SU1397621A1 - Piston pump valve unit - Google Patents

Abstract

The invention relates to pump construction and allows to increase the speed of opening the pump suction valve. Device for reporting them

Description

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(L

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 vj

FIG.

the pulse of movement to the suction valve is made in the form of a pneumatic accumulator torus, consisting of 14 gas and 14 hydraulic

16 cavities (P), and connected by a channel

17c P 16 and the annular chamber (K) 18 formed with the valve closed. The active surface K 18 is made on gate 4 and reactive on the saddle 5, and P 16 connected to pump K 11 by means of throttle channel 19. Hydropneumo-akky Gyul top m. placed in the housing 2, the active surface K 18 is made in the form of an annular groove on the shutter container, the reactive surface is on the sealing seat 7, and the channel 17 is made in the case and the seat body and enters the juice in the area of the annular groove. Hydro-pneumoaccumulus tor. M. also placed in the plate shutter. The lock and the saddle in the interface of their guide elements are provided with cylindrical surfaces on the cylindrical surfaces with an annular annular elastic sealing element. When the piston 25 moves, the pressure in K 11 changes, the energy of the working fluid pressure from the previous cycle acts through the membrane on the liquid in П 16 and through the channel 17 on the active surface K 18, imparting an impulse of movement to the gate and its separation from the port. Channel 19, due to its considerable hydraulic resistance, prevents the battery from discharging directly into K 11, K 18 mine. 2 Cp f-ly, 2 ill.

one

The invention relates to pump construction, in particular, to piston pumps with valve distribution.

The aim of the invention is to increase the speed of opening the suction valve.

Figure 1 shows the valve unit of a pressure pump, section; 2 shows an embodiment of a pump suction valve.

The valve assembly of the piston pump contains a housing 2 fixed at the end of the working cylinder 1 with the suction and discharge valves installed in it.

The suction valve includes a spring-loaded disc 3 of the disc valve L and a saddle 5, coupled along the guide cylindrical surfaces 6 and mounted with the possibility of contact between the plate of the valve 4 and the sealing ring 7 of the seat 5 to close the valve. The overflow valve includes the seat 8 and the shutter 10 pressed against it by the spring 9. The suction and discharge valves serve to alternately communicate the working chamber I of the pump with the suction and discharge manifolds (not shown). The compressed manifold is connected to the inlet to the suction valve with

channel 12 in the housing 2, and the outlet of the discharge valve is connected to the discharge manifold via channel 13 in the housing 2.

The suction valve is equipped with a device for collecting a pulse of movement after a pressure differential occurs on the discharge valve, made in the form of a hydropneumatic accumulator consisting of gas 15 and hydraulic 16 cavities separated by a membrane 14, and connected by a channel 17 to the latter and formed at the closed position of the valve of the annular chamber 8, having an active surface formed on the gate 4 and reactive - performed on the saddle 5j and the hydraulic cavity 16 of the battery using the throttle

channel 19 is additionally communicated with the working chamber 11 of the pump. The shutter 4 can be further compacted using elastic rings 20 and 21. The hydro-pneumatic accumulator can be

placed in the housing 2, the active surface of the annular chamber 18 is made in the form of an annular groove on the plate of the gate 4 of the suction valve, the reactive surface on the sealing 7 of the seat 5, and the channel for communicating the hydraulic cavity 16

the accumulator with the annular chamber 18 is made in the body and body of the saddle 5 and extends onto the sealing lip 7 of the latter in the area of the annular groove of the shutter 4 (Fig. 1).

The invention thaws that a hydropneumatic accumulator can be placed in the plate of the valve 4 of the suction valve, the valve 4 and the seat in the interface area of their guide elements along the cylindrical surfaces 6 are provided with an end ring elastic sealing element 22 installed to form the end ring a gap 23 between the surfaces of the gate 4 and the seat 5 communicated with the hydraulic cavity 16 of the battery by the channel 17 to form the annular chamber 18 (Fig. 2). In this embodiment, a longitudinal groove is made on the cylindrical guide seat 5, and a radial hole 24 on the cylindrical guide gate 4.

The pump also has a piston 25 installed in cylinder 1 and a rod 26.

The pump with valve assembly operates as follows.

At the end of the injection stroke, the piston 25 is in the extreme left position, due to the delay in closing the discharge valve, its valve 10 is raised above the seat 8 and the pressure in cavities 15 and 16, the working chamber 11 and the annular chamber 18 are equal to the pressure

pumping. I

At the beginning of the movement of the piston 25

to the right, the pressure in the working chamber 11 drops sharply, a pressure drop occurs on the pressure valve and the shutter 10 sits on the saddle 8, a section of the working chamber P from the discharge manifold. With further movement

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The piston 25, the energy of the variable pressure valves for the alternate barrel liquid from the preceding cycle, stored in the gas chamber 15 of the battery, acts through the membrane 14 on the liquid in the hydraulic cavity 16 and through the channel 17 acts on the active surface of the annular chamber 18 , jointly impulse movement of the gate 4 and its separation from the sealing 7 of the saddle 5, while the throttle channel 19 due to the significant hydraulic resistance prevents the battery from discharging directly into the working chamber P min an annular chamber 18.

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communicating the working chamber of the pump with the suction side and discharge manifolds, the suction valve is provided with a device for imparting a motion impulse after a pressure differential occurs at the discharge valve and includes a spring-loaded that rail gate and seat, which are connected along the guide cylindrical surfaces and installed with the possibility of contact the slide plate with the sealing lip of the seat to close the valve, characterized in that, in order to increase the speed quickly

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five

After the suction channel is opened and the piston 25 is further moved to the right in the working chamber 11, a suction stroke occurs and the pumped liquid from the suction manifold through the channel 12 and the flow area of the seat 5 fills the working chamber.

When the piston 25 moves to the left, the volume of the working chamber II decreases, the pressure in it increases, the valve 4 of the suction valve is in contact with the sealing ring 7 of the seat 5 - the suction valve closes. A further increase in pressure and the working chamber 11 leads to the opening of the discharge valve, i.e. to the separation of the shutter 10 from the saddle 8 and the pumped liquid from the working chamber 1 1 by the piston 25 is displaced through the channel 13 of the housing 2 into the discharge manifold and further to the consumer - the pressure stroke occurs. During the pumping stroke, a hydropneumocumulator of 5 torus is charged, which is carried out from the working chamber I1 through the throttle channel 19, while the pumped liquid that enters the hydraulic cavity 16 through the throttle channel 19

0 acts through the membrane 14 on the gas in the gas cavity 15 and stores energy for the next cycle. Further cycles are repeated.

Thus, the proposed technical solution provides the existence of

It is a great reduction in the opening time of the suction valve.

Claims (3)

Invention Formula I. Valve assembly of a piston pump, containing a housing fixed to the end of the working cylinder with suction and injection installed in it flap valves for alternate communicating the working chamber of the pump with the suction side and discharge manifolds, the suction valve is provided with a device for imparting a motion impulse to it after a pressure differential occurs at the discharge valve and includes a spring-loaded disc valve and seat connected to the guide cylindrical surfaces and installed with the possibility of contact of the plate a shutter with an attendant seat for closing the valve, characterized in that, in order to increase the speed of opening the suction valve, The device for communicating the impulse of movement to the suction valve is made in the form of a hydropneumoaccumulator consisting of gas and hydraulic cavities separated by a membrane and connected to the latter by a channel with the last position of the valve, having an active surface formed on the gate, and reactive, made on the saddle, and the hydraulic cavity of the battery through the throttle channel is additionally communicated with the pump working chamber. 2. Valve assembly according to claim 1, characterized in that the hydraulic accumulator is placed in the housing; the active surface of the annular chamber is made in the form of an annular groove on the slide plate of the suction cap valve, the reactive surface is on the sealing seat, and the channel for communication of the hydraulic cavity of the battery with the annular chamber is made in the body and in the seat body and goes to the sealing lip of the latter in the area of the annular groove of the gate. 3. Valve assembly according to claim 1, characterized in that the hydro-pneumatic accumulator is placed in the plate of the suction valve, the valve and the seat in the interface area of their guide elements are provided with an end ring elastic sealing element installed to form an end ring gap between the surfaces a shutter and seat communicated with the hydraulic cavity of the battery to form an annular chamber. If j5; 5 g // / g Phie.1