SU1753025A1 - Hydraulic reciprocate pump - Google Patents

Abstract

SUMMARY OF THE INVENTION: Each operating unit is equipped with a movable propellant rigidly connected to a housing with a movable stem and forming an aperture return cavity in the housing of the operating unit. The fixed displacer is rigidly connected to the housing and is located inside the movable displacer. Displacers are executed with channels, in each of to-rykh the valve is installed. Both propellants form a cavity, which together with the channels and valves forms a feed chamber that connects the drain line with the diaphragm return chamber. The cavities are connected by a pipeline, which through two successively connected retaining valves is connected to a drainage diaphragm. The inter valve valve cavity is connected by pipelines with check valves to hydraulic actuating chambers. The reversing device is made in the form of four-sided type of directional control valve with guaranteed overlap of the drain when connecting the cylinder windows of the spools. In the body of the hydraulic distributor, a geometrically closed rotating cam is kinematically connected with each movable propellant via a free wheel coupling or a ratchet mechanism. 1 hp f-ly, 2 ill. Yo

Description

The invention relates to the field of hydraulic engineering, in particular to hydraulic actuators of reciprocating action, and can be used for pumping fluids with a wide range of physical and mechanical properties.

A hydraulically driven reciprocating single displacement pump of one-sided or double-sided operation is known, which includes two pumping heads, each of which has a displacing working element, the leading chamber and the pumping chamber, respectively, at opposite ends of which both working elements are connected to each other and return forward movement.

Closest to the present invention is a fluid drive pump that includes a housing with first and second cavities, a sliding piston rod located inside the housing and connecting the first and second portions located at its ends, while the pistons perform inlet strokes and release in order to inject the product into these cavities and extrude.

A device is provided for supplying a pressurized medium to the first and second cavities and a valve system with a rod that is driven by pistons during intake in order to alternately relieve the first and second cavities and create pressure in them.

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The disadvantage of the known pump is that due to the rigid connection between the first and second pistons by a movable rod at the time of changing the direction of movement of the pistons, the proposed devices and the valve system with the rod do not ensure uniform flow of the collector to the collector due to 4efo -Pulse pressure.

The purpose of the invention is to improve the technical performance of the pump and to obtain a uniform flow at the pump outlet with a uniform power take-off from the drive hydraulic system.

The goal is to achieve that each working unit is equipped with a movable propellant, rigidly connected with a movable rod, and forming together in the case of the working unit an aperture return cavity, and a fixed propellant, rigidly connected with the body of the working unit and located inside the movable propellant, moreover, the mobile and fixed propellants are made with channels, in each of which a valve is installed, and between them a cavity is formed, which is a feed chamber that connects the drain line with the return cavity and diaphragms, while the diaphragm return cavities are interconnected by a pipeline, which is connected to a drain line through two series-connected retaining valves, the intervalveled cavity of the retaining valves is connected by pipelines with non-return valves, to hydraulic actuators, and the reversing device is made in the form of a four-way valve control valve with guaranteed overflow of the drain when connecting the cylinder windows with a spool in the body of which the rotating shaft is geometrically closed A latch kinematically associated with each movable displacer via a freewheel or ratchet mechanism. Also, a retaining valve directly connected to the pipeline connecting the diaphragm return cavity is set to a pressure value sufficient to return the displace displace / y, and another retaining valve is set to pre-compress the pressure in the hydraulic diaphragm chamber before its stroke.

Fig. 1 is a schematic diagram of a pump; Fig. 2 shows a variant of the separation of the working and hydraulic actuating chambers by a piston.

The pump contains two working blocks 1 and 2 (Fig. 1), each of which includes

working chamber 3 and 4 with suction 5 and injection valves b, the valve valve and valve valve cavities of which are combined respectively by suction valve 7 and

8 discharge manifolds. The working chamber 3 and 4 is separated from the hydraulic actuator chamber 9 and 10 by a diaphragm 11 and 12 with a rigid center connected through a movable rod with a movable propellant 13 and 14,

0 located in the cavity 15 and 16 of the return of the diaphragm, separated from the hydraulic chamber 9 and 10 by the seal 17. The movable propellant 13 and 14 is made with a channel 18 in which the valve 19 is mounted.

5 The cavities 15 and 16 of the return diaphragm are interconnected by a pipeline 20, which through two series-connected retaining valves 21 and 22 is connected to a drain line 23.

0 The inter-valve cavity of the retaining valves 21 and 22 is connected to the hydraulic actuating chambers 9 and 10 by means of check valves 24 and 25 and pipelines 26 and 27. The movable propellant 13 and 14 has

5 allows axial movement both with respect to seal 28 and with respect to seal 29 located on the stationary propellant 30 and 31. In the latter there is a channel 32. in which valve 33 is mounted. The stationary propellant 30 and 31 are located inside the movable propellant 13 and 14 and jointly form a cavity which is a feed chamber 34 and 35. It is located

5 throttle damper type 36 and 37.

The movable displacer 13 and 14 is kinematically associated with the input link of the freewheel 38, or the ratchet mechanism.

0 ma, the output link of which is fixed on the shaft of cam 39, which is geometrically closed in the body of the reversing control valve 40, and the kinematic connection between the cam 39 and the movable tip 5 of the clamper 13 and 14 is carried out during the direct course of the latter. The kinematic coupling of the movable displacer 13 and 14 with the freewheel 38 is implemented, for example, in the form of a rack 41 and 42, rigidly connected with the movable displacer 13 and 14, and a gear wheel 43 and 44.

The oil from the oil tank 45 to the reversing valve 40 is supplied by the oil pump 46 through the filter 47 through the power valve 5, which is equipped with a safety valve 49, which, if necessary, flushes the oil 45 through the drain line 23. The working chamber 3 and 4 can be separated from the hydraulic chamber 9 and 10 by a working piston 50 connected via a rod to the driving piston 51, while the cavity between them can be used to circulate the washing liquid (Fig. 2).

The pump works as follows.

The movable propellant 13 and 14 is set to the position corresponding to the end of the return stroke (the leftmost one in Fig. 1), and the hydraulic system is filled with driving medium.

From the oil pump 46, the oil flows through the power line 48 into the cylinder window of the reversible-hydraulic distributor 40. If its spool is in the extreme position, for example, then the oil enters through the pipeline 27 into the hydraulic drive chamber 10 and acts on the pumped medium through the diaphragm 12, which leads to the displacement of the pumped medium from the working chamber 4 through the valve 6 into the discharge manifold 8 and further to the consumer.

The movable displacer 14. is rigidly connected to the diaphragm 12 and simultaneously moves with it, while the oil is displaced from the return cavity of the diaphragm 16 through conduit 20 into the return cavity of the diaphragm 15, while the mobile displacer 13 reverses. When moving the movable propellant 14, the oil from the drain line 23 through the valve 33 enters the feed chamber 35. The retaining valve 21 is closed, since its opening pressure is higher than the pressure required to move the movable propellant 13. The return velocity of the movable propellant -13 is slightly greater than the forward speed of the movable propellant 14, since the return diaphragm 15 additionally enters the oil from the feed chamber 34 through the valve 19.

The diaphragm 11, which is rigidly connected with the mobile displacer 13, simultaneously reverses with it, the pumped medium through the valve 5 enters the working chamber 3, and the oil from the hydraulic drive chamber 9 enters the cylinder window and the hydraulic distributor 40 drain and, further, along the drain line 23 into the oil tank 45. With this movement of the mobile propellants 13 and 14 and the gear racks 41 and 42 rigidly connected with them, the wheels 43 and 44 rotate in opposite directions, while the cam 39 receives rotation only from the wheel 4 four.

 At the end of the return stroke of the movable propellant 13, the piston of the damping device 36 comes into contact with the stationary propellant 30, which leads to the throttling of the oil through the damping device, while increasing the pressure in

pipe 20, whereby the retaining valve 21 opens, and the oil through valve 24 through pipe 26 enters the drain box of the hydraulic distributor 40 and further along the drain line 23 to the oil tank 45.

0 As a result, deceleration of the movable propellant occurs 13.

Further, after stopping the movable propellant 13, the movement of the movable propellant 14 leads to

5 move the spool to a position where the drain valve 40 of the valve 40 is closed (position b). In this case, a pressure is established in the hydraulic chamber 9, which in its value is equal to the differential on the retaining valve 22. Thus, it is prepared for subsequent connection to the hydraulic actuating chamber 10, carried out when the cylinder cylinders are connected to each other.

5 windows of hydraulic distributor 40 (position c). In this position of the hydraulic distributor, when its spool moves, the cylinder window and the flow of oil flowing through it into the hydraulic drive chamber 9 increase, and the cylinder window and the flow of oil flowing through it into the hydraulic drive chamber 10 decrease. In proportion to this, the pumped medium enters the discharge manifold 8 of

5 of both working chambers 3 and 4, while, due to the constancy of the total volume of oil coming from the oil pump 46 through the valve 40, the flow at the outlet of the pump is even.

0 Drainage of oil from the return cavities of the diaphragm 15 and 16 continues through retaining valves 21 and 22 /

In the position g of the hydraulic distributor 40, when the cylinder window is closed, through which oil enters the hydraulic actuator chamber 10, all the oil begins to enter the hydraulic actuator chamber 9, and the pumped medium enters the discharge manifold 8 only from the operating chamber 3.

This valve 24 is closed, and the movable propellant 13 moves at a constant speed and through the rail 41, the wheel 43 and the coupling 38 continues to rotate the cam 39, which in turn moves the valve 5 of the distributor 40, opening its drain port in the position d, the connecting hydraulic and water chamber 10 through the pipeline 27 and the drain line 23 with the oil tank 45. The pressure in the pipe 20 decreases, the retaining valves 21 and 22 are closed, and the movable propellant 14 begins to reverse.

If initially the valve of the reversing control valve 40 is in any of the intermediate positions, the operation of the hydraulic diaphragm pump will be similar to that described above. The difference lies in the fact that in positions b and in the control valve 40, the first forward stroke of the movable propellant 14 is reduced, and in position z, the first forward stroke of the movable propellant 13 is reduced.

The implementation of this scheme allows to obtain a uniform flow at the outlet of the pump with uniform power extraction from the hydraulic system of the drive.

Claims (2)

1. A hydraulic reciprocating clock, containing two working blocks, each of which includes a working and hydraulic actuator chambers, separated by an elastic diaphragm having a rigid center connected to a movable rod, and a distribution reversing device connected to the drive hydraulic system with a power and drain line mi, characterized in that, in order to improve the technical and operational characteristics of the pump and to obtain a uniform flow at the pump outlet with a uniform power take-off from the drive hydraulic system, azhdy working unit is provided with a movable displacer rigidly associated with the movable rod and forming together a working unit housing a diaphragm return cavity, and a fixed displacer, rigidly connected with the body of the working unit and located inside the movable displacer, the movable and stationary propellants are made with channels, each of which has a valve, and between them a cavity is formed, which is a feed chamber that connects the drain line with the diaphragm return cavity, and the diaphragm return cavities are interconnected by a pipeline series-connected retaining valves are connected to a drain line, the inter-valve cavity of the retaining valves is connected by pipelines with check valves to hydraulic actuating chambers, and a reversing device It executes a four-way claim tipozitsionnogo Hydrodistributor last in contact with the cam, rotatably mounted and kinematically associated with each movable displacer through the overrunning clutch or ratchet mechanism. 2. A pump according to claim 1, characterized in that the retaining valve directly connected to the pipeline connecting the diaphragm return cavities is set to a pressure value sufficient to return the movable propellants, and the other retaining valve is set to medium pre-compression pressure hydraulic camera aperture in front of its working stroke. 49 / J Editor E. Papp Schi g 2 Compiled by A. Rozanov Tehred M.MorgentalKorrektor M.Demchik 1753025