KR101794745B1 - Sky-walk bridge having half-circle structural form supported by stay cable - Google Patents

Abstract

The present invention relates to a semicircular skywalk bridge supported by an asymmetrical stay cable, comprising: first and second abutments (12, 16) located at a predetermined distance from each other; a post (20) located at a central portion between the first and second abutments (12, 16); a plurality of support plates (30); a plurality of support cables (40); and a first steel pipe (52), a second steel pipe (54), a third steel pipe (56), and a fourth steel pipe (58). According to the present invention, users are able to very vividly experience natural scenery.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sky-walk bridge having a half-circle structural form supported by a stay cable,

The present invention relates to a skyway bridge, and more specifically, it is installed in a place where a natural landscape is very excellent, such as a waterfall or a coastal cliff, but it is difficult to approach, and the natural environment is minimized. It is about a semicircular bridge of sky.

Sky walk bridges have the advantage of being able to experience nature closer to people who are installed in places with high natural scenery such as dense forests and coastal areas, Construction is being carried out. Fig. 5 shows an example of a sea sky bridge installed along a coastal line.

As can be seen from FIG. 5, a typical skyway bridge is constructed such that a plurality of bridge piers are spaced apart by a predetermined distance, and then connected between adjacent piers by a passage. In accordance with the natural environment, Or by constructing a zigzag way along the passage between the piers as shown in the drawing, the user can experience the natural scenery more vividly.

However, since most of the proposed skyway bridges are connected to each other as a passage through the piers located at a certain distance apart from each other, it is preferable to use a waterfall, a cliff, There was a problem that the construction itself was difficult in the ground or the coastal area.

Korean Patent No. 1655246

An object of the present invention is to provide a skyway bridge that is installed in a natural environment having a special ground structure such as a cut-off such as a waterfall or a top of a cliff or a mountain, and users can experience the natural scenery very vividly.

In order to achieve the above object, the present invention provides a first and second shifts (12, 16) located at a certain distance from each other; And the lower end portion is fixedly coupled to a lower point of each lower end portion of the first and second shifts 12 and 16. The upper portion is fixedly connected to the upper end of each of the first and second shifts 12 and 16, (20) located at a central portion between the first and second alternations (12, 16) so as to protrude higher than the first and second alternating portions (12, 16); A plurality of triangular steel plates 32 having concentric circles arranged at regular intervals from each other between the first and second alternations 12 and 16 to form concentric circles from the pillars 20, A first through hole 36 is formed in the protruded first vertex and second and third through holes 37 and 38 are formed in second and third vertexes located on the upper and lower sides of the rear, A supporting plate body 30 integrally provided with a first railing 33 protruding upward at a predetermined vertical height; Each of the end portions is fixedly coupled to the upper portion of the upper portion of the strut 20 and the other end portion is inclined downward at a predetermined angle, and each of the support plates 30, A support cable 40 fixedly coupled to one side of the second through-hole 37 of the first connector 40; A first steel pipe 52 having a semicircle inserted into and fixed to the first through hole 36 of each of the support plate bodies 30 and inserted into the second through hole 37 of each of the support plate bodies 30, A third steel pipe 56 which is inserted and fixedly inserted into the third through hole 38 of each of the support plate bodies 30 as a semicircle and which is fixedly coupled to each other, A fourth steel pipe (58) fixedly coupled to an upper portion of the first balancer (33); A second balancer 62 having a predetermined vertical height and fixed at its lower end portion and fixedly coupled to a first upper portion of the first vertex of the support plate body 30 where the first through holes 36 are formed, A first rail cable 64 fixed to one side of the second railroad rail 62 and a plurality of second railroad rails 64 positioned at different vertical heights from each other, And a second rail cable 66 penetratingly coupled with the second rail cable 66.

In the present invention, the passage that a user travels is formed into a semicircular structure and protruded forward by a predetermined length, so that the corridors are supported by a constant vertical height fixed to the ground at a certain distance behind the semicircular passage The user can vividly experience natural scenery such as a slope such as a waterfall or the summit of a cliff or a mountain in a closer position.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic perspective view of a skyway bridge according to the present invention; FIG.
FIG. 2 is a schematic front view of a skyway bridge according to the present invention. FIG.
3 is a schematic side view of a skyway bridge according to the present invention.
FIG. 4 is a schematic view of a support plate body in a skyway bridge according to the present invention; FIG.
Fig. 5 is a schematic diagram of a conventional skylight bridge. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the technical features of the present invention, A detailed description thereof will be omitted.

Each of Figs. 1 to 3 shows a schematic perspective view, a front view, and a side view of a skyway bridge according to the present invention. As shown in the drawings, the present invention is characterized in that it includes first and second alternation 12, 16, column 20, support plate 30, support cable 40, steel pipe, and the like. Hereinafter, each of these configurations will be described in detail.

The first and second alternations 12 and 16 are first means for supporting both sides of the passage, and are located a certain distance apart from each other. The first and second alternations 12 and 16 may be made of a concrete structure, and each lower end portion is fixed to the ground.

The column 20 is a second means for supporting the passage, and is located at a central portion between the first and second alternations 12, 16. The column 20 is preferably made of a steel pipe having a predetermined vertical height. As shown in the figure, the lower end portion of the column 20 is fixedly connected to a position lower than each lower end portion of the first and second shifts 12 and 16, (12, 16) in the first and second shifts.

That is, the lower end of the column 20 has a constant vertical height difference from the first and second alternations 12, 16 and is fixedly coupled to the ground. The reason why the present invention proposes such a configuration is that the post 20 has a very stable structure when supporting the passage by using the support cable 40 to be described later.

The passage supported by the first and second alternation 12 and 16 and the column 20 is composed of a support plate body 30, a steel pipe, first and second railings, and first and second railway cables. Let's look at the concrete structure of each of them.

The support plate body 30 is a portion forming the lower side of the passage and is disposed concentrically from the support 20 and spaced apart from each other by a predetermined distance between the first and second alternation 12 and 16. As shown in FIG. 4, each of the support plate bodies 30 includes a triangular structural plate 32 having three vertexes as a basic structure and a first railroad 33 provided at one side of one vertex of the triangular structural plate 32 .

The triangular structural steel plate 32 has a predetermined thickness. A first through hole 36 is formed in the first vertex protruding forward, and second and third through holes 36 are formed in the second and third vertexes, (37, 38) are formed. That is, one surface portion connecting the first vertex and the second vertex in the triangle is horizontally formed to form the upper surface. Reference numeral 31 denotes a groove which reduces the weight of the triangular structural steel plate itself and reduces the external force due to the wind acting on the triangular structural steel plate.

The first rail 33 protrudes upward from the second vertex portion where the second through hole 37 is formed. The first balancer 33 preferably has a predetermined width and is made of a steel plate having the same thickness as the triangular steel plate 32, and is preferably formed integrally with the triangular steel plate as shown in the figure.

On the other hand, separate first and second support plates may be provided in the first and second shift stages 12 and 16 separately from the support plate body 30. The first and second support plates are installed on the upper surface of each of the first and second shifts 12 and 16 as described in each of the drawings and are formed by removing the third vertex portion of the structure of the support plate body 30, Structure.

The steel pipe is a means for connecting the support plate body 30 arranged concentrically from the support 20 and spaced apart from each other between the first and second alternation 12 and 16 by a predetermined distance. And four-steel pipes 52, 54, 56, and 58. Specifically, the first steel pipe 52 is inserted into and fixedly connected to the first through hole 36 of each of the support plate bodies 30, and the second steel pipe 54 is inserted into the second through hole 36 of each of the support plate bodies 30 The third steel pipe 56 is inserted into and fixedly engaged with the third through hole 38 of each of the support plate bodies 30 and the fourth steel pipe 58 is inserted into and fixed to the support plate bodies 30 And is fixedly coupled to the upper portion of the first railing 33 of the first rail 33.

The second rail portion 62 has a predetermined vertical height and is fixedly coupled to the upper portion of the first vertex of the support plate body 30 where the first through holes 36 are formed. The first rail cable 64 is composed of a plurality of first rail cables 64 positioned at different vertical heights from each other and fixed to one side of the second rail 62. The second rail cable 66 is composed of a plurality of second rail cables 66, which are positioned at different vertical heights, and are fixedly coupled through the first rail 33. Reference numerals 72 and 76 each denote a support wire and a step deck.

The supporting cable 40 is a twisted cable for connecting the strut 20 and the passage to each other by a predetermined tension so as to support the passage. One end of each of the support cables 40 is fixedly coupled to the upper surface of the upper portion of the strut 20 and the other end of each of the support cables 40 is downwardly inclined at a predetermined angle, Through hole (37).

Since the support plate bodies 30 adjacent to the first and second alternations 12 and 16 can be sufficiently supported by the first and second alternations 12 and 16, Even if the support plate body 30 is not connected, the load of the passage can be sufficiently sustained. The supporting cable may be formed by a wire, and a turnbuckle for adjusting tension or length of the supporting cable may be provided at a connection portion with the supporting plate body.

As described above, according to the present invention, the passage is formed in a semicircular shape and protruded forward by a predetermined length, and the passage is constructed to be supported by a post which is installed at the rear with a predetermined vertical height. It is also possible to construct the ground structure where bridge construction is impossible, so that users can experience a more natural environment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be apparent that the present invention can be practiced with added features.

12, 16: 1st, 2nd shift 20: holding
30: Support plate body 40: Support cable
52, 54, 56, 58: 1st, 2nd, 3rd, 4th steel pipe

Claims (1)

First and second shifts (12, 16) located a certain distance apart from each other;
And the lower end portion is fixedly coupled to a lower point of each lower end portion of the first and second shifts 12 and 16. The upper portion is fixedly connected to the upper end of each of the first and second shifts 12 and 16, (20) located at a central portion between the first and second alternations (12, 16) so as to protrude higher than the first and second alternating portions (12, 16);
A plurality of triangular steel plates 32 having concentric circles arranged at regular intervals from each other between the first and second alternations 12 and 16 to form concentric circles from the pillars 20, A first through hole 36 is formed in the protruded first vertex and second and third through holes 37 and 38 are formed in second and third vertexes located on the upper and lower sides of the rear, A supporting plate body 30 integrally provided with a first railing 33 protruding upward at a predetermined vertical height;
Each of the end portions is fixedly coupled to the upper portion of the upper portion of the strut 20 and the other end portion is inclined downward at a predetermined angle, and each of the support plates 30, A support cable 40 fixedly coupled to one side of the second through-hole 37 of the first connector 40;
A first steel pipe 52 having a semicircle inserted into and fixed to the first through hole 36 of each of the support plate bodies 30 and inserted into the second through hole 37 of each of the support plate bodies 30, A third steel pipe 56 which is inserted and fixedly inserted into the third through hole 38 of each of the support plate bodies 30 as a semicircle and which is fixedly coupled to each other, A fourth steel pipe (58) fixedly coupled to an upper portion of the first balancer (33);
A second balancer 62 having a predetermined vertical height and fixed at its lower end portion and fixedly coupled to a first upper portion of the first vertex of the support plate body 30 where the first through holes 36 are formed, A first rail cable 64 fixed to one side of the second railroad rail 62 and a plurality of second railroad rails 64 positioned at different vertical heights from each other, A second rail cable 66 penetratingly coupled
A semicircular bridge supported by an asymmetric bracing cable included.

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