KR102131875B1 - A Ultrasonic Probe Having a Improved Protecting Structure - Google Patents

Abstract

The present invention relates to an ultrasonic probe having an improved protective structure. The ultrasonic probe for non-destructive testing includes: a detection housing (12) wherein a coupling portion (15) is formed on at least a portion of the circumferential surface; and a protection unit (20) wherein a fastening portion (24) which is detachably coupled to the coupling portion (15) is formed. The protection unit (20) surrounds at least a part of the exterior of the detection housing (12). An object of the present invention is to provide the ultrasonic probe having the improved protective structure having a protective means protecting a probe from an external impact.

Description

A Ultrasonic Probe Having a Improved Protecting Structure

The present invention relates to an ultrasonic probe having an improved protective structure, and more particularly, to an ultrasonic probe having an improved protective structure combined with a protection means for preventing damage due to contact of a detection contact site of the ultrasonic probe.

For non-destructive testing to measure the thickness of an object or to check the internal state of an object, a method of ultrasonic flaw detection, radiation transmission examination, or eddy current detection may be used. During such thickness measurement or non-destructive testing, ultrasonic testing detects reflected waves by transmitting ultrasonic waves to the test object, analyzes the detected reflected waves to measure the thickness of the test object, or determines whether there is a defect inside. How to say For example, pores, slags, cracks, or similar defects in the thickness of the tube or wall or in the welded area can be detected by ultrasonic flaw testing. In addition, the thickness of the object can be detected by the ultrasonic probe. For ultrasonic inspection, ultrasonic waves are transmitted from the probe or probe to the inside of the inspection object, and reflected waves must be received. To this end, the probe is fixed at a predetermined position, and a region that transmits and receives ultrasonic waves from the probe needs to contact the surface of the inspection object. Patent Publication No. 10-2014-0115689, which is related to the ultrasonic probe, discloses an ultrasonic probe fixing device capable of mechanically fixing the ultrasonic probe. Patent registration number 10-1684352 discloses an ultrasonic probe fixing jig that can shorten the inspection time. In addition, Patent Registration No. 10-2011293 discloses a fixing device for an ultrasonic flaw detector used for ultrasonic non-destructive testing. In order to measure thickness or detect defects, the contact portion of the ultrasonic probe must contact the surface of the inspection object, and the contact portion of the probe may be damaged depending on the surface condition. Due to this, the entire probe must be replaced. Therefore, a means to protect the ultrasonic probe needs to be made. The prior art discloses a means capable of immobilizing the ultrasonic probe in the detection process, but does not disclose a method capable of protecting the ultrasonic probe in the detection process or the handling process.

The present invention is intended to solve the problems of the prior art and has the following objects.

Patent Literature 1: Patent Publication No. 10-2014-0115689 (Catholic Kwandong University Industry-Academic Cooperation Foundation, published on Oct. 01, 2014) Ultrasonic probe fixing device Patent Literature 2: Patent registration number 10-1684352 (Doosan Heavy Industries & Construction Co., Ltd., 2016.12.08.announcement) ultrasonic inspection probe fixing jig Patent Document 3: Patent registration number 10-2011293 (Korea, 2019.08.16.

An object of the present invention is to provide an ultrasonic probe with an improved protection structure having a protective means for protecting the probe from external impact while preventing the contact portion from directly contacting a test object by being coupled to the ultrasonic probe.

According to a preferred embodiment of the present invention, the ultrasonic probe for thickness measurement or non-destructive inspection comprises: a detection housing having a binding site formed on at least a portion of a peripheral surface; And a protection unit formed with a fastening portion that is detachably coupled to the engagement portion, the protection unit surrounding at least a portion of the exterior of the detection housing.

According to another suitable embodiment of the invention, a handle is formed in the protection unit.

According to another suitable embodiment of the invention, it further comprises a fixed reinforcement unit coupled to the outside of the protection unit.

In the ultrasonic probe with improved protection structure according to the present invention, a portion exposed to the outside and a portion in contact with a test object are protected during the detection process, thereby improving the durability of the probe. The ultrasonic probe according to the present invention facilitates the handling of the ultrasonic probe by the protection unit while simultaneously improving measurement reliability.

1 and 2 show an embodiment of the ultrasonic probe with improved protection structure according to the present invention.
Figure 3 shows an embodiment of a protection unit coupled to an ultrasonic probe according to the present invention.
4 shows another embodiment of an ultrasonic probe according to the present invention.
5 shows an embodiment of a thickness measurement process by an ultrasonic probe according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the embodiments are intended for a clear understanding of the present invention and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, and are not described repeatedly unless necessary for understanding of the invention, and well-known components are briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment.

1 and 2 show an embodiment of the ultrasonic probe with improved protection structure according to the present invention.

1 and 2, the ultrasonic probe for thickness measurement or non-destructive inspection includes: a detection housing 12 having a binding site 15 formed on at least a portion of a circumferential surface; And a protection unit 20 having a fastening portion 24 that is detachably coupled to the engagement portion 15, and the protection unit 20 surrounds at least a portion of the exterior of the detection housing 12.

The ultrasonic probe 10 may be applied to non-destructive inspection of various inspection targets, and may include a transducer, a protective film, a sound absorbing means, and various electrical substrates or circuits for operation for transmission of ultrasonic waves and reception of reflected waves. The transducer may include an oscillator for conversion of electrical signals and mechanical vibrations, and the ultrasonic probe 10 may be connected to a computer and electronic devices for analysis of generation and transmission of ultrasonic waves, reception and detection of reflected waves. The ultrasonic probe can include a variety of electrical or electronic components for non-destructive testing and can be connected to appropriate types of electronics to control operation. The present invention, the ultrasonic probe 10 is not limited by the operating structure or control method.

The ultrasonic probe 10 includes a cylinder-shaped detection housing 12 in which vibration absorbing means such as electronic components or sound absorbing materials for generating or receiving ultrasonic waves, such as transducers, are disposed; An operation housing 11 coupled to one part of the detection housing 12; And it is formed on the other side of the operating housing 11 may be composed of a detection site 13 for transmitting ultrasonic waves or receiving a reflected wave. The detection housing 12 may be made of, for example, stainless steel, aluminum, or a similar metal material, or may be made of a rigid non-metallic material, but is not limited to this. It is coupled to at least a portion of the outer peripheral surface of the detection housing 12 The site 15 can be formed, and the engagement site 15 can be, for example, a threaded structure formed on at least a portion of the outer circumferential surface of the detection housing 12. Alternatively, the engagement site 15 can be a detection housing ( It may be an elastic pad layer or an elastic coating layer formed on at least a portion of the outer circumferential surface of 12. The working housing 11 can be detachably coupled to the detection housing 12, and power to the working housing 11 is provided. Means for the operation of the supply means, electrical connection means, operation switches, information screens or similar ultrasonic probes, and means for connection to electronic devices in which control modules or data processing modules are arranged, may be arranged. ) May be made of the same or similar material as the detection housing 11, or may be made of different materials, for example, the operation housing 12 may be made of a synthetic resin material or a non-metal material, and the operation housing 12 A connector portion 14 to which a communication cable or a power cable is coupled may be formed. The detection portion 13 formed on one side of the detection housing 12 may be integrally formed with the detection housing 12, and internally. At least one vibrator may be disposed in. In addition, a bonding layer or a protective layer may be formed in the front portion of the detection site 13, and the front surface of the detection site 13 is brought into contact with the surface of the inspection object and the binding layer Alternatively, the ultrasonic wave may be transmitted through the protective layer or the reflected wave may be received, and the detection site 13 may have various structures capable of transmitting or receiving ultrasonic waves and is not limited to the exemplary embodiments.

According to one embodiment of the present invention, the protection unit 20 may be coupled to the outer circumferential surface of the ultrasonic probe 10, for example, a coupling portion 15 formed on the outer circumferential surface of the detection housing 12 By this, the protection unit 20 may be detachably coupled to the ultrasonic probe 10. The protection unit 20 has a hollow cylinder shape, and at least the detection housing 12 and the detection area 13 may be accommodated inside the protection cylinder 21; A transfer wall 22 formed on the front side of the protective cylinder 21; It may include a fastening portion 24 formed on at least a portion of the inner surface of the protective cylinder (21). The detection site 13 and the detection housing 12 may be inserted into the protective cylinder 21 and accommodated, and optionally at least a portion of the operation housing 11 may be received. The protective cylinder 21 may be made of the same or similar metal material as the detection housing 12, or may be made of synthetic resin material, one side of which is closed by the transfer wall 22, and the other side of the ultrasonic probe (10) For acceptance, it may be in an open form. The delivery wall 22 may be made of a material suitable for the transmission and reception of ultrasound waves, a material identical to or similar to a medium or bonding layer that can be in close contact with the inspection object. In addition, the transfer wall 22 may have a shape suitable for the surface shape of the object to be inspected, and may be, for example, a flat or curved shape, but is not limited thereto. In addition, the delivery wall 22 can be made of a replaceable structure or a detachable structure. The handle 23 for the handling of the protection unit 20 may be formed at the other end of the protection cylinder 21, and the handle 23 may be combined with the protection cylinder 21 integrally or detachably while becoming a drum shape. Can. The handle 23 may have various structures capable of improving the convenience of handling in a process of separating or combining the protection unit 20 with the ultrasonic probe 10, a detection process, or a moving process. A fastening portion 24 may be formed on at least a portion of the inner circumferential surface of the protective cylinder 21, and the fastening portion 24 may have various structures that are engaged with the engaging portion 15. For example, the fastening portion 24 may have a threaded structure, and may have a structure that can be moved in engagement with the engaging portion 15. When the ultrasonic probe 10 and the protection unit 20 are completely engaged after being engaged with each other, they may be locked by a handle 23 or a locking means 26 installed in another part. For example, the end portion of the locking means 26 is coupled to the fixing groove 261 formed in the handle 23 so that the ultrasonic probe 10 and the protection unit 20 do not move with each other. The locking means 26 can have a variety of structures and are not limited to the presented embodiment.

Referring to FIG. 2, the protection unit 20 may be coupled from the front portion of the ultrasonic probe 10, and the coupling portion 15 and the coupling portion 24 are engaged with each other to rotate and protect by rotating the handle 23 The unit 20 can be moved in the direction of the operating housing 11. If the detection site 13 is in contact with the inner surface of the delivery wall 22, or if it is in contact with the inner surface of the delivery wall 22 on the circumferential surface of the detection site 13, the ultrasonic probe 10 and the protection unit 20 ) May be in a fully coupled state. Thereafter, the protection unit 20 may be locked by the locking means 26, thereby protecting the ultrasonic probe 10. For use of the ultrasonic probe 10, the handle 23 can be held and the delivery wall 22 can be brought into contact with the inspection object. And by operating the ultrasonic probe 10 can inspect the internal state of the inspection object, after the inspection is complete, the ultrasonic probe 10 is stored in a state in which the protection unit 20 is coupled, or the protection unit 20 It can be stored in a separate state. Optionally, the transfer wall 22 of the protection unit 20 can be made of a replaceable structure.

3 shows an embodiment of a protection unit coupled to an ultrasonic probe according to the present invention.

Referring to FIG. 3, the protection cylinder 21 may have a structure in which the front surface and the rear surface are open, and the transmission cap 33 is coupled to the front surface, and through the rear surface, the protection cylinder of the detection housing 12 ( 21) can be accommodated inside. The transfer cap 33 may have a structure in which one side is opened and the other side is formed with a contact layer having a structure similar to that of the protective layer or transfer wall of the ultrasonic probe. The delivery cap 33 may be cylindrical in shape as a whole, and the end portion of the protective cylinder 21 may be coupled along the circumferential wall 331. The circumferential wall 331 and the end portion of the protective cylinder 21 may be coupled to each other so that the length can be adjusted by, for example, screwing. The transfer layer 34 is disposed inside the contact wall of the transfer cap 33 so that the transmission and reception of ultrasonic waves for different inspection objects can be improved. The transfer layer 34 may have, for example, acoustic lens characteristics for focusing ultrasound, or may be made of a material having excellent ultrasound transfer characteristics. Optionally, a measurement slit 32 having a graduation on the protection cylinder 21 is formed, so that a coupling position or an engagement state between the protection cylinder 21 and the ultrasonic probe can be confirmed. Optionally, the fixing unit 31 may be formed on the ultrasonic probe 10, and the fixing unit 31 may be a drum shape formed along the outer circumferential surface of the ultrasonic probe 10. A circular insertion groove 351 may be formed on one side of the fixing unit 31, and a coupling protrusion 352 may be formed on one side of the handle 23. The fixing unit 31 may be formed at a predetermined position of the ultrasonic probe 10, and the insertion unit 351 and the coupling protrusion 352 may be coupled to each other and the protection unit may be fixed to the ultrasonic probe 10. . In this way, the fixing unit 31 may have a function of determining a position where the protection unit is coupled and fixed. Optionally, the insertion groove 351 and the circular coupling protrusion 352 may be a magnet coupling structure, and magnets coupled to each other inside the coupling groove 351 and the coupling protrusion 352 may be disposed. The protection unit can be fixed to and coupled to the ultrasonic probe 10 in various ways and is not limited to the presented embodiment.

4 shows another embodiment of an ultrasonic probe according to the present invention.

Referring to FIG. 4, the ultrasonic probe 10 further includes a fixed reinforcement unit 40 coupled to the outside of the protection unit 20. The protective unit 20 may include a handle 23 formed on one end of the protective cylinder 21 and the protective cylinder 21, both sides of which are open, and penetrate the handle 23 in the central portion of the handle 23 The fixing hole (FH) can be formed. A threaded structure fastening portion 24 may be formed on the outer circumferential surface of the protection cylinder 21, and the protection unit 20 may be protected by a fastening means such as, for example, adhesive means, screws or pins. Can be firmly coupled to. The fixed reinforcing unit 40 may be detachably coupled to the outside of the protection unit 20 while having a hollow cylinder shape as a whole. The fixed reinforcing unit 40 has a hollow cylinder shape, a detection wall 42 is formed on one side, and the reinforcing cylinder 41 is opened on the other side; And an engaging portion 43 formed inside the reinforcing cylinder 41 and engaged in a manner of engaging with the fastening portion 24. A detection hole 45 may be formed inside the detection wall 42 of the reinforcing cylinder 41, and an end portion of the detection housing 12 may be coupled to the detection hole 45. The receiving diameter D2 of the detection hole 45 may be, for example, 0.01 to 2.0 mm larger than the diameter of the detection housing 12, and the inner surface of the detection hole 45 may be selectively elastic. Thereby, the detection housing 12 can be stably coupled to and fixed to the detection hole 45. The end of the detection site 13 may be in contact with the detection wall 42, and the detection wall 42 may be made of a material capable of transmitting and receiving ultrasonic waves. Means for the protection of the ultrasonic probe 10 may be made of various structures and is not limited to the presented embodiment. The ultrasonic probe 10 may be applied to a non-destructive inspection in a state where the protection unit 20 or the fixed reinforcement unit 40 is coupled.

5 shows an embodiment of a thickness measurement process by an ultrasonic probe according to the present invention.

Referring to FIG. 5, the ultrasonic probe 10 may be connected to an electronic device 52 such as a computer on which a control module and an analysis module are installed to measure the thickness of the inspection object 51. The protective means 20 can be coupled to the front of the ultrasonic probe 10, holding the handle 23 and the transfer wall 22 of the protective cylinder 21 of the protective unit 20 is the surface of the inspection object 51 It can be brought into contact with. The ultrasonic wave (US) may be transmitted to the inside of the inspection object 51 through the transmission wall 22 by the electronic device 52, and the reflected wave may be received by the ultrasonic probe 10 through the transmission wall 22 to receive electricity. It can be converted into a signal and transmitted to the electronic device 52. The operation adjusting means 521 and the analysis module 522 of the ultrasonic probe 10 may be disposed in the electronic device 52, and the transmission time of ultrasonic waves and the reception time of reflected waves may be detected and analyzed by the measurement module 522. Can be. And thereby, the thickness of the inspection object 51 may be determined. The ultrasonic probe 10 may be applied to various detections such as thickness measurement and inspection of internal defects, and is not limited to the presented embodiments. In addition, the protection unit 20 may be applied to the ultrasonic probe 10 having various structures and is not limited to the presented embodiment.

In the ultrasonic probe with improved protection structure according to the present invention, a portion exposed to the outside and a portion in contact with a test object are protected during the detection process, thereby improving the durability of the probe. The ultrasonic probe according to the present invention facilitates the handling of the ultrasonic probe by the protection unit while simultaneously improving measurement reliability.

The present invention has been described in detail with reference to the presented embodiments, but those skilled in the art will be able to make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such modified and modified inventions, but is limited by the appended claims.

10: ultrasonic probe 20: protection unit
11: Operation housing 12: Detection housing
13: detection site 14: connector site
15: engagement site 21: protective cylinder
22: delivery wall 23: handle
24: fastening part 26: locking means
31: fixing unit 32: measuring slit
33: delivery cap 34: delivery layer
40: fixed reinforcement unit 261: fixed groove

Claims (3)

In the ultrasonic probe for the measurement of the object thickness or non-destructive inspection,
A detection housing 12 having an engaging portion 15 formed on at least a part of the circumferential surface; And
Consists of a protection unit 20 formed with a fastening portion 24 that is detachably coupled to the engaging portion 15,
The protection unit 20 has a hollow cylinder shape, and the detection housing 12 and the detection area 13 can be accommodated in the protection cylinder 21, the transfer wall 22 formed on the front surface of the protection cylinder 21, Further comprising a locking means 26 coupled to the drum-shaped handle 23 and the fixing groove 261 formed in the handle 23 for the handling of the protection unit 20 at the other end of the protection cylinder 21, the protection The ultrasonic probe with improved protection structure characterized in that the coupling position or the coupling state between the protection cylinder 21 and the ultrasonic probe is confirmed by the measurement slit 32 formed in the cylinder 21 and the graduations formed. delete The method according to claim 1, the ultrasonic probe with improved protection structure further comprises a fixed reinforcement unit (40) coupled to the outside of the protection unit (20).

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