KR100788941B1 - The collapse preventing apparatus of bridge using wire-ropes - Google Patents

Abstract

A collapse prevention device of a bridge using wire ropes is provided to keep the stability of a pier and to prevent an upper structure of a bridge from falling against vibration or sliding caused by an earthquake or a flood by fixing bridge girders using wire ropes, and to prevent the abrasion of wire ropes using a corner guide member. A collapse prevention device of a bridge is provided for preventing an upper structure of a bridge from falling by fixing many bridge girders(2a,2b) using first and second wire ropes(4,5) not to make the ends of the bridge girders separated from the upper part of bridge bearings(3a,3b) against vibration or sliding caused by an earthquake or a flood, wherein the first and second wire ropes are inserted through pulling holes(7a,7b) perforated on the ends of the bridge girders to cover the outer surface of a coping part(6) of each pier(1) and to fix the bridge girders to the coping parts of the pier, and a corner guide member(8) is installed at each corner of the coping part of the pier to guide the first and second wire ropes respectively and composed of an upper guide member(9) installed at the upper corner of the coping part and a lower guide member(15) installed to the lower corner of the coping part.

Description

The collapse preventing apparatus of bridge using wire-ropes

1 is a side schematic view of a fall prevention device using a conventional wire rope

2 is a perspective schematic view of a bridge equipped with a fall prevention device using a wire rope according to the present invention;

Figure 3 is a front schematic view of the fall prevention device using a wire rope according to the present invention

Figure 4 is a side schematic view of the first wire rope wrapped around the coping portion of the upper pier in the fall prevention device using a wire rope according to the present invention

Figure 5 is a perspective schematic view of the upper guide member is installed in the fall prevention device using a wire rope according to the present invention

Figure 6 is a perspective schematic view of the lower guide member and the fixing device is installed in the fall prevention device using a wire rope according to the present invention

              <Description of Symbols for Main Parts of Drawings>

1, 1 '. Pier 2a, 2b, 2a ', 2b'. Bridge girder

3a, 3b, 3a ', 3b'. Chair System 4. First Wire Rope

5. Second wire rope 6, 6 '. Coping Department

7a, 7b. Lifting Hole 8. Corner Guide Member

9. Upper guide member 10. Fixed anchor

11a, 11b. Guide groove 12. Elastic guide member

13. Support piece 14. Elastic spring

15. Lower guide member 16. Fixing part

17. Lower guide piece 18 '. Through hole

19 '. Fasteners 20a ', 20b'. Wire rope

21 '. Wire fixture

The present invention relates to a device for preventing the fall of the bridge deck structure by fixing the girder for the bridge with a wire rope or PC strand, and more specifically, a plurality of pier is installed side by side in the transverse direction, respectively in the upper surface portion In the device for preventing falling off by fixing a plurality of bridge girders with a wire rope, through the lifting hole which is drilled in one end of the bridge girders mounted on one side of the upper surface of the bridge through the lifting hole is inserted into the both ends A first wire rope surrounding the outer peripheral surface of the coping portion of the coping part to fix the pier and the girder for the bridge, and inserted through a lifting hole drilled in the other end of the girder for the bridge disposed on the other side of the pier top surface. Each of the coping portion outer peripheral surface of the upper portion of the piers cross and wrap around the first wire rope and And a second guide wire fixing the girders for the bridge and a corner guide member installed at an edge portion of the coping portion of the upper portion of the bridge to guide the first wires and the second wire rope and to hold the end of the wire. It relates to a fall prevention device using a rope.

In general, in the construction of bridges, a plurality of bridge girders (beams) are installed in a state in which a plurality of bridge girders (beams) are mounted side by side in the horizontal direction, respectively, in the upper portion between the bridges and the bridges, which are erected at regular intervals. ) Is installed in the state where the end is mounted on each of the plurality of bridge devices installed on the upper portion of each bridge, and the concrete construction on the top of the bridge girders (beams) to construct the bridge top plate structure.

However, in the bridges installed in this way, the end of the bridge girder is separated from the upper part of the bridge device due to the earthquake or flooding caused by natural disasters, and the bridge top structure falls.

Various fall prevention devices have been devised in order to prevent falling bridges of such bridge deck structures, and recently, as shown in FIG. 1, bridge piers using wire ropes 20a 'and 20b', such as strands, etc. (1 ') has disclosed a technique for preventing the fall of the bridge deck structure by wrapping and fixing the bridge girders (2a') (2b ') in close proximity to each other, in this case, the pier (1') In the state in which the through-holes 18 'which are respectively penetrated in the horizontal direction are drilled in the coping portions 6' formed at both upper sides, and one end of the wire rope 20a 'is inserted into the through-holes 18'. Fasten the fastener 19 'at the end so that one end of the wire rope 20a' does not escape from the through hole 18 ', and the wire rope 20a' has a nose above the pier 1 '. Ping part (6 ') in the shape of a "c" to wrap around the top edge of the other side In the state, the other end of the wire rope 20a 'is bound to the wire fixing tool 21' fixedly attached to the lower end of the bridge girder 2a 'located on one side to complete the installation of the wire rope 20a' and the other end. One wire rope 20b 'also reverses the coping portion 6' through a through hole 18 'bored in the coping portion 6' above the pier 1 'in the same manner as above. The bridge girders 2b 'positioned on the other side in the state of being wrapped in a shape are fixed so that the ends of the bridge girders 2a' and 2b 'may be caused by vibration or slipping during an earthquake or flood. It was separated from the top of (3b ') to prevent the bridge deck from falling down.

However, in the conventional fall prevention device using the wire ropes 20a 'and 20b' as described above, the through hole 18 'is drilled in the thick coping part 6' formed at both sides of the upper portion of the pier 1 '. It is very difficult and takes a lot of time to puncture it, there is a problem that the durability and robustness of the pier (1 ') is reduced by the vibration and impact during the drilling of the through hole (18'), which greatly reduces the stability of the pier. The wire ropes 20a 'and 20b' are installed to surround the top edge of the coping part 6 ', so that the wire ropes 20a' and 20b 'are stretched and contracted by the temperature change and the flow of the bridge deck structure. There was a problem that the edge portion is worn and broken.

The present invention is to solve the above problems can be fixed to the bridge girders with wire rope even in the state without the through hole in the coping portion of the upper part of the pier to maintain the stability of the pier as the vibration during earthquake or flooding And preventing the bridge top structure from falling off due to the sliding phenomenon, and preventing the wire rope from being worn by the edge guide member even when the wire rope is stretched or contracted due to the temperature change and the flow of the bridge top structure. The purpose is to fix the dragon girders more firmly.

The present invention relates to a device for preventing the fall of the bridge deck structure using a wire rope, the through-hole is inserted through a lifting hole which is perforated at one end of the bridge girders mounted on one side of the top of the pier, both ends are pier A first wire rope surrounding the other outer circumferential surface of the upper coping part to fix the pier and the bridge girder; The pier and the pier is inserted through the lifting hole which is perforated at the other end of the bridge girder mounted on the other side of the pier upper part, and both ends respectively wrap the outer peripheral surface of the coping part of the upper part of the bridge with the first wire rope. A second wire rope for fixing a bridge girder; And a corner guide member installed at an edge portion of the coping portion of the upper portion of the pier to guide the first and second wire ropes and to hold the end thereof. Characterized in that it comprises a.

The edge guide member is provided on the upper edge portion of the coping portion provided in the upper portion of the upper guide member for guiding the first and second wire ropes; And a lower guide member installed at a lower edge portion of the coping portion to guide and fix the ends of the first and second wire ropes. Characterized in that it comprises a.

The lower guide member is characterized in that the fixing fixing part is further formed so that the first and second wire rope is inserted and fixed respectively.

The fixed fixing part is characterized in that the fixing fixing member is fixed to the first and second wire rope is formed.

The coping portion is characterized in that the elastic guide member for adjusting the tension of the first and second wire rope wound along the edge guide member is installed.

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

The present invention is a plurality of bridge girders (2a) (2b) installed side by side in the transverse direction, respectively, so that the ends thereof are close to each other in the upper surface of the bridges (1), the plurality of which are erected at regular intervals, as shown in FIGS. The present invention relates to a device for preventing falling of bridge deck structures by fixing them.

The plurality of bridge girders (2a) (2b) is positioned with its ends mounted on the conventional plurality of bridge devices (3a) (3b) installed on the upper surface portion of each bridge (1), respectively, for one bridge The girder 2a and the bridge girder 2b on the other side are mounted so as to be close to each other, and the concrete is poured on the upper part of the plurality of bridge girder 2a, 2b installed as above to construct the bridge top structure. In the present invention, the plurality of bridge girders (2a) (2b) is fixed to the first and second wire ropes (4, 5), respectively, bridges girders (2a) due to vibration or slip in the event of an earthquake or flood The end of (2b) is separated from the upper portion of the bridge device (3a) (3b) to prevent the falling bridge phenomenon that the bridge deck structure falls.

The first wire rope (4) is made of twisted wires (만든 ether) made by twisting a plurality of steel wires, as shown in Figures 2 to 4 are mounted side by side in one direction on the upper surface of the piers (1) The bridge girders 2a are fixed to the coping part 6 on the upper part of the bridge 1, but the first wire rope 4 is provided through a lifting hole 7a drilled at one end of the bridge girders 2a. ) Is inserted through the center portion and both ends are respectively wrapped around the other outer peripheral surface of the coping portion 6 of the upper portion of the pier (1), as shown in Figure 4 both sides of the first wire rope (4) The lower guide member 15 having the end fixed to the lower one side edge portion of the coping portion 6 in a state where the other end circumferential surface of the coping portion 6 of the upper portion of the pier 1 is wrapped in a "c" shape. It is to be fixed fastening in the state inserted into the fixed fixing part 16 of the).

The second wire rope (5) is made of twisted wires (鋼 撚 線) made by twisting a plurality of steel wires, and as shown in Figures 2 to 4 are mounted side by side in the other direction on the upper surface of the piers (1) The bridge girders 2b are fixed to the coping part 6 on the upper part of the bridge 1, but the second wire rope 5 is formed through the through holes 7b bored at the other end of the bridge girders 2b. ) Is inserted through the center portion and both ends are respectively wrapped around the outer peripheral surface of the coping part 6 of the upper portion of the pier (1), as shown in Figure 4, both sides of the second wire rope (5) One end of the coping part 6 of the upper end of the pier (1) is wrapped in an inverted "C" shape, respectively, in the state intersected with the first wire rope 4, the end of the lower end of the coping part (6) The state inserted into the fixed fixing part 16 of the lower guide member 15 fixedly attached to the other edge part. It adapted to be fastened fixed.

The corner guide member 8 is installed at each corner of the coping part 6 on the top of the pier 1 as shown in Figures 2 to 6 to the first and second wire ropes 4 and 5, respectively. The guide is fixed to the end, but the upper guide member (9) is installed on the upper edge portion of the coping portion (6) and the lower guide member (15) is installed on the lower edge portion of the coping portion (6) It is.

The upper guide member 9 is bent in a "-" shape as shown in FIGS. 2 to 5 and fixedly installed in contact with the upper edge portion of the coping part 6 of the upper part of the pier 1 in close contact with each other. The guide groove 11a is formed to be fixed to the upper edge of the coping part 6 by a general fixing anchor 10, and the guide groove 11a is formed along the longitudinal direction in the center of the outer surface. 11a) is guided while the first wire rope 4 or the second wire rope 5 is positioned so that the first and second wire ropes 4 and 5 are stretched due to vibration or temperature change. It is in direct contact with the upper edge of the) to prevent boiling.

An elastic guide member 12 elastically supporting the first and second wire ropes 4 and 5, respectively, as shown in FIG. 4 on the side of the upper edge of the coping part 6 in which the upper guide member 9 is installed. Is installed, the elastic guide member 12 is provided with a support piece 13 for contacting and guides the first wire rope 4 or the second wire rope 5 at the top and the support piece 13 An elastic spring 14 is interposed at the lower portion of the lower portion of the elastic spring 14 so that the supporting piece 13 is elastically supported by the elastic spring 14 according to the temperature change of the first and second wire ropes 4 and 5. The first and second wire ropes (4, 5) are maintained in a constant tension (tension) state by providing a constant elastic force during expansion and contraction.

The lower guide member 15 is bent into a "b" shape as shown in FIGS. 2 to 4 and 6 and fixedly installed in a state in which the lower guide member is in close contact with the lower edge portion of the upper coping portion 6 of the pier 1. In one end of the lower guide member 15, a fixed fixing member including a fixed fixing member 16a for inserting and fixing the end of the first wire rope 4 or the second wire rope 5 inwardly The part 16 is provided and the fixed fixing part 16 is fixed to the lower edge portion of the coping part 6 by a general fixed anchor 10 or the like, and the other of the lower guide member 15 On one side, the lower guide piece 17 is formed integrally with the guide groove 11b formed along the longitudinal direction at the center of the outer surface so that the first wire rope 4 or the second wire rope 5 abuts and guides. The first wire rope 4 or the first groove in the guide groove (11b) 2 wire rope (5) is guided while being positioned so that the first and second wire rope (4) (5) abuts on the lower edge of the coping part (6) when stretched due to vibration or temperature change It is designed to prevent losing.

The lower guide member 15 is to be fixed to the end of the first wire rope 4 to the fixed fixing portion 16 of the one installed on the lower edge portion of the coping portion 6 and the lower guide piece 17 The second wire rope 5 is installed to be guided, and the end of the second wire rope 5 is fixedly fastened to the fixed fixing part 16 of the lower edge portion of the coping part 6. The lower guide piece 17 is provided to guide the first wire rope 4.

Meanwhile, as another embodiment according to the present invention, the upper guide member 9 and the lower guide member 15 are installed so that the first and second wire ropes 4 and 5 naturally surround the coping part 6. The first and second wire ropes 4 and 5 may be formed to be inclined at an angle equal to the inclined angle of the first and second wire ropes 4 and 5.

As described above, according to the present invention, the wire girders can be fixed with wire ropes even when the through-holes on both side coping portions of the pier are not drilled. It can prevent the bridge top structure from falling off, and the wire rope is worn by the edge guide member installed at the corner of the coping part to guide the wire rope even when the wire rope is stretched due to temperature change and flow of the bridge top structure. Safety can be greatly improved even in long-term use, and the wire rope maintains a constant tension by elastic guide member, so that the wire rope can support the bridge girders stably even in the case of sudden temperature change in summer or winter. The bridge girders can be installed more quickly and quickly. There is an effect that can be firmly fixed.

Claims (5)

In the device for preventing the fall of the bridge deck structure using a wire rope or PC stranded wire, Piercing part (1) is inserted through the lifting hole (7a) perforated at one end of the bridge girders (2a) mounted on one side of the upper surface portion, both ends of the coping portion (6) the other outer peripheral surface A first wire rope (4) surrounding the bridge piers (1) and the bridge girders (2a); One end of the coping part 6 of the upper part of the pier 1 is inserted through the lifting hole 7b which is perforated at the other end of the bridge girder 2b mounted on the other side of the upper part of the pier 1. A second wire rope 5 surrounding the outer circumferential surface while crossing the first wire rope 4 to fix the pier 1 and the bridge girders 2b; And An edge guide member (8) installed at an edge portion of the coping portion (6) above the pier (1) to guide the first and second wire ropes (4, 5) and hold the end thereof fixedly; Falling prevention device using a wire rope, characterized in that it comprises a. The method of claim 1, The edge guide member (8) is provided on the upper edge portion of the coping portion (6) provided in the upper portion of the pier (1) the upper guide member (9) for guiding the first and second wire ropes (4, 5); And A lower guide member (15) installed at the lower edge portion of the coping portion (6) to guide the first and second wire ropes (4, 5) and fix the ends thereof; Falling prevention device using a wire rope, characterized in that it comprises a. The method of claim 2, The lower guide member 15 is a fall prevention device using a wire rope, characterized in that the fixing fixing portion 16 is further formed to insert and fix the first and second wire rope (4, 5), respectively. The method of claim 3, wherein The fixed fixing part (16) is a fall prevention device using a wire rope, characterized in that the fixed fixing member (16a) is fixed to the first and second wire rope (4, 5) is formed. The method according to any one of claims 1 to 4, The coping part 6 is provided with a wire rope, characterized in that the elastic guide member 12 for adjusting the tension of the first and second wires 4 and 5 wound along the edge guide member 8 is installed. Falling prevention device using.

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