SU530108A1 - Dosing method adjustable displacement pump - Google Patents

Description

one

The invention relates to the field of dosing equipment and can be used in ensuring the technological process in the chemical, food, pharmaceutical, oil refining industries,

as well as in other industries.

Methods are known for metering with a variable displacement pump by taking a portion of the liquid from the main pump main line with an auxiliary pump as a function of the pressure differential across the main pump.

These methods can significantly improve the accuracy of dosing of easily compressible and gas-saturated media, however, they are associated with the loss of some of the power consumed during dosing, and therefore are not always economical.

There are also known methods for dosing with an adjustable volumetric pump by correcting the pump displacement according to the actual supply, measured from the moment of the beginning of the displacement of fluid from the working cavity of the pump into the flow line.

These methods are more economical and allow for a sufficiently high accuracy of dosing of easily compressible and gas-containing media, however, the need to correct the pump displacement requires the use of rather complex control devices and controls.

In addition, methods are known for metering with a variable displacement pump; pre-pressure increase in the main block main pump using an auxiliary pump before displacing the liquid into the pressure line.

The latter methods provide highly accurate dosing, but are only suitable for pumps with dynamic coupling of a displacer with a drive, for example, for hydro-drive pumps.

The aim of the invention is to expand the scope of application of the method to pumps with a kinematic coupling of a displacer with a drive.

The goal is achieved by the fact that at the end of the suction stroke they provide an excess of the instantaneous auxiliary feed.

of the gel pump over the instantaneous flow rate of the main pump and at the same time increase the pressure in the latter to a value slightly lower than the pressure in the pressure line, and this process is completed by the moment the displacer begins to move.

The proposed joint venture is described in the drawings, gadenafig. 1 shows one of the possible diagrams of a pump installation; in fig. 2-diagram of pump feeds as a function of the angle of rotation of the drive shaft f.

The main variable displacement pump comprises a hydraulic unit 1 with a working chamber 2, the displacer 3 (piston) of which is associated with a drive mechanism 4 equipped with

a scale 5 for setting the stroke of the displacer 3 and, consequently, the pump feed, a cam 7 connected with the shaft b of the drive mechanism, interacting with the auxiliary pump displacer - the piston 8.

The cam profile is made so that at the end of the suction stroke of the main pump, when the displacer 3 moves to the right, the instantaneous supply of the booster pump exceeds the instantaneous change of the working chamber 2. A loading device 9 is connected to the working chambers of the auxiliary pump, the control line 10 is hydraulically connected to the pressure pump. line 11 of the main pump. The loading device is equipped with a splitter 12, loaded with a spring 13 installed between it and the piston 8, in the direction of the control line 10. Working Kame 2 of the main pump is equipped with a suction valve 14

The proposed method is implemented as follows.

At the end of the suction stroke of the main pump, when the piston moves to the right, the cam 7. provides an instantaneous movement of the piston 8, at which the instantaneous supply of the auxiliary pump exceeds the instantaneous flow rate of the main pump O. At this, the

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the suction valve 14 of the main pump and the pressure in the working chamber 2 increases

to a pressure somewhat lower than pressure in pressure line 11. This pressure difference is determined by the amount of compression of the spring 13, since the supply of the auxiliary pump stops when the forces acting from two sides on the separator 12 are equalized as a result of movement of the divider 12 towards the control line 10 The process of supplying the metered medium with an auxiliary pump is completed by the moment of the start of movement of the displacer 3 of the main pump for discharge,

In the particular case, when the loading device 9 of the auxiliary pump can simultaneously protect the hydraulic unit 1 of the main pump from increasing pressure in it over the operating pressure acting in the pressure line 11, the auxiliary pump can be supplied according to the law o, g, in this case the pump of the dosing medium into the working chamber 2 of the main pump stops from the moment of movement of the displacer 3 for injection and will, for example, be discharged into the suction line of the installation.

Claims (1)

Invention Formula The method of dosing with an adjustable volumetric pump by preliminarily increasing the pressure in the hydraulic block of the main pump with the help of an auxiliary pump before starting to push the liquid into the pressure line, characterized in that, to broaden the field of application of the method to pumps with a kinematic coupling of the displacer with the drive, ensure that the instantaneous supply of the auxiliary pump exceeds the instantaneous flow rate of the main pump; the pressure in the latter is increased to a value less than The pressure in the pressure line and finish the process by the time the motion propellent on NSH Netanya. 7 bsasybani stroke iodine pump