RU56823U1 - SPRINKLER IRRIGATOR - Google Patents

Abstract

The technical solution relates to fire sprinklers used in automatic fire extinguishing installations. A sprinkler sprinkler is proposed that contains a fitting, a valve, a spring arc with coaxial holes, in which a thermal lock is placed perpendicular to the axis of the outlet of the nozzle, the spring arc being mounted and secured to the valve with its apex, and its ends are held in position by a detachable mount. The detachable mount of the proposed sprinkler sprinkler is made in the form of Z-shaped rods installed in a hook with protrusions on the end of the nozzle. The sprinkler sprinkler valve has a threaded part with an outer and an adjusting nut, and the sprinkler sprinkler arc has a hole at the top to accommodate the threaded part of the valve. The proposed technical solution allows to reduce the inertia of the response of the sprinklers by reducing the shielding of the thermal lock from the environment by the elements of the locking device. The technical solution meets all the requirements of fire safety standards imposed by the State Fire Service to devices of this kind.

Description

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

Known sprinkler sprinklers, consisting of a fitting, a valve, a spring arc with hooks, a heat-sensitive element and a thrust rod, for example, according to RF patents No. 2236879, No. 45284.

The sprinkler sprinkler according to the patent of the Russian Federation No. 2236879, containing a nozzle, the outlet of which is closed by a valve pressed by means of a locking device made in the form of a spring arc with hooks at the ends and concluded between the highest point of this arc and the valve, a thrust element, is adopted as a prototype. in the coaxial holes of the arc and the thrust element there is a thermal lock, the axis of which is perpendicular to the axis of the outlet of the nozzle, and the locking device is attached to the nozzle by means of an element Entering into engagement with the hooks of the spring member, and atomizing member is a fire-extinguishing liquid flow transducer arranged in the fitting.

The disadvantage of the prototype is the shielding of the structural elements of the thermal lock, made, for example, in the form of a glass thermal bulb, which increases the inertia of the response of the sprinkler.

The objective of the proposed technical solution is to reduce the inertia of the operation of the sprinkler sprinkler by reducing the shielding of the thermal lock by structural elements.

The problem is solved in that a sprinkler sprinkler is proposed comprising a nozzle, a valve, a spring arc with coaxial holes in which a thermal lock is placed perpendicular to the axis of the nozzle outlet, and the spring arc is mounted and secured to the valve with its apex, and its ends are held in position using a detachable fastener, which is made in the form of Z-shaped rods installed in a hook with protrusions on the end of the fitting. In addition, the sprinkler valve has a threaded part with an adjusting nut, and the arc at the top has an opening to accommodate this threaded part of the valve.

It is proposed to implement a reduction of the shielding of the thermal lock from the external environment by the structural elements of the locking device by installing a spring arc, which serves as a stop element of the locking device, on the valve, on the contrary, in comparison with installing it in the prototype, namely, the apex in the center of the valve, while

is pressed against the valve due to the force transmitted to its ends from the adjusting nut installed under the arc top on the threaded part of the valve, and its ends are held in a fixed position by means of detachable fastening, for example, by means of two Z-shaped rods that are mounted in hooks with protrusions on the end of the fitting. The valve is made in the form of a stepped part having the shape of a body of revolution, and a thread with an adjusting nut is made on the thinned part of the valve. A hole is made on the top of the spring arc, into which the threaded part of the valve enters, and the top of the arc rests on the adjusting nut. At the top, the ends of the spring arc are connected to the ends of the Z-shaped rods, while the opposite ends of the rods are in hooks with protrusions made on the end surface of the fitting. At each end of the spring arc, one hole is made, which serves as nests for placement of a thermal lock, for example, a thermal bulb. The ends of the spring arc when installing a thermal lock in them are forced to move apart in opposite directions and are fixed in this position by Z-shaped rods. The amount of force required to press the valve against the outlet of the fitting is determined by the adjusting nut.

It can be seen from the foregoing that the proposed sprinkler sprinkler is distinguished by a different implementation of the thrust element, a different arrangement of the spring element and a more open location of the thermal lock for the environment, which allows us to confirm that the claimed utility model meets the criterion of "novelty". A more open location of the thermal lock allows you to complete the task, namely to reduce the inertia of the response of the sprinkler.

In more detail, the utility model is illustrated by drawings, giving a non-limiting technical solution example of the execution of the sprinkler sprinkler.

Figure 1 is a front view of a sprinkler sprinkler.

Figure 2 is a top view of a sprinkler sprinkler.

The sprinkler sprinkler shown in figures 1 and 2 contains a fitting 1 with a step valve 2 located in its outlet and having an adjusting nut 4 on the threaded part 3. In addition, there is a spring arc 5 fixed to the valve 2 by apex A, the threaded part 3 of the valve 2 is inserted into the hole 6 of the arc 5, made at the top A, and the adjusting nut 4 located on the thread is located under the top A. The ends of the arc 5 are forced apart in opposite directions and are held in a fixed position of two me Z-shaped rods 7, so that the upper parts of the ends of the arc 5 have protrusions 11 located in the grooves 12 of the rods 7, and the lower ends of the rods 7 are in

hooks with protrusions 8 made on the end of the fitting. The diluted state of the ends of the arc provides a thermal bulb 9 installed in the coaxial holes 10.

In the initial state (standby mode of operation of the sprinkler sprinkler), the thermal bulb 9, installed in the coaxial holes 10 of the arc 5, overcomes the spring forces of the arc 5, spreads its ends in opposite directions, while they are fixed by two Z-shaped rods 7, and the protrusions 11 of the upper ends the arcs are placed in the grooves of the 12 rods, and the lower ends are engaged with the protrusions 8 located on the end surface of the fitting. The arc 5 is in tension under the influence of the bursting force created by the adjusting nut 4, which is necessary to seal the outlet in the fitting 1. The directions of the forces acting on the valve and the thermal bulb are perpendicular to each other.

When the ambient temperature rises to the response temperature of the thermoball 9, its destruction occurs, that is, the force that extends its ends ceases to act on the arc 5, as a result of which the arc 5 due to spring properties begins to bring its ends closer together and at a certain moment of their approach, the fixed position of the arc is violated 5, i.e., the Z-shaped rods 7 come out of the connection with the arc and engage with the protrusions 8. In figure 1, the dashed lines show the position of the ends of the arc 5 after the destruction of the thermal bulb 9. At the same time, the fire extinguisher its substance under pressure acts on the valve 4 and disintegrating construction previously cocked locking device, resetting them.

All mechanical parts of the proposed device are made of metal, the protrusions on the end of the fitting can be made in the form of welded metal staples. Thermal flasks can be applied foreign production, for example, from Germany.

The proposed device does not cause difficulties in practical implementation.

The technical solution meets all the requirements of fire safety standards imposed by the State Fire Service to devices of this kind.

Claims (4)

1. Sprinkler sprinkler containing a fitting, a valve, a spring arc with coaxial holes in which a thermal lock is placed perpendicular to the axis of the outlet of the nozzle, characterized in that the spring arc is mounted and secured to the valve with its apex, while its ends are held in position at using detachable mounts. 2. The sprinkler sprinkler according to claim 1, characterized in that the detachable mount is made in the form of Z-shaped rods mounted in a hook with protrusions on the end of the nozzle. 3. Sprinkler sprinkler according to claim 1, characterized in that the valve has a threaded part with an adjusting nut. 4. Sprinkler sprinkler according to claim 1, characterized in that the spring arc at the top has an opening for accommodating the threaded part of the valve.