RU197574U1 - CABLE LOCK THERMAL - Google Patents

Abstract

The thermal cable lock serves as a trigger for the inducement system of deluge fire systems, it contains two oppositely located mechanically interconnected plates that are fixed in the ring with a screw and a glass bulb, while the plates have a hole with circular flanges at one end, both plates mating ends with flanged holes, two diametrically opposed holes are made in the ring, one of the holes is threaded and contains a screw, the other hole is made in the form of a mounting socket for accommodating flanged holes of both plates with the capillary end of the glass thermocouple located in them. 1 s.p. f-ly, 3 ill.

Description

A thermal cable lock refers to fire fighting equipment, namely to a fire alarm, and can serve as a trigger mechanism for a cable system of deluge fire installations.

Known thermally operated disconnector (RF patent No. 168756), containing two oppositely located mechanically interconnected plates, which are subjected to tensile forces and which are fixed in the ring using a sleeve with a cylindrical protrusion, a screw and a glass bulb filled with a heat-sensitive liquid, while the plate have a hole with a circular flange at one end, and both plates are mutually mated by the ends with flanged holes, the lower flange plate is installed in the sleeve, which is inserted with its cylindrical protrusion into one of the two opposite holes of the ring, and the thread for the clamping screw is made in the other hole of the ring, with the help of which the bulb is pressed against the upper plate, a pair of parallel flats (faces) are made on the sleeve, which are mated along the width of the ring and oriented along the axis of the ring, the thermally activated disconnector is taken as a prototype.

A disadvantage of the known technical solution is the complexity of the simultaneous assembly within the ring of two plates, a sleeve with a cylindrical protrusion, a glass thermoball using a clamp screw.

The objective of the proposed utility model is to simplify the assembly (increase the manufacturability of the assembly operation) of the lock.

The problem is solved in that a thermal cable lock is made, containing two oppositely located mechanically interconnected plates, which are subjected to tensile forces, and which are fixed in the ring with a screw and a glass flask filled with a heat-sensitive liquid, the plates having one end a hole with a circular flange, with both plates mutually mating with the ends of the flanged holes, two diametrically opposite holes are made in the ring, one of the holes is threaded and contains a screw that regulates the degree of clamping of the plates, according to a utility model, the other hole is made in the form of a mounting slot for placing in it flanged holes of both plates with the capillary end of the glass thermocouple located in them, while the profile of the socket corresponds to the profile of the flanged hole of the plate.

The ring can be made of impact-resistant plastic material by casting with embedding a threaded part in the hole intended for the screw.

In more detail, the thermally activated disconnector is explained using the drawings, giving an example of a specific implementation, but not limiting the technical solution.

FIG. 1 - thermal cable lock in isometry with carbines.

FIG. 2 - lock cable thermal front view.

FIG. 3 - sectional cable thermal lock on the left.

The lock contains two oppositely located mechanically interconnected plates 1 and 2, on which tensile forces of a cable motive force can act, each plate contains one hole at the ends, one of the holes of each plate being flanged 3, the other hole 4 of each plate is intended for connection with a carbine 5, the flanged holes of the plates are mated and together with the capillary part 6 of the thermobox 7 are installed in the mounting socket 8 of the ring 9, the opposite bottom part of the thermobox is connected to the clamping screw 11, which is wrapped in the threaded hole 12.

The castle works as follows.

In the initial state, a tensile force acts on the plates 1 and 2, while the glass bulb 7, due to the clamping screw 11, tightened with a certain force, prevents the plates 1 and 2 from being installed in the socket 8 from opening.

When the ambient temperature rises, the glass bulb 7 filled with a thermosensitive liquid heats up and, having reached the response temperature, collapses, the plates 1 and 2 under the action of a tensile force exit the interface and diverge in opposite directions.

Based on the foregoing, it can be argued that the manufacture of a ring 9 with a profiled seating nest 8 for flanged holes 3 of the plates placed in these holes of the capillary part 6 of the thermoball 7 provide assembly without an additional sleeve used in the prototype, which simplifies the assembly process of the product, making the product more technological .

In this case, the ring can be obtained in a simple and technologically advanced way, for example, by injection molding of plastic.

Claims (2)

1 Thermal cable lock, containing two oppositely located mechanically interconnected plates on which tensile forces act, and which are fixed in the ring by means of a screw and a glass flask filled with a heat-sensitive fluid, the plates having a hole with a circular flange at one end, moreover both plates are mutually mated by the ends with flanged holes, two diametrically opposed holes are made in the ring, one of the holes is threaded and contains a screw that regulates the degree of clamping of the plates, characterized in that the other hole is made in the form of a mounting slot for accommodating flanged holes of both plates with the capillary end of the glass thermocouple located in them, while the profile of the socket corresponds to the profile of the flanged hole of the plate. 2 Thermal cable lock according to claim 1, characterized in that the ring is made of impact-resistant plastic material by casting with the execution of the embedded threaded part in the hole intended for the screw.

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