KR19980044227A - Crack gauges for measuring structure cracks - Google Patents

Abstract

The crack gauge of the present invention has a fixed mark 3 and a flow mark 4 on the support body 2, and the flow mark 4 rests on the support body 2 by two support plates 5. It is made to be rotatable by the rotating shaft 6 which transverses between two support plates.

On the other hand, on the support body 2 there is a display device 8 and between the display device 8 and the end of the rod with the flow mark 4 there is a transmission axis that can transmit the amount of change of the flow mark 4. When a change in length occurs in the measurement target portion, the position of the flow gauge 4 is changed and rotated about the rotation axis 6 to display the change amount on the display device via the transmission shaft 7. With the ratio of the length of the flow gauge 4 and the rotational shaft 6 and the length of the rotational arm 6 to the rotational axis 6 and the transmission axis 7 as 1: 1, the value of the scale displayed on the display device 8 is determined by Crack gauge to be equal.

Description

Crack gauges for measuring structure cracks

1 is a front view of a crack gauge of the present invention.

2 is a schematic perspective view of the crack gauge of FIG.

* Description of the symbols for the main parts of the drawings *

1: crack gauge 2: support body

3: fixed surface 4: flow gauge

5: supporting plate 6: rotating shaft

7: moving axis 8: display device

9: handle 10, 11: display plate

Field of invention

The present invention relates to a crack gauge for measuring a crack when a structure or a structural material of a building receives an external force and a crack occurs in the structure. More specifically, the present invention relates to a crack gauge for measuring the progress of cracks when a structure or a structural material of a building is subjected to an external force and the crack occurs.

Background of the Invention

Structures have a life cycle that vanishes through the design, construction, and use phases. During construction or use, the structure is deformed under external force, and the amount of deformation is strongly related to the safety of the structure. In order to confirm the safety of the structure, the safety diagnosis of the structure is carried out, and the deformation amount of the structure crack is a very important factor.

Among the deformation forms of the structure, there are various methods for checking the progress of cracking caused by external force. Most of them stick a piece of paper on the crack or lay a piece of glass on both sides of the crack. As the crack progresses, it is judged by looking at the tearing of the paper or the breaking of the glass according to the progress. To solve this problem, a crack gauge was developed to measure the progress quantitatively.

In the measuring method using this gauge, two display panels with a center hole are attached to both sides of the measurement target portion in advance. Record the scale displayed on the instrument panel by adjusting the gauge and fixed gauge of the gauge in this groove, and measure it again after a certain period of time. The difference between the two scales is the change in the length of the measuring part. The conventional gauge has an arm length of about 8:10 around the axis of rotation of the flow gauge, and if the length change is 8, it is read as 10 on the instrument panel, so it is inconvenient to use the converted value again. In the present invention, the arm length around the rotation axis of the flow gauge is improved so that the actual length change amount and the scale value appearing on the instrument panel are 1: 1.

Claims (3)

A fixed mark 3 on the support body 2, a flow mark 4 on the support body 2, a display device 8 on the support body 2, and the flow mark 4 on the support body 2. The change amount of the flow gauge 4 is determined by the two supporting plates 5, the rotation axis 6 intersecting between the two supporting plates 5 as the rotation axis. In a crack gauge comprising a transmission shaft 7 for transmitting to the display device 8, The ratio of the arm length to the flow gauge 4 and the rotating shaft 6 and the arm length from the rotation shaft 6 to the flow gauge 4 and the transmission shaft 7 is 1: 1. Crack gauge The crack gauge according to claim 1, wherein the display device (8) is a dial gauge. The crack gauge according to claim 1, wherein the display device (8) is a digital gauge.