KR200347780Y1 - Measure apparatus for safety check-up of bridge - Google Patents

Abstract

The present invention relates to a precision safety diagnostic measuring device for detecting the deformation of the bridge device of the bridge, in particular to detect the deformation of the bridge device to prevent the adverse effect on the structure in advance to detect the deformation of the bridge bridge device It relates to a measuring device for safety diagnosis.

The present invention, in the bridge including the bridge coping, bridge device, steel box, bridge slab and expansion joint device, the fixing bolt and the hydraulic actuator constituting the sole plate and the measuring device respectively fixed to the bridge coping and steel box While being installed in close contact, the measuring device, in the form of a rectangular box, the hydraulic gauge fastener is formed so as to penetrate the inside, and a plurality of fastener connection connectors are formed on the upper and lower surfaces of the hydraulic meter fastener, respectively, The fixing bolt and the hydraulic actuator are coupled to the upper and lower portions of the fastening connector, respectively, and the hydraulic pipe supporting the hydraulic gauge from the lower side is connected to the hydraulic actuator so that the hydraulic pressure is increased depending on the degree of lifting and lowering of the hydraulic actuator. Precision safety diagnostic side for detecting the deformation of the bridge bridge device, characterized in that the height of the hydraulic fluid of the measuring instrument has a difference Provide a tablet device.

Description

MEASURE APPARATUS FOR SAFETY CHECK-UP OF BRIDGE}

The present invention relates to a precision safety diagnostic measurement device for detecting the deformation of the bridge device of the bridge, in particular to detect the deformation of the bridge device to prevent the adverse effect on the structure in advance to detect the deformation of the bridge bridge device It relates to a measuring device for safety diagnosis.

In general, the bridge device installed between the pier coping and the steel box via the sole plate is subjected to the upper load as it is, and the deformation is frequently generated, and this disadvantage has a great influence on the structural safety of the bridge. In order to solve this drawback, a lot of researches on the teaching apparatus have been conducted.

The pier coping is often installed on the outside of the railings as a temporary, the workers are to repair and reinstall the bridge device using the railings.

FIG. 1 is a view illustrating a problem caused by damage to a bridge device of a general bridge. A plurality of bridge devices 20 are installed at a bridge coping 10 constituting a bridge, and a steel is formed on the bridge device 20. The box 30 is seated, and concrete is poured on top of the steel box 30 to form the bridge slab 40.

In the bridge slab 40, the expansion joint device 50 is provided on the longitudinal connecting surface, and cracks are often generated in the bridge slab 40 depending on the abnormality of the bridge device 20.

In particular, it is difficult to precisely measure the deformation of the chair device 20, as well as the device for such a measurement is not at all, the work can be confirmed only with the naked eye, it is difficult to accurately measure the state of the chair device 20 It is true.

The present invention, in view of the above-described problems, the present invention, by detecting the deformation of the bridge device according to the eccentric load of the bridge slab can prevent the adverse effects on the structure in advance can prevent large accidents in advance It is an object of the present invention to provide a measuring device for precise safety diagnosis for deformation detection of bridge bridge devices.

1 is a view showing a problem caused by the failure of the bridge device of a general bridge.

Figure 2 is a view showing the state of use of the precision safety diagnostic measurement device for detecting deformation of the bridge bridge device of the present invention.

3 is a detailed view of portion A of FIG. 2;

Figure 4 is a perspective view of a precision safety diagnostic measurement device for detecting deformation of the bridge bridge device of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: pier coping 200: bridge device

300: steel box 400: bridge slab

500: expansion joint 610: hydraulic measuring instrument fastening

800: measuring device

The present invention to achieve the above object, the present invention, in the bridge including the bridge coping, bridge device, steel box, bridge slab and expansion joint device, the sole plate and measurement fixed to the bridge coping and steel box respectively While the fixing bolt constituting the device and the hydraulic actuating tool are installed in close contact with each other, the measuring device has a rectangular box shape, and a hydraulic measuring instrument fastening member is formed to penetrate the inside thereof, and the upper and lower lengths of the hydraulic measuring instrument fastening member A plurality of fastener couplings are formed, respectively, the fastening bolts and hydraulic actuators are coupled to the fastener couplings, respectively, and a hydraulic pipe for supporting a hydraulic gauge from the bottom is connected to the hydraulic actuators. The bridge bridge device, characterized in that the height of the hydraulic fluid of the hydraulic gauge has a difference depending on the degree of lifting and lowering of the hydraulic operation port Provides a precision safety diagnostic measurement device for deformation detection.

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

2 is a view showing a state of use of the precision safety diagnostic measurement device for detecting the deformation of the bridge bridge device of the present invention, Figure 3 is a detailed view of the portion A of FIG.

The bridge coping 100 constituting the bridge is provided with a plurality of bridge device 200 on the top, the steel box 300 is seated on the top of the bridge device 200, the top of the steel box 300 Concrete is poured to form bridge slab 400.

The bridge slab 400, the expansion joint 500 is provided on the longitudinal connecting surface, the measuring device 800 is provided on the side of the bridge device 200, the degree of deformation of the bridge device 200 Will be identified.

The measuring device 800, the upper and lower surfaces are in close contact with the sole plates 220 and 210, respectively, so that the scale can be read and grasped according to the deformation degree of the hydraulic gauge by the hydraulic pressure.

Figure 4 is a perspective view of a precision safety diagnostic measurement device for detecting the deformation of the bridge bridge device of the present invention, the measuring device 800, in the form of a rectangular box, the hydraulic measuring instrument fastener 610 is formed so as to penetrate the inside The upper and lower ends of the hydraulic measuring device fastening unit 610 are formed with a plurality of fastening connector connectors 620, respectively, and the fastening bolts 630 and hydraulic actuations at the upper and lower ends of the fastening connector connector 620, respectively. The sphere 640 is coupled, and the hydraulic pipe 650 for supporting the hydraulic measuring device 660 from the lower side is connected to the hydraulic operating port 640, the hydraulic force depending on the degree of rise and fall of the hydraulic operating port 640 The height of the hydraulic fluid of the hydraulic pressure gauge 600 is operated to have a difference.

That is, the measuring device 800 is in close contact with the sole plate 210 and 220 fixed to the pier coping 100 and the steel box 300 according to the operation of the fixing bolt 630, After the measuring device 800 is installed, the load of the upper bridge slab 400 is transmitted to the lower side, the hydraulic actuation port 640 flows by the hydraulic force, accordingly the hydraulic actuation port 640, the hydraulic pipe 650 ) And the height of the hydraulic fluid filled in the hydraulic measuring device 650 is different from the initial state to measure the eccentricity of the teaching device 200.

The effect by the structure of this invention mentioned above is demonstrated.

The measuring device of the present invention can measure the stress transmitted to the teaching device at the degree of deformation of the hydraulic fluid, and can detect the deformation of the teaching device to obtain the effect of preventing adverse effects on the structure. Can be.

In particular, the measuring device can be installed to be connected to the teaching apparatus by applying the hydraulic force, it is possible to operate in a simple structure can easily measure the deformation of the teaching apparatus has the effect of reducing the cost of maintenance.

Claims (1)

In a bridge comprising a bridge coping, a bridge device, a steel box, a bridge slab and expansion joints, The fixing bolt 630 and the hydraulic actuation port 640 constituting the sole plate 210 and 220 and the measuring device 800 fixed to the pier coping 100 and the steel box 300 are installed in close contact with each other. Meanwhile, The measuring device 800, in the form of a rectangular box, the hydraulic measuring fastener 610 is formed so as to penetrate the inside, a plurality of fasteners connecting the upper and lower surfaces of the hydraulic measuring fastener 610 in the longitudinal direction, respectively ( 620 is formed, and the fixing bolt 630 and the hydraulic actuator 640 is coupled to the fastener connector 620 at the upper and lower portions, respectively, and the hydraulic gauge 660 is lowered to the hydraulic actuator 640. Hydraulic bridge 650 is supported in the bridge bridge device, characterized in that the hydraulic force is configured to have a difference in the height of the hydraulic fluid of the hydraulic measuring device 600 according to the rising and falling degree of the hydraulic operation port 640 Precise safety diagnostic measuring device for detecting deformation.