KR100540007B1 - a safety sensing apparatus of bridge pier mould construction - Google Patents

Abstract

The present invention relates to a measuring device for the safety diagnosis of the bridge foundation.

In particular, it is connected to the outer side of the circular fixing frame via a wire, the inner side of the wire is connected to one side of the wire tension sensor is provided to send a change in tension to a computer system with a separate external data acquisition program A grid; The support frame is connected to the grid through a plurality of support legs, the inner side is formed with a plurality of fastening holes at equal intervals; One side has an external shape that can be fastened to the fastening hole of the support frame, but when the movement of the cylinder shaft is integrally provided, the operation is transmitted to the computer system with a separate external data acquisition program through a switch operation The hydraulic cylinder is provided with an electrical connection to send and receive, and the other side is connected to the cylinder shaft, but comprises a sensing bar integrally formed with a ground plate connected to the bridge base to take a ground connection Through the present invention, it is possible to check in real time a specific part that is likely to cause a change in vertical state or crushing phenomenon of the foundation of the bridge, so that when the abnormal condition is detected in this part, it is possible to take quick safety measures and bridge collapse and collapse. It is to prevent such a large safety accident in advance.

Description

Safety detection apparatus of bridge pier mold construction

The present invention relates to a measuring device for the safety diagnosis of the foundation of the bridge, and more particularly, it is possible to check in real time the specific part that is likely to occur in the vertical state change or crushing phenomenon of the bridge foundation to detect the abnormal state in this area The present invention relates to a measuring device for safety diagnosis of the foundation of a bridge, which can prevent large-scale safety accidents such as bridge fall and collapse by allowing quick safety measures to be taken.

In general, a bridge is a structure in which the substructure and the superstructure are placed, and is mainly composed of a foundation pile, a pier foundation, a pier goping, a bridge arrangement, a box structure, a bridge deck, and the like.

Here, the bridge foundation corresponds to the substructure, which is installed on the foundation pile installed in the ground, and transfers all the loads acting on the superstructure after the installation and installation of the superstructure through the piers into the ground of the riverbed (河床). Due to these structural characteristics, excessive load is transferred during actual use, and when the installation condition of the foundation pile is changed due to the ground change due to such imputation and natural phenomena, it is linked to provide bad effects to the entire bridge. Many.

In particular, the foundation of bridges in rivers, rivers, etc. is neutralized by external impact friction caused by moving objects such as rocks and stones flowing down during flooding and flooding, and by water pollution caused by pollutants and neutralization of the material itself. As shown in FIG. 4 due to corrosion of the concrete due to the concrete, defects in the foundation due to poor construction, etc., the wall part of the foundation is broken or a scour phenomenon occurs in which the reinforcement structure is exposed.

As a result, it was necessary to periodically monitor and monitor the crushing phenomenon. Until now, such monitoring was performed by a supervisor using a non-destructive device or by visual inspection and imaging using divers. There were not only safety checks, but also uncomfortable management problems.

The present invention has been made in view of the conventional problems as described above, the object of the present invention is to check in real time the specific part that is likely to occur in the vertical state change or crushing phenomenon of the bridge foundation in this area The present invention provides a safety diagnosis measuring device for the foundation of a bridge to prevent a large safety accident such as bridge fall and collapse by allowing quick safety measures when an abnormal condition is detected.

Specific means of the present invention for achieving the above object,

A grating with a tension sensor connected to the outside of the circular fixing frame by means of a wire, which is connected to one side of the wire to transmit a change in tension to a computer system with a separate external data acquisition program. Frame;

The support frame is connected to the grid through a plurality of support legs, the inner side is formed with a plurality of fastening holes at equal intervals;

One side has an external shape that can be fastened to the fastening hole of the support frame, but when the movement of the cylinder shaft is integrally provided, the operation is transmitted to the computer system with a separate external data acquisition program through a switch operation The hydraulic cylinder is provided with an electrical connection to send and receive, and the other side is connected to the cylinder shaft, it is configured to include a sensing bar integrally formed with a ground plate connected to the ground foundation to take a ground connection It is characterized by.

Hereinafter, the configuration of the present invention in detail with reference to the drawings.

1 is an exploded perspective view showing the configuration of the measuring device for the safety diagnosis of the bridge foundation according to the present invention, Figure 2a Figure 2b is a cross-sectional view showing the main configuration of the main portion of the safety diagnosis measuring device of the bridge foundation according to the present invention. 3 is a front sectional view showing an installation state of a safety diagnosis measuring device of the bridge foundation according to the present invention.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the gist of the present invention, the detailed description thereof is omitted.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators.

Therefore, the definition should be made based on the contents throughout the specification.

As shown in the figure is connected to the outside of the circular fixing frame 10 through the wire 12, the inner side is connected to one side of the wire 12, the computer system with a separate external data acquisition program built in the change of tension The grating frame 18 is provided with the tension sensor 16 which can transmit to 14. As shown in FIG.

 In addition, the grating frame 18 is connected to the bottom through the grating frame 18 and several supporting legs 20, but the support frame is formed with several fastening holes 22 in the inner space at equal intervals 24 is formed.

In addition, the inner side of the support frame 24 has an external shape that can be fastened to the fastening hole 22 of the support frame 24, but the switch operation when the operation of the cylinder shaft 26 is integrally provided It is connected to the hydraulic cylinder 30 and the cylinder shaft 26, which is electrically connected to transmit such a change of motion to the computer system 14 having a separate external data acquisition program, the bridge base The sensing bar 34 made of a ground plate 32 which can take a ground connection to the unit 1 is installed.

On the other hand, a ground terminal 38 is provided to generate a signal upon contact with a specific portion of the inner diameter and the specific portion of the cylinder shaft 26 inside the hydraulic chamber 36 of the hydraulic cylinder 30.

Referring to the installation method and operation of the present invention configured as described above are as follows.

Installation is done in the following way.

First, the hydraulic cylinder 30 of the sensing bar 34 is fastened and fixed in the fastening hole 22 of the support frame 24 composed of two sets on the bridge foundation 1, and then connected in pairs, and the support leg (top) After the grid frame 18 is also installed in pairs through 20), the grid frame 18 may be installed by moving it downward to the base 1.

Then, the grid frame 18 is fixed to the circular fixing frame 10 in the outer diameter of the base portion (1) located on the line, the connection hole 40 formed in the outer diameter of the circular fixing frame 10 and the grid frame 18 Connect the wires 12 to the tension detectors 16 provided therein, and thereafter, the computer having a program for acquiring data provided with the tension detectors 16 and the ground terminal 38 of the hydraulic cylinder 30 in a separate position. Installation is complete when the system 14 is connected so as to transmit electrical signals.

According to the present invention, when the vertical state of the bridge foundation 1 changes, the tension detector 16 quickly checks the tension change of the connected wire 12 and sends the risk detection signal to the administrator's computer. The programmed data acquisition program is sent to the built-in computer system 14.

In addition, when the detection bar 34 is located on the bridge foundation 1 having a high possibility of occurrence of crushing phenomenon, when the crushing phenomenon is exceeded the safety standard value, the ground plate 32 of the sensing bar 34 While extending and moving to the crushed part, the cylinder shaft 26 connected thereto is interlocked and the ground terminal 38 positioned on the cylinder shaft 26 is grounded in the hydraulic chamber 36 of the hydraulic cylinder 30. In contact with the terminal 38, the risk detection signal is transmitted to the computer system 14 in which the data acquisition program that is programmed in the administrator's computer is embedded.

For reference, the present invention may be variously modified and may take various forms. However, in the detailed description of the present invention, only specific embodiments thereof are described.

Therefore, it is to be understood that the invention is not to be limited to the specific forms referred to in the description, but rather to include all modifications, equivalents and alternatives falling within the spirit and scope of the invention as defined by the appended claims. It must be understood.

As described above, the present invention can check in real time a specific part that is likely to cause a change in vertical state or crushing phenomenon of the bridge foundation in real time, so that when the abnormal condition is detected in this part, it is possible to take a quick safety measure. Therefore, it is possible to prevent large safety accidents such as bridge fall and collapse in advance.

1 is an exploded perspective view showing the configuration of the measuring device for the safety diagnosis of the bridge foundation according to the present invention.

Figure 2a is a cross-sectional view showing the main portion of the configuration of the measuring device for the safety diagnosis of the bridge foundation in accordance with the present invention.

Figure 3 is a front sectional view showing an installation state of the safety diagnosis measuring device of the bridge foundation in accordance with the present invention.

Figure 4 is a schematic diagram showing a problem phenomenon of the conventional bridge foundation.

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

1: Bridge Foundation

10: round fixing frame 12: wire

14: Computer system with integrated data acquisition program 16: Tension sensor

18: lattice frame 20: support leg

22: fastener 24: support frame

26: cylinder axis 30: hydraulic cylinder

32: ground plate 34: sensing bar

36: hydraulic chamber 38: ground terminal

40: connector

Claims (2)

It is connected to the outer side of the circular fixing frame 10 via a wire 12, the inner side is connected to one side of the wire 12 to change the tension in the computer system 14 with a separate external data acquisition program built-in A grating frame 18 having a tension sensor 16 for transmitting the grating; The support frame 24 is connected to and installed through the grid frame 18 and several supporting legs 20, and several fastening holes 22 are formed at equal intervals therein; One side is taking an external shape that can be fastened to the fastening hole 22 of the support frame 24, when the movement of the cylinder shaft 26 is integrally provided through the operation of the switch to change the operation of the external material A hydraulic cylinder 30 having an electrical connection is provided to send and receive transmissions to and from the computer system 14 in which an acquisition program is embedded, and the other side is connected to the cylinder shaft 26, but the bridge foundation portion ( 1) measuring device for the safety diagnosis of the bridge foundation, characterized in that it comprises a detection plate 34 which is integrally formed is connected to the ground plate 32 that can take a ground connection. The ground terminal 38 of claim 1, further comprising a ground terminal 38 for generating a signal upon contact between a specific portion of the inner diameter of the hydraulic chamber 36 of the hydraulic cylinder 30 and a specific portion of the cylinder shaft 26. Measuring device for the safety diagnosis of the bridge foundation, characterized in that.