KR101563982B1 - Measuring apparatus for strain and measuring method for wall structure using the same - Google Patents

Abstract

The present invention relates to a displacement measuring device(100) installed in the y axis direction of a mother object. Provided is the displacement measuring device which comprises: an x axis sensor(200) installed in a z axis hinge part(101) with a z axis direction as a rotation axis to measure displacement of an x axis direction; and a z axis sensor(300) installed in an x axis hinge part(102) with the x axis direction as a rotation axis to measure displacement of the z axis direction wherein the x axis sensor(200) is a non-contact magnetic sensor(a), thereby measuring displacement of a direction irrespective of the direction of gravity to stably use a structure.

Description

TECHNICAL FIELD [0001] The present invention relates to a displacement measuring apparatus and a method of measuring a displacement of a wall structure using the displacement measuring apparatus.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction measurement field, and more particularly, to a displacement measurement apparatus and a displacement measurement method of a wall structure using the same.

1 shows a state in which a displacement measuring apparatus 1 is installed in a conventional wall structure (retaining wall) 10.

The displacement measuring apparatus 1 of the conventional structure is equipped with a gravity tilt sensor inside and measures the displacement generated by the tilt sensor when gravity direction displacement such as uneven settlement of the structure occurs.

However, such a conventional measuring apparatus is merely equipped with a gravity tilt sensor, and since such a gravity tilt sensor can measure only the displacement in the gravity direction, a displacement irrespective of gravity direction (for example, There is a problem in that it can not be measured when the displacement of the x-direction, the displacement of the x-direction, and the like.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a displacement measuring apparatus and a displacement measuring method for a wall structure using the displacement measuring apparatus capable of stably using a structure by measuring a displacement in a direction independent of gravity direction The purpose of the presentation is to do so.

In order to solve the above problems, the present invention provides a displacement measuring apparatus (100) installed along a y-axis direction of a mother body, comprising a z-axis hinge portion (101) An x-axis sensor 200 installed in the main body 200; and a z-axis sensor (300) provided on an x-axis hinge portion (102) having a rotation axis in the x-axis direction so as to measure displacement in the z-axis direction, The displacement measuring apparatus 100 according to the second embodiment of the present invention will now be described.

The z-axis sensor 300 is preferably a non-contact magnetic sensor (a).

The z-axis sensor 300 is preferably a gravity tilt sensor b.

The z-axis hinge portion 101 and the x-axis hinge portion 102 are preferably formed in a universal joint structure.

Wherein the z-axis hinge portion 101 is formed between the one member 110 and the intermediate member 120, and the x-axis hinge portion 101 is formed between the one member 110 and the intermediate member 120, The axis sensor 200 is installed to measure an angle change between the one member 110 and the intermediate member 120 and the x axis hinge portion 102 is disposed between the intermediate member 120 and the other member 130 And the z-axis sensor 300 is installed to measure an angle change of the intermediate member 120 and the other member 130. [

Wherein the non-contact magnetic sensor (a) includes a magnet portion a1 and a sensing portion a2, the magnet portion a1 is mounted on the one member 110, And is preferably mounted on the intermediate member 120.

The non-contact magnetic sensor (a) includes a magnet portion a1 and a sensing portion a2. The magnet portion a1 is mounted on the intermediate member 120, It is preferable that it is mounted on the one member 110.

According to the present invention, there is provided a displacement measuring apparatus (100) comprising: installing the displacement measuring apparatus (100) along a longitudinal direction of a wall structure (10); Measuring a displacement of the wall structure (10) by the x-axis sensor (200); And measuring the displacement of the wall structure (10) by the z-axis sensor (300).

According to the present invention, the displacement measuring apparatus (100) is installed along the longitudinal direction of the dam structure. Measuring a displacement of the dam structure by the x-axis sensor (200); And measuring the displacement displacement of the dam structure by the z-axis sensor 300. The displacement measurement method of the dam structure according to the present invention will now be described with reference to the drawings.

The present invention provides a displacement measuring apparatus capable of stably using a structure by measuring a displacement in a direction not related to the direction of gravity, and a method of measuring a displacement of a wall structure using the displacement measuring apparatus.

1 is a configuration diagram of a conventional displacement measuring method.
2 shows an embodiment of the present invention,
2 is a configuration diagram of an embodiment of a displacement measurement method;
3 is a perspective view of a first embodiment of a displacement measuring apparatus.
4 is a perspective view of a second embodiment of a displacement measuring apparatus.
5 is a configuration diagram of a non-contact type magnetic sensor.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2, the present invention basically relates to a displacement measuring apparatus 100 installed along a y-axis direction (longitudinal direction of a wall structure 10) of a matrix body, Axis sensor (200) provided on a z-axis hinge portion (101) having a rotation axis in the z-axis direction so as to measure a wobble displacement; and a z-axis sensor (300) provided on an x-axis hinge portion (102) having a rotation axis in the x-axis direction so as to measure displacement in the z-axis direction (settlement displacement) (a).

Here, the x-axis direction refers to the front-back direction of the wall structure, the y-axis direction refers to the lateral direction (longitudinal direction) of the wall structure, and the z-axis direction refers to the vertical direction (gravity direction) of the wall structure.

The non-contact type magnetic sensor a is also called a non-contact type magnetic rotation angle sensor and includes a magnet portion a1 and a sensing portion a2. The magnet portion a1 or the sensing portion a2 are driven to rotate relative to each other , The sensing unit a2 measures the displacement in such a manner that the displacement (rotation angle) is measured.

Since the non-contact type magnetic sensor (a) can measure the displacement irrespective of the gravity, it is possible to measure the displacement (x-direction displacement in FIG. 2) of the wall structure which can not be measured by the conventional gravity tilt sensor (b) can do.

The displacement measuring apparatus 100 according to the present invention utilizes such a non-contact magnetic sensor (a), and the displacement measuring apparatus 100 having a long rod-like structure is placed in the y-axis direction (the longitudinal direction of the wall structure 10) Axis sensor 200 by a non-contact type magnetic sensor a is installed on a z-axis hinge portion 101 having a z-axis direction (up-and-down direction) as a rotation axis to detect displacement (displacement displacement) in the x-axis direction, Contact type magnetic sensor (a) or the gravity type tilt sensor (b) to the x-axis hinge portion 102, which is a rotation axis of the x-axis direction (forward and backward direction) Axis direction, and the z-axis sensor 300 is provided to measure the displacement (displacement displacement) in the z-axis direction.

Therefore, it is possible to measure the displacement in a direction irrelevant to the direction of gravity, which can not be measured in the prior art, thereby making it possible to stably use the structure.

The non-contact type magnetic sensor (a) must be used as the x-axis sensor 200 for measuring the displacement irrespective of the gravity direction. The z-axis sensor 300 for measuring the displacement in the gravity direction includes a non- The tilt sensor (b) can be used.

The z-axis hinge portion 101 on which the x-axis sensor 200 is installed and the x-axis hinge portion 102 on which the z-axis sensor 300 is installed are formed in directions orthogonal to each other. In the case of using the non-contact type magnetic sensor (a) as in the case of the shaft sensor 200, since a desired measurement value can be obtained even if it is installed irrespective of such a direction, installation is simple and a constant measurement value is obtained (Fig. 3).

In the case where the z-axis hinge portion 101 and the x-axis hinge portion 102 are formed in a universal joint structure (when both hinge portions are formed adjacent to one point), the magnet portions a1 May interfere with each other with respect to the sensing portion a2, which is disadvantageous in that it is difficult to apply such a structure.

In contrast, when the gravity tilt sensor b is used as the z-axis sensor 300, it is inconvenient that the displacement measuring device 100 must be installed so as to have a certain directionality. However, The z-axis hinge portion 101 and the x-axis hinge portion 102 are formed in a universal joint structure, thereby obtaining a compact structure (FIG. 4).

More specifically, when the displacement measuring apparatus 100 according to the present invention takes an elongated bar-shaped structure, the one-side member 110, the intermediate member 120, and the other member 130 are provided. Axis sensor 200 is provided between the member 110 and the intermediate member 120. The x-axis sensor 200 is installed to measure an angle change between the one member 110 and the intermediate member 120, Axis sensor 300 is formed between the intermediate member 120 and the other member 130 and the z-axis sensor 300 is installed to measure an angle change between the intermediate member 120 and the other member 130.

As described above, the non-contact magnetic sensor a includes the magnet portion a1 and the sensing portion a2. The magnet portion a1 is mounted on the one member 110, and the sensing portion a2 The magnet member a1 may be mounted on the intermediate member 120 and the sensing member a2 may be mounted on the one member 110. In this case,

A plurality of structures of the hinge portions 101 and 102 and the sensors a and b described above are installed at a distance from each other to the displacement measuring apparatus 100 and the displacement measuring apparatus 100 is embedded in the longitudinal direction of the wall structure The displacement of many points of the wall structure can be stably measured.

The displacement measurement method of the wall structure using the displacement measurement apparatus 100 according to the present invention is as follows.

The displacement measuring apparatus 100 is installed along the longitudinal direction of the wall structure 10.

The displacement displacement of the wall structure 10 is measured by the x-axis sensor 200 and the displacement displacement of the wall structure 10 is measured by the z-axis sensor 300.

In the above description, the displacement measuring apparatus 100 according to the present invention is used to measure the displacement displacement and the settlement displacement of the wall structure. However, in addition to the above, the dam structure and the like Can be effectively applied.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: wall structure 100: displacement measuring device
101: z-axis hinge portion 102: x-axis hinge portion
110: one member 120: intermediate member
130: other member 200: x-axis sensor
300: z-axis sensor a: Non-contact magnetic sensor
a1: magnet part a2: sensing part
b: Gravity type tilt sensor

Claims (9)

A displacement measuring apparatus (100) installed along a y-axis direction of a matrix,
an x-axis sensor (200) provided on a z-axis hinge portion (101) having a rotation axis in the z-axis direction so as to measure displacement in the x-axis direction;
a z-axis sensor (300) provided on an x-axis hinge portion (102) having a rotation axis in the x-axis direction so as to measure displacement in the z-axis direction;
A first member 110, an intermediate member 120, and a second member 130,
The x-axis sensor 200 is a non-contact magnetic sensor (a)
The z-axis hinge portion 101 is formed between the one member 110 and the intermediate member 120,
The x-axis sensor 200 is installed to measure an angle change between the one member 110 and the intermediate member 120,
The x-axis hinge portion 102 is formed between the intermediate member 120 and the other member 130,
Wherein the z-axis sensor (300) is installed to measure an angle change between the intermediate member (120) and the other member (130). The method according to claim 1,
Wherein the z-axis sensor (300) is a non-contact magnetic sensor (a). The method according to claim 1,
Wherein the z-axis sensor (300) is a gravity tilt sensor (b). The method of claim 3,
Wherein the z-axis hinge portion (101) and the x-axis hinge portion (102) are formed in a universal joint structure. delete The method according to claim 1,
The non-contact magnetic sensor (a) includes a magnet portion (a1) and a sensing portion (a2)
Wherein the magnet unit a1 is mounted on the first member 110 and the sensing unit a2 is mounted on the intermediate member 120. [ The method according to claim 1,
The non-contact magnetic sensor (a) includes a magnet portion (a1) and a sensing portion (a2)
Wherein the magnet unit a1 is mounted on the intermediate member 120 and the sensing unit a2 is mounted on the one member 110. [ A displacement measuring apparatus (100) according to any one of claims 1 to 4, 6, or 7 installed along a longitudinal direction of a wall structure (10);
Measuring a displacement of the wall structure (10) by the x-axis sensor (200);
Measuring a settlement displacement of the wall structure (10) by the z-axis sensor (300);
And measuring the displacement of the wall structure. A displacement measuring apparatus (100) according to any one of claims 1 to 4, 6 or 7, along a longitudinal direction of a dam structure;
Measuring a displacement of the dam structure by the x-axis sensor (200);
Measuring a settlement displacement of the dam structure by the z-axis sensor 300;
And the displacement of the dam structure is measured.

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