RU129580U1 - DEVICE FOR ESTIMATING THE TECHNICAL CONDITION OF HYDROCYLINDERS - Google Patents

Abstract

A device for assessing the technical condition of hydraulic cylinders, including a test bench simulating the operation of a closed loop hydraulic system of automotive machinery, consisting of a test tank connected by a hydraulic line to the pump inlet of the bench, the output of which is connected to a bench pressure gauge, a safety valve, a throttle of the bench, and the output connected through a filter and a cooling radiator with a stand tank, also the stand pump output is connected to the tested hydraulic cylinder, connected by a hydraulic line through the control valves a bench stand, the drain opening of which is connected by a hydraulic line to the stand’s hydraulic tank, characterized in that it is additionally equipped with a hydrostation containing a station’s hydraulic tank, connected to the station’s pump inlet, the outlet of which is connected by a station’s pressure gauge, the station’s choke, the outlet connected to the station’s hydraulic tank, and the station’s hydraulic distributor connected to the loading hydraulic cylinder, which is mechanically connected coaxially with the tested hydraulic cylinder, while the drain hole of the hydrodistributor station soy ineno hydraulic line to hydraulic tank station.

Description

The utility model relates to the field of repair production and can be used to assess the technical condition of hydraulic cylinders.

A known test bench for evaluating the performance of hydraulic units, simulating the operation of a closed loop hydraulic system of automotive vehicles, including a stand tank, a stand pump, a stand distributor, a stand pressure gauge, a safety valve, a stand throttle, a filter, a cooling radiator. The closed loop hydraulic system is controlled by manually switching the stand spool valve to the operating positions. (RU 110435 U1, IPC F15B 19/00, published on November 20, 2011) ..

A disadvantage of the known device is the inability to assess the technical condition of hydraulic cylinders at rated power load.

The technical result consists in ensuring the rated power load of the tested hydraulic cylinder during testing.

The technical result is achieved by the fact that the device includes a test bench simulating the operation of a closed loop hydraulic system of automotive vehicles, comprising a stand tank connected by a hydraulic line to the stand pump inlet, the outlet of which is connected to the stand pressure gauge, a safety valve, a stand throttle, an outlet connected through a filter and cooling radiator with stand hydraulic tank. The output of the stand pump is connected to the test hydraulic cylinder, connected by a hydraulic line through the stand distributor, the drain hole of which is connected by a hydraulic line to the stand tank. The device is additionally equipped with a hydrostation containing a station’s hydraulic tank, connected to the station’s pump inlet, the output of which is connected by a hydraulic line to the station’s pressure gauge, and a station throttle connected to the station’s hydraulic tank by the outlet. The control valve of the station is connected to the loading hydraulic cylinder. The loading hydraulic cylinder is mechanically connected coaxially with the tested hydraulic cylinder. The drain hole of the control valve of the station is connected by a hydraulic line to the tank of the station. Figure 1 shows a device for assessing the technical condition of hydraulic cylinders. The device comprises a test bench, consisting of a stand tank 1, connected by a hydraulic line to the inlet of the stand 2 pump, the outlet of which is connected to a stand 3 pressure gauge, safety valve 4, stand choke 5. The output of the stand 5 throttle is connected through a filter 6 and a cooling radiator 7 s the stand’s hydraulic tank 1. The stand 2’s pump output is connected to the test hydraulic cylinder 8 by a hydraulic line through the stand’s 9 control valve, the drain hole of which is connected by a hydraulic line to the stand’s hydraulic tank. The station’s 10 hydraulic tank is connected to the input station suck 11, the output of which is connected by a hydraulic line to the station 12 pressure gauge, station 13 throttle, connected by the outlet to the station 10 hydraulic tank. The station 11 pump output is connected to the station 14 control valve, which is connected to the load hydraulic cylinder 15. The load hydraulic cylinder 15 is mechanically connected coaxially with the test person hydraulic cylinder 8. The drain hole of the control valve of station 14 is connected by a hydraulic line to the hydraulic tank of station 10.

The device operates as follows. To ensure the operability of the closed loop hydraulic system, the stand 2 pump delivers the working fluid from the stand 1 tank to the stand 9 control valve and to the stand choke 5. From the stand 9 control valve, the working fluid enters the tested hydraulic cylinder 8 and then to the stand hydraulic tank 1. The working pressure is provided by a manual throttle 5 and is controlled by the stand gauge 3. From the throttle of the stand 5, the working fluid, passing through the filter 6, then the cooling radiator 7, is returned to the hydraulic tank of the stand 1. To ensure the load , the test hydraulic cylinder 8 is coaxially connected to the loading hydraulic cylinder 15 into which the working fluid from the hydraulic tank of station 10 is pumped by the pump of station 11 through the hydraulic distributor of station 14. The nominal pressure of the working fluid in the loading cylinder 15 is fixed by the pressure gauge of station 12 and is regulated by the throttle of station 13, passing through which, merges into the hydraulic tank of station 10. During testing, by moving the spool of the hydraulic distributor of station 14 to the "Lower" position, in the rod cavity of the loading hydraulic cylinder 15 it station 13 to set the rated pressure of the working fluid, the controlled pressure gauge station 12. Then, the spool of the control valve 9 is set in the stand position "Lowering", when the pressure fluid choke stand 5 in the rod end of the test cylinder 8, there is a moving rod at rated load. In this case, the pressure gauge of the stand 3 is fixed. Similar actions are carried out when moving the spools of the control valves of the stand and station to the "Rise" position.

Compared with the known solution, the proposed one allows an assessment of the technical condition of the tested hydraulic cylinders at the rated load created by the loading hydraulic cylinder, which meets the requirements of GOST18464-96.

Claims (1)

A device for assessing the technical condition of hydraulic cylinders, including a test bench simulating the operation of a closed loop hydraulic system of automotive machinery, consisting of a test tank connected by a hydraulic line to the pump inlet of the bench, the output of which is connected to a bench pressure gauge, a safety valve, a throttle of the bench, and the output connected through a filter and a cooling radiator with a stand tank, also the stand pump output is connected to the tested hydraulic cylinder, connected by a hydraulic line through the control valves a bench stand, the drain opening of which is connected by a hydraulic line to the stand’s hydraulic tank, characterized in that it is additionally equipped with a hydrostation containing a station’s hydraulic tank, connected to the station’s pump inlet, the outlet of which is connected by a station’s pressure gauge, the station’s choke, the outlet connected to the station’s hydraulic tank, and the station’s hydraulic distributor connected to the loading hydraulic cylinder, which is mechanically connected coaxially with the tested hydraulic cylinder, while the drain hole of the hydrodistributor station soy ineno hydraulic line to hydraulic tank station.

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