SU1446370A1 - Generator of pressure pulsations - Google Patents

Abstract

The invention makes it possible to expand the functionality of the generator by adjusting the oscillation parameters. Case 1 has - input and output channels (K) 2 and 3. In the additional pulsator (P) 5, input 6 and output K 7 are made, which is 1st 1st (/

Description

has the form of confuser. In P 5, a spool is mounted on the spring, K 6 is connected through an adjustable Throttle and a locking element to K 2. K 7 is connected to P 4 in the nozzle throat and is located tangentially to the latter. In K 3, a multi-way valve 11 is installed, connected via a choke 12 to a drain. The bullpen is connected to an autonomous pressure source between the choke and the element through an additional locking element. The spool has a diffuser channel, which is overlapped by a cup-shaped valve, convex towards and rigidly connected to the spring with the possibility of axial adjustment. K 6 is designed as a confuser. The differential input and output pressures increase due to a decrease in the exhaust pressure and a cavitation plume arises in the critical section of the nozzle. 2 з.п, ф-л, 2 Il.

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The invention relates to mechanical engineering and can be used in various hydraulic systems to generate pressure fluctuations.

The purpose of the invention is to expand the functional possibilities by adjusting the parameters of the oscillations.

In FIG. 1, show the generator, the frontal projection i in FIG. 2 shows section A-A in FIG. one. ;

The generator includes a housing 1 with input 2 and output 3 channels, and suspicious 4 and an additional 5 pulsators. In the additional pulsator 5, the input; 6 and output 7 channels are made. The output channel 7 has the form of a confuser. In the additional pulsator 5 a spool is mounted on the spring 8, the input channel 6 of the Additional pulsator 5 is connected via an adjustable choke 9 and the locking element 10 to the input channel 2 of the generator. The output channel 7 of the additional generator 5 is connected; with a critical section of the main Pulsator 4 tangentially, In the output channel 3 of the generator, a multi-way valve 11 is installed, connected through an additional throttle 12 to the drain. To an additional pulsator 5, an auto-pressure source is connected between adjustable throttle 0 and locking element to through an additional locking element 13. Diffuser coil 14 is made in the spool, which is covered by a cup-shaped valve 15 rigidly connected with a spring 16 resting against the adjusting screw 17. A bowl-shaped damper 15 is installed in an additional pulsator 5 with a gap 18, the input channel 6 of the additional pulsator 5 is connected to the input channel 2 of the generator via channel 19,

In addition, control devices are connected to the generator: pressure gauge 20, secondary transducer 2Г for recording oscillation parameters, and

Also, the locking elements 22 and 23 intended for connection and overload protection of the control devices 20 and 21.

The generator works as follows.

The flow of the working fluid with a pressure t ROCK enters the inlet channel 2 of the main pulsator nozzle 4 and. through it to the output channel 3, From the output channel 3, the flow of the working fluid passes through the multi-way valve 11 to the output from the generator. The flow of the working fluid from the inlet channel 2 with pressure P gx also enters through channel 19 into the inlet channel 6 of the additional pulsator 5 and further into the cavity where the spring 16 is located. The diffusion channel 14 of the spool is blocked by the valve 15 and the pressure in this cavity

 the pressure in the cavity where the spring 8 is located decreases as this cavity communicates with the critical IMC section of the main pulsator nozzle 4. Under the effect of the differential pressure of the SRI, the valve together with the valve 15 in all additional pulsators 5 begins to move, compressing the spring 8 and expanding, starting at some point, spring 16. At.

3

Further movement of the spool of the valve 15 is released from the latter and under the action of the spring 16 returns to a position close to the original. In this case, the synchronous or asynchronous mode of the openings of the valves 15 determines the mode of pressure oscillations in the flow of the working fluid.

The oscillation institute parameters are controlled and the synchronism or asynchronous separation of the shutters 15 is carried out by changing the flow rate through the adjustable chokes 9. Then, through the diffusion channels 14, the pulse flow of the working body goes to confused output channels 7, where

PID accelerates to high speeds and abruptly slows down in the nozzle throat, which causes a pressure surge and a drag on the working fluid flow through the main stream to the output channel 3 in the main pulsator 4, generating pressure pulses.

The pressure drop across the spool drops and the spring 8 returns it to its original position, where it comes in contact with the valve 15. The cycles are repeated with a frequency proportional to the flow rate of each of the adjustable chokes 9. The oscillation parameters can also be adjusted by adjusting the screw 17 springs 16.

The adjustment of oscillation parameters and the creeping of the cavitation plume in the main pulsator are also possible with the help of a multi-port crane 11. For this, the valve 11 is placed in the position indicated in FIG. 2, and the output channel 3 communicates with both the output from the generator and the drain. In this case, the amount of flow going to the drain is determined by the adjustable throttle 12. The differential inlet and outlet pressures increase due to a decrease in the outlet pressure

Lenn and in the critical section of the nozzle occurs the cavitation flare

(Fig. 2).

Claims (3)

1. A pressure oscillation generator, consisting of a housing with inlet and outlet channels and two pulsators, primary and secondary, characterized in that, in order to expand the functionality by adjusting the parameters of oscillation, the additional pulsator is made in the form of an inlet cylinder and output channels and a spring-loaded spool installed in it, while the output channel of the additional pulsator is connected to the main pulsator in the critical section of the nozzle and is located tangentially to the latter, the input channel of the additional pulsator is connected through an additionally installed adjustable throttle and locking element to the input channel of the generator, and A multi-way valve is installed in the output channel of the generator, connected through an additional control choke with a drain. 2. A generator according to claim 1, characterized in that it is provided with an autonomous pressure source connected to an additional pulsator between the adjustable throttle and the locking element through an additional locking element. 3. The generator according to claim 1, wherein the additional pulsator is provided with a spool with a diffuser channel, overlapped with a bowl-shaped damper, convex towards the flow and rigidly connected with a spring with the possibility of axial adjustment, in addition, the output channel of the additional pulsator is designed as a confuser. I 1