KR20110010266A - A system for sense the displacement of tunnel - Google Patents

Abstract

PURPOSE: A system for sensing the displacement of a tunnel is provided to enable the accurate measurement of stress change according to the displacement of a tunnel. CONSTITUTION: A system for sensing the displacement of a tunnel comprises a transmission unit(300), a sensor block(200), and a load transmission member(100). The transmission unit comprises an A/D converter, an amplifier, and a microcomputer. The transmission unit is installed inside the sensor block. The sensor block is classified into an upper block(210) and a lower block(230) and is installed. The sensor block is varied in case of the application of external force.

Description

System for sense the displacement of tunnel

According to the present invention, when a load is applied to a load transmission member fixed to a tunnel, the pressure is applied to the sensor of the lower block or the upper block moved about the upper block or the lower block to measure the pressure acting in the tunnel. It is related with a displacement detection system of a tunnel which can accurately measure the change of stress according to the displacement of the tunnel.

In general, in the excavation of tunnels or other large civil engineering sites, the ground and rock composition and soil conditions are different for each of the terrain where the work is to be constructed. The construction and behavior of the structure is accurately investigated in advance and based on this, the design and construction plan of civil engineering work is planned, and the accuracy of the measuring instrument used has a significant effect on civil engineering work.

In connection with this technique, a vibration expression displacement meter is disclosed in Korean Patent No. 529840, and its configuration is as shown in FIG. 1, and the outer wall surface of a civil engineering or building structure at the end of the displacement rod 30 and the outer surface of the housing 10. A housing holder 15 and a displacement rod holder 35, which can be fixedly installed on the housing holder, respectively, and the housing holder 15 and the displacement rod holder 35 are fixed to both sides of the building or civil engineering structure cracking. It can also be used directly as a crack meter.

In the present invention described above, since the force according to the change of the external environment is transmitted to the vibrating string 50 through the displacement rod 30, the direct shock is not transmitted to the vibrating string 50 as it is. The force is absorbed in the coil spring 60, and a substantial amount of the displacement distance of the displacement rod 30 is absorbed in the coil spring 60 is made of a configuration that transmits the remaining displacement amount to the vibrating string (50).

At this time, the coil spring 60 is coupled to the guide ram 20 to which the vibrating string 50 is coupled, and then connected to the displacement rod 30 connected to the outside of the housing 10 to be applied to the displacement rod 30. External force is transmitted to the vibrating string 50 through the coil spring 60 is installed to measure.

However, the displacement meter as described above has a problem in that the structure for connecting each displacement meter is installed in a complicated structure, and the storage of the displacement meter becomes difficult, as well as a risk of loss.

In addition, it is difficult to measure by one sensor when mounted in a tunnel has a disadvantage that a plurality of sensors must be installed continuously.

In addition, there is a problem such as bringing a bad sensing by vibration, etc. when installed in the tunnel.

An object of the present invention for improving the conventional problems as described above, it is possible to accurately measure the change in stress according to the displacement of the tunnel, to easily know the location of the stress action, and to signal as one communication cable It is to provide a displacement detection system of the tunnel to be easily installed and dismantled in a configuration that is fixed to each of the sensor block is inserted into the load transmission member while transmitting, and easily installed in the desired position.

In order to achieve the above object, the present invention provides a transmission unit having an A / D converter, an amplifier and a microcomputer inside the sensor block.

The sensor block is divided into an upper block and a lower block and is installed to be variable so that an external force is applied, and both ends thereof are connected to an arc-shaped load transmitting member fixed to a tunnel.

When the load is applied to the load transmitting member, the displacement of the tunnel configured to measure the pressure acting in the tunnel by pressing the sensor provided in the lower block or the upper block whose pressure moves about the upper block or the lower block. Provide a detection system.

On the other hand, the load transfer member of the present invention consists of a configuration in which the sensor block connected to one end thereof is connected to the connection member connected as a joint member, the sensor block is provided with any one of the upper block or the lower block height adjustment means. Is configured to, at least one of the upper block or the lower block protruding the fixing bar for operating the sensor, the height adjustment means provides a displacement detection system of the tunnel consisting of a nut and bolt and the nut to determine the position do.

In addition, the joint member of the present invention, the end of the connecting member is connected to each other as a hinge on the inner side of the casing is provided with a flow groove is made of a configuration that the sub-sensor is mounted on one side of the connecting member, the sensor and the sub The sensor provides a tunnel displacement detection system selected from pressure sensors and strain gauge resistance sensors.

As described above, according to the present invention, it is possible to accurately measure the change in stress according to the displacement of the tunnel, to easily grasp the position of the stress, and to insert the sensor block into the load transmitting member while transmitting the signal as one communication cable, respectively. The configuration is easy to install and dismantle, and it is effective to easily install the sensor in the desired position.

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

Figure 2 is a mounting state diagram of the tunnel displacement detection system of the present invention, Figure 3a, b is a cross-sectional view showing a sensor block mounted to the displacement detection system of the tunnel according to the embodiment of the sensor according to the present invention, Figure 4 Figure 5a, b is a perspective view and a cross-sectional view showing a joint member mounted to the tunnel displacement detection system according to another embodiment of the present invention, respectively.

The present invention, while the transmission unit 300 consisting of the A / D converter and the amplifier and the microcomputer inside the sensor block 200 is provided inside the sensor block 200 is an anchor pin 110 in the tunnel (T) Through the tunnel is connected to the end of the load transfer member 100 is fixed to have a shape corresponding to the arc.

At this time, the sensor block 200 is divided into the upper block 210 and the lower block 230 is installed to be variable when the action of the external force.

In addition, the load is applied to the load transfer member 100 coupled thereto when the tunnel T is deformed, and the pressure transmitted to the load transfer member 100 is moved to the other side of the upper block or the lower block. By pressing the sensor 305 provided inside the sensor block 200 by the operation of the block or the upper block is installed to measure the pressure acting in the tunnel.

On the other hand, the load transfer member 100, the connection member 510 is connected to each end as a joint member 500 to the end of the sensor block 200 is connected to one end thereof.

And, the sensor block 200, either the upper block 210 or the lower block 230 is a configuration having a height adjusting means, the height adjusting means, the nut portion 235a and the bolt portion 230a And the nut 233 to determine its position.

In addition, a fixing bar 215 for operating the sensor 305 protrudes on at least one of the upper block and the lower block.

In addition, the joint member 500, the end of the connecting member 510 which is installed as a hinge 555 in the inner side of the casing 550 is provided with a flow groove 515 is connected to each other, the connection One side of the member is composed of a configuration in which the sub-sensor 307 is mounted, the sensor and the sub-sensor is selected from the pressure sensor and the strain gauge type resistance sensor.

Subsequently, the microcomputer installed inside the sensor block 200 is installed to give a unique IP to a signal detected by each sensor, and the sensor block 200 has a configuration in which a communication cable 400 is connected. Lose.

The operation of the present invention having the above configuration will be described.

As shown in FIGS. 2 to 5, in the present invention, a transmission unit 300 including an A / D converter, an amplifier, and a microcomputer is provided inside the sensor block 200 so that the sensor 305 of the sensor block 200 is provided. After converting the pressure signal sensed in the digital signal, amplify it through the amplifier, and sends out the unique IP from the microcomputer.

In addition, when the deformation acts on the tunnel T, the load transfer members 100 integrally fixed to the tunnel T through the anchor pin 110 are simultaneously moved, and the load transfer member 100 is moved. The ceiling part and the wall part are separated and connected to the sensor block 200 so that the pressure of the load transmitting member 100 is transmitted to the sensor block 200.

That is, the load transfer member 100 fixed to the ceiling portion of the tunnel T and the load transfer member 100 fixed to the wall are connected to the sensor block 200 which is variable in a state in which they are separated from each other, thereby transferring the load on the wall surface. When the load transfer member 100 of the ceiling about the member is changed by an external force, the change amount can be known by the sensor block 200.

In this case, the sensor block 200 is divided into the upper block 210 and the lower block 230 is installed so as to be variable during the action of the external force while the pressure as a sensor 305 to operate when the variable of the upper block or lower block. Will be measured.

That is, the load is applied to the load transfer member 100 fixed thereto when the tunnel T is deformed, and the pressure transmitted to the load transfer member 100 is moved to the other side of the upper block or the lower block. By pressing the sensor 305 provided inside the sensor block 200 by the operation of the block or the upper block to measure the pressure acting in the tunnel.

On the other hand, the load transfer member 100, the connection member 510 is connected to each end as a joint member 500 to the end of the sensor block 200 is connected to one end is coupled to the load transfer member of the multi-stage throughout the tunnel You can connect.

That is, the plurality of load transfer members 100 divided according to the arc drawn by the tunnel are connected as the joint members 500 to selectively grasp the external force acting at each position of the tunnel.

In addition, the joint member 500, the end of the connecting member 510 which is installed as a hinge 555 in the inner side of the casing 550 is provided with a flow groove 515 is connected to each other, the connecting member One side of the sub-sensor 307 is equipped with a configuration when the external force is applied to each load transfer member 100 connected through the connecting member is bent through the hinge while the connecting member is bent accurately the load transfer member acting external force You will know.

In this case, pressure is applied to the sub sensor 307 connected to one side of the connection member 510, and is directly connected to the load transfer member 100 acting on the pressure and external force acting on the sub sensor 307. By summing the pressure acting on the sensor block 200, the overall pressure can be measured.

In addition, the sensor block 200, the upper block 210 or the lower block 230 is a configuration having a height adjusting means when the bolt portion is rotated, its height is adjusted according to the distance between the load transfer member The sensor block 200 can be easily inserted and fixed.

Subsequently, the microcomputer installed inside the sensor block 200 is installed to give a unique IP to a signal detected by each sensor, and the sensor block 200 has a configuration in which a communication cable 400 is connected. The deformation amount measured at each sensor block 200 can be transmitted at a long distance as a communication cable by assigning a unique IP to each deformation amount by the processing of the microcomputer.

1 is a side view showing a conventional sensor unit.

Figure 2 is a mounting state of the tunnel displacement detection system of the present invention.

3A and 3B are cross-sectional views illustrating a sensor block mounted in a displacement detection system of a tunnel according to an embodiment of a sensor according to the present invention, respectively.

Figure 4 is a mounting state of the tunnel displacement detection system according to another embodiment of the present invention.

5a and 5b are respectively a perspective view and a cross-sectional view showing a joint member mounted in the tunnel displacement detection system according to another embodiment of the present invention.

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

100 Load carrying member 110 Anchor pin

200 ... Sensor block 300 ... Transfer unit

305 sensor 500 joint member

510 ... Connector

Claims (9)

A transmission unit 300 composed of an A / D converter, an amplifier, and a microcomputer is provided inside the sensor block 200, The sensor block 200 is connected to at least one load transmission member 100 is fixed to be spaced apart so as to have a shape corresponding to the arc drawn in the tunnel (T), The sensor block 200 is divided into the upper block 210 and the lower block 230 is installed so as to vary the action of the external force, When the tunnel T is deformed, a load is applied to the load transfer member 100 fixed thereto, and the pressure transmitted to the load transfer member 100 is moved to another lower block or the center of the upper block or the lower block. Displacement detection system of the tunnel to press the sensor 305 provided inside the sensor block 200 by the operation of the other upper block to measure the pressure acting in the tunnel According to claim 1, The load transfer member 100, the connection member 510 is connected to the end of the sensor block 200 is connected to each end as a joint member 500 is coupled to the unit load transfer member Displacement detection system for tunnels, characterized by measuring the working pressure According to claim 2, The joint member 500, the end of the connecting member 510 which is installed as a hinge 555 in the inner side of the casing 550 is provided with a flow groove 515 is connected to each other, respectively. Sub-sensor 307 is mounted to one side of the connection member, the displacement detection system of the tunnel, characterized in that for measuring the pressure acting on the joint member According to claim 1, wherein the sensor block 200, any one of the upper block 210 or the lower block 230 is provided with a height adjusting means, the height adjusting means, the nut portion 235a and The displacement detection system of the tunnel, characterized in that the connection between the load carrying member consisting of the bolt portion 230a and the nut 233 for determining the position The displacement detection system of the tunnel according to claim 1, wherein the sensor block 200 includes a fixing bar 215 protruding from at least one of the upper block and the lower block to operate the sensor 305. The tunnel displacement detection system according to claim 1 or 3, wherein the sensor and the sub sensor are selected from a pressure sensor and a strain gauge type resistance sensor. According to claim 1, The transmission unit 300, the microcomputer is installed inside the installation to give a unique IP to the signal detected by each sensor while the communication cable 400 is connected to a plurality of signals Displacement detection system of the tunnel, characterized in that the transmission to the communication cable A transmission unit 300 composed of an A / D converter, an amplifier, and a microcomputer is provided inside the sensor block 200, and the sensor block 200 is spaced apart to have a shape corresponding to an arc drawn by the tunnel in the tunnel T. At least one end connected between the at least one load transfer member 100, The sensor block 200 is divided into the upper block 210 and the lower block 230 is installed so as to vary the action of the external force, The load transfer member 100 is coupled to the connection member 510 respectively connected as the joint member 500 to an end of the sensor block 200 connected to one end thereof so that only the unit load transfer member flows by an external force. and, When the tunnel T is deformed, a load is applied to the load transfer member 100 fixed thereto, and the pressure transmitted to the load transfer member 100 is moved to another lower block or the center of the upper block or the lower block. Displacement detection system of the tunnel consisting of a configuration to measure the pressure acting in the tunnel by pressing the sensor 305 provided inside the sensor block 200 by the operation of the other upper block According to claim 8, The joint member 500, the ends of the connecting member 510 which is installed as a hinge 555 in the inner side of the casing 550 is provided with a flow groove 515 is connected to each other, respectively The displacement detection system of the tunnel, characterized in that the sub-sensor 307 is mounted to one side of the connection member to measure the pressure acting on the joint member.

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