPMENT FOR HELICOPTER DECK
The
following rescue equipment is required for any vessel with a helicopter deck in
accordance with SOLAS II-2:
•Adjustable
wrench
•Fire
blanket
•Bolt
cutter 60 cm
•Grab/salvage
hook
•Metal
hacksaw, heavy duty, complete with 6 spare blades
•Ladder
•Wire
cutting pliers
•Set
of an assorted screwdriver
4.3.
LIFERAFTS
The
life rafts are packed in sturdy fiberglass containers mountable on deck. A
small profile container, the life raft container remains secure and resistant
to harsh marine environments
4.4.
OIL SPILL KIT
•Different
Sizes
•Stored
in GPR box
•Color:
yellow
•Watertight
•Lockable
4.5.
COMMUNICATION
4.5.1
HANDHELD MARINE RADIO
•Low
battery indicator
•Battery
save function
•Housing:
die-cast aluminum
•Resistant
to: heat, pressure, water, vibrations
4.5.2.
RADAR TRANSPORTER
•
9 GHz x-band transceiver
•
Remains in standby mode for 96 hrs
•
Waterproof up to 10 m
•
Incl. wall mounting
4.6.
EMERGENCY & SAFETY LIGHTS, SIGNALS
•Emergency
Lights for Survival Suits & Life Jackets
•Lifebuoy
Light
•Life
raft and Lifeboat Lights
•Marker
Light
•Solar
Marine Light
•Personnel
Marker Light
4.7.
RESCUE BOATS
The
MOB boat is delivered in rigid orange flame retardant GRP materials with a
capacity of 5 + 1 people. Approved according to SOLAS 1974/96, LSA code MSC 81
(70)
IMO,
Res. MSC.218 (82) and IMO Res MSC.226 (82), Part 1, Section 7 and EU Directive
96/98 / EC. The lifeboat can be straightened after capsizing by two men
4.8.
DECK EQUIPMENT
4.8.1.
EMBARKATION LADDER
The
ladder is made of a weather resistant material that guarantees greater
endurance. The aluminum clamps guarantee firm hold of the steps. By using
polyamide wedges, reinforced wooden steps can be dispensed with. Available in
different lengths.
4.8.2.
PILOT LADDER
•Manufactured
according to LSA code precepts
•Produced
in manila ropes
•DIN
ISO 799-1986
•Available
in different lengths
4.8.3.
GANGWAY NET
•Material:
Polypropylene
•Different Colors and Sizes
5.1.
FIRE DAMPER
They
are used in ventilation and acclimation systems to block the spread of fire
through air ducts.
•Stainless
Steel or Galvanized Mild Steel
•Frames
in a range of thickness from 2-10mm
•Removable
linkage
•Continuous
blade shafts
•Bearings:
Roller or ball race
•Earth
Continuity Bosses
•Lifting
Lugs
•Pre-insulated
controls enclosure
•Client
specific requirements
5.2.
FIRE AND GAS DAMPER
•Stainless
Steel or Galvanized Mild Steel
•Frames
in a range of thickness from 2-10mm
•Removable
linkage
•Continuous
blade shafts
•Bearings:
Roller or ball race
•Earth
Continuity Bosses
•Lifting
Lugs
•Pre-insulated
controls enclosure
•Client
specific requirements
5.3.
FIRE AND SMOKE DAMPER
•Frames
in a range of thickness from 2-10mm
•Removable
linkage
•Continuous
blade shafts
•Bearings:
Roller or ball race
•Earth
Continuity Bosses
•Lifting
Lugs
•Pre-insulated
controls enclosure
•Client
specific requirements
5.4.
ISOLATION DAMPER
•Continuously
welded construction
•Opposed
blade motion
•Low
casing leakage
•Low
blade leakage
•Manual,
pneumatic, or electric operation
•Wide
range of materials and controls
•Excellent
corrosion resistance
5.5.
VOLUME CONTROL AND
MODULATING
DAMPER
•Continuously
welded construction
•Opposed
blade motion
•Low
casing leakage
•Low
blade leakage
•Manual,
pneumatic, or electric operation
•Wide
range of materials and controls
•Excellent
corrosion resistance
5.6.
NON-RETURN/PRESSURE
RELIEF
DAMPER
•Continuously
welded construction
•Parallel
blade motion
•Excellent
corrosion resistance
5.7.
BLAST DAMPERS
1.
Blast Resistant Damper
Designed
for offshore and onshore oil and gas industries, the explosion-proof valve is a
rugged, robust device used as an HVAC louver on a building blast module or
wall.
2.
Blast Protection Damper
It
is a unique device that, together with an explosion-proof damper, is designed
to maintain integrity after an explosion event, but also to reduce the
overpressure to a safe level, thus protecting personnel and equipment.
5.8.
WEATHER, RAIN & SAND LOUVERS
The
baffles are well suited for air intake and exhaust applications for ventilation
and power generation, as well as for baffle coating systems. The function of
the weather protection grille is to prevent penetration of wind-thrust rain
into the ventilation system. Three deflector configurations are available with
a range of performance efficiencies for particular applications.
5.9.
CHEMICAL FILTER
BAITS
provide a full range of air purification systems and offer a full range of
services. The filter media provide continuous purification of contaminated air
in industrial and commercial environments.
Odor
and Corrosion Control Applications
•Pulp
& Paper
•Digesters
•
Incineration Plants
•Oil
& Gas Refineries
•Exhaust
Pressurization
•Garbage
Depots
•Clarifiers
•Wet
Wells
•Process
Areas
•Waste
Transfer Stations
•Emergency Safe Rooms
Thanks for your completed installation of CCTV monitoring system at our flat properly. All systems and online monitoring systems have been explained by your technician to its satisfactory working condition.
Thanks for your completed installation of CCTV monitoring system at our factory. All systems and online monitoring systems have been explained by your technician to its satisfactory working condition.
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