SU885600A1 - Hydraulically driven propotioning pump - Google Patents

Description

(5) HYDRAULIC DRIVER PUMP

The invention relates to a pump engineering industry, relates to hydraulically driven metering pumps and can be used in various areas of the national economy for the metering of fluids in process lines. A hydraulically driven metering pump containing a pumping chamber with suction and discharge nozzles, separated by an elastic separator from intermediate chamber, in turn, separated from the driving medium connected to the source of the drive medium, spring-loaded in the direction of the last floating piston, copulating between mutually remote emymi adjustable abutments 1. The disadvantage of this pump is substantially dependent on the actual feed pump rabocheg pressure, which reduces the accuracy of dosing. The aim of the invention is to improve the metering accuracy. The indicated objective is achieved by the fact that the pump is equipped with a two-way pressure drop three-way valve with a normally closed output and one of the control lines connected to an intermediate chamber, a normally open output to the drive chamber, input to the source of the driving medium, and the other controlling hydroline to the discharge nozzle, the driving and intermediate chambers communicating with the source of the driving medium through no set-return valves, normally open for the passage of drive fluid to the source. The drawing shows a diagram of the described pump. In the housing 1 there is a pump chamber 2 with suction 3 and discharge nozzles. Chamber 2 is separated by an elastic separator 5, prisoner i between the perforated limiters 6 and 7, from the intermediate chamber 8. The latter, in turn, is separated from the drive chamber 9 by a spring-loaded spring 10 to the side of the last chamber by a floating piston 11 that is installed between mutually adjustable remote stops 12 and 13. The stop 13 is equipped with an adjustment mechanism 1. The drive chamber 9 is connected to the source 15 when the water environment, in which quality can be used or hydropower. or a high pressure hydraulic line 17 with a hydraulically controlled distributor 18 and a drain tank 1 DL. the connections of one or another source 15 are valves 20. The pump is also equipped with a two-position differential pressure controlled three-way valve 21, normally closed (the output 22 of which and one of the control lines 23 are connected to the intermediate chamber 8, the normally open output 2 to the drive chamber 9, the inlet 25 - to the source 15 of the drive medium, and another control line of the hydroline 26 - to the discharge nozzle k. At the same time, the drive 9 and intermediate 8 chambers communicate with the source 15 of the drive medium through an additional These check valves 27 and 28, normally open for the passage of the drive medium to the source 15. The intermediate chamber can be connected to the source 15 through the check valve 28 either directly or sequentially through the drive chamber 9 and the return valve 27. In the connections 3 and 4, the suction 29 and discharge 30 valves are respectively installed. For dosing several components, an additional pump unit 31 can also be connected to the source 15 of the drive medium. The control valve 21 is equipped with a return spring 32. In the second periodic drive .noy feed medium from a source 15 into the transfer chamber 9, the piston 11 performs reciprocating movement, resulting in motion through drive hydrochloric environment in the intermediate chamber 8, the elastic spacer 5.. oscillation x - the last between the limiters 6 and 7, there is a periodic change in the volume of the pumping chamber 2, 04; 5 lies on stopper 7. Pump chamber 2 is filled with dosing medium. At the beginning of the injection stroke, when the drive medium from the source 15 is fed to the inlet 25 of the control valve 21, the latter is in the position shown in the drawing, since the pressure in the control unit claiming the hydraulic line 26 is equal to the injection pressure and the pressure in the control hydraulic line 23 equal to the pressure in the intermediate chamber 8, which at this point is still equal to the pressure inlet. The valve 21 directs the drive medium to the intermediate chamber 8. In the latter, the pressure rises and the drive and dosing media in the intermediate 8 and pump 2 chambers are compressed. The piston 11 remains pressed against the stop 13. As the pressure increases in chambers 2 and 8, the pressure differential between the lines 2b and 23 decreases. When a certain small value of this differential is reached, the spring 32 of the hydraulic distributor 21 transfers it to the initial position, at which the input 25 is in communication with the normally open output. The drive medium enters the drive chamber {eu 9 and the intermediate chamber 8 is sealed. The piston 11 begins to move in the direction of the stop 12 and, through the driving medium in the chamber 8, transmits movement to the separator 5. The dose of the pumped medium displaced by the separator 5 from the pump chamber 2 during the injection stroke corresponds exactly to the product of the area of the piston 11 by its stroke between the stops 13 and 12. By adjusting the distance between these stops, it is possible to regulate the pump flow. During the suction stroke, the piston 11 under the action of the spring 10, and the separator 5 Guud, by the action of some slight overpressure in the suction nozzle 3, returns to the initial position, i.e. the vacuum created by the source 15, i.e. the piston 11 to the stop 13, and the separator 5 to the limiter 7. In this case, under the action of the newly created pressure drop between

control hydrolines 26 and 23 of the hydraulic distributor 21, it switches to the position shown in the drawing, and the driving medium is discharged from chamber 8 through outlet 22 of the hydraulic distributor 21 communicated to input 25 at this time, and from chamber 9 through a non-return valve 27. At the initial moment operation of the pump, while pressure is still absent in the discharge port 4 and the valve 21 switches chamber 8, the flow medium is released from chamber 8 through the check valve 28, and the drive chamber 9 and the check valve 27.

Thus, at the end of each suction stroke, the piston 11 and separator 5 occupy the initial extreme left positions and the pumping cycle is repeated during the injection stroke.

By eliminating the error associated with some loss of travel of the pistons 11 by precompression of the drive medium in chamber 8 and the metering medium in the pump chamber 2, the proposed dredging means are improved by the technical means. .

invention formula

Hydraulic metering pump containing pump chamber with vsasy85600 .4

branch and discharge pipes, separated by an elastic separator from the intermediate chamber, which in turn is separated from the drive chamber connected to the source5 of the driving medium,

spring-loaded in the direction of the latter, a floating piston, installed between mutually adjustable distance stops, differing in 1F in order to improve the metering accuracy, the pump is equipped with a two-poe three-way hydraulic distributor controlled by a differential valve to the intermediate chamber, a normally open outlet to the drive chamber, the inlet to the source of the drive medium, and the other controlling the hydraulic control valve to the discharge nozzle, The drive and intermediate chambers communicate with a source of driving medium through additionally installed check valves, normally open for passage of the driving medium to the source.

Sources of information taken into account in the examination of JM 1. Britvin L.N. New in the development of hydraulic pumping units. M., TSNITIHIMNEFTEMLSH, 1978, p.13, fig. 3g.

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Claims (1)

Claim Hydraulic drive metering pump containing a pump chamber with suction and discharge nozzles, separated by an elastic separator from the intermediate chamber, in turn separated from the drive chamber connected to the source of the drive medium, spring-loaded towards the last floating piston installed between mutually adjustable distance stops, different K) the fact that, in order to improve the accuracy of dosing, the pump is equipped with a two-position controlled by differential pressure three-way valve For example, a normally closed outlet of one of which and one of the control hydraulic lines are connected to the intermediate chamber, a normally open output to the drive chamber, the input to the source of the drive medium, and the other control hydraulic line to the discharge pipe, the drive and intermediate chambers being connected to the source of the drive medium through additionally installed non-return valves, normally open for passage of the drive medium to the source.