KR200183458Y1 - A impacting apparatus for testing non-destruction of concrete - Google Patents

Abstract

The present invention provides a non-destructive inspection of concrete members that can be accurately installed and used on concrete surfaces of walls and ceilings, including the floor of buildings, to accurately meet the conditions of the non-destructive testing method of concrete members required with only one impact. It relates to a multi-directional impact generating device for, which is in the vertical direction of the circular insertion hole 210 and the inner surface of the electromagnet 110 embedded in the inner wall surface of the insertion hole 210 and the lower one side wall A main body 200 including a slide unit accommodating hole 220 formed therein; An impact generating weight (80) on which an impact generating spring (70) is seated on an upper portion of the circular insertion hole (210) in a circular motion; A slide unit (90) accommodated in the slide unit receiving hole (220) of the main body (200) and transported left and right according to the downward movement of the impact generating weight (80); It characterized in that it comprises a weight control wedge 30 for controlling the falling of the impact generating weight 80 accommodated in the weight insertion hole 210 of the main body 200.

Description

A impacting apparatus for testing non-destruction of concrete

The present invention relates to a multi-directional impact generator for the non-destructive inspection of concrete members for non-destructive inspection of concrete structures to implement a complete non-destructive inspection method in addition to the conventional impact echo method surface destruction method in various ways.

Recently, non-destructive testing techniques that have been introduced are the Impact-Echo method using the elastic stress wave. The outline of the impact direction technique is as follows.

That is, when an external mechanical shock (shock) is applied at a point on the surface of the specimen, stress waves (P waves, S waves, and R waves) propagated into the specimen are discontinuities caused by defects such as cracks and cavities in the specimen. It is reflected back to the surface at the interface between the inner and outer foreign media layers.

These waves are reflected back at the surface, propagated inside the specimen and reflected back at the discontinuities or interfaces.

Therefore, a resonant condition is caused by multiple reflections between the surface where the stress wave is generated and an internal defect or external boundary.

However, in the time-domain analysis of the reflected wave, the arrival time of the reflected wave cannot be found clearly, whereas in the frequency-domain analysis, the resonance frequency due to the resonance induced can be easily obtained.

Therefore, when the recording in the time domain measured by the detector located near the excitation circle on the surface is converted into the frequency domain using the Fast Fourier Transform (FFT), the resonance frequency due to multiple reflections is obtained.

Since the surface displacement due to the reflected P wave (Primary Wave) is much larger than the surface displacement due to the S wave (Shear Wave), the detected waveform can be viewed as a waveform due to the P wave.

Therefore, the relationship between the distance (T) from the crack, defect such as aoid or the heterogeneous medium layer to the surface where the detector is attached and the resonance frequency are determined by boundary conditions. This shock-generating operation is a top priority for the use of this technique.

In the conventional method related to the present invention, a small ball is dropped from the top about 10 cm to the flat surface of the concrete floor, or a small hammer-shaped device is used to lightly strike the metal plate adhered to the floor. There is this.

However, these methods acted as a significant limiting factor in the use of the technique, depending on the skill of the operator due to the impact repercussion that the impact itself applied to the concrete structure must be made within a very short time. The structure is installed in a direction other than the direction of gravity, such as the ceiling has a disadvantage that can not be used.

The present invention has been devised to solve the above problems, the present invention is a multi-directional impact for the non-destructive inspection of the concrete member to accurately meet the conditions of the non-destructive testing method of the concrete member required by only one impact The purpose is to provide a device.

Another object of the present invention is to provide a multi-directional impact generating device for non-destructive inspection of concrete members that are not restricted by the installation site to be easily installed on the concrete surface of the wall and ceiling including the floor of the building.

Multi-directional impact generator for non-destructive inspection of the concrete member according to the present invention for achieving the above object, the insertion hole of the circular space formed in the vertical direction and the electromagnet embedded in the inner wall surface of the insertion hole and its A main body including a slide unit receiving hole formed in the lower one side wall; An impact generating weight on which a shock generating spring is seated on an upper portion of the circular insertion space while slidingly moving up and down in the circular insertion hole; A slide unit accommodated in the slide unit accommodating hole of the main body and moved left and right according to the downward movement of the impact generating weight; And a weight control wedge for controlling the drop of the impact generating weight accommodated in the weight insertion hole of the main body.

1-combined cross-sectional view of the multi-directional impact generating device according to the present invention,

2-enlarged view of a portion A of FIG. 1,

Figure 3 is an exemplary view showing a step-by-step operation state of the multi-directional impact generating device for nondestructive inspection of the concrete member according to the present invention.

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

10: shock generating switch 20: lever

30: weight control wedge 40: hinge

50: rebound switch 70: shock generating spring

80: impact generating weight 85: tip

90: sliding unit 95: inclined surface

100: electromagnet switch 110: electromagnet

200: main body 210: weight insertion hole

220: sliding unit accommodation hole 300: concrete

Hereinafter, a multi-directional impact generating device for non-destructive inspection of a concrete member according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of the multi-directional impact generating device according to the present invention.

As shown in the drawing, the subject innovation is formed in the electromagnet 110 and the lower one side wall embedded in the weight insertion hole 210 and the inner wall surface of the weight insertion hole 210 formed in the vertical direction. A main body 200 including a slide unit accommodating hole 220; An impact generating weight (80) on which an impact generating spring (70) is seated on an upper portion of the circular insertion hole (210) in a circular motion; A slide unit (90) accommodated in the slide unit receiving hole (220) of the main body (200) and transported left and right according to the downward movement of the impact generating weight (80); It is configured to include a weight control wedge 30 for controlling the fall of the impact generating weight 80 accommodated in the weight insertion hole 210 of the main body 200.

The slide unit 90 is provided with an electromagnet switch 100 whose front side forms an inclined surface in a top and bottom light type and is connected to the electromagnet 110 and a conductive line at the rear thereof.

FIG. 2 illustrates the coupling state of the weight control wedge 30 mounted in the weight insertion hole 210 of the main body 200 in detail.

It is slidably coupled in a state in which the impact generating switch 10 is located at the front of the main body 200 so that the repulsive switch 50 is located in front of the main body 200, and the front of the impact generating switch 10 is a lever. One end of the 20 is hinged, and the other end of the lever 20 is hinged with the inverted triangular weight control wedge 30 mounted so that the hinge 40 is coupled and rotated in a predetermined direction. Has been configured.

The operating state of the multi-directional impact generator for non-destructive inspection of the concrete member according to the present invention is configured as described above can be seen in detail through FIGS. 2 and 3 of the accompanying drawings.

First, the impact generating device according to the present invention, the overall form is composed of a single assembly can be tested by simply attaching to the wall and ceiling, including the floor of the building during the non-destructive inspection of the concrete member, the main body 200 The shock generating weight (80) mounted in the c) is conveyed at a constant speed by the expansion force of the shock generating spring (70) and collides with the surface of the concrete member, which is the object of the non-destructive inspection, so that only one impact is needed. It is possible to accurately match the conditions of the non-destructive testing method of the member.

That is, in the case of using the multi-directional impact generating device according to the present invention is first mounted with a predetermined distance from the surface of the concrete 300, which is the object of the non-destructive inspection.

In this state, when the shock generating switch 10 is pressed, one end of the lever 20 hinged to the front side overcomes the tension of the repulsing spring 50 and moves forward, and the other end moves in the opposite direction. While pulling the weight control wedge 30 is rotatably coupled by the hinge 40 to the inner direction of the main body 200.

Therefore, when the weight control wedge 30 is moved away from the bottom surface of the impact generating weight 80 coupled in the weight insertion hole 210 of the main body 200 while being moved by the lever 20 As the spring 70 expands, the impact generating weight 80 is transferred toward the surface of the concrete 300 by the elastic force and hit against the surface thereof.

At the same time, the impact generating weight 80 hit by the surface of the concrete 300 is rebounded by the repulsive force, at this time, the impact generating weight 80 is just before the impact of the surface of the concrete unit 300 slide unit In close contact with the inclined surface 95 of 90, the slide unit 90 is transported in the direction of the electromagnet switch 100 located at the rear.

Therefore, the contact of the electromagnet switch 100 is turned on by the slide unit 90 transported to the rear in contact with the impact generating weight 80 as described above, so that power is applied to the electromagnet 110 connected to the conductive wire. As the magnetic force is generated, the impact generating weight 80 raised by the repulsive force is pulled to the first position as described above, so that re-dropping by the weight of the impact generating weight does not occur as in the prior art. The impact alone can perfectly meet the conditions of the non-destructive testing method of the concrete member.

The present invention includes a main body including a weight insertion hole of a circular space formed in the vertical direction, an electromagnet embedded in the inner wall surface of the weight insertion hole and a slide unit receiving hole formed in one lower wall thereof; An impact generating weight on which a shock generating spring is seated on an upper portion of the circular insertion space while the upper and lower slides are moved; A slide unit accommodated in the slide unit accommodating hole of the main body and moved left and right according to the downward movement of the impact generating weight; It comprises a weight control wedge for controlling the impact generating weight accommodated in the weight insertion hole of the main body, which can be easily installed and tested on the concrete surface of the wall and ceiling including the floor of the building during non-destructive inspection In addition, the non-destructive testing method of the concrete member required by only one impact by being transported at a constant speed by the expansion force generated when the shock-producing spring in the additional compressed state for the impact-producing state collides with the surface of the concrete to be inspected. It provides an effect that can accurately match the conditions of.

Claims (1)

It includes a weight insertion hole 210 of the circular space formed in the vertical direction, an electromagnet 110 embedded in the inner wall surface of the weight insertion hole 210 and a slide unit receiving hole 220 formed in one lower wall thereof. A main body 200; An impact generating weight (80) on which an impact generating spring (70) is seated on an upper portion of the circular insertion hole (210) in a circular motion; A slide unit (90) accommodated in the slide unit receiving hole (220) of the main body (200) and moved left and right according to the downward movement of the impact generating weight (80); Multi-directional impact for non-destructive inspection of the concrete member, characterized in that it comprises a weight control wedge 30 for controlling the impact generating weight 80 accommodated in the weight insertion hole 210 of the main body 200 Generator.