UA35106A - Dynamic drive of fire-extinguishing device - Google Patents

Abstract

The invention relates to the fire-extinguishing. The drive contains the cylindrical housing with the connection for the working medium supply. The housing is attached to the base and contains the tubular elements inside, which are positioned coaxially allowing for the limited displacement. The head part of the housing contains the tip with the injector and the valve.

Description

The invention relates to the field of fire extinguishing and can be used to extinguish ignition sources located behind a barrier or in a layer, for example, plant material in silos of elevators, in ship holds, aircraft compartments, etc.

A known device for extinguishing foci of self-ignition of feed and grain products during storage in silos

IP1), which contains a cylindrical body, with an impact piston and an anvil placed in it, the cavity of which is connected by a pipeline to the source of the working medium, and with the help of a spool to the environment.

The disadvantage of this device is the impossibility of laying a main line for the fire-extinguishing composition to cells located behind a "hard" barrier, or if the device and the barrier are separated by a gas-air, liquid layer. In addition, when laying the main line in loose materials, deviation of the device from the given trajectory of movement is possible.

The closest analogue in terms of technical significance is a device for opening and extinguishing fires (21, which contains a cylindrical body located at a distance from the barrier and fixed to the base with a nozzle for supplying the working fluid, inside which tubular elements are placed coaxially with the possibility of axial limited movement. In the main a tip with an injector and a valve is attached to the latter part.

The disadvantage of the described device is the quasi-static immersion of the tip in the loose membrane, which requires the use of high pressures of the working body and reduces its technical capabilities. In addition, the device cannot be used to lay the main line to cells located behind "hard" barriers (walls, partitions, housings, etc.).

The task of the invention is to expand the technical capabilities of the device due to the use of the kinetic energy of accelerated elements for immersion in the barrier.

The task is achieved by the fact that the known device has a forcing connection, which keeps the tubular elements in a stationary state until the maximum pressure of the working body is reached in the cavity of the cylindrical body, and the tubular elements are equipped with a fixation device in the maximally extended state. The solution to the given problem is also achieved by the fact that the ratio of the area of influence of the working body in the direction of movement in each subsequent tubular element to its mass is greater than in the previous one.

The technical essence of the proposed dynamic drive, fire extinguishing device, is explained by graphic materials, in which: Fig. 1 shows the structural diagram of the drive, Fig. 2 shows the position of adjacent elements at their maximum mutual movement.

The dynamic drive consists of a cylindrical hollow body 1 with a fitting 2 for supplying the working fluid, for example, gas under pressure. The body 1 is fixed on the base 3, and tubular elements 4 are placed inside it coaxially with the possibility of limited axial movement.

The last (central) tubular element 5 in the main part has a valve, which is a collapsible membrane b, and a striker 7, installed with the possibility of axial movement, limited by stops 8.

Another design of the valve is also possible. Behind the membrane 6, a system of holes 9 is made, which forms an injector for the exit of the fire-extinguishing composition. The tubular elements 4 and 5 in the tail part have a cylindrical neck 10 which mates with the inner diameter of the body 1 for the first tubular element and with the inner diameter of the previous tubular element for the others. An annular groove is made in the neck 10 of each tubular element, in which a cut spring ring 11 is placed, which has a beveled edge on the side of the main part of the drive. In the body 1 and tubular elements 4 in the tail part, a corresponding annular groove 12 under the ring 11 is made, also with a beveled face towards the main part.

The body 1 and the tubular elements 4 in the main part have an internal cylindrical projection 13, which mates with the outer diameter of the next tubular element. Behind the protrusion 13 towards the tail part, a cylindrical annular groove 14 is made under the ring 11. The cavity of the groove 14 is connected to the environment by radial holes 15. The spring ring 11 together with the grooves 12 form a forcing connection, which can be structurally represented in another performance Rings 11 with grooves 14 form a fixation device in the maximum extended position.

The operation of the dynamic drive is as follows. The drive elements in the initial state are in the position shown in Fig. 1. After supplying the working medium through the fitting 2 to the cavity of the housing 1, the pressure in the latter increases. When the set value is reached, due to the radial composite force, at the point of contact of the rings 11 with the beveled face of the grooves 12, the rings 11 come out of the grooves 12, and the tubular elements 4 and 5 start acceleration. Since the ratio of the area of influence of the working body in the direction of movement in each subsequent element to its mass is greater than in the previous one, the acceleration of subsequent elements occurs faster than in the previous ones. When realizing the maximum mutual movement of adjacent tubular elements, their velocities are equalized, and the kinetic energies are added up. The spring ring 11 is compressed and engages with the annular groove 14 (Fig. 2). When encountering an obstacle, the striker 7 destroys the membrane 6 and the working fluid begins to flow through the injector. The kinetic energy of the tubular elements is transformed into the energy of penetration into the barrier, for example, it sinks into the mass of plant material stored in the silo of the elevator. Next, a fire-extinguishing or cooling composition is supplied along the main line laid to the source of ignition.

Returning the drive elements to their original state is carried out as follows. The tubular elements, which are not connected to each other, are forced back into the body cavity. Those elements that are in the clutch are released by crimping through the holes 15 of the spring ring 11 and return to the cavity of the housing (the previous element). After replacing membrane 6, the dynamic drive is ready for operation again.

Thus, the proposed dynamic drive of the fire extinguishing device allows you to lay a pipeline for supplying a cooling fire extinguishing composition, the cells are located behind the barrier or in the thickness of the material at a considerable distance.

Sources of information 1. A.s. USSR Mo 1512631, MKV Ab2S31/22. 2. A.b. USSR Mo 1273125, MKV Ab2S31/22.

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Claims (1)

The dynamic drive of the fire extinguishing device, which contains a cylindrical body located at a distance from the barrier and fixed on the base with a nozzle for supplying the working fluid, inside which tubular elements are placed coaxially with the possibility of axial limited movement, in the main part of the latter a tip with an injector and a valve is fixed, which differs in that the drive is equipped with a forcing connection, which keeps the tubular elements in a stationary state until the maximum pressure of the working body is reached in the cavity of the cylindrical body, and the tubular elements are equipped with a fixation device in the maximally extended state, while the ratio of the area of influence of the working body in the direction the movement of each subsequent tubular element to its mass is greater than that of the previous one.