KR20100001644A - Portable non-destructive apparatus using surface wave - Google Patents

Abstract

PURPOSE: A portable non-destructive test apparatus using surface wave is provided to prevent the sliding or slacking of an acceleration sensor when contacting with the surface of the concrete. CONSTITUTION: An acceleration sensor(110) of a surface wave sensing unit(100) measures the response acceleration of the surface wave. A housing(120) protects the acceleration sensor. A surface contact unit(130) of the conical shape is formed on the bottom of the housing. The surface contact unit forms the measuring point of the acceleration sensor to contact with the concrete member and measures the response acceleration of the surface wave. A connecting unit(200) is connected to the surface wave sensing unit. A handle(210) is formed for the facilitating carrying is formed on a connecting member.

Description

Portable non-destructive Apparatus using surface wave

The present invention is a surface wave consisting of two surface wave detection means and connecting means for connecting the two surface wave detection means in a straight line to evaluate the defect, thickness, stiffness, etc. of the concrete structure through the surface wave speed of the concrete member using the surface wave The present invention relates to a portable non-destructive inspection device using the above, and more particularly, two surface wave detection means for measuring the response acceleration of the surface wave generated by the impact applied through the excitation circle on the concrete member include an acceleration sensor and the acceleration sensor therein. A housing that protects the acceleration sensor, and the acceleration sensor contacts the surface of the concrete member to measure the response acceleration of the surface wave, thereby preventing the acceleration sensor from slipping and inclining when the acceleration sensor contacts the surface of the concrete member. Inverted cone surface to form It is made of a wave contact portion, the connecting member is formed on one side to adjust the length between the two surface wave detection means to measure the surface wave response acceleration measurement generated by the excitation circle at various distances to measure the surface wave response acceleration measurement The present invention relates to a portable non-destructive testing apparatus using surface waves capable of increasing the accuracy of the display member and displaying a surface wave response acceleration data by forming a display unit on the top of the connection member.

In general, the maintenance and safety of the existing structure has emerged as an important task with many recent reconstruction and renovation works.In order to keep the structure safe and usable, it is regularly checked and evaluated to find out before problems occur. Action should be taken. The structure is mostly made of concrete, the concrete was developed about 110 years ago has played an important role in the construction and industrial development, and is currently actively used in all construction and industrial fields.

However, as the aging of various concrete structures and deterioration of various concrete structures have recently increased, problems such as reliability, safety, maintenance, durability improvement, and quality control of concrete have appeared, and the damage of the concrete structure is fatal to safety. Therefore, various types of structure inspection apparatuses and methods for detecting the normal or damage of various structures have been developed and used to repair or replace damaged concrete structures.

The non-destructive inspection method, which is widely used in developed countries, among the structural inspection apparatuses and methods, can be evaluated quickly by using specific equipment without damaging the structure, and can be quickly inspected for internal defects or damages that cannot be seen by the naked eye. It is known as a useful technique because it can detect and increase the objectivity of the survey results. Recently, the non-destructive inspection of the structure is carried out using the impact echo technique using elastic stress waves as a reliable non-destructive inspection technique in Korea.

The conventional non-destructive inspection method and apparatus as described above are composed of an excitation circle and two detectors as shown in FIG. 1 so that a stress wave generated from the excitation source can measure a signal propagating between the first and second detectors. It is designed to measure the thickness and defects of concrete structures non-destructively without collecting concrete cores by measuring the velocity of P wave through the surface wave technique and applying it to the impact reverberation technique.

However, in the conventional non-destructive inspection device, when measuring the surface wave velocity of the concrete structure, the first sensor and the second sensor that are in contact with the surface of the concrete structure are inclined or inclined, and thus the accurate surface wave velocity cannot be measured by the user. The inconvenience of having to hold the detector and the second sensor manually so as not to slip or incline has occurred. When measuring the surface wave velocity of the concrete structure, a large number of personnel apply a shock through the excitation circle and fix the non-destructive inspection device. At least two people are needed to hold it, which causes a problem of wasting manpower.

In addition, since the first sensor and the second sensor are fixedly connected to each other, there is a problem in that various surface wave velocity measurements cannot be performed because the length between the first and second sensors is always fixed when measuring the speed of the surface wave.

The present invention has been made in order to solve the above problems, two to measure the response acceleration of the surface wave caused by the impact applied through the excitation circle to the concrete member to evaluate the defect, thickness, stiffness, etc. of the concrete structure The surface contact portion of the surface wave detection means is formed in the shape of a triangle in an inverted cone shape to prevent the acceleration sensor from slipping and inclining by accurately contacting a measurement point contacting the surface of the concrete member when measuring the response acceleration of the surface wave. The housing may be formed to protect the acceleration sensor, and a weight may be formed on an upper end of the housing to automatically lower the housing by the weight of the weight when the two surface wave sensing means contact the surface of the concrete member. Cone the acceleration sensor protruding by the spring By contacting the surface of the crete member, it is possible to measure the accurate surface wave response acceleration by one manpower, and the length adjustment part is formed on one side and the other side of the connecting means connecting the two surface wave sensing means in a straight line, and the two surface waves as necessary. It is an object of the present invention to provide a portable non-destructive inspection device using surface waves that can measure the length between the sensing means through the length adjusting groove to measure various surface wave response acceleration.

The present invention relates to the surface contact portion of the two surface wave detection means for measuring the response acceleration of the surface wave caused by the impact applied through the excitation circle to the concrete member to evaluate the defect, thickness, stiffness, etc. of the concrete structure in the shape of an inverted cone It is formed in a triangular shape to accurately measure the surface wave response acceleration when the acceleration sensor is in contact with the surface of the concrete member when measuring the response acceleration of the surface wave, and the acceleration sensor slips and tilts when the acceleration sensor is in contact with the surface of the concrete member There is an effect to prevent the load, and by including the acceleration sensor therein to form a weight in the housing to protect the acceleration sensor by the weight of the weight when the contact surface of the inverted cone contact the surface of the concrete member The housing automatically lowers By fixing the acceleration sensor to reduce the measurement personnel and there is an effect that it is possible to obtain accurate measurement data.

In addition, the present invention has the effect of measuring the various surface wave response acceleration by forming a length adjusting portion in the connecting means for connecting the two surface wave detection means in a straight line to adjust the length between the two surface wave detection means as necessary .

The present invention is a portable non-destructive inspection device using the surface wave to evaluate the defect, thickness, stiffness, etc. of the concrete structure through the surface wave response acceleration of the concrete member using the surface wave,

An acceleration sensor for measuring the response acceleration of the surface wave generated by the impact applied to the concrete member through the excitation circle, a housing to protect the acceleration sensor by including the acceleration sensor therein, and an acceleration sensor formed in the housing To form a measurement point of the acceleration sensor so as to contact the concrete member to measure the response acceleration of the surface wave generated by the impact applied through the excitation circle formed at the lower end of the housing so that the spring is always projected by the elastic force Two surface wave sensing means including conical surface contacts;

Connecting means having a handle formed to connect the two surface sensing means to each other in a straight line so as to be easily carried;

A length adjusting unit formed at one side and the other side of the connection unit to adjust a length between the two surface wave sensing means;

A display unit for displaying response acceleration data of surface waves measured by the two surface wave sensing means; Characterized in that consists of.

In addition, the surface wave detection means is characterized by preventing the inclination and slip of the acceleration sensor when measuring the surface wave response acceleration by forming three surface contact portion of the inverted cone shape in a triangle shape.

The surface of the surface wave detection means forms a weight at the top to automatically lower the housing to the surface of the concrete member by the weight of the surface wave response acceleration measurement, and the acceleration sensor projected by the spring is fixed to the surface of the concrete member It features.

In addition, the surface contact portion is formed to protrude in the housing to contact the surface contact with the surface of the concrete member when measuring the surface wave response acceleration and then the acceleration sensor and the surface protruded by lowering the housing by the weight of the upper end of the housing And the contact portion is in contact with the same line of the concrete member surface.

The length adjusting unit may form a groove in the connecting means in which the two surface wave sensing means are positioned to move the respective surface wave sensing means through the groove to adjust the length between the two surface wave sensing means.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the present invention.

Figure 2 is a perspective view of a portable non-destructive testing device using a surface wave according to the present invention, Figure 3 is a front view of a portable non-destructive testing device using a surface wave according to the present invention, Figure 4 is a portable non-destructive testing device using a surface wave according to the present invention 5 is a side view of a portable non-destructive inspection device using surface waves according to the present invention.

As shown in FIG. 2 to FIG. 5, the present invention evaluates defects, thicknesses, stiffness, etc. of concrete structures through acceleration of surface wave responses of concrete members using surface waves. When the surface wave response acceleration caused by the impact is measured by the two surface wave detection means 100, the two surface wave detection means 100 are connected to each other in a straight line by the connecting means 200 and the The length adjusting unit 220 is formed on one side and the other side to adjust the distance between the two surface wave sensing means 100 to measure the response acceleration of the surface wave at various distances.

The surface wave detection means 100 includes an acceleration sensor 110 for measuring the response acceleration of the surface wave and a housing 120 for protecting the acceleration sensor 110 by including the acceleration sensor 110 therein and the housing 120. ) Is formed inside the spring to push the acceleration sensor 110 by the elastic force so that the acceleration sensor 110 is always protruding and formed at the bottom of the housing 120 to measure the response acceleration of the surface wave caused by the impact applied through the excitation circle In order to be in contact with the concrete member is made of the surface contact portion 130 of the inverted cone shape forming the measurement point of the acceleration sensor 110. The surface contact portion 130 is formed in a triangular shape in order to prevent the acceleration sensor 110 inclination and slip when measuring the surface wave response acceleration to prevent the acceleration sensor 110 of tilting and slipping, as well as It is possible to prevent the surface wave detection means 100 from tilting and slipping.

In addition, by forming a weight 140 on the upper end of the housing 120, the housing 120 is automatically lowered to the surface of the concrete member by the weight of the weight 140 when measuring the surface wave response acceleration, the spring (not shown) Acceleration sensor 110 is projected by the fixed surface of the concrete member, the acceleration sensor 110 is applied pressure from above to contact the same surface of the projected surface contact portion 130 and the concrete member to the operator surface wave response acceleration When only the surface wave detection means 100 is positioned at the measurement position during measurement, the response acceleration is automatically measured so that one operator can measure the surface wave response acceleration without requiring a plurality of operators as before.

In addition, the connection means 200 is made to connect the two surface wave detection means 100 in a straight line, the handle 210 is formed on the top to facilitate carrying, the two surface wave detection means ( The length adjusting part 220 is formed at one side and the other side connecting the 100 to adjust the distance between the two surface wave sensing means 100 through the length adjusting groove 221 of the length adjusting part 220. The display unit 300 is formed on one side of the connection unit 200 so that the operator can check the surface wave response acceleration data.

The present invention comprises two surface wave detection means (100) for measuring the response acceleration of the surface wave generated by the impact applied through the excitation circle to the concrete member to evaluate the defect, thickness, stiffness, etc. of the concrete structure made of the above configuration ) By forming three surface contact portions 130 in the shape of an inverted cone, so that the acceleration sensor 110 accurately contacts a measurement point that contacts the surface of the concrete member when measuring the response acceleration of the surface wave. 110 may of course prevent slippage and inclination of the two surface wave detection means 100, and form a housing 120 to protect the acceleration sensor 110, and add a weight to an upper end of the housing 120. When the two surface wave detection means 100 is in contact with the surface of the concrete member to form a 140, the housing automatically by the weight of the weight 140 120 is lowered to contact the acceleration sensor 110 protruding by the spring (not shown) to the surface of the concrete member to measure the accurate surface wave response acceleration with one manpower, the two surface wave detection means (100) ) To form a length adjusting unit 220 on one side and the other side of the connecting means 200 in a straight line to adjust the length between the two surface wave detection means 100 through the length adjusting groove 221 as necessary. It is possible to measure various surface wave response accelerations.

As described above, preferred embodiments according to the present invention have been described, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is a cross-sectional view of a conventional non-destructive inspection device.

Figure 2 is a perspective view of a portable non-destructive inspection device using the surface wave according to the present invention.

3 is a front view of a portable non-destructive inspection device using surface waves according to the present invention.

4 is a plan view of a portable non-destructive inspection device using surface waves according to the present invention.

Figure 5 is a side view of a portable non-destructive inspection device using a surface wave according to the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

100: surface wave detection means 110: acceleration sensor

120 housing 130 surface contact

140: weight 200: connection means

210: handle 220: length adjustment

221: length adjustment groove 300: display unit

Claims (5)

In the portable non-destructive inspection device using the surface wave to evaluate the defect, thickness, stiffness, etc. of the concrete structure through the surface wave response acceleration of the concrete member using the surface wave, An acceleration sensor for measuring the response acceleration of the surface wave generated by the impact applied to the concrete member through the excitation circle, a housing to protect the acceleration sensor by including the acceleration sensor therein, and an acceleration sensor formed in the housing To form a measurement point of the acceleration sensor so as to contact the concrete member to measure the response acceleration of the surface wave generated by the impact applied through the excitation circle formed at the lower end of the housing so that the spring is always projected by the elastic force Two surface wave sensing means including conical surface contacts; Connecting means having a handle formed to connect the two surface sensing means to each other in a straight line so as to be easily carried; A length adjusting unit formed at one side and the other side of the connection unit to adjust a length between the two surface wave sensing means; A display unit for displaying response acceleration data of surface waves measured by the two surface wave sensing means; Portable non-destructive inspection device using a surface wave, characterized in that consisting of. The method of claim 1, The surface wave detection means is a portable non-destructive inspection device using surface waves, characterized in that the inverted cone-shaped three surface contact portion to form a triangular shape to prevent the acceleration sensor from tilting and slipping when measuring the surface wave response acceleration. The method of claim 1, The surface of the surface wave detection means forms a weight at the top to automatically lower the housing to the surface of the concrete member by the weight of the surface wave response acceleration measurement, and the acceleration sensor projected by the spring is fixed to the surface of the concrete member Portable non-destructive inspection device using surface waves. The method according to claim 1 or 3, The surface contact part is formed to protrude in the housing, and when the surface wave response acceleration measurement, the surface contact part is in contact with the surface of the concrete member, and then the acceleration sensor and the surface contact part protruded by lowering the housing by the weight of the weight formed at the upper end of the housing. Portable non-destructive inspection device using surface waves, characterized in that the contact with the same line of the surface of the concrete member. The method of claim 1, The length adjusting unit may form a length adjusting groove in the connecting means in which the two surface wave sensing means are positioned to move the surface wave sensing means through the groove to adjust the length between the two surface wave sensing means. Portable nondestructive testing device used.

Images