SU1000037A1 - Fire extinguisher throwing apparatus - Google Patents

Description

(54) DEVICE FOR FIRE EXTINGUISHER FIELD

A device for throwing a fire extinguisher refers to a fire extinguisher. Noah technique used mainly in the mine workings.

A device for throwing a fire extinguisher is known, comprising a barrel tube with a socket, a support and means for twisting the fire extinguisher and an actuator mounted thereon for starting the propelling cartridge of the fire extinguisher 1.

The disadvantage of the device. lies in the impossibility of adjusting the range at its specified position relative to the horizon due to the constraints of mine workings.

The purpose of the invention is to control the range of methane.

This goal is achieved by the fact that in a device for throwing a fire extinguisher containing a stem pipe with a socket, a support and means for twisting the fire extinguisher and an actuator mounted on it to start the throwing cartridge of the fire extinguisher, the means for twisting the fire extinguisher is made in the form of a fire extinguisher installed in a joint pipe auger with a curvature of winding progressively increasing in the direction of the socket; the barrel tube is provided with a clamp for fixing the auger and is mounted on the support freely with the possibility of axial rotation.

FIG. 1 shows the device, general view, section; in fig. 2 is a section A-A in FIG. one.

The device has a receiver tube 1 freely rotating on it.

ten . electromagnetic inductor 2, which is driven to start the fire extinguisher throwing cartridge, ball Level protractor 3, threaded sleeve 4 with a socket-silencer 5.

15 In the barrel tube, on the side of the silencing socket, a screw 6 is inserted with a progressively increasing curvature of the winding, which is a means for twisting the fire extinguisher. In radial

20 holes in the end part of the barrel are fitted with clamping pins 7 with milled grooves for fixing and pinching the neck. The wedge-shaped heads of the clamping pins 7 are overlapped by the inner conical bore of the sleeve 4. The rotation of this sleeve leads to the radial movement of the pins 7 and to the pinching of the screw auger in the barrel tube. In the process of pointing and

A 30-shot support of the device on the soil of the NLVS is a two-legged hingedly warehouse 1-aHatoiunrtcH tripod 8. Sleeve 9, in which the stem tube is freely rotatably mounted, is a connecting element of a spring-folding tripod with a barrel tube 1. A fire extinguisher consists of a plastic cover; , flame-retardant powder P-1L type 11, delayed-action electric detonator 12, with a 15- to 20-gram overhang of high-safety explosive 13 type Uglenit, which is usually used for overhead charges and water curtains. Composition of flame-retardant powder n-lA,%: Ammonium monosubstituted phosphate Disubstituted ammonium phosphate Ammonium sulfate For extinguishing a fire extinguisher using a metal cartridge 14, a metal charge 14, a Hydrox-type flameless blasting gun, an electrothermal element 16, and a Hydrox type electrothermal element 16 and a charge of Hydrox, a charge of 15 VM, and an electrothermal element 16, and a discharger of a hydroxyl element 16 and a charge of Hydrox, an electrothermal element 16, and a charge of Hydrox 15 VM of flameless blasting cartridge type 16, and an electrothermal element 16 and a charge of a hydroxyl element 16 and a charge of a hydroxyl element 16, and a charge of 15 HP of flame-retardant type Hydrox, an electrothermal elec- 17, a loop driver 18 for charging a spring-loaded magnet (not shown) of the electromagnetic inductor 2. The device operates as follows. When a fire extinguisher arrives at the fire site and delivers fire extinguishers, the shooter inserts a slow-acting electric detonator 12 into the central channel of the fire extinguisher. Taking into account the flight speed and the average range to the hearth, use a commercially available ED-ZD electrodes (GoST-Б254-62) with a slowing interval of 1 s. The electrodynamic element 16 of the propellant, (flameless) charge, as not representing any particular danger during long-term storage and delivery, is rejected during the assembly process. The propellant cartridge is inserted all the way into the barrel of the grenade launcher and automatically snaps into place with a ball retainer. The main wires of the electric detonator 12 and the electrothermal element 16 are connected to the quick-release contacts of the electromagnetic inductor 2. A spring-loaded magnet is cocked over the loop leash 18- and fixed by means of an hook locking lever (not shown). 3 gives the barrel tube 1 a horizontal direction. In this position, the fire extinguisher and the grenade launcher are considered to be prepared for a shot. When turning the knob of the inductor, a gear latch is retracted, and The magnet, moving under the influence of a compressed spring, generates an electric pulse in the inductor coil. The electric current of the inductor through the main conductors initiates the electrothermal element 16 and the shot of the propelling cartridge 15. Under the influence of the nominal pressure of gases, which is usually 1600 -1800 kgf / cm, the accumulative stopper 17 is destroyed and the charge is depressurized. A jet after a gaseous medium drives a cartridge and a fire extinguisher along the barrel. The presence in the bore of the auger 6 with progressively increasing curvature of the winding leads in the second phase of the shot to the axial rotation of the jet-flowing gas jet. A partial redistribution of the kinetic energy of propellant gases occurs. A portion of the energy of the exhaust gases is expended on their own twisting. Equal to this part of the energy is expended on axial rotation in the opposite direction of the screw auger and the barrel bonded to it. The dynamic outflow of gases along the screw auger, like a gas brake /, additionally causes an overpressure in the bore, which in turn gives a partial increment of the speed of flight of the fire extinguisher. The axial rotation of the barrel and with it the fire extinguisher also provides additional stability and accuracy of flight. During reactive outflow of swirling gases in the zone of the silencer 5, they additionally manifest their effect on the reduction of recoil forces, since the centrifugal forces during the expansion actively act in the radial direction on the walls of the socket. Since their value is in quadratic dependence on the angular velocity, at high flow rates, the centrifugal forces reach a considerable value. One of the components of the centrifugal forces of the gaseous medium has a vector along the normal to the side surface of the silencer socket 5. Summing all the forces directed along the normal determines the reduction in recoil force of the grenade launcher. These forces tend to displace the grenade launcher in the direction of flight of the fire extinguisher. After a shot in the set out sequence with a second delayed torch when approaching 11 () zha1) ochggu or at the moment of putting the fire extinguisher on the ground channel of the fire extinguisher on the central channel, a fire extinguisher with a twenty-sixth hinge VM and produces a volley spraying the fire extinguishing powder of the fire. The effectiveness of this extinguishing method is manifested when a whole series of fire extinguishers are fired in a short time.

The height constraints of mine workings practically make it impossible to adjust the range of the fire extinguisher by changing the angle and elevation of the barrel tube. Therefore, shooting is carried out at a constant horizontal position of the barrel. The range of the fire extinguisher is controlled by the movement of the screw auger 6 in the receiver tube. Full-length auger, ./i; (Fig, 1) provides the maximum range. With a partial extension of the screw, the additional support of the gas jet decreases, the overpressure of gases in the borehole decreases at the moment of firing, and the range of flight decreases. Fixing and fixing the screw auger in the barrel tube in the desired position is carried out at the expense of clamping pins 7 installed in the holes in the end part of the barrel and the threaded sleeve 4. When this sleeve is rotated, the inner conical boring will act on the wedge-shaped. pin hinges securely pinch the auger in the barrel tube.

The advantage of the proposed device is that it is designed for efficient firing by the public using high-safety and flameless propelling charges.

Flight range when triggered

low-energy but flameless charge. Hydrox flight stability and accuracy of fire extinguisher hit the target, small recoil forces and ease of adjusting the flight distance in cramped mine workings are achieved by installing a retractable auger and clamping the screw auger with the barrel into the barrel.

Claims (1)

Invention Formula A device for throwing a fire extinguisher containing a barrel tube with Q socket, support and means for twisting the fire extinguisher and an actuator mounted on it to start the fire extinguisher throwing cartridge, which is characterized by the fact that the means for twisting the fire extinguisher installed in the barrel tube screw with the prog. The curvature of winding, which increases in the direction of the pipe, while the barrel pipe is provided with a clamp for fixing the screw and is mounted on the support freely with the possibility of axial rotation. Sources of information taken into account in the examination 1, Sovetsk Military Encyclopedia, Vol. 3, M., Military Publishing House of the Ministry of the USSR, 1977, i