KR20050074339A - Flow measure apparatus for safety check-up of construction - Google Patents

Abstract

The present invention relates to a flow measuring device for precise safety diagnosis of a structure, and in particular, is configured to measure the flow of the bridge generated in the expansion joint section of the bridge structure to prevent the defect of the structure in advance, and the safety of the structure The present invention relates to a flow measuring device for precise safety diagnosis of a structure to be confirmed.

The present invention, in the device for measuring the flow of the bridge slab of the bridge, measuring platform fastening plate 500; Recording paper box frame 600; Recording paper 670; It provides a flow measuring device for precise safety diagnosis of the structure consisting of; and the measuring table (700).

Description

FLOW MEASURE APPARATUS FOR SAFETY CHECK-UP OF CONSTRUCTION}

The present invention relates to a flow measuring device for precise safety diagnosis of a structure, and in particular, is configured to measure the flow of the bridge generated in the expansion joint section of the bridge structure to prevent the defect of the structure in advance, and the safety of the structure The present invention relates to a flow measuring device for precise safety diagnosis of a structure to be confirmed.

In general, there are various types of measuring devices for safety diagnosis in a structure, but in fact, there are no flow measuring devices that can be used in the expansion joint section of the bridge structure.

The present invention, by newly inventing a measuring device that can measure the flow generated in the expansion joint section of the bridge structure, it is possible to measure the flow of the vertical joint section of the expansion joint can confirm the safety of the structure Of course, the object of the present invention is to provide a flow measuring device for precise safety diagnosis of a structure that can prevent in advance a large safety accident that may occur in a large structure, such as a bridge structure.

The present invention, in order to achieve the above object, the present invention, an apparatus for measuring the flow of the bridge slab of the bridge, the measuring table fastening plate; Recording paper box frame; Recording paper; And it provides a flow measuring device for precision safety diagnosis of the structure consisting of a measuring table.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is demonstrated with reference to an accompanying drawing.

1 is a view showing a state in which the flow measuring device for precision safety diagnosis of the structure of the present invention is installed, the bridge device 200 as a support facility is installed between the bridge coping 100 and the steel box 300 constituting the bridge And, the bridge slab 400 is formed on the upper portion of the steel box 300, the expansion joint is installed at the longitudinal end of each bridge slab 400.

In the expansion joint section of the bridge, a flow measuring device 900 that can measure the flow of the bridge slab 400 is installed to measure the flow of the bridge slab 400.

2 is a view showing a combined state of the precision safety diagnostic flow measurement device of the structure of the present invention, Figure 3 is a view showing an exploded state of the flow safety device for precision safety diagnosis of the structure of the present invention.

The flow measuring device 900 is composed of a measuring table fastening plate 500, a recording paper box frame 600 and a measuring table 700, while the measuring table fastening plate 500 is connected to the bridge slab It is installed on one side of the bridge slab.

The measuring table fastening plate 500, the measuring table connector 510 protruding in the center of the square plate is formed, each anchor hole 520 is formed in the corner, the fixing bolt ( 512 is fastened to support the measuring table 700, and the set anchor 580 is fastened through the anchor hole 520 to be fixed to the bridge slab.

The recording paper box frame 600 is installed on the side of the other bridge slab spaced apart from the measuring table fastening plate 500 by a certain distance, while the set anchor 680 through the anchor hole 632 of the flange 630 It is fastened and fixed, a rectangular paper box 610 is formed in the center, the upper and lower limit recording plate 620 is formed so as to protrude forward in the longitudinal direction of the paper box 610, Flange 630 is formed on both sides of the paper box 610 in the longitudinal direction, respectively, and a battery 640 is installed on one side of the paper box 610.

The recording paper box frame 600, the rotary motor 650 is connected to the battery 640 by a wire to rotate the rotary motor 650, the rotary motor 650, the rotary roller 655 and The shaft 662 is connected to the other rotating rollers installed so as to be spaced apart by a rotation belt 660, while the paper box 610 of the recording paper box 600 is connected to the shaft 662 coupled to the inside. The recording paper 670 is coupled so that the flow of the bridge top plate is recorded while the recording paper 670 moves in accordance with the low speed rotation of the rotary motor 650.

The measuring table 700 is one side of the longitudinal direction is inserted into the measuring table connector 510 of the measuring table fastening plate 500 and one side is fixed with a fixing bolt 512, while being made of a square material having a rectangular cross section. .

The measuring table 700, the recording pin fastener 710 and the measuring device fastener 720 is fixed to the fixing bolt 712, the other side opposite to the center, respectively, the other recording pin fastener 710 is formed High and high limit value measuring pin 750 is formed on the side.

In addition, the measuring table 700, the measuring plate 730 is formed on one side lower portion of the measuring fastener 720, the measuring plate 730 is vertically downward in the front center of the measuring fastener 720 is formed. Meter 740 is formed.

As can be seen from the description of the above-described configuration, the flow measuring device 900, the measuring table fastening plate 500 and the recording paper box frame (side) on the side of the bridge slab 400 constructed to be connected to the expansion joint section position, respectively ( While 600 is fastened to the set anchors 580 and 680, the measuring table 700 is fixed to the measuring table fastening plate 500 by the fixing bolt 512 inside the protruding measuring table connector 510. do.

On the other hand, the vibration recording pin 716 of the measuring table 700 and the upper and lower movement limit measuring pins 750 are respectively located in contact with the recording paper 670, the upper and lower flow of the bridge slab 400 It is possible to measure the degree, it is also possible to measure the vertical degree through the vertical measuring instrument 740 by the measuring plate 730 fixed to the measuring instrument fastening 720 of the measuring table 700.

On the other hand, the recording paper box frame 600, the recording paper is attached to the upper and lower limit recording plate 620 of the paper box 610, it is possible to measure the extreme value of the upper structure of the bridge by the upper load Therefore, for example, when a point by the high / high limit limit measurement pin 750 is stamped on the recording sheet of the high / high limit limit recording plate 620, it can be seen that the deflection of the bridge occurs a lot. It is possible to check, and even if the recording through the vibration recording pin 716 on the reference line of the recording paper 670 is too large, because the repairing and reinforcement of the bridge device is to improve the stability of the bridge deck .

In addition, when the vertical measuring unit 740 of the measuring table 700 shows a large difference from the reference line of the measuring plate 730, the degree of deflection of the teaching apparatus 200 supporting the upper structure may be adjusted through the inclination. Will be.

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

The flow measuring device of the bridge structure of the present invention can determine the degree of deflection of the bridge device supporting the upper structure of the bridge by the reference line of the measuring plate and the vertical measuring device, and can improve the safety by repairing the bridge device. In addition, the flow measuring device checks the bridge device because it can be seen that a large amount of deflection of the bridge occurs when a point due to the high and high limit measurement pin is stamped on the recording sheet of the high and high limit record plate. This makes it possible to improve the stability of the bridge deck because the bridge apparatus is repaired and reinforced even when the recording through the vibration recording pin appears too large on the reference line of the recording sheet.

In addition, the flow measuring device, because it can be installed in the upper structure of the pre-installed bridge, the cost of the initial installation is increased, but can actually proceed smoothly the progress of the repair work of the expensive bridge As a result, the flow of the upper structure of the bridge can be effectively measured, thereby preventing any defects that occur.

1 is a view showing a state in which the flow measuring device for precision safety diagnosis of the structure of the present invention is installed.

Figure 2 is a view showing a combined state of the precision safety diagnostic flow measurement device of the structure of the present invention.

Figure 3 is a view showing an exploded state of the flow measuring device for precision safety diagnosis of the structure 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: measuring plate fastening plate 600: recording paper box frame

700: measuring table 900: flow measuring device

Claims (1)

In the device for measuring the flow of the bridge slab of the bridge, On one side of the expansion joint of the bridge slab, Measuring stand connector 510 is formed to protrude in the center, each anchor hole 520 is formed in the corner, the set anchor 580 is fastened through the anchor hole 520 is fixed to one side bridge slab 400 Measuring table fastening plate 500; While being installed spaced apart between the measuring plate fastening plate 500 and the expansion joint, A rectangular paper box 610 is formed at the center, and the set anchor 680 is fastened to another bridge slab through the anchor hole 632 of the flange 630 formed at both sides in the width direction of the paper box 610. The upper and lower limit recording plates 620 are formed to protrude forward and downward in the longitudinal direction of the paper box 610, and a battery 640 is installed at one side of the paper box 610. The rotary motor 650 is connected to the battery 640, and the rotary roller 655 and the shaft 662 are connected to the rotary motor 650, respectively, so that the rotary belt 660 is installed to be spaced apart from each other by a predetermined distance. Recording paper box frame 600 is connected to the rotation force is applied; The recording is left while being coupled to the shaft 662 coupled to the inside of the paper box 610 of the recording paper box frame 600, while the recording paper 670 is moved according to the low speed rotation of the rotary motor 650. Paper 670; And Inserted into the measuring table connector 510 of the measuring table fastening plate 500 and one side is fixed with a fixing bolt 512, while the recording pin fastening table 710 and the measuring device fastening 720 on the other side opposite to the center, respectively. ) Is fixed with a fixing bolt 712, the upper and lower limit value measuring pin 750 is formed on the side of the other side recording pin fastener 710 is formed, Measuring plate 730 is formed on the lower side of one side of the measuring instrument fastening 720, the vertical measuring instrument 740 is formed at the front center of the measuring instrument fastening 720, the measuring plate 730 is formed Flow measurement device for precision safety diagnosis of the structure consisting of;