RU71253U1 - SPRINKLER IRRIGATOR - Google Patents

Abstract

A sprinkler sprinkler is proposed that contains a fitting, a thermal lock, rods with hooks, an adjustment element, characterized in that the adjustment element, made in the form of a sleeve having a passage channel and connected inside the nozzle, presses the valve to the outlet of the sleeve, in addition, the valve is installed in the spray an element having windows through which spring-loaded rods with protrusions in their middle part and having hooks at both ends pass, while the spray element occupies a fixed position between the adjusting element volume and thermal lock, which pulls the ends of the rods to the center. The fitting has a threaded part inside, into which an adjustment element is screwed, made in the form of a sleeve with an external thread. The thermal element is made of two metal plates welded by the Wood alloy, each of the plates having a bent end that is hooked by a corresponding rod, and one of the plates has holes along the periphery, according to the number of bars made and connected by earrings to the hooks of these bars. Sprinkler sprinkler earrings are made in the form of plates with bent ends in different directions. The proposed sprinkler sprinkler allows you to get a sprayed stream of OTV with a relatively small loss of kinetic energy using a socket (deflector) and using a low-shielded thermal lock.

Description

The technical solution relates to fire fighting equipment, namely to sprinkler sprinklers, spray heads and nozzles.

Known sprinkler sprinklers, consisting of a fitting, an adjusting element, a valve, rods, unshielded thermal lock according to patent GB 885421, according to RF patent No. 56823.

The sprinkler sprinkler according to the patent of the Russian Federation No. 56823, containing a fitting, a valve, a spring arc with coaxial holes in which the thermal lock is located, the arc is mounted with an apex on the valve and the ends of the arc are held by Z-shaped rods mounted in a hook with protrusions, is adopted as a prototype the fitting, in addition, the valve has a threaded part with an adjusting nut.

The disadvantage of the prototype is the implementation of the spray element in the form of a flow converter of a fire extinguishing substance located in the nozzle, which causes certain losses of the kinetic energy of the liquid and makes it difficult to obtain efficient high-pressure sprayed flows.

The objective of the proposed technical solution is to create a sprinkler sprinkler that provides high-pressure streams of atomized liquid using a socket (deflector) and using a low-shielded thermal lock.

The problem is solved in that a sprinkler sprinkler is proposed, consisting of a nozzle with an adjustment element installed in it, made in the form of a sleeve, functioning simultaneously as a passage channel for extinguishing agent (OT) during the extinguishing mode and providing the necessary pressure force of the valve that locks the outlet hole in standby mode. Installation of the adjustment element in the fitting is carried out in various ways, for example, in the form of: threaded connections, flaring, pressing, etc.

The valve is mounted on the spray element (outlet or deflector), which in standby mode of operation is located between the fitting and the thermal lock. The spraying element and the thermal lock are held in a fixed position by means of spring-loaded rods, some ends of which are fixed with a clamp in the groove on the fitting, and the other ends of the rods have hooks, with which the socket together with the valve in the quenching mode is held in the OT stream.

In the initial (standby) state, the valve is pressed against the outlet of the sleeve, the clamping force is regulated by this sleeve, screwed inward

the fitting having a threaded part inside, while the valve together with the sealing element is located on the socket, which is fixed by means of windows on the protrusions of the rods, the rods are made of spring material and in the initial state the ends of the rods are pulled together with a thermal lock made of metal plates welded by the Wood alloy. At the moment the thermal lock is triggered, it breaks down, the ends of the rods begin to diverge in opposite directions under the action of spring and under the pressure of the OTV socket, together with the valve, with the sealing element slide off the protrusions of the rods and move to their ends, where they are held by rosette windows and rod hooks directed in opposite directions from the central axis of the sprinkler.

Depending on the number of rods used, the design of the thermal lock will be different.

In the case of using two rods, the thermal lock is a rectangular plate welded together, for example, having one bent end and clinging to the hooks of the rods.

In cases where three or more rods are used, the thermal lock is a plate welded together, one of the plates having holes along the periphery according to the number of rods used, and by means of these holes and sulfur is connected to the hooks of the rods, while the earrings are made, for example, in the form of plates with multidirectional bent ends.

It can be seen from the foregoing that the proposed sprinkler sprinkler is characterized by a different spray element for the fluid flow and a different control element that serves both to ensure the passage of the OT and to adjust the degree of pressure of the valve to the outlet, which allows us to confirm that the claimed utility model meets the criterion of "novelty ". The proposed design of the sprinkler allows you to solve the problem, namely, to obtain a sprayed flux of OT with less loss of kinetic energy in comparison with the prototype.

In more detail, the utility model is illustrated by drawings, giving examples of the execution of the sprinkler sprinkler, not limiting the technical solution.

Figure 1 is a front view of a sprinkler sprinkler with two booms.

Figure 2 is a front view of a sprinkler sprinkler with three booms.

Figure 3 is a fragment of an image of a thermal lock with earrings in working condition.

Figure 4 - a fragment of the image of the thermal lock with earrings at the time of its collapse (response).

The sprinkler sprinkler shown in Fig. 1 comprises a nozzle 1 connected to an adjusting element 2, which is made, for example, in the form of a sleeve with an external thread and having a passage channel 3 for OTV, which provides the necessary clamping force by screwing into the internal threaded part of the nozzle 4 with a seal 5 to the output of the sleeve, while the valve with a seal is installed in the spray element (socket or deflector) 6, which has two windows 7 through which two spring-loaded rods 8 have, having a protrusion 9, passing through Without the window of the spraying element and having a hook 10 and 11 at both ends, the hooks 11 are located in the annular groove 12 of the nozzle 1 and are held in the groove with a clamp 13, and the hooks 10, made bent in opposite directions from the central axis of the sprinkler, are designed to fix the spray element 6 in the OTW stream, and the thermal element 14 is made of two metal plates welded by the Wood alloy, each plate having a bent end that is engaged with the corresponding rod, thus the spray element is occupied maet fixed position between the outlet passageway (regulating member 2) and a thermal lock which pulls the ends of the spring-loaded rod to the center.

In the case of using more than two rods (Fig. 2), the thermal lock is made of two plates 16 and 17 welded by the Wood alloy (see Fig. 3), and one of the plates has 18 holes along the periphery of the number of rods used (in this case, the number -3) and additionally for each hole 18, one serge 15 connecting the plate 17 with peripheral windows 18 with the corresponding hook 10 of the rod, while the earrings are made in the form of plates with multidirectional bent ends.

The sprinkler sprinkler operates as follows.

In the initial state, the thermal lock 14 by rods 8 with hooks 10 tends to bring the ends of the rods to the center, while the spray element 6 is fixed on the protrusions 9 through the windows 7 by the rods 8, the valve 4 with the seal 5 is pressed to the output of the passage channel 3 of the adjusting element 2.

At the moment of reaching the ambient temperature, the temperature of the activation of the thermal lock is destroyed (see Fig. 4), the ends of the spring-loaded rods 8 with hooks 10 and earrings 15 begin to move to the sides from the central axis of the sprinkler, the earrings come out of the hooks with the plate 17 and with the rods 8, while the spraying element 6, testing the OTV pressure, comes off together with the valve 4 and the seal 5 from the outlet of the passage channel 3 of the adjusting element 2, the protrusions 9 of the rods are displaced into the inside of the windows 7, which frees up the spraying lement

6 from fixation and it slides along the rods all the way into the hooks 10, the fluid flow, hitting the spraying element, is crushed, forming the torch OTV.

All mechanical parts of the proposed device are made of metal, the sealing element can be made of fluoroplastic, the thermal element is a purchased thermo-bulb of foreign manufacture, for example, from Germany.

The proposed device does not cause difficulties in implementation.

The technical solution meets the requirements of fire safety and the environment.

Claims (4)

1. Sprinkler sprinkler containing a fitting, a thermal lock, rods with hooks, an adjustment element, characterized in that the adjustment element, made in the form of a sleeve having a passage channel and connected inside the nozzle, presses the valve to the outlet of the sleeve, in addition, the valve is installed in a spraying element having windows through which spring-loaded rods pass with protrusions in their middle part and having hooks at both ends, while the spraying element occupies a fixed position between the adjustment element and fishing lock that pulls the ends of the rods to the center. 2. The sprinkler sprinkler according to claim 1, characterized in that the fitting has a threaded part inside, into which an adjusting element is screwed, made in the form of a sleeve with an external thread. 3. The sprinkler sprinkler according to claims 1 and 2, characterized in that the thermal element is made of two metal plates welded by the Wood alloy, each of the plates having a bent end located in the hook with a corresponding rod. 4. Sprinkler sprinkler according to claims 1 and 2, characterized in that the thermal element is made of two metal plates welded by the Wood alloy, one of the plates having holes along the periphery according to the number of rods made and connected by earrings to the hooks of these rods.