Explosion-proof heat-actuated spot-type digital fire detector IP-101-GORELTEX1-D (IP-S-101)

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Explosion-proof heat-actuated spot-type digital fire detector IP-101-GORELTEX1-D (IP-S-101)PURPOSE AND SCOPE OF APPLICATION

Explosion-proof heat-actuated spot-type digital fire detector IP-101-GORELTEX1-D is intended for ambient temperature control at places of installation of various technological equipment (pump stations oil and gas pipelines, tank batteries, loading racks, mine workings etc.). Detectors IP-101-GORELTEX1-D perform functions of maximum heat-actuated fire detectors and generate emergency signal when ambient temperature rises above permitted value..

Explosion-proof heat-actuated spot-type digital fire detector IP-101-GORELTEX1-D structurally consists of a thermally-sensitive unit and an explosion-proof terminal box. KKVA box is applied as a terminal box, and terminal box can have 1-2 cable entries. Upon request, the detector can be equipped with a cable/pipe gland for armored cable, corrugated pipe or pipe conduit, a bracket for wall or ceiling mounting, stainless steel chain for cover.

New modification of fire detector IP-101-GORELTEX1 is designed on a base of a microcircuit of digital temperature sensor. Detector‘s operation logic is controlled by a microcontroller. Two relays with changeover contacts are provided, positions of which reflects the state of the fire detector (relay K1 - proper functioning of the sensor and relay K2 - overtemperature). The state of each detector can be additionally controlled usin two light-emitting diodes. If sensor is in good order, green LED is alight. If temperature is equal to or higher than maximum actuation temperature Tmax, overtemperature relay K2 switches and red LED lights up. This state remains until temperature drops below minimum actuation temperature Tmin.

There are two modifications of fire detectors: with power supply from DC source 12-24 V and AC source 230 V 50 Hz.

Full production cycle starting from casting molds and to ready product is performed at the explosion-proof equipment plant “ZAVOD GORELTEX” Co. Ltd. on the territory of the Russian Federation.

ADVANTAGES

- CONTROL OF PROPER OPERATION OF THE DETECTOR
Application of a microcontroller inside the detector allowed us to implement self-diagnostics function. Microcontroller automatically polls temperature sensor, and gives signal of proper operation when it receives an answer.

- ACCURACY OF MEASURED TEMPERATURE
Data exchange between a temperature sensor and a microcontroller is performed as per digital protocol. Accuracy of received data is checked using mechanism of check-sum. Probability of receipt of false data from temperature sensor and, as a consequence, faulty actuation of the detector is reduced to a minimum.

- OPTION OF INTEGRATION WITH FIRE ALARM SYSTEMS OF DIFFERENT MANUFACTURERS
Dry contacts of the relay of proper operation of the sensor and of the overtemperature relay allow integration of address marks of third-party manufacturers and integrate them with fire alarm systems that provide for interaction, in particular with proprietary digital protocols. This option allows for a significant widening of the scope of application of the detectors IP-S-101.

- OPTION OF SERIES OR PARALLEL CIRCUIT
Terminals with contact duplication enable to implement a system with either a series or a parallel circuit of the detector. Additional resistors and connecting conductors are connected to the corresponding terminals (depending on the type of the system) and are located inside explosion-proof terminal box of the detector.

EXTENDED MONITORING
Apart from a pair of relays with changeover contacts, two light-emitting diodes are provided for visual check of the state of the fire detector (green indicates correct operation of the detector, red indicates overtemperature). Presence of indication makes it possible to quickly determine the source of malfunction when several fire detectors are used in the alarm loop.

Scope of application - underground mines and pits hazardous with gas (methane), coal dust; hazardous indoor and outdoor areas in accordance with explosion protection marking, GOST 30852.13-2002 (IEC 60079-14:1996) and areas hazardous with combustible dust ignition, as per GOST IEC 61241-3-2011, dangerous production facilities of I, II, III, IV hazard classes under supervision of Rostekhnadzor and national supervisory bodies of the CU and the CIS countries.

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CONFORMITY TO STANDARDS IN RUSSIA
ГОСТ Р МЭК 60079-0-2011, ГОСТ 14254-96 (МЭК 529-89), ГОСТ 30852.0-2002 (МЭК 60079-0:1998), ГОСТ 30852.1-2002 (МЭК 60079-1:1998), ГОСТ 30852.10-2002 (МЭК 60079-11:1999), ГОСТ 30852.8-2002 (МЭК 60079-0:1998), ГОСТ 30852.20-2002, ГОСТ 24754-2013, ТР ТС 012/2011, Гл. 7.3 ПУЭ, Гл. 7.4 ПУЭ, ГОСТ Р 53325-2009
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CERTIFICATES
Маркировка взрывозащиты Marking:
1Ex db [ib] IIC T4 Gb
1Ex db e [ib] IIC T4 Gb
Mining equipment marking:
РН1/РН2
Protection:
Certificates and permits:
ЕАЭС RU C-RU.НА91.В.00189/21
ЕАЭС RU С-RU.ПБ74.В.00158/21
ЕАЭС N RU Д-RU.НВ11.В.08624/20
РОСС RU С-RU.МЮ62.В.00062/22
ГОСТ Р ИСО 9001-2015 (ISO 9001:2015)
Морской регистр по запросу (стоимость и сроки оформления СТО уточняйте у менеджера)
ТУ 3400-005-72453807-07
ТУ 26.30.50-050-72453807-2017
ТУ 4371-013-72453807-2011
KZ39VEH00005608
KZ42VEH00005748
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TECHNICAL DATA
Ambient temperature, °С:
-60…+125 (Т4/135°С)
Actuation temperature, °С:
min: 99
max: 115
Maximum switching voltage of relay contacts, V:
~ 250 (50/60 Hz)
Operating voltage, V:
12…24;
~90...265 (50/60 Hz)
Maximum current consumption, A:
0,075 ( 12 V)
0,008 (~220 V (50/60 Hz)
Maximum switching current of relay contacts, A:
5 (for ~ 220 V (50/60 Hz))
Installed capacity (during actuation) Pinst, W:
0,9 ( 12 V)
1,76 (~220 V (50/60 Hz)
Connection:
Connection to L, N, PE terminals and signal terminals of the detector, cable cross-section up to 2,5 mm2
Thread on connecting holes:
Coating:
Antistatic polymer-epoxy coating, frictionally intrinsically safe, resistant to operating environment and ionizing radiation.Color RAL 3001.
Enclosure material:
Modified corrosion-resistant aluminum-silicon alloy, resistant to salt spray and other chemical substances including hydrogen sulfide and hydrochloric acid vapors, frictionally intrinsically safe
Call point class:
D
Electric shock hazard protection class:
I
Mass, kg:
not more than 3 (depending on configuration)
Climatic version:
NF1 (upon request NF2, NF3, NF4, NF5, F1, F2, F3, F5 T1, T2, T3, T5, MU1, MU2, MU3, MU4, W2.1, W5)
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DIMENSIONS, OPTIONS, ACCESSORIES
MARKING
Stainless steel chain for cover
/CEPOCHKA
Anti-condensation coating
/AP
Ingress protection degree IP67
/IP67
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OVERALL AND MOUNTING DIMENSIONS

Извещатель пожарный тепловой точечный цифровой взрывозащищенный

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FORMATION OF MARKING
IP-101-GORELTEX1-D  -  Х  -  Х   Х  – TU 4371-013-72453807-2011








              Detector type
              Operating voltage: 6…24 V - 12DC; ~90...250 V - 220AC
              Dimension type of cable gland (max. 2 pcs.)
              Options, accessories and versions

Example: IP-101-GORELTEX1-D-220AC-KNV1N-TU 4371-013-72453807-2011

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Temperature rise speed, °С/min. Actuation time, s
minimum maximum
1 1740 2760
3 580 960
5 348 600
10 174 329
20 87 192
30 58 144
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Arrangement of contacts of the interface board (for modification /12DC)

Расположение контактов интерфейсной платы (для модификации /12DC)

Purpose of contacts of terminals of the interface board for modification 12 V DC
Contact designation Purpose
-ШС Alarm loop (minus)
Relay of proper operation of the sensor K1 NC1 Normally closed contact of the relay of proper operation of the sensor. Open (closed) if the sensor is operating properly (faulty)
COM1 Common contact of the relay of proper operation of the sensor
+V +12…24 V DC
0 0
PE Grounding
Thermostat relay K2 NC2 Normally closed contact of thermostat relay. Closed if temperature hasn‘t exceeded Tmax
COM2 Common contact of thermostat relay
NO2

Normally open contact of thermostat relay.

Closed if temperature has exceeded Т max and hasn‘t dropped below T min

 

Arrangement of contacts of the interface board for modification 220 V АC

Расположение контактов интерфейсной платы для модификации 220 В АC

Purpose of contacts of terminals of the interface board for modification 220 V АC
Contact designation Purpose
-ШС Alarm loop (minus)
Relay of proper operation of the sensor K1 NC1 Normally closed contact of the relay of proper operation of the sensor. Open (closed) if the sensor is operating properly (faulty)
COM1 Common contact of the relay of proper operation of the sensor
L Phase 220 V 50 Hz AC
N Neutral 220 V 50 Hz AC
PE Grounding
Thermostat relay K2 NC2 Normally closed contact of thermostat relay. Closed if temperature hasn‘t exceeded Tmax
COM2 Common contact of thermostat relay
NO2 Normally open contact of thermostat relay. Closed if temperature has exceeded Т max and hasn‘t dropped below T min

 

Wiring diagrams of fire detector IP-101-GORELTEX1 to FACU (FIRE ALARM CONTROL UNIT)

Схемы подключения извещателя ИП-101-ГОРЭЛТЕХ1 к ППКП

Схемы подключения извещателя ИП-101-ГОРЭЛТЕХ1 к ППКП

Elements shown on the diagram are arranged in the explosion-proof terminal box of the fire detector. The ratings are selected depending on the type of applied fire alarm control unit. The ratings of the elements for the most widespread types of FACU are shown in the table:

Purpose of the contacts of interface board terminals for modification 220 V АC
Type of FACU Parameters of the connection
Parallel circuit (closing) Series circuit (opening)
LB-07

Rd shall ensure current consumption >15 mA,
Rok = 2 kΩ,
VDok = KD522.

Rd = 11 kΩ,
Rok = 2 kΩ,
VDok = KD522.

Luch

Rd = 2.4 kΩ,
Rok = 2.4 kΩ,
VDok = KD521А.

Rd = 2.2 kΩ,
Rok = 2.4 kΩ,
VDok = KD521А.

PPK-2

Rd = 1.2 kΩ,
Rok = 3.6 kΩ,
VDok = KD521А.

Rd = 10.0 kΩ,
Rok = 3.6 kΩ,
VDok = KD521А.

Bolid Rd = 1.5 kΩ (3.0 kΩ - to determine dual actuation),
Rok = 4.7 kΩ, jumpers instead of VDok

Rd = 8.2 kΩ (4.7 kΩ - to determine dual actuation),
Rok = 4.7 kΩ, jumpers instead of VDok

Yakhont-16i

Rd = 1.8 kΩ (4.0 kΩ - to determine dual actuation),
Rok = 8.2 kΩ, jumpers instead of VDok

Не применяется
VERS

Rd = 820 Ω (1.8 kΩ - to determine dual actuation),
Rok = 7.5 kΩ, jumpers instead of VDok

Rd = 10 kΩ (4.7 kΩ - to determine dual actuation),
Rok = 7.5 kΩ, jumpers instead of VDok

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