KR102103978B1 - Reinforcement and waterproof structure of vertical shafts for utility interface - Google Patents

Abstract

The present invention is installed in a vertical sphere formed of a concrete wall on the inner surface of the excavation space excavated the ground to a certain depth, and installed in a common sphere excavated in a direction crossing the vertical sphere at a certain depth of the ground to penetrate the concrete wall to the vertical sphere A vertical sphere connecting portion reinforcement order structure for a hollow sphere installed in a front region of a connecting portion in which the incoming hollow sphere linings are interconnected, extending along the circumferential direction of the hollow sphere lining on the front surface of the hollow sphere lining, and the outer surface being the wall surface of the vertical sphere A ring-shaped elastic body which is in contact with and is provided so that the inner side thereof is parallel to the inner side of the cavity lining; A steel sheet that is formed by bending a longitudinal section in an 'A' shape, an upper surface being fixed to a lower surface of the vertical sphere, and a side surface contacting the front surface of the elastic body to maintain the elastic body disposed on the front surface of the cavity lining; By including, it enhances structural safety by reinforcing the connection between the vertical sphere and the joint sphere, and at the same time, ensures that the order at the connection portion is made perfect, so that facilities such as communication cables or power transmission cables flowing into the vertical water through the cavity are safely. Can protect.

Description

REINFORCEMENT AND WATERPROOF STRUCTURE OF VERTICAL SHAFTS FOR UTILITY INTERFACE}

The present invention relates to a vertical sphere connection reinforcement order structure for a joint sphere, and more particularly, to a vertical sphere connection reinforcement order structure for a joint sphere that reinforces the connection portion between the vertical sphere and the cavity sphere generated during the construction of Shield TBM will be.

In general, the common ward refers to underground facilities that jointly accept underground burial facilities (such as distribution lines, wired broadcasting cables, high-speed information and communication networks, water supply pipes, and heating hot water pipes, etc.). Since it can maintain various types of facilities at the same time and create a pleasant ground space, it is being applied to newly constructed new cities, commercial areas, and apartment complexes.

The underground cavities as described above are applied to a waterproofing method to prevent water, such as groundwater, from entering the interior, and concrete waterproofing or asphalt waterproofing is applied as such a waterproofing method. It is a method of making a structure by layering layers by adding them. Asphalt waterproofing is a method of forming a waterproof layer by continuously stacking asphalt felt or asphalt roofing with hot-melted asphalt.

However, even if the above-mentioned concrete waterproofing or asphalt waterproofing is applied to the joint zone, conventionally, groundwater and the like are easily leaked inside the joint zone, and as a defect occurs, the cost of repairing the defect increases, and maintenance or management is not easy. There is this.

In order to solve the above problems, as an example of the prior art, prior registration patent No. 10-0592104 has been proposed. The above-described prior art is a floor-based concrete panel installed at a predetermined thickness on the basement floor where the cavity is installed, a waterproof sheet cover installed around the four-sided border except for the front and rear surfaces of the cavity, and the surface of the waterproof sheet cover. It is installed so as to wrap around the rim of the cavity with the waterproof sheet cover overlapping on it, and is composed of a waterproof sheet protection cover formed of a resin foaming panel that can absorb shock.

In this structure, the waterproof structure of the underground cavity is provided with a floor-based concrete panel on the basement floor where the cavity is installed, and a waterproof sheet cover and a waterproof sheet protection cover are sequentially provided on all sides of the cavity installed on the upper surface of the floor-based concrete panel. As it is wrapped with a base, it has the advantage of preventing leakage from occurring inside the cavity due to the floor-based concrete panel, waterproof sheet cover, and waterproof sheet protection cover. If waterproofing is performed using only the back, the soil will come into contact with the waterproof sheet or the waterproofing agent provided to waterproof the underground cavity, so that it will always be exposed to water or moisture contained in the soil, thus shortening its life. You can.

That is, when the waterproof sheet or the waterproofing agent is exposed to water or moisture for a long time, the waterproofing effect is remarkably lowered, which may cause a problem that water penetrates into the walls of the vertical sphere and the hollow sphere.

Moreover, when water penetrates into the inside of the wall, not only does it look unsightly, but also cracks on the wall due to the penetration of water, which can have a fatal effect on the safety of the cavity structure.

These common spheres are connected to the vertical spheres in the middle or basement floor of an underground outer wall of a structure such as a vertical sphere to introduce various supply facilities such as electricity, gas, and water into the vertical spheres.

On the other hand, vertical sphere refers to underground structures that are constructed for excavation or operation during the construction of hydraulic tunnels in mining, road, subway and rail traffic tunnels, and pumping stations.

These vertical spheres are excavated on the ground by blasting, etc., to prevent collapsing of the excavation surface by shotcrete, lock bolt, etc., and to place lining concrete after waterproofing with water-repellent sheet to prevent inflow of groundwater. In general, it is generally constructed by a pipe subsidence method that subsides while building a pipe made of concrete or steel.

By the way, the conventional structure for connecting the vertical sphere and the hollow sphere is after constructing a reinforcement wall formed of a concrete material on the inner wall surface of the vertical sphere connected to the hollow sphere, the hollow sphere lining passes through the reinforcement wall and passes through the reinforcement wall to the interior of the vertical sphere. Since the structure of connecting the vertical sphere and the cavity sphere by removing a portion of the reinforcing wall after allowing them to be introduced, there is a problem in that the connection between the vertical sphere and the cavity sphere is structurally degraded.

In addition, there is a problem in that facilities such as communication or power cables introduced into the vertical sphere through the common sphere may be damaged due to moisture infiltration because the order is not properly made at the connection between the vertical sphere and the common sphere.

The present invention has been derived to solve the above problems, and reinforces the connection between the vertical sphere and the cavity sphere to improve the structural safety and at the same time ensure that the degree of perfection at the connection portion is perfect, and then flows into the interior of the vertical sphere through the cavity sphere. The purpose of this is to present a reinforcement order structure for the joints of vertical spheres for common areas that can safely protect facilities such as communication cables and transmission cables.

In order to solve the above problems, the present invention is installed in the vertical sphere formed of a concrete wall on the inner surface of the excavation space excavated the ground to a certain depth, and installed in the common sphere excavated in a direction crossing the vertical sphere at a certain depth of the ground to the concrete A vertical sphere connection reinforcement order structure for a hollow sphere installed in a front region of a connection portion through which a hollow sphere lining through the wall and introduced into the vertical sphere is interconnected, and is formed to extend along the circumferential direction of the hollow sphere lining on the front surface of the hollow sphere lining, A ring-shaped elastic body having an outer surface in contact with the wall of the vertical sphere and an inner surface in parallel with the inner surface of the cavity lining; A steel sheet that is formed by bending a longitudinal section in an 'A' shape, an upper surface being fixed to a lower surface of the vertical sphere, and a side surface contacting the front surface of the elastic body to maintain the elastic body disposed on the front surface of the cavity lining; It presents a reinforced order structure of the vertical sphere connection for the cavity characterized by including.

Here, the elastic body may be installed between the front surface of the cavity ball lining and the plate surface disposed upright of the steel plate while being pressed to a certain degree.

In addition, a separate induction drain hole for drainage may be formed in the region where the elastic body contacts the front surface of the cavity lining.

In addition, the upper surface of the steel sheet may be fixedly coupled to the lower surface of the vertical sphere by a fastening bolt.

In addition, a space for forming the connection portion is formed between the vertical sphere and the outer end surface of the lining of the cavity, and a grouting member for grouting for reinforcement and order is provided on the outer surface and the space of the cavity lining located outside the vertical sphere. It may be provided.

And, in the space between the upper surface and the side surface of the steel sheet in front of the lining of the cavity, a ring-shaped high-strength mortar finishing material may be installed parallel to the inner surface of the vertical sphere and parallel to the inner surface of the cavity opening.

The present invention improves structural safety by reinforcing the connecting portion of the vertical sphere and the common sphere, and at the same time, ensures that the order at the connecting portion is made perfect, thereby safely protecting facilities such as communication cables or power transmission cables flowing into the vertical sphere through the hollow sphere. There is an effect that can be done.

1 is a longitudinal sectional view showing a reinforcement order structure of a vertical sphere connection part for a cavity according to an embodiment of the present invention,
FIG. 2 is a plan view of the vertical sphere connection part reinforcement order structure of FIG. 1 as viewed from the front;
Figure 3 is an enlarged view showing an enlarged main portion of the vertical sphere connecting portion reinforced order structure for the cavity according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a longitudinal sectional view showing a vertical sphere connecting portion reinforcement order structure for a cavity according to an embodiment of the present invention, FIG. 2 is a plan view of the vertical sphere connecting portion reinforcement order structure for a hollow sphere according to an embodiment, and FIG. 3 is It is an enlarged view showing an enlarged main portion of a reinforcement order structure of a vertical sphere connection portion for a cavity according to an embodiment of the present invention.

As shown in these drawings, the vertical sphere connecting part reinforcement order structure for the cavity according to the present invention includes a vertical sphere 1 formed of a concrete wall on the inner surface of the excavation space excavating the ground to a certain depth, and a certain depth of the ground It is installed in the cavity (2) excavated in the direction intersecting the vertical sphere (1) of the joint (3) through the concrete wall to enter the vertical sphere (1) of the joint (3) interconnected A vertical sphere connecting portion reinforcement order structure installed in the front region, which is formed to extend along the circumferential direction of the cavity lining (4) on the front surface of the cavity lining (4), the outer surface of which is the wall surface of the vertical sphere (1) A ring-shaped elastic body 100 which is in contact with and is installed so that the inner side thereof is parallel to the inner side of the cavity lining 4; The longitudinal section is bent in the shape of an 'A', so that the upper surface is fixed to the lower surface of the vertical sphere 1, and the side surface is in contact with the front surface of the elastic body 100 so that the elastic body 100 of the hollow sphere lining 4 It comprises a steel sheet 200 to maintain the state disposed on the front.

Vertical sphere (1) refers to a type of underground space structure, such as mining, road, subway, railroad traffic tunnel, communication zone, elevator, sump, septic tank, water tank, fire prevention tank.

In order to construct the vertical sphere 1, a process of pouring lining concrete after waterproofing with a water-repellent sheet is used in order to prevent collapse of the excavation surface by shotcrete and rock bolts and prevent inflow of groundwater while excavating by an open type. .

In addition, in order to introduce a communication cable or a power cable into the vertical sphere 1, a cavity 2 is formed in a direction crossing the vertical sphere 1 so that the cavity 2 and the vertical sphere 1 intersect. After forming the connecting portion 3 by penetrating through the wall surface of the vertical sphere 1 exposed to the cavity sphere 2, the cavity sphere lining 4 is installed in the cavity sphere 2, and the end portion of the cavity sphere lining 4 It passes through the connecting portion 3 so as to contact the vertical sphere 1.

Then, the reinforcement part 3 in which the vertical sphere 1 and the cavity sphere lining 4 are in contact with each other is reinforced, and at the same time, an order structure is installed in front of the connection part 3 for ordering.

The vertical sphere connecting part reinforcement order structure for the cavity according to an embodiment of the present invention is largely provided with the elastic body 100 and the elastic body 100 installed in contact with the cavity sphere lining 4 in front of the cavity sphere lining 4 and the elastic body 100 with the cavity sphere lining ( 4) is made of a steel plate 200 supporting the elastic body 100 so as to maintain a state installed in the front.

The elastic body 100 is a member formed of a material having elasticity which is formed in a ring shape and disposed in front of the cavity lining 4 to accommodate the displacement when the cavity lining 4 is displaced to damage the cavity lining 4 It serves to prevent.

In addition, since the elastic body 100 is formed of an elastic material, construction can be easily performed corresponding to the curvature of the wall of the vertical sphere 1, thereby improving the workability.

The elastic body 100 is capable of accommodating displacement for 125% vertical shear, 150% horizontal shear, 62.5% elongation, and 50% compression, and the thickness and elasticity of the steel sheet 200 depending on the characteristics of the elastic body 100 ( 100) Let the thickness of itself be determined.

When the elastic body 100 is formed of a material capable of accommodating displacement for 125% vertical shear, 150% horizontal shear, 62.5% elongation, and 50% compression, the elastic body 100 has a thickness of 100 mm and a width of 250. It is formed of mm, the thickness of the steel sheet 200 is preferably formed to be 10 mm.

In addition, when the material forming the elastic body 100 is formed of a material capable of accommodating a displacement of a value greater than the above-described displacement, the thickness of the elastic body 100 and the thickness of the steel plate 200 may be formed with a relatively thinner thickness. Conversely, when the material forming the elastic body 100 is formed of a material capable of accommodating a displacement of a value smaller than the above-described displacement, the thickness of the elastic body 100 and the thickness of the steel sheet 200 are relatively thicker. It is preferably formed.

Since the elastic body 100 is provided in front of the lining 4 of the cavity, even if some damage, such as a crack, is applied to the structure, the elastic body 100 can maintain the airtightness, thereby continuously performing the order function.

In addition, the elastic body 100 is effectively installed between the front surface of the cavity ball lining 4 and the plate surface disposed upright of the steel plate 200 in a pressurized state to a certain degree, which is the cavity ball lining 4 being the elastic body 100 The displacement between the elastic body 100 and the cavity sphere lining 4 is provided even when displacement occurs in the opposite direction in which the cavity sphere lining 4 compresses the elastic body 100. This is to ensure that the order function can be performed by maintaining confidentiality.

In the region where the elastic body 100 comes into contact with the front surface of the cavity ball lining 4, a separate induction drain hole 110 for drainage is formed by depression, and thus, when a leak occurs to the interface between the vertical sphere 1 and the cavity sphere lining 4, Drainage is induced through the induction drainage hole 110 so that moisture can be prevented from entering the inside of the cavity lining 4.

The steel plate 200 is formed to have a 'a' shaped longitudinal section, and the overall shape is a member formed in a ring shape with a circumferential surface protruding a certain length. As described above, the elastic body 100 has 125% vertical shear and horizontal shear. When formed of a material that can accommodate displacement for 150%, elongation 62.5%, and compression 50%, the thickness of the steel sheet 200 is preferably formed to be 10 mm.

The circumferential surface of the steel plate 200 is fixedly coupled to the plate surface of the vertical sphere 1 by the fastening bolt 210, and the thickness of the steel plate 200 may be determined according to the elastic force of the elastic body 200.

When looking at the structure based on the longitudinal section, the steel plate 200 is fixedly coupled to the vertical sphere 1 so that the circumferential surface located at the upper side has a cantilever shape by the fastening bolt 210. When the displacement of the lining 4 occurs, the elastic body 200 serves to assist in accommodating the displacement.

3, in the space between the upper surface and the side surface of the steel plate 200 in front of the cavity lining 4, a ring formed parallel to the inner surface of the vertical sphere 1 and parallel to the inner surface of the cavity lining 4 A high-strength mortar finishing material 300 having a shape is installed.

The high-strength mortar finishing material 300 protects the steel sheet 200 from external force by preventing the steel sheet 200 from being exposed to the outside, and at the same time prevents the head of the fastening bolt 210 from being exposed to the outside. The elastic body 100 can accurately accommodate the displacement of the cavity lining 4 by allowing it to maintain a tightly coupled state to (1).

In addition, when displacement occurs in a direction in which the cavity lining 4 presses the elastic body 100, the steel sheet 200 reinforces the supporting force capable of supporting the elastic body 100 to increase structural stability.

In addition, a space forming the connection part 3 is formed between the vertical sphere 1 and the outer end surface of the hollow sphere lining 4, and the outer surface of the hollow sphere lining 4 located outside the vertical sphere 1 and the In the space, a grouting member 400 that is grouted for reinforcement and order is provided.

 The grouting member 400 protects the outer surface of the cavity ball lining 4 from being damaged and is also filled in a space forming the connection part 3 so that the vertical sphere 1 and the cavity ball lining 4 do not come into direct contact. When displacement occurs in the hollow sphere lining 4 or the vertical sphere 1, the outer surfaces of the hollow sphere lining 4 and the vertical sphere 1 can be prevented from being damaged.

In addition, since the grouting member 400 is filled up to a space forming the connecting portion 3, it is possible to prevent moisture from entering through the space forming the connecting portion 3, so that a more effective order can be achieved. It has an effect.

The process of constructing a vertical sphere connecting portion reinforcement order structure for a common sphere according to an embodiment of the present invention having such a configuration is a connecting portion in which the vertical sphere and the hollow sphere lining are mutually contacted as follows.

First, the wall surface of the vertical sphere 1, which is connected to the cavity 2, is cut in a circular shape so as to have a larger diameter than the diameter of the cavity lining 4 so that the cavity sphere lining 4 can be drawn.

After that, the depth of the cavity ball lining 4 inserted into the wall surface of the vertical sphere 1 cut into a circle is adjusted so that the cavity ball lining 4 is inserted into the central region of the wall surface of the vertical sphere 1, and then the connection part ( The reinforcement order structure of the connection part is installed in front of 3).

The process of installing the connection part reinforcement order structure is that the elastic body 100 is placed on the front surface of the lining 4 of the cavity, and the elastic body 100 is pressed so as to be pressed to a predetermined level using the steel plate 200. The fastening bolt 210 is fastened to the wall surface of the circumferential surface and the vertical sphere 1 so that the steel plate 200 is installed.

 And, after installing the high-strength mortar finishing material 300 on the front surface of the steel plate 200 to prevent the steel plate 200 and the fastening bolt 210 from being exposed to the outside, when the solid curing of the high-strength mortar finishing material 300 is completed, the cavity is The grouting member 400 is installed on the outer surface of the lining 4.

When the grouting member 400 is filled not only in the outer surface of the hollow sphere lining 4 exposed to the outside of the vertical sphere 1, but also in the space forming the connecting portion 3, the grouting member 400 is cured. Construction of the reinforced order structure of the vertical sphere connection for the cavity is completed.

The vertical sphere connection reinforcement order structure for the cavity according to an embodiment of the present invention having such a configuration reinforces the connection between the vertical sphere and the cavity, thereby improving structural safety and at the same time making the cavity perfect by making the degree of perfection at the connection. Through this, it is possible to safely protect facilities such as communication cables and transmission cables flowing into the vertical sphere.

The above is merely a description of some of the preferred embodiments that can be implemented by the present invention, so, as is well known, the scope of the present invention should not be construed as being limited to the above embodiments, and the present invention described above. It will be said that both the technical idea and the technical idea together with the fundamental are included in the scope of the present invention.

1: Vertical sphere 2: Common sphere
3: Connection part 4: Joint ball lining
100: elastic body 110: induction drain hole
200: steel plate 210: fastening bolt
300: high strength mortar finish 400: grouting member

Claims (6)

It is installed in a vertical sphere (1) formed of a concrete wall on the inner surface of the excavation space excavated the ground to a certain depth, and a cavity (2) excavated in a direction crossing the vertical sphere (1) at a certain depth of the ground As a reinforcement order structure of the vertical sphere connecting portion for the cavity, which is installed in the front region of the connecting portion (3) through which the concrete wall lining (4) penetrates the concrete wall and is introduced into the vertical sphere (1),
On the front surface of the cavity lining (4) is formed extending along the circumferential direction of the cavity lining (4), the outer surface is in contact with the wall surface of the vertical sphere (1) and the inner surface is the inner surface of the cavity lining (4) A ring-shaped elastic body 100 installed side by side;
The longitudinal section is bent in the shape of an 'A', so that the upper surface is fixed to the lower surface of the vertical sphere 1, and the side surface is in contact with the front surface of the elastic body 100 so that the elastic body 100 of the hollow sphere lining 4 Steel plate 200 to maintain the state disposed on the front; Including,
The elastic body 100 is installed between the front surface of the cavity ball lining 4 and the plate surface disposed upright of the steel plate 200 in a pressurized state to a certain degree, and the elastic body 100 is provided in the cavity ball lining 4. A separate induction drain hole 110 for draining is formed in the area in contact with the front surface,
A space forming the connection part 3 is formed between the vertical sphere 1 and the outer end surface of the hollow sphere lining 4, and the outer surface of the hollow sphere lining 4 located outside the vertical sphere 1 is formed. And the space provided with a grouting member 400 that is grouted for reinforcing and ordering. delete delete According to claim 1,
The circumferential surface of the steel plate 200 is fixedly coupled to the plate surface of the vertical sphere 1 by a fastening bolt 210. delete According to claim 1,
In the space between the upper surface and the side surface of the steel plate 200 in front of the cavity lining 4, a ring-shaped high-strength mortar formed parallel to the inner surface of the vertical sphere 1 and parallel to the inner surface of the cavity lining 4 Reinforcement order structure of the vertical sphere connection for the common sphere, characterized in that the finishing material 300 is installed.

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