SU1107883A1 - Apparatus for degassing liquids of hydraulic system - Google Patents

Abstract

1. A DEVICE FOR DEGASING LIQUIDS OF HYDRAULIC SYSTEMS, which contains a degassing tank connected with an ejector and a hydraulic tank, about l and h h, which, in order to increase the efficiency of degassing, is equipped with an additional ejector, the suction channel of which is connected to the upper part of the degassing tanks, and the distributor installed between the degassing tank and an additional ejector. - WJTTTP (L s-sz W 00 CX) 00 11 / / 9

Description

2. The device according to claim 1, in a line connecting the overhead so that it is equipped with an adjustable throttle, is set to 1107883

nuvny part of degassing capacity with the distributor.

The invention relates to the operation of hydraulic systems, and specifically to devices for removing air from the fluid in hydraulic systems.

A degasser is known which contains a settling tank and a gas evolution chamber divided by a partition on which a diffuser chamber of a gas-liquid ejector 1 is installed.

However, in the known device, the degassed liquid is ejected into the gas-splitting chamber under atmospheric or excessive pressure, which reduces the efficiency of gas separation.

The closest to the invention in technical essence and the achieved result is a device for degassing hydraulic fluids containing a degassing tank connected via a distributor with an ejector and a hydraulic tank. In the upper lid of the tank there are channels connecting it through a throttle with a hydraulic tank and an ejector 2.

A disadvantage of this device is the removal of a liquid that was removed during the degassing of air by displacing it with a fluid under some excessive pressure, which leads to a partial dissolution of exhaust air into the liquid, which reduces the efficiency of degassing. The installation of the distributor controlling the operation of the device between the degassing tank and the ejector creates additional resistance to the flow of the liquid ejected from the tank. This reduces the amount of vacuum created by the ejector, and hence the efficiency of degassing. In addition, during the period of removal of released air, the liquid passing through the device does not degas, which reduces the efficiency of degassing during the full cycle of operation of the device.

The aim of the invention is to increase the efficiency of degassing.

This goal is achieved by the fact that a device for degassing hydraulic fluids containing a degassing tank connected to an ejector and a hydraulic tank is equipped with an additional ejector, the suction channel of which is connected to the upper part of the degassing tank, and a distributor installed between the degassing tank and an additional ejector.

In addition, the device is equipped with an adjustable choke installed in the line connecting the upper part of the degassing tank to the distributor.

The drawing shows a schematic diagram of a device for degassing a liquid.

The device contains a degassing tank 1 with liquid level sensors 2 located inside it. The cavity of the degassing tank 1 through the channel in the bottom cover is connected to the suction channel of the liquid ejector 3 installed in line 4, which passes into the hydraulic tank 5 a part of the hydraulic system drain stream. In the pressure line of the pneumatic pump 6, an additional ejector 7 is installed, connected by its suction channel to the upper part of the degassing tank 1 through the distributor 8 and the adjustable choke 9. The tank .1 is connected to the hydraulic tank 5 with the hydraulic line 10 containing the adjustable choke 11.

The device works as follows.

When the working fluid enters the hydraulic system into the ejector nozzle 3, part of the liquid from the pre-filled degassing tank 1 is sucked out by the ejector into the hydraulic tank 5. As a result of the pressure drop in the tank, the air begins to fill in

accumulates under the top of the tank. Simultaneously with the ejection of the liquid from the degassing tank 1, the liquid from the hydraulic tank 5 begins to enter it through the hydroline 1. At a certain value of the vacuum in the tank 1, installed by the throttle 11, equilibrium is emitted and the liquid flows into the tank 1. As the device operates, the degassing tank is filled with air flowing out of the liquid and the level of the liquid in the tank decreases to the position of the lower sensor 2. This causes the distributor 8 to switch to a position that informs the additional ejector 7 with the tank 1 and simultaneously activates the pneumatic pump 6. Ejector parameters 7 and pump 6 pumping supply, creating by the ejector 7 the creation of a vacuum more than the ejector 3. The ejector 7 sucks air from tank 1, which upsets the balance between the flow of 5–1 m into the tank from hydro 5 aka ejector 3 and the suction flow of fluid. The tank is filled with a fluid degassing due to the vacuum created by the ejector 7. The intensity of the ejection of air from the tank, and hence the speed of filling the tank with liquid, is controlled by the throttle 9. When the liquid reaches the top sensor of the electrical control system, the valve 8 is switched to its original position and the repeat cycle is.

Removing air from the degassing tank that was leaked during the degassing process of the liquid, sucking it out with the help of an installed additional ejector provides a vacuum above the free surface of the liquid in the degassing tank during the liquid degassing process as well as evacuated air from the tank. This causes continuous operation of the device in degassing mode and complete air removal and allows an increase in the amount of air released and removed from a unit volume of fluid. Thus, increasing the efficiency of fluid degassing in the proposed device as compared with the known ones. In addition, connecting the suction channel of the main ejector directly to the degassing tank reduces the hydraulic resistance of the fluid flow ejected from it, which contributes to the creation of a large ejector in the degassing tank and, therefore, the efficiency of degassing .

Claims (2)

1. DEVICE FOR DEGASING LIQUIDS OF HYDRAULIC SYSTEMS, containing a degassing tank associated with an ejector and a hydraulic tank, is longer, and in order to increase the efficiency of degassing, it is equipped with an additional ejector, the suction channel of which is connected to the upper part of the degassing tank, and a distributor installed between the degassing tank and an additional ejector. J SU .... 1107883 2. The device according to π. 1, installed in a line connecting the top - in that it supplies a part of the degassing tank with a wife with an adjustable choke, a distributor.