KR102176448B1 - Multipurpose auxiliary equipment for concrete durability test of non-homogeneous surface with safety test - Google Patents

Abstract

The present invention provides a multipurpose auxiliary device for testing concrete durability of a nonhomogeneous surface in safety diagnosis which can increase the test accuracy of reinforcing bar detection and perform concrete hardness and ultrasonic wave tests at the same time. According to a proper embodiment of the present invention, the auxiliary device used in reinforcing bar detection and hardness and ultrasonic waves measurement of a concrete structure comprises: a pair of running rail supports which are provided with a bottom plate for running having a prescribed width and length and providing a running floor of reinforcing bar detection equipment, and a wheel guide rail erected along the edge of the bottom plate for running to guide the movement of the reinforcing bar detection equipment and suppress the detachment of a wheel, and are connected to each other through a hinge on one end thereof to be folded; a level installed on one side of the pair of running rail supports to allow horizontal installation of the auxiliary device; and a handle for moving installed on the other end of the pair of running rail supports for transport and movement of the auxiliary device.

Description

Multipurpose auxiliary equipment for concrete durability test of non-homogeneous surface with safety test}

The present invention relates to a multi-purpose auxiliary device for testing the durability of concrete on a non-homogeneous surface during a safety diagnosis, and in particular, to increase the test accuracy of reinforcing bar exploration and to perform both the hardness and ultrasonic tests of concrete. It relates to a multi-purpose auxiliary device for.

Non-destructive tests, such as rebar exploration, rebound hardness test, and ultrasonic test, are conducted during safety inspection and precision safety diagnosis of facilities. For example, in the case of rebar exploration, rebar exploration equipment with wheels capable of running is used. In this case, the rebar exploration equipment transmits and receives detection signals while traveling through the wheels. Therefore, accurate test measurements are made only when stable running of the rebar exploration equipment is secured. In other words, if the rebar exploration equipment is departed from the driving, it is impossible to receive and receive signals, so test measurement is not performed.

As the background technology of the present invention, Korean Patent Registration No. 10-1814545, which has a running surface extending outside the subject, and a support plate capable of adjusting the position of the joint with the subject, is installed on the subject. However, a'structure non-destructive exploration traveling plate' has been proposed that induces tight bonding with the subject by imparting elastic force to the coupling portion and secures a sufficient exploration range of the probe. However, since the above background technology does not have a means to guide the traveling of the probe, it is difficult to accurately operate the test equipment because deviation may occur during the test movement.

Korean Patent Registration No. 10-1814545

An object of the present invention is to provide a multi-purpose auxiliary device for the durability test of concrete on a non-homogeneous surface during safety diagnosis, which improves the test accuracy of reinforcing bar exploration and enables simultaneous hardness and ultrasonic tests of concrete.

According to a preferred embodiment of the present invention, as an auxiliary device used to measure reinforcement, hardness, and ultrasonic waves of a concrete structure, a running deck having a certain width and length and providing a running floor of the reinforcing bar exploration equipment, a running floor A pair of travel rail supports that are installed along the circumference of the plate and have a wheel guide rail for guiding the movement of the reinforcing bar exploration equipment and suppressing the separation of the wheel, and are interconnected through a hinge of one end and foldable; A leveling system installed to enable horizontal installation of an auxiliary device on each side of the pair of running rail supports; It characterized in that it includes; moving handles respectively installed on the other end of the pair of traveling rail support for transport and movement of the auxiliary device.

In addition, it is characterized in that the rebound hardness measurement hole is further arranged in any one of the pair of running rail supports to measure the rebound hardness of the concrete structure.

In addition, an ultrasonic measuring hole for measuring ultrasonic waves of the concrete structure is further arranged on the other traveling floor plate among the pair of traveling rail supports.

In addition, a floor filler made of any one of rubber, urethane, and silicone is further installed on each of the driving floor plates of the pair of travel rail supports to adhere to the uneven surface of the concrete structure.

According to the multi-purpose auxiliary device for the durability test of concrete on an inhomogeneous surface during the safety diagnosis of the present invention, the rebar exploration equipment is driven along the wheel guide rail of the driving rail support side of the auxiliary device, so that the test accuracy of the rebar exploration can be improved. In addition, it is possible to accurately measure the rebound hardness of the concrete structure through the rebound hardness measurement hole arranged on one side of the running deck. In addition, accurate ultrasonic measurements can be made through the ultrasonic measuring holes arranged on the other side of the driving floor plate. In addition, the auxiliary device is completely in close contact with the test object by the floor filler installed on the bottom of the running rail support, so that the durability test can be performed without being affected by surface irregularities. In addition, the auxiliary device is configured such that a pair of running rail supports are folded to facilitate movement and storage.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is a perspective view of a multi-purpose auxiliary device for a durability test of concrete on a non-homogeneous surface during a safety diagnosis according to an embodiment of the present invention.
Figure 2 is an operation state in which the multi-purpose auxiliary device shown in Figure 1 is folded.
Figure 3 is a folded state view of the multi-purpose auxiliary device shown in Figure 1;
FIG. 4 is a plan view of FIG. 1 in which rebar exploration equipment is mounted.
5 is a cross-sectional view taken along line AA of FIG. 4.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

As shown in Figure 1, the multi-purpose auxiliary device 10 (hereinafter referred to as the auxiliary device 10) for the durability test of concrete on a non-homogeneous surface during the safety diagnosis according to the present invention is a reinforcement probe placed on a concrete structure, rebound hardness It is an auxiliary equipment for testing and ultrasonic testing. For example, it is possible to measure the position, thickness, and spacing (reinforcement reinforcement degree, cover distribution diagram) of the reinforcing bar through the rebar exploration equipment 100 mounted on the auxiliary device 10 as shown in FIG. 4. Additionally, it can be used to measure the hardness of concrete through the rebound hardness test and the crack depth of concrete through the ultrasonic test.

As shown in FIGS. 1 to 5, the auxiliary device 10 is provided with a pair of travel rail supports 12 and 12a that are interconnected through a hinge 13 and foldable. A pair of running rail support (12, 12a) has a certain width and length and is installed along the circumference of the running base plate 121 and the running base plate 121 to provide the running floor of the rebar exploration equipment 100 It has a wheel guide rail 122 that guides the movement of the reinforcing bar exploration equipment 100 and suppresses the separation of the wheel 102.

Therefore, when the folded pair of running rail supports 12 and 12a are unfolded, a pair of running rail supports 12 and 12a are arranged on the same plane as shown in FIGS. 1 and 4 so that they can come into contact with the concrete structure 200. do. In addition, the rebar exploration equipment 100 is mounted on a pair of unfolded traveling rail brackets 12 and 12a, so that the wheel 102 of the reinforcing bar exploration equipment 100 is a running floor of a pair of traveling rail brackets 12 and 12a. It is put on the plate 121. Accordingly, the reinforcing bar exploration equipment 100 can perform an accurate test movement along the traveling rail supports 12 and 12a extended from one side to the other by receiving the guidance of the wheel guide rail 122.

In addition, leveling systems 16 and 16a are provided on one side of the pair of travel rail support 12 and 12a to enable horizontal installation of the auxiliary device 10. Accordingly, the rebar exploration equipment 100 mounted on the pair of travel rail supports 12 and 12a by the installation of the leveling systems 16 and 16a can perform accurate exploration and travel while maintaining a horizontal state.

In order to move the auxiliary device 10, the moving handles 18 and 18a are respectively installed at the other ends of the pair of travel rail supports 12 and 12a. Therefore, it becomes easy to carry and move the auxiliary device 10 through the moving handles 18 and 18a.

On the other hand, in one of the pair of running rail support (12, 12a) for one of the running floor plate 121, in order to measure the rebound hardness of the concrete structure, a rebound hardness measurement hole 123 that meets the test regulations is further arranged. Can be configured. Accordingly, an accurate hardness test can be performed in a state where the hardness position is secured through the rebound hardness measuring hole 123 in the rebound hardness tester in the state where the pair of running rail supports 12 and 12a are unfolded.

In addition, an ultrasonic measuring hole 124 conforming to the test regulations for measuring ultrasonic waves of the concrete structure 200 is further arranged in the other traveling floor plate 121 of the pair of traveling rail supports 12 and 12a. Can be configured. Accordingly, an accurate ultrasonic test can be performed in a state where the ultrasonic measuring probe is secured through the ultrasonic measuring hole 124 in a state where the pair of traveling rail supports 12 and 12a are unfolded. In this way, it is possible to measure the compressive strength of concrete structures and the crack depth of concrete through ultrasonic measurement.

In addition, a floor filler made of any one of rubber, urethane, and silicone in order to be in close contact with the uneven surface of the concrete structure 200 on each of the running floor plates 121 of the pair of running rail supports 12 and 12a. (20) can be installed further. In this way, when the floor filler 20 is installed on the pair of running rail supports 12 and 12a, the running base plate 121 is completely in close contact with the uneven surface of concrete, so that an accurate non-destructive test can be performed.

A method and operation of the auxiliary device 10 configured as described above will be described.

First, a pair of folded running rail supports 12 and 12a of the auxiliary device 10 as shown in FIGS. 4 and 5 are spread on the concrete structure 200 that needs safety diagnosis.

Then, the rebar exploration equipment 100 is mounted on the unfolded pair of running rail supports 12 and 12a, and the rebar exploration is performed while moving. At this time, since the reinforcing bar exploration equipment 100 moves while receiving linear guidance from the wheel guide rail 122, an accurate exploration test can be obtained.

On the other hand, when the reinforcing bar exploration equipment 100 is removed from the auxiliary device 10, the rebound hardness measurement hole 123 and the ultrasonic measurement hole 124 are exposed on the driving floor plate 121. Therefore, an accurate hardness test is performed with a rebound hardness tester while the hardness position is secured through the rebound hardness measurement hole 123. In addition, an accurate ultrasonic test is performed with an ultrasonic measuring probe while the ultrasonic measuring position is secured through the ultrasonic measuring hole 124.

When the rebar exploration, the rebound hardness, and the ultrasonic test are completed in this way, when the pair of travel rail supports 12 and 12a are folded, the volume of the auxiliary device 10 becomes smaller, making it convenient to move and occupy less storage space.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and variations of the invention, but is limited by the claims appended below.

12,12a: Travel rail support
121: base plate for driving
122: wheel guide rail
123: hole for measuring rebound hardness
124: ultrasonic measuring hole
16,16a: level
18,18a: moving handle
20: floor filler

Claims (4)

As an auxiliary device 10 used to measure reinforcement, hardness and ultrasonic waves of concrete structures,
It has a certain width and length and is installed along the circumference of the driving floor plate 121 and the driving floor plate 121 to provide the driving floor of the rebar exploration equipment 100 to guide the movement of the rebar exploration equipment 100 A pair of travel rail support (12, 12a) that has a wheel guide rail (122) for suppressing the separation of the wheel and is interconnected through a hinge (13) of one end and foldable;
A leveling system (16, 16a) installed to enable horizontal installation of the auxiliary device (10) on one side of each of the pair of travel rail support (12, 12a);
Includes; moving handles 18 and 18a respectively installed at the other ends of a pair of travel rail supports 12 and 12a for transport and movement of the auxiliary device 10,
A rebound hardness measurement hole 123 is arranged in any one of the pair of running rail supports 12 and 12a on the running floor plate 121 to measure the rebound hardness of the concrete structure,
An ultrasonic measuring hole 124 for measuring ultrasonic waves of a concrete structure is arranged in the other traveling floor plate 121 of the pair of traveling rail supports 12 and 12a,
A floor filler made of any one of rubber, urethane, and silicone in order to be in close contact with the uneven surface of the concrete structure 200 on each of the driving floor plates 121 of the pair of driving rail supports 12 and 12a ( 20) is a multi-purpose auxiliary device for the durability test of concrete on a non-homogeneous surface during safety diagnosis, characterized in that it is installed. delete delete delete

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