KR100284122B1 - Anchor device for measuring hole displacement in tunnel - Google Patents

Abstract

The present invention relates to an anchor device for measuring the hole displacement of a tunnel, and provides an anchor device for measuring the hole displacement of a tunnel that can perform precise measurement because the anchor is not damaged due to blasting or digging and the installation position is not changed. The purpose is. In order to achieve the above object, the present invention is a anchor device for measuring the internal displacement of the tunnel to measure the internal displacement of the tunnel after the excavation of the tunnel, one side is closed is impregnated at a predetermined position inside the tunnel, the other side is open A pipe in communication with the tunnel; A body elastically installed in the pipe; And an anchor fixedly installed at a free end of the body, the anchor being selectively exposed to the outside of the pipe so as to move along the stretch and contraction of the body and to extend the extensometer.

Description

Anchor device for measuring hole displacement in tunnel

The present invention relates to an anchor device for measuring the displacement of a tunnel in a tunnel, and more specifically, the anchor for measuring the displacement of a tunnel in which the anchor is not damaged due to blasting or digging and the installation position does not change, so that precise measurement can be performed. Relates to a device.

When the tunnel is excavated to some extent by blasting or excavation work, it is necessary to check the ground of the tunnel by measuring the internal displacement of the tunnel.The purpose of the measurement of the tunnel is to find out the behavior of the surrounding ground and to verify the support effect of the support material. It is to secure the stability of the surrounding structure. Tunnel measurement is performed in the area of intragranular observation, measurement of pore displacement, and measurement of celestial settlement. First, intragranular observation is to observe morphological changes of rock, fault fracture, and shortcret support. It is to determine the stability of the tunnel by measuring the behavior of the cross section, and the measurement of the ceiling settlement is to determine whether the tunnel is in a stabilized state by measuring the displacement of the tunnel ceiling. The most important in the tunnel measurement is the measurement of the hole displacement and the measurement of the top-end settlement, and the results are used to determine the stability of the tunnel.

1 is a schematic perspective view for explaining a hole displacement measurement of a general tunnel. As shown in FIG. 1, the anchor 12 is fixed to a predetermined position inside the tunnel 10, and an extension 12 is connected to the anchor 12 to measure the displacement of the tunnel 10. Measure the internal soil condition. Rock tunnel measurement can also be installed within 12 hours of blasting to determine the correct initial value and to accurately determine its behavior.

Although not shown in the drawing, when looking at the installation process of the conventional anchoring device, first, a hole is drilled to insert an anchor at a point to be measured, and then the anchor is inserted into the hole and fixed with grouting or resin or cement malta. In the case of structures, drill holes and bolt or weld. The snap hook of the hole displacement meter is fastened to the anchors at both ends, and the tape locking pin is fixed by maximum tension by artificial force and the knuckle collar is adjusted to match the scribed line. When the scribed lines match, the readings of the tape and dial gauges are read and summed to calculate the measurement.

The above-mentioned conventional anchor device is to prevent the damage of the anchor by protruding the outer pipe to the outside of the tunnel cross-section so as not to be damaged by the blasting or excavation work or to remove the anchor during detachment or excavation work by detaching the anchor, There was a method of installation and use, but the first method is the rock fragments scattered during the blasting work, and if the outer pipe is broken, the anchor may be broken. The second method is very inconvenient to use because the anchor must be installed and disassembled alternately. Of course, the position of the anchor is changed, a problem that can not be obtained accurate measurement.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide an anchor device for tunnel displacement measurement, which can perform precise measurement because the anchor is not damaged due to blasting or excavation, and the installation position does not change. .

In order to achieve the above object, the present invention is a anchor device for measuring the internal displacement of the tunnel to measure the internal displacement of the tunnel after the excavation of the tunnel, one side is closed is impregnated at a predetermined position inside the tunnel, the other side is open A pipe in communication with the tunnel; A body elastically installed in the pipe; It is fixed to the free end of the body, it is made of an anchor that is selectively exposed to the outside of the pipe so as to move along the stretch of the body to extend the extensometer.

In the above-described configuration, the locking jaw is further formed to support the anchor at a predetermined position inside the pipe and to limit the extension length of the body.

In the above configuration, at the open end of the pipe is characterized in that the lid is further provided to limit the position of the anchor at the same time to accommodate the anchor.

1 is a schematic perspective view for explaining the internal displacement measurement of a general tunnel.

Figure 2 shows an anchor device according to a preferred embodiment of the present invention, a side view showing a state in which the anchor is withdrawn.

Figure 3 shows an anchor device according to a preferred embodiment of the present invention, a side view showing a state in which the anchor is accommodated.

4 and 5 are views showing an anchor device according to another embodiment of the present invention, a side view showing a state in which the anchor is withdrawn / received, respectively.

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

100,200: Anchor device 110,210: Pipe

112: locking jaw 120,220: body

130,230: Scale anchor 240: lid

Hereinafter will be described in detail the anchoring device for measuring the tunnel displacement in accordance with a preferred embodiment of the present invention.

Figure 2 shows an anchor device according to the present invention, a side view showing a state in which the anchor is drawn, Figure 3 shows an anchor device according to the present invention, a side view showing a state in which the anchor is stored.

As shown in Figure 2 and 3, the anchoring device 100 of the present invention is closed on one side is installed in a predetermined position inside the tunnel 300 and the other side is open pipe 110 is in communication with the tunnel 300 ); A body 120 installed to be elastically installed in the pipe 110; The anchor 130 is fixedly installed at the free end of the body 120 and selectively exposed to the outside of the pipe 110 so as to be able to hang the extensometer while moving along the expansion and contraction of the body 120.

Referring to the configuration of the present invention in more detail, first, the pipe 110 is built in the interior of the tunnel 300, one side is closed, the other side is in communication with the tunnel 300.

Body 120 is elastically folded inside the pipe 110, the anchor 130 is formed extending to the end of the body 120. The anchor 130 is selectively exposed to the outside of the pipe 110 so as to be able to hang the extensometer while moving along the expansion and contraction of the body 120.

Referring to the operation of the anchoring device for measuring the hole displacement of the tunnel according to the invention configured as described above are as follows.

As shown in Figure 2 and 3, when the excavation work to some extent through the blasting work of the tunnel 300, the operation to measure the displacement of the inner hole of the tunnel 300 is carried out, the anchor device 100 of the present invention If you want to install a hole in a predetermined position of the tunnel 300 and install the anchor device 100 in this hole. In this state, holding the anchor 130 and pulling in the direction of the arrow unfolds the folded body 120, and thus the anchor 130 integrally formed at one end of the body 120 is also drawn out in the direction of the arrow. At this time, the movement of the body 120 is restricted by the locking jaw 112 so that the withdrawal position of the anchor 130 is properly adjusted.

On the other hand, Figure 4 and Figure 5 shows an anchor device according to another embodiment of the present invention, a side view showing a state in which the anchor is withdrawn / received, respectively. As shown in Figure 4 and 5, the end of the pipe 210 is provided with a hinge 240 is hinged. The lid 240 serves to prevent the anchor 230 from being drawn out randomly when the anchor device 200 is installed on the ceiling of the tunnel 300.

Although the present invention has been described with reference to the preferred embodiments shown in the drawings, which are merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art.

As described above, the present invention has the following effects.

First, since the installation time of the instrument can be set within 12 hours after excavation, the initial value of the hole displacement measurement can be correctly calculated to increase the reliability of the measurement result.

Second, if you want to use the anchor for the measurement of internal displacement, pull out the anchor, and if you do not use the anchor, you can store the anchor in the pipe to protect the anchor from rock fragments scattered during blasting or excavation work. It has an effect.

Third, since there is no need to repeatedly install / remove the anchor device, there is an effect of greatly reducing the air as well as the convenience of use.

Claims (3)

In the anchoring device for measuring the hole displacement of the tunnel for measuring the displacement of the tunnel after the excavation of the tunnel, One side is closed and is installed in a predetermined position inside the tunnel, and the other side is opened and communicates with the tunnel; A body elastically installed in the pipe; And It is fixed to the free end of the body, anchoring device for measuring the hole displacement of the tunnel, characterized in that it comprises an anchor which is selectively exposed to the outside of the pipe so as to hang the extensometer while moving along the expansion and contraction of the body. The anchoring device for measuring displacement of a tunnel according to claim 1, further comprising a locking jaw for supporting the anchor at a predetermined position inside the pipe and limiting the extension length of the body. The anchoring device for measuring the displacement of a tunnel according to claim 1 or 2, further comprising a lid for accommodating the anchor and limiting the position of the anchor at the open end of the pipe.