KR20110020495A - Floating bridge - Google Patents

Abstract

PURPOSE: A floating bridge with a buoyant pipe is provided to increase durability against external shock such as strong wave and typhoon and to reduce the weight of a buoyant pipe. CONSTITUTION: A floating bridge with a buoyant pipe comprises a buoyant pipe(100), a deck, and a connecting member. The buoyant pipe has the buoyancy in order to floats on water. The buoyant pipe comprises an inner pipe(110), an outer pipe(120), and a finishing shoe(130). The inner pipe is made of low-density polyethylene foam. The inner pipe is integrated with a spiral coupling projection(112) on the outside thereof. The outer pipe is made of high-density polyethylene foam. The outer pipe has a bonding groove(122) in order to be combined with the combining projection of the inner pipe. The finishing shoe air-tightly seals both side ends of the outer pipe and the inner pipe. The deck is mounted on the top of the buoyant pipe.

Description

Floating bridge with double buoyancy pipe {FLOATING BRIDGE}

The present invention relates to a pontoon bridge having a double buoyancy pipe suspended on the surface of the water without using a pier, and more particularly, to improve the buoyancy while reducing the weight of the buoyancy pipe, to enhance the flexibility of the buoyancy pipe, such as strong waves and typhoons The present invention relates to a pontoon bridge having a double buoyancy tube that can prevent damage caused by external force.

As is well known, the pontoon bridge is a kind of bridge that is temporarily installed on a shallow shore or riverside without using a pier, and forms a structure in which a top plate is installed on an upper portion of the buoyancy body.

The above-described buoyancy body of the girder is implemented by any one of a plastic tube or hexahedral styrofoam.

However, the styrofoam has a problem that is gradually broken down by the irradiation of the sun over time, the water soaked into it gradually sinks below the water surface.

In addition, the plastic tube is formed in a tube shape to maintain buoyancy, while the tube-shaped tube is easier to manufacture than styrofoam, but easily broken against external impacts caused by strong waves or typhoons, in particular seaweed. There was a problem in that a hole was formed while the tube was wound around the tube, so that the function as a buoyancy body could not be sufficiently exhibited.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to reduce the weight of the buoyancy pipe while having a double buoyancy pipe that can increase the durability against external shocks such as heavy waves or typhoons To provide.

In order to achieve the above object, the present invention, buoyancy tube 100 having a buoyancy to float on the water surface, the upper plate 200 seated on the upper portion of the buoyancy tube 100, to fix the buoyancy tube to the upper plate 200 Including a connecting member 300 to connect, the buoyancy pipe 100 is made of low-density polyethylene foam, the inner tube 110, the coupling projection of the inner tube 110 is formed integrally with a spiral coupling protrusion 112 in the outer diameter. Coupling groove 122 is provided with an inner diameter to be coupled to the 112 is made of a high-density polyethylene foam (120), the inner tube 110 and the finishing shoe 130 for hermetically closing both ends of the exterior (120) To construct.

Here, it is preferable that a sealing mounting ring groove is formed at both end portions of the buoyancy pipe 100 so as to mount a sealing S for hermetically sealing a gap between the inner tube 110 and the exterior 120.

At this time, the sealing mounting ring groove, the first sealing mounting ring groove 116 formed along the outer periphery of the front end and the rear end of the inner tube 110, the first sealing mounting groove 116 of the exterior 120 It may be composed of a second sealing mounting ring groove 126 formed along the inner circumference.

And the closing shoe 130 is preferably provided with a pressing surface 134 to press the sealing (S).

On the other hand, the finishing shoe 130 is preferably formed with a male screw 132 to be screwed to the female thread 114 formed in the inner diameter of both ends of the inner tube (110).

According to the present invention implemented by the above means, as the buoyancy tube is composed of the inner tube and the appearance, the inner tube having the appearance and flexibility of the high-density polyethylene foam with excellent durability against external impacts such as heavy waves and typhoons act as a stress By preventing the breakage of the buoyancy pipe in advance, and at the same time, the high-density polyethylene foam has a strong characteristic against ultraviolet rays, thereby providing a very useful buoyancy tube with excellent durability.

In addition, according to the present invention, as the buoyancy tube has a different density of the inner tube and the outer appearance, the weight can be made lighter than the buoyancy tube consisting of a single high-density polyethylene foam, which further improves the assembly of the pontoon bridge It is effective to improve workability.

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

First, Figure 1 attached is a perspective view according to an embodiment of the present invention, Figure 2 is an exploded perspective view of a buoyancy tube according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the buoyancy tube according to an embodiment of the present invention, Figure 4 is It shows a cross-sectional view of the connecting portion according to an embodiment of the present invention.

The buoys bridge having a double buoyancy tube of the present invention, the buoyancy tube 100 having a buoyancy buoyancy, the upper plate 200 is seated on the upper portion of the buoyancy tube 100, the upper plate 200 is connected to fix the buoyancy tube 100 to It includes a connecting member 300.

The buoyancy pipe 100 is to have a buoyancy to be floating on the water surface, such buoyancy pipe 100 is composed of an inner tube 110 made of a low density polyethylene foam, and an outer shell 120 made of a high density polyethylene foam, the inner tube Both ends of the 110 and the exterior 120 are coupled to each other by the finishing shoe 130.

The inner tube 110 is made of a low density polyethylene foam (LDPE) forming a density of 0.91 ~ 0.92 has excellent flexibility, elongation and cold resistance. In addition, the outer diameter of the inner tube 110 is integrally formed with a spiral wound coupling protrusion 112, it is revealed that the cross-sectional shape of the coupling protrusion 112 can be formed in a polygon such as a square, semi-circle, wedge shape. .

In addition, the front end and the rear end of the inner tube 110 is formed with a first sealing mounting ring groove 116 along the outer periphery is coupled to the inner diameter of the sealing (S) to be described later closely.

In addition, a female thread 114 is formed as an inner diameter of the front end portion and the rear end portion of the inner tube 110, and is screwed to the male thread 132 of the finish shoe 130 to be described later.

Exterior 120 is made of a high density polyethylene foam (HDPE, Forming a density of 0.94 ~ 0.96) has excellent heat resistance and UV resistance. As the inner diameter of the outer shell 120, a spiral coupling groove 122 is formed to be coupled to the coupling protrusion 112 of the inner tube 110, which is also square, semicircular, and wedge to match the cross-sectional shape of the coupling protrusion 112. It may be formed into a polygon such as a mold.

In addition, the front and rear ends of the exterior 120, the second sealing mounting ring groove 126 is formed along the inner circumference, the second sealing mounting groove 126 is a first sealing mounting groove as shown in FIG. It is formed to correspond to 116 is coupled to the outer diameter of the sealing (S) in close contact. Accordingly, the sealing S is tightly coupled to the first sealing mounting groove 116 and the second sealing mounting groove 126 to hermetically seal the gap between the inner tube 110 and the outer tube 120 to seal the inner tube 110. And to prevent the inflow of water between the appearance 120 in advance.

Closing shoe 130 is to close both ends of the inner pipe 110 and the outer surface 120, the male thread 132 is formed on one side of the closing shoe 130, the internal thread (114) of the inner tube (110) Screwed in. The finishing shoe 130 is formed to have the same or similar size as the outer diameter of the exterior 120, and the pressing surface 134 is formed to press the sealing on one surface. Accordingly, the pressing surface 134 of the finishing shoe 130 screwed to the female thread 114 of the inner tube 110 pressurizes the sealing S to prevent water from flowing into the inner tube 110. .

The upper plate 200 is formed to be wide and flat and seated on the upper portion of the buoyancy tube 100, and the upper plate 200 is fixedly connected to the buoyancy tube 100 by the connecting member 300.

The connection member 300 is to securely fix the top plate 200 seated on the upper portion of the buoyancy pipe 100, the connection member 300 is a plurality of top brackets 310 to horizontally support the bottom of the top plate 200 ), The support surface 321 is formed to be curved to support at least a part of the circumference of the buoyancy pipe 100 arranged horizontally is buoyancy pipe bracket 320 that is bound to each upper plate bracket 310 by the binding means 330 It is composed of

The plurality of top brackets 310 have a suitable width so as to horizontally support the bottom of the top plate 200 and are fixed at an appropriate interval on the bottom of the top plate 200.

The buoyancy pipe bracket 320 is provided with a support surface 321 curved to have the same or similar curvature as the outer diameter of the buoyancy pipe 100 to support the lower surface of the buoyancy pipe 100, the buoyancy pipe bracket 320 is It is bound to each upper plate bracket 310 by the binding means 330.

Here, through holes 312 and 322 are vertically drilled on both sides of the upper plate bracket 310 and the buoyancy pipe bracket 320 so that the binding bolt 332 to be described later is penetrated.

The binding means 330 is a binding bolt 332 which is penetrated by the through holes 312 and 322 of both brackets 310 and 320, and screwed to the binding bolt 332 to both brackets 310 and 320. It is implemented as a nut 334 that binds the). Here, the binding bolt 332 may penetrate the upper plate 200 as shown in FIG. 4, and thus, the binding unit 330 may include the upper plate 200, the upper plate bracket 310, and the buoyancy pipe bracket 320. It can be fixed at the same time.

According to the present invention configured as described above, as the buoyancy pipe 100 is composed of the inner pipe 110 and the outer pipe 120, the outer pipe 120 and the flexibility of the high-density polyethylene foam having excellent durability against external impacts such as strong waves and typhoons. The inner tube 110 having a stress acts as a stress to prevent the breakage of the buoyancy tube 100, and at the same time, the high-density polyethylene foam has a strong characteristic against ultraviolet rays to provide a buoyancy tube 100 with excellent durability.

In addition, the buoyancy tube 100 of the present invention, as the inner tube 110 and the outer shell 120 have different densities, it is possible to produce a lighter weight than the buoyancy tube made of a single high-density polyethylene foam, which Furthermore, it is possible to improve the assembling and workability of the pontoon bridge.

The present invention is not limited only to the above-described embodiments, and various modifications, changes, substitutions, and additions can be made in various forms without departing from the spirit of the present invention. I can understand. If such improvement, change, replacement, or addition is carried out within the scope of the following claims, it is obvious that the technical idea also belongs to the present invention.

1 is a perspective view according to an embodiment of the present invention.

Figure 2 is an exploded perspective view of the buoyancy tube according to an embodiment of the present invention.

3 is a cross-sectional view of the buoyancy pipe according to an embodiment of the present invention.

Figure 4 is a cross-sectional view of the connecting portion according to an embodiment of the present invention.

♠ Explanation of symbols on the main parts of the drawing ♠

100: buoyancy pipe 200: top plate

300: connecting member

Claims (5)

It includes a buoyancy pipe 100 having a buoyancy to be floating on the water surface, the upper plate 200 seated on the upper portion of the buoyancy pipe 100, the connecting member 300 for fixing the buoyancy pipe to the upper plate 200, , The buoyancy pipe 100 is made of a low-density polyethylene foam, the coupling groove 112 is coupled to the inner tube 110, the coupling protrusion 112 of the inner tube 110 is formed integrally with the spiral coupling protrusion 112 in the outer diameter. The secondary bridge having a double buoyancy pipe, characterized in that consisting of the outer diameter 120, the inner tube 110 and the closing shoe 130 to hermetically close both ends of the outer shell 120 is provided with an inner diameter. . The method according to claim 1, At both ends of the buoyancy pipe 100, a double buoyancy pipe having a double buoyancy pipe, characterized in that the sealing mounting ring groove is formed so that the sealing (S) for hermetically sealing the gap between the inner tube 110 and the outer shell 120 is mounted. . The method according to claim 2, The sealing mounting ring groove, the inner circumference of the exterior 120 so as to correspond to the first sealing mounting ring groove 116, the first sealing mounting groove 116 formed along the outer circumference of the front end and the rear end of the inner tube (110). The secondary bridge having a double buoyancy pipe, characterized in that consisting of a second sealing mounting ring groove 126 formed along the. The method according to claim 2, The finishing shoe 130 has a double buoyancy pipe, characterized in that the pressing surface 134 is provided to press the sealing (S). The method according to claim 1, The finishing shoe 130 has a double buoyancy pipe, characterized in that the male screw 132 is formed to be screwed to the female thread 114 formed in the inner diameter of both ends of the inner tube (110).

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