SU1676640A1 - Power-based fire-extinguishing device - Google Patents

Abstract

The invention relates to fire extinguishing devices with a powder used to extinguish fires predominantly of gases and liquids, and can be used in the gas, oil, and chemical industries. The invention makes it possible to increase the quenching efficiency by increasing the instantaneous consumption of the powder and increasing the uniformity of its supply. The device consists of a body, a head with a siphon tube, a nozzle and a locking-starting mechanism containing a valve with a lock. New is the valve in the form of a streamlined body of rotation, for example in the form of a cylindrical rod connected to the plate in the form of a hemisphere, and its installation in the cavity of the nozzle, the ratio of the diameter of the nozzle bore to the internal diameter of the siphon tube being 1.3 -1.5: 1, the ratio of the valve disc diameter to the diameter of the orifice of the nozzle is 0.5-0.71. 1 il.

Description

The invention relates to fire fighting equipment, namely, portable powder fire extinguishers used to extinguish fires of various substances, the advantage of gases and liquids, and can be used in the gas, oil, chemical and other industries.

The purpose of the invention is to increase the efficiency by increasing the instantaneous consumption of powder and increasing the uniformity of its supply.

The drawing shows a general view of the device.

The device comprises a housing 1, a head 2 with a siphon tube 3, a nozzle 4 and a shut-off mechanism comprising a valve 5 with a latch 6. The valve 5 is made in the form of a streamlined rotation body, for example, in the form of a cylindrical rod 7 connected to the plate 8 in the form of a hemisphere It is also possible to perform another valve plate, for example, in the form of an ellipsoidal body.

At this ratio, the diameter of the nozzle through-section to the internal diameter of the siphon tube is 1.3-1.5: 1, and the ratio of the diameter of the valve disc to the diameter of the through-section of the nozzle is 0.5-0.7: 1. The diameter of the bore of the seat 9 is equal to the internal diameter of the siphon tube 3. The device head 2 also includes a locking mechanism control b, for example, a pneumatic one consisting of a cylinder 10 connecting the compressed air supply line through fitting 11, sleeve 12 located in the cavity of the cylinder 10, and interacting with interferencesON XI О СЬ Јь О

The surface of the nozzle 4 and the locking balls 13 located in the cavity of the holes of the nozzle 4 and interacting with the latch 6 and the sleeve 12. It is also possible to set a pyrotechnic charge with the initiator as a mechanism to control the latch 6, however, its implementation is most preferable. The device works as follows.

I To prepare for operation, the body of the device 1 is loaded with a lightweight powder and, after that, filled with air to the working pressure. The device is brought to a working state in which the valve 5 seals the cavity of the siphon tube 3 and is fixed by the latch b, which interacts with the locking balls 13.

To actuate the powder extinguisher, head 2 is supplied with pressurized air from the compressed air supply line through fitting 11. In this case, as a result of the presence of pressure in the cavity formed by the inner surface of the cylinder 10 and the outer surface of the sleeve 12, the latter moves towards the outer cut of the nozzle 4, the locking balls 13 move radially into the groove on the inner surface of the sleeve 12, the latter moves toward the outer cut of the nozzle 4. The locking balls 13 move radially into the groove on the inner surface of the sleeve, as a result of which the torus 6 is released and moves together with the valve 5 to the outer edge of the nozzle 4 under the action of pressure in the body e device. This opens the passage of the siphon tube 3 and the fire extinguishing powder through the nozzles 4 is fed to the fire chamber.

Claims (1)

Thus, the valve in the form of a streamlined body of rotation, its placement in the nozzle cavity, as well as the ratio of the sizes of the diameters of the valve disc, the nozzle bore and the siphon tube increase the instantaneous flow of powder and increase the uniformity of its supply. Claims An apparatus for extinguishing a fire with a powder, comprising a housing, a head with a siphon tube, a nozzle mounted coaxially with the siphon tube, and a stop-trigger mechanism including a valve with a lock, having a plate in the form of a hemisphere, characterized in that in order to increase the efficiency of operation by increasing the instantaneous consumption of powder and increasing the uniformity of its supply, the valve is installed in the nozzle cavity, with JTOM the ratio of the diameter of the nozzle bore and the internal diameter of the siphon tube is Aulus 1,3- a 1.5: 1 and the ratio of the diameter of the valve disc and the diameter of the passage section of the nozzle is 0.5-0.7: 1. 0