RU45284U1 - SPRINKLER IRRIGATOR - Google Patents

Abstract

A sprinkler sprinkler is proposed comprising a nozzle with a valve located therein that closes the outlet of the nozzle and a locking device in the form of a spring-retaining thermal element holding hooks with hooks at the ends, and there is also a protrusion on the outside of the nozzle at the level of its outlet; the spring element is made in the form of two L-shaped brackets, the hooks of these brackets are bent inward and go beyond the protrusion of the fitting, and at each of the opposite ends of the brackets there is an additional window and a figured groove, the portion of the bracket after the groove is narrowed, bent outward and forced into the opposite window staples, creating a hole in which a thermal lock is vertically mounted, resting on the valve with its other end. The proposed sprinkler sprinkler allows you to stably provide high uniformity of irrigation, eliminating the possibility of freezing of structural elements during the operation of the thermal lock.

Description

Sprinklers are known for which there are designs of locking mechanisms with thermal locks discharged at the moment of operation. Such sprinklers include the selected for the prototype sprinkler sprinkler according to the patent of the Russian Federation 2236879, containing a nozzle, valve, and a locking device with a thermal lock in the form of a spring element mounted on the nozzle with hooks at the ends and, between the highest point of this spring element and the valve, a stop element ; moreover, the spring and thrust elements have coaxial holes in which there is a thermal lock, the axis of which is perpendicular to the axis of the outlet of the nozzle, while the fastening of the locking device to the nozzle is carried out by hooks of the spring element, made in the form of bent outward ends attached to the nozzle using a sleeve or protruding part fitting.

In the known device there is a drawback due to the possibility of freezing at the moment of operation of the sprinkler sprinkler of the discharged structure due to the possible non-simultaneous release of its hooks from the connection with the fitting and subsequent pressing by the flow of the extinguishing fluid of the end of the spring element, which did not manage to get out of the engagement with the fitting. Hanging leads to a distortion of the spray (spray) torch of the extinguishing fluid, which causes a deterioration in the main indicator of the quality of the irrigator - uniformity of irrigation.

The objective of the proposed technical solution is to create a sprinkler sprinkler devoid of the hang-up effect of discharged parts after operation.

The technical result that the solution is aimed at is the stable provision of a quality indicator of the irrigator — uniformity of irrigation.

The problem is solved by the proposed design of a sprinkler sprinkler containing a nozzle with a valve located therein that covers the outlet of the nozzle, and a locking device in the form of a spring-retaining thermal element holding hooks with hooks at the ends, and additionally there is a protrusion on the outside of the nozzle at the level of the outlet the spring element is made in the form of two L-shaped staples, the hooks of these staples are bent inward and go beyond the protrusion of the fitting, and at each of the opposite ends of the staples o there is a window and a figured groove, while the portion of the bracket after the groove is narrowed, bent outward and forcibly brought into the window of the opposite bracket, creating an opening in which a thermal lock is vertically mounted, resting on the valve with its other end.

The outlet of the fitting is closed by a valve, which is pressed against the fitting by means of a thermal lock, for example a thermal bulb, which transmits the clamping force from the spring clips.

When the thermal lock is activated in the proposed device, the spring element under the action of spring forces opens the ends of the brackets that are closed together and the flow of the extinguishing fluid acts on the second ends of the brackets in the direction from the outlet, freely dumping them.

From the above it can be seen that the proposed solution differs from the prototype in a different implementation of the spring element, its different engagement with the fitting and other placement of the thermal lock in it. In more detail, the utility model is illustrated by drawings. Figure 1 shows three types of sprinkler sprinkler:

view A - from the front, view B - from the side and view C - from above;

Figure 2 shows fragments of the closed ends of the L-shaped springs;

Figure 3 shows the state of the sprinkler at the time of operation.

The sprinkler sprinkler shown in FIG. 1 comprises a nozzle 1, a valve 2, a heat lock 3, two L-shaped brackets 4 having hooks 5 at the ends that engage with the protrusion 6 of the nozzle; at the opposite ends of the brackets there is one figured groove 1, a window 8, a narrowed outwardly curved section 9.

L-shaped staples 4 are interconnected by forcing the narrowed and bent out portion 9 of one staple into the window 8 of the opposite staple, creating a hole, while the opposite ends of the staples bent inward with their hooks 5, are connected to the protrusion 6 of the fitting 1. Thermal lock 3 placed vertically coaxial to the outlet of the fitting between the valve 2 and the closed ends of the brackets 4, abutting one end against the valve and the other end into the hole created by closing the brackets 4 and thereby squeezing them from the position, exerted by the dashed lines in the form of A 1. In standby mode, the spring element formed by the brackets 4 transmits the clamping force through the thermal lock 3 to the valve 2, pressing it to the outlet of the fitting 1 and thereby ensuring its tightness.

Sprinkler sprinkler works as follows.

When the thermal lock 3 is heated, it is destroyed, which causes the closed ends of the staples 4 to tear apart, which tend to return to the position shown in form A in Fig. 1 by dashed lines, while the spring element disintegrates, and its brackets 4 are discarded under different fire extinguishing agents sides of the gel drip.

All mechanical parts of the proposed device are made of metal, thermal locks are commercially available, therefore, the proposed device does not cause difficulties in practical implementation and meets the fire tactics requirements of the State Fire Service for devices of this kind.

Claims (1)

A sprinkler sprinkler containing a nozzle with a valve located therein that covers the outlet of the nozzle and a locking device in the form of a thermal element holding a spring lock with hooks at the ends, characterized in that there is additionally a protrusion on the outside of the nozzle at the level of its outlet; the spring element is made in the form of two L-shaped brackets, and the hooks of the brackets are bent inward and go beyond the protrusion of the fitting, and at each of the opposite ends of the brackets there is an additional window and a figured groove, and the portion of the bracket after the groove is narrowed, bent outward and forced into the window opposite bracket, creating a hole in which a thermal lock is vertically mounted, which rests against the valve with its other end.