RU192849U1 - Pulse starter - Google Patents

Abstract

The utility model relates to burglar and fire alarms for automatic fire extinguishing, designed to start fire extinguishing equipment. The pulse starter comprises a housing 1, in which a spring-loaded rod 2 of non-magnetic material is mounted with a head fixed to the external end with a thermal trigger 3 made of a material with a shape memory effect, and at the inner end - by permanent magnets 4 and 5, interconnected with the same poles, under which inductance coil 6 is placed an inductor 7 in the form of a torus with a through hole for passage of permanent magnets 4 and 5 through it, connected through contacts 10 to connect tree wires. According to a utility model, an integral part is formed under the magnetic support 6 of the inductor 7, including technological cavities 8 and 9 with a contact 10 installed between them, providing a connection between the input and output ends of the connecting wires of the inductor 7 and the channel 11 for wires that communicate with the installation system fire fighting. The technological cavities 8 and 9 and the channels 11 for the wires are flush-filled with the sealant of the housing base 13. The housing base 1 is closed by a cover 14, and a protective cap 19 is fixed on its neck 17, which covers the head with a thermal release trigger 3. The technical result of the utility model is to increase reliability pulse starter during operation, by ensuring tightness. 6 c.p. f-ly, 2 ill.

Description

The utility model relates to burglar and fire alarms for automatic fire extinguishing, designed to start fire extinguishing equipment, and can be used to induce a fire extinguishing system when the ambient temperature rises from the value specified by the regulation.

The main purpose of the pulse starter is to drive the induction system of an automatic fire extinguishing system in the autonomous mode of continuous monitoring of the fire hazardous state of the environment in case of exceeding the ambient temperature of the set value, as well as in the manual start mode by decision of the personnel.

Automation of fire safety equipment, along with the requirements for energy conservation and environmental safety, takes the level of application of fire fighting equipment to a fundamentally new level. The human factor, as the source of most errors, if possible, should be replaced by perfect, modern diagnostic systems for identifying and localizing fire sources with the least energy consumption. The pulse starter, sensitively reacting to an increase in the ambient temperature background within critical values, independently generates an electrical signal to affect the fire extinguishing equipment and creates a fully autonomous electronic effective fire extinguishing system.

A device for addressing an alarm system of an autonomous fire extinguishing system (RU 2127623, class A62C37 / 00, 1999) is made in the form of permanent magnets connected by the same pole, mounted on a rod made of non-magnetic material, mounted with the possibility of kinematic interaction with an inductor installed in a magnetic circuit case. A solid-state checker is used as the final current source in the device, which during operation emits a large amount of thermal energy and, as a result of an accidental operation, can itself become a fire source. Moreover, such a device cannot be checked for operability in view of the single action of the solid-state checker of a heat battery. The thermal element is not protected from physical impact, which can lead to unauthorized operation of the device.

Closest to the claimed device is a pulse starter (RU 35724, class A62C35 / 00. 2004), comprising a housing, inside of which are placed permanent magnets connected by the same poles, mounted on a rod of non-magnetic material, mounted to interact with an inductor. The inductor is equipped with a frame and is located in the magnetic support. The pulse starter is also equipped with a fuse and a cover fixed to the frame of the inductor coaxially to the skirt mounted on the frame. The rod has a head with a through hole and is loaded towards the inductor. The fuse is located in the through hole of the rod head, and the trigger element covers the rod head and is installed in the housing with the possibility of releasing the head it covers, the frame has a skirt, and the cover is mounted on the frame of the inductor coaxially to the skirt.

However, the known device does not have sufficient explosion safety and vibration resistance due to the lack of tightness due to the fact that technological cavities and channels are formed in the housing of the pulse starter for the ability to connect contacts and lead wires. In addition, the operation of a pulse starter is designed for various objects, including moving ones, experiencing vibration, and the design of its elements is not intended for a snug fit of the starter case to a specific support, and the presence of cavities and channels does not provide reliable fixation of elements inside the case.

The problem of the utility model is the development of a pulse starter, resistant to vibration and short-term shock.

The technical result of the utility model is to increase the reliability of the pulse starter during operation, by ensuring tightness.

The posed problem and the technical result are achieved in that the pulse starter comprises a housing in which a spring-loaded rod of non-magnetic material is mounted with a thermal trigger that is mounted on the outer end of the head and is made of material with a shape memory effect, and permanent magnets on the inner end, interconnected by poles of the same name, under which an inductance coil in the form of a torus with a through hole for passage through it is placed in the magnetic support magnets connected through contacts with the connection cables. According to a utility model, an integral part is formed under the magnetic support of the inductor, including technological cavities with a contact established between them, providing a connection between the input and output ends of the connecting wires of the inductor and a channel for the wires that communicate with the fire extinguishing system. Technological cavities and channels for wires are flush-filled with sealant to the base of the housing. The base of the casing is closed by a lid, and a protective cap is fixed on its neck, which covers the head with a thermal release trigger.

As a sealant for filling the technological cavity and channels in an integral unit, a heat-resistant sealant, for example, silicone sealant, which can maintain its physical and mechanical properties at high temperatures during a fire, is predominantly used.

In the center of the base of the all-in-one assembly, a through hole is formed for charging the thermal trigger.

The cover of the base of the housing, it is advisable to perform a polymer material with stiffeners and landing slots located on the outside.

The protective cap must be made of heat-conducting material, for example, copper.

The protective cap can be mounted on a sleeve mounted on the neck of the housing.

An spark protection unit is installed in the starter housing.

The presence of an integral unit flush with the base of the housing sealant provides the entire design of the pulse starter with the necessary rigidity, which guarantees the device's resistance to single impacts lasting from 2 to 50 ms with peak acceleration up to 3 q, as well as to vibration with a frequency of 0.5 to 100 Hz with an acceleration of 1 q, which significantly increases its reliability during operation. The presence of an integral part in a pulse starter allows the use of the device, for example, in mines, on moving vehicles where there is high vibration. Filling the device cavities with sealant increases its vibration resistance, and the spark protection unit increases explosion protection.

Filling the sealant flush with the base of the housing helps to increase the vibration resistance of the joints and eliminates unintended short-circuiting of the device contacts.

The presence of a cover covering the base of the housing protects the device from mechanical damage, and the presence of stiffening ribs on the outside of the cover makes it more durable. Performing on the cover of the mounting nests, provides a tight installation of the pulse starter at the installation site.

The installation of a protective cap made of copper on the neck of the casing ensures thermal conductivity from the environment to the thermal trigger, and the cap itself protects the thermal element from mechanical damage.

A through hole formed in the center of the base of the integral unit will allow recharging the thermal element to bring the starter into operation or after its operation.

The pulse starter is illustrated by drawings, where in FIG. 1 - shows a pulse starter in the context; in FIG. 2 - view A.

The pulse starter comprises a housing 1 in the form of a cap, in which a spring-loaded rod 2 of non-magnetic material is mounted with a head fixed to the outer end with a thermal trigger 3 made of a material having a shape memory effect. Permanent magnets 4 and 5 are fixed to the inner end of the rod 2, interconnected by the same poles. Under the permanent magnets 4 and 5 in the magnetic support 6 is placed an inductor 7 in the form of a torus with a through hole for the passage of the permanent magnets 4 and 5. Under the magnetic support 6 an integral assembly is formed, including technological cavities 8 and 9, between which contact 10 is installed , providing communication between the input and output ends of the connecting wires of the inductor 7 and the channel 11 for wires 12, providing communication with the fire extinguishing installation system. Technological cavity 8 and 9 channels 11 for wires 12 are filled flush with the base of the case with silicone sealant 13 (PC - 68). The base of the housing 1 is closed by a lid 14 made of a polymer material with stiffeners 15 and landing sockets 16 located on the outside. A protective cap 19 made of copper is fixed on the neck 17 of the housing 1, on the sleeve 18, which covers the head with the thermal trigger 3. In the center of the base of the integral assembly, a through hole 20 is formed for charging the thermal trigger 3. The spark protection unit is installed in the housing (on Fig. not shown).

The pulse starter is designed for use at an ambient temperature of minus 60 to plus 100 ° C and a relative humidity of 98% at a temperature of 40 ° C. In this case, the number of verification operations is possible up to 10 times. However, charging the starter is provided exclusively by specialists.

After transportation to the installation site, check the integrity of the housing 1 and the thermal trigger 3, remove the safety pin and fix the device in the place of its installation by placing the cover 14 with the mounting sockets 16 on the support, ensuring a snug fit of the base of the housing 1 to the bearing support, reducing thereby external exposure to the device from vibration. Pulse starters are placed in a loop in parallel, up to 10 pieces can be installed. The connection is subject to the same contact "plus" with "plus", "minus" and "minus". One device protects an area of up to 25 m ² . Next, connect the wires 12 to the terminals of the fire extinguishing installation system (not shown in Fig.).

When the ambient temperature exceeds the specified values, the thermal trigger 3 activates, releasing the spring-loaded rod 2 in the housing 1, which drops down, and the magnets 4 and 5 attached to it pass through the induction coil 7 and generate a pulse in it. The pulse through the contacts 10 enters through the connecting wires to the induction system of the fire extinguishing system and / or signaling means.

The implementation of a pulse starter with a high degree of protection against vibration increases the reliability of the device during operation, and the presence of a protective cap on top of the housing and cover on the bottom reliably protects it from mechanical damage during transportation and during operation.

Currently, the pulse starter has passed industrial tests, trial operation and is preparing its mass production for use in mines, mines, oil and gas industry facilities, and for protecting the engine compartments of vehicles.

Claims (7)

1. Pulse starter, comprising a housing in which a spring-loaded rod of non-magnetic material is mounted with a head fixed to the outer end with a thermal trigger made of a material with a shape memory effect, and at the inner end - permanent magnets interconnected by the same poles, under which in the magnetic support there is an inductor in the form of a torus with a through hole for the passage of permanent magnets through it, connected through contacts with connecting wires gadgets, characterized in that under the magnetic support of the inductor there is formed an integral part that includes technological cavities with a contact established between them, providing a connection between the input and output ends of the connecting wires of the inductor, and a channel for wires that communicate with the fire extinguishing system, the cavity and channels for the wires are flush-filled with sealant, the base of the case is closed by a lid, and a cap is fixed on its neck closing the head with a thermal trigger. 2. The pulse starter according to claim 1, characterized in that a heat-resistant silicone sealant is used as a sealant. 3. The pulse starter according to claim 1, characterized in that a through hole is formed in the center of the base of the integral part. 4. The pulse starter according to claim 1, characterized in that the housing base cover is made of polymeric material with stiffeners and landing slots located on its outer side. 5. The pulse starter according to claim 1, characterized in that the protective cap is made of copper. 6. The pulse starter according to claim 1, characterized in that the protective cap is mounted on a sleeve mounted on the neck of the housing. 7. The pulse starter according to claim 1, characterized in that the spark protection unit is installed in the housing.

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