KR102194772B1 - Movable-type Cap-concrete Structure - Google Patents

Abstract

The present invention is intended to easily secure the viewability of the breakwater or the standing concrete installed on the shore in normal times, and to actively block the overpass during a storm,
Consisting of a water tank 150 provided in a form recessed in the upper surface of the standing concrete 120, a movable body 131 mounted therein; One end of the movable body 131 is in contact with and supported on the upper surface of the water tank outer wall 151, and the other end is rotatably coupled to a hinge 134 fixed to the upper surface of the water tank inner wall 152; The inside of the movable body 131 has a hollow structure, a buoyancy chamber 133 having a sealed space is formed on the outer sea side, and a distribution hole 132a through which seawater can flow in or out is provided on the inner sea side. It is assumed that the weighted thread 132 is formed.

Description

Movable-type Cap-concrete Structure

The present invention relates to a stand concrete structure, specifically, to a movable stand concrete structure that is installed in a breakwater or a revetment, and automatically stands by the overpass to block overpass.

Breakwaters are roughly divided into caisson type (upright) breakwater, sandstone type breakwater, mixed breakwater, etc.In terms of their structure, when a breakwater is built in a sea area where high wave height is expected, if the wave breaks through the breakwater, ships moored in the inland sea, dock facilities Since there is a concern about damage to the back, there is a known structure of Sangchi concrete that blocks the breakthrough while raising the height of the standing concrete so that the wave cannot break through the breakwater.

1 is a schematic diagram of a conventional caisson breakwater.

As shown, the conventional caisson breakwater has a deep water depth to prevent the amount of sandstone from being consumed too much, after constructing the foundation stone (1) only to a certain height, and installing a number of caissons (4) thereon. , By filling the interior of the caisson (4) with sand, etc., to achieve the stability of the wall, and the top of the caisson (4) is installed on the top of the top structure, and to reduce the weight of the top structure while preventing overpass, A configuration in which the parapet 11 is installed is known. Reference numeral 2, which is not described, is a coating stone.

However, in the structure of the conventional breakwater as above, since there is no separate means for adjusting the height of the parapet 11 above the seawater surface, the height is always constant, so if the parapet 11 is excessively increased during initial construction, the view There is a problem that not only the property is deteriorated, but also the construction cost is high.

In addition, when the parapet 11 is lowered above the seawater surface during the initial construction, the wave height is increased due to a storm or typhoon, so that it is not possible to prevent the breakwater from breaking through, so there is a problem that the role of the breakwater cannot be properly performed.

Publication Patent Publication No. 10-2011-0021231 (published on March 4, 2011)

The present invention is intended to be able to easily secure the viewability because the standing concrete installed on the breakwater or the shore is folded in a normal time, and it is to be able to automatically stand up when overpassing to block the overpass.

In the present invention, the movable Sangchi concrete structure is characterized in that a movable body capable of automatically rotating and standing by the seawater that has been broken by placing a water tank recessed above the existing Sangchi concrete is installed.

In addition, the movable body is characterized in that a buoyancy chamber having a closed space portion is formed on the outer sea side, and a weighted chamber provided with a circulation hole through which seawater can flow in or out is formed on the inner sea side.

In addition, the fixing means is further provided; The fixing means is formed on one side of the movable body, a cut groove is formed in the center to facilitate elastic deformation, and a fixing piece with an inclined surface is formed on the outer surface, and is formed by being recessed in one surface of the upper concrete, and is formed on the inner wall surface. It characterized in that it is made of a fixing groove formed with an inclined inner surface.

In addition, an arc-shaped groove is provided at one end of the incision groove to prevent stress concentration and smooth elastic deformation.

The present inventors' breakwater or movable standing concrete installed on the shore has the effect of securing the view easily because it is folded at normal times, and has the effect of automatically standing up when overpassing to block overpass, and by the overwhelm trapped in the water tank There is an effect of increasing the stability of the structure.

1 is a schematic diagram of a conventional caisson breakwater
2 is a cross-sectional view of the present invention in a state in which no overpass occurs
3 is a cross-sectional view of a state in which the movable body of the present invention is standing
Figure 4 is a cross-sectional view of the present invention movable body has completed standing
Figure 5 is a schematic perspective view of the present invention fixing means
Figure 6a is a cross-sectional view of the present invention fixing means before engagement. Figure 6b is a cross-sectional view of the present invention fixing means in a combined state

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. For reference, the size of the constituent elements shown in the drawings referred to in describing the present invention, the thickness of the line, etc. may be somewhat exaggerated for convenience of understanding.

In addition, terms used in the description of the present invention are defined in consideration of functions in the present invention, and thus may vary according to user, operator intention, custom, and the like. Therefore, the definition of this term should be made based on the contents of the entire specification.

And in the present application, terms such as'include' and'have' refer to the existence of specific numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other It is to be understood that the presence or addition of features or numbers, steps, actions, components, parts, or combinations thereof, does not preclude the possibility of preliminary exclusion.

In addition, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only the present embodiment makes the disclosure of the present invention complete, and the scope of the invention to those of ordinary skill in the art. It is provided to be fully informed.

Therefore, in the present invention, various changes can be made and various forms can be obtained, and implementation examples (aspects) (or embodiments) will be described in detail in the specification. However, this is not intended to limit the present invention to a specific form of disclosure, and should be understood to include all changes, equivalents, or substitutes included in the technical idea of the present invention, and the expression of the singular number used in the present specification is clearly different from the context. Includes plural expressions unless they are meant to be.

However, in describing the present invention, detailed descriptions of well-known or known functions or configurations will be omitted in order to clarify the gist of the present invention.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.

FIG. 2 is a cross-sectional view of the present invention in a state where there is no overwhelming wave, FIG. 3 is a cross-sectional view of a state in which the movable body of the present invention is standing, and FIG.

As shown, the movable Sangchi concrete of the present invention includes a water tank 150 made by digging the upper part of the existing Sangchi concrete, and a movable body 131 that is automatically erected when an overpass occurs.

A drain pipe 121 is formed on the outer wall 151 of the water tank 150 of the present invention, which communicates the water tank with the outside, and in the water tank, when an overwhelming occurs, it rotates around the hinge 134 to automatically stand up. The movable body 131 is installed.

One end of the movable body 131 contacts and is supported on the upper surface of the outer wall 151 of the water tank, and the other end is rotatably coupled to a hinge 134 fixed to the upper surface of the inner wall 152 of the water tank.

The inside of the movable body 131 has a hollow structure, a buoyancy chamber 133 having a sealed space is formed on the outer sea side, and a distribution hole 132a through which seawater can flow in or out is provided on the inner sea side. The weighted chamber 132 is formed.

Looking at the working relationship of the above configuration,

When an overwhelming wave occurs due to a storm or typhoon, seawater fills the tank 150, and the filled seawater generates buoyancy by the buoyancy chamber 133 formed on the outer sea side of the movable body 131, on the other hand, Since seawater flows into the distribution hole 132a formed on the outer surface of the weighted chamber 132 formed on the inner sea side of the movable body 131, the weight of the weighted chamber 132 increases, so the movable body 131 is separated from the fixing means. Then, it rises while rotating around the hinge 134 by gravity, so that it is possible to block overpass.

Hereinafter, a fixing means that is a second embodiment of the present invention will be described.

Figure 5 is a schematic perspective view of the fixing means of the present invention, Figure 6a is a cross-sectional view of the state before the coupling of the fixing means of the present invention. Figure 6b is a cross-sectional view of the present invention fixing means in a combined state.

As shown, the fixing means 140 is divided into a fixing piece 141 formed on one side of the movable body 131 and a fixing groove 142 formed on one surface of the standing concrete.

The fixed piece 141 has an incision groove 141a formed in the center, and an arc-shaped groove 141b for preventing stress concentration and smoothing elastic deformation is formed at one end of the incision groove 141a. , An inclined surface 141c is provided on the outer surface of the fixing piece.

The fixing groove 142 has a structure recessed in one surface of the upper concrete 120, and an inclined inner surface 142c is formed on the inner wall surface.

Looking at the working relationship of the fixing means as above,

The fixing means 140, when the movable body 131 is supported on the upper surface of the outer wall 151 of the upper concrete in a state where there is no overpass, or when the movable body 131 is erected by the overpass and is in contact with the upper concrete, It is a configuration for fixing the movable body to the standing concrete, and the fixing piece 141 formed on one side of the movable body 131 is elastically deformed to enable expansion or reduction by the cutout groove 141a, so the fixing groove 142 It is inserted in a reduced state and then expanded when fully inserted, and is fixed by the inclined inner surface 142c, so that the moving body 131 can be fixed at a certain position of the standing concrete.

When the movable body 131 receives buoyancy by the seawater trapped in the water tank due to the overwhelming wave, the movable body 131 is erected by the buoyancy, and the fixing piece 141 is pulled out and contracted, leaving the fixing groove 142 It is rotated to a standing state by gravity, and when the overpass disappears due to the passing of a storm, etc., the worker restores the standing movable body 131 to the original position by manpower.

Hereinafter, another embodiment of the fixing means of the present invention will be described.

In this embodiment, the movable body 131 is formed of a metal material, and the fixing means 140 formed on the standing concrete 120 is formed of a permanent magnet.

In this embodiment, the movable body 131 rotates away from the magnetic force of the permanent magnet, which is the fixing means, by buoyancy, and in the standing state, there is only a difference in maintaining the standing posture by the magnetic force of the fixing means. It is no different from the described embodiment.

As described above, the movable body installed on the breakwater or the revetment of the present invention is folded at normal times so that the view can be easily secured, and the effect of being able to automatically stand up to block the overpass when overpassing, and the overwhelming channel trapped in the water tank There is an effect of increasing stability.

100: breakwater 110: caisson
120: standing concrete 121: drain pipe
130: parapet 131: moving object
132: weighted room 132a: distribution hole
133: buoyancy chamber 140: fixing means
141: fixed piece 141a: incision groove
141b: circular groove 141c: inclined surface
142: fixed groove 142c: inclined inner surface
150: water tank 151: outer wall
152: inner wall

Claims (4)

delete In Sangchi concrete for securing the stability of port structures such as breakwater and revetment and preventing overbreak,
A water tank 150 in the form of a depression is formed on the upper surface, and a movable body 131 that can be rotated and stood up by gravity is installed inside the tank,
While playing the role of the existing stand-up concrete, it is laid in normal times to secure a view, and in a storm, the movable body 131 is separated from the fixing means 140 by using the buoyancy of the seawater trapped in the water tank by the overpass. It includes a movable body 131 that can be automatically erected by utilizing and fixed by an overwhelming force;
The movable body 131,
A buoyancy chamber 133 having a sealed space on the outer sea side,
Movable standing concrete structure, characterized in that a weighted chamber 132 provided with a distribution hole 132a through which seawater can flow in or out is formed on the inner sea side
The method of claim 2,
The fixing means 140 is further provided;
Fixing means 140,
It is formed on one side of the movable body 131, a cutting groove (141a) is formed in the center to facilitate the elastic deformation, the outer surface is formed with an inclined surface (141c) a fixing piece 141,
A movable stand concrete structure, characterized in that it is formed by being recessed in one surface of the stand concrete 120, and consists of a fixing groove 142 having an inclined inner surface 142c formed on the inner wall
The method of claim 3,
A movable stand-up concrete structure, characterized in that an arc-shaped groove (141b) is provided at one end of the incision groove (141a) to prevent stress concentration and smooth elastic deformation.

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