KR200266918Y1 - A pin for measuring of radial movements and convergence of tunnel - Google Patents

Abstract

The present invention is to devise a pin for measuring the internal displacement of the tunnel by installing on the inner wall of the tunnel.

The measuring pin according to the present invention is a measuring pin structure that can be fired with a gun,

The tip portion has a pointed shape in the form of a bullet, the first body portion leading to the tip portion of the central body divided into two parts has a thickness thinner than the second body portion, and a thread is formed on the surface of the second body portion. The rear end portion following the central body portion has a thickness thinner than that of the second body portion, and has a bullet portion having a roughness on the surface, and a second portion on the surface having the same thickness as the second body portion of the bullet portion. Screw rods having the same size and shape as the body portion are formed with a threaded rod, and the bullet and screw rods are combined in one, having a hollow cylindrical structure in the middle and forming a screw groove on the inner surface thereof. 2 coupling means having a thickness that can be combined with the thread formed on the body portion and the rod rod, and one end A screw groove is dug into a predetermined length so as to be combined with the thread of the rod of the rod, and the other end includes a measuring instrument connecting means provided with an attachment hole for attaching an internal displacement measurement ring or an optical wave target. .

Description

A pin for measuring of radial movements and convergence of tunnel}

The present invention is a design for a pin for measuring the hole displacement of the tunnel.

In general, in the case of tunnel excavation, first, a rock is dug to form a hole, and then a sealing shotcrete is poured to prevent cracks formed on the rock surface inside the hole. At this time, the stresses and displacements that may occur between the foundation rock and the sealing shotcrete due to the presence of bad rock surrounding the tunnel at the time of tunnel construction or after completion of the tunnel construction are measured, and the measured values are measured. It is necessary to apply it to continuous follow-up.

Various types of internal displacement measurement pins have been proposed for this purpose, and these measurement pins are arranged on the shotcrete surface inside the tunnel as illustrated in FIG. 1.

In this case, the measuring pin used in the present invention places the reinforcing structure having a length of 40 to 50 centimeters in the shotcrete as shown in FIG. 1, and has a protrusion having a screw groove formed at one end of the reinforcing structure protruding out of the shotcrete. Attach a ring for tying and connecting a measuring wire to the optical waveguide target (see FIG. 2).

However, there are many problems in construction of the conventional measuring pin structure and the installation method using the same. That is, in order to install the measuring pin by the conventional method, first, shotcrete should be poured and then a hole for inserting the reinforcing structure with a large drill should be formed. However, this drilling work was not only time-consuming but also caused safety problems due to vibration. Especially in the difficult part such as ceiling, working time delay is severe. After the drilling operation, a fixing agent such as mortar is injected into the formed hole to wait about 12 hours for curing. After curing, insert the measuring pins in the form of reinforcing bars one by one into the hole and assemble the ring or optical wave target on the tip protrusion.

However, another problem with the conventional method is that the protrusion in the state of being installed on the shotcrete is easily broken during operation. The problem is that once the protrusion is broken, the entire measuring pin cannot be regenerated, so the measuring pin must be installed again by drilling another point.

In order to solve the problems of the prior art as described above, the object of the present invention is to propose a pin structure for measuring the displacement of a pore easily.

FIG. 1 is a view illustrating a conventional fin structure for measuring internal hole displacement and installing these pins in a tunnel.

2 is an external view of a typical optical wave target.

3 is a configuration before coupling of the measuring pin according to the present invention.

Figure 4 is a state diagram coupled to the measuring pin according to the present invention.

In order to achieve the above object, the measuring pin according to the present invention has the following structure.

That is, in the measuring pin structure that can be fired with a gun to measure the internal displacement of the tunnel,

The tip portion 1 has a pointed shape in the form of a bullet, and the first body portion 2 that follows the tip portion of the central body portion divided into two parts has a thickness thinner than that of the second body portion 3, and the first portion 2, a thread is formed on the surface of the trunk portion 3, and the rear end portion 4, which is connected to the central trunk portion, has a thickness thinner than that of the second trunk portion, and the bullet portion has a roughness on the surface. ,

A screw rod 5 having the same thickness as the second body portion and having a thread having the same thickness as the second body portion 3 of the bullet portion;

It is for coupling the bullet part and the screw rod into one, and has a cylindrical structure with a hollow center and a screw groove formed on the inner surface thereof so as to be combined with a thread formed on the second body part and the screw rod of the bullet part. Coupling means 6 with,

At one end, a screw groove is dug in a predetermined length so as to be coupled to the thread of the rod, and at the other end, a measuring device having an attachment means 8 for attaching a hole displacement measuring ring or an optical wave target is provided. It comprises a connecting means (7).

At this time, when the bullet portion is fired on the shotcrete, which is the inner wall of the tunnel by using the gun, it is intended to control only the portion of the shotcrete to the first body portion to be fitted on the first body portion. It is preferable to further include at least one stopper 9 having a circular ring shape.

In addition, when the second body portion of the bullet portion and the screw rod is coupled by the coupling means, a rubber plate or an adhesive (not shown) between the second body portion of the bullet portion and the screw rod to fix it so as not to shake after coupling. It is preferable to further provide a.

In addition, it is preferable that the pin for measuring the internal displacement according to the present invention is made of all metal parts except the measuring device connecting means.

Figure 3 is a configuration before coupling of the measuring pin according to the present invention, Figure 4 is a state diagram combining the measuring pin according to the present invention.

On the other hand, the installation method of the measuring pin according to the present invention is as follows.

That is, the measuring pin for measuring the hole displacement of the tunnel is fired with a gun and installed on the shotcrete, which is the inner wall of the tunnel.

First, the bullet portion is loaded into the gunpowder gun and then fired on the shotcrete, which is the inner wall of the tunnel, and the coupling means is screwed into the thread of the second body portion. Next, the screw rod is screwed into the screw groove formed at the other end of the coupling means, and the other end of the screw rod is attached to the hole displacement measuring ring or optical wave target.

On the other hand, when the bullet is fired on the shotcrete, which is the inner wall of the tunnel using the gun, the stopper is pushed only to the end of the first torso, whereby the part of the shotcrete can be controlled only to the first body portion. Do.

As mentioned above, it is possible to install or disassemble the measuring pin more safely, quickly, easily and economically through the measuring pin according to the present invention.

Claims (4)

In the measuring pin structure that can be fired with a gun to measure the internal displacement of the tunnel, The tip portion has a pointed shape in the form of a bullet, the first body portion leading to the tip portion of the central body divided into two parts has a thickness thinner than the second body portion, and a thread is formed on the surface of the second body portion. A bullet portion having a thickness that is thinner than the second body portion and which has a roughness on the surface thereof; A screw rod having the same thickness as the second body portion and having a thread having the same thickness as that of the second body portion of the bullet portion; It is for coupling the bullet part and the screw rod into one, and has a cylindrical structure with a hollow center and a screw groove formed on the inner surface thereof so as to be combined with a thread formed on the second body part and the screw rod of the bullet part. Coupling means having; At one end, a screw groove is drilled to a certain length so as to be coupled to the thread of the rod, and at the other end, a measuring instrument connecting means having an attachment hole for attaching an internal displacement measurement ring or an optical wave target is provided. Pin, for measuring the hole displacement of the tunnel. The method of claim 1, wherein when the bullet is fired on the shotcrete, which is an inner wall of the tunnel by using a gun, it is intended to control only the portion of the shotcrete to the first body, and to be fitted on the first torso. And at least one stopper having a circular ring shape made of a plastic material so as to further include a pin for measuring internal void displacement of the tunnel. The method of claim 1, wherein the rubber plate or adhesive between the second body portion of the bullet portion and the screw rod rod for fixing so as not to shake after coupling when the second body portion of the bullet portion and the screw rod is coupled by the coupling means; It characterized in that it further comprises, the hole displacement measurement pin of the tunnel. According to claim 1, All parts except the measuring means connecting means, characterized in that made of a metal material, the hole displacement measurement pin of the tunnel.