KR200327080Y1 - Ultrasonic multi-testing apparatus - Google Patents

Abstract

The present invention relates to an ultrasonic multiple flaw detector, the ultrasonic multiple flaw detector according to the present invention is installed plate; A plurality of installation holes formed by penetrating up and down on the installation plate to insert a probe into the installation plate; A locking step formed on both sides of the installation hole to cover both sides of the probe; Located at the upper side of the mounting hole and having an upper end of the mounting plate is coupled by a fastening member, both ends are provided with a push band for pressing the upper end of the probe inserted into the mounting hole, ultrasonic multi- flaw detection according to the present invention The device installs multiple transducers on a single mounting plate so that multiple inspections on a large area can be performed at one time, thereby reducing inspection time and minimizing the number of workers in the inspection work. There is an effect that you can detect in time.

Description

Ultrasonic multi-testing apparatus

The present invention relates to an ultrasonic multiple flaw detector, and more particularly, to an ultrasonic multiple flaw detector to enable multiple scanning of a large area by installing a plurality of transducers simultaneously on one mounting plate.

In general, the ultrasonic flaw detector is one of the devices for non-destructive testing that is widely used in recent years to scan the surface and internal defects of the inspection object by scanning the high frequency of the audible range over the inspection object.

The general configuration of such an ultrasonic flaw detector is composed of an ultrasonic flaw detector that can display a flawed state, and a probe connected to the ultrasonic flaw detector by a cable.

In addition, the inspection operation is performed by connecting the ultrasonic flaw detector and the probe with a cable, and then transmitting an ultrasonic signal from the ultrasonic flaw detector to the probe, and the flaw detection signal received through the probe is displayed on the display of the ultrasonic flaw detector. Inspection is conducted by checking for defects.

Here, the ultrasonic transducer plays the most important role in the flaw detection and is classified by ultrasonic type such as longitudinal wave, transverse wave, and surface wave, and is divided into high frequency band, low frequency band, wide band band and narrow band band.

In addition, it is classified by the contact method such as direct contact type, local contact type, underwater type, non-contact type, and whether it is touched or not. Kinds are classified according to the curvature of the object, and the kind reaches thousands.

In such an ultrasonic flaw detector, the probes are all in one piece regardless of the type. Therefore, in order to inspect, only one probe should be contacted with the inspector to perform the survey. By the way, when the flaw detection area of the flaw detection object is wide, there is a problem that the flaw detection time, the number of workers and the cost thereof are excessively required for flaw detection by one probe.

The present invention is to solve the above problems, an object of the present invention is to install a plurality of transducers on one mounting plate at the same time to perform multiple flaw detection for a large area at a time using all of these transducers It is to provide a flaw detector.

Another object of the present invention in connection with the above object is to provide an ultrasonic multiple flaw detector to minimize the wear of the wedge (consumable parts) of the transducer to further improve the use efficiency of the transducer.

1 is a perspective view showing an installation plate in the ultrasonic multi-detector according to the present invention.

Figure 2 is an exploded perspective view showing an installation plate in the ultrasonic multi-detector according to the present invention.

Figure 3 is an exploded perspective view showing a state in which the probe is installed in the installation hole in the ultrasonic multi-detector according to the present invention.

Figure 4 is a cross-sectional view showing a state in which the probe is installed in the installation hole in the ultrasonic multi-detection apparatus according to the present invention.

Figure 5 is a perspective view showing a state of use of the ultrasonic multi-detection apparatus according to the present invention.

Figure 6 is a side view showing the mounting state of the mounting plate in the ultrasonic multiple flaw detector according to the present invention.

** Description of the symbols for the main parts of the drawings **

110 ... Sweet indicator

130 ... Explorer

120 ... multiplex

200 ... mounting plate

300 ... support ring

400 ... Combine

Ultrasonic multiple flaw detector according to the present invention for achieving the above object is an installation plate; A plurality of installation holes formed by penetrating up and down on the installation plate to insert a probe into the installation plate; A locking step formed on both sides of the installation hole to cover both sides of the probe; Located on the upper side of the mounting hole and the upper end of the mounting plate is coupled to each other by a fastening member is characterized in that it comprises a push band for pressing the upper end of the probe inserted into the mounting hole.

And preferably, the installation plate is formed through the upper and lower through the supply hole to supply the liquid contact medium to the bottom side of the installation hole is characterized in that the supply hole is connected to the supply medium is connected to the upper side.

Also preferably, both sides of the mounting plate are formed with shaft holes, and the outer side of the mounting plate is axially coupled to the shaft hole and the support ring surrounding the outer side of the mounting plate so that the mounting plate is rotatable along the curved test surface Characterized in that installed.

Also preferably the transducer is characterized in that the vertical transducer.

Hereinafter, a preferred embodiment of the ultrasonic multiple flaw detector according to the present invention will be described in detail with reference to the accompanying drawings.

Another ultrasonic multiple flaw detector according to the present invention is installed in the cart 100 as shown in FIGS. 5 and 6 for use. The installation state is provided with a mounting plate 200 is provided with a plurality of vertical probe 130 to be in contact with the surface of the flaw object to the front and lower side of the cart 100, the ultrasonic flaw detector 110 on the top of the cart 100 ) And multiplex 120 is installed.

The multiplex 120 functions to connect to the ultrasonic flaw detector 110 by simultaneously connecting a plurality of signal input / output cables connected to a plurality of eight probes 130 in this embodiment. Here, the transducer 130 includes a body 131 and a wedge 132. Here, the wedge 132 (wedge) is coupled to the body 131 with a screw 133 so that when the surface is worn by friction with the probe object.

In addition, eight transducers 130 are simultaneously installed on the mounting plate 200 as shown in FIGS. 1, 2, and 3. The configuration of the mounting plate 200 for this purpose is composed of a rectangular plate body and the eight mounting holes 210 are formed in all the upper and lower through the surface, this mounting hole 210 is formed on the surface of the mounting plate 200 Evenly distributed

In addition, both sides of the installation hole 210 is formed with a locking step 211 formed stepped inward as shown in FIG. The catching jaw 211 is to cover the stepped portion is coupled to the lower wedge 132 and the body 131 of the transducer 130, two grooves (unsigned) formed on the surface of the catching jaw 211 Is for fitting the head of the protruding screw 133 into the stepped portion of the probe 130.

And the upper side of the installation hole 210, the pressing band 220 is installed across the upper side of the probe 130 is installed. The push band 220 is to press the upper portion of the transducer 130 so that the transducer 130 is firmly pressed by the installation hole 210, the fastening hole 210 is formed at both ends thereof to form a screw 222 It is fixedly coupled to the screw hole 212 formed on the surface of the mounting plate 200 through.

On the other hand, at one side of the surface edge of the mounting plate 200, a supply hole 230 is formed to penetrate up and down to supply a liquid contact medium such as water to the bottom of the mounting plate 200, and the supply hole 230 Supply pipe 231 for supplying the contact medium from the outside is connected. The contact medium is to prevent the air layer is formed between the flaw object and the surface of the probe 130 is spaced apart.

In addition, shaft holes 240 are formed at both sides of the mounting plate 200, and the shaft holes 240 have the mounting plate 200 such that the mounting plate 200 maintains close contact with the curved portion of the probe surface. To rotate the operation.

To this end, a support ring 300 coupled to the shaft hole 240 and configured to surround the outside of the installation plate 200 is mounted, and both sides of the support ring 300 are screwed into the shaft hole 240. The shaft 320 is coupled. Here, the screw shaft 320 is screwed into the screw hole 310 of the support ring 300 and the portion inserted into the shaft hole 240 is to be turned. That is, the inner diameter of the shaft hole 240 is larger than the outer diameter of the screw shaft 320.

The mounting plate 200 is mounted to the cart 100 as described above. In order to mount the cart 100, two coupling holes 320 are formed on both sides of the support shaft 310 on which the support shaft 310 of the support ring 300 is not formed, and each of the coupling holes 320 has both ends. Two coupling bars 400 are inserted into the coupling holes 320 and are bent and projected upward. And the coupling rod 400 is provided with a coupling rod 410 penetrating the bottom of the cart 100 in the upper central portion.

And the upper side of the coupling rod 410 is formed with a hole (unsign) penetrating back and forth, and when the hole is exposed to the upper side of the cart 100, the coupling rod 410 by inserting the coupling pin 420 in the hole. The fixing and thereby mounting of the mounting plate 200 is made.

Hereinafter, a description will be given of the operating state of the ultrasonic multiple flaw detector according to the present invention configured as described above.

Ultrasonic multiple flaw detector according to the present invention is first mounted eight transducers 130 to the mounting hole 210 of the mounting plate 200. Of course, the number of the transducer 130 and the number of the mounting holes 210 can be variously modified according to the embodiment.

The installation of the probe 130 is inserted into the inside of the installation hole 210 so that the stepped portion of the probe 130 over the locking jaw 211, and then push band toward the upper side of the probe 130 Seat (220). Then, when the pressing band 220 is fixed to the screw hole 212 of the mounting plate 200 with the screw 222 through the fastening holes 221 formed at both ends of the pressing band 220, the pressing band 220 is a probe By pressing the upper side of the 130 so that the transducer 130 is firmly pressed into the installation hole 210 inside.

And the support ring 300 is appropriate to proceed with the work installed in the installation plate 200 in advance. Therefore, after the coupling ring 400 is coupled to the support ring 300 in a state in which the support ring 300 is installed on the installation plate 200, the coupling rod 400 is coupled to the bottom of the cart 100 by the coupling rod 410. After passing through and fixing each of the coupling rods 410 with the coupling pin 420, the mounting of the installation plate 200 is completed.

Subsequently, the jacks are connected to the connection portions of the respective transducers 130 before or after the mounting plate 200 is mounted, all of the connected jacks are simultaneously connected to the multiplex 120, and the multiplex 130 is When the cable is connected to the flaw detector 110 by one cable, most installation work is completed.

The final mounting and installation work is completed by connecting the contact medium supply pipe 231 to the supply hole 230 of the installation plate 200.

After performing a scrutiny, the scrutiny is carried out when the worker moves along the surface of the scrutiny object while pushing the cart 100. At this time, each of the probes 130 are in close contact with the flaw detection object by the load of the installation plate 200 to maintain a close contact state even without applying a separate load from the outside. In addition, the bottom surface of the installation plate 200 together with the probe 130 is in contact with the probe object.

Therefore, the wedge 132 of the transducer 130 is prevented from being excessively worn and damaged. To this end, the installation plate 200 is made of a resin material or a metal material having higher wear resistance than the wedge 132 of the probe 130. do.

In this state, if there is a defective part in the flaw detection object during the flaw detection, any one of the eight probes 130 detects it, and the detected signal passes through the multiplex 120 and the flaw detector 110 It is possible to inspect the defect state by being displayed on the screen.

On the other hand, the correct position for the defect site is when a signal is received from the probe 130 located in the part where the probe is made, a separate display lamp or sound indicator, etc. at the corresponding position of the multiplex 120 connected to the probe 130 By installing it, the position can be confirmed.

Ultrasonic multiple flaw detector according to the present invention as described above can be applied to all kinds of transducers, such as the inclination angle transducer, the installation number of the transducer and the installation plate and some other components of the transducer depending on the applied transducer It may be modified. Therefore, if other modified embodiments basically include all the essential components of the present invention, it should be regarded as included in the technical scope of the present invention.

Ultrasonic multiple flaw detector according to the present invention as described above, by installing a plurality of transducers in one installation plate to perform a multi flaw detection for a large area at a time to reduce flaw detection time and minimize the number of working people during flaw detection work Maximizes the inspection of a large area of the inspected object in a short time, and also maintains a better contact between the probe and the inspected object by the load of the mounting plate itself, and also minimizes the wear of the wedge of the transducer There is an effect to improve the use efficiency of more.

Claims (4)

Mounting plate; A plurality of installation holes formed by penetrating up and down on the installation plate to insert a probe into the installation plate; A locking step formed on both sides of the installation hole to cover both sides of the probe; Ultrasonic flaw detector, characterized in that the upper side of the installation hole and the upper end of the mounting plate is coupled by a fastening member, the pressing band for pressing and supporting the upper end of the probe inserted into the installation hole. The ultrasonic multiple flaw detector according to claim 1, wherein the installation plate has a supply hole through which the contact plate supply pipe is connected upwardly and vertically formed to supply a liquid contact medium to the bottom side of the installation hole. The mounting plate of claim 1, wherein shaft holes are formed at both sides of the mounting plate, and the outer side of the mounting plate is axially coupled to the shaft hole to surround the outer side of the mounting plate such that the mounting plate is rotatable along a curved flaw surface. Ultrasonic multiple flaw detector, characterized in that the support ring is installed. The ultrasonic multiple flaw detector according to any one of claims 1 to 3, wherein the probe is a vertical probe.