SU781412A1 - Hydraulic drive - Google Patents

Description

The invention relates to general-purpose hydraulic actuators and can be used in hydraulic actuators with variable-capacity pumps that have an increased sensitivity to contamination of the working fluid. A known hydraulic actuator, a variable-displacement hydraulics pump, communicated with an operating hydraulic motor by working hydraulic lines, in which filters and filter contamination sensors installed in the hydrolines are installed, and an auxiliary iacoc with a controlled relief valve, communicated with a variable-capacity pump performance control jll Disadvantage This hydraulic drive is the lack of automatic shutdown of the pump in case of increased contamination of filters, which can lead to last usheniyu. “The purpose of the invention is to increase the reliability of the hydraulic drive by means of the emergency shutdown of the pump with increased contamination of the filters. This goal is achieved by the fact that the filter contamination sensors are made in the form of two-way hydro-controlled valves, the control chambers of which communicate with the hydraulic lines before and after the filters, the inputs communicate with the hydraulic lines after the filters, and the output with the control chamber of the discharge valve, with This discharge valve is made with hydraulic and manual control. The drawing shows a diagram of the hydraulic drive. The hydraulic drive contains a variable-capacity pump 1, communicated with an executive hydraulic motor 2 by working hydraulic lines 3 and 4, in which fine filters 5 and 6 and filter contamination sensors are installed, made in the form of two-way hydraulically controlled valves 7 and 8. Control chambers 9, 10 and 11, 12 distributors 7 and 8 are connected to blue lines 3 and 4 before and after the filterpvffe, respectively, and their inputs are connected to the hydraulic lines after the filters. The hydraulic actuator also contains an auxiliary pump 13 with a controlled unloading valve 14, with the control cavity 15 of which the outlets of the valves 7 and 8 are connected. The discharge hydraulic line 16 of the pump 13 communicates via check valves 17 and 18 s

hydraulic lines 3 and 4, respectively, as well as with the output control body of the main pump 1, made in the form of a zero-setter 19; The discharge valve 14 of the pump 13 is simultaneously operated with manual control in the form of a handle 20. Parallel to the filters 5 and 6 are installed check valves 21 and 22 The pump 13 communicates with the tank 23 overflow valve 24.

The hydraulic actuator works as follows.

During normal operation of the hydraulic drive with non-contaminated filters 5 and 6, the working fluid enters pump 1, for example, via hydraulic line 4 through filter 6, and is fed into hydraulic actuator 2 through hydraulic line 3 via non-return valve 21. The differential on filter 6 is small and therefore control cavity 15 the relief valve 14 is disconnected from the hydraulic line 3 and 4 of pump 1 by distributors 7 and 8. The auxiliary pump 13 uses the overflow valve 24 to create the pressure required for the operation of the control element 19 of the pump 1 and provides power to the power horse hydraulic tour through check valves 17 and 18.

When the flow direction of the pump 1 is changed, the functions of the hydraulic lines 3 and 4 are reversed, the operation of the hydraulic drive occurs in the same way as described above.

When the filter in the low-pressure hydroline 3 of the pump is contaminated, the pressure drop across the filter 5 is sufficient to operate the distributor 7, which connects the hydraulic line 3 to the control cavity 15 of the discharge valve 14. The valve 14 moves to the Open position, locks in it and connects the auxiliary pump 13 with tank 23. The pressure in hydroline 1.6 at the same time becomes less than the setting of the overflow valve 24 and the zero setter 19 reduces the flow of pump 1 to zero.

In the event that the hydraulic actuator has been disconnected from accidental causes, for example, an increased viscosity of the working fluid at start-up, it can be brought back into working condition with the handle 20 of the manual control of the unloading valve 14.

When the main filter is soiled, the system is only put into operation after changing or washing the filter.

Thus, due to the emergency shutdown of the main pump when the filters are soiled, the reliability of the hydraulic drive is increased.

Claims (2)

1. A hydraulic actuator containing a variable-capacity pump, communicated with hydraulic actuators by working hydraulic lines, in which filters and filter contamination sensors are installed, and an auxiliary pump with a controlled unloading valve, communicated with a variable-capacity pump performance control unit, T ich tions and so that, in order to increase reliability by emergency shutdown of the variable pump performance, filter contamination sensors are made in the form of two-way hydraulically controlled valves, the control chambers of which communicate with the hydraulic lines before and after filters, inlets are communicated with post-filter hydraulic lines, and the outlet is connected to the control cavity of the discharge valve. 2. The hydraulic actuator according to claim 1, about the fact that the unloading valve is made with hydraulic and manual control. Sources of information taken into account in the examination 1. US patent No. 3498061, CL. 60-52, 1970.