SU549593A1 - Hydraulic Dosing Pump Installation - Google Patents

Description

The invention relates to pump engineering and relates to devices for metering chemically aggressive and contaminated liquids.

Hydraulic-driven metering pump installations are known, in the hydroblock of which a separator is installed between the pumping and hydraulic actuating chambers, and the hydraulic actuating chamber communicates through a reversible controllable distributor with a source of driving liquid.

The known dosing units have low dosing accuracy when the operating pressure at the inlet and outlet changes during operation and require the use of complex devices to control the dosing process.

The aim of the invention is to improve the accuracy of dosing and to enable the use of discrete control devices, such as an electronic computer.

This is achieved in that the installation is equipped with an additional metering impulse pump with a displacement volume substantially smaller than the hydroblock working volume, for example, 500 times, and with a balanced impulse drive synchronized with a reversing distributor control device for switching it during the moments between the additional supply pulses. , moreover, the suction line of the latter is connected to the distributor drain line, and a loading device is installed in the discharge line, for example A spring-loaded differential overflow valve configured for a response pressure greater than the pressure in the supply line of the hydraulic unit pump chamber.

To increase the reliability of the installation, the separator of the hydraulic unit is made in the form of two elastic diaphragms, the cavity between which, filled with liquid, communicates with the driving chamber of the control device of the reversing distributor for switching it in one of the extreme positions of the elastic separator interacting with the driving fluid. In addition, to extend the control range, the additional metering pump is provided with a device for adjusting its working volume.

FIG. 1 shows a diagram of the proposed dosing unit; in fig. 2 shows a version of a dosing unit with a double elastic separator.

There is an elastic separator in the hydrrblock / unit, made in the form of one 2 or two diaphragms 2 and 3, between which the intermediate cavity 4 is located. The separator separates the pump chamber 5 from the hydraulic actuator chamber 6, which is connected through the flow controller 7. to the output of the reversing distributor 8. One of the inputs of this distributor is connected to the source of pressure 9 of the drive fluid, and the second input is connected to the suction line of the adjustable dosing pump 10, equipped with a discrete pulse drive device 11.

In the second installation, the suction line of the metering pump 10 communicates directly with the hydraulic drive chamber 6 of the hydraulic unit 1, and the pulse drive unit contains a controlled reversing distributor 12, the number of switchings per unit of time is set by the control unit (not shown).

A loading device is installed in the pressure line of the pump 10 - a spring-loaded differential overflow valve 13, one of the control lines of which is connected to the outlet of the pump 10 and the other to the supply line 14 of the pump chamber 5 or to the intermediate cavity 4. The reversible distributor 8 is equipped with hydraulic cylinders 15 and 16 and a control device 17 synchronized with a pulsed drive // metering pump 10.

The drive cavities of the hydraulic cylinders 15 and 16 are hydraulically communicated, respectively, with the hydraulic drive chamber 6 of the hydraulic unit J and with the outlet of the distributor 8. In the second embodiment of the dosing unit, the drive cavity of the hydraulic cylinder 16 is connected to the intermediate cavity 4 of the separator.

The installation works as follows.

In the suction stroke, the valve 8 switches to the position where the hydraulic drive chamber 6 is disconnected from the pressure source of the drive fluid and communicated only with the suction line of the metering pump 10. During this period, a dose of fluid is formed which is proportional to the pump working volume 10 and the number of pulses received for it time on a discrete pulse drive 11 or distributor 12 from a control device, for example, an electronic computer. The pre-tension of the spring of the overflow differential valve 13 is chosen such that it is triggered at. the pressure is somewhat greater than the pressure in the supply line 14. In this case, at the outlet of the pump 10 some pressure is removed, which prevents the spontaneous flow of the drive fluid from the hydraulic actuating cavity 6 to the drain.

After testing the set number of pulses and forming the dose by pump 10, the control unit sends a signal to the reversing valve 8 and the latter reports the drive cavity 6 with the pressure source 9 of the Drive Fluid. At the same time, the supply of control pulses is stopped.

to the drive // of the pump 10. In the discharge stroke, the dosing fluid is supplied continuously, and its magnitude is determined by the flow regulator 7. In the rightmost position of the separator 2, the pressure in the drive chamber rises and the hydraulic cylinder 15 switches the distributor S. Operation cycle. is.

If, for any reason, separator 2 reaches the leftmost position in the suction stroke, then pressure leverage will occur on it and in hydraulic cylinders (5 and 16) 1p (after which the valve 8 will switch to another position.

The accuracy of dosing and a wide range of regulation are ensured by the fact that the displacement volume of the metering pump 10 is made substantially, for example, hundreds of times smaller than the displacement volume of the hydraulic unit.

Claims (3)

1. Hydraulic drive dosing pump, in the hydraulic block of which a separator is installed between the pump and hydraulic actuator chambers, and the hydraulic actuator chamber communicates through a reversible controlled distributor with a source of drive fluid pressure, in order to improve the dosing accuracy and ensure the use of discrete setting control devices, for example, an electronic computer, the installation is equipped with an additional dosing impulse pump with a working volume that is significantly less than tidroblock removals, natrimer 500 times, and with controlled impulse drive synchronized with reversing distributor control device for switching it during the moments between the additional pump supply pulses, the suction main of the latter is connected to the drain line of the distributor, and in the discharge line a loading device, for example, a spring-loaded differential overflow valve, configured for a response pressure greater than the pressure in the intake line the hydraulic chamber. 2. Pump installation according to claim 1, characterized in that the separator of the hydraulic unit is made in the form of two elastic diaphragms, the cavity between which, filled with liquid, communicates with the driving chamber of the control device of the reversing distributor for switching in one of the extreme positions of the elastic separator, interacting with driven fluid. 3. Pump installation on PP. 1 and 2, that the additional dosing pump is equipped with a device for adjusting its working volume. 56 The source of information received in the aircrafts. M., Mashinostroenie,: mania under examination: 1967, p. 275, fig. 210. 1. Bashta TM Hydraulic drives 549593 ,