CN214019654U - Return oil filtering system of energy accumulator pulse fatigue testing equipment - Google Patents

Abstract

The utility model relates to an energy storage ware pulse fatigue test equipment oil return filtration system, the system including contain storage oil and with energy storage ware (1) and pulse fatigue test equipment (2) link to each other respectively and can receive the medium oil that flows by energy storage ware (1) and automatic external oil tank (3) for its benefit oil when pulse fatigue test equipment (2) inside power oil tank oil content is not enough. The oil return filtering system improves the testing performance of equipment and reduces the failure rate.

Description

Return oil filtering system of energy accumulator pulse fatigue testing equipment

Technical Field

The utility model relates to an energy storage ware pulse fatigue test technical field especially relates to an energy storage ware pulse fatigue test equipment oil return filtration system.

Background

As is well known, the pulse fatigue testing equipment for the energy accumulator comprises a hydraulic power unit, a pulse generating unit, an electric control unit and an oil cooling unit, wherein the hydraulic power unit provides power for a testing workpiece, low-voltage pulse is directly carried out through a servo valve, a booster is driven, namely the pulse generating unit is used for controlling high-voltage pulse, and a pressure signal is fed back to the electric control unit in real time in the control process, so that the position of a valve core of the servo valve is controlled, closed-loop control is formed, and high-precision pulse pressure control is achieved.

In the fatigue test process, the cyclic pressurization-pressure relief of the hydraulic oil between the test equipment and the test workpiece is carried out, and whether the test workpiece leaks or deforms and breaks is observed, so that the fatigue performance of the workpiece is evaluated. However, the volume of a built-in oil tank of the existing pulse fatigue testing equipment is too small (200L), the requirement of a fatigue test of a large-volume workpiece (700L) cannot be met, particle impurities cannot be avoided in the test workpiece, hydraulic oil can be polluted after long-time test circulation, and pipeline blockage is easily caused to cause equipment failure.

Meanwhile, in the fatigue test process of the test workpiece, the maximum internal pressure can reach 80MPa, leakage is easily caused, and the conventional fatigue test equipment cannot monitor the real-time condition of the workpiece, so that the safety problem is easily caused.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, an object of the utility model is to provide an energy storage ware pulse fatigue test equipment oil return filtration system, this oil return filtration system can provide big oil mass for fatigue test equipment to satisfy the test demand to big work piece or to many work pieces simultaneously.

An object of the utility model is to provide a can effectively filter impurity in the oil to ensure the unblocked safe energy storage ware pulse fatigue test equipment oil return filtration system of circulation path.

An object of the utility model is also to provide an energy storage ware pulse fatigue test equipment return oil filtration system that can monitor in order to improve the security to the test work piece.

In order to realize the purpose, the technical scheme of the utility model is that: the utility model provides an energy storage ware pulse fatigue test equipment oil return filtration system which characterized in that:

the system comprises an external oil tank which contains storage oil, is respectively connected with the energy accumulator and the pulse fatigue testing equipment, can receive medium oil flowing out of the energy accumulator and automatically supplies oil to the internal power oil tank of the pulse fatigue testing equipment when the oil content of the internal power oil tank is insufficient.

Furthermore, the system comprises a filtering component which is arranged between the energy accumulator and the external oil tank and filters medium oil flowing into the external oil tank.

Further, the energy accumulator is arranged in an inverted mode through the support, and the system further comprises an oil groove which is arranged below the support and used for receiving the medium oil flowing out of the energy accumulator outlet and settling the medium oil;

the external oil tank is connected with the oil groove through the filtering component so as to realize connection between the energy accumulator and the external oil tank.

Furthermore, the system also comprises an oil mist detector which is arranged on the bracket and can monitor whether the energy accumulator leaks oil in the testing process so as to judge whether the testing workpiece assembled on the energy accumulator is abnormal.

Further, the filter assembly comprises an electric gear pump which can pump the medium oil precipitated in the oil tank into an external oil tank, a first filter arranged at the inlet end of the electric gear pump and a second filter arranged at the outlet end of the electric gear pump.

Furthermore, the discharge capacity of the electric gear pump is 40L/min, the working pressure is 10bar, and the volume is 300L.

Further, the first filter has a filtering accuracy of 100 μ and the second filter has a filtering accuracy of 10 μ.

Furthermore, the bracket is L-shaped, and the energy accumulator is arranged on the bracket in an inverted and inclined manner.

Compared with the prior art, the utility model has the advantages of:

the oil return filtering system adds an external oil tank for the testing equipment, increases the capacity for the fatigue testing equipment, and meets the requirements of filling liquid for large-size workpieces or simultaneously filling liquid for a plurality of workpieces and testing; the arrangement of the two-stage filter can effectively filter impurities and particles in the oil way and ensure the smoothness of the oil way; the oil mist detector can constantly monitor the leakage problem caused by abnormal sealing of the workpiece in the test process, so that the safety of the test process is improved, and the failure rate is reduced.

Drawings

Fig. 1 is a schematic view of an overall structure of the connection between the return oil filtering system and the testing equipment.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Fig. 1 shows a schematic diagram of an overall structure of the connection between the return oil filtering system and the testing equipment, as shown in the figure, the return oil filtering system of the accumulator pulse fatigue testing equipment comprises an external oil tank 3 which contains storage oil, is respectively connected with the accumulator 1 and the pulse fatigue testing equipment 2, can receive medium oil flowing out of the accumulator 1 and automatically supplies oil to the internal power oil tank of the pulse fatigue testing equipment 2 when the oil content in the internal power oil tank is insufficient, and the fatigue testing equipment 2 is displayed as a fatigue testing machine in the application, so that the capacity of the fatigue testing equipment is increased, and the requirements of filling large-size workpieces or simultaneously filling and testing a plurality of workpieces are met. The capacity of the external oil tank is 500L, of course, the external oil tank can be of other capacities, and the specific capacity selection is determined according to actual needs.

The system also comprises a filtering component 4 which is arranged between the energy accumulator 1 and the external oil tank 3 and filters medium oil flowing into the external oil tank 3. In order to facilitate the outflow of medium oil in the energy accumulator, energy accumulator 1 sets up immediately through support fall 5, and simultaneously, this oil return system is still including setting up in support 5 below in order to receive the medium oil that flows out by the export of energy accumulator 1 and carry out the oil groove 6 that deposits to it, and external oil tank 3 then links to each other in order to realize being connected between energy accumulator 1 and the external oil tank 3 through filter assembly 4 and oil groove 6. Specifically, the bracket 5 is in an L shape, the energy accumulator 1 is arranged on the bracket 5 in an inverted and inclined mode, and the bracket 5 is made of 20# carbon steel.

In order to constantly monitor whether the test workpiece is sealed abnormally and causes leakage in the test process so as to improve the safety of the test process, the oil return system further comprises an oil mist detector 7 which is arranged on the support 5 and can monitor whether the energy accumulator 1 in the test process leaks oil so as to judge whether the test workpiece 8 assembled on the energy accumulator 1 is abnormal.

In the present embodiment, the filter assembly 4 includes an electric gear pump 41 for pumping the medium oil settled in the oil tank 6 into the external oil tank 3, and a first filter 42 disposed at an inlet end of the electric gear pump 41 and a second filter 43 disposed at an outlet end of the electric gear pump 41. The electric gear pump has a displacement of 40L/min, a working pressure of 10bar, a power of 0.75KW and a volume of 300L, and the first filter 42 has a filtering accuracy of 100 mu and the second filter 43 has a filtering accuracy of 10 mu.

As shown in fig. 1, when the whole system is tested normally, the hydraulic oil circulation path is marked by a thin black arrow, and after the test is finished, the hydraulic oil return path is marked by a thick black arrow. The specific working principle and the working process are as follows:

the shell of the energy accumulator 1 is reversely placed on the support 5, the shell of the energy accumulator 1 is fixed through the support 5, the outlet of the shell of the energy accumulator 1 faces downwards, medium oil in the shell of the energy accumulator 1 flows into the oil groove 6 to be precipitated, solid particles are filtered through the first filter 42 and the second filter 43 and are recovered into the external oil tank 3 through the electric gear pump 41, and the outlet of the oil return system is connected to a power oil tank (not shown in the figure) of the pulse fatigue testing equipment 2 through a hose. During normal test, the outlets of the energy accumulator 1 and the pulse fatigue test equipment 2 are connected through a hose, oil filling and air exhausting are started, the test is started after the oil filling and the air exhausting are completed, after the test is completed, a hose joint between the outlets of the energy accumulator 1 and the pulse fatigue test equipment 2 is unscrewed, medium oil directly flows back to the oil groove 6 for precipitation, then a button (not shown in the figure) on an oil return filtering system is operated and clicked to start the electric gear pump 41, the oil is filtered and recovered to the external oil tank 3 through the secondary filter, the external oil tank 3 automatically supplements a power oil tank inside the fatigue test equipment 2, and therefore enough hydraulic oil is provided for circular fatigue test.

While embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (8)

1. The utility model provides an energy storage ware pulse fatigue test equipment oil return filtration system which characterized in that:

the system comprises an external oil tank (3) which contains stored oil, is respectively connected with the energy accumulator (1) and the pulse fatigue testing equipment (2), can receive medium oil flowing out of the energy accumulator (1) and automatically supplies oil to the internal power oil tank of the pulse fatigue testing equipment (2) when the oil content of the internal power oil tank is insufficient.

2. The accumulator pulse fatigue test equipment return oil filtration system of claim 1, characterized in that:

the system comprises a filtering component (4) which is arranged between the energy accumulator (1) and the external oil tank (3) and filters medium oil flowing into the external oil tank (3).

3. The accumulator pulse fatigue test equipment return oil filtration system of claim 2, characterized in that:

the energy accumulator (1) is arranged in an inverted mode through the support (5), and the system further comprises an oil groove (6) which is arranged below the support (5) and used for receiving medium oil flowing out of an outlet of the energy accumulator (1) and settling the medium oil;

the external oil tank (3) is connected with the oil groove (6) through the filtering component (4) so as to realize connection between the energy accumulator (1) and the external oil tank (3).

4. The accumulator pulse fatigue test equipment return oil filtration system of claim 3, characterized in that:

the system also comprises an oil mist detector (7) which is arranged on the bracket (5) and can monitor whether the energy accumulator (1) leaks oil in the testing process so as to judge whether a testing workpiece (8) assembled on the energy accumulator (1) is abnormal.

5. The accumulator pulse fatigue test equipment return oil filtration system of claim 3, characterized in that:

the filter assembly (4) comprises an electric gear pump (41) which can pump the medium oil precipitated in the oil groove (6) into an external oil tank (3), a first filter (42) arranged at the inlet end of the electric gear pump (41) and a second filter (43) arranged at the outlet end of the electric gear pump (41).

6. The accumulator pulse fatigue test equipment return oil filtration system of claim 5, characterized in that:

the discharge capacity of the electric gear pump (41) is 40L/min, the working pressure is 10bar, and the volume is 300L.

7. The accumulator pulse fatigue test equipment return oil filtration system of claim 5, characterized in that:

the first filter (42) has a filtration accuracy of 100 mu and the second filter (43) has a filtration accuracy of 10 mu.

8. The accumulator pulse fatigue test equipment return oil filtration system of claim 3, characterized in that:

the support (5) is L-shaped, and the energy accumulator (1) is arranged on the support (5) in an inverted and inclined mode.

Images