KR101683694B1 - Structure of girder supporting by cable and steel sheet - Google Patents

Abstract

The present invention provides a girder structure supported by a cable and a movable steel sheet. The girder structure supported by a cable and a movable steel sheet comprises: a steel pipe girder frame including a first steel pipe girder frame (12) and a first steel pipe girder frame (12); a movable steel plate (20) wherein both edge portions of an upper end thereof are mounted on one end portion of the second steel pipe girder frame (16) and the other end portion of the first steel pipe girder frame (12); a connection bar (30) to sequentially penetrate and mount upper side portions of the movable steel plates (20) to be mounted on the movable steel plates (20); fixing steel plates including a first fixing steel plate (42) whose upper end portion is mounted on a lower side of a middle portion of the first steel pipe girder frame (12), and a second fixing steel plate (46) whose upper end portion is mounted on a lower side of a middle portion of the second steel pipe girder frame (16); a first fixing bar (52) mounted on the first fixing steel plate (42); a second fixing bar (56) mounted on the second fixing steel plate (46); and connection cables consisting of a first, a second, a third, a fourth, a fifth, and a sixth connection cable (62, 64, 66, 68, 63, 67) to connect the steel pipe girder frame, the movable steel plates, and the fixing steel plates.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a girder structure supported by a cable and a movable steel plate,

More particularly, the present invention relates to a girder structure, and more particularly, to a structure in which a pair of left and right steel pipe girder frames are supported by a movable steel plate whose tension is controlled by a cable so that even if a steel pipe of large diameter or a complicated truss structure is not adopted, The present invention relates to a girder structure capable of easily expanding a width of a girder structure.

In bridges, girders are an important part of bridges that absorb the load of the top plate and the passing loads of vehicles or pedestrians and transmit them to alternating or pierced bridges. Therefore, when constructing a bridge, a steel structure made of a large-diameter steel pipe is used for the girder itself, or a steel truss structure having a complicated structure is used for the structural stability of the bridge.

If a girder is constructed as a steel structure or a steel truss structure using a large-diameter steel pipe, it is possible to construct a bridge between the long-diameter bridges. However, the construction cost is considerably increased and a long construction period is required. Considering all these problems, Korean Patent No. 0407667 is among the proposed techniques.

6, the compression member 20 is connected to the center portion of the phase current 11 at both ends supported by the shift 14, and the compression member 20 is connected to the cable 13, So that it can be supported by the support member. In other words, in order to improve the structural stability of the bridge, a separate member is mediated at the central portion of the phase current 11 in which the bending moment is concentrated.

However, in a bridge, the bending moment is concentrated at the central part of the bridge. In this case, when the upper part of the current is in an integral structure and the intermediate part of the upper part is mediated by a separate compression member, The structural stability of the bridge can be seriously degraded because the bending moment of the bridge can not be properly absorbed and dispersed.

Korean Patent No. 0407667

It is an object of the present invention to provide a girder structure capable of easily constructing a bridge between a person's body without using a large-diameter steel pipe or a complex truss structure.

In order to achieve this object, a first steel pipe girder frame (12) having one end supported by a first alternation (1) and the other end extending to a central portion, And one end portion of the second steel pipe girder frame 16 extends to the central portion and is spaced apart from the other end portion of the first steel pipe girder frame 12 by a predetermined distance. The second steel pipe girder frame 16 is supported by the second alternation 2, A steel pipe girder frame made of steel; Each of which is located at a position spaced apart from each other by a predetermined distance, and each of both side edge portions of each upper end is connected to the other end portion of the first steel pipe girder frame 12 and one end portion of the second steel pipe girder frame 16 (20); A connecting rod 30 which sequentially passes through upper portions of the movable steel plates 20 and is coupled with each of the movable steel plates 20; And a first coupling step (41) is formed on a lower side of the first steel pipe girder frame (12). The first steel pipe girder frame (12) has a V-shaped structure A V-shaped structure in which a fixed steel plate 42 and a second coupling end 45 are formed on the other side of the lower steel plate 42, And a second fixed steel plate (46) joined to the lower side of the portion; A first fixing bar 52 penetrating sequentially the lower side portions of the first fixing steel plates 42 to be engaged with the respective first fixing steel plates 42 and a second fixing bar 52 connecting the lower side portions of the second fixing steel plates 46 sequentially A second fixing rod 56 penetrating through the second fixing steel plate 46 and coupled with each of the second fixing steel plates 46; A first connecting cable 62 whose one end is coupled to the lower end of the first end of the first steel pipe girder frame 12 and the other end of which is coupled to the lower end of each of the first fixed steel plates 42, A second connecting cable 64 coupled to a lower end portion of the fixed steel plate 42 and coupled to a lower one side edge portion of each of the movable steel plates 20 at the other end portion and a second connecting cable 64 connected to the other end of the second steel pipe girder frame 16 And the other end portion is coupled to the lower end portion of each second fixed steel plate 46, and the other end portion is coupled to the lower end portion of each second fixed steel plate 46, A fourth connecting cable 68 coupled to the other lower edge portion of each movable steel plate 20 and one end connected to the first connecting end 41 of the first fixed steel plate 42, A fifth connecting cable 63 coupled to a corner of the upper end of the steel plate 20 and a second connecting cable 63 connected to the second end of the second fixed steel plate 46 And a connection cable composed of a sixth connection cable (67) coupled to the joint (45) and having one end portion connected to the other upper corner portion of the upper end of each movable steel plate (20) A first auxiliary connecting cable 72 whose one end is coupled to the inner surface of one side of the upper side of the adjacent movable steel plate 20 and the other end is coupled to the inner surface of the lower one side of the adjacent movable steel plate 20 adjacent thereto, And is held by the second auxiliary connecting cable 76 coupled to the inner surface of the other side of the upper portion of the adjacent movable steel plate 20 and the other end connected to the inner surface of the other lower side of the adjacent movable steel plate 20 .

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At this time, the first cable tension adjusting means 620 and the fourth cable tension adjusting means 660 are provided at the one end portion of the first connection cable 62 and the other end portion of the third connection cable 66, The second cable tension adjusting means 640 and the third cable tension adjusting means 680 are provided on the other end portion of the second connecting cable 64 and one end portion of the third connecting cable 68, The fifth cable tension adjusting means 630 and the sixth cable tension adjusting means 670 may be provided on the one end portion of the sixth connecting cable 63 and the other end portion of the sixth connecting cable 67, respectively.

In the construction of a girder of a bridge, the steel pipe girder frame is divided into a pair of right and left steel pipe girder frames. The steel pipe girder frame is supported by a steel plate and interconnected by a movable steel plate. This makes it possible to easily construct bridges between long bridges without using a steel structure made of a steel pipe or a steel truss structure having a complicated structure.

Further, according to the present invention, not the single girder structure but the left and right girder structures are supported by the combination of the movable steel plate and the fixed steel plate supported by the tensile force of the connecting cable, so that even if a bending moment is concentrated at the central portion of the bridge And the tension of the connecting cable is controlled to adjust the bending moment appropriately by moving the movable steel plate vertically upward at regular intervals, so that the bridge has a very stable structure even if an external force acts on the bridge.

1 is a schematic perspective view of a girder structure according to the present invention;
2 is a schematic side view of a girder structure according to the present invention;
3 is a schematic plan view of a girder structure according to the present invention.
4A is a schematic perspective view of a movable steel plate in a girder structure according to the present invention.
FIG. 4B is a schematic perspective view of the first fixed steel sheet in the girder structure according to the present invention. FIG.
FIG. 5A is a schematic structural view of line AA 'in FIG. 3; FIG.
FIG. 5B is a schematic structural view of line BB 'in FIG. 3; FIG.
Fig. 6 is a schematic structural view of a conventional 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.

1 to 3 show a schematic perspective view, a side view and a plan view of a girder structure according to the present invention, respectively. As shown in the drawings, the present invention is characterized in that it comprises an alternating, steel tube girder frame, a movable steel plate 20, a connecting rod 30, a fixed steel plate, a fixed rod, and a connecting cable. Hereinafter, each of these configurations will be described in detail.

The shift consists of a first shift (1) and a second shift (2) located a certain distance from the first shift (1). Each of the first and second alternations (1, 2) may be made of a reinforced concrete structure.

The steel pipe girder frame is composed of a pair of right and left first and second steel pipe girder frames (12, 16). The first steel pipe girder frame 12 has one end supported by the first alternation 1 and the other end extending above the center. At this time, the first steel pipe girder frame 12 includes a plurality of first steel pipes 122 arranged at a predetermined distance from each other, and a plurality of first connecting pipes 122 vertically connecting adjacent first steel pipes 122 126, and a first connecting piece 13 may be provided at each end of the first steel pipe girder frame 12 extending to the central portion.

The other end portion of the second steel pipe girder frame 16 is supported by the second alternation 2, and one end portion extends to the central portion. Accordingly, one end portion of the second steel pipe girder frame 16 is opposed to the other end portion of the first steel pipe girder frame 12 at a predetermined distance. The second steel pipe girder frame 16 has a plurality of second steel pipes 162 spaced apart from each other by a predetermined distance and a plurality of second steel pipes 12 adjacent to each other, And a plurality of second connecting members 166 connecting the liver vertically. In addition, a second connecting piece 17 may be provided at each end of the second steel pipe girder frame 16 extending to the central portion.

Reference numeral 124 denotes a first auxiliary connecting member provided in a space defined by the first steel pipe 122 and the first connecting member 126. Reference numeral 164 denotes a second steel pipe 162 and a second connecting member 166 And a second auxiliary coupling member installed in the space partitioned by the second auxiliary coupling member. Each of the first and second auxiliary coupling members 124 and 164 may be made of a steel cable.

The movable steel plates 20 are composed of a plurality of plates spaced apart from each other by a predetermined distance, and each plate has a triangular plate shape having a certain thickness. Each upper end corner portion of each of the movable steel plates 20 is joined to the other end portion of the first steel pipe girder frame 12 and one end portion of the second steel pipe girder frame 16, respectively. Accordingly, each of the movable steel plates 20 is combined with the first and second steel pipe girder frames 12 and 16 to be integrated.

4A, a flange 24 is formed at the upper end portion of each movable steel plate 20 so as to protrude to the left and right by a predetermined length, and a first steel pipe girder frame 12 is attached to one side of the flange 24, A case where the first engaging piece 13 of the second steel pipe girder frame 16 is engaged and the second engaging piece 17 of the second steel pipe girder frame 16 is engaged with the other side of the flange 24 is not excluded. The flange 24 and the first and second coupling pieces 13 and 17 may be coupled by separate fastening bolts.

Reference numeral 22 denotes a through-hole formed in the movable steel plate 20, and reference numeral 21 denotes a reinforcing end provided along a corner of the through-hole 22. The penetrating portion 22 is formed in each of the movable steel plates 20 and the reinforcing end 21 perpendicular to the end surface of the movable steel plate 20 is provided so that an external force acts on the movable steel plate 20, It is possible to prevent buckling in which deformation is caused.

The gap between the movable steel plate 20 coupled with the other end portion of the first steel pipe girder frame 12 and the one end portion of the second steel pipe girder frame 16 is formed by the first and second auxiliary connecting cables 72, Lt; / RTI > One end of the first auxiliary connecting cable 72 is coupled to the inner surface of one side of the movable steel plate 20 adjacent to the other side and the other end is coupled to the inner surface of the lower side of the movable steel plate 20 on the adjacent side.

The other end of the second auxiliary connecting cable 72 is connected to the inner surface of the other side of the movable steel plate 20 on the other side adjacent to the other side. Accordingly, the movable steel plates 20 are integrally formed by the first and second auxiliary connecting cables 72 and 76, which are formed in an X-shaped structure, and are spaced apart from each other. Each of the first and second auxiliary connecting cables can be made of steel cables.

The connecting rod 30 is a means for integrating each of the movable steel plates 20 and is coupled to each of the movable steel plates 20 through the upper portions of the movable steel plates 20 sequentially. At this time, a through hole 26 may be formed in the upper portion of each movable steel plate 20, and the connecting rod 30 may be inserted into the through hole 26 to be coupled to each of the movable steel plates 20. When the flange 24 is formed on the upper end of the movable steel plate 20, the through hole 26 is preferably formed at the central portion of the flange 24. The connecting rod can be made of a steel tube of a certain diameter.

The fixed steel plate is composed of first and second fixed steel plates 42 and 46 as means for supporting the central portions of the first and second steel pipe girder frames 12 and 16, respectively. The first fixed steel plates 42 are formed of a plurality of pieces spaced apart from each other by a predetermined distance, and each has a V-shaped structure. At this time, each upper end portion of the first fixed steel plate 42 is coupled to the lower side of the center portion of the first steel pipe girder frame 12, and a first coupling end 41 is formed at the lower side.

Similar to the first fixed steel plate 42, the second fixed steel plates 46 also have a plurality of V-shaped structures spaced apart from each other by a predetermined distance. At this time, each upper end portion of the second fixed steel plate 42 is coupled to the lower side of the central portion of the second steel pipe girder frame 16, and a second coupling end 45 is formed on the lower side of the second steel pipe girder frame 16.

Reference numeral 43 denotes a first reinforcing end provided along a corner of the upper surface of the first fixed steel plate 42. Reference numeral 47 denotes a second reinforcing end provided along an upper surface corner of the second fixed steel plate 46. If the first and second reinforcing steps 43 and 47 are provided on the upper surface corner portions of the first and second fixed steel plates 42 and 46 so as to be perpendicular to the end faces of the first and second fixed steel plates, It is possible to prevent buckling in which the first and second fixed steel plates themselves are deformed by an external force acting on each of the first and second fixed steel plates 42 and 46.

The first fixed bar 52 penetrates the lower side of each first fixed steel plate 42 sequentially through the first fixed steel plate 42 and the first fixed steel plate 42, And the second fixed rods 56 are respectively coupled to the second fixed steel plates 46 through the lower portions of the second fixed steel plates 46 in order. Each of the first and second fixing rods may be made of a steel pipe having a constant diameter.

4B and 5B, the first and second through holes 44 and 44 for insertion of the first and second fixing rods 52 and 56, respectively, are formed in the lower portions of the first and second fixed steel plates 42 and 46, , 48 may be formed. Each of the first and second coupling ends 41 and 45 is preferably formed at a position spaced apart from the first and second through holes 44 and 48 by a predetermined distance.

The connecting cable is a means for connecting and integrating the movable steel plate and the fixed steel plate, and at the same time, integrating the fixed steel plate with the steel pipe girder frame. The connecting cable is composed of first, second, third, fourth, fifth and sixth connecting cables 62, 64, 66, 68, 63 and 67.

Each of the first and fifth connecting cables 62 and 63 is means for integrating the first steel pipe girder frame 12 and the first fixed steel plate 42 together. One end of the first connecting cable 62 is coupled to the lower end of the first steel pipe girder frame 12 and the other end of the first connecting cable 62 is coupled to the lower end of each first fixed steel plate 42. One end of the fifth connection cable 63 is coupled to the first coupling end 41 of the first fixed steel plate 42 and the other end is coupled to one edge of the upper end of each movable steel plate 20. [ If the flanges 24 are provided on each of the movable steel plates 20, the other end of the fifth connecting cable 63 is coupled to one side of the flange 24.

The second connecting cable 64 is a means for integrating each of the first fixed steel plates 42 and the movable steel plates 20 so that one end thereof is coupled to the lower end of each of the first fixed steel plates 42, The movable steel plate 20 is joined to the lower one-side corner portion of each movable steel plate 20. The third connecting cable 66 is a means for integrating the second steel pipe girder frame 16 and the second steel plate 46 and has the other end joined to the lower end of the other end of the second steel pipe girder frame 16, And the one end portion thereof is joined to the lower end portion of each second fixed steel plate 46.

Each of the fourth and sixth connecting cables 68 and 67 is means for integrating each of the second fixed steel plates 46 and the movable steel plates 20. The other end of the fourth connecting cable 68 is coupled to the lower end of each of the second fixed steel plates 46 and the one end of the fourth connecting cable 68 is coupled to the other lower edge of the movable steel plate 20. The other end of the sixth connection cable 67 is coupled to the second engagement end 45 of the second fixed steel plate 46 and one end of the sixth connection cable 67 is coupled to the other edge of the upper end of each movable steel plate 20. If the flanges 24 are provided on each of the movable steel plates 20, one end of the sixth connecting cable 67 is coupled to the other side of the flange 24.

The first and second fastening plates 42 and 46 and the first and second fastening plates 420 and 464 are connected to each other at the lower side of the first and second fastening plates 42 and 46, , 460) may be mediated. Each of the first and second fastening plates 420 and 460 may be coupled to the first and second fixing rods 52 and 56 through a pair of left and right.

In this case, the other end portion of the first connection cable 62 and one end portion of the second connection cable 64 are respectively coupled to one side and the other side of the first connection plate 420, Each of the one end portion and the other end portion of the fourth connecting cable 68 is coupled to one side and the other side of the second fastening plate 460, respectively. Each of the first, second, third, fourth, fifth, and sixth connecting cables can be made of steel cables.

The present invention does not exclude the case where a means for adjusting the tension of the connecting cable is further provided. That is, the first cable tension adjusting means 620 and the fourth cable tension adjusting means 660 are provided at the one end portion of the first connecting cable 62 and the other end portion of the third connecting cable 66, The second cable tension adjusting means 640 and the third cable tension adjusting means 680 are provided on the other end portion of the connecting cable 64 and the one end portion of the third connecting cable 68 respectively and the fifth connecting cable 63 The fifth cable tension adjusting means 630 and the sixth cable tension adjusting means 670 are provided at the one end portion of the sixth connecting cable 67 and the other end portions of the sixth connecting cable 67, respectively.

When the means for adjusting the tension is provided on each of the connecting cables, the tensile force of the connecting cable connecting between the steel pipe-girder frame and the fixed steel plate and between the fixed steel plate and the movable steel plate as shown by solid lines and dotted lines in FIG. 2, It is possible to prevent the structural stability of the girder structure from being deteriorated due to the tensile force change of the connecting cable. Each of the cable tension adjusting means can be made of a turnbuckle.

In the present invention, the girders of bridges are not constituted by a single steel pipe (or a steel pipe girder frame) but are separated from each other by a pair of left and right steel pipe girder frames, and each of them is supported by a fixed steel plate, As a tension force of the connecting cable, mutual integral structure makes it possible to easily construct a bridge having a long diameter without using a steel structure made of a steel pipe having a large diameter or a steel truss structure having a complicated structure.

Further, according to the present invention, not the single girder structure but the left and right girder structures are supported by the movable steel plate and the fixed steel plate supported by the tensile force of the connecting cable, so that even if a bending moment is concentrated at the central portion, And furthermore, by controlling the tensile force of the connecting cable, the movable steel plate is vertically upwardly moved at a constant interval to suitably cope with the bending moment, so that the bridge can have a very stable structure even if an external force acts on the bridge.

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: first and second steel pipe girder frame 20: movable steel plate
30: connecting rod 42, 46: first and second fixed steel plates
52, 56: first and second fixing rods 62: first connection cable
63: fifth connection cable 64: second connection cable
66: third connecting cable 67: sixth connecting cable
68: fourth connection cable 72, 76: first and second auxiliary connection cable

Claims (3)

A first steel pipe girder frame 12 having one end supported by the first alternation 1 and the other end extending to a central portion and a second steel pipe girder frame 12 having a second end alternating with the first alternation 1 And a second steel pipe girder frame (16) which is supported by the first steel pipe girder frame (2) and has one end extending to the central portion and spaced apart from the other end portion of the first steel pipe girder frame
Each of which is located at a position spaced apart from each other by a predetermined distance, and each of both side edge portions of each upper end is connected to the other end portion of the first steel pipe girder frame 12 and one end portion of the second steel pipe girder frame 16 (20);
A connecting rod 30 which sequentially passes through upper portions of the movable steel plates 20 and is coupled with each of the movable steel plates 20;
And a first coupling step (41) is formed on a lower side of the first steel pipe girder frame (12). The first steel pipe girder frame (12) has a V-shaped structure A V-shaped structure in which a fixed steel plate 42 and a second coupling end 45 are formed on the other side of the lower steel plate 42, And a second fixed steel plate (46) joined to the lower side of the portion;
A first fixing bar 52 penetrating sequentially the lower side portions of the first fixing steel plates 42 to be engaged with the respective first fixing steel plates 42 and a second fixing bar 52 connecting the lower side portions of the second fixing steel plates 46 sequentially A second fixing rod 56 penetrating through the first fixing steel plate 46 and coupled with each of the second fixing steel plates 46;
A first connecting cable 62 whose one end is coupled to the lower end of the first end of the first steel pipe girder frame 12 and the other end of which is coupled to the lower end of each of the first fixed steel plates 42, A second connecting cable 64 coupled to a lower end portion of the fixed steel plate 42 and coupled to a lower one side edge portion of each of the movable steel plates 20 at the other end portion and a second connecting cable 64 connected to the other end of the second steel pipe girder frame 16 And the other end portion is coupled to the lower end portion of each second fixed steel plate 46, and the other end portion is coupled to the lower end portion of each second fixed steel plate 46, A fourth connecting cable 68 coupled to the other lower edge portion of each movable steel plate 20 and one end connected to the first connecting end 41 of the first fixed steel plate 42, A fifth connecting cable 63 coupled to a corner of the upper end of the steel plate 20 and a second connecting cable 63 connected to the second end of the second fixed steel plate 46 Including, but; binding to hapdan 45, one end portion is connected to the cable comprising a sixth connecting cable (67) coupled to the other upper corner portion of the movable plate (20)
The gap between the plurality of movable steel plates 20 is connected to the inner surface of one upper side of the adjacent movable steel plate 20 at one end and the other end is connected to the inner surface of the other movable steel plate 20 Auxiliary connection cable (72) And one end portion thereof is coupled to the inner surface of the other side of the upper portion of the upper portion of the adjacent movable steel plate 20 and the other end portion is held by the second auxiliary connecting cable 76 coupled to the other inner surface of the lower portion of the adjacent movable steel plate 20 Characterized by a cable and a movable steel plate supported by a girder structure. delete The method according to claim 1,
The first cable tension adjusting means 620 and the fourth cable tension adjusting means 660 are provided at the one end portion of the first connecting cable 62 and the other end portion of the third connecting cable 66, The second cable tension adjusting means 640 and the third cable tension adjusting means 680 are provided on the other end portion of the connecting cable 64 and the one end portion of the third connecting cable 68 respectively and the fifth connecting cable 63 And a sixth cable tension adjusting means 630 and a sixth cable tension adjusting means 670 are provided on the one end portion of the sixth connecting cable and the other end portion of the sixth connecting cable 67. [ The girder structure.

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