RU42770U1 - SPRAYLESS IRRIGATOR - Google Patents

Abstract

The utility model relates to liquid spraying devices and can be used in fire fighting equipment, for example, as part of destructive fire protection systems of enterprises. The achieved result is an increase in the speed and reliability of fire protection systems, an increase in the manufacturability and tuning of the process, and the tightness of the sprinkler in the working position. The result is achieved in that in an inertia-free sprinkler including a deluge nozzle with the possibility of spraying liquid, according to the solution, the deluge nozzle on the side of the distribution pipe is equipped with a locking device representing a sleeve with a spring-loaded valve placed inside, made in the shape of a ball and resting on a glass with a central hole the latter being threaded on the outer and inner cylindrical surfaces, on the outer cylindrical surface there is a contact nut and bottom of the glass installed O-ring.

Description

The utility model relates to liquid spraying devices and can be used in fire fighting equipment, for example, as part of drain-black fire protection systems of enterprises.

Fire protection systems are characterized by a delayed response commensurate with the time of filling the system with water and creating the necessary working pressure. The use of pre-filling deluge piping systems with water requires only a horizontal layout because even a small difference in altitude leads to premature leakage of fluid through the sprinklers. Often, the difference in height in the connecting branches of pipelines is 5-10 m, which, with existing deluge irrigators, does not provide filling of pipelines with water in standby mode and, in turn, does not provide instantaneous activation of water protection, especially in conditions of high-speed development of the combustion process. Sprinkler systems are also inertial, which is associated with the time required to heat the thermal lock, which in turn involves direct contact with a high temperature source, which means additional time spent on the development and / or movement of the temperature source in the zone of direct contact with the thermal lock. Reduced inertia of fire protection systems, especially during explosive combustion processes, such as vapors of flammable liquids,

coal and wood dust, would significantly increase the level of fire safety.

A known liquid atomizer comprising a housing with a flow channel consisting of an inlet section in the form of a conical confuser, a cylindrical section and an outlet section in the form of a conical diffuser sequentially conjugated and coaxial with each other, the length of the cylindrical section is not less than its radius, and the cone angle of the diffuser forming the inlet section of the flow channel is greater than the taper angle of the confuser forming the inlet section of the flow channel. / RU Patent No. 2184619, 2002.07.10./ The known atomizer does not provide tightness when installed on a pressure-free pipe filled with fire extinguishing liquid and is limited to be used in fire protection systems, because involves pre-filling the inlet pipe with liquid, which in turn reduces the speed and reliability of fire protection.

Known sprinkler finely dispersed sprinkler containing a hollow cylindrical body provided with a water supply channel, a thermal lock connected to a valve mounted for translational movement into the water supply channel, nozzles connected to the internal cavity of the housing, characterized in that the nozzles are distributed on the outer surface of the housing several but not less than two horizontal rows and each nozzle is made with double coaxial channels for water passage and one outlet nozzle ovannym intersection of external conical bore casing and the side surface of the double coaxial channel wherein the double channel axis of the lower row are arranged at an acute angle to the axis of the cylindrical body. ./RU Patent No. 2111033, 1998.05.20./

Known sprinkler has the main disadvantage of sprinkler sprinklers - a significant inertia of the operation of the thermal lock and the inability to use when protecting, for example, from deflagration combustion of coal dust.

The closest is a nozzle for creating a blocking liquid curtain, containing a hollow body with an inlet and an outlet slit made in the form of a rectangular groove, and a clip covering the body, while the body is made in the form of a sphere on which the groove is placed, and the groove walls made in the direction of the exit of the liquid stream under the fragile to the radial plane from 2 to 5 °. / RU Patent No. 2136389, 1999.09.10./

The known atomizer does not provide tightness when installed on a non-pressure distribution pipe filled with fire extinguishing liquid, and when used in fire deluge systems, it is not effective enough, because involves pre-filling the inlet pipe with liquid, which reduces the speed and reliability of fire protection.

The problem solved by the utility model is to increase the speed and reliability of fire protection systems, to increase the manufacturability and tightness of the sprinkler in the working position. The problem is solved in that in a sprinkler of non-inertial action, including a deluge nozzle with the possibility of spraying liquid, according to the solution, the deluge nozzle on the side of the distribution pipe is equipped with a locking device representing a sleeve with a spring-loaded valve in the form of a ball resting on a glass with a central hole, while last done with

threaded on the outer and inner cylindrical surfaces and equipped with a lock nut and O-ring. Distinctive features are:

- the deluge nozzle on the side of the distribution pipe is equipped with a locking device that represents a sleeve with a spring-loaded valve inside, resting on a glass with a central hole (which ensures the tightness of the sprinkler when the inlet pipe is full and the water supply to the deluge nozzle is as close as possible, which in turn reduces inertia operation of the fire protection system, increases the manufacturability of the installation in the working position);

- the glass is threaded on the outer and inner cylindrical surfaces, (which provides the convenience of mounting the device and the ability to adjust the force of the valve spring);

- a lock nut is installed on the outer cylindrical surface of the glass (which ensures the reliability of the sleeve mounting in the set position and the necessary compression ratio of the spring with fixing the valve response value);

- an annular seal is installed at the bottom of the glass (which increases the manufacturability of the sprinkler in its working position and ensures the tightness of the device).

Thus, the claimed solution meets the criterion of "novelty." Comparison of the proposed solutions with analogues did not allow to identify in them the features that distinguish the claimed solution from the prototype, which allows us to conclude that its criterion of "inventive step".

The sprinkler is shown in the drawing in section. The sprinkler-free inertia contains a deluge nozzle 1, a sleeve 2, a spring 3 valve 4, a cup 5, with a central hole 6, a lock nut 7, an annular seal 8, a supply pipe 9 of a distribution pipe.

The device is installed and operates as follows.

In the initial state, the spring 3 presses the valve 4 to the central hole 6 to ensure tightness and to prevent leakage of fluid from the inlet pipe 9 of the distribution pipe, and the tightness of the latter in connection with the cup 5 is provided by an annular seal 8. In the event of a fire hazard and the overpressure from the main pipeline with a pressure of 4-10 atmospheres, the latter presses the valve 4 with compression of the spring 3, and the fluid flow rushes into the deluge nozzle 1, creating a water curtain sous. Since the sprinklers are installed on the distribution pipe with a height difference of up to 10 meters, the internal pressure inside the distribution pipe is not the same in height and the difference in values at the lower and upper points can reach one atmosphere. Therefore, the response level of each sprinkler is individually regulated at its own height.

When adjusting each sprinkler in case of spontaneous drainage of the fluid, the sleeve 3 compresses the spring 3 with an increase in the preload of the valve 4 until the central hole 6 is completely closed and ensures tightness. The final position of the sleeve is fixed with a lock nut 7.

In the absence of drainage from the sprinkler, the latter is adjusted by rotating the sleeve 2 in the opposite direction with expansion

springs 3, by reducing the preload of the valve 4, the appearance of fluid and the subsequent slight twisting of the sleeve 2 until the central hole 6 is completely closed. Finally, the position of the sleeve is fixed by lock nut 7. Thus, in the distribution piping system, the extinguishing liquid is always at standby at the sprinkler inlets, which ensures almost instantaneous actuation of the spray system and generally reduces the inertia of the response of the fire protection system to fractions of a second.

The sprinkler of non-inertia action provides an increase in the speed and reliability of fire protection systems, an increase in the manufacturability and adjustment of production, and the tightness of the sprinkler in the working position.

Claims (4)

1. Sprinkler without inertia, including deluge nozzle with the ability to spray liquid, characterized in that the deluge nozzle on the side of the distribution pipe is equipped with a locking device representing a sleeve with a spring-loaded valve located inside, resting on a glass with a Central hole, the latter is threaded onto external and internal cylindrical surfaces. 2. Sprinkler without inertia according to claim 1, characterized in that the valve is made in the form of a ball. 3. Sprinkler without inertia according to claim 1, characterized in that a lock nut is installed on the outer cylindrical surface of the glass. 4. Sprinkler without inertia according to claim 1, characterized in that an annular seal is installed at the bottom of the glass.