SU1420254A1 - Hydraulic pulser - Google Patents

Abstract

Invention m. used in the dynamic testing of hydraulic components and assemblies, such as high-speed vane pumps. The purpose of the invention is to expand the frequency range of the pulsations. The piston 1 with the actuator 2 is placed in the housing 3. The internal cavity of the hermetic bellows 6 is connected to an independent pressure source 7. The movable partition 8 hermetically divides the housing into piston and collector cavities 9, 10. Pipeline (TP) 5 connected to the housing through channel 4 passes through cavity 10, and channel 4 is made in the form of perforation TP 5. The bellows 6 is fixed at one end to TP 5, and another - on the partition 8. The density of the fluid in cavity 9 is less than the density of the working fluid in TP 5. The pressure regulator 11 can be. made in the form of adjustable in length bellows, located in the glass 12, mounted on the housing. The inner surface of the bellows is communicated with the hollow 9. The amplitude of the displacement of the partition 8 is less than the amplitude of the displacement of the piston t so many times, how many times the area of the partition is larger than the area of the piston. By this, in the hydro pulsator, the limiting frequency of the reciprocating movement of the trans: townships is reached. 8. Cp. f-ly, 2 ill. with S (L 4 u o ate 4

Description

The invention relates to devices for creating pulsations in a liquid and can be used in mechanical engineering when conducting dynamic tests of hydraulic components and assemblies, for example high-speed vane pumps.

The purpose of the invention is to expand the frequency range of the pulsations.

FIG. 1 shows a hydropulsator, a longitudinal section; in fig. 2 - the same cross section.

The hydropulsator comprises a piston 1 associated with the actuator 2. The piston 1 is housed in the housing 3 of the hydropulsator. The channels 4, with which the perforated pipe 5 is perforated, are connected to the housing 3. The hydropulsator is equipped with a geometrical bellows 6, the internal cavity of which is connected to an independent source 7 of pressure. The bellows 6 with one end connected to the movable partition 8, which hermetically separates the housing 3 into a piston 9 and a collector 10

cavities. The other end is a BELLOW

6 is rigidly connected to the pipeline 5. The hydropulsator is equipped with a regulator 11

ten

15

25

the difference between the areas of the movable percolation 8 and the end of the bellows 6 attached to it. Bellows 6 connect to an autonomous source 7 pressure pipe 18.

Hydropulsator works as follows.

The piston cavity 9 through the cer 17 is filled with a liquid, with the lator 11 it creates a pressure exceeding the pressure in the collector of the cavity 10. Due to the increase in pressure and filling the piston cavity 9 with a liquid with a density less than the density of the working bone in the collector cavity 10, the limiting frequency in the progressive movement of 1 and, consequently, the limiting pulsations of the fluid. Under pressure from the pressure difference between the piston fluid 9 and the collector 10 tons, the movable partition 8 is attached to the stops 16. After this independent source 7 is pressed, the pipeline 18 is pressurized to the internal cavity of the bellows. Pressure in the internal cavity

pressure, made in the form of sylfozo Von 6, gradually increases to

: 35

40

on, the internal cavity of which is in communication with the piston cavity 9. The pressure regulator 11 is placed in the glass 12 fixed on the housing 3.

The movable partition 8 has, on its outer contour, sealing against c 13, made, in particular, in the form of a bellows, the other end 14 of which is connected to the housing 3. Outside the housing 3 there are three sensors 15 of the position of the movable partition 8, and on the inside of the housing 3 - safety stops 16, the necessary dp limits the movement of the movable partition 8 when choosing an operation mode or abnormal situations. A housing 17 with a plug for filling the piston cavity 9 with liquid is placed on the housing 3. The piston cavity 9 is filled with a fluid of lesser density than the density of the working fluid in the collector cavity 10 and the pipeline 5. The presence of a tight movable partition B prevents the penetration of fluid from the piston 55 cavity 9 into the reservoir cavity 10 and back. The total area of the channels 4 in the wall of the pipeline 5 is more than

45

50

pores until the movable partition does not move away from the lugs 16. Its melting in the housing 3 is controlled by a chuck 15. The pressure inside the cavity of the bellows 6 reaches at which the movable recess is set at an average polo, i.e. about the middle sensor 15 include the actuator 2 of the piston 1. When moving, the prank 1 is movable, the town 8 performs displacements with the same frequency, however, the displacement amplitude is less than the amplitude of the piston 1, so many times as the area of the bulkheads is larger than the area of the piston 1. This increase of the limiting frequency of reciprocating petal movements of the mobile n townships 8.

Claims (3)

1. A hydraulic pulsator containing a piston with a drive placed in a housing and a channel connecting to the pipeline, I distinguish with the fact that, in order to expand the frequency range of the pulsations five five the difference of the areas of the movable partition 8 and the end of the bellows 6 attached to it. The bellows 6 is connected to an autonomous pressure source 7 by a pipeline 18. The hydro pulsator works in the following way. The piston cavity 9 through the nozzle 17 is filled with a liquid, the regulator 11 in it creates a pressure exceeding the pressure in the collector cavity 10. Due to the excess pressure and the filling of the piston cavity 9 with a fluid with a density less than the density of the working fluid in the collector cavity 10, :: The limiting frequency of the reciprocating motion of the piston 1 and, consequently, the limiting frequency of the pulsations of the fluid is achieved. Under the influence of the pressure difference of the fluid in the piston 9 and the collector 10 cavities, the movable partition 8 is pressed against the stops 16. Thereafter, from an independent source 7 of pressure, the pipeline 18 is supplied with pressure into the inner cavity of the bellows 6. Pressure in the inner cavity Background 6 smoothly increases 35 40 55 45 50 until the movable partition 8 moves away from the lugs 16. Its position in the housing 3 is monitored by sensors 15. The pressure in the inner cavity of the bellows 6 reaches the level at which the movable partition 8 is set to a middle position, i.e. around the middle of the sensor 15. Next turn on the actuator 2 of the piston 1. When moving, the prank 1 is movable, the partition 8 makes movements with the same frequency, however, the amplitude of its movements is less than the amplitude of movements of the piston 1 many times as many times the area of the partition 8 is larger than the area of the piston 1. By this, in the hydropulsator, an increase in the limiting frequency of reciprocating movements of the movable partition 8 is achieved. Invention Formula 1. A hydropulsator containing a piston driven in a housing and a channel connecting the housing to a pipeline, characterized in that, in order to expand the frequency range of the pulsations, the hydropulsator is provided with a sealed bellows, the internal cavity of which is communicated with an independent pressure source and a movable partition, hermetically dividing the body into the piston and collector cavities, the pipeline passing through the collecting cavity, the channel is made in the form of a perforation of the pipeline, in addition sealed with a sylph one end is fixed on the pipeline, and the other - on the movable partition. 2. The hydraulic pulsator according to claim 1, characterized in that the piston cavity is filled with liquid with a density less than the density of the working fluid in the pipeline. 3. The hydropulsator of Claim 1, wherein the housing is equipped with a pressure regulator made in the form of a bellows adjustable in length, the internal cavity of which is in communication with the piston cavity, the bellows located in a glass fixed on the housing. / J