JPH0714884Y2 - Ultrasonic probe holder for steel pipe - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of use] The present invention relates to a holding device for an ultrasonic probe used for ultrasonic flaw detection of a seamless steel pipe or a welded steel pipe.

[Prior Art] A conventional probe holding device is: 1) for vertical flaws, for horizontal flaws, one dedicated for each type of probe, 2) various probes can be used As described above, it is possible to adjust the setting position with a high degree of freedom. 3) Rotate the flaw detection direction, the orientation of the probe, etc. with screws or other means to enable flaw detection in any direction. There are various types.

[Problems to be Solved] However, the conventional holding device has the following problems.

1) For vertical flaws, horizontal flaws, and those dedicated for each type of probe, it is necessary to prepare and place many devices.

2) In the case where the setting position can be adjusted with a high degree of freedom so that various probes can be used, the degree of freedom is too large and the setting condition becomes unclear.

3) Further, the probe is fixed by being sandwiched by an acrylic shoe on the flaw detection surface side and a probe pressing mechanism from the anti-flaw detection surface side. Therefore, the shoe made of acrylic resin is distorted in shape due to the probe pressing force and is worn irregularly.

As a result, it is difficult to perform reproducible flaw detection as well as unclear the above setting conditions.

The present invention solves the above problems.
An object of the present invention is to provide a probe holding device for ultrasonic inspection of a steel pipe.

[Means for Solving the Problems] In the probe holding device for ultrasonic flaw detection of a steel pipe of the present invention, the mounting square holes for positioning and mounting the probe are targeted in the pipe axial direction and the pipe circumferential direction of the steel pipe to be inspected. Two pedestals; a position-adjustable stopper for positioning the probe, which is provided on one side of each of the mounting square holes of the pedestal, and a probe pressing spring provided on the opposite side. And a probe positioning mechanism mounted on the upper surface of the pedestal; a copying shoe mounted on the lower surface of the pedestal; an axis around the pipe axis and orthogonal to the pedestal. And a gimbal mechanism that holds it rotatably around it.

[Operation] Two probe mounting square holes are provided on the pedestal, and probes for vertical flaws and horizontal flaws can be fitted and fixed. Then, the probe can be positioned at a predetermined position by the positioning mechanism, and the probe is fixed to the pedestal by the presser foot, so flaw detection with an optimum refraction angle and good reproducibility can be performed. .

Further, since the copying shoe is attached to the lower surface of the pedestal and the pedestal is rotatable in the two-dimensional direction by the gimbal mechanism, the shoe uniformly contacts the outer surface of the steel pipe to be inspected. As a result, stable flaw detection work can be performed.
Further, since the probe is fixed to the pedestal, the shoe is not subjected to excessive force, and the shoe is evenly worn, so flaw detection with good reproducibility can be performed.

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings.

The pedestal 1 is a rectangular block, and two probe mounting square holes 2 are formed in the pipe axial direction and pipe circumferential direction of the steel pipe to be inspected. Each of these square holes has a convex shape,
Further, there is a relief 2a at each corner, and by inserting the probe 15 into the square hole 2, the probe 15 can be correctly attached in the tube axis and the direction orthogonal thereto. When using probes having different outer dimensions, the square hole 2 is used.
Various kinds of probes can be used by preparing an attachment having an external size that conforms to the above.

The pedestal 1 is provided with a positioning mechanism 3 for the probe 15.
This positioning mechanism is composed of a stopper 4 provided on one side of the square hole 2 and a probe pressing spring 9 provided on the opposite side. The stopper 4 is formed with a male screw 4a that is screwed into a female screw 1a provided on the pedestal 1, and its tip position can be adjusted. Then, after the positioning, the position is fixed by the lock nut 5. On the other hand, a case 6 that accommodates a pusher 7 that pushes the side surface of the probe 15 so as to be able to move forward and backward is screwed into a position facing the stopper 4. A spring 9 for pressing the pressing element 7 is provided in the case 6. A handle 8 is provided at the end of the pusher shaft 7a to prevent the pusher 7 from coming out of the case 6, and when the probe 15 is mounted in the mounting hole 2, the pusher 7 is pulled. You can put it in. Thus, the probe 15 is the stopper 4
By pressing the pressing element 7 with the spring 9, it is held at a predetermined position. In this case, if alignment marks or scales 16 and 17 are provided on the upper surface of the pedestal 1 and the side surface of the probe 15, the alignment can be easily performed and the set position can be easily confirmed. be able to.

The probe 15 has a flange portion that abuts the upper edge of the mounting hole 2.
15a is formed, and the lower surface thereof is flush with the bottom surface of the pedestal 2 when inserted into the mounting hole 2.
Then, the probe 15 is pressed from above by a presser metal 13 provided at the corner of the pedestal 2, and the position in the vertical direction is fixed. In addition, in the corner of the pedestal 1, the water supply unit 1b
Is provided.

Then, the copying shoe 10 is attached to the lower surface of the pedestal 1. A mounting hardware 1 in which a flange portion 10a is formed on the side of the shoe 10 and a groove 11a in which the flange portion is fitted is formed.
By fixing 1 to the side surface of the pedestal 1, the shoe 10 is attached to the lower surface of the pedestal 1.

Further, the pedestal 1 is rotatably attached around an axis 22 which is provided at an end of the arm 21 of the gimbal mechanism 20 and faces the tube axis, and the arm 21 is an axis in a direction orthogonal to the tube axis. twenty three
It can be rotated around. In this way, the pedestal 1 can be rotated two-dimensionally, and the shoe 10 can smoothly follow the outer surface of the pipe to be inspected.

[Effects of the Invention] The ultrasonic probe holding device for steel pipes of the present invention is as described above, and has the following effects.

1) Conventionally, various types of holding devices were required for vertical flaws, horizontal flaws, or for each shape of the probe, but various types of probes can be used simply by attaching the probe attachment. Therefore, the devices can be integrated and rationalized.

2) The eccentricity of the probe, the incident direction of ultrasonic waves, etc. can be accurately set and held, and the probe is fixed only by the pedestal so that the shoe is not affected. The reproducible flaw detection can always be performed under a constant condition, and the flaw detection accuracy can be improved.

[Brief description of drawings]

FIG. 1 is a plan view showing an embodiment of the present invention, and FIG.
It is a II-II arrow cross section of a figure. 1 ... Pedestal, 2 ... Probe mounting square hole, 3 ... Positioning mechanism, 4 ... Stopper, 9 ... Pressing spring, 10 ... Copy shoe, 11 ... Shoe mounting hardware, 13 ... Probe Child presser hardware, 20 ...... Gimbal mechanism.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Megumi Tanaka, 1-2 Marunouchi, Chiyoda-ku, Tokyo Nihon Kokan Co., Ltd. (72) Toshiya Akiyama 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Inside this steel pipe company (56) Reference JP-A-57-13352 (JP, A) Actually open 59-89261 (JP, U) Actually open 60-168062 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. A pedestal in which two mounting square holes for positioning and mounting a probe are provided in a pipe axial direction and a pipe circumferential direction of a steel pipe to be inspected; and one side of each mounting square hole of the pedestal. A probe positioning mechanism including a position-adjustable stopper for positioning the probe provided in the probe and a probe pressing spring provided on the side opposite to the stopper, and a probe positioning mechanism; A steel plate for a steel pipe; a probe presser metal; Sonic probe holding device.