KR20140001764U - Distance control device for probe - Google Patents

Abstract

The present invention relates to a distance adjusting device for a probe, a support bar having a length in one direction, a fixed block fixedly installed on one side of the support bar, a moving block movably installed on the other side of the support bar, and the fixed It is installed on one side of the block and the movable block, respectively, a pair of gripping portions provided with the probe on one side and one side of the movable block, one side of which is supported on one side of the support bar to position the movable block. It provides a distance adjusting device for the transducer comprising a fixing member for fixing.
According to the present invention as described above, the transmitter and the receiver is installed on the support bar, the receiver is installed to be movable and the position of the receiver is fixed by the fixing member so that the receiver is installed on the welding object, the transmitter and the separation of the receiver The distance, that is, the inspection position of the preset transmitter and receiver can be easily adjusted, and the inspection position of the set probe can be prevented from being displaced, thereby greatly improving the ultrasonic receiving efficiency of the receiver and thus greatly improving the reliability of the inspection. It can be effected.

Description

Distance control device for probe

The present invention relates to a distance adjusting device for a probe, and more particularly, the inspection position of the transducer set while being able to easily adjust the inspection position of the transmitter and the receiver, the separation distance of the receiver, that is, the preset transmitter and receiver installed on the welding object By preventing the displacement of the ultrasonic receiving efficiency of the receiver can be greatly improved, and accordingly relates to a transducer for adjusting the distance that can significantly improve the reliability of the inspection.

In general, various structures are used in offshore structures.These offshore structures include LNG Floating, Production, Storage and Offloading (FPSO), Oil FPSO, LNG Floating Storage and Regasification Unit (FSRU), and Floating Production Unit (FPU). There are marine plants, ships such as).

These offshore structures have a number of pipes installed for reasons such as wiring, ventilation, drainage, fuel supply to power means, and transfer of various fluids, and flare towers such as flare towers for incineration or discharge of excess evaporated gas. In order to maintain or repair certain structures due to the characteristics of offshore structures installed at sea, it is difficult to support them from the outside, so they have to be solved within the offshore structures themselves. Quality inspection of each structure is done in the process of manufacturing or installing the structure.

In particular, in the case of offshore structures such as ships, each area of the ship is manufactured by a block method and assembled by each block. The assembly of these blocks is mainly performed by welding, and after welding, one of the non-destructive inspection methods is mainly used. The welding quality of the welding object is inspected by using an ultrasonic flaw detection method.

The ultrasonic flaw detection method is a method of inspecting the presence or absence of internal defects such as a lack of penetration by using the reflection of ultrasonic waves. Ultrasonic waves transmitted from the transmitter with the receivers installed on one side of the welded object are reflected to the inspection target area and received by the receiver. Is detected.

However, according to the conventional ultrasonic flaw detection method, at least one of the transmitter and the receiver installed on the welding object is displaced by external factors during the inspection, so that the ultrasonic reception efficiency of the receiver is notably reduced, and thus the error occurrence rate of the inspection is also reduced. It greatly increased, and furthermore, there was a problem that the reliability of the test was lowered.

Republic of Korea Patent Publication 10-2009-0115170

The present invention is devised to solve the above problems, the object of the present invention is to set the distance between the transmitter and the receiver, the receiver is installed on the welding object, that is to say that the preset inspection position of the transmitter and receiver can be easily adjusted By preventing the displacement of the probe's inspection position, it is possible to significantly improve the ultrasonic reception efficiency of the receiver, and accordingly, to provide a transducer distance control device that can greatly improve the reliability of the inspection.

Another object of the present invention is to provide a transducer for adjusting the distance between the transmitter and the receiver can be easily adjusted even if the inspection of a plurality of inspection objects.

According to one aspect of the present invention for achieving the above object, in the probe distance adjusting device of the inspection means for inspecting the welding quality of the welding object, a support bar having a length in one direction, and one side of the support bar A fixed block fixedly installed on the support block, a movable block movably installed on the other side of the support bar, a pair of gripping parts installed on one side of the fixed block and the movable block, and on which the probe is installed; It is installed on one side of the moving block, one side is supported on one side of the support bar to provide a transducer for adjusting the distance characterized in that it comprises a fixing member for fixing the position of the moving block.

In addition, the support bar is preferably formed on one side, and further comprising a separation distance display means for displaying the separation distance of the fixed block and the moving block.

In addition, the gripping portion may be installed detachably the transducer.

According to the present invention as described above, the transmitter and the receiver is installed on the support bar, the receiver is installed to be movable and the position of the receiver is fixed by the fixing member so that the receiver is installed on the welding object, the transmitter and the separation of the receiver The distance, that is, the inspection position of the preset transmitter and receiver can be easily adjusted, and the inspection position of the set probe can be prevented from being displaced, thereby greatly improving the ultrasonic receiving efficiency of the receiver and thus greatly improving the reliability of the inspection. It can be effected.

1 is a perspective view of a transducer for distance control according to an embodiment of the present invention,
2 is a view showing a state in which the inspection position of the transmitter and the receiver is adjusted while the moving block of the transducer distance adjusting device according to an embodiment of the present invention moved left and right.

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

1 is a perspective view of a distance control device for a transducer according to an embodiment of the present invention.

As shown in Figure 1, the transducer distance control device 1 according to an embodiment of the present invention is a support bar 10, the separation distance display means 20, the fixed block 30, the moving block 40 ) And a pair of gripping portions 50 and a fixing member 60.

The support bar 10 is formed in a substantially bar shape, and provides an installation area of the fixed block 30 to be described later to fix the position of the receiver R of the probe installed on the fixed block 30 through the grip 50. In addition, the position of the transmitter T supported by the gripper 50 on the movable block 40 is also moved in the horizontal direction by allowing the movable block 40 to be moved left and right in the longitudinal direction.

The separation distance display means 20 is formed on the outer surface of the support bar 10 in a scale of mm, and when the moving block 40 moves in the left and right directions on the support bar 10, the fixed block 30 and the moving block ( 40 to determine the separation distance so that the inspection position of the receiver (R) and the transmitter (T) supported by the fixed block 30 and the mobile block 40 by the gripper 50 can be easily adjusted It plays a role.

In this embodiment, the scale is used as the separation distance display means 20, but the separation distance display means 20 of the present invention is not necessarily limited to this, such as a fixed distance block 30 and a digital distance meter; Any means can be applied as long as it can easily check the separation distance of the moving block 40.

The fixed block 30 is formed in a substantially cylindrical block shape, is fixedly installed on one side of the support bar 10, and provides an installation area of any one of the holding parts 50 of the pair of holding parts 50 described later. As a function of fixing the inspection position of the receiver (R) coupled to the gripping portion (50).

The moving block 40 is formed in a substantially cylindrical block shape like the fixed block 30, and is installed to be movable left and right along the longitudinal direction of the support bar 10 on the other side of the geomagnetism bar. By providing an installation area of the other holding portion 50 of the branch 50, the inspection position of the transmitter (T) coupled to the holding portion 50 to move in the longitudinal direction, that is, the left and right direction of the support bar (10) As a result, the separation distance between the receiver R and the transmitter T, that is, the inspection position of the transmitter T and the receiver R can be easily adjusted.

The pair of grippers 50 are coupled to the lower portion of the fixed block 30 and the movable block 40, respectively, and hold the transmitter T and the receiver R to hold the transmitter T and the receiver R. It serves to be supported on the fixed block 30 and the moving block 40, respectively.

The gripping portion 50 is formed in a general forceps shape, and by holding the transmitter T and the receiver R detachably, the transmitter T according to the maintenance and maintenance of the transmitter T and the inspection object or the inspection object. It is desirable to be able to easily exchange and use the receiver (R).

The fixing member 60 has a lower end penetrating the upper one side of the movable block 40 to be supported on one side of the support bar 10 so that the position of the movable block 40 moved left and right on the support bar 10 is fixed. As the position of the mobile block 40 is fixed, the inspection position of the transmitter T and the receiver R is prevented from being displaced.

2 is a view showing a state in which the inspection position of the transmitter (T) and the receiver (R) is adjusted while the moving block (40) of the transducer distance adjusting device (1) according to one embodiment of the present invention is moved left and right.

Referring to Figure 2 attached to the operation of the transducer distance control device 1 according to an embodiment of the present invention having such a configuration as follows.

First, the receiver (R) and the transmitter (T) to be used are respectively coupled to the gripping part (50) installed in the fixed block (30) and the gripping part (50) provided in the mobile block (40).

In the state in which the receiver R and the transmitter T are coupled to each gripper 50, the movable block 40 is moved left and right in the longitudinal direction of the support bar 10 to be moved by the gripper 50. The transmitter T supported by 40 is moved to a preset inspection position.

Here, the movement of the moving block 40 is to be accurately moved to a preset position with reference to the separation distance display means 20 formed on the support bar (10).

After the movement of the moving block 40 is completed, the moving block moved on the support bar 10 by rotating the fixing member 60 so that the lower end of the fixing member 60 is supported on one side of the support bar 10. The position of 40 is fixed so that the distance between the transmitter T and the receiver R is adjusted and the inspection position fixing operation of the transmitter T and the receiver R is completed.

On the other hand, in one embodiment of the present invention, the transmitter (T) and the receiver (R) has been described as being installed in the mobile block 40 and the fixed block 30, respectively, according to the operator's working environment transmitter (T) Of course, it can be installed by changing the installation position of the receiver (R).

According to the transducer distance control device 1 according to an embodiment of the present invention as described above, while installing the transmitter (T) and the receiver (R) on the support bar 10, the receiver (R) is installed to be movable In addition, the position of the receiver (R) is fixed by the fixing member (60) so that the receiver (R) is installed on the object to be welded, and the separation distance of the receiver (R), that is, the preset transmitter ( While it is possible to easily adjust the inspection position of T) and the receiver (R), it is possible to greatly improve the ultrasonic reception efficiency of the receiver (R) by preventing the set inspection position of the transducer from being displaced, thereby increasing the reliability of the inspection. There are features that can be improved.

Although the present invention has been described in connection with the above-mentioned embodiment, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, the appended claims are intended to cover such modifications and changes as fall within the scope of the present invention.

1: distance adjusting device for transducer 10: support bar
20: distance display means 30: fixed block
40: moving block 50: holding part
60: fixing member

Claims (3)

In the probe distance control device of the inspection means for inspecting the welding quality of the welding object,
A support bar having a length in one direction;
A fixed block fixedly installed at one side of the support bar;
A moving block movably installed on the other side of the support bar;
A pair of gripping parts installed on one side of the fixed block and the movable block, respectively, on which the probe is installed; And
And a fixing member installed at one side of the moving block and having one side supported by one side of the support bar to fix the position of the moving block.
The method of claim 1,
It is formed on one side of the support bar, the distance adjusting device for the transducer characterized in that it further comprises a separation distance display means for displaying the separation distance of the fixed block and the moving block.
The method of claim 1,
The gripping portion of the transducer distance control device, characterized in that the probe is detachably installed.

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