KR101334377B1 - Connection member for emergency evacuation facility of submerged floating tunnel - Google Patents

Abstract

One embodiment of the present invention relates to an emergency evacuation facility connection of the underwater tunnel, the technical problem to be solved is to provide an emergency evacuation facility connection of the underwater tunnel that can improve the watertightness and expansion joint.
To this end, the present invention in the emergency evacuation facility connection portion of the underwater tunnel consisting of a horizontal tunnel coupled to the T-shaped tunnel, one end is coupled to the end of the T-shaped tunnel, the other end is coupled to the horizontal tunnel outside the horizontal tunnel A first waterproofing unit located at; A second waterproof portion interposed between the T-shaped tunnel and the horizontal tunnel; And one end coupled to the end of the horizontal tunnel and the other end coupled to the T-shaped tunnel.

Description

CONNECTION MEMBER FOR EMERGENCY EVACUATION FACILITY OF SUBMERGED FLOATING TUNNEL}

One embodiment of the invention relates to an emergency evacuation facility connection of an underwater tunnel.

Subsea tunnels passing through the ocean floor, river or river floor are provided with a subsea tunnel in which the tunnel enclosure is settled on the bottom of the water or placed on a foundation structure installed on the water bottom to cross the water. This type of subsea tunnel, unlike the form of excavation in the sea bed, is installed on the bottom of the cut or is installed across the water, it consists of the shape of the precast tunnel enclosure submerged in the water.

On the other hand, when constructing a recent underwater tunnel, vertical tunnels should be constructed together for the purpose of ventilating openings or life escape openings over the sea or rivers. Vertical tunnels ventilate the inside of the tunnel during construction to keep the air contaminated by various harmful gases and exhaust gases below the permissible range without affecting the human body of workers and to prevent the risk of explosion due to flammable gases. Play a role. In addition, when operating underwater tunnels, it acts not only as a vent for diluting harmful gas discharged from the vehicle to discharge it out of the tunnel and putting fresh air into it, but also acts as a life escape or evacuation site in an emergency.

However, making an evacuation passage directly to the underwater tunnel body is difficult due to the risk of flooding and structural vulnerability. In addition, the long-haul underwater tunnel body is also stretched in the longitudinal direction, so a seam that can absorb the amount of stretch is required. In addition, joints that allow passengers to evacuate to the surface through vertical passages in underwater tunnels should be watertight and flexible in seam.

One embodiment of the present invention provides an emergency evacuation facility connection of the underwater tunnel with high watertightness and excellent elastic joint.

One embodiment of the present invention in the emergency evacuation facility connection portion of the underwater tunnel consisting of a horizontal tunnel coupled to the T-shaped tunnel, one end is coupled to the end of the T-shaped tunnel, the other end is coupled to the horizontal tunnel to the horizontal tunnel A first waterproof part disposed outside of the first waterproof part; A second waterproof portion interposed between the T-shaped tunnel and the horizontal tunnel; And a third waterproof portion having one end coupled to the end of the horizontal tunnel and the other end coupled to the T-shaped tunnel.

The horizontal tunnel may have a strip formed along an outer surface thereof, and the other end of the first waterproof portion may be coupled to the strip.

The first waterproof portion may be a rubber whose length is deformable.

The first waterproof portion may be a corrugated pipe.

The second waterproof portion may be formed along a coupling region of the T-shaped tunnel and the horizontal tunnel.

The second waterproof portion may be a tubular gasket.

The third waterproof portion may be an omega seal.

The T-shaped tunnel includes a first region; A second region extending outwardly from the first region; And a third region connecting the first region and the second region, wherein an inner diameter of the second region is relatively larger than an inner diameter of the first region, and the horizontal tunnel is coupled to the second region. Can be. The other end of the third waterproof portion may be coupled to the first region or the third region.

According to an embodiment of the present invention, the watertightness between the T-shaped tunnel and the horizontal tunnel is improved by forming the first waterproof portion, the second waterproof portion, and the third waterproof portion at the coupling or connection area between the T-shaped tunnel and the horizontal tunnel and the periphery thereof. do.

In addition, according to one embodiment of the present invention, the first waterproof portion and the third waterproof portion which are deformable in the horizontal direction are respectively formed between the T-shaped tunnel and the horizontal tunnel, thereby improving the expansion joint between the T-shaped tunnel and the horizontal tunnel.

1 is a perspective view showing an underwater tunnel according to an embodiment of the present invention.
2A and 2B are front and side cross-sectional views showing an emergency evacuation facility connection of an underwater tunnel according to an embodiment of the present invention.
3 is an enlarged view of three regions of FIG. 2B;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

1 is a perspective view showing an underwater tunnel according to an embodiment of the present invention, Figures 2a and 2b is a front sectional view and a side sectional view showing an emergency evacuation facility connection of the underwater tunnel according to an embodiment of the present invention.

1, 2a and 2b, the underwater tunnel is coupled to both sides of the T-shaped tunnel 110 (only one T-shaped tunnel is shown in the figure) and the T-shaped tunnel 110 formed at regular intervals Horizontal tunnel 120. Here, the T-shaped tunnel 110 extends from the water to the water surface, for example, through the steel tower structure 101, the horizontal tunnel 120 is fixed to the ocean floor, river or river bottom by a plurality of fixed chains 102 do. Since the T-shaped tunnel 110 is provided with an elevator or a ladder, a person can quickly evacuate from the horizontal tunnel 120 to the water surface. In addition, the T-shaped tunnel 110 is mechanically coupled to the pylon structure 101, and substantially, the T-shaped tunnel 110 has a substantially "ㅗ" shape. That is, the left end and the right end of the T-shaped tunnel 110 is located in the water, the upper end is extended to the upper position is located outside of the water.

Meanwhile, in the present invention, the connection part 100 is defined as a coupling structure of the T-shaped tunnel 110 and the horizontal tunnel 120 and a peripheral structure therefor. That is, in the present invention, the connection portion 100 will be described again below, but the end structure of the T-shaped tunnel 110, the end structure of the horizontal tunnel 120, the strip 121, the first waterproof portion 131, the second waterproof The concept includes the unit 132 and the third waterproof unit 133.

3 is an enlarged view of three regions of FIG. 2B;

As shown in Figure 3, the emergency tunnel evacuation facility connection part 100 of the underwater tunnel consisting of a horizontal tunnel 120 is coupled to the T-shaped tunnel 110 according to the present invention, the first waterproofing unit 131, the second waterproofing The unit 132 and the third waterproof unit 133 are included. Before describing the shapes and installation positions of the first, second, and third waterproof parts 131, 132, and 133, the structures of the T-shaped tunnel 110 and the horizontal tunnel 120 will be described.

First, the T-shaped tunnel 110 includes a first region 111, a second region 112, and a third region 113. An order film 114 may be installed in the first region 111, which is removed after the T-shaped tunnel 110 and the horizontal tunnel 120 are coupled to each other. The second region 112 extends outward from the first region 111 in a predetermined length, which has a larger inner diameter than the inner diameter of the first region 111. In addition, the third region 113 is formed between the first region 111 and the second region 112 in a substantially perpendicular direction. In addition, the horizontal tunnel 120 is inserted into and coupled to the second region 112 of the T-shaped tunnel 110.

On the other hand, the horizontal tunnel 120 has an outer diameter equal to or slightly smaller than the inner diameter of the second region 112 of the T-shaped tunnel 110, so that the horizontal tunnel 120 is fitted to the T-shaped tunnel 110. Or it can be easily combined. In addition, the horizontal tunnel 120 is formed with a strip 121 in a substantially ring shape along the outer surface. The strip 121 may be formed of the same material as the horizontal tunnel 120 or of a different material. In addition, the order film 124 may also be installed in the horizontal tunnel 120, which is removed after the T-shaped tunnel 110 and the horizontal tunnel 120 are coupled. Here, it is obvious that the first tunnel 121 having a predetermined inner diameter is formed in the horizontal tunnel 120, and the first zone 121 has the same inner diameter as the first region 111 of the T-shaped tunnel 110. Can be.

One end of the first waterproof portion 131 is coupled to the end of the T-shaped tunnel 110, the other end is coupled to the strip 121 provided in the horizontal tunnel 120. In this way, a predetermined region of the horizontal tunnel 120 outside the T-shaped tunnel 110 is covered by the first waterproof portion 131. The first waterproof portion 131 may be any one selected from deformable rubber, corrugated rubber band, corrugated pipe, and equivalents thereof, but the present invention is not limited thereto. That is, the first waterproof portion 131 can be any material as long as it is waterproof and deformable in the horizontal direction.

The second waterproof portion 132 is interposed between the T-shaped tunnel 110 and the horizontal tunnel 120. That is, the second waterproof portion 132 is formed along the coupling region, the overlap region or the joint region of the T-shaped tunnel 110 and the horizontal tunnel 120. Substantially, the second waterproof portion 132 may be in contact with the third region 113 of the T-shaped tunnel (110). In addition, the second waterproof portion 132 may be filled in the space between the third region 113 of the T-shaped tunnel 110 and the end of the horizontal tunnel 120, and thus the horizontal tunnel 120 Horizontal seam is improved. The second waterproof portion 132 is tubular and covers the outer surface of the horizontal tunnel 120 to a predetermined width. In addition, the second waterproof part 132 may be made of any one selected from a gasket, a rubber strip, and an equivalent thereof, but the material of the second waterproof part 132 is not limited in the present invention. That is, in the present invention, the second waterproof portion 132 may be formed of various materials having a waterproof function.

One end of the third waterproof portion 133 is coupled to the first region 121 or the end of the horizontal tunnel 120, and the other end thereof is the first region 111 or the third region 113 of the T-shaped tunnel 110. Is coupled to The third waterproof portion 133 may be any one selected from the omega-type rubber membrane and its equivalent that can be deformed in the horizontal direction. However, the third waterproof portion 133 may be formed of various materials having a waterproof function and deformable in the horizontal direction in addition to such a material.

Although not shown in the drawings, steel sheets may be further formed on the inner and outer surfaces of the T-shaped tunnel 110 and the horizontal tunnel 120, respectively. That is, since the T-shaped tunnel 110 and the horizontal tunnel 120 are mostly formed of concrete, steel sheets having a predetermined thickness may be further formed on respective inner and outer surfaces to minimize corrosion by seawater. For example, the inner surface of the steel sheet of about 10mm or more, the outer surface of the approximately 22mm steel sheet is further formed, thereby minimizing the corrosion of the T-shaped tunnel 110 and the horizontal tunnel 120.

Referring to the assembly method of the emergency evacuation facility connection of the underwater tunnel according to the present invention.

First, the T-shaped tunnel 110 is coupled to the steel tower structure, and then the horizontal tunnel 120 is coupled to the T-shaped tunnel 110. Of course, after the horizontal tunnel 120 is provided, the T-shaped tunnel 110 may be coupled to the horizontal tunnel 120. On the other hand, the second waterproof portion 132 is provided in advance on the outer surface of the horizontal tunnel 120 or the inner surface of the T-shaped tunnel 110, the combination of the T-shaped tunnel 110 and the horizontal tunnel 120 In the coupling region or the overlap region, the second waterproof portion 132 is naturally interposed. Of course, the second waterproof portion 132 may be simultaneously formed on the outer surface of the T-shaped tunnel 110 and the inner surface of the horizontal tunnel 120 before coupling. In addition, this operation can be carried out in the water, but the T-shaped tunnel 110 and the horizontal tunnel 120 is formed with the water-repellent film 114, 124, respectively, the water is T-shaped tunnel 110 and horizontal tunnel ( It does not flow to 120). However, water may be filled between the two order films 114 and 124 provided in the T-shaped tunnel 110 and the horizontal tunnel 120.

Subsequently, the first waterproof portion 131 is installed outside the T-shaped tunnel 110 and the horizontal tunnel 120. That is, one end of the first waterproof portion 131 is coupled to the end of the T-shaped tunnel 110, and the other end is coupled to the strip 121 provided in the horizontal tunnel 120.

In addition, the water barrier films 114 and 124 of the T-shaped tunnel 110 or the horizontal tunnel 120 are removed, and after the water is discharged, the third waterproof part 133 is installed. That is, one end of the third waterproof portion 133 is coupled to the first region 111 or the third region 113 of the T-shaped tunnel 110, and the other end thereof is the first region 121 of the horizontal tunnel 120. ) Or end. Of course, the third waterproof portion 133 is also formed in a substantially ring shape between the first region 111 of the T-shaped tunnel 110 and the first region 121 of the horizontal tunnel 120.

What has been described above is just one embodiment for carrying out an emergency evacuation facility connection portion of the underwater tunnel according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims Without departing from the gist of the invention, anyone of ordinary skill in the art to which the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

100; Emergency Evacuation Connections in Underwater Tunnels
101; Pylon structure 102; Fixed chain
110; T-shaped tunnel 111; First area
112; Second region 113; Third area
114; Order film 120; Horizontal tunnel
121; Strip 124; Curtain
131; First waterproofing portion 132; Second waterproof department
133; Third waterproofing department

Claims (9)

In an emergency evacuation facility connection part of an underwater tunnel, in which a horizontal tunnel is coupled to a T-shaped tunnel,
A first waterproof portion having one end coupled to an end of the T-shaped tunnel and the other end coupled to the horizontal tunnel and positioned outside the horizontal tunnel;
A second waterproof portion interposed between the T-shaped tunnel and the horizontal tunnel; And
One end is coupled to the end of the horizontal tunnel, the other end includes a third waterproof portion coupled to the T-shaped tunnel,
The T-shaped tunnel includes a first region;
A second region extending outwardly from the first region; And
A third region formed at right angles to the first region and the second region to connect the first region and the second region,
The inner diameter of the second region is relatively larger than the inner diameter of the first region,
The horizontal tunnel is coupled to the second region,
The second waterproof portion is formed between the second area of the T-shaped tunnel and the outer surface of the horizontal tunnel and the entire area between the third area of the T-shaped tunnel and the end of the horizontal tunnel. Facility connection. The method of claim 1,
The horizontal tunnel is formed along the outer surface of the strip, the other end of the first tunnel of the water tunnel, characterized in that coupled to the strip of the emergency tunnel evacuation facility connection. The method of claim 1,
The first waterproof portion is an emergency evacuation facility connection portion of the underwater tunnel, characterized in that the rubber (rubber) is variable in length. The method of claim 1,
The first waterproofing part of the underwater tunnel, characterized in that the corrugated pipe, evacuation facility connection portion. delete The method of claim 1,
The second waterproof portion is an emergency evacuation facility connection portion of the underwater tunnel, characterized in that the tubular gasket. The method of claim 1,
The third waterproof portion is an omega seal (omega seal), characterized in that the emergency installation of the underwater tunnel connection part. delete The method of claim 1,
An emergency evacuation facility connection portion of an underwater tunnel, characterized in that the other end of the third waterproof portion is coupled to the first region or the third region.

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