SU966334A1 - Pneumatic pulsator - Google Patents

Description

(54) PNEUMATIC PULSATOR

The invention relates to pneumatic impulse devices and can be used as a drive for transport and technological vibratory machines in mining to create pressure pulsations of compressed air in drowned boreholes during vibratory processing of a rock mass for the purpose of redistributing rock stresses. . .

A pneumatic pulsator is known, comprising a housing with channels for supplying and. compressed air exhaust, a core, an elastic element forming a permanently connected with a source of compressed air and periodically with the atmosphere of the main chamber 1 an elastic chamber in communication with the source. compressed air and consumer and located between the core and the lower part of the housing Cl.

The drawbacks of the device are -. with its limited technological capabilities due to a small pressure drop, the upper limit of which forms the network pressure, and also because of the possibility of creating pulsations only in one processed object.

The purpose of the invention is the expansion of the technological capabilities of the pulsator.

The goal is achieved by the fact that the pulsator is provided with an additional elastic chamber in communication with the sources of compressed air and the consumer, a plate is additionally installed in the body, dividing it into two parts, and the core is made as

There are 10 two plates connected by rods, with the housing plate located between the core plates, and the main chamber mounted between the housing plate and one of the heart plates.

Figure 1 shows the pneumatic pulsator at the beginning of filling the main chamber with compressed air; Fig. 2: - the same at the end of the filling.

20

The pulsator comprises a housing 1 consisting of plates 2-4 with channels 57 for supplying and channels 8 and 9 for discharging compressed air, the core 10 made of two plates 11

25 and 12, connected by rods 13, an elastic element 14 forming the main chamber 15, an elastic chamber 16, an elastic chamber 17, supports J8 with stops 19, a pipeline 20 with a reverse

30 valve 21, the pipeline 22 with the throttle 23, the pipeline 24 with reverse kleshansm 25.

Pulsator works as follows. .

In the initial position (Fig. 1), the core 10 compresses the chambers 15 and 16 and stretches the chamber 17. Compressed air is supplied to the chambers 16 and 17 and the nominal pressure is set. The parts maintain an equilibrium position, since the upward pressure force from the chamber 16 side of the downward forces of the weight of the core 10 and the pressure of the keilers 17.

The main chamber 15 is supplied with compressed air and is expanded. The chamber 17 is compressed and, since the compressed air in it is held by the valve 21 on the pipe 20, the pressure in the chamber 17 and on the object being processed connected to the channel 8 increases. If the pressure exceeds the set limit, safety valve 21 is activated. Chamber 16 is expanded, and compressed air enters it from the network through pipe 24 and through check valve 25, maintaining nominal pressure in it.

When the camera reaches 15 stops; 19, its expansion ceases as well. The plate 11 of the core 10, continuing to experience the pressure of compressed air, is separated from 15 and the compressed air is released into the atmosphere. . Then, under the action of pressure from the chamber 17 side, the core 10 moves downward and compresses the chamber 16. As the compressed air in it is held by the return valve 25, the pressure in the chamber 16 and on the object being processed, connected to the channel 9, increases. The main chamber 15 is closed, but since the pressure of compressed air in it grows slowly due to the presence of throttles 23, this does not prevent the chamber from compressing16. This ends the cycle, the next cycle begins, and the operation continues in steady state

in which the maximum and minimum pressure of compressed air alternate on the objects being processed.

The use of a pneumatic pulsator is appropriate where two or more objects require alternate low-frequency pulsations of compressed air. When using a pneumatic pulsator on the technological equipment, the effect is to increase the productivity of vibratory processing of bulk materials, increase the range of oscillations of forces applied to the object being processed, etc.

Claims (1)

1. USSR author's certificate 704863, cl. B 65 G 27/22, 1979. 9 5 K ig-Z istt