KR20210001094U - Water leakage blocking device for underground road - Google Patents

Abstract

A water leakage prevention device for an underground roadway is disclosed. The leak prevention device for an underpass according to an embodiment of the present invention is fastened with a double structure cover on both sides of a joint of a concrete structure such as an underpass to facilitate the discharge of water due to leakage of the joint, and a heat source consisting of a heat pipe. In order to prevent the generation of icicles that occur in winter, the outer packing grooves with a plurality of bolt holes are formed at both ends, and are fixed with anchor bolts through the bolt holes on both sides of the joint of the structure, and the joint An outer cover having a plurality of lower fixing ends of the springs formed on both sides of the inner surface of the outer cover part corresponding to, and inner packing grooves are formed at both ends, and pipe guides are formed on both sides of the inner surface of the inner cover part corresponding to the joint. , A plurality of upper fixing ends of the springs are formed on both sides of the outer surface of the inner cover part, and an inner cover disposed inside the outer cover, and between the outer cover and the inner cover, at the lower fixing end of the spring and the upper fixing end of the spring. A plurality of springs having a lower end and an upper end respectively fitted to provide an elastic force to the inner cover with respect to the outer cover, a heat pipe connected to an external power source and fitted and fixed to each pipe guider of the inner cover, and the outer packing groove and inner packing It includes an outer packing and an inner packing respectively fitted into the grooves and in close contact with the structure, and an insulating waterproofing material filled in the space between the outer cover and the inner cover.

Description

Water leakage blocking device for underground road

The present design relates to a water leakage prevention device for an underpass, and more specifically, a leakage prevention for an underground roadway that removes icicles that occur in winter due to water leakage at the joints of road facilities such as underpasses, covered structures, and tunnels. It relates to the device.

In general, road facilities such as underground roads, covered structures, and tunnels have a structure in which a plurality of concrete boxes are successively installed in the longitudinal direction, or a tunnel is excavated and then concrete is poured to support the excavation surface.

Road facilities such as underpasses, such as expansion joints provided to respond to the new construction of the structure due to floating subsidence of the ground or temperature change due to seasonal changes, and construction joints for ease of construction in the construction process of the structure. Joints are formed, and these joints are a major factor directly related to the safety of the structure.

On the other hand, when the road facility is left for a long time due to the expansion and construction according to the seasonal temperature change of the concrete structure, there is a problem that damage occurs at the joint of the concrete structure, and water leakage occurs at the damaged area.

As described above, leakage of the joints of concrete structures makes the road uncomfortable by wetting the road surface in summer, and in winter, freezing caused by water leakage forms an icy road on the road surface or forms icicles on the joints, which is dangerous to vehicles running at high speed. Acts as an element.

1 is a diagram illustrating an installation state of an icicle prevention expansion joint according to the prior art, and FIG. 2 is a partial perspective view of an icicle prevention expansion joint according to the prior art.

1 and 2, in order to solve the above problems, Korean Patent Registration No. 10-0955863 is proposed.

That is, the icicle-preventing expansion and contraction device of the prior art includes a waterproof sheet 12 disposed between the oil gap d of the structure 1 and a plate plate for fixing the waterproof sheet 12 to the upper side of the waterproof sheet 12 ( 13) and an expansion joint 10 composed of a bolt 14, and a hot wire coupled to the lower side of the waterproof sheet 12 to prevent water from leaking from the expansion joint 10 from freezing in winter ( 21), an external temperature sensor 22 formed to measure an external temperature to one side of the heating wire 21, a power supply 23 for applying power to the heating wire 21, and the external temperature sensor 22 It includes an anti-icing unit 20 composed of a finishing material 24 is formed.

However, in the prior art as described above, the gap between the joints of the concrete structure cannot be maintained due to the expansion of the concrete due to external influences such as contraction of the concrete due to the floating settlement of the ground and temperature change, and drying, and the width of the joint is narrowed. In the case of cracking or partial damage, there is a problem in that the adhesion between the concrete structure and the waterproof sheet is not smooth, which causes another leakage.

As described above, leakage due to cracks in the joints of the concrete structure is exposed to the outside regardless of the function of the internal heating wire of the waterproof sheet, and the problem of forming icicles along the joints in winter still remains.

In this way, icicles frozen due to water leakage along the joints of concrete structures freely fall due to vibrations generated while the vehicle is running, causing a safety accident, and a problem that requires a lot of maintenance costs to repair them. have.

Republic of Korea Patent Registration No. 10-0955863 The matters described in this background are prepared to enhance an understanding of the background of the invention, and are not previously known to those of ordinary skill in the field to which this technology belongs. Can include.

An embodiment of the present invention is fastened with a double structure cover on both sides of a joint of a concrete structure such as an underground driveway to facilitate the discharge of water due to leakage of the joint, and the heat source made of a heat pipe prevents icicles generated in winter. It is intended to provide a water leakage prevention device for underground roadways that can prevent generation.

In addition, in an embodiment of the present invention, a double-structured cover fastened to both sides of a joint part of a concrete structure is in close contact with each other through each packing, and in particular, the inner cover uses an elastic force by a spring so that the inner packing is always attached to the concrete structure. It is intended to provide a leak prevention device for underground roadways that maintains a close contact state so that leaked water can be stably drained even when the joint is damaged or deformed.

In an embodiment of the present invention for realizing the above-described technical problem, in the leakage prevention device for an underground roadway, an outer packing groove having a plurality of bolt holes formed along the longitudinal direction at both ends is formed on both sides of the joint of the structure. An outer cover fixed with an anchor bolt through the bolt hole and having a plurality of lower fixing ends of the spring formed at regular intervals along the length direction on both sides of the inner surface of the outer cover part corresponding to the joint part; Inner packing grooves are formed along the longitudinal direction at both ends, pipe guides are formed along the longitudinal direction on both sides of the inner surface of the inner cover part corresponding to the joint, and constant intervals along the longitudinal direction on both sides of the outer surface of the inner cover part An inner cover having a plurality of spring upper fixing ends formed therein and disposed within the outer cover; A plurality of springs each having a lower end and an upper end fitted between the outer cover and the inner cover, the lower end of the spring and the upper end of the spring to provide an elastic force to the inner cover with respect to the outer cover; A heat pipe connected to an external power source and fitted into and fixed to each pipe guider of the inner cover; An outer packing and an inner packing that are respectively inserted into the outer packing groove and the inner packing groove to be in close contact with the structure; LC A water leakage prevention device for an underground roadway including an insulating waterproofing material filled in the space between the outer cover and the inner cover may be provided.

In addition, a temperature sensor installed on one side of the inner cover to sense and output the internal temperature; A power controller configured to control the supply of power to the heat pipe by receiving a signal from the temperature sensor; And a switch for manually controlling the operation of the power controller.

The inner cover may be formed such that an outer tip of the inner packing groove is seated along an inner end of the outer packing groove of the outer cover.

In addition, the heat pipe may be joined by filling a heat-resistant sealer while being fitted inside the pipe guider.

The outer cover and the inner cover may be connected to a drainage passage by connecting joints of the upper surface and both sides of the structure.

In addition, the outer cover and the inner cover may be connected to a connection part connecting the upper joint and both side joints of the structure through an external connection cover and an internal connection cover.

The water leakage prevention device for an underpass according to an embodiment of the present invention as described above is fastened to both sides of a joint of a concrete structure such as an underpass with a double-structured cover consisting of an outer and an inner cover to discharge water due to leakage of the joint. It can smoothly and prevent the generation of icicles that occur in winter through temperature control through a heat pipe.

In addition, the outer and inner covers that are fastened to both sides of the joint of the concrete structure are in close contact with the concrete structure through each packing.In particular, the inner cover keeps the inner packing in constant contact with the concrete structure by using the elastic force of the spring. This prevents the generation of icicles in winter by stably draining the leaked water even when the joint is damaged or deformed, and it is possible to prevent safety accidents in the vehicle caused by the fall of icicles.

1 is an installation state diagram of an expansion joint device for preventing icicles according to the prior art.
Figure 2 is a partial perspective view of an icicle preventing expansion joint according to the prior art.
3 is a front view of a state in which a water leakage prevention device for an underpass according to an embodiment of the present invention is installed.
4 is a partial perspective view of a water leakage prevention device for an underpass according to an embodiment of the present invention.
5 is an exploded perspective view of a leak prevention device for an underpass according to an embodiment of the present invention.
6 is a cross-sectional view of an installation state of a water leakage prevention device for an underpass according to an embodiment of the present invention.
7 is a control block diagram of a water leakage prevention device for an underground roadway according to an embodiment of the present invention.

Hereinafter, a configuration and operation according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

3 is a front view of a state in which a water leakage prevention device for an underpass according to an embodiment of the present invention is installed, FIG. 4 is a partial perspective view of a water leakage prevention device for an underpass according to an embodiment of the present invention, and FIG. It is an exploded perspective view of a water leakage prevention device for an underpass according to an embodiment, and FIG. 6 is a cross-sectional view of an installation state of the water leakage prevention device for an underpass according to an embodiment of the present invention.

The water leakage prevention device for underpass is installed along the joints of road facilities such as underpasses, covered structures, tunnels, etc. and functions to remove icicles that occur in winter due to water leakage.

3 to 6, the leak prevention device for an underpass according to an embodiment of the present invention includes an outer cover 101, an inner cover 103, a plurality of springs 105, an outer packing 107, an inner packing (109), a heat pipe 111, and a thermal insulation waterproofing material 113.

The outer cover 101 is formed with outer packing grooves G1 in which a plurality of bolt holes H are formed along the longitudinal direction at both ends.

At this time, the outer cover 101 is formed by opening an upper portion corresponding to the concrete structure 100 in the outer packing groove G1, and the bolt holes H on both sides of the joint 200 of the concrete structure 100 ) Through the anchor bolt (115) is fixed.

In addition, the outer cover 101 has a plurality of lower fixing ends 101b formed at predetermined intervals along the length direction on both sides of the inner surface of the outer cover part 101a corresponding to the joint part 200.

At this time, the outer cover part 101a has both ends connected to the outer packing grooves G1 on both sides and the inclined surface 101c.

The inner cover 103 is disposed inside the outer cover 101 to correspond to the concrete structure 100.

The inner cover 103 is formed in the same cross-sectional shape as the outer cover 101, and inner packing grooves G2 are formed at both ends along the longitudinal direction.

In addition, the inner cover 103 has pipe guides 111a formed along the longitudinal direction on both sides of the inner surface of the inner cover part 103a corresponding to the joint part 200, and the outer surface of the inner cover part 103a A plurality of upper fixing ends 103b of the spring are formed on both sides at regular intervals along the length direction, respectively.

At this time, the inner cover part 103a has both ends connected to the inner packing groove G2 on both sides and the inclined surface 103c, and the upper fixing end 103b of the spring is a lower fixed end of the spring formed on the outer cover 101 It is formed corresponding to each of (101b).

In addition, the inner cover 103 is formed such that the outer tip of the inner packing groove G2 is seated along the inner end of the outer packing groove G1 of the outer cover 101.

The outer cover 101 and the inner cover 103 are installed to be connected to the drainage passage 300 by connecting the joints 200 on the upper and both sides of the concrete structure 100, and the concrete structure ( It may be connected to the connection portion 200a connecting the upper joint of 100) and both side joints through the external connection cover 121 and the internal connection cover 123.

The plurality of springs 105 have a lower end and an upper end inserted between the outer cover 101 and the inner cover 103, respectively, to the lower fixing end 101b of the spring and the upper fixing end 103b of the spring, so that the outer cover With respect to 101, an elastic force is provided to the inner cover 103.

That is, the spring 105 provides an elastic force with a pressing force that makes the inner cover 103 in close contact with the concrete structure 100 while the outer cover 101 is fixed at both ends of the concrete structure 100. do.

7 is a control block diagram of a water leakage prevention device for an underground roadway according to an embodiment of the present invention.

At this time, referring to FIG. 7, the heat pipe 111 is installed on one side of the inner cover 103 to detect and output the internal temperature, and receive a signal from the temperature sensor S. Accordingly, power supply control according to temperature is performed by a power controller (C) for supplying and controlling power to the heat pipe 111 and a switch (SW) for manually controlling the operation of the power controller (C).

That is, the power controller (C) receives the temperature signal output from the temperature sensor (S) installed inside the inner cover (103), compares it with the set temperature on its own map table, and when the detection temperature is less than the set temperature, the An algorithm for connecting external power to the heat pipe 111 may be provided, and the power supply of the heat pipe 111 may be manually controlled through the switch SW.

And the outer packing 107 is inserted into the outer packing groove (G1) in a state in close contact with the concrete structure 100, and fastened to the concrete structure 100 with an anchor bolt 115 together with the outer cover 101 Is fixed.

In addition, the inner packing 109 is fitted in the inner packing groove (G2) to be in close contact with the concrete structure 100, at this time, the inner packing 109 by the elastic force provided from the plurality of springs (105). It maintains the adhesion.

Here, the outer and inner packings 107 and 109 may increase adhesion to the concrete structure 100 by applying a urethane rubber material.

The heat pipe 111 is connected to an external power source, and is fitted and fixed to each pipe guider 111a of the inner cover 103. In this case, the heat pipe 111 may be bonded by filling the heat-resistant sealer 111b while being fitted inside the pipe guider 111a.

In this case, the external power source may use electric energy generated by a solar cell module (not shown) and stored in a capacitor (not shown).

The insulating waterproofing material 113 is filled in the space between the outer cover 101 and the inner cover 103, the insulating waterproofing material 113 is the internal temperature between the concrete structure 100 and the inner cover 103 In order to maintain the insulation, it is applied as a waterproof material so that water leaking from the joint 200 of the concrete structure 100 does not leak to the outside.

Underground roadway leakage prevention device having such a configuration, even if a leak occurs from the joint 200 of the concrete structure 100 when the temperature is higher than the set temperature in the summer, the inner cover 103 functions as a waterway, so that the drainage passage 300 It serves as a guide to be discharged.

In addition, in winter, when the temperature is below the set temperature, power is supplied to the heat pipe 111 so that even if a leak occurs from the joint 200 of the concrete structure 100, the water falling inside the inner cover 103 does not freeze. It allows it to be discharged to the drainage passage 300, and prevents the generation of icicles.

In addition, even in winter, the internal temperature of the inner cover 103 is always maintained above the set temperature due to the heat generated by the heat pipe 111, so that the expansion and contraction function generated in the joint 200 of the concrete structure 100 is smoothly connected. It can prevent damage and reduce the cost of maintenance.

In this way, the leak prevention device for an underpass according to an embodiment of the present invention is a double structure consisting of an outer cover 101 and an inner cover 103 on both sides of the joint 200 of a concrete structure 100 such as an underpass The cover is fastened to facilitate the discharge of water leaked through the joint.

In addition, by preventing the generation of icicles in winter through the heat pipe 111 as a heat source, it is possible to prevent a safety accident of a vehicle due to icicles falling.

In addition, the outer cover 101 and the inner cover 103, which are fastened to both sides of the joint 200 of the concrete structure 100, are in close contact with each other through the packings 107 and 109, and in particular, the inner cover 103 is The inner packing 109 is kept in close contact with the concrete structure 100 by using the elastic force of the spring 105, so that the leaked water is not exposed to the outside even when the joint 200 is damaged or deformed, and it is drained stably. Make it possible.

As described above, the present invention has been described through limited embodiments and drawings, but the present invention is not limited thereto, and the technical idea of the present invention and the following description by those of ordinary skill in the technical field to which the present invention belongs. Various modifications and variations are possible within the scope of the claims.

100: concrete structure
101: outer cover
103: inner cover
105: spring
107: outer packing
109: inner packing
111: heat pipe
113: insulation waterproofing material
115: anchor bolt
121: external connection cover
123: inner connection cover
200: joint
300: ditch
S: temperature sensor
SW: switch
C: power controller

Claims (6)

In the leakage prevention device for underground roadways,
An outer packing groove with a plurality of bolt holes formed along the longitudinal direction is formed at both ends, and fixed with anchor bolts through the bolt holes on both sides of the joint of the structure, and lengths are respectively provided on both sides of the inner surface of the outer cover part corresponding to the joint. An outer cover having a plurality of lower fixed ends of the spring formed at regular intervals along the direction;
Inner packing grooves are formed along the longitudinal direction at both ends, pipe guides are formed along the longitudinal direction on both sides of the inner surface of the inner cover part corresponding to the joint, and constant intervals along the length direction respectively on both sides of the outer surface of the inner cover part An inner cover having a plurality of spring upper fixing ends formed therein and disposed within the outer cover;
A plurality of springs each having a lower end and an upper end fitted between the outer cover and the inner cover, the lower end of the spring and the upper end of the spring to provide an elastic force to the inner cover with respect to the outer cover;
A heat pipe connected to an external power source and fitted into and fixed to each pipe guider of the inner cover;
An outer packing and an inner packing that are respectively inserted into the outer packing groove and the inner packing groove to be in close contact with the structure; And
Insulation waterproofing material filled in the space between the outer cover and the inner cover;
Leakage prevention device for an underground roadway comprising a. The method of claim 1,
A temperature sensor installed on one side of the inner cover to detect and output an internal temperature;
A power controller configured to control the supply of power to the heat pipe by receiving a signal from the temperature sensor; And
A switch for manually controlling the operation of the power controller;
Leakage prevention device for an underpass further comprising a. The method of claim 1,
The inner cover
A water leakage prevention device for an underground roadway, wherein the outer tip of the inner packing groove is formed to be seated along the inner end of the outer packing groove of the outer cover. The method of claim 1,
The heat pipe is
A water leakage prevention device for an underground roadway that is fitted by filling a heat-resistant sealer while being inserted into the pipe guider. The method of claim 1,
The outer cover and the inner cover
A water leakage prevention device for an underground roadway connected to a drainage passage by connecting each joint on both sides of the upper surface of the structure. The method of claim 1,
The outer cover and the inner cover
A water leakage prevention device for an underground roadway connected to a connection part connecting the upper joint of the structure and both side joints through an external connection cover and an internal connection cover.

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