KR0118111Y1 - The performance tester for the ultrasonic detecting apparatus - Google Patents

Abstract

The present invention relates to a transducer performance measuring device of an ultrasonic diagnostic apparatus or an ultrasonic flaw detector. In particular, the probe is fixedly placed in a water tank, and a reflector reflecting ultrasonic waves emitted from the transducer is arranged to lift and lift the transducer. It is possible to accurately measure the performance of the transducer by the characteristic configuration by providing a measuring means capable of measuring the amount.

Description

Ultrasonic transducer performance measurement device

Figure 1 is a front sectional view of the present issue

2 is a cross-sectional view taken along the line a-a of FIG.

＊ Description of symbols for main parts of the drawings ＊

1: measuring device main body 2: water tank 3: transducer

4: reflector 5: measuring means 500: guide rod

510: hypothesis 520: holder 530: indicator

540: fixed portion 550: indicating needle 560: ruler

The present invention relates to a performance measuring device of the ultrasonic probe, and more particularly, to a performance measuring device of the ultrasonic probe that can measure the performance of the transducer according to a certain distance by a simple configuration.

In general, the transducer is composed of a piezoelectric element or the like, and the transducer is in contact with the inspected object, and then the ultrasonic wave is oscillated to convert the ultrasonic signal returned to the electrical signal.

At this time, the probe can diagnose the inspected object up to 20 cm apart. Depending on the manufactured probes, the performance is slightly different, so it is necessary to measure the performance of each probe.

However, in the related art, the means for measuring the performance of the transducer is very complicated, and there is a problem in that the manufacturing is difficult.

In addition, in some cases, there is a problem that it is impossible to accurately diagnose the inspected object by attaching them to an ultrasonic diagnostic apparatus or an ultrasonic flaw detector without measuring the performance of the probes.

The present invention has been made in view of the above point, and provides an apparatus for measuring the performance of an ultrasonic transducer to measure the effective diagnostic distance of each transducer by measuring the performance of the ultrasonic transducer according to a distance.

The present invention for achieving the above object is to measure the effective diagnosis distance of the ultrasonic wave from the transducer, the water tank is fixed inside the water and the transducer is fixed to the water in the upper portion, and the ultrasonic wave from the transducer to reflect The reflector is installed in the tank of the bottom of the transducer, and the lifting material is characterized by consisting of measuring means capable of measuring the lifting amount.

The present invention having the above characteristics is to fill the water in the tank so that the ultrasonic wave oscillated from the transducer hits the air layer and is not diffusely reflected to the state of the transducer submerged in the water.

When the reflector plate serving as the object to be inspected is moved up and down at the bottom of the transducer, and the lifting amount is taken as a ruler, which is one of the measuring means, the ultrasonic wave emitted from the transducer is reflected from the reflector and then returns to the transducer again. It is possible to find out the change in length.

At this time, since the one pulse is the best state and there is no noise, it is effective for diagnosing the state of the object to be inspected (reflective plate).

In addition, it is possible to determine the effective one-pulse distance of the transducer in the process.

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

1 is a front sectional view of the present invention, the measuring device main body 1 of the present invention is a water tank (2) filled with water, a transducer (3) for generating an ultrasonic wave, and a reflector for reflecting the ultrasonic wave emitted from the transducer (3) (4) and the measuring means 5 which can check the lifting amount of the reflecting plate 4 is comprised.

In addition, the measuring means (5) is placed in the water tank (1) spaced apart from each other at a predetermined interval and guide rods (500) on which the hypothesis stand 510 is fixed is arranged on the top of the probe (3) is submerged in the center at each top And a holder 500 in which a long hole 521 is installed at a predetermined height in the rear surface of the probe 3 and provided with an adjustment screw 522, and both ends of the guide rod 500. A bushing 531 fitted to the lifting material is provided on the upper surface of the upper surface of the temporary portion 510, and the indicator portion 530 to which the reflecting plate 4 is attached, and a predetermined height from the center of the indicator portion 530. The fixing part 540 is formed with a nut 541 that is in close contact with the holder 520 in a state of being fastened to the adjustment screw 522, and the indicator needle provided in one side bushing 531 of the indicator 530. 550 and a predetermined height in the tank 2 in the vicinity of the needle 550 to indicate the lifting amount of the needle 550. The inner circumference is composed of a ruler 560, the scale engraved.

And the bracket 511 for fixing the transducer 3 on the temporary table 510 is disposed on the temporary table 510.

In addition, the distance from the bottom of the water tank (2) to the temporary table 510 is in the range over the most ideal diagnostic distance of the transducer (3), the ruler (560) to the edge of the transducer (3) and reflector (4) A marking 561 is provided to indicate the ideal effective diagnostic distance.

Only then, the most ideal effective diagnostic distance of the transducer 3 can be easily identified, and it becomes clear whether this exceeds or falls below the most ideal effective diagnostic distance.

The device of the present invention, which is configured as described above, has a simple configuration and good manufacturability.

In addition, when measuring the performance of the transducer (3), first attach the transducer (3) to be measured on the bracket 511 and then loosen the adjustment screw 522 and the nut 541 fixed to the fixing portion 540 and The holder 520 is loosened.

Then hold the adjustment screw (522) and raise it up and down appropriately, and tighten it to fix it.

Then, the fixing part 540 is fixed while the adjusting screw 522 is fastened to the holder 520 in the same state as the virtual line or the solid line of FIGS. 1 to 2.

At this time, the reflector plate 4 in the indicator 530 at the lower part of the fixing part is in a state in which the distance is changed with respect to the transducer 3, and the changed distance can be checked by the ruler 560 through the indicator needle 550. will be.

In this state, when the transducer 3 is oscillated, ultrasonic waves are reflected by the reflector 4 and then returned to the transducer 3 again. At this time, the effective diagnostic distance of the transducer can be measured by measuring the return pulse length. .

As a result, it is possible to measure whether or not the effective diagnostic distance of the transducer 3 is approximately 20 cm.

In addition, when the other transducer is to be measured, the transducer 3 may be removed from the bracket 511, and then another transducer may be mounted and measured in the same manner as described above.

As described above, according to the present invention, since the performance measurement of the transducer is performed by a simple configuration, the manufacturability is improved.

In addition, since the performance of each probe can be accurately measured, the inspection object can be accurately diagnosed when used in an ultrasonic diagnostic apparatus or an ultrasonic flaw detector.

Claims (2)

In measuring the effective diagnosis distance of the ultrasonic wave from the transducer, the tank filled with the inside of the transducer and fixed in the water at the center is fixed, and the reflector reflecting the ultrasonic wave from the transducer is lifted in the tank at the bottom of the transducer. Installed but measuring the performance of the ultrasonic transducer, characterized in that consisting of measuring means capable of measuring the lifting amount. According to claim 1, The measuring means has a guide rod which is spaced apart from each other in the interior of the tank, a hypothesis having a holder which is installed on the upper end of each guide rod, the probe is provided in the center and the long hole is formed in the rear, both ends The guide portion coupled to each of the guide rods, and the reflecting plate is attached to the guide rod, a fixed portion is inserted into the upper portion of the temporary stand from the center of the indicator portion and the upper end is coupled to the adjustment screw provided in the long hole, and one side end of the indicator portion An apparatus for measuring the performance of an ultrasonic probe, characterized by consisting of a provided needle and a ruler placed in a tank near the needle.