SU1446343A1 - Gas-safety arrangement for mine workers in mine workings - Google Patents

Description

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The invention relates to the mining industry and can be used for pumping mine and mine rescue gases during accidents in mines and mines.

The circuit of the invention - increase of gas protection of miners by reducing the time to bring the device

cut the throttle 13 into the chamber D of amplification and then through the chamber 20 into the chamber E of the connection with the atmosphere, and through the air duct 14 into the atmosphere. As the inner cavity A of the gastight shell 2 is filled with air, the overpressure in it increases, which through channel 16 is transferred to chamber W

ready for gasing - Q sensitive element 15 ... In a milked atmosphere and preventing ingress. Tribute to the cavity of the gas-tight shell of outdoor air.

Figure II shows the gas-shielding device; figure 2 is a constructive diagram of the pneumatic valve.

The gas protection device consists of an inflatable frame 1, a gas-tight casing 2g of the compressed air source 3 connected by an air duct 4 20 to the internal cavity A of the gas-tight casing 25 of a pneumatic valve 5, the gas protection device has a hermetically sealed inlet 6 for the passage of mountain rescuers and a mountain stand.

A pneumatic valve 5 consists of a chamber B for supplying air connected to a source of compressed air 3 of chamber B to supply air to the frame 1, 30 connected by a channel 7 to the cavity D of the frame 1, a normally closed valve 8j connected by a rod 9, with a diaphragm 10j preloaded by a pneumatic spring 11 - power 12,

one

The pneumatic booster 12 consists of a chamber D of reinforcement J connected by a choke 13 with a chamber B for supplying air j of chamber E connected to the atmosphere, connected by duct 14 to the atmosphere, chamber W of the sensitive element 15 connected by duct 16 to cavity A of the gastight shell 2e of the sensitive element 15 s the valve 17 is pressed from two sides by springs 18 and 19, a nozzle 20 connecting the reinforcement chamber D and the connection chamber E to the atmosphere and the adjusting screw 21,

To bring the gas protection device to the ready state, compressed air from the source 3 is supplied through the air duct 4 to the internal cavity A

40

45

In the cavity A of the gastight shell 2 of the required overpressure transferred to the chamber W of the sensitive element, the sensitive element 15 bends, compressing the spring 19, and the valve 17 blocks the nozzle 20. At the same time, the air passing through the throttle 13 fills the chamber D , the pressure in it increases, the membrane 10 bends, compressing the spring 11, and opens the valve 8. As a result, the air from chamber B for supplying air enters chamber B to supply air to the frame and through the air duct 7 to the inside cavity G car 1 ace.

As soon as the inflatable frame 1 begins to drastically change its rigidity as it is filled with air, in the internal cavity A of the gas-tight shell 2, the excess pressure transmitted through the ka -.- .. 16 to the chamber W of the sensing element will decrease. In this case, the sensing element 15 is bent upwards, compressing the spring 18, and opens the nozzle 20. Air entering the reinforcement chamber D through the throttle 13 enters the atmosphere through the nozzle 20, the connection chamber E with the atmosphere and the air duct 14. decreases, the spring 11 depresses the membrane tO and closes the valve B. The air supply to the internal cavity G of the frame 1 is stopped until the overpressure in the inner band A of the gas-tight shell 2 is restored.

Thus, the overpressure in the inner cavity of the gas-tight shell is automatically maintained throughout the entire period of bringing the gas-shielding device into the ready state, preventing the penetration of gases harmful to respiration into the internal cavity of the gas-shielding shell.

gastight shell 2 a

in chamber B for the supply of air and

also 5

sensitive element 15..Pri doyo

0 5

0

0

five

five

In the cavity A of the gastight shell 2 of the required overpressure transferred to the chamber W of the sensitive element, the sensitive element 15 bends, compressing the spring 19, and the valve 17 blocks the nozzle 20. At the same time, the air passing through the throttle 13 fills the chamber D , the pressure in it increases, the membrane 10 bends, compressing the spring 11, and opens the valve 8. As a result, the air from chamber B for supplying air enters chamber B to supply air to the frame and through the air duct 7 to the inside cavity G car 1 ace.

As soon as the inflatable frame 1 begins to drastically change its rigidity as it is filled with air, in the internal cavity A of the gas-tight shell 2, the excess pressure transmitted through the ka -.- .. 16 to the chamber W of the sensing element will decrease. In this case, the sensing element 15 is bent upwards, compressing the spring 18, and opens the nozzle 20. Air entering the reinforcement chamber D through the throttle 13 enters the atmosphere through the nozzle 20, the connection chamber E with the atmosphere and the air duct 14. decreases, the spring 11 depresses the membrane tO and closes the valve B. The air supply to the internal cavity G of the frame 1 is stopped until the overpressure in the inner band A of the gas-tight shell 2 is restored.

Thus, the overpressure in the inner cavity of the gas-tight shell is automatically maintained throughout the entire period of bringing the gas-shielding device into the ready state, preventing the penetration of gases harmful to respiration into the internal cavity of the gas-shielding shell.

SnoMKinb shell

Claims (1)

GAS-PROTECTING DEVICE FOR MINERS WORKING IN MINING; including an inflatable frame, a gas-tight enclosure with a hermetically sealed inlet, a compressed air source connected by ducts to the carcass and shell cavities, characterized in that, in order to increase the gas protection of the miners by reducing the time required to bring the device to a ready state in a gas atmosphere and to prevent the ingress of external gas from entering the cavity, it is equipped with a normally closed pneumatic valve with a pneumatic amplifier having a sensitive element NT, while the pneumatic valve is installed on the duct connecting the source of compressed air with the cavity of the frame, and the camera of the sensing element through the channel is in communication with the cavity of the gas-tight shell. 1446343 A1 1446343 “