SU1451574A1 - Bed for testing mounted hydraulically-driven equipment - Google Patents

Abstract

The invention relates to test equipment, in particular to test benches for mounted hydraulic equipment. The aim of the invention is to prevent loss of working fluid. The frame carrying the actuators with hydraulic motors 3 is fixed to the base. The hydraulic motors 3 are connected by connecting pipes II through the distributor 12 to the main pump 13 and the drain pipe 14 through the filter 15 - to the hydraulic tank 16. The drain pipe 14 has a hydraulically controlled normally closed valve 18 connected to the drain pipe 14 in parallel with normal ( L

Description

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The invention relates to test equipment, in particular, test benches for mounted hydraulic equipment with spun pipes.

The purpose of the invention is to prevent loss of working fluid.

Figure 1 shows the proposed stand C placed on it by the equipment of the logger, side view; figure 2 is the same, top view; Fig. 3 shows a hydraulic stand with connected equipment of a logger; figure 4 - anti-cavitation valve; on fig.Z - wedge clamp (section aa in figure 2).

The stand contains a base 1, on which a frame 2 of mounted equipment is installed, including hydraulic cylinders (hydraulic motors) 3 shown by actuators 4 of attached equipment.

The frame 2 is fixed on the base 1 by means of mechanical grippers 5 (for fastening the middle part of the frame 2) and the wedge clamp 6 (for fastening the end part of the frame 2).

The wedge clamp 6 consists of a valve 7 and a locking screw 8.

The stand is equipped with oil collectors 9 and 10, made in the form of open containers and located in the areas of hydraulic connectors of the equipment under test. The sump 10 is formed by an open top cavity of the frame 2.

The control hydraulic cylinders 3 are connected by connecting pipes 11 via a distributor 12 to the main pump 13, which is designed as a two-section or double

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coca, and the drain pipe 14 through the filter. 15 - with a hydraulic tank 16. The drain pipe 14 is connected to the inlet 17 of the filter 15 through a normally closed valve 18, the controlled pressure of the main pump 13.

To the drain pipe 14 is connected through a normally open valve 19, the pressure of the main pump 13 is controlled, the inlet 20 of the suction pump 21, the outlet 22 of which is in communication with the hydraulic tank 16.

Anti-cavitation valves 23 are installed in the drain pipe 14, and in at least one of the connecting pipes 11. These valves are controlled by the pressure of the main pump 13.

The anti-cavitation valve 23 is a spring-loaded spool 25 located in the housing 26.

The control cavity 27 is connected to the main pump 13 by a pipeline (control hydraulic line) 28.

The inlet valve 29 of the valve 23 is connected to the drain pipe 14 or to the connecting pipe 11, and the outlet channel 30 of this valve communicates via an adjustable choke 31 containing the stop element 32 to the atmosphere.

Each section of the pump 13 is connected to the distributor 12 via check valves 33.

The stand works as follows.

The attachment being tested, mounted on frame 2, is mounted on base 1 and attached.

frame 2 to base 1 with mechanical grippers 5 and clamps 6.

After this, the connecting pipes 1-1 are connected to the distributor 12, and the pipelines 1 are equipped at the entrance to the distributor with anti-cavitation valves 23.

The inclusion of the spool valve 12 provides control of the position of the actuators for testing attachments, which are conducted according to a specific program.

After testing the process equipment with the pump off, 13, the spool of the distributor 12 is installed in one of the working positions and turn on the suction pump 21, which provides pumping of the working fluid and 14 working cavities of the control hydraulic cylinders 3 and connecting pipe 11 connected to the drain pipe Vitation valves 23 provide for the connection of these closed cavities with the atmosphere, which prevents cavitation at the inlet 20 of the suction pump 21.

After some time, the spools of the distributor I2 are switched to another operating position, which allows the working fluid to be pumped out from the other working cavities of the hydraulic cylinders 3 and the corresponding connecting pipelines 11.

After the operation of pumping out the working fluid from the working cavities of the hydraulic cylinders of attached equipment, the mechanical grippers 5 and clamps 6 are opened, i.e. frame 2 is detached from the base 1 of the stand.

Then, the connecting pipes 11 are disconnected from the distributor 12. The connecting pipes 11 are technologically closed1451574

The plugs and the attachment assembly are shipped. At the same time, the oil collectors 9 and 10 provide for the collection of possible leaks from the hydraulic connectors of the hydraulic motors of the attachment during testing and dismantling of the equipment, from where the collected oil is fed into the stand tank.

The use of the proposed stand prevents the loss of working fluid during installation and dismantling of attachments.

Claims (2)

1. Test bench for attached hydraulically driven equipment, including a base with attachment frame attachment device, carrying actuators with drive hydraulic motors and hydraulic system, characterized in that, in order to prevent the loss of working fluid, the stand is equipped with a hydraulic tank, main pump , a drain pipe with parallel branches, one of which includes an extraction pump, connecting pipes between the distribution body and the hydraulic system, one or several connectors s and the drain pipes are provided with anti-cavitation valves in one branch of the drain conduit in series with the suction pump included normally open, and in the other branch of normally closed valves, each of which including a gravitational antika- is connected to the control line to the main pump. 2. Stand according to Claim 1, which is different from each other to the fact that each anticorrosive valve is designed as a housing with a spring-loaded slide valve, an outlet channel and an adjustable choke to communicate the outlet channel with the atmosphere. five 0 .. Fia. i Fia. 2 28