KR101620828B1 - Testing apparatus for test part using contaminated fluid - Google Patents

Abstract

The present invention relates to a contaminated fluid testing apparatus, comprising: a main tank in which contaminated fluid is received; A first circulation pump unit connected to the main tank; A pressure regulating unit connected to the first circulation pump unit and regulating the pressure of the supplied contaminant fluid; And a contamination level sensor installed on a circulation line through which the polluted fluid flows to measure the pollution level of the polluted fluid; The contaminated fluid supplied through the first circulation pump unit is formed to circulate through the test object to be tested through the pressure regulating unit to the main tank so that the circulating pump unit is connected to the main tank containing the contaminated fluid The present invention relates to a contaminated fluid test apparatus that can test the reliability of a hydraulic component using a contaminated fluid by connecting a hydraulic component to be tested to a line configured to supply and circulate contaminated fluid.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a contaminated fluid tester, which comprises connecting a circulating pump section to a main tank containing contaminated fluid to connect a hydraulic component to be tested to a line configured to supply and circulate a contaminated fluid, And more particularly, to a contaminated fluid test apparatus capable of testing the reliability of hydraulic components.

Generally, the hydraulic components used in the hydraulic circuit are degraded and fail due to their use. Accordingly, hydraulic parts are installed in the test apparatus so that the performance, durability and reliability of the hydraulic components can be judged, so that the reliability test of the hydraulic parts such as the repeated operation test, the accelerated life test and the long- do.

At this time, the hydraulic fluid used as the hydraulic fluid of the hydraulic circuit is used in a clean state that does not include foreign matters such as dust, and in the test of the hydraulic components, the reliability test is performed using the clean hydraulic fluid.

However, the hydraulic circuit actually used may be contaminated with hydraulic fluid due to use environment such as dust or sand dust, replenishment or replacement of hydraulic fluid, and maintenance or replacement of hydraulic components. Accordingly, the working fluid circulating in the hydraulic circuit can be a contaminated fluid in which the hydraulic fluid and foreign matter are mixed.

That is, when actual hydraulic components are used, contaminated fluid may be used as a working fluid. However, in a reliability test of hydraulic components, a clean fluid is used for testing, so accurate reliability testing can not be performed.

Therefore, in the reliability test of hydraulic components, there is a need for a contaminated fluid test apparatus which can test the reliability of hydraulic components by using contaminated fluid (fluid mixed with foreign matter such as dust in hydraulic oil).

KR 10-2004-0074231 (August 25, 2004)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a hydraulic system which can supply and circulate a dirty fluid to a hydraulic component to be tested, And to provide a test apparatus for a contaminated fluid.

According to an aspect of the present invention, there is provided an apparatus for testing a contaminated fluid, comprising: a main tank in which a contaminated fluid is received; A first circulation pump unit connected to the main tank; A pressure regulating unit connected to the first circulation pump unit and regulating the pressure of the supplied contaminant fluid; And a contamination level sensor installed on a circulation line through which the polluted fluid flows to measure the pollution level of the polluted fluid; The contaminated fluid supplied through the first circulation pump unit is formed to circulate to the main tank through the test object to be tested through the pressure regulating unit.

In addition, the contamination level sensor is installed at a front end of the test object.

The first circulation pump unit may include a low-pressure pump and a high-pressure pump connected to a downstream end of the low-pressure pump.

Further, the low-pressure pump is a diaphragm pump, and the high-pressure pump is a plunger pump.

Further, the oil cooler and the bypass line are installed in parallel at the rear end of the test object.

An auxiliary tank for storing a highly contaminated contaminant fluid having a higher degree of contamination than the contaminant fluid contained in the main tank; And a pollutant supply device connected to the auxiliary tank, the pollutant supply device being capable of controlling the supply and supply amount of the highly contaminated contaminated fluid to the main tank; And further comprising:

Also, the pollutant supply device may include a supply cylinder connected to the auxiliary tank for introducing and discharging a highly contaminated contaminated fluid; An operating cylinder coupled to the supply cylinder to actuate a supply cylinder; And a three-way valve to which the auxiliary tank, the supply cylinder, and the main tank are connected; And the high-contamination contaminated fluid flows into the supply cylinder from the auxiliary tank or the highly contaminated contaminated fluid is discharged from the supply cylinder to the main tank by operation of the operating cylinder.

In addition, a plurality of position sensing sensors are installed on the operating cylinder so as to be spaced apart from each other, and the supply cylinder is operated in the same manner as the operating stroke of the operating cylinder.

A second circulation pump unit connected to the main tank; A filter unit having one side connected to the second circulation pump unit and the other side connected to the main tank; And further comprising:

The second circulation pump unit may be a diaphragm pump.

Further, the oil cooler is installed in parallel with the filter unit.

In addition, an aeration device for injecting a stirring blade and compressed air is provided in the main tank or the auxiliary tank.

The bubble eliminator may further include a bubble eliminator disposed upstream of the contamination level sensor for removing bubbles from the contaminated fluid supplied through the first circulation pump unit.

The contaminated fluid test apparatus of the present invention has an advantage that it can accurately test the reliability of a hydraulic component to be tested by using contaminated fluid as a working fluid.

In addition, there is an advantage in that the reliability of the hydraulic component can be tested according to the contamination degree of the working fluid by controlling the contamination degree of the contaminated fluid.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a configuration of a polluting fluid testing apparatus of the present invention. FIG.
2 is a schematic cross-sectional view showing a pollutant supply apparatus according to the present invention.
3 is a schematic view showing a configuration of a filter unit and an oil cooler according to the present invention.
4 is a schematic view showing a stirring vane and aeration device provided in a main tank or an auxiliary tank according to the present invention.
5 is a detailed configuration diagram of the polluted fluid test apparatus of the present invention.

Hereinafter, the apparatus for testing a contaminated fluid of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the constitution of a contaminated fluid test apparatus of the present invention. Fig.

As shown in the drawing, the apparatus 1000 for testing a contaminated fluid according to the present invention includes a main tank 100 in which a contaminated fluid is received; A first circulation pump unit 200 connected to the main tank 100; A pressure regulator 300 connected to the first circulation pump unit 200 to regulate the pressure of the contaminant fluid supplied thereto; And a contamination level sensor 400 installed on a circulation line through which the contaminated fluid flows to measure the level of contamination of the contaminated fluid. The contaminated fluid supplied through the first circulation pump unit 200 is formed to circulate to the main tank 100 through the test object A to be tested through the pressure regulating unit 300 .

First, the contaminated fluid is received in the main tank 100, and the contaminated fluid may be a contaminated fluid mixed with dust, sand dust or the like in hydraulic oil which can be used as a hydraulic component and an operating oil of hydraulic devices.

One end of the first circulation pump unit 200 is connected to the main tank 100 and the other end of the first circulation pump unit 200 is connected to the pressure regulating unit 300 so as to pressurize the polluted fluid contained in the main tank 100, Thereby circulating the polluted fluid.

The pressure regulating unit 300 is connected to the first circulation pump unit 200 and the other end is connected to the pollution degree sensor 400. The pressure control unit 300 regulates the pressure of the polluted fluid supplied through the first circulation pump unit 200 . At this time, the pressure regulator 300 may be a relief valve, and a pressure regulator may be used.

The contamination level detection sensor 400 may be installed in a circulation line through which the fluids flow and measure the degree of contamination of the contaminated fluid and the pollution level detection sensor 400 may be installed between the pressure regulator 300 and the test subject A. . That is, the polluted fluid whose pressure has been adjusted is measured through the pollution degree detecting sensor 400, so that the polluted fluid having the set degree of pollution can be supplied to the test object A.

The test object A is provided at the rear end of the contamination level sensor 400 and the contaminated fluid passing through the test object A is returned to the main tank 100 again. At this time, the object (A) to be tested may be various hydraulic parts and hydraulic devices, and may be, for example, a hydraulic pump, a hydraulic motor, a relief valve, a solenoid valve and a hydraulic cylinder.

The contaminated fluid contained in the main tank 100 is circulated to the main tank 100 through the first circulation pump unit 200, the pressure regulating unit 300, the pollution degree detecting sensor 400, do.

Therefore, it is possible to test the reliability of the test object A by using the polluted fluid while circulating the polluted fluid, and to measure the pollution degree of the polluted fluid through the pollution degree detection sensor 400, The pollution degree of the contaminated fluid can be controlled by comparing the contaminated fluid with the contaminated fluid. Therefore, the test object can be tested using the contaminated fluid having the correct contamination degree, and the reliability test result of the test object using the contaminated fluid can be corrected.

At this time, the contamination degree detecting sensor 400 may be installed at the front end of the test object A. That is, since the contamination level sensor 400 is installed at the front end of the test object A, the contamination degree of the contaminated fluid supplied to the test object A is accurately measured, and the contaminated fluid of the desired level of contamination is supplied to the test object A .

The first circulation pump unit 200 may include a low pressure pump 210 and a high pressure pump 220 connected to a downstream end of the low pressure pump 210.

That is, although the first circulation pump unit 200 may be a general hydraulic pump, the high pressure pump 220 is connected to the rear end of the low pressure pump 210 so that the test object A can be tested with high pressure can do. At this time, only the low-pressure pump 210 can be tested, and a low-pressure test can be performed. Alternatively, a bypass line may be installed on both sides of the high-pressure pump 220, have.

Further, the low-pressure pump 210 may be a diaphragm pump, and the high-pressure pump 220 may be a plunger pump. That is, although various low-pressure pumps and high-pressure pumps can be used, various types of hydraulic pumps can be used, but diaphragm pumps having excellent durability and operability against contaminated fluids can be used as the low-pressure pump 210 and plunger pumps can be used as the high- have.

Further, the oil cooler 510 and the bypass line 530 may be installed in parallel at the rear end of the test object. That is, since the contaminated fluid flowing through the circulation line can be raised in temperature through the first circulation pump unit 200, the pressure regulating unit 300, and the test object A, The oil cooler 510 may be installed to return to the main tank 100 after the polluted fluid is cooled. If the polluted fluid is not required to be cooled, the bypass line 530, which is installed in parallel with the oil cooler 510, To the main tank 100 directly through the main tank 100.

An auxiliary tank 600 storing a highly contaminated contaminant fluid having a higher degree of contamination than the contaminant fluid received in the main tank 100; And a pollutant supply device 700 connected to the auxiliary tank 600 and capable of controlling supply and supply of highly contaminated contaminated fluid to the main tank 100; As shown in FIG.

That is, by allowing the contaminated fluid to be supplied to the main tank 100 containing the polluted fluid supplied to the test object A with a high degree of contamination, if the pollution degree measured by the pollution degree detecting sensor 400 is lower than a desired set value, The contamination of the contaminated fluid contained in the main tank 100 can be increased by supplying the contaminated fluid of high pollution degree to the main tank 100 through the apparatus 700. [

In addition, the pollutant supply device 700 includes a supply cylinder 710 connected to the auxiliary tank 600 for introducing and discharging highly contaminated contaminated fluid; An actuation cylinder 720 coupled to the feed cylinder 710 to actuate the feed cylinder 710; And a three-way valve 730 to which the auxiliary tank 600, the supply cylinder 710, and the main tank 100 are connected; Contaminated fluid flows from the auxiliary tank 600 to the supply cylinder 710 by the actuation of the operating cylinder 720 or the highly contaminated contaminated fluid flows from the supply cylinder 710 to the main tank 100. [ As shown in FIG.

2, the supply cylinder 710 is provided with an operation cylinder 720 (see FIG. 2) for supplying a contaminated fluid of a high degree of contamination contained in the auxiliary tank 600 to the main tank 100, Are connected in series so that the supply cylinder 710 is configured to be operated in the same manner as the operating stroke of the operating cylinder 720 and the contaminated fluid is introduced into the operating cylinder 710 by the 3-way valve 730, 710 may be discharged to the main tank 100 side. That is, when the piston of the operation cylinder 720 moves backward (moves to the right), the piston of the supply cylinder 710 is also retracted. At this time, the three-way valve 730 is controlled so that the auxiliary tank 600 is connected to the supply cylinder 710 When the piston of the operation cylinder 720 advances (moves to the left), the piston of the supply cylinder 710 advances. At this time, the supply cylinder 710 and the supply cylinder 710 The three-way valve 730 is adjusted so that the main tank 100 is connected to the main tank 100 so that the highly contaminated contaminated fluid can be supplied to the main tank 100.

In addition, a plurality of position sensing sensors 740 are spaced apart from each other in the operation cylinder 720, so that the supply cylinder can be operated in the same manner as the operation stroke of the operation cylinder 720.

This is because the position of the piston of the operating cylinder 720 is sensed by the position sensing sensor 740 while the high-contamination contaminated fluid is filled in the supply cylinder 710 and adjusted so that the operating cylinder 720 is moved by a certain distance So that the supply amount of the highly contaminated contaminated fluid discharged from the supply cylinder 710 to the main tank 100 can be accurately controlled. That is, the position sensing sensors 740 installed at a predetermined distance from each other in the longitudinal direction of the operation cylinder 720 can sense the position of the piston of the operation cylinder 720 and adjust the operation distance of the piston of the operation cylinder 720, The piston of the supply cylinder 710 is moved by the same distance in accordance with the operation of the operating cylinder 720 so that if the inner diameter of the supply cylinder 710 is known, the amount of the highly contaminated contaminated fluid discharged to the main tank 100 Able to know.

A second circulation pump unit 810 connected to the main tank 100; A filter unit 800 having one side connected to the second circulation pump unit 810 and the other side connected to the main tank 100; As shown in FIG.

This is to reduce the contamination degree of the contaminated fluid contained in the main tank 100 by removing foreign substances in the polluted fluid through the filter unit 800 when the pollution degree of the polluted fluid measured by the pollution degree detection sensor 400 is higher than the set value. 3, the contaminated fluid is circulated through the second circulation pump unit 810 connected to the main tank 100, and the foreign substances are filtered while passing through the filter unit 800, The degree of contamination of the catalyst can be reduced. At this time, the second circulation pump unit 810 and the filter unit 800 are connected to each other through a circulation line, and the pollution degree of the polluted fluid is measured in a state in which the polluted fluid does not flow in the circulation line circulated to pass through the test object A Can be lowered. Further, the contamination degree of the contaminated fluid may be gradually lowered while the contaminated fluid is circulated so as to pass through the test object (A).

At this time, the second circulation pump unit 810 may be a diaphragm pump having excellent durability and operability against contaminated fluid.

In addition, the oil cooler 520 may be installed in parallel with the filter unit 800. That is, the polluted fluid passing through the test object A is directly returned to the main tank 100, and the filter unit 800 is separated from the circulation line through the filter unit 800, The oil cooler 520 may be installed in parallel to perform filtering and cooling while circulating the polluted fluid in the main tank 100, respectively, or simultaneously.

The main tank 100 or the auxiliary tank 600 may include a stirring blade 910 and an aerator 920 for injecting compressed air. That is, since the contaminated fluid is mixed with foreign matters such as dust or sand dust, the contamination of the contaminated fluid is deposited on the bottom of the foreign substance tank in the polluted fluid, or the pipe may be clogged. To prevent this, It is possible to uniformly mix the contaminated fluid by rotating the stirring vanes 910 and to prevent the foreign matter from sinking to the bottom of the tank by injecting the compressed air through the aerator 920.

The bubble eliminator 930 may be disposed at a front end of the contamination level sensor 400 to remove bubbles from the contaminated fluid supplied through the first circulation pump unit 200.

That is, the contaminated fluid supplied through the first circulation pump unit 200 may include fine bubbles. If the contaminated fluid contains bubbles, the pollution degree sensor 400 may measure bubbles as foreign matter (contaminants) Contamination of contaminated fluid can not be accurately measured. Therefore, the bubble eliminator 930 is installed at the front end of the contamination level sensor 400 to remove bubbles contained in the contaminated fluid, thereby accurately measuring the contamination level of the contaminated fluid, thereby improving the reliability of the test.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1000: Contaminated fluid testing device
100: Main tank
200: first circulation pump unit
210: Low pressure pump 220: High pressure pump
300: Pressure regulator
400: Pollution degree detection sensor
510, 520: Oil cooler 530: Bypass line
600: auxiliary tank
700: Contaminant supply device
710: Supply cylinder 720: Operation cylinder
730: 3-way valve 740: Position sensor
800:
810: second circulation pump section
910: stirring wing 920: aeration device
930: Bubble eliminator
A: Test subject (hydraulic part)

Claims (14)

A main tank in which contaminated fluid is received;
A first circulation pump unit connected to the main tank;
A pressure regulating unit connected to the first circulation pump unit and regulating the pressure of the supplied contaminant fluid; And
A contamination level sensor installed in a circulation line through which the polluted fluid flows to measure the pollution level of the polluted fluid; , ≪ / RTI >
The contaminated fluid supplied through the first circulation pump unit is formed to circulate to the main tank through the test object to be tested through the pressure regulating unit,
The first circulation pump unit includes:
Pressure pump and a high-pressure pump connected to a downstream end of the low-pressure pump,
Wherein the low-pressure pump is a diaphragm pump, and the high-pressure pump is a plunger pump.
A main tank in which contaminated fluid is received;
A first circulation pump unit connected to the main tank;
A pressure regulating unit connected to the first circulation pump unit and regulating the pressure of the supplied contaminant fluid; And
A contamination level sensor installed in a circulation line through which the polluted fluid flows to measure the pollution level of the polluted fluid; , ≪ / RTI >
The contaminated fluid supplied through the first circulation pump unit is formed to circulate to the main tank through the test object to be tested through the pressure regulating unit,
An auxiliary tank for storing a highly contaminated contaminant fluid having a higher degree of contamination than a contaminant fluid contained in the main tank; And
A pollutant supply device connected to the auxiliary tank and capable of controlling supply and supply of highly contaminated contaminated fluid to the main tank; Further comprising:
Wherein the pollutant supply device comprises:
A supply cylinder connected to the auxiliary tank for introducing and discharging a highly contaminated contaminated fluid;
An operating cylinder coupled to the supply cylinder to actuate a supply cylinder; And
A three-way valve to which the auxiliary tank, the supply cylinder and the main tank are connected; , ≪ / RTI >
Characterized in that the operation of the operating cylinder causes the highly contaminated contaminated fluid to flow from the auxiliary tank into the supply cylinder or the highly contaminated contaminated fluid from the supply cylinder to the main tank.
3. The method of claim 2,
The first circulation pump unit includes:
A low pressure pump, and a high pressure pump connected to a rear end of the low pressure pump.
The method of claim 3,
Wherein the low-pressure pump is a diaphragm pump, and the high-pressure pump is a plunger pump.
3. The method according to claim 1 or 2,
Wherein an oil cooler and a bypass line are provided in parallel at a rear end of the test object.
The method according to claim 1,
An auxiliary tank for storing a highly contaminated contaminant fluid having a higher degree of contamination than a contaminant fluid contained in the main tank; And
A pollutant supply device connected to the auxiliary tank and capable of controlling supply and supply of highly contaminated contaminated fluid to the main tank; Further comprising: a control unit for controlling the contaminated fluid.
The method according to claim 6,
Wherein the pollutant supply device comprises:
A supply cylinder connected to the auxiliary tank for introducing and discharging a highly contaminated contaminated fluid;
An operating cylinder coupled to the supply cylinder to actuate a supply cylinder; And
A three-way valve to which the auxiliary tank, the supply cylinder and the main tank are connected; , ≪ / RTI >
Characterized in that the operation of the operating cylinder causes the highly contaminated contaminated fluid to flow from the auxiliary tank into the supply cylinder or the highly contaminated contaminated fluid from the supply cylinder to the main tank.
8. The method of claim 7,
Wherein a plurality of position sensing sensors are provided on the operating cylinder so as to be spaced apart from each other, and the supplying cylinder is operated in the same manner as the operating stroke of the operating cylinder.
3. The method according to claim 1 or 2,
A second circulation pump unit connected to the main tank; And
A filter unit having one side connected to the second circulation pump unit and the other side connected to the main tank; Further comprising: a control unit for controlling the contaminated fluid.
10. The method of claim 9,
Wherein the second circulation pump unit is a diaphragm pump.
10. The method of claim 9,
And an oil cooler is installed in parallel with the filter unit.
3. The method according to claim 1 or 2,
Wherein an aeration device for injecting a stirring blade and compressed air is provided in the main tank or the auxiliary tank.
3. The method according to claim 1 or 2,
Further comprising a bubble eliminator disposed upstream of the contamination level sensor for removing bubbles from the contaminated fluid supplied through the first circulation pump unit.
3. The method according to claim 1 or 2,
Wherein the contamination level sensor is installed at a front end of the test object.

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