KR20060054706A - Multi-focusing type ultrasonic transducer for removing noise - Google Patents

Abstract

The present invention relates to an array of ultrasonic transducers for noise removal, wherein the unit transducers are arranged in a plurality, and the transducers can be sent and received by each transducer without moving on the inspection article, thereby moving the transducers. The purpose of the present invention is to make it easy to perform ultrasonic inspection and to inspect the defects of the inspection items accurately.

The ultrasonic ultrasonic transducer for noise elimination of the present invention includes: a housing (Housing) 130 having a lower opening and having a plurality of first connectors 132 disposed on an upper surface thereof in a predetermined arrangement; A case (Case) 142 having an open bottom, a vibrator 146 installed inside the case, a backing layer 148 installed at the top of the vibrator, a protective film 150 protecting the lower part of the vibrator, and the A unit probe 140 having a second connector 144 installed on an upper surface of the case and connected to an electrode of the vibrator, and having a predetermined number and corresponding quantity of the first connector in a predetermined arrangement inside the housing; Wow; And a plurality of connecting rods 152 for connecting the first connector and the second connector corresponding to each other.

Ultrasound, inspection, nondestructive, transducer, oscillator, defect, steel, array, echo

Description

Array type ultrasonic transducer for noise cancellation {MULTI-FOCUSING TYPE ULTRASONIC TRANSDUCER FOR REMOVING NOISE}

FIG. 1 is a view for explaining an example of performing an ultrasonic flaw test for the coupling of a test article using a conventional ultrasonic probe.

2 is a cross-sectional view showing an array type ultrasonic transducer for noise removal according to the present invention.

3 is a plan view showing an array type ultrasonic transducer for noise removal according to the present invention.

Fig. 4 is a bottom view showing the array type ultrasonic transducer for removing noise according to the present invention.

<Explanation of symbols for the main parts of the drawings>

130: housing, 132: first connector,

140: unit probe, 142: case,

144: second connector, 146: vibrator,

148: backing, 150: protective film,

152: connecting rod.

The present invention relates to an array type ultrasonic transducer for noise removal, and in particular, by arranging a plurality of unit transducers to obtain an effect of sending and receiving a signal from the transducer without moving on the inspection article, thereby moving the transducer. The present invention relates to an ultrasonic transducer for removing noise, which can easily perform ultrasonic inspection for defects and to accurately inspect defects in an inspection article.

For example, it is difficult to visually inspect defects of metal articles such as steel products, so ultrasonic inspection is widely applied as a method of nondestructive inspection.

As shown in FIG. 1, the principle of ultrasonic inspection by an ultrasonic probe is a piezoelectric crystal installed inside the transducer 30 by electrical energy generated by an ultrasonic flaw detector 10. Ultrasonic wave generated by vibration of the vibrator 32 such as piezoelectric ceramics, lithium sulfate, and the like is scanned into the inspection object 20 in the form of a beam, and the inspection article When there is a defect in (20), the reflected wave reflected from the defective part and returned back to the probe 30 is interpreted as an electrical signal by an ultrasonic flaw detector, thereby determining whether the inspection article is defective or not.

Electrodes (not shown) are plated on both surfaces of the vibrator 32, and when a voltage is applied between both electrodes, the vibrator is stretched according to the magnitude and charge of the voltage to generate ultrasonic waves.

Looking further at the principle of ultrasonic examination, the product of the density of the medium through which sound passes and the speed of the sound passing through the medium is called acoustic impedance, which is a relatively homogeneous medium. When passing through), it moves in a straight line, but when it reaches the contact surface of media with different sound resistance, it causes reflection and refraction similar to light. The amount of reflected ultrasound depends on the difference in sound resistance between the two media, and the greater the difference in sound resistance, the more severe the reflection. In other words, when the defect is severe, ultrasonic inspection is performed by using a high degree of ultrasonic reflection at the defect portion forming the interface such as the discontinuous portion.

In order to precisely perform the ultrasonic inspection, the ultrasonic wave should be scanned sufficiently and closely, and the return efficiency of the reflected signal back to the probe should be high.

However, in the case of steel products, it is sometimes difficult to transmit the reflected wave depending on the heat treatment conditions and the microstructure of the material. In particular, when the grain size of the material is coarse due to the nature of the ultrasonic waves, the ultrasonic scattering is rapidly increased, the transmission efficiency of the ultrasonic waves decreases, and the scattered ultrasonic waves appear in the form of noise, making it difficult to distinguish between the signal reflected from the defect and the noise signal. .

In order to remove the noise as described above, various methods have been applied. Among them, the moving average method is widely used as a method of removing noise generated by ultrasonic scattering because of its simple application.

An example of performing the moving average method is illustrated in FIG. 1, where the probe 30 is moved along the inspection article 20 to check for defects. That is, the defect value is determined by averaging the sum of the measured values at each point of the ultrasonic inspection while moving. When the above-described moving average method is applied, the ultrasonic noise generated by scattering due to the change in the structure of the material such as grains is severe in phase shift even with slight movement, but is reduced when the sum of the measured values of the reflected waves is averaged. In other words, the moving average method uses the principle that a signal reflected from a defective portion does not change in signal magnitude even after being averaged because the signal does not change with small movement of the transducer.

However, in actual ultrasonic inspection, when the transducer is moved and the reflected wave is measured, not only the measurement conditions such as the contact state between the probe and the inspection article are changed but also the signal change is caused by the deviation of the inspection conditions such as the moving distance. Because of this, there is a problem that it is difficult to inspect the defect site precisely.

The present invention has been made in consideration of the above-described conventional problems, and by arranging the unit transducers in plural, it is possible to obtain the effect of sending and receiving the signals from each probe without moving on the inspection article, thereby moving the transducers, and thus the defects of the inspection article. The purpose of this is to make it easy to perform ultrasonic inspection and to accurately check whether there is a defect in the inspection article.

In order to achieve the above object, according to the present invention, the array-type ultrasonic transducer for noise removal includes: a housing in which a lower part is opened and a plurality of first connectors are installed in a predetermined arrangement on an upper surface thereof; A case (Case) having a lower opening, a vibrator installed inside the case, a backing layer (Backing) installed on the upper part of the vibrator, a protective film to protect the lower part of the vibrator and the electrode of the vibrator is installed on the upper surface of the case A unit probe having a second connector connected thereto, the unit probe having a quantity corresponding to the quantity of the first connector in a predetermined arrangement inside the housing; And, it characterized in that it comprises a plurality of connecting rods (Connecting Rod) for connecting the first connector and the second connector corresponding to each other.

According to the present invention, it is preferable that each of the first connectors and the unit probes are installed in an X-shaped arrangement.

In addition, the housing is preferably formed of a metal material to serve as a ground.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are described in the technical field of the present invention based on the principle that the inventor can appropriately define the concept of terms in order to explain the invention in the best way. It must be interpreted as meanings and concepts that correspond to ideas.

2 to 4, there is shown an array type ultrasonic transducer for noise removal according to the present invention.

The array-type ultrasonic transducer 120 for removing noise according to the present invention includes a housing 130 and a plurality of unit transducers 140 embedded in the housing 130.

The housing 130 has a rectangular box shape with an open bottom, and a plurality of first connectors 132 for connecting through the ultrasonic flaw detector 100 and a cable (Cable, 102) on a top surface thereof in a predetermined arrangement. It is installed. For example, five of the first connectors 132 may be installed, and an X-shape may be arranged as illustrated in FIG. 3.

The unit probe 140 may include a case 142 having an open lower portion, a vibrator 146 installed inside the case 142, and a rear layer 148 provided at an upper portion of the vibrator 146. And a protective film 150 for protecting a lower portion of the vibrator 146, and a second connector 144 provided on an upper surface of the case 142 and connected to an electrode (not shown) of the vibrator 146. Equipped.

An electrode (not shown) is plated on the upper and lower surfaces of the vibrator 146. When a voltage is applied between both electrodes, the vibrator 146 expands and contracts according to the magnitude and charge of the voltage to generate ultrasonic waves. In addition, the back layer 148 serves to adjust the time for the vibrator 146 to vibrate after applying electrical stimulation. In addition, the case 142 has a soundproof structure. Although not shown here, for example, an acoustic insulator may be installed on an inner wall thereof to prevent ultrasonic energy from being transferred to a material surrounding the probe.

The unit probe 140 configured as described above is installed in the housing 130 at a quantity corresponding to the quantity of the first connector 132 in a predetermined arrangement. For example, according to the X-shaped arrangement of the five first connectors 132, the unit transducers 140 may also be arranged in an X-shape as shown in FIG. 4.

In the arrangement of the unit transducers 140, the housing 130 and each of the transducers are preferably in contact with each other so that there is no movement, and the housing 130 is formed of a metal material to serve as a ground It is preferable.

In addition, in order to apply electrical energy to the electrodes of the vibrator 146, the first connector 132 and the second connector 144 corresponding to each other are connected by the connecting rod 152, respectively. Such a connection structure by the connecting rod 152 is preferably made to be connected simply by simply inserting the unit transducer 140 into the housing 130, for example.

Next, the operation of the noise removing array type ultrasonic probe according to the present invention configured as described above will be described.

As shown in FIG. 2, the arrayed ultrasonic transducer of the present invention is disposed such that the protective film 150 contacts the inspection article 110 to be inspected for defects, and the cable 102 from the ultrasonic flaw detector 100. Electrical energy is applied to the vibrator 146 of each unit transducer 140 through the first connector 132 of the housing 130, the connecting rod 152, and the second connector 144 of the unit transducer 140. When the vibrator 146 vibrates, ultrasonic waves are generated.

Ultrasonic waves generated by the vibrators 146 are scanned to the inspection article 110 in the form of a beam.

Therefore, in the present invention, since a plurality of, for example, five unit transducers 140 are provided, the five reflected wave signals can be simultaneously measured without moving the array type ultrasonic transducer of the present invention on the inspection article 110. . That is, the effect of moving the unit transducer 140 by the diameter can be obtained.

The measured value is calculated as an average value and is displayed on the screen display device of the ultrasonic flaw detector 100.

On the other hand, when the ultrasonic wave is scanned by the four unit probes 140 around the central unit probe 140 and the reflected wave is received by the central unit probe 140, the transmission energy of the reflected wave can be increased.

According to the array-type ultrasonic transducer for removing noise according to the present invention configured as described above, the diameter of each unit transducer 140 without moving the array-type ultrasonic transducer on the inspection article 110 by a plurality of unit transducers 140 Since multiple signals can be measured simultaneously with the same effect as moved, the defect of the inspection article 110 is not affected by the condition such as the connection condition of the probe to the inspection article 110 or the deviation of other inspection conditions. Can be checked.

In addition, since problems such as a change in the inspection signal due to the movement of the probe can be solved, it is possible to precisely inspect whether the inspection article 110 is defective.

Claims (3)

A housing 130 having a lower portion open and having a plurality of first connectors 132 disposed on an upper surface thereof in a predetermined arrangement; A case (Case) 142 having an open bottom, a vibrator 146 installed inside the case, a backing layer 148 installed at the top of the vibrator, a protective film 150 protecting the lower part of the vibrator, and the A unit probe 140 having a second connector 144 installed on an upper surface of the case and connected to an electrode of the vibrator, and having a predetermined number and corresponding quantity of the first connector in a predetermined arrangement inside the housing; Wow; And, And a plurality of connecting rods (152) for connecting the first connector and the second connector corresponding to each other. The method of claim 1, The first connector 132 and the unit transducer 140 are each arranged so that five are arranged in an X-shape array array ultrasonic transducer for noise removal. The method according to claim 1 or 2, The housing 130, the array type ultrasonic transducer for noise removal, characterized in that formed of a metal material to serve as a ground.

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