KR102102726B1 - Hydraulic test apparatus for cable assembly - Google Patents

Abstract

The present invention provides a hydraulic pressure test apparatus for a cable assembly that can provide conditions for testing the performance of the cable assembly while being able to test the durability of the cable assembly by providing water pressure to a chamber in which the cable assembly to be tested is accommodated. It is about.
A feature of the present invention is that the air supply member 100 supplied by increasing the air pressure and the cable assembly 10 to be tested together with the test water for testing are received, and the air is supplied so that water pressure is applied to the cable assembly 10 The test chamber 200 is filled with air supplied from the member 100, the pressure reducing member 300 to discharge the internal air pressure of the test chamber 200 to the outside to reduce the internal pressure, and the test chamber 200 is filled It includes a control member 400 for controlling the air supply member 100 to increase the water pressure of the test water, and to control the pressure reducing member 300 so that the increased air pressure in the test chamber 200 is discharged to the outside.

Description

Hydraulic test apparatus for cable assembly

The present invention provides a hydraulic pressure test apparatus for a cable assembly that can provide conditions for testing the performance of the cable assembly while being able to test the durability of the cable assembly by providing water pressure to a chamber in which the cable assembly to be tested is accommodated. It is about.

In general, a cable is a line used for a signal or power transmission line, and multiple conductors of a single strand covered with a twisted wire or insulator are collected and then put together and covered with an outer sheath. Cable assemblies are electrical and electronic products at both ends of the cable. It is connected to a plug that can be connected to.

Plugs for connecting to the computer body and the monitor are respectively connected to both ends of the cable. The plug is a multi-ferrule type having a single-core plug alignment structure, and a plurality of strands of conductors are aligned in a single ferrule. There are array type and stack type, which is a vertical and horizontal stacked type of array type.

Accordingly, there is a need to develop a test apparatus capable of testing a cable assembly so that a good cable assembly is used.

Background art of the present invention has been proposed in the Republic of Korea Patent Publication No. 10-1783775 "Test device for heat-resistant cable assembly".

The water pressure test device for a cable assembly according to the present invention provides conditions for testing the performance of the cable assembly while being able to test the durability of the cable assembly by providing water pressure to a chamber in which the cable assembly to be tested is accommodated. Do what you can.

The water pressure test device for a cable assembly according to an embodiment of the present invention, in the state where the test water for testing is received together with the air supply member 100 to supply by increasing the air pressure, and the cable assembly 10 for being tested, the cable assembly (10) a test chamber 200 in which air supplied from the air supply member 100 is filled so that water pressure is applied, and a pressure reducing member 300 for reducing the internal pressure by discharging the internal air pressure of the test chamber 200 to the outside ), And controls the air supply member 100 so that the water pressure of the test water filled in the test chamber 200 increases, and controls the pressure reducing member 300 so that the increased air pressure in the test chamber 200 is discharged to the outside. It characterized in that it comprises a member 400.

Preferably, the air supply member 100 is controlled by the control material 400 in the state installed in the air inlet pipe 110 and the air inlet pipe 110 through which air supplied from the outside is introduced into the air inlet pipe 110 ) The opening and closing valve 120 for opening and closing, the air regulator 130 for constantly adjusting and supplying the air pressure flowing into the air inlet pipe 110, and the air regulator connected to the air supply pipe 110 ( The air booster 140 to amplify the air supplied through 130, and the air amplified from the air booster 140 while being connected to the air booster 140 and the test chamber 200 to the test chamber 200 It characterized in that it comprises an air supply pipe 150 for supplying.

Preferably, the test chamber 200 includes a chamber body 210 in which an inner space in which the cable assembly 10 is accommodated and a test water is filled is opened, and a chamber lid 220 that opens and closes the inner space of the chamber body 210. ), The air inlet 230 is formed in the chamber body 210 and the air supplied from the air supply member 100 is injected, and is formed in communication with the chamber body 210 so that the air in the interior space is discharged to the outside. The air discharge pipe 240 and the test chamber 200 include a cable fixing member 250 for fixing the cable 11 in a state protruding from the chamber body 210 to the outside for performance testing of the cable assembly 10 It is characterized by.

Preferably, the cable fixing member 250 is formed to communicate with the chamber body 210, the cable tube 251 through which the cable 11 of the cable assembly 10 passes, and the cable 11 of the cable assembly 10 It characterized in that it comprises a cable closing member 252 that is detachably coupled to the cable tube 251 in a state in which air leakage is prevented as it penetrates.

Preferably, the pressure-reducing member 300 measures the air pressure of the air discharged through the air discharge pipe 240 and transmits the pressure gauge 310 to the control material 400 and the air discharge pipe controlled by the control material 400 Control unit 400, characterized in that it comprises a pressure-reducing valve 320 for opening and closing the 240, the test time setting unit 410 for setting the test time of the cable assembly 10, and the interior of the test chamber 200 The pressure setting unit 420 for setting the air pressure to be formed in the space, the pressure checking unit 430 for checking the pressure measured by the pressure gauge 320 of the pressure reducing member 300, and the air supply member 100 are operated. The operation of the air supply operation unit 440 and the operation time confirmation unit 450 to check the operation time of the operation of the air supply member 100 by the operation of the air supply operation unit 440, and the pressure reduction member 300 Determine whether the decompression operation unit 460 matches the checked air pressure with the set air pressure. The air pressure determining unit 470 and the time determining unit 480 for comparing the checked operating time to the set test time, and if it is determined that the checked air pressure matches the set air pressure, the air supply member 100 ) To control the air supply operation unit 440 to stop the air supply, and if it is determined that the operation time to be confirmed matches the set test time, the pressure reduction operation unit 460 to reduce the internal air pressure of the test chamber 200 It characterized in that it comprises a control unit 490 to control.

Preferably, the control unit 400 includes a warning unit 401 to warn by sound or light when an abnormality occurs, and the control unit 490 operates in a state where it is determined that the air pressure to be checked does not match the set air pressure. If it is determined that the time matches the set test time, it is characterized in that it is set to operate the warning unit 401.

The water pressure test device for a cable assembly according to the present invention provides conditions for testing the performance of the cable assembly while being able to test the durability of the cable assembly by providing water pressure to a chamber in which the cable assembly to be tested is accommodated. As it can, there is an advantage that two tests can be made.

In addition, since water pressure is applied to the cable assembly in the closed test chamber, durability of the cable assembly can be tested.

In addition, since the cable of the cable assembly is fixed through the gable fixing member formed in the test chamber, a performance test device is connected to the cable protruding to the outside to perform a performance test on the cable assembly in water.

In addition, after the test using the water pressure is performed, the air pressure of the test chamber is reduced by the pressure reducing member, so that the test chamber can be stably opened.

1 is a perspective view showing a hydraulic test device for a cable assembly according to an embodiment of the present invention.
Figure 2 is a perspective view showing a cable fixing member formed on the test member of the present invention.
Figure 3 (a) (b) is a view showing a coupling process of the cable fixing member of the present invention.
Figure 4 is a block diagram showing the configuration of the control material of the present invention.
5 is a perspective view showing a state in which the present invention is installed in a case.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, the present invention includes an air supply member 100, a test chamber 200, a pressure reducing member 300, and a control member 400.

The air supply member 100 is supplied by increasing the air pressure, and is controlled by the control material 400 while being installed in the air inlet pipe 110 and the air inlet pipe 110 through which air supplied from the outside flows in. Connected to the air supply pipe 110, the on-off valve 120 for opening and closing the air inlet pipe 110, the air regulator 130 for constantly adjusting and supplying the air pressure flowing into the air inlet pipe 110, and connected to the air supply pipe 110 The air booster 140 for amplifying the air supplied through the air regulator 130 and the air booster 140 amplified in the state connected to the air booster 140 and the test chamber 200 to test the supplied air It includes an air supply pipe 150 for supplying to the chamber 200.

The air inlet pipe 110 is composed of a hose through which air flows, and an air compressor (not shown) for forcibly injecting air may be connected at one end, and an air regulator 130 is connected in the middle, and an air booster at the other end. 140 may be connected. Therefore, the air flowing into the air inlet pipe 110 is supplied to the air booster 140 via the air regulator 130.

The opening / closing valve 120 may be configured as a solenoid valve installed in the air inlet pipe 110 between the air regulator 130 and the air booster 140 to block or open the movement of air. Therefore, when the opening / closing valve 120 opens the air inlet pipe 110, air is supplied to the air supply pipe 150 in an amplified state from the air booster 140 while being adjusted to a constant pressure in the air regulator 130.

The air regulator 130 controls the air flowing through the air inlet pipe 110 to a constant pressure and supplies it to the air booster 140. In addition, the air regulator 130 is provided with a gauge indicating the regulated pressure, and may include a filter member 131 for removing foreign substances such as moisture contained in the perfused air. That is, only air from which moisture has been removed by the filter member 131 may be provided.

The air booster 140 amplifies and supplies the air supplied through the air supply pipe 110.

The air supply pipe 150 is composed of a tube through which air flows, and a backflow prevention member 151 such as a check valve may be installed to prevent backflow of air. That is, air may be supplied to the test chamber 200 without backflow.

The test chamber 200 is filled with air supplied from the air supply member 100 so that water pressure is applied to the cable assembly 10 in a state in which test water for testing is accommodated together with the cable assembly 10 to be tested.

The test chamber 200 includes a chamber assembly 210 in which an inner space in which the cable assembly 10 is accommodated and the test water is filled is opened, and a chamber lid 220 opening and closing the inner space of the chamber body 210. And, the air inlet 230 is formed in the chamber body 210 and the air supplied from the air supply member 100 is injected, and is formed in communication with the chamber body 210, the discharge pipe through which the air in the interior space is discharged to the outside 240, and a cable fixing member 250 for fixing the cable 11 in the state protruding from the chamber body 210 to the outside for the performance test of the cable assembly (10).

Here, the test water may be composed of water to which water or salt is added, and thus may provide effects such as fresh water or sea water. Accordingly, durability or performance can be tested in a state in which an environment in which the cable assembly 10 is installed in fresh water or sea water is provided.

A drain pipe 211 and a drain valve 212 for opening and closing the drain pipe 211 are formed at the bottom of the chamber body 210 to discharge test water filled in the inner space. Therefore, when the test is completed, the test water can be discharged through the drain pipe 211.

In addition, the chamber body 210 is formed by a pressure discharge member 213 that is operated by a high pressure rising above a certain level in the internal space to discharge the internal air to the outside. The pressure discharging member 213 may be formed of a tube formed in communication with the chamber body 210 and a stopper broken by high pressure flowing through the tube in the state of closing the tube or discharged to the outside. Therefore, since the excessively formed air pressure in the chamber body 210 is discharged to the outside through the pressure release member 213, damage or explosion of the chamber body 210 can be prevented.

The chamber lid 220 is made of a plate material and closes the chamber body 210 by bolting. Therefore, even if a high pressure is formed in the interior space of the chamber body 210, the chamber lid 220 is not opened. In addition, when the chamber lid 220 is opened, the cable assembly 10 may be accommodated in the chamber body 210 as well as the test water may be filled.

An air supply pipe 150 of the air supply member 100 is connected to the air injection port 230. Accordingly, air supplied through the air supply pipe 150 is injected into the interior space of the chamber body 210 through the air inlet 230.

The discharge pipe 240 is connected to a pressure reducing member 300 that discharges air to the outside.

The cable fixing member 250 is formed to communicate with the chamber body 210, and the cable tube 251 through which the cable 11 of the cable assembly 10 passes and the cable 11 of the cable assembly 10 penetrates Compressed by the cable closing member 252 and the cable closing member 251 and the cable closing member 252, which are detachably coupled to the cable tube 251 in a state where air loss is prevented, and are in close contact with the cable 11, resulting in air pressure. It includes an air loss prevention unit 253 to prevent the loss of.

The cable tube 251 is formed with a male thread on the outside, an inclined surface 251a whose inner diameter is gradually narrowed so as to pressurize the outer circumferential surface of the air loss prevention part 253, and one end of the air loss prevention part 253 is supported The supporting jaw 251b is formed. Therefore, since the outer diameter is narrowed by the inclined surface 251a while the air loss prevention part 253 inserted into the cable tube 251 is supported by the support jaw 251b, it can be pressed while being in close contact with the outer circumferential surface of the cable 11. have.

As the cable finishing member 252 is formed in a cap shape, a female thread is formed on the inner circumferential surface, and a through hole 254 through which the cable 11 of the cable assembly 10 penetrates is formed. Therefore, the cable closing member 252 may pressurize the air loss prevention unit 253 inserted in the cable tube 251.

The air loss prevention portion 253 is formed of a cylindrical shape while being made of rubber or urethane to have elasticity, a cable hole 253a through which the cable 11 passes is formed, and a cable hole so that the cable 11 is moved to the side In 253a, an incision groove 253b that is incised laterally is formed.

Therefore, the cable 11 may be inserted through the incision groove 253b to be located in the cable hole 253a. In this state, as the cable closing member 252 is coupled to the cable tube body 251, the air loss prevention unit 253 is pressed while being in close contact with the outside of the cable 11, so that the through hole 254 and the cable 11 Since the gap is sealed, it is possible to prevent the loss of air.

As described above, since air is not lost through the outside of the cable 11 in the process of testing the cable assembly 10 at high pressure, a precise and accurate test for the durability of the cable assembly 10 can be made.

Moreover, a performance test device (not shown) is connected to the cable 11 protruding to the outside through the cable finishing member 252 to test the performance of the cable assembly 10. Here, the performance test apparatus can measure the conduction state of the power while inputting power to the cable 11. That is, it can be tested whether the cable assembly 10 can be operated underwater.

The decompression member 300 discharges the internal air pressure of the test chamber 200 to the outside to decompress the internal pressure, measures the air pressure for air discharged through the air discharge pipe 240 and transmits it to the control unit 400 It includes a pressure gauge 310 and a pressure-reducing valve 320 that is controlled by the control unit 400 to open and close the air discharge pipe 240.

The pressure gauge 310 is composed of a digital pressure gauge, and the pressure reducing valve 320 is composed of a digital valve.

Therefore, the control unit 400 may control the pressure reducing valve 320 based on the air pressure transmitted from the pressure gauge 310.

As described above, when the control member 400 controls the pressure reducing valve 320 after the test time for the cable assembly 10 ends, the air pressure is discharged to the outside from the chamber body 210 through the pressure reducing tube 310, The chamber assembly 210 of the chamber body 210 may be opened to discharge the tested cable assembly 10 to the outside.

In addition, the pressure reducing member 300 includes a control valve 330 for adjusting the opening degree of the pressure reducing tube 310. The control valve 330 may be configured as a manual valve, and when the user manually adjusts the opening degree properly, the air pressure discharged at a high speed through the pressure reducing pipe 310 may be discharged while being controlled at a low speed.

In addition, the pressure reducing member 300 includes a silencer 340 to reduce noise of air pressure discharged from the pressure reducing pipe 310. Since the noise generated while the high pressure air is discharged by the silencer 340 is reduced, the surroundings can be protected from noise due to high pressure discharge.

The control member 400 controls the air supply member 100 so that the water pressure of the test water filled in the test chamber 200 is increased, and the pressure reducing member 300 is provided so that the increased air pressure in the test chamber 200 is discharged to the outside. Control.

The control unit 400 includes a test time setting unit 410 for setting the test time of the cable assembly 10 and a pressure setting unit 420 for setting the air pressure to be formed in the inner space of the test chamber 200. And, a pressure checking unit 430 for checking the pressure measured by the pressure gauge 320 of the pressure reducing member 300, the air supply operation unit 440 for operating the air supply member 100, and the air supply operation unit 440 Compare the operation time checking unit 450 for confirming the operating time when the air supply member 100 is operated by the operation of the, and the pressure reducing operation unit 460 for manipulating the pressure reducing member 300, and the air pressure to be checked against the set air pressure. The air pressure determining unit 470 to determine whether it matches, and the time determining unit 480 to determine whether it matches by comparing the confirmed operating time with the set test time, and if it is determined that the checked air pressure matches the set air pressure, the air Air supply by the supply member (100) Control unit 490 for controlling the air supply operation unit 440 so as to be cut, and if it is determined that the operation time to be confirmed coincides with the set test time, controls the decompression operation unit 460 to reduce the internal air pressure in the test chamber 200 And a warning unit 401 that warns with sound or light when an abnormality occurs.

Therefore, since the water pressure set for a predetermined time is applied to the cable assembly 10 accommodated in the test chamber 200, a durability test for the cable assembly 10 can be performed. That is, after water pressure is applied to the cable assembly 10, the cable assembly 10 is discharged from the test chamber 200, and then visually confirmed to check whether durability is abnormal.

The warning unit 401 is set to operate an alarm that generates sound or a warning light that generates light.

Then, the controller 490 is set to operate the warning unit 401 when it is determined that the checked air pressure does not match the set air pressure, and the determined operating time matches the set test time.

On the other hand, the present invention includes a collection container 500 in which the test water discharged from the test chamber 200 is recovered, and a test case 600 covering the collection container 500.

In the collection container 500, the inner space in which the chamber body 210 of the chamber body 210 is accommodated is opened upward, and is formed wider than the width of the chamber body 210 and lower than the height of the chamber body 210. .

Here, the chamber body 210 is formed with a leg 214 at the bottom to be spaced apart from the bottom of the collection container 500. That is, the bottom of the chamber body 210 of the is not contaminated with the test water collected in the collection container 500.

The test case 600 is made of transparent plates, and the chamber body 210 and the collection container 500 accommodated therein can be visually confirmed from the outside.

In addition, the test case 600 is formed with an operation hole 610 so that the drain valve 212 that opens and closes the drain pipe 211 formed in the chamber body 210 is exposed to the outside. Therefore, the user can operate the drain valve 212 located inside the test case 600 through the operation hole 610. That is, the test water filled in the chamber body 210 can be discharged from the outside of the test case 600.

In addition, the test case 600 may be provided with a partition wall so that the aforementioned air supply member 100 can be accommodated in another space formed by the partition wall.

As described above, the present invention is very useful because it can provide the conditions for testing the performance of the cable assembly while being able to test the durability of the cable assembly by providing water pressure to the chamber in which the cable assembly to be tested is accommodated. It can be called an invention.

The embodiments introduced above are provided as examples, so that the technical spirit of the present invention can be sufficiently transmitted to a person having ordinary knowledge in the technical field to which the present invention pertains, and the present invention is directed to the embodiments described above. It is not limited and may be embodied in other forms.

In order to clearly describe the present invention, parts not related to the description are omitted in the drawings, and in the drawings, the width, length, and thickness of components may be exaggerated or reduced for convenience.

In addition, the same reference numbers throughout the specification indicate the same components.

100: air supply member 110: air inlet pipe
120: open / close valve 130: air regulator
131: filter member 140: air booster
150: air supply pipe 151: backflow prevention member
200: test chamber 210: chamber body
211: drain pipe 212: drain valve
213: pressure release member 220: chamber lid
230: air inlet 240: air outlet pipe
250: cable fixing member 251: cable tube
251a: slope 251b: support jaw
252: cable finishing member 253: through hole
253a: cable hole 253b: incision groove
254: through-hole 300: pressure reducing member
310: pressure gauge 320: pressure reducing valve
400: control unit 410: test time setting unit
420: pressure setting unit 430: pressure checking unit
440: air supply operation unit 450: operating time confirmation unit
460: Decompression operation unit 470: Air pressure determination unit
480: time determination unit 490: control unit
401: warning unit 500: collection container
600: test case 610: operation hole

Claims (7)

An air supply member 100 for supplying by increasing air pressure;
A test chamber 200 in which the air supplied from the air supply member 100 is filled so that water pressure is applied to the cable assembly 10 while the test water for testing is accommodated together with the cable assembly 10 to be tested,
A pressure-reducing member 300 that discharges the internal air pressure of the test chamber 200 to the outside to reduce the internal pressure,
Control unit 400 for controlling the air supply member 100 so that the water pressure of the test water filled in the test chamber 200 is increased, and controlling the pressure reducing member 300 so that the increased air pressure in the test chamber 200 is discharged to the outside ),
The air supply member 100
An air inlet pipe 110 through which air supplied from the outside flows,
And installed in the air inlet pipe 110 is controlled by the control material 400, the on-off valve 120 for opening and closing the air inlet pipe 110,
And the air regulator 130 for supplying by adjusting the air pressure flowing into a state installed in the air inlet pipe 110,
Air booster 140 for amplifying the air supplied through the air regulator 130 while connected to the air supply pipe 110,
The air booster 140 and the air supply pipe 150 that is connected to the test chamber 200 and supplies the air amplified and supplied by the air booster 140 to the test chamber 200,
The test chamber 200
The chamber assembly 210 in which the cable assembly 10 is accommodated and the inner space filled with the test water is opened upward,
The chamber lid 220 for opening and closing the interior space of the chamber body 210,
The air inlet 230 is formed in the chamber body 210 is injected with air supplied from the air supply member 100,
It is formed in communication with the chamber body 210 and the air discharge pipe 240 through which the air in the interior space is discharged to the outside,
The test chamber 200 includes a cable fixing member 250 for fixing the cable 11 in a state protruding from the chamber body 210 to the outside for testing the performance of the cable assembly 10,
Cable fixing member 250 is
It is formed in communication with the chamber body 210 and the cable tube 251 through which the cable 11 of the cable assembly 10 passes,
It includes a cable closing member 252 that is detachably coupled to the cable tube 251 in a state where air loss is prevented while the cable 11 of the cable assembly 10 is penetrated,
The cable tube 251 is formed with a male thread on the outside, and an inclined surface 251a whose inner diameter is gradually narrowed to pressurize the outer circumferential surface of the air loss prevention portion 253 is formed, and one end of the air loss prevention portion 253 is supported. The support jaw 251b is formed, and the outer diameter is narrowed by the inclined surface 251a while the air loss prevention part 253 inserted into the cable tube 251 is supported by the support jaw 251b. It can be pressed while in close contact with the outer peripheral surface of the
As the cable closing member 252 is formed in a cap shape, a female thread is formed on the inner circumferential surface, and a through hole 254 through which the cable 11 of the cable assembly 10 passes is formed,
The air loss prevention portion 253 is formed of a cylindrical shape while being made of rubber or urethane to have elasticity, a cable hole 253a through which the cable 11 passes is formed, and a cable hole so that the cable 11 is moved to the side An incision groove 253b that is incised laterally at 253a is formed,
The pressure reducing member 300
Pressure gauge 310 for measuring the air pressure for the air discharged through the air discharge pipe 240 and transmits it to the control unit 400,
Controlled by the control material 400 includes a pressure reducing valve 320 for opening and closing the air discharge pipe 240,
The control material 400
A test time setting unit 410 for setting a test time of the cable assembly 10,
Pressure setting unit 420 for setting the air pressure to be formed in the interior space of the test chamber 200,
Pressure check unit 430 to check the pressure measured by the pressure gauge 320 of the pressure reducing member 300,
And the air supply operation unit 440 for operating the air supply member 100,
An operation time checking unit 450 for confirming an operation time when the air supply member 100 is operated by the operation of the air supply operation unit 440,
Decompression operation unit 460 for operating the pressure reduction member 300 and,
And the air pressure judgment unit 470 to determine whether the air pressure is confirmed to match the set air pressure,
A time determination unit 480 that compares the checked operation time with the set test time to determine whether it matches;
If it is determined that the checked air pressure matches the set air pressure, the air supply control unit 440 is controlled to stop the air supply by the air supply member 100, and if it is determined that the checked operating time matches the set test time , Control unit 490 for controlling the decompression operation unit 460 so that the internal air pressure of the test chamber 200 is reduced, and a warning unit 401 for warning by sound or light when an abnormality occurs,
The control unit 490 is characterized in that it is set to operate the warning unit 401 when it is determined that the checked air pressure does not match the set air pressure, and the determined operating time matches the set test time. Hydrostatic testing device for cable assemblies. delete delete delete delete delete delete

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