KR102640166B1 - A device that facilitates the measurement of the lower girder of the bridge by a rebar probe - Google Patents

Abstract

The present invention relates to a device that supports a rebar detector to easily measure the lower girder of a bridge.
The present invention relates to a device (100) that supports the rebar detector (10) to easily measure the lower girder of a bridge for this purpose. It is located at the bottom of the girder and includes at least one plate (110) assembled and installed. shaft 140; And holes 113 are formed on both sides of the shaft 140 to be spaced apart from each other, and the reinforcing bar arrangement status of the girder can be measured by moving the reinforcing bar detector 10 from one side to the other around the central girder. A pair of plates 110 that provide support are included.
The present invention, constructed as described above, allows workers to easily measure the lower girder of a bridge using a portable, mobile rebar probe without measurement error, thereby greatly assisting in the safety diagnosis of bridges. This makes the product By significantly improving the quality and reliability of the product, it is possible to create a good image by satisfying the various needs of users and workers.

Description

A device that facilitates the measurement of the lower girder of the bridge by a rebar probe}

An embodiment of the present invention relates to a device that supports a rebar probe to easily measure the lower girder of a bridge. More specifically, the measurement is made in the process of measuring the lower girder of a bridge by an operator using a portable and mobile rebar probe. It is designed to be of great help in the safety diagnosis of bridges by enabling easy measurement without error. This greatly improves the quality and reliability of the product, thereby creating a good image by satisfying the various needs of the users, the workers. It was done.

Unless otherwise indicated herein, the matters described in this identification are not prior art to the claims of this application, and are not admitted to be prior art by being described in this identification.

As you know, a bridge is an elevated structure built to allow people to cross over a river, lake, strait, bay, canal, lowland, or other traffic route or structure. It is a means of transportation that enables safe and effective passage of vehicles or vehicles.

The general bridge described above includes a bridge infrastructure consisting of an abutment constructed on top of a well buried in the ground, a pier constructed on top of the abutment, a steel box girder installed on the top of the pier, and the girder of the girder. It consists of an upper facility consisting of a deck (asphalt slab) constructed on top.

However, since bridges with the above-mentioned characteristics are installed over short sections for economic feasibility, they often do not pay much attention to after-sales management. This means that not only is it uneconomical to install the systems necessary for management, but it is also uneconomical to maintain personnel for management. Because it is unreasonable to do so.

As a result, the deterioration of the bridge piers and the collapse of the ground, or the continuous load of the upper facilities may cause sagging of the girders, including the upper plate, causing the road surface to become uneven, thereby ensuring the safety of pedestrians and vehicles passing through it. Problems arose that prevented this from happening, and furthermore, very serious problems such as large-scale accidents such as bridge collapses occurred.

In particular, many problems were exposed in the process of measuring with a metal detector for safety diagnosis of the bridge lower girder.

In other words, in the process of measuring the lower girder of the bridge while holding a rebar probe, the worker must measure the width of the girder, but since both sides of the lower part of the girder are empty, a problem arose that the rebar probe could not be placed and moved.

Therefore, high-level work is required as the worker holds the rebar probe with one hand and moves the other hand to prevent the rebar probe from floating in the air. As a result, the worker's safety is harmed, and the measurement is unstable, which is a major problem. was pointed out.

In order to solve the above-mentioned problems, the following prior art documents have been developed, but there is still a big problem that the problems of the above-described prior art cannot be solved at once.

Republic of Korea Patent Publication No. 0664698 (December 27, 2006) has been registered. Republic of Korea Patent Publication No. 0896019 (April 27, 2009) has been registered. Republic of Korea Patent Publication No. 0885423 (2009. 02. 20) has been registered. Republic of Korea Patent Publication No. 0917658 (2009. 09. 09) has been registered.

The present invention was conceived to solve all the problems of the prior art as described above, and its first purpose is to provide a bridge lower girder measurement support device with a plate, support, fixed base, and shaft, and the first purpose is to provide a bridge lower girder measurement support device with a plate, support, fixed pedestal, and shaft. The second purpose of the present invention is to enable workers to easily measure the lower girder of a bridge using a portable and mobile rebar detector without measurement errors, thereby greatly assisting in the safety diagnosis of bridges, and the third purpose is The purpose is to enable the rebar probe to be easily moved against the bridge lower girder measurement support device rather than in the air. The fourth purpose is to eliminate the need for difficult work because the rebar probe is supported by the bridge lower girder measurement support device. The fifth purpose is to adjust the distance width of the bridge lower girder measurement support device according to the width of the girder so that it can be used effectively, the sixth purpose is to improve the convenience of work, and the seventh purpose is to improve the convenience of workers. The 8th purpose is to ensure the safety of workers, the 9th purpose is to prevent safety accidents in advance, and the 10th purpose is to ensure the safety of the lower part of the bridge. Girder measurement support device is a device that supports the rebar explorer to easily measure the lower girder of a bridge, which greatly improves the quality and reliability of the product and satisfies the various needs of the user, the operator, to create a good image. to provide.

In order to achieve this purpose, the present invention relates to a device that supports a rebar probe to easily measure the lower girder of a bridge, and includes at least one shaft located at the bottom of the girder and on which the plate is assembled; and a pair of plates having holes formed on both sides of the shaft to be spaced apart from each other and supporting the girder to measure the reinforcing state of the girder while moving the rebar probe from one side to the other around the central girder; A rebar probe characterized in that it is included provides a device that supports easy measurement of the lower girder of a bridge.

As discussed in detail above, the present invention allows workers to easily measure the lower girder of a bridge using a portable, mobile rebar probe without measurement error, greatly contributing to the safety diagnosis of the bridge.

In addition, the present invention allows the rebar probe to be easily moved against the bridge lower girder measurement support device rather than in the air.

In addition, the present invention eliminates the need for difficult work because the rebar probe is supported by a bridge lower girder measurement support device.

In addition, the present invention allows for useful use by adjusting the distance width of the bridge lower girder measurement support device according to the width of the girder.

In particular, the present invention is designed to improve the convenience of work.

In addition, the present invention supports workers to work conveniently.

In addition, the present invention is designed to promote worker safety.

The present invention provides the effect of preventing safety accidents due to the above-described effects.

Hereinafter, a preferred embodiment of the present invention for achieving these effects will be described in detail according to the attached drawings.

Figure 1 is a product photo of a typical portable mobile rebar explorer.
Figure 2 shows the rebar detector applied to the present invention to easily measure the lower girder of a bridge.
A perspective view of the device that supports this.
Figure 3 shows the rebar detector applied to the present invention easily measuring the lower girder of a bridge
Front view of the state of use of the device that supports this.
Figure 4 is an enlarged view of the main part of the plate applied to the present invention.
Figure 5 is an enlarged view of the main part of the shaft applied to the present invention.
Figure 6 shows another embodiment of the present invention,
(a) is a perspective view of another embodiment of the plate,
(b) is a side view of another embodiment of the plate.
(c) is an operating state diagram of another embodiment of the plate.
Figure 7 shows another embodiment of the present invention,
(a) is a diagram showing the support installed vertically,
(b) is a diagram showing the support installed tilted to one side,
(c) shows the support in a folded state.

The device that supports the rebar detector applied in the present invention to easily measure the lower girder of a bridge is configured as shown in FIGS. 1 to 7.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

In addition, the terms described below are terms established in consideration of the functions in the present invention, and may vary depending on the intention or custom of the producer, so their definitions should be made based on the content throughout the specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of explanation, the present invention is not necessarily limited to what is shown in the drawings.

First, the present invention relates to a device 100 that supports the rebar detector 10 to easily measure the lower girder of a bridge, and is configured as follows.

The rebar probe 10 applied to the present invention radiates electromagnetic waves inward from the concrete surface and receives reflected signals from the object, thereby displaying the location and depth of the object as an image, and managing the measured data with a printer or software.

The present invention is located at the bottom of a girder and is provided with at least one shaft 140 on which the plate 110 is assembled.

In addition, in the present invention, holes 113 are formed on both sides of the shaft 140 to be spaced apart from each other, and the reinforcement detector 10 is moved from one side to the other around the central girder to determine the reinforcement status of the girder. A pair of plates 110 are provided to support measurement.

At this time, in the present invention, extension protrusions 111 are protruding from the bottom of both sides of the plate 110, which means that the upper surface of the shaft 140 inserted into the hole 113 and the lower surface of the plate 110 are located on the same line. In order to do this, a passage groove 112 is formed in the center of the bottom of the plate 110 by both extension protrusions 111, and the passage groove 112 and the bottom of the girder are located on the same line to form a reinforcing bar. This allows the probe 10 to move on the same horizon.

Additionally, a support 120 is provided on the upper surface of the pair of plates 110 applied to the present invention to ensure support by contacting the side of the girder.

At this time, it is preferable that the surface of the support 120 in contact with the side of the girder is provided with a close contact member 125 made of rubber to ensure close contact, and the surface of the close contact member is provided with fine protrusions 126 to prevent slipping. .

In addition, a fixed support 130 for supporting the support 120 is provided between the horizontal surface of the pair of plates 110 applied to the present invention and the vertical surface of the support 120.

In addition, the pair of plates 110 fitted to the shaft 140 applied to the present invention allows the distance width to be adjusted according to the width of the girder, and the plates 110 are placed on both sides of the shaft 140 in close contact with the girder. A nut 145 is provided to support it so that it does not come loose.

In addition, it is desirable that the outer surface of the shaft 140 applied to the present invention be marked with scales and numbers so that workers can easily check the width of the girder.

Meanwhile, the present invention plate 110 can be configured in another embodiment as shown in FIG. 6 below, and the remaining configuration is the same as the configuration described above.

That is, if the lower edge of the girder is formed as a chamfer, the wheel of the rebar explorer 10 may come off, making accurate measurement difficult. At this time, the plate 110 is composed of a fixed plate 115 and a movable plate 116, and guide protrusions 116a protruding from both ends of the movable plate 116 are guided grooves 115a formed on both ends of the fixed plate 115. ), and the chamfered inclined surface 117 formed at the tip of the movable plate 116 is in close contact with the chamfered portion of the lower edge of the girder to prevent the wheel of the rebar explorer 10 from falling off.

On the other hand, in the present invention, the fixed support 130 can be configured as another embodiment of a folding support as shown in FIG. 7 below.

That is, even when the side of the girder is not vertical but slightly tilted, the support 120 can be installed in close contact with the side of the girder, and the bridge lower girder measurement support device 100 can be carried by folding the folding support if necessary. It can be made easy.

For this purpose, the present invention is provided with a first folding support (130a) and a second folding support (130b) centered on a central third hinge (133), and a second hinge (132) at the bottom of the first folding support (130a). is connected to the guide groove 135 of the plate 110, and the upper fourth hinge 134 of the second folding support 130b is connected to the support 120. And the lower end of the support 120 is connected to the first hinge 131 and rotates.

Meanwhile, the present invention can be variously modified and take various forms when applying the above-mentioned components.

And it should be understood that the present invention is not limited to the particular form mentioned in the above detailed description, but rather includes all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. It should be understood as

The effect of the device that supports the reinforcing bar detector of the present invention configured as described above to easily measure the lower girder of a bridge is as follows.

First, the present invention allows workers to easily measure the lower girder of a bridge using a portable, mobile rebar probe without measurement errors, greatly contributing to the safety diagnosis of bridges.

For this purpose, Figure 1 applied to the present invention is a product photo of a general portable mobile rebar probe (10), which shows electromagnetic waves transmitted inside the structure to estimate the position, direction, cover thickness, etc. of the rebar placed inside the reinforced concrete structure. It is a measuring instrument that uses the property of generating reflected waves at the boundary of reinforcing bars, which are materials with different electrical properties. In particular, it is a non-destructive testing equipment based on the magnetic coiling principle and is performed on the slab, wall, etc. of the structure to detect the condition of the reinforcing bar piping in each member.

In addition, Figure 2 is a perspective view of the device 100 that supports the reinforcing bar detector applied to the present invention to easily measure the lower girder of the bridge, and a pair of plates 110 are spaced apart from each other at both ends of the shaft 140. ) is assembled and installed by inserting the hole 113 formed in the plate 110 into the shaft 140.

And Figure 3 is a front view of the use state of the device 100 that supports the rebar detector applied to the present invention to easily measure the lower girder of the bridge. The girder lower girder measurement support device 100 assembled as described above is shown in Figure 3. By installing it at the lower part of the girder, the support 120 is brought into contact with both sides of the girder and then the wing nut 145 fastened to the shaft 140 is tightened, so that the support 120 is closely attached to both sides of the girder, resulting in the lower part of the bridge. The girder measurement support device 100 is tightly fixed to the girder.

At this time, an adhesion member 125 made of rubber is provided on the surface of the support 120 in contact with the side of the girder to ensure close contact with the side of the girder, and fine protrusions 126 are provided on the surface of the adhesion member. It provides the effect of preventing slipping.

In the state where the bridge lower girder measurement support device 100 is assembled and installed at the lower part of the girder as described above,

Extension protrusions 111 are protruding from the bottom of both sides of the plate 110, so that the upper surface of the shaft 140 inserted into the hole 113 and the lower surface of the plate 110 are located on the same line. In addition, the passage groove 112 and the bottom of the girder are located on the same line, allowing the rebar explorer 10 to move on the same horizontal line.

In other words, when the solid line rebar detector 10 moves like an imaginary line (the bottom of the rebar explorer faces upward), the reinforcing bar of the girder is cultivated while passing through the girder in the moving process (passage groove on one side → bottom of girder → passage groove on the other side). Status, etc. are measured.

The present invention eliminates the need for difficult work because the rebar detector 10 is supported by the bridge lower girder measurement support device 100 through the above-described operation process, and it is designed to promote convenience of work, and to ensure convenience for workers. It provides support for convenient work, promotes the safety of workers, and provides the effect of preventing safety accidents in advance.

In addition, the present invention provides the effect of allowing useful use by adjusting the distance width of the bridge lower girder measurement support device 100 according to the width of the girder.

That is, the distance between both plates 110 assembled on the shaft 140 can be adjusted according to the width of the girder. When the wing nut 145 is loosened, the plate 110 can move on the shaft 140, and In the same state, by tightening the wing nut 145 again with the support 120 in close contact with both sides of the girder, the bridge lower girder measurement support device 100 can be simply fixed and installed according to the width of the girder.

The present invention can promote convenience of work by displaying scales and numbers on the outer surface of the shaft 140 during the operation process so that the operator can easily check the width of the girder.

Meanwhile, Figure 6 applied to the present invention is another embodiment of the present invention, (a) is a perspective view of another embodiment of the plate, and (b) is a side view of another embodiment of the plate. (c) is an operating state diagram of another embodiment of the plate.

That is, in another embodiment of the present invention, when the lower edge of the girder is formed as a chamfer (Figure 6c), the wheel of the rebar explorer 10 may come off, making accurate measurement difficult. At this time, when the movable plate 116 is pushed toward the girder, the chamfer filled slope 117 comes into close contact with the chamfer at the bottom edge of the girder, preventing the wheel of the rebar explorer 10 from falling off.

During the above operation process, the guide protrusions 116a protruding from both ends of the movable plate 116 move along the guide grooves 115a formed at both ends of the fixed plate 115.

On the other hand, Figure 7 is another embodiment of the present invention, (a) is a state in which the support is installed vertically, (b) is a state in which the support is installed tilted to one side, and (c) is a state in which the support is folded. It shows.

That is, even when the side of the girder is not vertical but slightly inclined, the support 120 can be installed in close contact with the side of the girder (FIG. 7b), and if necessary, the folding support can be folded to form the bridge lower girder measurement support device 100. ) can be made easy to carry (Figure 7c).

For this purpose, the present invention is provided with a first folding support (130a) and a second folding support (130b) centered on a central third hinge (133), and a second hinge (132) at the bottom of the first folding support (130a). is connected to the guide groove 135 of the plate 110, the upper fourth hinge 134 of the second folding support 130b is connected to the support 120, and the lower end of the support 120 is the first It is connected to the hinge 131 and rotates, so that the first folding stand (130a) and the second folding stand (130b) can be used by unfolding them and then folding them as needed (Figure 7c), making them easy to carry and store. .

As described above, the present invention allows workers to easily measure the lower girder of a bridge using a portable, mobile rebar probe without measuring errors, greatly contributing to the safety diagnosis of bridges, and allows the rebar probe to be used in the air. Instead, it is designed so that it can be easily moved against the bridge lower girder measurement support device. Since the rebar probe is supported by the bridge lower girder measurement support device, difficult work is not necessary, and the bridge lower girder is measured according to the width of the girder. It is designed to be useful by adjusting the distance width of the support device, to promote the convenience of work, to support the worker so that he can work conveniently, and to promote the safety of the worker. , it provides the effect of preventing safety accidents in advance.

The technical idea of the device that supports the reinforcing bar detector of the present invention to easily measure the lower girder of a bridge is that it can actually repeat the same results, and in particular, by implementing this invention, it will promote technological development and contribute to industrial development. It is well worth protecting.

<Explanation of symbols for main parts of the drawing>
100: Bridge lower girder measurement support device
110: plate
120: support
130: Fixed stand
140: shaft

Claims (5)

It relates to a device (100) that supports the rebar detector (10) to easily measure the lower girder of a bridge,
Located at the bottom of the girder, at least one shaft 140 on which the plate 110 is assembled and installed; And holes 113 are formed on both sides of the shaft 140 to be spaced apart from each other, and the reinforcing bar arrangement status of the girder can be measured by moving the reinforcing bar detector 10 from one side to the other around the central girder. Includes a pair of plates (110) that support
Extension protrusions 111 are protruding from the bottom of both sides of the plate 110, so that the upper surface of the shaft 140 inserted into the hole 113 and the lower surface of the plate 110 are located on the same line. A passage groove 112 is formed in the center of the bottom of the plate 110 by the two extension protrusions 111, and the passage groove 112 and the bottom of the girder are located on the same line, so that the rebar explorer 10 It is configured so that it can move on the same horizontal line,
A contact member 125 made of rubber is provided on the surface of the support 120 in contact with the side of the girder to ensure close contact, and a fine protrusion 126 is provided on the surface of the contact member to prevent slipping,
A support 120 is provided on the upper surface of the pair of plates 110 to secure support by contacting the side of the girder,
A fixed support 130 is provided between the horizontal surface of the pair of plates 110 and the vertical surface of the support 120 to support the support 120,
A pair of plates 110 fitted on the shaft 140 allows the distance width to be adjusted according to the width of the girder, and on both sides of the shaft 140, there is a nut that adheres the plate 110 to the girder and supports it so that it does not come loose. (145); is provided,
A device that supports a rebar detector to easily measure the lower girder of a bridge, characterized in that scales and numbers are displayed on the outer surface of the shaft 140 so that workers can easily check the width of the girder. delete delete delete delete

Images