KR20140031006A - Apparatus for measuring ground settlement of ballastless track, and constructing method for the same - Google Patents

Abstract

Provided in the present invention are an apparatus for measuring the ground settlement of a ballastless track, and a constructing method thereof, which are not influenced by concrete or asphalt deposition and a precast concrete track application by measuring ground settlement occurring in a settlement plate with a displacement meter buried under the ground, and can solve problems generated by outside exposure. The apparatus for measuring the ground settlement of a ballastless track forms the track lower part structure of concrete or asphalt, and has roadbed concrete, a sleeper, and rails formed on a solum. The apparatus for measuring the ground settlement of a ballastless track comprises: a bottom fixating plate which is installed in a stable layer on the bottom of the solum where a ballastless track is to be installed; a settlement rod which is fastened in the upper part of the bottom fixating plate in a vertical direction; a settlement plate which is buried inside a solum, and settles by penetrating the settlement rod inside the solum by corresponding to the ground settlement of the ballastless track; and a displacement meter which measures the ground settlement of the settlement plate by being fastened to the settlement rod. The displacement meter measures the settlement of the settlement plate while being buried inside the solum, and also includes a settlement rod angle regulating unit which is fastened to the bottom fixating place in order to regulate the angle so that the settlement rod can be maintained in a vertical state.

Description

Underground ground subsidence measuring device of ballless track and construction method thereof {APPARATUS FOR MEASURING GROUND SETTLEMENT OF BALLASTLESS TRACK, AND CONSTRUCTING METHOD FOR THE SAME}

The present invention relates to ground subsidence measurement of a ballless track, and more particularly, in a ballastless track in which a track substructure is formed of concrete or asphalt, a displacement meter is applied to a fill layer to measure the ground subsidence. The present invention relates to an underground ground subsidence measuring apparatus for a buried track and a construction method thereof.

In general, it is widely known that a track on which a train or the like travels is provided with a roadbed on a roadbed and a sleeper and a rail disposed on the roadbed. Here, the bed is used as gravel (or crushed stone) or concrete as a track material that serves to distribute the train loads transmitted from the rails and the sleepers to the roadbed and to fix the sleepers at a predetermined position.

It is common for such a track structure to arrange a sleeper on the figure formed on the roadbed, and to attach a pair of rails in parallel at regular intervals on it. Ballast constituting the tracks, such as ballast (Ballast), slab (Slab), etc. are selected in consideration of various conditions of the route. In particular, ballast ballasts using ballasts such as gravel and crushed stone are widely known. The ballast using such ballast has been employed for many years because of its excellent economic efficiency while rationally supporting the running of heavy vehicles. These ballasts such as gravel and crushed stone keep the sleepers securely, evenly distribute the load transmitted from the train through the rails and sleepers to the roadbed, make the tracks elastic, and easily perform the maintenance work such as damping. It has a function of improving the drainage of the track and preventing the generation of bunnies and weeds.

On the other hand, in laying rail tracks, it is common to use a ballless track such as a concrete track in the rigid roadbed section. However, the section through which the rail line passes may include soft ground, and it was difficult to use a ballless track on such soft ground. In the case of such a soft ground, the subsidence of the roadbed is likely to occur, and if the roadbed settlement occurs, orbital misalignment occurs. Similar situation can occur in the case of general soft soil as well as such soft ground.

In addition, when laying tracks such as high-speed railways, the occurrence of orbital distortion becomes a big problem, and in the case of general gravel road tracks using gravel, problems such as gravel scattering during the passage of trains have emerged. The use of phase orbits is being considered. One of the most important points in the use of ballless tracks in subgrade soils is to keep the subsidence within a predetermined reference value, thereby ensuring the driving stability of the train vehicle and the structural stability of the tracks. Minimize effort. Unlike the conventional gravel-shaped track, when the settlement occurs, the unmanned track has a large decrease in the usability of the track, but the measures to cope with it are very limited, so measurement of settlement is very important.

On the other hand, Figure 1 is a diagram illustrating the ground subsidence measurement in the gravel (or crushed stone) track according to the prior art, Figures 2a to 2c each explain the ground subsidence measurement device of the gravel track according to the prior art Drawings for the following.

1 and 2, in the case of a gravel track according to the related art, a fill layer 22 is formed on a stable layer or a ground plate 21, and a gravel pattern 23 on the fill layer 22 is formed. , Sleepers 24 and rails 25 are formed sequentially. At this time, the ground subsidence measuring apparatus includes a circular submerged plate 11, the sinking rod 12, the sinking rod protective tube 13 and the jig 17.

The ground subsidence plate 11 subterranean ground subsidence of the gravel track according to the prior art is installed at a position to be measured, and as shown in FIG. 2A, a male thread tab is provided on a female screw installed among the settlement plates 11. Fix and install the sinking rods 12 installed.

At this time, in order to eliminate the friction between the sinking rod 12 and the contaminated soil, the sinking rod 12 is protected by using the sinking rod protection tube 13 made of a PVC pipe.

In addition, as shown in Figure 2b, in order to prevent friction caused by the contact between the sinking rod 12 and the sinking rod protective tube 13 to produce a groove 14 in the upper portion of the dip plate to insert the sinking rod protective tube (13) It is fixed. In addition, as shown in Figure 2c, the sinking rod 12 end is provided with a disk 15 having a flat surface so that the lot of displacement gauge 16 can be mounted.

Accordingly, the ground displacement is measured by fixing a displacement meter by installing a jig (JIG: 17) in the upper portion of the track, and the ground subsidence measuring device according to the prior art is difficult to apply in the invisible track, in particular, long-term measurement in the field This is a difficult drawback.

Specifically, in the case of ballless tracks, the track infrastructure and tracks are often cast in situ. Existing ground subsidence measuring device is the pre-installation of the sinking rod (12) and the sinking rod protection tube (13) before placing concrete or asphalt, the concrete or asphalt casting is made by the settlement rod protection tube (13) There is a problem that the sliding phenomenon occurs, and the contact between the sinking rod 12 and the sinking rod protective tube 13 may occur to interfere with the behavior of the sinking rod 12.

In addition, when the ground subsidence measurement apparatus according to the prior art is applied to the site, the ground subsidence measurement apparatus is exposed to the outside, thereby preventing rainfall, snowfall and foreign matters from entering the sink rod protection tube 13, thereby preventing accurate settlement measurement. Factors may arise.

In addition, in the case of precast concrete tracks, which are expected to be frequently used in the ball-free tracks in the future, they are pre-fabricated and factory assembled as factory products. Boring should be installed through the sinking rod and sinking rod protection tube, but there is a problem in that it is not practically easy.

1) Republic of Korea Patent No. 10-908417 (application date: April 30, 2008), the title of the invention: "Underground displacement measuring device" 2) Republic of Korea Patent Publication No. 2004-108384 (published: December 23, 2004), the title of the invention: "Multifunctional ground subsidence measuring device" 3) Republic of Korea Patent No. 10-810121 (Application Date: October 31, 2006), the title of the invention: "Ground displacement measuring device" 4) Republic of Korea Patent No. 10-662859 (application date: June 9, 2006), the title of the invention: "soft ground settlement measurement device" 5) Republic of Korea Patent No. 10-947025 (application date: August 12, 2009), the title of the invention: "Soil sediment automatic measurement system according to soft ground improvement" 6) Republic of Korea Patent No. 10-698022 (Application Date: August 10, 2006), the title of the invention: "Skew prevention structure for preventing tilting" 7) Republic of Korea Patent Publication No. 2011-24937 (published: March 9, 2011), the title of the invention: "surface settlement plate for settlement measurement"

The technical problem to be solved by the present invention to solve the above-mentioned problems, concrete placing, asphalt placing by measuring the sediment generated in the sedimentation plate buried in the ground in the ballless track formed by the track substructure is made of concrete or asphalt And it is to provide an underground ground subsidence measuring device and the construction method of the non-coated track, which is not affected at all by the precast concrete track application.

Another technical problem to be solved by the present invention is to install a displacement meter in the fill layer so as not to be exposed to the outside, thereby preventing rainfall, snowfall, and foreign matter, etc., which prevent accurate settlement measurement from entering the measuring device. It is to provide an underground ground subsidence measuring device for a track and a construction method thereof.

As a means for achieving the above-described technical problem, the ground subsidence measuring device of the ball-free track according to the present invention, the track substructure is formed of concrete or asphalt, and has a concrete, sleepers and rails formed on the fill layer An apparatus for measuring ground subsidence of a ballless track, the apparatus comprising: a bottom fixing plate installed in a bottom layer of a fill layer on which a ballless track is to be installed; A sink rod fastened in a vertical direction to an upper portion of the bottom fixing plate; A settlement plate buried in the fill layer and settled through the settlement rod in the fill layer in response to the ground subsidence of the ballless track; And a displacement gauge coupled to the settlement rod to measure ground settlement of the settlement plate, wherein the displacement gauge measures settlement of the settlement plate in a state of being embedded in the fill layer.

Underground ground subsidence measurement apparatus of the ball-free track according to the present invention may further include a sinking rod angle adjustment unit is fastened to the bottom fixing plate to adjust the angle so that the sinking rod to maintain the vertical state.

Here, the sinking rod is a short rod composed of a male screw and a female screw, characterized in that it is assembled while continuously connecting in the vertical direction.

Here, the settlement plate is provided with a settlement rod through hole through which the settlement rod penetrates, and is characterized in that at least one is installed at a position to measure the ground settlement.

Here, the displacement meter is fixed to the side of the settlement rod to measure the settlement of the settlement plate is installed at least one or more.

Underground ground subsidence measurement apparatus of the ball-free track according to the present invention, the displacement gauge protective cover disposed to surround the side of the displacement gauge to protect the displacement gauge; A displacement gauge protective cover disposed above the displacement gauge protective cover to protect the displacement gauge; And it may further include a protective cover fastening portion for fastening the displacement meter protective cover to the needle plate.

Here, the fastening hole is formed in the needle plate, and the protective cover fastening portion is characterized in that the bolt for fastening the displacement meter protective cover to the fastening hole of the needle plate.

Here, the displacement meter protective cover is characterized in that the through-hole through which the settlement rod is formed for measurement at the same position on the vertical line.

As a means for achieving the above-described technical problem, a method of construction of a ballless track having a ground subsidence measuring apparatus according to the present invention, a) installing a floor fixing plate on a base (stable layer) to be installed a ballless track step; b) connecting the sink bar to the bottom fixing plate, and adjusting the vertical angle of the sink bar; c) fastening the needle plate so that the needle rod penetrates while extending and fastening the needle rod in a vertical direction; d) installing a displacement meter on said needle plate; e) fastening the displacement gauge protective cover and the protective lid to protect the displacement gauge; f) forming a fill layer such that the displacement meter is embedded; And g) installing a concrete or asphalt roadbed, sleepers, and rails on the fill layer to complete a ball-free track.

Here, the sinking bar of step b) is a short rod composed of a male screw and a female screw, characterized in that it is assembled while continuously connecting in the vertical direction.

Here, the settlement plate of step c) has a settlement rod through hole through which the settlement rod penetrates, and may be installed at least one position at which a ground settlement is to be measured.

Here, the displacement meter of step d) is characterized in that it is fixed to the side of the settlement rod to measure the settlement of the settlement plate is installed at least one or more.

Here, the displacement meter protective cover is characterized in that the through-hole through which the settlement rod is formed for measurement at the same position on the vertical line of the at least one settlement plate.

Here, the fastening hole is formed in the needle plate, characterized in that the displacement meter protective cover is fastened to the fastening hole of the needle plate by a bolt.

According to the present invention, the sediment generated from the settlement plate is measured by a displacement meter embedded in the ground in a ballless track in which the track substructure is formed of concrete or asphalt so that it is not influenced at all by concrete or asphalt placing and precast concrete track application. do.

According to the present invention, it is possible to prevent the rainfall, snowfall and foreign matters, etc., which prevents accurate settlement measurement, from entering the measuring device by using the displacement meter protective cover and the protective lid without embedding the displacement meter in the fill layer. have.

According to the present invention, the angle can be easily adjusted so that the sink rod is vertical.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram illustrating underground subsidence measurement in a gravel (crushed) track according to the prior art.
2A to 2C are diagrams for explaining the ground subsidence measuring apparatus of the gravel track according to the prior art, respectively.
3 is a diagram illustrating ground subsidence measurement in a ballless track according to an embodiment of the present invention.
4 is a perspective view of the ground subsidence measuring apparatus of the ball-free track according to an embodiment of the present invention.
5 is a vertical sectional view of the ground subsidence measuring apparatus of the ball-free track according to an embodiment of the present invention.
6 is a flowchart illustrating a method of constructing a ballless track having a ground subsidence measuring apparatus according to an exemplary embodiment of the present invention.
7A and 7B are photographs showing the bottom fixing plate and the angle adjusting unit in the ground subsidence measuring apparatus of the ball-free track according to the embodiment of the present invention, respectively.
8A and 8B are photographs showing the sinking plate to which the displacement meter is fastened in the ground subsidence measuring apparatus of the ballless track according to the embodiment of the present invention, respectively.
9A and 9B are photographs showing the displacement meter protective cover of the ground subsidence measuring apparatus of the ballless track according to the embodiment of the present invention, respectively.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

First, it is to measure by using a displacement meter on the ground subsidence of the existing gravel track, which is possible because the substructure of the track is composed of gravel or crushed stone.

In the case of a ballless track according to an embodiment of the present invention, since the track bottom structure is made of concrete, it is not applicable to the existing ground subsidence measuring device. That is, it is difficult to install the sinking rod and the sinking rod protective tube, and it is difficult to measure a plurality of ground subsidences at the same position on the vertical line. In addition, in the conventional case, since a jig for fixing the displacement meter is required, long-term measurement in the field is difficult.

3 is a diagram illustrating ground subsidence measurement in a ballless track according to an embodiment of the present invention.

Referring to FIG. 3, the ballless track has a fill layer 220 formed on a stable ground (floor layer bottom) 210, and the concrete concrete 230, sleepers 240, and rails 250 are formed on the fill layer. Is completed, and the ground subsidence measuring apparatus 100 according to the embodiment of the present invention is embedded in the fill layer 220.

Underground ground subsidence measuring device of the invisible track in accordance with an embodiment of the present invention to solve this problem, the subsurface substructure is a displacement meter that is embedded in the ground sediment generated in the sinking plate in the invisible track formed of concrete By measuring, they are completely unaffected by concrete or asphalt pouring and precast concrete track applications.

In addition, by installing a displacement meter in the fill layer and not exposing it to the outside, it is possible to prevent rainfall, snowfall and foreign matter, etc., which prevent accurate settlement measurement from entering the measuring device.

On the other hand, Figure 4 is a perspective view of the ground subsidence measuring apparatus of the ball-free track according to an embodiment of the present invention, Figure 5 is a vertical cross-sectional view of the ground subsidence measuring apparatus of the ballless track according to an embodiment of the present invention.

4 and 5, the ground subsidence measurement apparatus 100 of the ball-free track according to an embodiment of the present invention, the track substructure is formed of concrete, the concrete concrete (or asphalt roadbed formed on the fill layer) ) Is a device for measuring ground subsidence of a ball-free track having sleepers and rails, the bottom fixing plate 110, the sinking rod angle adjusting unit 120, the sinking rod 130, the sinking plate 140, the displacement meter ( 150 and a cable 160, and also includes a displacement gauge protective cover 151, a displacement gauge protective lid 152, a protective lid hole 153 and a protective cover fastening portion 154.

The bottom fixing plate 110 is installed on the bottom layer of the fill layer to which the ballless track is to be installed.

The sinking rod angle adjusting unit 120 is fastened to the bottom fixing plate to adjust the angle so that the sinking rod is maintained in a vertical state.

The sinking rod 130 is fastened in a vertical direction to the top of the bottom fixing plate 110. At this time, the sinking rod 130 is assembled as a short rod consisting of a male screw and a female screw continuously connected in the vertical direction. For example, as shown in FIG. 4, the female screw 131 is formed at the upper portion of the lower settlement rod 130a, and the male screw 132 is formed at the lower portion of the upper settlement rod 130b, thereby being assembled to each other vertically. It can be installed extending in the direction.

The settlement plate 140 is buried in the fill layer, and settles through the settlement rod in the fill layer in response to the ground subsidence of the ballless track. Specifically, the settlement plate 140 includes a settlement rod through hole 141 through which the settlement rod penetrates, and may be installed in at least one position to measure ground settlement.

Displacement meter 150 is fastened to the settlement rod to measure the ground settlement of the settlement plate. That is, the displacement meter 150 may measure the settlement of the settlement plate 140 in a state of being embedded in the fill layer. Specifically, the displacement meter 150 is fixed to the side of the settlement rod 130 to measure the settlement of the settlement plate 140 is installed at least one or more. For example, a ground displacement meter using an extensometer, a ground displacement meter using a gyroscope, a multi-point borehole extensometer, or the like may be used to partition the dangerous ground which may be ground subsided. Accordingly, after installing the displacement meter 150 in the target ground or ground to determine whether the ground subsided, it is possible to evaluate the settlement of the target ground by analyzing the measured displacement of the ground or ground in which the displacement meter is installed over time. .

At this time, the settlement of the settlement plate 140 measured by the displacement meter 150 is converted into an electrical signal so that it can be confirmed from the top of the fill layer by using a wire such as cable 160 or wirelessly. Therefore, the ground subsidence measurement apparatus of the ball-free track according to an embodiment of the present invention, the displacement meter 150 buried in the ground subsidence generated in the subsidence plate 140 in the ball-less track is formed of concrete By measuring, there is no influence on concrete pouring and precast concrete track applications.

In the ground subsidence measurement apparatus of the ball-free track according to an embodiment of the present invention, as shown in Figure 5, the displacement meter protective cover 151 wraps the side of the displacement meter 150 to protect the displacement meter 150 It is arranged to be.

The displacement gauge protective cover 152 is disposed above the displacement gauge protective cover 151 to protect the displacement gauge 150. Here, the displacement meter protective cover 152 is a protective cover hole 153 that is a through hole through which the sinking rod 130 passes through for measurement at the same position on a vertical line.

The protective cover fastening part 154 fastens the displacement meter protective cover 151 to the settlement plate 140. That is, a fastening hole is formed in the needle plate 140, and the protective cover fastening part 154 may be a bolt for fastening the displacement meter protective cover 151 to the fastening hole of the needle plate 140.

On the other hand, Figure 6 is an operational flow diagram of a ball-free orbit construction method having a ground subsidence measuring apparatus according to an embodiment of the present invention.

Referring to FIG. 6, in the method of constructing a ballless track having a ground subsidence measuring apparatus according to an embodiment of the present invention, first, a bottom fixing plate is installed on a base plate (stable layer) on which a trackless track is installed (S110). .

Next, connecting the sink rod to the bottom fixing plate, and adjusts the vertical angle of the sink rod (S120). Here, the settlement rod is a short rod composed of a male screw and a female screw, and can be assembled while continuously connecting in the vertical direction.

Next, while fastening the settlement rod in the vertical direction, the settlement plate is fastened so that the settlement rod penetrates (S130). Here, the settlement plate may include a settlement rod through hole through which the settlement rod penetrates, and may be installed at least one position to measure ground settlement.

Next, the displacement meter is installed on the settlement plate (S140). Here, the displacement meter is fixed to the settlement rod side to measure the settlement of the settlement plate is installed at least one or more.

Next, fastening the displacement meter protective cover and the protective lid to protect the displacement meter (S150). Here, the displacement meter protective cover is formed with a through-hole through which the settlement rod penetrates at the same position on the vertical line of the at least one settlement plate. In addition, a fastening hole is formed in the needle plate, and the displacement gauge protective cover is fastened to the fastening hole of the needle plate by bolts.

Next, the fill layer is formed so that the displacement meter is embedded (S160).

Next, by installing a concrete or asphalt roadbed, sleepers and rails on the fill layer (S170).

On the other hand, Figure 7a and 7b are photographs showing the bottom fixing plate and the angle adjusting unit in the underground ground subsidence measuring apparatus of the ball-free track according to an embodiment of the present invention, respectively.

In the ground subsidence measurement apparatus of the ball-free track according to an embodiment of the present invention, Figure 7a shows that the bottom fixing plate 110 is mounted on the fill bottom surface stable layer or the ground.

In addition, FIG. 7B illustrates that the angle adjusting part 120 is formed at the connection portion of the bottom fixing plate 110 and the sinking rod 130 to maintain the vertical position of the sinking rod 130. At this time, the sinking rod 130 may be composed of a short rod consisting of a male screw and a female screw to be assembled to increase the efficiency of the work when filling the fill.

8A and 8B are photographs showing the sinking plate to which the displacement meter is fastened in the ground subsidence measuring apparatus of the ballless track according to the embodiment of the present invention, respectively.

In the ground subsidence measurement apparatus of the ball-free track according to an embodiment of the present invention, Figure 8a is a submerged plate 140 is installed at a position to measure the ground subsidence and the displacement meter 150 is installed on the submerged rod 130 Indicates.

In addition, Figure 8b shows that the through-hole is formed in the sinking plate 140 so that the sinking rod 130 can be continuously connected.

9A and 9B are photographs showing the displacement meter protective cover of the ground subsidence measuring apparatus of the ballless track according to the embodiment of the present invention, respectively.

In the ground subsidence measurement apparatus of the ball-free track according to an embodiment of the present invention, Figure 9a shows that the protective cover 151 and protective cover 152 for protecting the displacement meter 150 is installed.

In addition, Figure 9b shows that the installation of the protective cover 151 is fixed to the fastening holes drilled in the needle plate 140 using the bolt 154.

As a result, according to the embodiment of the present invention, in the ballless track formed by the track or substructure is measured by the displacement meter buried in the ground plate, the impact on concrete placing and precast concrete track application Will not receive. In addition, by using a displacement meter protective cover and a protective lid without embedding the displacement meter in the fill layer, it is possible to prevent rainfall, snowfall and foreign matters, etc., which prevent accurate settlement measurement from entering the measurement device. In addition, the angle can be easily adjusted to keep the sink rod vertical.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: ground subsidence measuring device
210: stable ground (floor bottom)
220: fill layer
230: icon concrete
240: sleeper
250: rail
110: bottom fixing plate
120: sinking rod angle adjustment unit
130: sinking rod
140: sinking plate
141: sinking rod through hole
150: displacement meter
151: displacement gauge protective cover
152: displacement gauge cover
153: protective cover hole
154: fastening cover
160: cable

Claims (14)

In the apparatus for measuring the ground subsidence of the unconventional track having the track concrete or asphalt subgrade, sleepers and rails formed of concrete or asphalt, the track substructure is formed of concrete or asphalt,
A bottom fixing plate installed on a bottom layer of a fill layer on which a ballless track is to be installed;
A sink rod fastened in a vertical direction to an upper portion of the bottom fixing plate;
A settlement plate buried in the fill layer and settled through the settlement rod in the fill layer in response to the ground subsidence of the ballless track; And
Displacement meter fastened to the settlement rod to measure the ground settlement of the settlement plate
, ≪ / RTI &
And the displacement meter measures subsidence of the settlement plate in a state of being embedded in the fill layer. The method of claim 1,
Underground ground subsidence measurement device further comprising a submerged rod angle adjustment unit is fastened to the bottom fixing plate to adjust the angle so that the submerged rod is kept vertical. The method of claim 1,
The subsidence rod is a short rod consisting of a male screw and a female screw, the ground subsidence measuring device of the ball-free track, characterized in that assembled while continuously connecting in the vertical direction. The method of claim 3,
The settlement plate has a settlement rod through-hole through which the settlement rod penetrates, and at least one ground subsidence measurement apparatus of a ball-free track, characterized in that the ground settlement is installed. 5. The method of claim 4,
And the displacement meter is fixed to the side of the settlement rod so as to measure the settlement of the settlement plate installed at least one or more. The method of claim 1,
A displacement gauge protective cover disposed to surround a side of the displacement gauge to protect the displacement gauge;
A displacement gauge protective cover disposed above the displacement gauge protective cover to protect the displacement gauge; And
Protective cover fastening part for fastening the displacement meter protective cover to the needle plate
Underground subsidence measurement device of an invisible orbit further comprising a. The method according to claim 6,
Fastening hole is formed in the sinking plate, and the protective cover fastening part is ground subsidence measuring device of the ballless track, characterized in that the bolt for fastening the displacement meter protective cover to the fastening hole of the sinking plate. The method according to claim 6,
The displacement meter protective cover is ground subsidence measuring device of the ball-free track, characterized in that the through-hole is formed through the settlement rod for measurement at the same position on the vertical line. a) installing a bottom fixing plate on a base (stable layer) on which a ballless track is installed;
b) connecting the sink bar to the bottom fixing plate, and adjusting the vertical angle of the sink bar;
c) fastening the needle plate so that the needle rod penetrates while extending and fastening the needle rod in a vertical direction;
d) installing a displacement meter on said needle plate;
e) fastening the displacement gauge protective cover and the protective lid to protect the displacement gauge;
f) forming a fill layer such that the displacement meter is embedded; And
g) the step of installing a concrete or asphalt roadbed, sleepers and rails on the fill layer to complete a ball-free track
An invisible orbital construction method comprising a ground subsidence measuring device comprising a. 10. The method of claim 9,
The submerged rod of step b) is a short rod consisting of a male screw and a female screw, and is a non-track orbit construction method comprising the ground subsidence measuring device, characterized in that it is assembled while continuously connecting in the vertical direction. 10. The method of claim 9,
The submerged plate of step c) includes a submerged rod through hole through which the submerged rod penetrates, and at least one at least one position is to be installed at a position to measure the ground subsidence. Way. 12. The method of claim 11,
And the displacement meter of step d) is fixed to the side of the settlement rod to measure the settlement of the settlement plate installed at least one or more. 12. The method of claim 11,
And the displacement gauge protective lid has a through hole through which the settlement rod penetrates for measurement at the same position on the vertical line of the at least one settlement plate. 10. The method of claim 9,
And a fastening hole is formed in the settlement plate, and the displacement gauge protective cover is fastened by a bolt to the engagement hole of the settlement plate.

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