SU1055888A1 - Pneumatic pulsed apparatus - Google Patents

Abstract

1. PNEUMO PULSE DEVICE, including a container for compressed air with an inlet nozzle and an outlet nozzle, a valve- connected by means of a rod with a piston placed in the main cylinder, communicating with the container and the atmosphere, characterized in that in order to increase the ventilation efficiency of dead ends and the possibility controlling the frequency of the pneumatic impulses, it is equipped with an additional cylinder of smaller diameter with a piston mounted on the rod and located coaxially with the main cylinder, while one cavity of the cylinder with obschena with the atmosphere and the other - with a compressed air network, wherein the valve rod is mounted for axial movement, the piston area of the primary cylinder, over the nozzle sectional area and the piston of the auxiliary cylinder. 2. A device according to claim, characterized in that the inlet pipe is provided with a variable choke. (L 4 1G f fY 10 X 8 Ch ela oo 00 00 7 / / 8 P 16 15

Description

The invention relates to the mining industry and can be used for ventilation of mine workings and reverse purging of bag filters during bag regeneration.

Known ejector for ventilation of mine workings, including a collector, a fitting for supplying compressed air, a head with an annular gap and a diffuser [1].

The disadvantages of the device are: high consumption of compressed air for ventilation and the possibility of contamination of the annular gap.

The closest to the invention in technical essence and the achieved result is a pneumatic pulse device, comprising a container for compressed air with an inlet pipe and an outlet nozzle, a valve connected by a rod to a piston located in the main cylinder, communicating with the tank and the atmosphere [2].

A disadvantage of the known device is the low efficiency of ventilation of dead ends and the inability to control the frequency of pneumatic pulses.

The purpose of the invention is to increase the efficiency of ventilation of blind faces and the ability to control the frequency of pneumatic pulses.

This goal is achieved by the fact that the pneumatic pulse device, comprising a container for compressed air with an inlet pipe and an outlet nozzle, a valve connected by means of a rod to a piston located in the main cylinder communicating with the tank and the atmosphere, is equipped with an additional cylinder of a smaller diameter with a piston, mounted on the stem and located coaxially with the main cylinder, while one cylinder cavity is in communication with the atmosphere, and the other with a compressed air network, while the valve on the rod is axially mounted displacement, and the area of the piston of the main cylinder is greater than the sum of the cross-sectional area of the nozzle and the piston of the additional cylinder. In addition, the inlet is equipped with a variable throttle.

The drawing shows a pneumatic pulse device, section.

The device comprises a cylindrical container 1 for the accumulation of compressed air. Capacity also serves as a housing. At the front end of the tank there is an outlet nozzle 2, and at the rear end there are cylinders 3 and 4 with the main 5 and additional 6 pistons placed on them, fixed on the rod 7. Adjacent cavities of cylinders 3 and 4 communicate with the atmosphere through openings 8 located on back end of the tank. The other cavity of cylinder 5 of cylinder 4 is connected via pipe 9 and pipe 10 to pipe 11 for supplying compressed air from the network.

On the pipe 12 has a variable choke 13.

At the end of the rod 7, there is an annular height 14 and a spring 15 located in the cavity 16 of the valve 17. The spring 15 abuts against the protrusion 14 at one end and the nut 18 at the other.

The device operates as follows. ₁₅ Compressed air through pipes 11 and 10 enters the cylinder 4 and acting on an additional piston 6, closes the nozzle 2 with a valve 17. At the same time, air enters the tank 1 through the throttle 13 and nozzle 12, where the pressure gradually increases to 20 such that the force acting on the main piston 5 (from the side of the tank) becomes greater than the sum of the forces acting in the opposite direction. Expanding, the air moves the main piston 5 with the rod 7. Vysgup 14, compressing the spring 15, reaches the stop on the nut 18. With a further increase in air pressure, the valve 17 opens the nozzle 2, the springs 15 sharply throws the valve 17 towards the opening side, the compressed air from capacity 1 through 3 _{0 the} nozzle 2 is discharged into the atmosphere, the pressure inside the tank 1 drops, the valve 17 closes the nozzle 2, after which the cycle repeats.

When compressed air is discharged, the resulting shock wave propagates 35 over a considerable distance, reaches the bottom and removes harmful gases and dust from it.

Variable throttle 13 controls the frequency of air discharge due to the time of filling the tank.

For the device to operate on the emission of ⁴⁰ air from the tank 1, the condition _ _

P _with S, ⁺ Re S ₂ ^< Re S3?

where P _c and P _e are the pressure of compressed air in the network and in tank 1, respectively;

S ", And - respectively, the area of the piston 5, the mouth of the nozzle 2 and the additional piston 6.

Using the proposed pneumopulse device allows you to increase the efficiency of ventilation of blind faces and reduce the consumption of compressed air for ventilation.

Claims (2)

ί. PNEUMA PULSE DEVICE, including a container for compressed air with an inlet pipe and an outlet nozzle, a valve- connected by means of a rod with a piston located in the main cylinder communicating with the tank and atmosphere, characterized in that in order to increase the efficiency of ventilation of dead ends and the possibility of regulation frequency of pneumatic pulses, it is equipped with an additional cylinder of a smaller diameter with a piston mounted on a rod and located coaxially with the main cylinder, while one cylinder cavity is communicated atmosphere, and the other - with a compressed air network, wherein the valve rod is mounted for axial movement, the piston area of the cylinder core, over the cross-sectional area of the nozzle and the auxiliary cylinder piston. 2. The device according to π. 1, characterized in that the inlet pipe is equipped with a variable throttle. (L SL SI QO oo oo