KR102512683B1 - Tunnel support module and construction method of tunnel using the same - Google Patents

Abstract

The present invention provides a tunnel support module in which arch-shaped support beams are connected to each other by a hinge portion, rotated around the hinge portion to support the inside of a tunnel when coupled, and installed in close contact with a tunnel excavation surface.

Description

Tunnel support module and tunnel construction method using the same {Tunnel support module and construction method of tunnel using the same}

The present invention relates to a tunnel support used in a tunnel reinforcement method and a tunnel construction method using the same. It relates to a tunnel support module that can be strengthened and a tunnel construction method using the same.

A general tunnel construction method is to construct a plurality of steel support materials on the excavated surface of the tunnel immediately after tunnel excavation, and then spray and attach shotcrete to the inner circumferential surface of the tunnel. to form a structure.

This tunnel construction method adopts the principle of using the ground itself as a support material by maintaining the original strength of the original ground, and has good adaptability to ground changes and a wide applicable range, and has excellent economic feasibility under general conditions.

The steel support material is used to secure the stability of the tunnel by maximally suppressing the deformation of the excavated ground until the shotcrete is hardened during tunnel construction. Specifically, the steel support material minimizes the loosening of the ground after tunnel excavation, suppresses the initial deformation of the excavation surface, and serves as an interface so that the shotcrete and the steel support material can move together, securing the stability of the excavation surface together with the shotcrete it is essential to do

The high-strength support material has a triangular or quadrangular cross-section structure of upper and lower steel bars, and the steel bar has a shape that is combined with a spider. It is relatively light and easy to install. It has the additional advantage of reducing the amount of rebound, so it is one of the support materials widely used in tunnel construction.

A plurality of such high-strength support materials are disposed at regular intervals along the length direction of the tunnel corresponding to the excavated surface of the tunnel, and the plurality of high-strength support materials spaced apart are arranged along the length direction of the tunnel by a plurality of spacers made of deformed reinforcing bars. By being connected, the support rigidity is firmly reinforced.

Steel supports including high-strength supports must be installed immediately after excavation, close to the excavation surface, and support plates such as wood, concrete blocks, and steel plates must be installed on the foundation of the steel supports to ensure that the steel supports are firmly supported.

At this time, if the load transmitted to the base of the steel support is large, a floor-reinforced concrete support or pile should be used to secure the bearing capacity.

In addition, if it is difficult to install the steel support because the excavation surface protrudes, it must be installed after removing the protruding part, and for the part where the steel support cannot support the ground due to over-excavation, steel or concrete wedges are installed at regular intervals. Therefore, the steel support beam should be able to support the excavation surface.

If the load applied from the upper part cannot be sufficiently supported by the load applied from the upper part due to the weak bearing capacity of the ground of the steel support, in order to prevent settlement due to the applied load, the lower part of the floor of the steel support is applied so that the load applied to the unit area is less than the support of the ground An iron plate or concrete floor plate larger than the size of the floor must be inserted into the upper and lower halves, and when excavating the upper and lower halves, the upper halves must be installed and then sufficient bearing capacity must be exerted even when the upper halves are installed. should be made possible.

Wood, reinforced concrete blocks, steel plates, etc. can be used as the support plate for these steel supports, and floor reinforcement concrete must be used if necessary when the load acting on the steel supports is large.

However, the construction of tunnel steel support materials according to the prior art requires a considerable number of structures, which complicates the installation work as well as increases the construction cost due to the long construction period.

Republic of Korea Patent No. 10-0893285

The present invention has been made to solve the problems of the prior art described above, and an object of the present invention is to provide a tunnel support structure configured to be easily installed on a tunnel excavation surface.

In addition, an object of the present invention is to provide a tunnel support structure capable of reinforcing the strength of the installed support structure and increasing durability.

In addition, an object of the present invention is to minimize power required for the operation of a pumping unit or an on/off valve to achieve a smooth collecting environment of landfill gas.

In addition, an object of the present invention is to stably support the main components constituting the gas discharge device from external shocks and the like.

The tasks of the present invention are not limited to the tasks mentioned above, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention forms a form in which arch-shaped support beams are connected to each other by a hinge part, and rotates around the hinge part to support the inside of the tunnel when combined. Tunnel made to be installed in close contact with the excavation surface of the tunnel Support module is provided.

Here, three support beams are provided, and the hinge portion may be provided between adjacent support beams.

In addition, the supporting beam may be formed in the form of a hollow tube.

In addition, one side support beam has an open end centered on the hinge portion, and the other side support beam is inserted into the one side open support beam to maintain a coupled state, but an insertion coupling portion in which the end portion is open may be provided. .

In addition, the support beam may have a stick part protruding to one side in a direction crossing the arch shape, and a coupling part into which the stick part is inserted and coupled in a direction opposite to the stick part.

In addition, the stick part includes a main stick part having a predetermined length and a fitting part provided at an end of the main stick part, and the coupling part may include a fitting groove forming a state in which the fitting part is inserted.

In addition, support parts for sliding movement may be further provided at ends of the support beams on both sides of the support beams disposed in the center of the support beams.

In addition, the supporting part may include a sliding part moving along the support beam and a supporting plate provided at an end of the sliding part and supported by a tunnel bottom part.

In addition, an injection pipe for injecting a filler into at least one of the plurality of support beams may be provided.

In addition, a magnet part may be further provided at an end of one side support beam around the hinge part.

On the other hand, the present invention forms a form in which arch-shaped support beams are connected to each other by a hinge portion, and rotates around the hinge portion to support the inside of the tunnel when combined. Tunnel using a tunnel support module configured to be installed in close contact with the excavation surface of the tunnel In the reinforcement method, tunnel excavation step; Provides a tunnel reinforcement method using a tunnel support module including; rotating the support beam to fit the tunnel excavation surface around the hinge portion and installing the support beam on the tunnel excavation surface.

Here, three support beams are provided, and the hinge portion may be provided between adjacent support beams.

In addition, the supporting beam may be formed in the form of a hollow tube.

In addition, one side support beam has an open end centered on the hinge portion, and the other side support beam is inserted into the one side open support beam to maintain a coupled state, but an insertion coupling portion in which the end portion is open may be provided. .

In addition, the support beam has a stick portion protruding to one side in a direction crossing the arch shape, and a coupling portion into which the stick portion is inserted and coupled to the opposite direction of the stick portion is provided, so that the two tunnel support modules are connected to the steel portion and the coupling portion. A step of using and combining may be further included.

In addition, a sliding support portion may be further provided at an end of the support beam opposite to the hinge portion, and the step of sliding the support portion and installing the support portion on the tunnel floor may be further included.

In addition, the support beam rotated so as to be connected to the hinge part as the center, doedoe made of a tubular shape in communication with the inside, may further include the step of injecting a filler into the support beam.

In addition, after installing the tunnel support module on the tunnel excavation surface, a step of performing a shockcrete work to cover and surround the tunnel support module may be further included.

The tunnel support module and the tunnel construction method using the same according to an embodiment of the present invention configured as described above have the following effects.

First, according to the tunnel support module and the tunnel construction method using the same according to an embodiment of the present invention, the installation work is performed to support the excavation surface of the tunnel using the tunnel support module in which all components are integrated as a whole, so that the installation work is performed. Not only is it stable and simple, but it also has the effect of drastically shortening the entire tunnel construction period.

Second, according to the tunnel support module and the tunnel construction method using the same according to an embodiment of the present invention, the support state inside the tunnel of the installed tunnel support module can be strengthened by injecting a filler into the tunnel support module installed on the excavation surface to harden it. It can, of course, bring about an effect of increasing durability.

Third, according to the tunnel support module and the tunnel construction method using the same according to an embodiment of the present invention, a plurality of tunnel support modules have the same distance apart and maintain a state coupled with an adjacent tunnel support module, so that the inside of the tunnel is This has the effect of distributing the force evenly.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view showing a tunnel guidance module according to an embodiment of the present invention;
Figure 2 is an exploded perspective view showing the connection state of the supporting portion installed on the lower side of the support beam;
3 is a view schematically showing the state in which the central support beam and the side support beam are coupled around the hinge portion;
4 schematically shows an excavated tunnel;
5 is a perspective view showing a state in which a tunnel support module is installed at an excavated tunnel entrance;
FIG. 6 is a perspective view showing a state in which filler is injected into the tunnel support module installed in FIG. 5;
7 is a perspective view showing a state in which two tunnel support modules are installed in a coupled state to an excavated tunnel;
8 is a perspective view showing a state in which a plurality of tunnel support modules are installed in an excavated tunnel;
9 is a perspective view schematically showing a state in which shockcrete work is performed on a tunnel in which a tunnel support module is installed; and
10 is a diagram showing a tunnel guidance module according to another embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention in which the object of the present invention can be realized in detail will be described with reference to the accompanying drawings. In describing the present embodiment, the same name and the same reference numeral are used for the same configuration, and additional description thereof will be omitted.

First, a structure according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a tunnel support module according to an embodiment of the present invention, FIG. 2 is an exploded perspective view showing the connection state of a support part installed under one side support beam, and FIG. 3 is a central support beam and a side part centered on a hinge part It is a drawing schematically showing how the support beams are coupled.

As shown, the tunnel support module 100 according to this embodiment forms a form in which the arch-shaped support beams 110 and 120 are connected to each other so that they can be combined by rotating each other by the hinge portion 123, the hinge portion It is made to be installed in close contact with the arch-shaped tunnel excavation surface so as to support the tunnel excavated during coupling by rotating around (123).

The support beam is composed of a central support beam 110 and a pair of three side support beams 120 rotatably provided by hinge parts 123 on both sides of the central support beam 110, and the entire support beam is approximately semicircular when connected. form an arch.

That is, each of the support beams 110 and 120 has a predetermined arch shape, and when the three support beams 110 and 120 are connected to each other, they are formed in close contact with the inner surface of the excavated tunnel. (110, 120) is made in the form of a hollow tube inside.

In addition, each of the support beams 110 and 120 has a tubular shape with both ends open, and the adjacent support beams are centered on the hinge part 123, and the other support beam is inserted into the inner side of the one support beam in an interference fit method It is provided with an insertion coupling portion 128 to maintain the coupled state.

Here, the insertion coupling portion 128 is also configured to have an open end, so that the two support beams 110 and 120 are in communication with each other when rotated by the hinge portion 123 and coupled to each other.

On the other hand, each of the support beams 110 and 120 has a stick part 140 protruding to one side in a direction crossing the arch shape, and the stick part 140 is inserted in the direction opposite to the stick part 140. A coupling part 130 to be coupled is provided.

More specifically, the stick part 140 is a rod-shaped main stick part 141 having a predetermined length, and a considerably shorter diameter than the main stick part 141 at the end of the main stick part 141. It includes a connection part 142 having a length and a fitting part 143 provided at an end of the connection part 142, and the coupling part 130 is made in a predetermined drum shape, and the fitting part 143 is inserted and fitted. It is configured to include a fitting groove 135 to maintain the state.

The stick part 140 and the coupling part 130 are provided at predetermined intervals along the longitudinal direction of the support beams 110 and 120 at positions corresponding to each other.

In addition, in the tunnel support module 100 according to this embodiment, the side supports 120 are inserted at the ends of the side support beams 120 on both sides of the central support beam 110 disposed in the center among the support beams 110 and 120. A supporting portion 150 sliding along the direction is further provided.

The supporting part 150 is provided at the end of the sliding part 151 and the sliding part 151 in the form of a pipe with an open top and forming a predetermined arch shape to move along the side support beam 120, and the tunnel floor It is configured to include a support plate 152 made in the form of a plate-shaped board supported by the unit.

In addition, at least one of the plurality of support beams 110 and 120 is provided with an injection pipe 170 for injecting a filler into the inside of the support beam. In FIG. 1, only one side support beam 120 has an injection pipe 170 Although this is shown, the injection pipe 170 may be provided in various positions in each of the support beams 110 and 120, unlike shown.

On the other hand, although not shown, the support beams 110 and 120 are made of a steel material, but around the hinge part 123, the insertion coupling part 128 or the insertion coupling part 128, one side of the support beam It is preferable that a magnet part is further provided at the end so that the coupling between the support beams is more easily achieved by magnetic force.

A method of constructing a tunnel using the tunnel support module configured as described above will be described as follows.

First, as shown in FIG. 4, an operation of excavating a tunnel by a preset length is performed. Excavation techniques according to various known technologies are applied to the tunnel excavation, and it is preferable that the excavation surface trimming is already performed for the preferred installation of the tunnel support module.

Then, as shown in FIG. 5, the tunnel support module 100 is installed from the excavated tunnel entrance.

In the installation of the tunnel support module 100, the central support beam 110 is installed so as to be in close contact with the upper center of the excavated tunnel, and then the side support beam 120 is rotated around the hinge part 123 so that the rest of the tunnel The central support beam 110 and the side support beams 120 on both sides are coupled while forming a state in which the insertion coupling portion 128 is inserted into the adjacent support beams 110 and 120 while being in close contact with both sides of the excavation surface.

Next, by connecting a separate connection hose 207 to the injection pipe 170 with a filler such as concrete, and injecting it using an external pump, the inside of the tunnel support module 100 is completely filled with the filler, and time lapses. By being hardened over time, the support beams 110 and 120 are completely fixed to each other to firmly maintain the arch shape.

Next, in the same way, a new tunnel support module 100 is installed at a preset distance from the previously installed tunnel support module 100 from the tunnel entrance side, but at this time, the fitting portion 143 of the stick portion 140 is inserted into the fitting groove 135 of the coupling part 130 and fixed, so that the tunnel support modules 100 maintain a predetermined distance between each other and are coupled and at the same time support the inner surface of the excavated tunnel.

Then, the process of injecting the filler into the newly installed tunnel support module 100 using the injection pipe 170 is performed again, and the new tunnel support module 100 is installed in the same way as described above. A state in which a plurality of tunnel guidance modules 100 are installed is as shown in FIG. 8 .

On the other hand, after the tunnel support module 100 is installed over a certain section, the shockcrete work is performed in the form of covering and wrapping the outside of the tunnel support module 100 installed inside the tunnel excavation surface, as shown in FIG. .

Here, the shockcrete work can be performed after the tunnel support module 100 is installed over a considerable section from the tunnel entrance, or after installing one or two tunnel support modules 100, the shockcrete work is performed, and again The process of installing a preset number of tunnel guidance modules 100 may be alternately performed.

According to the tunnel support module configured as described above and the tunnel construction method using the same, the installation and construction work is performed to support the excavated surface of the tunnel using the tunnel support module in which all components are integrally formed, thereby simplifying the installation work as well as the entire tunnel It has the effect of drastically shortening the construction period of support.

In addition, by injecting the filler into the tunnel support module installed on the excavation surface to harden it, it is possible to strengthen the support state of the installed tunnel support module inside the tunnel and bring about an effect of increasing durability.

Furthermore, a plurality of tunnel support modules each have the same distance apart and remain coupled to adjacent tunnel support modules, resulting in an effect of uniformly distributing the force applied inside the tunnel.

10 is a diagram showing a tunnel guidance module according to another embodiment of the present invention.

The tunnel support module 100 according to this embodiment also forms a form in which the arch-shaped support beams 110 and 120 are connected so that they can be coupled by rotating each other by the hinge part 123, and the hinge part 123 is the center It is made to be installed in close contact with the arch-shaped tunnel excavation surface so as to support the tunnel excavated during coupling by rotating to.

In addition, each of the support beams 110 and 120 has a predetermined arch shape, and when the three support beams 110 and 120 are connected to each other, they are formed in close contact with the inner surface of the excavated tunnel. (110, 120) is made in the form of a hollow tube inside.

On the other hand, according to the present embodiment, the cover part 122 made of rubber material covers the outside of the arbitrary support beams 110 and 120 in the initial state, and then slides and moves when necessary to cover and surround the area around the hinge part 123. are provided

In the case of the present embodiment, by moving the lid portion 122 to cover and surround the hinge portion 123, when the filler is injected at high pressure through the injection pipe 170, it is possible to prevent the filler from leaking out around the hinge portion 123 As a result, it is possible to strengthen the durability around the hinge portion 123 of the tunnel support module 100 to be finally built.

At this time, some of the support beams 110 and 120 around the hinge part 123 are formed with a through hole 102 through which the inside and outside pass, and the cover part 122 covers the through hole 102 so that the through hole It may be possible to press the outer cover to determine the degree of filling and hardening of the inner filler.

Here, a portion of the corresponding position where the cover part 122 covers the through hole 102 may form a protruding shape inserted into the through hole 102 .

That is, the cover part 122 may be provided with a protruding part inserted into the through hole 102 .

In addition, a predetermined color part is applied to the area corresponding to the through hole 102 to the part where the cover part 122 covers the through hole 102, and the filling material is changed through the size change of the color part part. It is also possible to prevent overfilling of .

Those skilled in the art to which the present invention described above belongs will understand that the present invention can be embodied in other specific forms without changing its technical spirit or essential features. Therefore, the above-described embodiments should be understood as illustrative in all respects and not limiting. The scope of the present invention is indicated by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention.

100: tunnel support module
110: central support beam
120: side support beam
130: coupling part
138; insertion joint
140: stick part
150: supporting part

Claims (18)

The arch-shaped support beams are connected to each other by a hinge portion, and are rotated around the hinge portion to support the inside of the tunnel when combined and to be installed in close contact with the excavation surface of the tunnel,
Three support beams are provided, and the hinge portion is provided between adjacent support beams.
The support beam is made in the form of a hollow tube inside,
At the same time as the end of one side support beam is opened around the hinge portion, the other side support beam is inserted into the inside of the one side open support beam to maintain a coupled state, but an insertion coupling portion is provided with an open end,
The support beam has a stick portion protruding to one side in a direction crossing the arch shape,
A coupling portion into which the stick portion is inserted and coupled is provided in a direction opposite to the stick portion,
The stick part includes a main stick part having a predetermined length and a fitting part provided at an end of the main stick part,
The coupling part includes a fitting groove forming a state in which the fitting part is inserted,
Supports for sliding movement are further provided at the ends of the support beams on both sides of the support beams disposed in the center of the support beams,
The supporting part includes a sliding part moving along the support beam and a supporting plate provided at an end of the sliding part and supported on a tunnel bottom part,
At least one of the plurality of support beams is provided with an injection pipe for injecting a filler into the support beam,
A cover portion made of rubber material is further provided to be movable along the support beam and to cover and surround the area around the hinge portion by sliding and moving when necessary,
A part of the support beam around the hinge part is formed with a through hole through which the inside and outside pass through.
Tunnel guidance module. delete delete delete delete delete delete delete delete According to claim 1,
A magnet part is further provided at the end of one side support beam centered on the hinge part,
Tunnel guidance module. The arch-shaped support beams are connected to each other by a hinge part, and are rotated around the hinge part to support the inside of the tunnel when coupled and to be installed in close contact with the tunnel excavation surface. Three support beams are provided, but are adjacent The hinge part is provided between the support beams, and the support beam is made in the form of a hollow tube, and the end of one support beam is opened around the hinge part, and the other support beam is opened at the same time. An insertion coupling portion is provided with an open end while being inserted into the inside to maintain a coupled state, and the support beam has a stick portion protruding to one side in a direction crossing the arch shape, and the stick portion is provided in a direction opposite to the stick portion. A coupling portion to be inserted and coupled is provided, the stick portion includes a main stick portion having a predetermined length and a fitting portion provided at an end of the main stick portion, and the coupling portion includes a fitting groove forming a state in which the fitting portion is inserted, wherein the A sliding support part is further provided at the end of the support beam on both sides of the support beam disposed in the center of the support beam, and the support part is provided at the end of the sliding part and the sliding part moving along the support beam and supported on the tunnel floor It includes a support plate, and at least one of the plurality of support beams is provided with an injection tube for injecting a filler into the inside, and is disposed movably along the support beam, but is slidingly moved when necessary to cover the area around the hinge part In a tunnel reinforcement method using a tunnel support module in which a cover portion made of a rubber material is further provided, and a through hole is formed in a part of the support beam around the hinge portion through which the inside and the outside pass through,
tunnel excavation;
Rotating the support beam around the hinge to fit the tunnel excavation surface and installing the support beam on the tunnel excavation surface;
installing the cover so as to cover and surround the hinge and the through hole;
combining the two tunnel support modules using the stick part and the coupling part;
Injecting a filler into the support beam; and
determining a filling state using a cover around the through hole;
including,
Tunnel reinforcement method using tunnel support module. delete delete delete delete delete delete According to claim 11,
After installing the tunnel support module on the tunnel excavation surface,
Further comprising performing a shockcrete work to cover and surround the tunnel support module,
Tunnel reinforcement method using tunnel support module.

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