SU608529A1 - Fire-extinguisher - Google Patents

Description

one

The invention relates to fire fighting equipment, namely to manual fire extinguishers, in which the fire extinguishing substance is ejected under the pressure of compressed gas, and can be used to extinguish a fire in mines and mines, underground buildings and structures, as well as in other branches of the national economy. real estate.

A fire extinguisher is known, in which the energy of compressed gas is used to break the casing and supply the composition to a fire extinguisher, consisting of a body equipped with a rod with a tip, a plunger and a piston with a transverse channel, at one end of which a gas cylinder is mounted and the other is a handle with a safety check and a lever, and a sheath with an fire-fighting compound. The shell is connected to the corns in such a way that the housing and the balloon are inside the shell. An incompressible brake fluid is poured into the housing chamber between the piston and the handle. When putting the fire extinguisher into action, it is necessary to take out the safety check and press the lever, and the entrance sh. Iis on the handle. The lever mixes the plunger, the tip punches the diaphragm in the neck of the cylinder, the gas communicates with the floor in the corns, and under the pressure of gas from the cylinder, the piston piston moves backwards through the ring, overflowing

channel the fluid into the heel space at a certain speed. When the sealing ring comes out of the channel into the chamber, the gas from the cylinder along the radial channels of the housing passes into the shell of the fire extinguisher, expands, destroys it and sprays the extinguishing agent 1.

The disadvantage of a known fire extinguisher is the complexity of the design due to the large number of parts and sealing places. The arrangement of the housing with the balloon inside the envelope leads to an increase in its dimensions and makes it difficult to assemble the fire extinguisher when the fire extinguisher is filled (powder). When using a known fire extinguisher as a manual thrower, one of the drawbacks is a lot of weight, which limits the charge mass. In addition, to effectively extinguish a fire, it is necessary

a uniform rupture of the shell and the dispersion of the oxygen-absorbing composition, which can be achieved with a short-term increase in pressure in the shell of the fire extinguisher, i.e., an imitation of an explosion. Rise time at

shell depends on the diameter of the gas outlet. In the famous fire extinguisher, this hole is quite small. Increasing the hole to the required dimensions of this fire extinguisher design would have necessitated the need to seal the balloon with such a powerful membrane that it would be almost impossible to pierce it.

From the description of the work of the fire extinguisher can be seen that the gas from the cylinder into the shell passes after the sealing ring of the plunger comes out of the channel into the housing chamber. As soon as this happens, the speed of movement of the piston with the piston drops sharply, the cross section of the channel does not open completely, which leads to a decrease in the rate of increase of pressure in the shell. In addition, the tip and the collar of the plunger in front of the sealing ring will interfere with the intensive release of gas from the cylinder.

The aim of the invention is to increase the availability of work, reduce the cost of construction and reduce the weight of the fire extinguisher.

This is achieved by the fact that the fire extinguisher, including a cylinder with an extinguishing composition, a container for compressed gas mounted on the neck of the cylinder, has a thermal lock mounted on the neck of the cylinder, and a container for compressed gas is mounted outside the cylinder, contains a membrane and a cap and is connected with heat lock by means of rod with ball.

Such a technical solution makes it possible to simplify the design of a known fire extinguisher due to the fact that there is no need for a separate cylinder for the flue gas and seals in the mechanism for activating the fire extinguisher.

The drawing shows the proposed fire extinguisher, obsh, iy view.

The fire extinguisher consists of a shell 1 with a fire-fighting composition and a hollow handle 2, interconnected by a housing 3 with a heat lock. At one end of the handle 2, a valve 4 is installed to inject compressed gas, and the other end is closed by a membrane 5 installed in the housing 3, which is attached to the plug 6, which has a bevel 7. The plug 6 with the help of the ball 8, abutting the bevel 7, and the stem 9 is kinematically connected with a heat lock consisting of a lever 10 fixed on the housing 3 by an axis 11 and a thermal element 12, a safety cap 13 with a check 14 and a seal 15. On the stopper 6 made with a chamfer 7 at an angle of 4-5 ° the point of contact with the ball 8, acts force, depending on the pressure of compressed gas in UCO heel 2 and the outlet diameter. It is transmitted to the ball 8, which holds the plug 6 in the bore of the housing, and is decomposed into two components: radial and axial. The ball 8 presses against the rod 9, and the rod 9 is held against axial movement by a thermal lock. The design of the lever 10 and the safety checks 14 are designed so that if during the storage the fire extinguisher breaks down the thermal element 12, the lever 10, at the installation location of the safety checks 14, rises 2 mm and seizes the check 14 with its shoulder. 0.5 mm and the force acting on the lever increases. Burt lever and check 14 made 5 in the form of a wedge. In this scheme, it is impossible to break the safety check 14 with a destroyed thermal element 12, this ensures safety when using a fire extinguisher.

10 To recharge the fire extinguisher, it is necessary to release the compressed gas through valve 4, remove cap 13 with safety check 14, replace heat element 12 and charge handle 2 with compressed air.

15 In order to activate the fire extinguisher, it is necessary to remove the cap 13 with the safety check 14 from the heat lock and throw the fire extinguisher into the fire. Under the action of temperature, the heat element 12

0 melts, releasing the lever 10. The ball 8 under the action of the radial component of the force of the compressed gas rises up, pushes the rod 9 out of the guide and raises the lever 10. The membrane 5 is sprayed,

5 and the plug 6 with compressed gas is pushed into the sheath 1. Air from the handle 2 enters the sheath 1, destroys it and disperses the fire-fighting composition. The ball 8 falls into the socket of the guide and does not allow

0 gas is released through the thermal lock hole.

The proposed fire extinguisher is simple in design. Arrangement of body 3 with handle 2 used as a cylinder

5 for storing compressed gas, outside the shell 1 has a number of advantages: the weight of the fire extinguisher and the dimensions of the shell with the same mass of charge are reduced, and the assembly conditions are improved when the fire extinguishing powder is buried. In addition, the use of the proposed fire extinguisher will increase the effectiveness of extinguishing a fire due to the uniform rupture of the shell and the spread of the fire-fighting composition. The proposed design allows you to make

5 hole for the exit of gas with a diameter of 20 mm.

Claims (1)

Invention Formula A fire extinguisher comprising a cylinder with an extinguishing agent and a container for compressed gas mounted on the neck of the cylinder, characterized in that, in order to improve the performance of the fire extinguisher, it has a heat lock installed on the cylinder neck, and the container for compressed gas The cylinder is installed inside the cylinder and has a membrane and a plug and is connected to the heat lock by means of a rod with a ball. Information sources, taken into account in the examination 1. US patent number 3369609, cl. 169-31, 1973.