KR20120131325A - Double pipe measuring instrument for the sinking of underground or surface and the measuring method therefor - Google Patents

Abstract

PURPOSE: A dual pipe settlement gauge and a settlement measuring method using the same are provided to move an inner pipe depending on the ground settlement without the influence of the strength of a pavement so that the settlement of a head portion of the inner pipe and the actual settlement accurately coincide. CONSTITUTION: A dual pipe settlement gauge comprises a plug(10), an inner pipe(20), and an outer pipe(30). The plug comprises a groove on a top surface. The external diameter of the inner pipe is formed into a screw shape. The internal diameter of the outer pipe is formed into the screw shape. The plug, the inner pipe, and the outer pipe are engaged to each other as a screw form. A driver is used when separating the plug, the inner pipe, and the outer pipe.

Description

Double pipe measuring instrument for the sinking of underground or surface and the measuring method therefor}

The present invention relates to a double pipe index settlement system and a settlement measurement method using the same. More specifically, in order to solve the problem of the current indicator settlement system, the double pipe index enables accurate measurement of the amount of settlement using the double pipe of the outer and inner tubes. It relates to a settlement system and a settlement measurement method using the same.

In general, soft ground refers to ground in a state where the upper structure cannot be supported. For example, soft clay, loose sandy soil, and organic soil belong to this.

If the airport, harbors, roads, bridges, buildings, etc. are built on the ground composed of soft viscous or organic soils, the settlement of the ground becomes excessive and the support is insufficient, resulting in safety accidents.

Particularly, in the case of soft ground, when ground vibration occurs due to an earthquake or blast, sudden ground subsidence may occur due to the vibration.

Therefore, in order to construct civil works for the construction of sites such as highways, airports, harbors, industrial complexes, and new towns, the soil is laid on the soft ground, and the ground is ground.

However, even if the ground is soft ground, heavy equipment such as heavy equipment, construction equipment, such as heavy equipment, such as heavy equipment, such as a continuous ground, the phenomenon that the soft ground is gradually settled by this.

As such, after sedimentation, the sedimentation of the soft ground that occurs little by little should always be measured through measurement, which identifies the soft ground where settlement has occurred, and changes the design and construction of the soft ground treatment, thereby constructing the construction on the soft ground. It is for rational construction, safety management and quality control.

On the other hand, various types of measuring devices for measuring soft ground have been developed and used, and generally used ground sedimentation system is to measure the ground behavior according to tunnel excavation and sedimentation by installing surveying points on the surface. It is a measuring instrument installed for the purpose of grasping the stability of surrounding structures due to surface settlement.

However, currently used ground sedimentation system consists of a single pipe (pin), so when installed in a rigid continuum such as asphalt, there is a problem in that the precise settlement of the ground is not measured because of voids due to stiffness difference.

In addition, it was difficult to check whether the cavity occurred, which caused traffic accident, and there was a risk of accident due to failure to identify signs of tunnel and excavator collapse.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide a double pipe index settlement system and a settlement measurement method using the same, which can accurately measure the amount of settlement using a double pipe of an outer tube and an inner tube.

The present invention comprises a stopper including a groove on the upper surface, an inner tube including a screw shape on the outer diameter, and an appearance including a screw shape on the inner diameter, wherein the stopper and the inner tube and the outer surface are engaged with each other in the form of a screw, and are separated. If you do, separate the screwdriver through the groove.

A side needle is placed on the head of the inner tube to determine the absolute settlement of the measurement position using a survey technique.

(S1 : 내관 두부의 처음 위치, S2 : 내관 두부의 침하 위치)에 의해 파악한다.The cavity size is calculated by the relative displacement of the inner tube and the exterior.

(S1: initial position of the inner tube head, S2: sinking position of the inner tube head).

The present invention provides a method for measuring settlement using a double pipe indicator settling system, the method comprising: inserting and fixing an outer appearance into a paving after drilling into a ground, separating a stopper, separating an inner tube from an outer surface, and the inner tube being ground It is behaved in accordance with the settlement of the step of grasping the absolute settlement of the measurement position by the measurement method, and the step of identifying the cavity size by the relative displacement of the inner tube and the exterior.

As the inner tube behaves according to the settlement of the ground, grasping the absolute settlement of the measurement position by a survey method is a step of grasping the absolute settlement of the measurement position by setting a side needle on the head of the inner tube.

(S1 : 내관 두부의 처음 위치, S2 : 내관 두부의 침하 위치)에 의해 파악한다.Determining the size of the cavity by the relative displacement of the inner tube and the exterior,

(S1: initial position of the inner tube head, S2: sinking position of the inner tube head).

After separating the stopper, the step of separating the inner tube from the external appearance, after removing the stopper is a step of separating the inner tube from the appearance by turning a square screw inside the inner tube using a tool.

The stopper, the inner tube and the outer surface are engaged with each other in the form of a screw, and when separated, they are separated by a driver through the groove.

According to the present invention, it is possible to accurately measure the amount of settlement using the double tube of the outer tube and the inner tube.

In addition, according to the present invention because the inner tube behaves according to the subsidence of the ground without being affected by the stiffness of the fave, the head subsidence of the inner tube exactly matches the actual subsidence.

1 is a view showing the tunnel excavation of the ground subsidence according to the present invention.
2 is a view showing the tunnel excavation of the ground subsidence according to the prior invention.
Figure 3 is a view showing the overall configuration of a double tube land surface settlement according to the present invention.
4 shows a closure configuration of a double tube ground subsidence in accordance with the present invention.
5 is a view showing the inner tube configuration of the double tube ground subsidence according to the present invention.
Figure 6 shows the overall separation of the double tube ground subsidence in accordance with the present invention.
7 is a view showing the measurement of the amount of settlement by the measurement method to establish a side tip to the inner tube head of the double pipe index settlement system according to the present invention.
8 is a view showing the initial position of the inner tube head and the subsided position of the inner tube head of the double tube index settlement system according to the present invention.
Figure 9a shows drilling to a position to insert a double tube indicator subsidence in accordance with the present invention.
9b shows inserting a double tube indicator subsidence in accordance with the present invention.
Figure 9c is a view showing the separation using a screwdriver in accordance with the groove on the stopper according to the present invention.
9d is a view showing that the inner tube according to the present invention is separated from the exterior using a screwdriver as a stopper, and the current ground state is measured using a surveying machine.
Fig. 9E shows measuring the deformed ground state using a surveying machine such that the inner tube matches the ground behavior when ground deformation occurs in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 3 to 5, the double tube indicator subsidence system according to the present invention is largely composed of a stopper 10, an inner tube 20, and an exterior 30, and the stopper 10 has a groove ( 15), the inner tube 20 includes a screw shape in the outer diameter, the outer surface 30 is hollow in the shape that can include the inner tube 20, the inner diameter of the inner tube 20 in the inner diameter And a screw shape formed to engage the shape.

Here, the stopper 10, the inner tube 20, and the exterior 30 are engaged with each other in the form of a screw, and can be separated by a driver through the groove 15 in the middle of the separation. That is, as shown in FIG. 6, the stopper 10, the inner tube 20, and the outer tube 30 may be separated by a driver to generate a gap between the inner tube 20 and the outer tube 30 through the groove 15. have.

In addition, as shown in Figure 7, the inner tube 20, the head can be set up to determine the absolute settlement of the measurement position by measuring the measurement method.

In this case, part A of FIG. 7 is a side needle, B is a level group, and C is a reference point with no settlement influence.

In addition, as shown in FIG. 8, the cavity size is calculated as the relative displacement between the inner tube 20 and the outer tube 30 as shown in Equation 1 below.

(S1: initial position of inner tube head (part A), S2: sinking position of inner tube head (part B))

Hereinafter, a method for measuring settlement using a double pipe index settlement system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, as shown in FIGS. 9A and 9B, the outer surface is inserted into and fixed in the paving after drilling in the ground before tunnel excavation.

And as shown in Figure 9c, after removing the stopper, the inner tube is separated from the appearance.

Subsequently, as shown in Figs. 9D and 9E, the inner tube behaves according to the subsidence of the ground to grasp the absolute settlement of the measurement position by surveying technique, and the cavity size is determined by the relative displacement of the inner tube and the exterior.

In other words, when the deformation of the ground occurs after the tunnel excavation, because the inner tube according to the present invention matches the behavior of the ground, the settlement of the ground can be accurately measured.

In this case, the inner tube behaves according to the settlement of the ground, and the step of determining the absolute settlement of the measurement position by the measurement technique is a step of determining the absolute settlement of the measurement position by setting a side needle on the head of the inner tube.

Therefore, the inner tube according to the present invention is not affected by the stiffness of the paving and behaves according to the subsidence of the ground, so that the head subsidence of the inner tube exactly matches the actual subsidence.

In addition, grasping the cavity size by the relative displacement between the inner tube and the outer tube may be determined by Equation 1 described above.

And after removing the stopper, the step of separating the inner tube from the external appearance, after removing the stopper is a step of separating the inner tube from the external by turning a square screw inside the inner tube using a tool.

Here, the stopper, the inner tube and the outer surface are engaged with each other in the form of a screw, and when separated, they are separated by a driver through the groove.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

10: stopper 15: home
20: inner tube 30: appearance

Claims (8)

A stopper including a groove on an upper surface thereof;
An inner tube including a screw shape in an outer diameter thereof;
Consists of an external appearance including a screw shape in the inner diameter,
The stopper, the inner tube, and the outer surface are engaged with each other in the form of a screw, and when separated, it is separated by a screwdriver through the groove in the double pipe surface settlement system. The method of claim 1,
A double pipe index settlement system characterized in that the side of the inner pipe to stand up to determine the absolute settlement of the measurement position by a measurement technique. The method of claim 1,
The cavity size is calculated by the relative displacement of the inner tube and the exterior.

A double-tube ground subsidence system characterized by grasping by (S1: initial position of the inner tube head, S2: sinking position of the inner tube head). In the settlement measurement method using a double pipe index settlement system,
Inserting and fixing the exterior to the paving after drilling in the ground;
Separating the stopper and separating the inner tube from the outside;
The inner tube behaves in accordance with subsidence of the ground to determine an absolute subsidence of the measurement position by a surveying method;
Determining a cavity size based on a relative displacement between the inner tube and the outer tube;
Settlement measurement method using a double pipe surface settling system, characterized in that consisting of. 5. The method of claim 4,
The inner tube behaves according to the settlement of the ground and the step of determining the absolute settlement of the measurement position by a survey method,
Settling the side of the inner pipe head to determine the absolute settlement of the measurement position by a measurement method, the settlement measurement method using a double-tube index settlement system. 5. The method of claim 4,
Determining the size of the cavity by the relative displacement of the inner tube and the exterior,

A method of measuring subsidence using a double-tube index settlement system, characterized by (S1: initial position of the inner tube head, S2: subsidence position of the inner tube head). 5. The method of claim 4,
After separating the stopper, separating the inner tube from the external,
And removing the stopper by turning a square screw inside the inner tube using a tool to separate the inner tube from the outer side. 5. The method of claim 4,
The stopper, the inner tube and the outer surface are engaged with each other in the form of a screw, the separation measurement method using a double pipe index settling system, characterized in that separated by a screwdriver through the groove.

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