SU840397A1 - Fire-safety partition - Google Patents

Description

(54) FIRE LINES

one

The invention relates to the prevention and extinguishing of mine fires, in particular, to counter-heating structures erected in underground mines to isolate the area covered by the fire from the rest of the mine or mine.

A bridge is known, consisting of partitions (wall) in contact with the host rocks of an underground mine working, and a manhole with a hatch. This jumper can be used to isolate the area covered by a fire and suppress the fire of a flooded area isolated by M The disadvantages of this jumper are the lack of devices that allow other methods of extinguishing the fire to be used, such as feeding an air-mechanical or gas-mechanical foam into the isolated space silt of inert gas, as well as the absence of devices that allow the remote closing of the hatch to ensure the safety of the rescuers.

Known fireproof jumper containing a blast-resistant monolithic partition of mineral

In the case of tampering substances, the manhole with overlapping, a removable flange with inlet pipe, pipeline and stop valves, the pipe is equipped with a remotely controlled grid fixed to it from the side of the isolated space by means of a spring-loaded hinge and hook, and the overlap is made in as a sliding gate

0 flaps. The remote control of the grid is carried out with the help of flexible bars, passed through a jumper through pipes, 2.

The disadvantages of this jumper are 5:

a) the absence of devices that make a folding net, its hinge and hook, a slide gate and flexible rods from the impact of a shock wave

0 explosion and thereby ensuring operational reliability of the jumper with repeated use of the pipe for the supply of extinguishing agents;

b) the absence of devices that allow passage of people through the pipe for the lintel without disturbing the established

Claims (2)

in the isolated space of the gas composition of the atmosphere and thus ensuring the safety of the mine rescuers, since the passage of a person does not exclude the possibility of oxygen entering the bridge from the side of the mine, which in some cases can lead to an explosion; c) the absence of devices allowing the grid and gate to be operated at a distance and remote control of the extreme positions of the Vio3TOMy gate to control the grid of the gate. A person directly at the jumper under the threat of a methane-air explosion should control the gate. mixtures in insulated space. The purpose of the invention is to increase the safety of work and the operational reliability of the jumper. The goal is achieved by the fact that the manhole is fitted with a flange with eyelets attached to it, grooved, and a protective visor installed under the overlap, made in the form of an elliptical bottom with a protruding end of the elastic seal fixed to the side of the insulated space with the possibility of rotation and translational displacement along the pipe axis in the slots of the lugs and connected inside the pipe-hole with the shut-off valves made hingedly mounted on brackets, attached to T5 a safety valve and overlap of the pneumatic cylinder, the piston of which is mounted on a spring-loaded rod with the possibility of movement limited by stops and equipped with mechanical locks and remote indicators of extreme positions. FIG. Figure 1 shows the fireproofing on the lintel, cut; in fig. 2 pipe-hole, top view; Fig. 3 shows the pneumatic cylinder and the fastening of its arms, the section; in FIG. 4 shows the elliptical bottom crushing to the pipe flange using eyelets} in FIG. 5 jumper at the time of the passage of the mine through the pipe-hole. Jumper f of FIG. 1) contains an explosion-proof monolithic partition 1, which is molded from quick-hardened plastic, prepared from water and a mineral in a living substance, such as gypsum. The solution is poured into the form 2, made of wooden poles and planks .. From the inside, the formwork is sheathed with a packing cloth. The casting of the quick-hardening mortar ensures its adhesion to the host array of mining and therefore airtightness and resistance to the impact of a shock wave the blast. In the form 2, before the solution is poured, a tube 3 is installed with a hinged: overlapping 4, a solution level indicator 5 and a pipeline fitting: a pipe 6 for discharging water, a pipe 7 for receiving solution (8) and an air sampling pipe 8. In the tube-3, the shut-off valves are fixed: pneumatic cylinder 9 and (if necessary) removable flange 10 with inlet fitting. The pneumatic cylinder hoses and cables are diverted from the inocator 5 of the mortar level and the indicators of the extreme positions of the piston of the pneumatic cylinder 9 to block 4 to the place where the control panel (not shown) and the unit for continuous preparation and injection of the mortar mixture (not shown) are installed through the pipeline (not shown a) through pipe 7 into formwork 2. Pipe 8 is connected to a gas sampling device behind a jumper (not shown) or plugged to ensure a jumper tightness if samples are not taken. The shape and dimensions of the pipe mining placed in the drainage groove of the mine working are such that it is always in-. it is filled with water over the entire cross section, in connection with which the gases do not penetrate from the isolated space into the existing production and vice versa. Pipe-hole 3 (Fig. 2) contains a pipe made of sections to facilitate transportation to the mountain. workings out. The end section has an enlarged flange 11, on which a hinged overlap 4 is fixed, made in the form of an elliptical bottom with an elastic (rubber) control 12 protruding at the end. Inside the pipe sections 3, handles 13 are welded. A flange 11 is installed on the flange 11. In lugs 15 (Fig. 4) flange 11 has an axis 16 that holds the bottom 4 by means of the lugs 17. The holes in the lugs 17 are made in the form of grooves, which allow not only the rotation of the bottom 4 around the axis 16, but also moving it along the axis of the pipe 3 until the end face touches with flange 11 p d action of the explosion shock wave. Such an attachment of the bottom 4 prevents the seal 12 from being crushed, and the axis 16 prevents breakage. The flange 11 of the pipe 3 has an annular groove, with the surface of which the teeth of the laths 18, fixed with bolts to the bosses of the bottom 4, come into contact. This stop valve is used when the pneumatic cylinder is temporarily removed for some reason, for example, for routine inspection. Shut-off valve in the form of an outer cylinder 9 (FIG. 3) contains a piston 19 mounted on a rod 20 with movement limited by stops 21 and 22 and equipped with mechanical locks consisting of balls 23 and sleeves 24. Porpene moves in a cylinder 25 whose ends are closed covers 26 and 27. Screw connectors 28 and 29 are screwed into the covers to connect air-insulated hoses. In the cavity of the Ytok 20, a ha 30 is connected, connected by a pin 31 with a piston 19 and fitted with a handle 32 on KOffue. Into the rod 20, insert a spring block containing the rod 33, the yoke 34. With threaded bushings 35, springs 36 and the pressure nut 37. Instead of a detachable flange 10 with a connecting pipe, a blind flange 38 can be installed on the tube-3 (fkg. 5. Threaded sleeves 35 are placed in the holes of the bracket 39, and the hinge 26 of the pneumatic cylinder 9 is hingedly fixed by means of an axis with a bracket 40. Pneumatic cylinder 9 using the bracket 39 is attached to the end section t tubes 3 (Fig. 2), and using the bracket 40 - to the bottom 4. The jumper works as follows: The end of pouring the mortar into the formwork 2 through pipe 7 is determined using the level indicator 5. After 1.5-2.0 hours after pouring, the strength of the obtained monolithic partition 1 reaches the calculated value. The tube-hole 3 is remotely closed by overlapping 4, for which compressed air is fed into the pneumatic cylinder 9. The execution of this operation is monitored by light indicators on the control panel. The overlap of the lase pipes is carried out simultaneously in bridges on the incoming and outgoing air vents. Air sampling from the casting space is carried out with the aid of pipe 8. An analysis of air pipes makes it possible to assess the situation in an isolated space. If necessary, in an isolated space serves. steam-gas mixture or gas-mechanical foam. To do this, using a flange 10, a mixture generator or a foam generator is attached to the tube 3 and, opening the overlap 4 of the tube 3, switch on the generator. At the end of operation of the generator, pipe-holes 3 are made by overlapping 4. If an explosion occurs in an methane-air mixture in an isolated space, under the action of the shock wave, overlap 4 moves until it touches the flange 11, compressing the seal. 12, springs 36 and preventing the explosion of explosion products into the current generation. Upon termination of the shock wave, the overlap 4 returns to its original position, which also ensures its tightness against the flange 11. The shock wave displaces the water from the drainage pipe 6 into the effective production. At the end of the shock wave action, the pipe is refilled with water. To dismantle the pneumatic cylinder 9, if necessary, and install the slats 18, the mine rescuer moves along the pipe-hole 3, using the handles 13. If opening of gear 4 is supposed, the pipe-hole 3 from the effective production side is closed with a blind flange 38, which prevents fresh air from flowing into isolated space, Nahodshdijs in the tube-hole 3, the mine-rescuer can unblock the overlap 4 by using the handle 32 and open it. These operations can be performed remotely when air is supplied to the pneumatic cylinder 9. When compressed air is supplied through fitting (28) (fig. 3) to piston 25, piston 19 together with clips 24, pin 31, thrust 30 n with handle 32 moves relative to rod 20 against the stop 22. During the movement of the piston 19, the rod 20 remains stationary yo as long as the sleeve 24 releases the balls 23 placed in the cage separator 26. The balls, displacing along the axis of the cages of the separator, exit the annular groove of the stop 21 and release the rod 20. The rod 20 gets the opportunity to move eMecte with n rinem 19 in the other end position and opens the overlap 4 (FIG. 2). In this extreme position, the stop 22 is located under the separator sockets with balls in the cover 27, the balls enter the ring groove of the stop 22 and lock into the sockets with another clip 24. When compressed air is supplied through the nozzle 29 or when manually moving the 30 with the handle 32 into the stem 20, in the absence of air pressure, the piston 19 together with the sleeve 24 moves relative to the stem 20 to the stop 21. The sleeve 24 releases the balls in the cage 27 of the separator. They come out of the stop ring 22 and release the stem 20. WHO ozhnost move together with the piston 19 to its original position under the action of compressed air pressure. When compressed air is supplied through the nozzle 29, the piston 19 moves together with the rod 20 and the cylinder rod 33 and compresses the spring 36 by means of the nut 37. The force from the compressed springs 36 is transferred to the yoke 34 installed by the sleeves 35 in the bracket 39 of the pipe-eye 3. as a result of this, the crossroads: 1st of 4, connect the hNo to the strut 9 by means of the bracket 40, always evenly slide towards the flange 11 of the pipe-manhole. The invention provides increased safety of work: the presence of shut-off valves in the form of a cylinder and remote, for example light, indicators of the extreme positions of the shut-off allows you to close and open it at a distance of 15% or even from the surface of the mine, thereby ensuring the safety of rescuers; Elastically, the seal in the elliptical bottom adjacent to the flange of the pipe-hole in the closed position of the overlap ensures tightness of the connection and does not allow the products of combustion and explosion to penetrate into the actual production, and therefore excludes mechanical, for example, ball, products from people with burning products locks of the extreme positions of overlapping prevents its accidental closure by the air flow in the passage passage of the mine rescuer - and prevents the possibility of injury to the person; the presence of a removable blind cover on the side of the current generation allows sluicing when a person passes through the tube. which eliminates the violation of the gas composition of the atmosphere of isolated space and prevents an explosion. In addition, the invention provides increased operational reliability: placed on the side of an insulated space, the overlap of a pipe-hole protects pipeline and valves, as well as a removable flange with inlet pipe from the impact of an explosion shock wave and thus allows them to be used repeatedly to supply extinguishing agents ; the fastening of the overlap with the possibility of translational movement along the axis of the pipe-hole allows the elliptical bottom to move under the action of a shock wave until it touches the flange of the pipe-hole evenly compressing the elastic (rubber) seal without destroying the axis and eyelets, with the help of which it is fixed on the pipe; a protective visor above the overlap excludes falling into the place of docking of the overlap and the pipe-manhole of rock pieces falling from the roof of the mine workings. Claims Fire-prevention lintel, including a blast-resistant monolithic partition, made of mineral substances, pipe-hole with overlap, removable flamets with inlet pipe, pipeline and stop valves, characterized in that, in order to improve work safety and operational reliability, the manhole is fitted with a flange with eyelets attached to it, made with grooves and a protective visor installed above the floor, made in the form of an elliptical bottom with a protruding end elastic seal fixed on the side of the insulated space with the possibility of rotation and translational movement along the pipe axis in the slots of the lugs and connected inside the tube manhole to the shutoff valves made hingedly mounted on brackets fixed to the tube manhole and overlap of the pneumatic cylinder The hien of which is mounted on a spring-loaded rod with the possibility of movement limited by stops and is equipped with mechanical locks and remote indicators of the extreme positions. Sources of information taken into account during the examination 1. USSR author's certificate No. 317809, cl. E 21 F 16/00, 1968. 2, USSR Copyright Certificate No. 560069, cl. E 21 F 5/00, 1974 (prototype). ff J Fie-3