KR102208236B1 - Semi Open Cut Type Supporting System of Tunnel and the Construction Method of Tunnel Using by Same - Google Patents

Abstract

The present invention relates to a semi-open cut type support system for a tunnel and a tunnel construction method using the same, wherein the semi-open cut type support system for a tunnel can construct the tunnel by installing a steel support in a semi-open cut state in a shallow section. More specifically, the semi-open cut type support system for a tunnel comprises: foundations formed by excavating the ground; a steel support of which both end portions are mounted on upper portions of a plurality of foundations and which supports a load of earth; a support material bonded to a lower end of the steel support and resisting an earth pressure; and reinforced concrete sprayed inside or outside the steel support and the support material.

Description

Semi Open Cut Type Supporting System of Tunnel and the Construction Method of Tunnel Using by Same}

The present invention relates to a semi-opened tunnel support system capable of constructing a tunnel by installing a steel support in a semi-opened state in a low-topic section, and a tunnel construction method using the same.

Patent Document 001 applies NATM consisting of excavation processes such as drilling and blasting, burr treatment, shotcrete placement, rockbolt installation, steel support installation, etc. to complete the main tunnel. A pair of underground continuous walls are formed in a buried form at a location with a gap corresponding to the width of the main tunnel on the ground of the formed arched surface, and a concrete arch structure is formed above the pair of underground continuous walls. Combined, the soil generated by the cutting operation is covered above the concrete arch structure, the pair of underground continuous walls and the soil existing inside the concrete arch structure are excavated, and the pair of underground continuous walls and It presents a technology that includes the construction of excavating the main tunnel after lining the inner side of the concrete arch structure with finishing concrete.

Patent Document 002 describes the steps of cutting the original ground to a certain depth, installing a prefabricated arch structure on the cut floor, refilling the soil on the top of the arched structure, and excavating the ground under the arched structure. And forming a tunnel, and the arc-shaped structure for semi-opening tunnel construction in a low-topping section includes a plurality of arcuate H-beams spaced apart from the cut floor, and a plurality of earth plates densely interposed between the arch-shaped H-beams. , And a foundation for transmitting the load acting on both ends of the arched H-beam to the ground is proposed.

Patent Document 003 is a ground semi-breaking step of breaking the ground only up to the top arch of the tunnel; A wire mesh laying step of installing a wire mesh on the bottom after selecting a surface of the bottom corresponding to the tunnel top arch; A steel installation step of arranging a steel material selected from the group consisting of a circular steel pipe, an H-beam, and a grid support on the wire mesh at regular intervals in the transverse direction and fixing the steel material to the wire mesh; The wire mesh by spraying shotcrete so that the steel materials are not exposed by filling the space between the steel materials, the space between the wire mesh and the steel materials, the space between the steel materials, and the space between the steel materials, A shotcrete spraying step of forming an arcuate structure in which the steel material and the shotcrete are integrated and integrally coupled to the bottom of the tunnel top arch portion; And a backfilling step of refilling the soil on the arched structure.

Patent Document 004 is a step of drilling the upper half of the tunnel to form a hole, inserting a multistage steel pipe grouting device into the drilled hole, and filling the multistage steel pipe grouting apparatus with mortar; A grid support is installed in the upper half of the tunnel spaced a certain distance from the steel pipe multi-stage grouting device, reinforcing reinforcing bars are placed on the grid support, a wire mesh is installed on the reinforcing bar, and plywood is installed on the wire mesh, A shotcrete injection hole is installed in the plywood, a primary shotcrete is poured on the grid support, a secondary shotcrete is placed on the primary shotcrete, the plywood is removed, and a tertiary shotcrete is placed in the shotcrete injection hole. A technology including the step of pouring and constructing a lining concrete for pouring and curing concrete on the grid support is proposed.

KR 10-Special 2003-0037086 A (May 12, 2003) KR 10-2007-0095481 A (October 1, 2007) KR 10-2019-0072213 A (June 25, 2019) KR 10-1536209 B1 (07/07/2015)

The present invention relates to a semi-opened tunnel support system capable of constructing a tunnel by installing a steel support in a semi-opened state in a low-topic section, and a tunnel construction method using the same.

The present invention is to solve the problems of the conventional invention, the present invention is a foundation 100 formed by excavating the ground 10;, the two ends are seated on the upper portion of the plurality of foundations 100, the steel support for supporting the load of soil ( 200); A support material 500 that is bonded to the lower end of the steel support 200 and resists earth pressure; Consists of a configuration including; the steel support 200 and the reinforced concrete 600 sprayed to the inside or outside of the support material 500.

The present invention is the invention of the tunnel semi-opening support system, the base 100 presented above;, the steel support 200;, support material 500;, reinforced concrete 600; the base 100 on the invention consisting of It is formed on, the base surface 110 formed at the bottom of the excavated ground 10; A mounting groove 120 formed by excavating both ends of the base surface 110 and in which the lower end of the steel support 200 is seated; is added.

The present invention is the invention of the tunnel semi-opening support system, the base 100 presented above;, the steel support 200;, support material 500;, reinforced concrete 600; in the invention consisting of the steel support (200) ) Formed in, and seated in the seating groove 120; It is connected to the base steel support 300, the main steel support 400 formed as an arch; is added.

The present invention is an invention for a tunnel semi-opening support system, the base 100 presented above;, steel support 200;, support material 500;, reinforced concrete 600; in the invention consisting of a plurality of the main steel support A spacer 410 that connects 400 and maintains a gap; It is formed on the outside of the cast steel support 400, a formwork 420 that prevents separation of the reinforced concrete 600; is added.

The present invention is an invention of a tunnel semi-breaking support system, and the foundation 100 presented above;, steel support 200;, support material 500;, reinforced concrete 600; A joint portion 310 formed on 300 and joined to the main steel support 400; A fixing part 320 extending outward from the lower end of the connection part 330 and fixed to the base 100; A connection part 330 connecting the connection part 330 and the fixing part 320; is added.

The present invention is an invention for a tunnel semi-opening support system, and the foundation 100 presented above;, steel support 200;, support material 500;, reinforced concrete 600; in the invention consisting of the support material 500 A connection support member 510 formed on the steel supporter 200 and connected to the steel supporter 200; A support body 520 supported on the ground 10 between the plurality of connection support members 510; is added.

The present invention is an invention of a tunnel construction method using a tunnel semi-opening support system, and the above-presented foundation (100);, steel support (200);, support material 500;, reinforced concrete 600; The excavation step (S1100) of excavating the ground 10 on;, After the excavation step (S1100), the foundation excavation step (S1200) of excavating the foundation 100; After the base excavation step (S1200), a seating step (S1300) of seating the gangjibo 200 on the base 100; After the seating step (S1300), a backfill step (S1400) of backfilling the ground 10; consists of a configuration including.

The present invention is an invention of a tunnel construction method using a tunnel semi-opening support system, and the excavation step (S1100) of excavation presented above;, the basic excavation step (S1200);, the settlement step (S1300);, the backfill step (S1400) ); After the backfilling step (S1400) to the invention consisting of, an internal excavation step (S1500) of excavating the ground 10 under the steel support 200; After the internal excavation step (S1500), a bonding step (S1600) of bonding the support material 500 to the steel support material 200 (S1600); is added.

The present invention can minimize damage to the surrounding environment, reduce construction cost, and shorten the construction period as the support is constructed by semi-removing the ground.

The present invention can shorten the construction period as the basic steel support and the main steel support are manufactured and constructed in a module format in a factory.

The present invention can increase the resistance to the load of soil as the steel jib is manufactured in the factory.

In the present invention, as the end of the main steel support is formed to surround the end of the basic steel support, the bonding strength is improved and the attachment is easy, so that workability can be increased.

The present invention can increase the bonding strength with the support material by the bonding cover formed to be detachable to the base steel support.

In the present invention, since the ground under the tunnel is excavated in the process of backfilling the soil, work efficiency can be improved.

The present invention can spray reinforced concrete within a worker's working radius by installing the steel beam in a semi-opened state.

1 is a cross-sectional view of a tunnel constructed using the tunnel semi-opening support system of the present invention.
Figure 2 is a perspective view of the tunnel semi-open support system of the present invention.
Figure 3 is a perspective view of the foundation steel beam installed on the foundation of the present invention.
Figure 4 is a perspective view showing a state in which the main steel support is installed on the foundation steel support shown in Figure 3;
Figure 5 is a perspective view showing the combination of the basic steel support and the main steel support of the present invention.
Figure 6 is a perspective view showing a steel sheet of the present invention.
7 is a cross-sectional view showing a state in which reinforced concrete is sprayed on the steel beam shown in FIG. 6.
8 is a perspective view showing a nail in which a steel sheet is installed according to another embodiment of the present invention.
9 is a flow chart showing a tunnel construction method using a tunnel semi-opening support system according to another embodiment of the present invention.
FIG. 10 is a perspective view illustrating a tunnel construction method using the tunnel semi-opening support system shown in FIG. 9.

Hereinafter, in order to describe in detail enough that a person of ordinary skill in the art can easily implement the present invention, a most preferred embodiment of the present invention will be described in detail.

The numbers cited in the following examples are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the examples corresponds to an equal substitution object. The upper concept presented in the examples includes the lower concept object that is not described.

(Example 1-1) In the present invention, in the tunnel semi-opening support system, the foundation 100 formed by excavating the ground 10;, Both ends are seated on the top of a plurality of foundations 100, and support a load Kang Ji-Bo (200); A support material 500 that is bonded to the lower end of the steel support 200 and resists earth pressure; It includes; reinforced concrete 600 sprayed to the inside or outside of the steel support 200 and the support material 500.

(Example 1-2) The semi-opened support system of the present invention in Example 1-1, wherein the semi-opened support system excavates the ground 10 formed in a low-to-top section.

(Example 1-3) In Example 1-2, the tunnel semi-opening support system of the present invention includes: an excavation space 11 formed by excavation; It includes; cutting surfaces 12 formed on both sides of the excavation space 11 to be cut.

(Example 1-4) In the tunnel semi-breakable support system of the present invention in Example 1-1, the steel support 200 and the support material 500 are among H-beam, I-beam, steel pipe, and concrete pipe. It includes; formed into one selected.

(Example 1-5) In the tunnel semi-breakable support system of the present invention in Example 1-1, the reinforced concrete 600 is inside or outside the steel support 200 and the support material 500 by pressure. It includes; formed of shotcrete sprayed on.

The present invention relates to a semi-open tunnel support system. Specifically, in order to construct a tunnel in the low-topic section, the ground 10 is excavated to install the steel support 200. In general, the excavation method of the tunnel is roughly classified into the excavation method by explosive blasting or the excavation method using mechanical excavation equipment such as TBM, and the tunnel is constructed while gradually increasing the depth of the tunnel through such a method. In order to excavate a tunnel with such an excavation method, the top cover layer (covering thickness) at the top of the tunnel must be more than a certain thickness, whereas in the low top cover section where the top cover layer is thin, the top cover layer is removed to install a tunnel structure. Is used. In this case, the tunnel structure is installed by excavating the topi layer, and then backfilling to complete the tunnel is referred to as a cut-off method.

The semi-breakable tunnel support system of the present invention minimizes environmental damage around the tunnel and enables rapid construction by breaking the cover layer in half of the tunnel structure, thereby minimizing or preventing civil complaints during construction. The ground 10 for forming a tunnel is excavated to form an excavation space 11, and both sides of the excavation space 11 are excavated diagonally to form a cut surface 12. In addition, a foundation 100 on which a tunnel structure, which is a steel support 200 is mounted, is formed at the bottom of the cut surface 12, and the foundation 100 is formed on both sides of the steel support 200, respectively. At this time, the steel support 200 is seated on the foundation 100, and the steel support 200 is formed in an arcuate shape to support the load of the ground 10.

The steel support 200 is formed of an H-beam, I-beam, a steel pipe, a concrete pipe, etc., and after the steel support 200 is fixed and installed on the foundation 100, a plurality of inside or outside the steel support 200 Between the steel beams of the reinforced concrete 600 is poured in the shotcrete method. When the river support 200 is installed in the excavation space 11 excavated in a semi-drilling manner, the soil is backfilled to the upper part of the river support 200, and the bottom of the river support 200 is excavated at the same time. By installing the support material 500 is to shorten the construction period.

Therefore, the semi-opened tunnel support system has the characteristics of reducing the construction period by installing the steel support 200 in a semi-opened state in order to construct a tunnel in a low-topic section, minimizing the impact on the surrounding environment and civil complaints during construction. .

(Example 2-1) The present invention relates to a tunnel semi-breakable support system, and in Example 1-1, a base surface formed on the base 100 and formed at the lower end of the excavated base 10 ( 110); It includes; a mounting groove 120 formed by excavating both ends of the base surface 110, the lower end of the steel support 200 is seated.

(Example 2-2) In Example 2-1, the tunnel semi-opening support system of the present invention is poured into the mounting groove 120, and the foundation concrete 130 for fixing the lower end of the steel support 200 ; Includes; a fixing pile 140 penetrating the mounting groove 120 and fixed to the ground 10 under the tunnel.

(Embodiment 2-3) In the tunnel semi-opening support system of the present invention, in Embodiment 2-2, the base surface 110 and the seating groove 120 are formed in an oblique line.

(Embodiment 2-4) In the tunnel semi-opening support system of the present invention, in Embodiment 2-2, the fixed pile 140 extends and is inserted into the lower end of the support member 500.

The present invention relates to the base 100, specifically, the base 100 is formed under the excavation space 11 formed by excavating the ground 10, and fixes the steel support 200. The foundation 100 is formed with a foundation surface 110 formed at the bottom of the excavated ground 10, and the foundation surface 110 is at both ends of the steel support 200 so that the arch-shaped steel support 200 is seated. Each is formed. In addition, the base surface 110 is formed with a seating groove 120 in which the steel support 200 is seated and the foundation concrete 130 is poured. The seating groove 120 is formed in a rectangular cross-section that is elongated in the longitudinal direction, and the fixing pile 140 is inserted into the ground 10 at the lower end of the seating groove 120. The fixed pile 140 is fixed vertically and diagonally to fix the sidewall of the tunnel, and the type of the fixed pile 140 is not limited. In addition, the fixed pile 140 may not be installed depending on the ground condition. In this case, the base surface 110 on which the seating groove 120 is formed may be formed horizontally, but may be formed in an oblique line according to the shape of the steel support 200 formed in an arcuate shape. Such a foundation 100 prevents the steel support 200 formed in an arcuate shape from spreading, and reduces loads such as earth pressure, shear stress, and bending stress acting on the steel support 200.

Therefore, the base 100 of the present invention is formed at the bottom of the excavation space 11 where the ground 10 is excavated, and the base surface 110 and the mounting groove 120 are formed so that the steel support 200 is seated. It has a feature that the base concrete 130 and the fixing pile 140 are formed in the mounting groove 120.

(Example 3-1) The present invention relates to a semi-open tunnel support system, and in Example 2-1, a basic steel support beam formed in the steel support 200 and seated in the seating groove 120 ( 300); It is connected to the base steel support 300, and the main steel support 400 formed as an arch; includes.

(Embodiment 3-2) In the tunnel semi-opening support system of the present invention, in Example 3-1, the main steel support 400 is formed to be spaced apart from the other main steel support 400, and is arranged at equal intervals. Includes;

(Example 3-3) In the tunnel semi-opening support system of the present invention in Example 3-2, the main steel support 400 is a coupling plate 430 coupled to the basic steel support 300; It is formed on the side of the coupling plate 430, and a side plate 440 surrounding the end of the base steel support 300; includes.

(Embodiment 3-4) In the tunnel semi-opening support system of the present invention in Embodiment 3-3, the coupling plate 430 is coupled to the basic steel support 300 by one selected from bolts and welding; Include.

(Example 3-5) In Example 3-3, the tunnel semi-opening support system of the present invention includes a plurality of main steel supports 400 that are separated and formed, and are connected to each other to form an arcuate shape; .

(Embodiment 3-6) The tunnel semi-opening support system of the present invention includes a partition plate for partitioning the main steel support 400 from each other according to Example 3-5.

The present invention relates to a steel support 200, specifically, the steel support 200 is formed with a basic steel support 300 and a main steel support 400 that are seated in the seating groove 120 of the base 100. As the steel support 200 is formed integrally or separated from the basic steel support 300 and the cast steel support 400, it is possible to improve workability and facilitate movement. The base steel support 300 has a lower end seated on the base 100 and reinforced by the foundation concrete 130, and the main steel support 400 is a coupling plate 430 and a side plate that are combined with the foundation steel support 300. 440) is formed. As the side plate 440 is formed to extend from the outer surface of the coupling plate 430 to the lower end, it is formed in a box shape and is formed to surround the end of the base steel support 300. The basic steel support 300 and the cast steel support 400 are fixed by fixing hardware formed of bolts or the like or by welding. In addition, the cast steel support 400 is formed to be separated into a plurality of cast steel supports 400 manufactured in the factory are assembled to each other at the tunnel site to form an arch shape. At this time, the separate cast steel support 400 is formed with a partition plate and is fixed by bolting and welding.

Therefore, the steel support 200 of the present invention is mounted on the foundation 100 and fixed by the foundation concrete 130 and the main steel support 400 coupled to the foundation steel support 300 is formed. It has a characteristic to be.

(Embodiment 3-7) According to the embodiment 3-1, the tunnel semi-breakable support system of the present invention includes an assembly 450 connecting the main steel support 400 and the basic steel support 300.

(Example 3-8) In Example 3-7, the tunnel semi-opening support system of the present invention protrudes to the upper and/or lower portion of the assembly 450, and the main steel support 400 and the basic steel support system Includes; a pair of fixtures 451 fixing the 300.

(Example 3-9) In the tunnel semi-opening support system of the present invention in Example 3-8, the assembly 450 is the fixed body 451, the main steel support 400, and the basic steel support 300 ) Penetrating through hardware 452; includes.

(Example 3-10) The semi-opening support system of the present invention in Example 3-8, wherein the fixed body 451 is bent and protruded at the same angle as the steel support 200. .

The present invention is for the steel support 200, the main steel support 400 and the base steel support 300 to each other connecting body 450 is formed. This combination 450 is formed between the main steel support 400 and the basic steel support 300, and as the fixed body 451 protrudes to the top and bottom, respectively, the main steel support 400 and the basic steel support 300 Connect with each other. When the main steel support 400 and the basic steel support 300 are formed of steel frame, the fixed body 451 is separated to correspond to each other on both sides, and the steel support 200 is inserted, and the fixed body 451 and the steel support 200 ) Is fixed by the through hardware 452. And the fixture 451 is formed in a curved shape so as to be inserted into the steel support 200 formed in an arcuate shape.

(Embodiment 4-1) The present invention relates to a semi-open tunnel support system, and in Embodiment 3-1, a spacer 410 for connecting a plurality of the main steel supports 400 and maintaining a gap; It is formed on the outside of the cast steel support 400, a formwork 420 that prevents the separation of the reinforced concrete 600; includes.

(Example 4-2) In the tunnel semi-breakable support system of the present invention, in Example 4-1, the main steel support 400 is formed by combining a plurality of the spacers 410 and the formwork 420 It includes; to be formed in a PC (precast) structure.

(Example 4-3) In Example 4-2, the tunnel semi-breakable support system of the present invention is formed on the main steel support 400, and the wire mesh and nonwoven fabric 422 to which the reinforced concrete 600 is sprayed Includes;

The present invention relates to the cast steel support 400, specifically, the plurality of cast steel support 400 is maintained by a spacer 410, a form 420 that prevents the reinforced concrete 600 from being separated Is formed. This cast steel support 400 is formed in a PC structure in which a plurality of cast steel supports 400 are formed by a plurality of spacers 410, and the PC structure includes a plurality of cast steel supports 400 in a factory spacer 410 And if it is produced by the formwork 420, it will be assembled at the tunnel site. At this time, the PC structure is formed in a module type, a wire mesh is formed, and a nonwoven fabric 422 is formed on the outside of the wire mesh. And the formwork 420 is formed in a certain size. After the main steel support 400 is coupled to the foundation steel support 300, when the formwork 420 is also coupled to the foundation steel support 300, the reinforced concrete inside or outside the main steel support 400 and the foundation steel support 300 ( 600) is poured. The reinforced concrete 600 is injected and poured by shotcrete, and the thickness and pouring direction of the shotcrete are not limited. At this time, as the reinforced concrete 600 is poured, the bending stress and shear stress of the steel support 200 can be improved and the construction period can be reduced. In addition, as the steel support 200 is installed in a semi-opening manner, the operator can install the steel support 200 at a low position and at the same time pour the reinforced concrete 600.

Therefore, the cast steel support 400 is formed in the form of a module in which a plurality is connected to each other, and a spacer 410 is formed so that the cast steel support 400 is installed at equal intervals, and the reinforced concrete 600 is formed by the formwork 420. It has the characteristic of being poured with shotcrete.

(Embodiment 4-4) In Embodiment 4-1, the tunnel semi-breakable support system of the present invention comprises: a wire for controlling the deformation of the cast steel support 400; It includes; a pressure device for adjusting the pressure of the wire.

The present invention relates to the cast steel support 400, specifically, the wire is arranged in a zigzag outside the cast steel support 400 to prevent the deformation of the steel support 200. Such a steel support 200 may be bent or sheared by the load of soil. In order to prevent bending and shear, reinforced concrete 600 is poured on the inside and outside of the steel beam 200, and wires are arranged in a zigzag inside the reinforced concrete 600 to prevent the reinforced concrete 600 and the steel beam 200. ) To reinforce. And the wire regulates the pressure of the wire by means of a pressure device. At this time, the pressure device is a wire is connected to one end and both ends to control the pressure device to control the tension of the wire.

(Example 5-1) The present invention relates to a tunnel semi-breakable support system, and in Example 3-1, a joint 310 formed on the basic steel support 300 and joined to the main steel support 400 ); A fixing part 320 extending outward from the lower end of the junction part 310 and fixed to the base 100; And a connection part 330 connecting the bonding part 310 and the fixing part 320.

(Example 5-2) In the tunnel semi-opening support system of the present invention, in Example 5-1, the basic steel support 300 is a PC (precast) structure formed by combining a plurality of the factory and the tunnel outside. Formed; includes.

(Embodiment 5-3) In Embodiment 5-2, the tunnel semi-breakable support system of the present invention includes a connecting member 340 connecting a plurality of the basic steel supports 300 to each other.

(Example 5-4) In the tunnel semi-opening support system of the present invention in Example 5-2, the bonding portion 310 is a bonding plate 311 coupled to the bonding plate 430 of the main steel support 400 Includes;

(Example 5-5) In Example 5-2, the fixed part 320 is fixed to the ground 10 by anchor bolts or welded to the pre-built connector 340 in Example 5-2. It is fixed and inserted into the foundation concrete 130 to be fixed; includes.

The present invention is for the base gangjibo 300, specifically, the base gangjibo 300 is to be seated on the seating portion of the base 100. The basic steel support 300 is formed with a module-type basic steel support 300 at the same intervals as the main steel support 400 formed as a PC structure module to shorten the construction period and increase work efficiency. The base steel support 300 is formed with a joint 310 joined to the main steel support 400, and the joint 310 is formed with a joining plate 311 in contact with the joining plate 430 of the main steel support 400. The bonding plate 311 is inserted between the bonding plate 430 and the side plate 440 formed at the end of the cast steel support 400. Accordingly, it is possible to increase the coupling force between the main steel support 400 and the foundation steel support 300, and the load acting on the main steel support 400 is transmitted to the ground 10 toward the foundation steel support 300. At this time, as the bonding plate 311 is inserted between the box-shaped bonding plate 430 and the side plate 440, the load is smoothly transmitted, and the main steel support 400 and the basic steel support 300 are damaged from each other. Can be prevented.

The joint 310 has a fixing part 320 coupled to one end, and the fixing part 320 is formed smaller than the width of the mounting groove 120 of the base 100 so that the fixing part 320 in the base concrete 130 Is accepted. And the plurality of fixing parts 320 are fixed by the connecting member 340, the connecting member 340 is coupled to the upper and lower ends of the fixing part 320, and the basic steel support ( 300) is deployed. In addition, the fixing part 320 is fixed to the ground 10 of the seating groove 120 by anchor bolts, etc., or welded to the pre-fabricated connector 340 to prevent the steel beam 200 from moving or deforming. I can. The connection part 310 and the fixing part 320 are supported by the connection part 330, and the connection part 330 is formed in an oblique line, and one end is received in the foundation concrete 130 to support the load of the main steel support 400 It is to fix (310).

Therefore, as the base steel support 300 is seated and fixed on the base 100, the main steel support 400 is fixed, and as it is formed in a module form by the connector 340, the module type main steel support 400 is the same. It has a feature that is fixed at intervals.

(Example 5-6) In Example 5-1, the tunnel semi-breakable support system of the present invention is formed at the lower end of the junction part 310, and includes a junction cover 350 formed to be detachable on both sides. do.

(Example 5-7) The tunnel semi-breakable support system of the present invention in Example 5-6, wherein the bonding cover 350 is formed of one selected from synthetic resin and styrofoam; includes.

(Example 5-8) In the tunnel semi-opening support system of the present invention in Example 5-6, the bonding cover 350 includes an insertion groove 351 into which the protruding surface of the bonding portion 310 is inserted. do.

The present invention relates to the bonding cover 350, specifically the bonding cover 350 is formed to be detachable at the lower end of the bonding portion 310 so that the bonding portion 310 is not accommodated in the base concrete 130. This joint cover 350 is the end of the joint 310 in contact with the support material 500 when the foundation concrete 130 is poured after the foundation steel support 300 is seated on the foundation 100 Try not to be accepted. The bonding cover 350 is formed to be separated into both ends of the bonding portion 310, and insertion grooves 351 are formed according to the end shape of the bonding portion 310. And the bonding cover 350 is accommodated in the base concrete 130 together with the bonding part 310, and when the support material 500 is installed, the base concrete 130 formed at the position of the bonding cover 350 is crushed to crush the bonding part 310 ) And separate.

(Example 6-1) The present invention relates to a semi-open tunnel support system, and in Example 5-1, a connection support member 510 formed on the support member 500 and connected to the steel support member 200 ; It includes; a support 520 supported on the ground 10 between the plurality of connection support members 510.

(Example 6-2) In the tunnel semi-opening support system of the present invention in Example 6-1, the connection support member 510 is connected to the base steel support 300 from which the joint cover 350 is separated. Thing; includes.

(Example 6-3) In Example 6-1, the tunnel semi-opening support system of the present invention includes the connecting support member 510 formed by bending a curve.

(Example 6-4) In Example 6-1, the support system for semi-opening tunnels of the present invention is provided in which the support 520 penetrates the connection support 510 and is fixed to the ground 10 in a diagonal line. Thing; includes.

The present invention relates to a support material 500, and is specifically formed of the same material and shape as the steel support 200 and is fixed to the sidewall of the excavation space 11 formed by excavating below the basic support 300 . The support member 500 is formed with a connection support member 510 connected to the steel support member 200, and the connection support member 510 is connected to the basic steel support member 300 from which the joint cover 350 is separated. At this time, the connection support member 510 is formed in an arcuate shape and is connected by the steel support member 200. In addition, the plurality of connecting support members 510 are formed at equal intervals by the connecting member 340, and reinforced concrete 600 is poured by the formwork 420. In addition, as for the connection support 510, a support 520 formed of a steel pipe pile or the like is inserted into the side wall, and the support 520 is inserted into the ground 10, rock, etc. diagonally. The support 520 prevents the sidewall from collapsing as it is inserted between the plurality of connection support members 510 or penetrates the connection support member 510 and is fixed to the ground 10.

(Embodiment 7-1) The present invention relates to a tunnel construction method using a tunnel semi-opening support system, an excavation step (S1100) of excavating the ground 10;, after the excavation step (S1100), the foundation 100 ) The basic excavation step of excavating (S1200); After the base excavation step (S1200), a seating step (S1300) of seating the gangjibo 200 on the base 100; After the settling step (S1300), a backfill step (S1400) of backfilling the ground 10; includes.

(Example 7-2) In the tunnel construction method using the semi-open tunnel support system of the present invention, in Example 7-1, before the settling step (S1300), a fixed pile 140 was added to the base 100. Includes; file installation step to be installed.

(Example 7-3) In the tunnel construction method using the tunnel semi-opening support system of the present invention, in Example 7-1, after the settling step (S1300), the foundation concrete 130 was poured on the foundation 100 The fixing step of fixing the base steel support 300 (S1320); After the fixing step (S1320), a coupling step (S1330) of coupling the main steel support 400 to the basic steel support 300 (S1330); includes.

(Example 7-4) In the tunnel construction method using the semi-open tunnel support system of the present invention, in Example 7-3, before the fixing step (S1320), the joint cover 350 to the base steel support 300 ) To install the cover installation step (S1310); includes.

(Example 7-5) In the tunnel construction method using the semi-open tunnel support system of the present invention, in Example 7-3, after the seating step (S1300), reinforcement inside or outside the steel support 200 It includes; spraying step (S1340) of spraying the concrete 600.

The present invention relates to a tunnel construction method using a semi-open tunnel support system, and specifically, to construct a tunnel using a semi-open support system. In such a semi-cracked support system, an excavation step (S1100) of excavating from the upper part of the low-topic section to the base 100 of the steel support 200 is formed, and the ground 10 is an excavation space in which the steel support 200 is installed. (11) The cut surface 12 is formed so as to be formed in an oblique line from the top of the steel support 200 to the outside. When the excavation space 11 is formed in the excavation step (S1100), a foundation excavation step (S1200) is formed in which the base 100 is formed on both lower sides of the excavation space 11. At this time, the foundation 100 installs the fixed pile 140 before the steel support 200 is seated, and the fixed pile 140 is formed in the rock formed in the ground 10 or inserts concrete to the ground 10 Can be fixed on.

And, in the process of excavating the ground 10, the steel support 200 is formed to form the basic steel support 300 and the main steel support 400, respectively. The basic steel support 300 is formed in a module form by forming a connecting member 340 so that a plurality of connections are made, and the main steel support 400 has the same distance and the same quantity as the basic steel support 300 by the spacer 410 It is manufactured in the form of a connected module. And the cast steel support 400 is provided with a wire mesh 421 and a nonwoven fabric 422 inside and outside, and a formwork 420 installed inside and outside. The foundation steel support 300 manufactured in this way is seated in the mounting groove 120 of the foundation 100 after the foundation 100 is formed, and the foundation concrete 130 is poured. At this time, before the foundation concrete 130 is poured, a cover installation step (S1310) in which the bonding cover 350 is installed is formed in the foundation steel support 300 so that the joint 310 of the foundation steel support 300 is formed from the foundation concrete ( 130). And the main steel support (400) is installed on the basic steel support (300), and the box-shaped coupling plate 430 and the side plate (440) formed at the bottom of the main steel support (400) accommodates the basic steel support (300). It is fixed by bolts and welding. And when the steel support 200 is installed on the base 100, the reinforced concrete 600 is injected into or outside the steel support 200 to fix the steel support 200. When the gangjibo 200 is installed in this way, a tunnel is formed by backfilling the soil on the upper part of the gangjibo 200.

(Example 8-1) The present invention relates to a tunnel construction method using a semi-open tunnel support system, and in Example 7-1, after the backfilling step (S1400), the ground under the steel support 200 Internal excavation step of excavating (10) (S1500); After the internal excavation step (S1500), a bonding step (S1600) of joining the support material 500 to the steel support material 200 (S1600); and includes.

(Example 8-2) The tunnel construction method using the tunnel semi-opening support system of the present invention in Example 8-1, before the joining step (S1600), the joint cover installed on the foundation steel support (300) It includes; removing step (S1510) of removing 350.

(Example 8-3) In the tunnel construction method using the semi-open tunnel support system of the present invention, in Example 8-1, after the bonding step (S1600), inserting the support 520 into the ground 10 Insertion step (S1700); includes.

The present invention relates to a tunnel construction method using a tunnel semi-opening support system, and specifically, the process of backfilling the soil on the upper part of the river support 200 and the ground 10 inside the river support 200 after the backfill is completed. The internal excavation step (S1500) of excavation is formed. When the ground 10 is excavated in the internal excavation step (S1500), the joint cover 350, which is partially exposed, is crushed and removed. After the bonding cover 350 is removed, the support member 500 is bonded to the foundation steel support 300 that is not accommodated in the foundation concrete 130. At this time, in the process of installing the support member 500, a support body 520 formed of rock bolts is inserted into the tunnel sidewall. The support 520 is a plurality of fixed to relieve the earth pressure acting as the support member 500, and prevents the ground from being deformed. In addition, concrete linings are installed inside the tunnel to complete the tunnel.

10: ground 11: excavation space
12: cut surface 100: foundation
110: base surface 120: seating groove
130: foundation concrete 140: fixed pile
200: Gangjibo 300: Basic Gangjibo
310: junction 311: junction plate
320: fixing part 330: connection part
340: connector 350: joint cover
351: insertion groove 400: cast steel support
401: partition plate 410: spacer
420: formwork 421: wire mesh
422: nonwoven fabric 430: bonding plate
440: side plate 450: combination
451: fixture 452: through hardware
500: support material 510: connection support material
520: support 600: reinforced concrete
S1100: excavation step S1200: basic excavation step
S1300: Seating step S1310: Cover installation step
S1320: fixing step S1330: combining step
S1340: injection step S1400: backfill step
S1500: internal excavation step S1510: removal step
S1600: bonding step S1700: insertion step

Claims (8)

Foundation 100 formed by excavating the ground 10;,
A plurality of bases 100, the two ends are seated on the upper, the steel support 200 for supporting the load of the soil;
A support material 500 that is bonded to the lower end of the steel support 200 and resists earth pressure;
Reinforced concrete 600 sprayed inside or outside the steel support 200 and the support material 500;
A foundation steel support 300 formed on the steel support 200 and seated on the foundation 100;
A cast steel support 400 connected to the foundation steel support 300 and formed as an arch;
The cast steel support 400 includes a coupling plate 430 coupled to the basic steel support 300;
A side plate 440 formed on a side surface of the coupling plate 430 and surrounding an end of the base steel support 300;
A junction part 310 formed on the base steel support 300 and joined to the main steel support 400;
A fixing part 320 extending outward from the lower end of the junction part 310 and fixed to the base 100;
A connection part 330 connecting the junction part 310 and the fixing part 320;
The bonding part 310 may include a bonding plate 311 coupled to the bonding plate 430;
Tunnel semi-opening support system comprising a; connecting member 340 for connecting a plurality of the base steel support (300) to each other.
The method according to claim 1,
A base surface 110 formed on the base 100 and formed at a lower end of the excavated ground 10;
A semi-opening tunnel support system comprising; a seating groove 120 formed by excavating both ends of the base surface 110 and in which the lower end of the steel support 200 is seated.
delete The method according to claim 1,
A spacer 410 connecting the plurality of cast steel supports 400 and maintaining a gap;
A formwork 420 formed on the outside of the cast steel support 400 and preventing separation of the reinforced concrete 600; a semi-open tunnel support system including.
delete The method according to claim 1,
A connection support member 510 formed on the support member 500 and connected to the steel support member 200;
A support (520) supported on the ground (10) between the plurality of connection support members (510); a tunnel support system comprising a.
Excavation step of excavating the ground 10 (S1100);,
After the excavation step (S1100), the foundation excavation step (S1200) of excavating the foundation (100);
After the basic excavation step (S1200), a seating step (S1300) of respectively seating both ends of the gangjibo 200 on the upper portion of the plurality of bases 100;
After the seating step (S1300), as the foundation concrete 130 is poured into the foundation 100 and formed at both ends of the steel support 200, the foundation steel support 300 seated on the foundation 100 is fixed. A fixing step (S1320);
After the fixing step (S1320), a coupling step (S1330) of coupling the coupling plate 430 of the cast steel support 400 to the joint plate 311 of the basic steel support 300;
Before the fixing step (S1320), a cover installation step (S1310) of installing a bonding cover 350 formed to be detachably formed on both sides at the bottom of the bonding portion 310 of the base steel support 300;
After the settling step (S1300), a backfill step (S1400) of backfilling the ground (10);
After the backfilling step (S1400), the internal excavation step (S1500) of excavating the ground 10 under the steel support (200);
After the internal excavation step (S1500), a bonding step (S1600) of bonding a support material 500 to the lower end of the steel support material 200;
Before the joining step (S1600), a removing step (S1510) of removing the joint cover 350 installed on the foundation steel support 300 (S1510); a tunnel construction method using a semi-opening support system.
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