KR20090130660A - Removal type measuring insturment and measuring method using the same - Google Patents

Abstract

PURPOSE: An eliminating measurement device and a measuring method using the same are provided to measure an excavation area and to secure reliability of the measured data. CONSTITUTION: An eliminating measurement device comprises a main body(100), a sensor(200), and a circuit part(300). The main body is cut in the longitudinal direction. The sensor is installed in the main body in the longitudinal direction at least one. The circuit part is installed in the rear side of the main body. The circuit part transmits a signal of the sensor to a central processing part(400). The main body is buried in the ground and made of a synthetic resin material with elasticity and restitution force.

Description

REMOVAL TYPE MEASURING INSTURMENT AND MEASURING METHOD USING THE SAME}

The present invention relates to the field of civil engineering, and more particularly, to a sensor for measuring the behavior of the ground, such as a tunnel, and a measuring method using the same.

When the ground is drilled in the horizontal or vertical direction, the surrounding ground is affected. For the safety of the inner region of the drilling, it is necessary to periodically measure the behavior of the surrounding ground.

In particular, in the case of tunnel construction by excavating a rock layer, the drilling method by blasting is mainly used, which greatly affects the surrounding ground, so the necessity of measuring the behavior is further increased.

1 and 2 are configuration diagrams for explaining a measurement method used in conventional tunnel excavation.

As shown in the figure, when excavating a tunnel by blasting in the direction of the arrow, the sensor 2 is inclinedly mounted on the upper part of the excavation region 1, and the ground behavior before and after blasting is measured.

By the way, since the site most affected by the blasting is the residual excavation area 1 after blasting, it is necessary to measure the area directly, but conventionally the upper part of the excavation area 1 is indirectly measured. This method has been pointed out as a problem due to the lack of reliability of measured data.

The present invention was derived to solve the above problems, and to provide a removable measuring device and a measuring method using the same to directly ensure the reliability of the measured data by measuring the excavation area directly do.

The present invention to solve the above problems, the main body 100 that can be cut in the longitudinal direction; A plurality of sensors 200 installed in the main body 100 along at least a length direction; The removable measuring device (A) is installed at the rear of the main body 100 and includes a circuit unit 300 for transmitting the signals of the sensors 200 to the central processing unit 400, respectively.

The main body 100 is preferably formed of a synthetic resin material having elasticity and restoring force so as to be buried in the ground and integrally behave.

In the main body 100, it is preferable that the cutting portions 102 are formed at predetermined intervals along the longitudinal direction so that cutting is easier than other portions.

The main body 100 is preferably formed with a through hole 104 in which the cable 310 of the circuit unit 300 is wired along the longitudinal direction.

Each of the sensors 200 is preferably an electric resistance strain gage for sensing by a change in electric resistance.

Two or more sensors 200 installed at the same point in the longitudinal direction of the main body 100 and arranged along the circumferential direction of the main body 100 to form a set; Preferably, a plurality of sets of sensors 200 are installed along the longitudinal direction of the main body 100.

It is preferable to further include a protective cap 150 coupled to the rear portion of the main body 100 to protect the circuit portion 300.

Preferably, the circuit unit 300 and the central processing unit 400 are configured to communicate wirelessly with each other.

The circuit unit 300 preferably includes an integrated circuit timer (IC timer) to sequentially receive and transmit signals with a time difference from the sensors 200.

The circuit unit 300 preferably includes a battery for powering itself.

As another means for achieving the above object, the present invention comprises the steps of: embedding the removable measuring device (A) in the excavation area (1) of the underground; Excavating the excavation region (1) in the longitudinal direction in which the removable measuring device (A) is embedded to remove the ground and a part of the removable measuring device (A); It provides a measurement method using a removable measuring device (A) comprising a; measuring the behavior of the ground by the removable measuring device (A) remaining in the ground.

The present invention directly measures the excavation area to ensure sufficient reliability of the measured data.

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

As shown in Figures 3 to 6, the removable measuring device (A) according to the present invention, the main body 100 that can be cut in the longitudinal direction; A plurality of sensors 200 installed in the body 100 along at least the longitudinal direction; It is installed on the rear of the main body 100 is characterized in that it comprises a circuit unit 300 for transmitting the signals of the sensors 200 to the external central processing unit 400, respectively.

This removable measuring device (A) can be applied to the following measuring method.

The removable measuring device A is embedded in the excavation area 1 in the ground (Fig. 3).

The excavation area 1 is excavated in the longitudinal direction in which the removable measuring device A is embedded by blasting or the like, and after removing part of the ground and the removable measuring device A, the remaining measuring device A is removed. The behavior of the residual ground is measured by the sensors 200 (FIG. 4).

That is, according to the conventional method, since the excavation area 1 was not directly measured, the reliability of the measurement data could not be secured. However, the removable measuring device and the measuring method using the same according to the present invention, by embedding the removable measuring device (A) in the ground as described above to the measurement result of the removable measuring device (A) in the external central processing unit (400). By receiving and processing, since deformation and behavior in the ground or structure can be measured directly and in real time conveniently and accurately, the reliability of the measured data can be obtained.

EMBODIMENT OF THE INVENTION Hereinafter, the specific Example regarding the structure of the removal type measuring apparatus A by this invention is described.

The main body 100 is preferably formed of a synthetic resin material having elasticity and restoring force so that the main body 100 is buried in the ground and behaves integrally. For reference, an example of a synthetic resin material is a smart AL pipe.

As described above, the main body 100 is partially removed along with the ground when blasting the excavation area 1. In order to more efficiently remove the main body 100, a predetermined interval along the length direction is easy to cut compared to other parts. It is preferable that the cutout 102 be formed. The cutout 102 may be achieved by forming a ring-shaped groove in the main body 100 or forming a plurality of grooves along the circumferential direction of the main body 100 as in the present embodiment. In addition, the cutting unit 102 may be implemented in various ways, such as a portion of the main body 100 is cut in advance.

The main body 100 has a through hole 104 through which the cable 310 of the circuit unit 300 is wired along the longitudinal direction, thereby protecting the cable 310 of the circuit unit 300 from impact and the like. The cable 310 of 300 may have an advantage of being prevented from being tangled. The cable 310 of the circuit unit 300 uses a sensor cable 312 connected to each sensor 200 to receive the signals of the respective sensors 200, or a signal of each sensor 200 to the central processing unit 400. Communication cable 314 for transmitting the same.

A protective cap 150 may be coupled to the rear portion of the main body 100 to protect the circuit unit 300 from external shocks and foreign substances. The protective cap 150 may be coupled to the main body 100 by a fastening member 152 such as a bolt so that the maintenance and repair of the circuit unit 300 may be performed.

Sensors 200 may be configured as long as they can sense the behavior of the ground, but can measure the behavior of the ground more precisely, as described above, so there is no burden of cost, so the change in electrical resistance It is preferable to be composed of an electric resistance strain gage (Electric Resistance Strain gage) for sensing by. That is, when the ground state changes, the resistance value of the electric resistance strain gauge changes, and a signal according to the changed resistance value is transmitted to the circuit unit 300.

Sensors 200 as described above are preferably installed as follows to more accurately measure the behavior of the ground. That is, two or more sensors 200 installed at the same point in the longitudinal direction of the main body 100 and arranged along the circumferential direction of the main body 100 form a set. And, it is preferable that a plurality of sets of sensors 200 are installed along the longitudinal direction of the main body 100. At this time, even if the removable measuring device (A) of the present invention is partially removed in the longitudinal direction, the remaining sensors 200 should be able to sense normally, so each set should be connected to the circuit unit 300 independently without being connected to each other. However, the sensors 200 in the same set may be connected to the circuit unit 300 independently without being associated with each other, but may be connected with the circuit unit 300 because they are removed together.

The circuit unit 300 and the central processing unit 400 are preferably configured to wirelessly communicate with each other so as not to be disturbed by an external shock such as blasting. That is, the circuit unit 300 includes an RF wireless transmitter 320 for wirelessly transmitting signals of the sensors 200, and the central processing unit 400 communicates with the RF wireless transmitter 320. It may include.

When the circuit unit 300 receives signals from the sensors 200 at the same time, problems such as disturbances may occur, and the time difference from the remaining sensors 200 is not removed to distinguish the signals of the sensors 200. An IC timer 330 may be included to sequentially receive and transmit a signal.

The circuit unit 300 stores and stores signals input from the sensors 200 and transmits the signals input from the sensors 200 to the central processing unit 400 by a call of the central processing unit 400. It is preferable to include an interrogator 340.

The circuit unit 300 requires an operation and an apparatus for wiring a power supply line, and when the power is supplied from the outside, the power supply line may be damaged by an external shock such as blasting, so that the battery can be supplied with its own power supply. 350).

On the other hand, the signal transmitted from the removal measuring device A to the central processing unit 400 is stored and stored in the data logger 420 of the central processing unit 400.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1,2 is a block diagram for explaining a conventional measuring method.

3 or less shows an embodiment of the present invention,

3 and 4 are configuration diagrams for explaining the measurement method according to the present invention.

5 is a block diagram of a removable measuring device according to the present invention.

6 is a perspective view of the removable measuring device according to the present invention.

<Explanation of symbols on main parts of the drawings>

A; Removable measuring device 100; main body

102; Cut 104; Through hole

200; Sensor 300; Circuit

312; Sensor cable 314; Communication cable

320; RF wireless transmitter 330; Integrated circuit timer

340; Caller 350; battery

400; Central processing unit 410; RF draw machine

420; Data logger

Claims (11)

Body 100 that can be cut in the longitudinal direction; A plurality of sensors 200 installed in the main body 100 along at least a length direction; Removable measuring device (A), characterized in that it comprises a circuit unit (300) which is installed at the rear of the main body (100) for transmitting the signals of the sensors (200) to the central processing unit (400), respectively. The method of claim 1, The main body 100 is embedded in the ground to remove the measuring device (A), characterized in that formed by a synthetic resin material having elasticity and restoring force to be integrally behaving. The method of claim 1, Removable measuring device (A) characterized in that the main body 100, the cutting portion 102 is formed at predetermined intervals along the longitudinal direction, so that the cutting is easier than the other parts. The method of claim 1, Removable measuring device (A) characterized in that the main body 100 is formed with a through hole 104 in which the cable 310 of the circuit unit 300 is wired along the longitudinal direction. The method of claim 1, Removable measuring device (A), characterized in that each of the sensors 200, an electric resistance strain gage (Electric Resistance Strain gage) for sensing by a change in electrical resistance. The method of claim 1, Two or more sensors 200 installed at the same point in the longitudinal direction of the main body 100 and arranged along the circumferential direction of the main body 100 to form a set; Removable measuring device (A), characterized in that a plurality of sets of sensors 200 are installed along the longitudinal direction of the main body (100). The method of claim 1, Removable measuring device (A) characterized in that it further comprises a protective cap (150) coupled to the rear portion of the main body (100) to protect the circuit portion (300). The method of claim 1, Removable measuring device (A), characterized in that the circuit portion 300 and the central processing unit 400 is configured to enable wireless communication with each other. The method of claim 1, The circuit unit 300 includes an integrated circuit timer (IC timer), so as to sequentially receive a signal from the sensor (200) with a time difference and transmit it. The method of claim 1, Removable measuring device (A), characterized in that the circuit portion 300 includes a battery for supplying its own power. Embedding the removable measuring device (A) of any one of claims 1 to 10 in the excavation area (1) in the ground; Excavating the excavation region (1) in the longitudinal direction in which the removable measuring device (A) is embedded to remove the ground and a part of the removable measuring device (A); Measuring the behavior of the ground by the removable measuring device (A) remaining in the ground; Measuring method using a removable measuring device (A) containing.

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