RU71551U1 - SPRINKLER IRRIGATOR - Google Patents

Abstract

A sprinkler sprinkler is proposed that includes a fitting with arches and a cowl, a thermal bulb, a locking device, and a socket. A wedge gap is made between the thermal bulb and the cowl, which is filled with the material of the cap placed in the cowl hole. In this case, the cap is pre-deformed by the force causing plastic deformation of the cap material, the yield strength of which is chosen less than the stress caused by the assembly technological force, and less than the maximum allowable load (stress) of the thermocouple, but exceeds the voltage from the working load.

The objective of the proposed technical solution is to simplify the assembly process and provide automatic fixation of the stress state of the thermoball.

The technical result, which is aimed at a technical solution, is to improve the technological indicator of the sprinkler sprinkler (labor).

Description

Sprinkler sprinkler refers to fire fighting equipment, namely fire sprinklers. This utility model allows us to simplify the process of assembling sprinkler sprinklers with a thermal bulb and thereby reduce the complexity of the assembly operation.

Modern sprinkler sprinklers made with a thermal bulb as a thermal lock from companies such as Grinel (USA), Viking (USA), Minimax (Germany), YobGmbH, and ZAO Spetsavtomatika consist of three main parts : fitting with arms and fairing; thermal lock, consisting of a thermal bulb; spring disk membrane. In known constructions, a thermoball is installed between the membrane covering the outlet of the nozzle and the cowl located at the convergence of the arches, while the thermoball is under axial load, which provides the necessary clamping of the spring plate to the outlet of the nozzle.

Most often, the clamping force is set by screwing the clamping screw into a threaded hole made in the fairing (see the design of the sprinkler with a thermobolder, SD Bogoslovsky, p. 54. Sprinklers for water and foam automatic fire extinguishing installations. Training manual. Edited by N .P. Kopylova. Moscow 2002).

A sprinkler sprinkler with a thermal bulb is also known (US patent 2,085,987 dated July 6, 1937), in which the axial pressure of the flask is set using a technological device through the rod, which is placed in the through hole of the fairing, with subsequent compression of the fairing and thus fixing the position of the rod in him.

The prototype is taken sprinkler sprinkler according to US patent 2,085,987.

In the well-known sprinkler sprinkler (the term is used in the patent, an automatic sprinkler), a fitting with arches and a cowl is made; thermal lock, consisting of a thermal bulb; a locking device comprising a cover and a sealing element; a rod fixed in the through hole of the fairing; Socket mounted on the fairing.

The disadvantage of the sprinkler sprinkler selected as a prototype is that it requires a technological operation of compression (crimping) of the fairing during mechanical loading of the thermal bulb in order to fix the stress state of the thermal bulb.

The objective of the proposed technical solution is to simplify the assembly process and provide automatic fixation of the stress state of the thermoball.

The technical result, which is aimed at a technical solution, is to improve the technological indicator of the sprinkler sprinkler (labor).

The problem is solved by the proposed design of the sprinkler sprinkler, which contains a nozzle with converging arches that form in the place of convergence of the fairing, the spray outlet is mounted on the fairing and a through hole is made in it, while a wedge gap is made between the thermal bulb and the fairing, filled with a cap material placed in the hole fairing, while the cap is pre-deformed by a force that causes plastic deformation of the material of the cap, the yield strength of which is chosen Chez stress caused by assembly process force and less than the maximum allowable load (stress) termokolby but exceeds the voltage on the workload.

During the assembly operation, the force is transmitted through the cap to the thermal lock, the basis of which is a thermal bulb, which transfers the force to the locking device that closes the outlet of the fitting and incorporating a spring membrane with a sealant. In this case, the deflection of the membrane into the inside of the fitting, and at the time of removal of the process load, the spring membrane fulfills the automatic fixation of the stress state of the thermoball with an effort sufficient to ensure the tightness of the outlet opening without causing plastic deformation of the cap.

From the foregoing, it can be seen that the proposed design differs from the prototype in the different execution of the elements fixing and providing the stress state of the thermoball, necessary for the tightness of the outlet of the sprinkler sprinkler, which allows us to talk about meeting the criterion of "novelty."

In more detail, the utility model is illustrated by drawings.

Figure 1 - General view of the sprinkler sprinkler at the time of assembly.

Figure 2 - General view of the sprinkler sprinkler in the assembled state.

The sprinkler sprinkler contains a nozzle 1 with an opening 2, two temples 3, a cowl 4, a cap 5, a thermocouple 6, a spring membrane 7, a seal 8, a seal 9 from an epoxy compound, a spray outlet 10.

At the initial moment of assembly of the thermoball 6 occupies a certain position relative to the fairing 4 and the cap 5 is brought to a stop along the sliding fit.

Between the thermal bulb 6 and the fairing 4, a wedge gap with an angle V is made, filled with the material of the cap 5 during its plastic deformation, while

the spring membrane 7 is compressed and its central part is moved inside the hole 2, in addition, the yield strength of the material of the cap 5 is chosen less than the stress caused by the technological force, and less than the maximum allowable load (voltage) of the thermocouple 6, but must exceed the voltage from the working load, tested by the thermal bulb 6 during operation and providing the necessary clamping of the spring membrane 7 to the fitting 1, which allows, when removing the technological force on the cap 5, to shift somewhat spring membrane 7 in the reverse direction and to jamming of the cap 5 in the gap between the V termokolboy cowling 4 and 6.

In the final stage of the assembly, the opening of the fairing 4 is filled with an epoxy compound, which during polymerization forms a seal 9.

Sprinkler sprinkler when extinguishing works as follows. With an increase in the temperature of operation of the thermoball 6, it is destroyed, as a result, the flow of the extinguishing agent flushes the membrane 7 together with the seal 8 and the remnants of the thermoball 6, then the flow of the fire extinguishing agent, falling on the socket 10, is sprayed (sprayed) on the surface and volume to be protected.

For the implementation of the proposed device, materials and thermal flasks are widely used by companies producing irrigators.

Claims (1)

A sprinkler sprinkler containing a nozzle with arches and a cowl, a thermal bulb, a locking device, a socket, characterized in that a wedge gap is made between the thermal bulb and the cowl, filled with a cap material placed in the cowl hole, and the cap is pre-deformed by the force that causes plastic deformation of the material , the yield strength of which is chosen less than the stress caused by the assembly technological force, and less than the maximum permissible load (stress) of the thermoball, but is superior The voltage from the workload is audible.