KR20160131518A - A three-dimensional displacement measuring device having a length displacement measuring - Google Patents

Abstract

The present invention relates to a 3D displacement measuring device for measuring length displacement capable of performing 3D measurement for displacement by installing a plurality of probes which include an inclined sensor in an installation place such as a tunnel, a slope, a front section, etc.; and precisely measuring the displacement by measuring length displacement between the probes through a length displacement measuring unit. The present invention performs precise measurement without influence to other probes when a specific probe is displaced by connecting the probes to a corrugated pipe tube and extending the probes when a length between the probes is displaced. The 3D displacement measuring device for measuring the length displacement easily controls an angle between each of probes; and prevents damage of the probe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a three-dimensional displacement measuring apparatus capable of measuring a length displacement,

The present invention relates to a three-dimensional displacement measuring device capable of measuring a length displacement, and more particularly, to a three-dimensional displacement measuring device in which a plurality of probes having inclined sensors are installed in a tunnel, a slope, The probe can be measured to a length displacement between the probes through the length displacement measuring means to enable precise displacement measurement and a plurality of probes are connected to the corrugated tube to expand and contract when the length of each probe is displaced, The present invention relates to a three-dimensional displacement measuring device capable of more precise measurement without affecting other probes, easy adjustment of the angle between the probes, and measurement of length displacement capable of preventing breakage of the probe.

Generally, measurement in civil engineering works ensures the stability of construction through risk management and forecasting at the construction stage, enables optimal design through feedback of measurement information, induces economical and reasonable construction, After completion, the standard of maintenance and safety management is suggested to ensure the stability of the structure.

In general, a two-dimensional displacement measuring device is used to measure a displacement of a tunnel, a slope, a shear section, etc. For example, a displacement of a two-dimensional section is measured with respect to an inner cavity of a tunnel. Therefore, it is very helpful to judge the danger of the installation place where the two-dimensional displacement measuring device is installed.

However, since the two-dimensional displacement measuring apparatus can measure only the displacement of the two-dimensional section, there is a problem that the displacement measurement is not precise.

In order to solve the above problem, Korean Patent Laid-Open Publication No. 10-2010-0096992 entitled "Three-dimensional displacement measuring apparatus" discloses a three-dimensional displacement measuring apparatus for measuring X, Y and Z three axes through a plurality of probe pipes, A three-dimensional displacement measurement is possible, and a plurality of probe pipes are connected to each other through a unit joint structure so as to be able to move jointly.

However, in the above-mentioned conventional technique, it is possible to measure the three-dimensional displacement through a plurality of probe pipes, but since the displacement displacement can not be measured between the probe pipes, there is a limit in improving the measurement accuracy.

Further, since each of the probe pipes is directly connected through the unit joint structure, it affects other probe pipes around the probe pipe when the specific probe pipe is displaced, so that the accuracy of measurement is lowered, and there is a problem that the probe pipe is broken .

In order to solve the above-described problems, an object of the present invention is to provide a method of measuring three-dimensional displacement by providing a plurality of probes having inclined sensors embedded in a tunnel, a slope, It is possible to measure the displacement between the probes, thereby enabling precise displacement measurement. Moreover, since a plurality of probes are connected to the corrugated tube to expand and contract when the lengths of the respective probes are displaced, Dimensional displacement measuring device capable of measurement of length displacement and easy adjustment of angle between each probe, and also to prevent breakage of the probe.

According to an aspect of the present invention, there is provided a three-dimensional displacement measuring apparatus for measuring a displacement of an installation site, comprising: a plurality of probes spaced apart from each other by a predetermined distance and each having an inclination sensor; And a length displacement measuring unit installed on the plurality of probes and measuring a length displacement between adjacent probes.

In the present invention, a plurality of probes provided with inclination sensors are installed at the installation sites such as a tunnel, a slope, a front section, etc., so that displacements can be measured three-dimensionally as well as length displacement between each probe Precise displacement measurement is possible.

In addition, since a plurality of probes are connected to a corrugated tube to extend and contract when a length of each probe is displaced, even when a specific probe is displaced, there is no influence on other probes, and more precise measurement is possible. It is also possible to prevent breakage.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a state in which a corrugated tube for connecting a plurality of probes is bent at a certain angle in a three-dimensional displacement measuring apparatus capable of measuring a length displacement according to the present invention;
Fig. 2 is a view showing a state in which the corrugated tube of Fig. 1 is straightened,
FIG. 3 is an enlarged view of a portion where a plurality of probes and a corrugated tube are connected in FIG. 2;
4 is a view showing a case where a three-dimensional displacement measuring device capable of measuring a length displacement according to the present invention is installed in a tunnel,
5 is a view showing a case where a three-dimensional displacement measuring device capable of measuring a length displacement according to the present invention is installed on a slope.

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

As shown in the drawing, a three-dimensional displacement measuring apparatus 1 capable of measuring a length displacement according to the present invention comprises a probe 10, a connecting means 30, and a length displacement measuring means 40 A tunnel 61, a slope 62, a front end face or the like, and measures the displacement of the installation place 60. [

Of course, the installation site 60 can be installed on the tunnel 61 or the slope 62, not only on the front end face but also on soft ground or various structures to measure the displacement.

The probes 10 are formed in the shape of a circular pipe and are spaced apart from each other by a predetermined distance, and a tilt sensor 20 is fixedly installed in each of the probes 10.

That is, the plurality of probes 10 are fixed to the installation site 60, and three-dimensional displacements of the X, Y, and Z three axes with respect to the positions where the probes 10 of the installation site 60 are installed .

The inclination sensor 20 is a known product for measuring displacements with respect to the three axes X, Y and Z, and thus a detailed description thereof will be omitted.

Meanwhile, the probe 10 is fixed to the installation site 60 through a separate bracket 50. That is, one side of the bracket 50 is coupled to surround the outer circumference of the probe 10, and the other side is coupled to the installation site 60.

Therefore, when the installation site 60 is displaced, the probes 10 are displaced together to measure the displacement.

The connecting means 30 connects the plurality of probes 10 in the longitudinal direction of the probe 10 at a predetermined distance from each other.

That is, the opposite ends of the probes 10 adjacent to each other in the plurality of probes 10 are connected to the connecting means 30.

The connecting means 30 comprises a corrugated tube 31 for connecting the plurality of probes 10 in a stretchable manner so that the connecting means 30 is stretched when the length of the plurality of probes 10 is displaced.

At this time, a coupler 35 is coupled to the end of the probe 10 connected to the tube 31 so that the tube 31 can be coupled to the tube.

That is, one side of the coupler 35 is inserted and coupled to the end of the probe 10, and the other side is inserted into the tube tube 31 to be coupled.

Since the plurality of probes 10 are elastically connected through the corrugated tube 31, it is easy to install the plurality of probes 10 according to the topography or structure of the installation site 60, Fine angle adjustment between each probe 10 is possible and angle adjustment is also easy.

Since the plurality of probes 10 are connected to the corrugated tube 31 so that the corrugated tube 31 is expanded or contracted when the length of each probe 10 is displaced or when the specific probe 10 is displaced, So that more accurate measurement is possible.

That is, the plurality of probes 10 are fixed to the installation site 60 while being connected to each other through the corrugated tube 31. At this time, if a displacement occurs at the position of the specific probe 10, The position of the probe 10 is displaced to cause a displacement of length between the probe 10 and the neighboring probe 10 and the tube 31 is expanded and contracted by the length displacement so that there is no influence on other probes 10, Measurement can be performed, and breakage of the probe 10 can be prevented.

The length displacement measuring means 40 measures length displacement between the adjacent probes 10 installed on the plurality of probes 10.

The length displacement measuring means 40 is a length measuring sensor 40a for measuring a length displacement between adjacent probes 10 in the plurality of probes 10. [

The length measuring sensor 40a includes a sensor wire 41 having one end fixed to one of the probes 10 adjacent to each other and the other end inserted into the other probe 10 to slide, And a slide variable resistor (42) installed inside the other probe (10) and having a resistance value changed by sliding the other end of the sensor wire (41).

One end of the sensor wire 41 is fixed to a coupler 35 coupled to an end of the one probe 10 and the other end of the sensor wire 41 penetrates a coupler 35 of the other probe 10, 42).

Therefore, the length measurement sensor 40a generates a displacement between the probes 10 when the probe 10 is displaced. At this time, the length of the probes 10 is changed through the changed resistance value of the slide variable resistor 42, 10) is measured.

A substrate (not shown) on which the inclination sensor 20 and the length measurement sensor 40a are installed is fixedly installed in the probe 10.

The inclination sensor 20 provided inside each of the probes 10 is connected to each other by a sensor cable 25 passing through the inside of the tube tube 31.

At this time, it is preferable that the sensor cable 25 is constructed so that the length of the sensor cable 25 can be expanded or contracted when the tube 31 is expanded or contracted. For example, the length of the sensor cable 25 may be longer than the maximum stretchable length of the corrugated tube 31, or the sensor cable 25 may be configured to have a sliding structure.

The sensor wire 41 of the length measuring sensor 40a is installed so as to pass through the inside of the corrugated tube 31. [ That is, the sensor wire 41 passes through the inside of the corrugated tube 31, one end is fixed to the one probe 10, and the other end is inserted into the other probe 10 to slide.

A value measured through the inclination sensor 20 of the plurality of probes 10 and a value measured through the length measurement sensor 40a are transmitted to the data logger 70 through the sensor cable 25. [

The data logger 70 stores the collected measurement values in a memory and simultaneously transmits the measured values to a server to analyze and measure the displacement of each probe 10.

4 and 5 illustrate the data logger 70 as an example, and the installation location and location of the data logger 70 can be variously changed.

In the above description, the plurality of the inclination sensors 20 of the probes 10 are connected by the sensor cable 25, but they may be wirelessly connected.

The three-dimensional displacement measuring device 1 capable of measuring the length displacement described above is fixedly installed on the inner side of the tunnel 61 through the bracket 50 when installed in the tunnel 61 as shown in FIG. 4, The plurality of probes 10 are installed to be bent at a predetermined angle with each other through the corrugated tube 31.

5, the plurality of probes 10 are installed in a straight line.

Hereinafter, the operation of the three-dimensional displacement measuring apparatus 1 capable of measuring the length displacement according to the present invention will be described.

The three-dimensional displacement measuring device 1 capable of measuring the length displacement can be installed not only in the tunnel 61 and the slope 62, but also in the soft ground or various structures, As shown in FIG.

The plurality of probes 10 are connected through the corrugated tube 31 in a stretchable manner and the probe 10 is connected to the corrugated tube 31 through the corrugated tube 31 according to the size of the inner space of the tunnel 61. The number is determined. Of course, the inclination sensor 20 and the length measurement sensor 40a are installed in the probe 10.

The brackets 50 are installed at the inner side of the tunnel 61 so that the brackets 50 are spaced apart from each other by a predetermined distance according to the number of the probes 10.

After the bracket 50 is installed, a plurality of probes 10 are coupled to the bracket 50.

At this time, the plurality of probes 10 are installed while being bent at certain angles along the inside of the tunnel 61, and the angle of each probe 10 can be easily adjusted by the corrugated tube 31.

When a plurality of probes 10 are installed in the inside of the tunnel 61 as described above, the displacements of the X, Y, and Z axes are measured through the inclination sensor 20 provided on the probe 10, The length measurement sensor 40a measures the length displacement between the probes 10. The measured value is transmitted to the server via the data logger 70 to manage the displacement of the inside of the tunnel 61, After the completion of construction, stability is secured.

1: Three-dimensional displacement measuring device capable of measuring length displacement
10: Probe 20: Tilt sensor
25: sensor cable 30: connecting means
31: corrugated tube 35: coupler
40: length displacement measuring means 40a: length measuring sensor
41: sensor wire 42: slide variable resistor
50: Bracket 60: Installation place
70: Data logger

Claims (4)

A three-dimensional displacement measuring device for measuring a displacement of an installation site (60)
A plurality of probes 10 spaced apart from each other by a predetermined distance and each having an inclination sensor 20 installed therein,
A connecting means 30 for connecting the plurality of probes 10,
And a length displacement measuring means (40) installed on the plurality of probes (10) and measuring a length displacement between adjacent probes (10). The method according to claim 1,
The connecting means (30)
And a wrinkle tube (31) that connects the plurality of probes (10) in a stretchable manner, and is stretchable or contractible when the length of the plurality of probes (10) is displaced. The method according to claim 1,
The length displacement measuring means (40)
One end of which is fixed to one of the probes 10 adjacent to each other and the other end of which is inserted into the inside of the other probe 10 to slide and a sensor wire 41 which is installed inside the other probe 10 Wherein the sensor is a length measuring sensor (40a) composed of a slide variable resistor (42) whose resistance value is changed by sliding the other end of the sensor wire (41). 3. The method of claim 2,
The length displacement measuring means (40)
One end of which is fixed to one of the probes 10 adjacent to each other and the other end of which is inserted into the inside of the other probe 10 to slide and a sensor wire 41 which is installed inside the other probe 10 And a length variable sensor (40a) composed of a slide variable resistor (42) whose resistance value is changed by sliding the other end of the sensor wire (41)
The inclination sensors 20 installed inside the respective probes 10 are connected to each other by a sensor cable 25 passing through the inside of the corrugated tube 31,
Wherein the sensor wire (41) is installed to pass through the inside of the corrugated pipe (31).

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