KR200284334Y1 - Ultrasonic Testing Jig's Water Circulator - Google Patents

Abstract

The present invention provides water as a pump in an automatic inspection device using water as a contact medium when performing ultrasonic exploration, which is an essential method for safety diagnosis and quality evaluation of steel structure equipment. It relates to the water circulation device of the ultrasonic flaw detection jig that allows the smooth flaw detection in a small tank as the water is recovered.

In other words, in the ultrasonic flaw detection using water as a medium, a part of the water discharged from the pump is supplied to the jig main body, while a part of the branch pipe branched into the supply branch and the recovery branch is installed so that the other part is recovered by the water tank. The inlet hole is formed to supply water to the receiving chamber of the supply pipe, and the suction passage is formed at the lower side of the jig main body so as to communicate with the bottom surface of the receiving chamber. The bottom surface of the main body is attached to the surface of the test object to be tested to attach a sealing member for airtight operation while maintaining a gap from the bottom surface of the jig body.

Description

Ultrasonic Testing Jig's Water Circulator

The present invention provides an automatic inspection using water as a contact medium when performing ultrasonic inspection, which is an essential method for the safety diagnosis and quality evaluation of steel structure equipment. The present invention relates to a water circulation system of an ultrasonic flaw jig that enables a smooth flaw detection in a small tank by supplying water as a single pump and recovering used water.

In general, it was necessary to inspect by ultrasonic inspection whether a defect such as a crack occurred in the test member to secure the stability of the steel equipment or to evaluate the quality of the steel structure product.

The inspection method by inspection is divided into two types, one of which is a method in which a person directly touches an ultrasonic sensor with a test object, and the other is an automatic inspection method using a robot.

On the other hand, when the ultrasonic sensor is in contact with the test object, the sensor and the test object must be closely brought into close contact with each other, but the ultrasonic waves generated by the device can be transferred to the inside of the test object.

Due to this technical problem, a flaw detection method is used to inject a liquid medium between the sensor and the test object so that ultrasonic waves generated from the sensor pass through the medium and are transferred into the test object. However, the so-called immersion method using water as a suitable for automatic detection is commonly used.

1 is a schematic view showing a general jig device for ultrasonic flaw detection, and supplies the water stored in the water tank 1 to the immersion jig 2 by the driving of the pump 3 to the test body E for flaw detection. The sensor 5 connected to the ultrasonic flaw detector 4 was attached to the jig, and the ultrasonic wave generated from the device was transferred to the inside of the test body through the water sprayed from the jig.

However, since some of the water discharged from the jig during the flaw detection process may soil the surface of the test specimen while remaining on the surface of the test specimen, it is cumbersome to remove the discharged water as necessary. In case of such a problem, it is necessary to remove the water because the problem caused by the residual water is high.

In addition, since the water used for immersion is treated as sewage by discharge and cannot be reused, there is a problem in that the amount of water released to the water supplying tank is often replenished.

In particular, in the case of flaw detection using a robot, a case in which a tank is built in the robot can be considered. In such a case, the above-described method was impossible.

The present invention was devised in view of the problems of the conventional immersion apparatus as described above, and its purpose is to supply the immersion water to the jig using a single pump and to circulate the used water back into the water tank, thereby remaining in the test body. The present invention provides a water circulation system for an ultrasonic flaw jig that can automatically remove water and significantly reduce water consumption.

The present invention for achieving this purpose, in the ultrasonic flaw detection using water as a medium, a part of the water discharged from the pump is branched into the supply pipe and the recovery pipe so that the remaining part is supplied to the jig body, and the other part is recovered to the tank The engine is installed, the inlet hole is formed to supply water to the accommodation chamber of the jig body, and the supply pipe is connected, and the suction pipe is formed on the lower side of the jig body so as to communicate with the bottom surface of the accommodation chamber. The water discharged from the pump is connected to the recovery paper tube by attaching a sealing member which is in close contact with the surface of the test object to be tested on the bottom surface of the jig body and maintains a gap from the bottom surface of the jig body. It does not remain on the surface to protect the specimen surface and to reduce the size of the bath and equipment.

1 is a general ultrasonic jig device,

2 is an overall configuration diagram showing the water circulation device of the ultrasonic flaw detection jig of the embodiment of the present invention,

3 is a cross-sectional view showing a jig main body for ultrasonic flaw detection of the embodiment;

4 and 5 is a configuration diagram showing a piping state of the suction passage and the connecting pipe of the jig body.

<Description of Symbols for Main Parts of Drawings>

1: water tank 3: pump

4: flaw detector 5: sensor

10: jig body 11: storage room

12: inlet hole 13: suction passage

20: branch pipe 21: supply branch pipe

22: recovery pipe 23: connector

30: sealing member

2 is an overall configuration diagram showing the water circulation device of the ultrasonic flaw detection jig of the present invention, the sensor connected to the ultrasonic flaw detector 4 on the upper side of the jig main body 10 to perform ultrasonic flaw detection using water as a medium. (5) is attached, and the pump 3 for supplying the water stored in the water tank 1 is provided on one side of the jig body 10.

Part of the water discharged from the pump (3) is supplied to the jig main body 10, but the other part is supplied to the pump and the jig main body one pipe to the feed branch pipe 21 and recovery branch pipe (22) A branch pipe 20 branched to the wall is provided.

Figure 3 shows the jig body for the ultrasonic flaw detection according to an embodiment of the present invention, the supply pipe 21 is piped to the outer peripheral surface of the jig body 10 to supply water to the receiving chamber 11 inlet hole 12 Is formed, the suction passage 13 is formed on the lower side of the jig main body 10 so as to communicate with the bottom surface of the accommodation chamber 11 through the connecting pipe 23 connected to the outside of the recovery paper pipe 22 Is connected to.

4 and 5 is a configuration diagram showing the piping state of the suction passage and the connecting pipe of the jig body, the suction passage 13 is radially positioned on the jig body 10 while having a smaller diameter than the inlet hole. It is preferably formed in a number of places, the connecting pipe 23 for connecting the suction passage 13 and the collecting paper pipe 22 is preferably formed to be inclined toward the flow direction of the water to improve the suction force to the maximum.

The bottom surface of the jig main body 10 is attached to the sealing member 30 that is in close contact with the surface of the test body (E) to be tested and maintains a gap from the bottom surface of the jig main body 10 to perform an airtight action.

Therefore, in the present invention as described above, the water of the water tank 1 flows through the branch pipe 20 by the operation of the pump 3 in the ultrasonic inspection by immersion, a part of which is jig through the supply pipe 21. The remaining part of the water flowing from the branch pipe 20 while flowing into the receiving chamber 11 of the main body 10 flows through the recovery branch pipe 22 at a high speed and is connected to the jig main body 10 through the connecting pipe 23. The suction passage 13 is circulated back to the water tank 1 while generating a suction force.

Therefore, when water is filled to the storage chamber 11 formed in the jig main body 10 by an appropriate level, water is used as a medium in such a state, and the flaw detection work of the test piece E is performed by the ultrasonic sensor 5. In order to control the amount of water supplied in the process of supplying water, it is preferable to form the valve 21 ′ at a suitable position of the supply pipe 21.

As the water flowing through the recovery paper pipe 22 at a high speed generates suction power in the suction passage 13 through the connecting pipe 23, the water in the storage chamber 11 sucks up the water contained in the accommodation chamber 11 and eventually the water in the accommodation chamber 11. It is discharged to the outside of the jig body to be circulated to the water tank while allowing the recovery paper pipe 22 to join the flowing water.

That is, the water supplied to the jig main body 10 through the feed branch pipe 21 of the branch pipe 20 is circulated through the receiving chamber and then discharged through the recovery branch pipe 22 of the branch pipe to be sent to the water tank. Do it.

On the other hand, the sealing material 30 formed on the bottom surface of the jig body 10 is in close contact with the surface of the test piece (E) to prevent the loss of water supplied to the receiving chamber 11 of the jig body to maintain the proper water level and at the same time jig The bottom of the body is separated from the surface of the test piece to facilitate the discharge of water through the suction passage (13).

The water circulation device of the ultrasonic flaw detection jig according to the present invention has the effect of miniaturizing the water tank and simplifying the installation by continuously circulating the water using a single pump, and recovering the water used for the test. By doing so, it is economical to prevent the waste of water, and also has the advantages of cleaning the surface of the non-destructive test object and performing the ultrasonic diagnostic task automatically.

Claims (2)

A sensor 5 connected to the ultrasonic flaw detector 4 is attached to the upper side of the jig body 10, and a pump 3 for supplying water stored in the water tank 1 is installed at one side of the jig body 10. In ultrasonic inspection using water as a medium, A part of the water discharged from the pump 3 is supplied to the jig main body 10, and the other part is branched into the supply branch 21 and the recovery branch 22 installed in the pump and the jig main body so that the other part is recovered to the water tank 1. Branch pipe 20, An inlet hole 12 formed to connect the supply branch pipe 21 to the outer circumferential surface of the jig main body 10 to supply water to the accommodation chamber 11 provided in the jig main body 10; A suction pipe 13 formed at a lower side of the jig main body 10 so as to communicate with a bottom surface of the accommodation chamber 11, and a connection pipe 23 installed to be connected to the recovery paper pipe 22; Attached to the bottom surface of the jig main body 10 is in close contact with the surface of the test body (E) to be tested, including a sealing member 30 for sealing while maintaining a gap from the bottom surface of the jig main body 10 Water circulator of the ultrasonic flaw jig characterized in that. According to claim 1, The suction passage 13 is formed in a plurality of places radially located in the jig body 10 while having a smaller diameter than the inlet hole, connecting the suction passage 13 and the recovery paper pipe 22 Connecting pipe 23 is the water circulation device of the ultrasonic flaw detection jig characterized in that the inclined toward the flow direction of the water so as to improve the suction force to the maximum.