KR100899161B1 - A shock-absorbing fixation device for landscape cables of a bridge - Google Patents

Abstract

The present invention relates to a buffer fixing device for a scenic cable of a bridge, and more particularly, connected to a scenic cable installed between the slab forming a bridge superstructure and the main tower or arch rib of the bridge for landscape purposes, By buffering the load generated from the structural or landscape cable, the upper structure of the bridge and the landscape cable behave independently without affecting the load to secure the structural safety of the bridge according to the installation of the landscape cable. The present invention relates to a buffer fixing device for landscape cables installed on a bridge for facilitating maintenance of cables for transportation.

The buffer anchoring device for the landscape cable of the bridge according to the present invention, the upper steel bar constituting the body connected to the cable for landscape, and the lower end of the upper steel bar spaced apart from each other by a predetermined distance, protruding along the outer peripheral surface of the upper steel bar An upper connection part including a first upper fixing plate and a second upper fixing plate, and a first elastic sleeve attached to a lower surface of the upper steel bar; A first lower fixing plate and a second lower fixing plate formed of a lower steel bar constituting a body connected to a bridge upper structure, and spaced apart from each other by a predetermined distance to an upper end of the lower steel bar, protruding along an outer circumferential surface of the lower steel bar; A lower connection part including a second elastic sleeve attached to an upper surface of the lower steel bar; And a buffer unit configured to connect the upper connection unit and the lower connection unit, and including a shock absorbing unit configured to include elastic rubber therein to cushion a load generated from the landscape cable or the bridge superstructure. It is characterized by.

Bridges, Bridges, Landscapes, Cables, Steel Bars, Shock Absorbers

Description

A shock-absorbing fixation device for landscape cables of a bridge}

The present invention relates to a buffer fixing device for a scenic cable of a bridge, and more particularly, connected to a scenic cable installed between the slab forming a bridge superstructure and the main tower or arch rib of the bridge for landscape purposes, By buffering the load generated from the structural or landscape cable, the upper structure of the bridge and the landscape cable behave independently without affecting the load to secure the structural safety of the bridge according to the installation of the landscape cable. The present invention relates to a buffer fixing device for landscape cables installed on a bridge for facilitating maintenance of cables for transportation.

In general, a bridge is an elevated structure that allows passage on rivers, straits, or roads.

These bridges are largely divided into bridge superstructures and bridge substructures according to structural positions and functions within the bridges. The bridge superstructures include slabs that form the bottom plate of a passageway, and slabs by traffic of vehicles and people. It is composed of a main member and the like directly supporting the load applied to the bridge, the bridge substructure consists of shifts, bridges, foundation slabs, etc. to support the bridge superstructure, and transfer the load transmitted from the bridge superstructure to the foundation ground.

For the bridges with the above structure, the structure type is decided according to the shape of the main member. If the main member is a girder, the girder bridge and the arch are the arch bridge and the truss ) Is called a truss bridge and a case in which the main member is supported by a cable is called a cable bridge.

Among these, cable bridges can be classified into arch bridges, cable-stayed girder bridges or suspension bridges. Cables used in cable bridges are used to structurally share the strength generated in the bridge superstructure. As the reinforcing cable, its use is reflected from the design stage of the bridge, and the size, number, etc. of the cable to be used are determined.

These reinforcing cables have structural load-sharing ratios set on each of them, so if any one of the reinforcing cables is damaged and is required to be replaced, the rest of the reinforcing cables that are not replaced to ensure the stability of the bridge are also applied. Since the process of readjusting the load sharing ratio is accompanied, there is a problem that maintenance of the cable sharing the load generated in the bridge is difficult.

On the other hand, unlike reinforcing cables that structurally support the upper structure of the bridge, landscape cables installed on bridges such as small and medium-sized transverse facilities installed in bridges, especially in urban areas, for the purpose of landscapes, Usage is not reflected and is often installed after the bridge is completed.

According to the related art, a method of connecting a landscape cable to a bridge includes simply connecting a landscape cable between a slab constituting a bridge superstructure and a vertical structure of a bridge composed of a pylon or arch rib, or a turnbuckle. ), Or a hydraulic jack was used to maintain the tension.

However, in the case of installing the landscape cable according to the prior art as described above, although the load change due to the installation of the landscape cable is not considered at all in the initial bridge design, The load due to the slight deformation or shaking is transmitted to the cable for the landscape as it is, and the load caused by sagging of the cable for the landscape due to its own load or shaking by external force such as wind is transmitted to the upper structure of the bridge. A problem arises in that the stability of the bridge is lowered by changing the influence of.

Therefore, in consideration of the influence of the load due to the installation of the landscape cable, it is inevitable to install the landscape cable within the limit of maintaining the stability of the bridge. Not only is not easy to install, but also has a problem that the maintenance is also difficult because of the influence of the load, as in the case of reinforcing cables.

The present invention is to solve the above problems, the present invention is connected to the landscape cable installed between the bridge superstructure and the main tower or arch rib of the bridge for landscape purposes, the load generated from the bridge superstructure or landscape cable Buffer structure, the bridge superstructure and the landscape cable behave independently without affecting the load, ensuring the structural stability of the bridge according to the installation of the landscape cable, free installation and installation of landscape cable It is an object of the present invention to provide a buffer fixing device for a landscape cable of a bridge that facilitates maintenance of a cable for transportation.

The buffer anchoring device for the landscape cable of the bridge according to the present invention, the upper steel bar constituting the body connected to the cable for landscape, and the lower end of the upper steel bar spaced apart from each other by a predetermined distance, protruding along the outer peripheral surface of the upper steel bar An upper connection part including a first upper fixing plate and a second upper fixing plate, and a first elastic sleeve attached to a lower surface of the upper steel bar; A first lower fixing plate and a second lower fixing plate formed of a lower steel bar constituting a body connected to a bridge upper structure, and spaced apart from each other by a predetermined distance to an upper end of the lower steel bar, protruding along an outer circumferential surface of the lower steel bar; A lower connection part including a second elastic sleeve attached to an upper surface of the lower steel bar; And a buffer unit configured to connect the upper connection unit and the lower connection unit, and including a shock absorbing unit configured to include elastic rubber therein to cushion a load generated from the landscape cable or the bridge superstructure. It is characterized by.

The buffer anchoring device for the landscape cable of the bridge according to the present invention is connected to the landscape cable installed in the bridge for the purpose of landscape, buffer the load generated from the bridge superstructure or landscape cable for bridge superstructure and landscape By allowing the cables to behave independently without affecting the load on each other, there is an effect that can secure the structural stability of the bridge according to the installation of the landscape cable.

In addition, the landscape cable is connected to the buffer fixing device according to the present invention does not share the strength generated in the bridge is not limited to its installation can be freely installed on the bridge, it is easy to maintain the installed landscape cable There is also an effect.

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

1 is a view showing a state in which the buffer fixing device of the landscape cable of the bridge according to an embodiment of the present invention applied to the bridge.

Referring to FIG. 1, a buffer fixing device 100 according to an embodiment of the present invention includes a plurality of landscapes installed between a slab 14 constituting a bridge upper structure 10 and a main tower 16 that is a vertical structure of a bridge. Is connected to the cable for 30, respectively, to buffer the load generated in the bridge superstructure 10 or the landscape cable (30).

The bridge is composed of a bridge superstructure 10 composed of a main member 12 and a slab 14, and a bridge substructure 20 composed of a pier 22, a shift 24, and a foundation slab 26. By erecting the main tower 16 on the bridge, and by installing the additional cable 30 for the landscape can make the bridge look more beautifully, the landscape lighting 30 may be additionally installed on the cable. .

When the buffer fixing device 100 is connected to the landscape cable 30, the upper end of the buffer fixing device 100 is connected to the other end of the landscape cable 30 having one end connected to the main tower 16 of the bridge, The lower end of the fixing device 100 is directly connected to the slab 14 forming the bridge superstructure 10 or connected to a cable or steel rod provided on the slab 14.

As such, in a state where the buffer fixing device 100 is connected between the landscape cable 30 and the bridge superstructure 10, when a vehicle or the like passes through the bridge, a load is applied to the bridge superstructure 10, and the bridge superstructure. (10) vibrates or deforms finely, and the bridge is shaken or deformed due to environmental factors such as wind or temperature.

The shaking or deformation of the bridge affects the load T1 such as tensile or compressive force on the buffer fixing device 100 connected to the bridge superstructure 10.

On the other hand, the landscape cable 30 installed in the bridge is shaken by the wind or the like, or the deflection (W) due to the cable itself load affects the load (T2), such as tension or compression force to the buffer fixing device 100. .

Thus, the load (T1) generated in the bridge and the load (T2) generated in the landscape cable 30, the buffer fixing device 100 is connected between the bridge upper structure 10 and the landscape cable (30) It is transmitted and buffered by the buffer means of the elastic material provided in the buffer fixing device 100, the bridge superstructure 10 and the landscape cable 30 do not affect the load of each other and each part behaves independently. To help.

In other words, by installing the buffer fixing device 100 in the landscape cable (30), by changing the structural load due to the installation of the landscape cable (30) to prevent the impact on the bridge, the landscape cable ( This ensures the structural stability of the bridge that was not considered to be installed.

In addition, unlike the reinforcing cable that shares the strength generated in the bridge, the landscape cable 30 installed in the bridge behaves independently of the bridge through the buffer fixing device 100, so its use is not reflected in the design of the bridge. If not, the landscape cable 30 can be freely installed on the bridge without limitation of installation.

FIG. 2 is a perspective view illustrating an external view of the buffer fixing apparatus illustrated in FIG. 1.

Referring to FIG. 2, the buffer fixing device 100 according to the present invention includes an upper connection part 200 in which an upper end of a body is connected to a landscape cable 30 (see FIG. 1) installed in a bridge, and a bridge upper structure 10. 1, the lower connection portion 300 is connected to the lower end of the body and the upper connection portion 200 and the lower connection portion 300, but including a buffer 400 having a cushioning means inside the body do. Here, in order to prevent foreign matters such as rainwater or dust from entering the buffer unit 400, a protective cover 450 may be further included to surround the outside of the buffer unit 400.

The upper steel rod 210 forming the body of the upper connection portion 200 and the lower steel rod 310 forming the body of the lower connecting portion 300 are provided in the buffer portion 400 by a tension or compression force applied to the buffer fixing device 100. In order to move up and down in the lower end of the upper rod 210 and the upper end of the lower rod 310 is partially inserted into the buffer 400.

In addition, the upper end of the upper rod 210 is formed with a connecting member connected to the cable for landscape, the lower end of the lower rod 310 is formed with a connecting member connected to the bridge superstructure. Here, the connecting member is a U-shaped hook through which the pin through hole 292 is formed in the center of the disk-shaped circular ring 290 or the circular ring 290 is fitted into the U-shaped groove to which the fixing pin 392 can be fitted. 390.

In the present embodiment, a circular ring 290 is formed on the upper end of the upper steel bar 210, and a U-shaped hook 390 is formed on the lower end of the lower steel bar 310, but optionally, the upper steel bar 210. Both the lower rod 310 and the U-shaped hook 390, or may be formed a circular ring 290, in contrast to the present embodiment to form a U-shaped hook 390 on the upper steel bar 210, The circular ring 290 may be formed on the lower steel bar 310.

Figure 3 is an exploded perspective view of the buffer fixing device shown in Figure 2, Figure 4 is a cross-sectional view showing the internal configuration of the buffer portion constituting the buffer fixing device according to the present invention.

3 and 4, the buffer fixing device 100 according to the present invention is largely connected to the upper connection portion 200 is connected to the landscape cable, the lower connection portion 300 and the upper connection portion 200 is connected to the bridge superstructure ) And a shock absorbing portion 400 having a shock absorbing means for connecting the lower connection portion 300.

The upper connection part 200 is spaced apart a predetermined distance from the lower end of the upper steel bar 210 and the upper steel bar 210 to form a body that is connected to the cable for landscape, it is configured to protrude along the outer circumferential surface of the upper steel bar 210 Lower ends of the first upper fixing plate (anchor plate) 220, the second upper fixing plate 230 and the upper steel bar 210 formed in a shape protruding along the outer circumferential surface of the upper steel bar 210 on the lower end of the upper steel bar (210) It comprises a first elastic sleeve 240 attached to the surface.

The first upper fixing plate 220 is a body is fitted around the upper steel bar 210, it is made of a hollow disk form to form a shape protruding along the outer circumferential surface of the upper steel bar 210, the circumference of the disk surface facing in the lower direction There is a circular band in the form of protrusions thicker than the thickness of the disc.

In addition, the lower connection portion 300 is configured in a similar structure to the upper connection portion 200, the lower connection portion 300 is a lower rod 310 forming a body connected to the bridge upper structure, and the upper end of the lower rod 310 Spaced apart a predetermined distance, the first lower fixing plate 320 is configured to protrude along the outer circumferential surface of the lower steel bar 310, and protrudes along the outer circumferential surface of the lower steel bar 310 on the upper end of the lower steel bar (310) It is configured to include a second elastic sleeve 340 is attached to the upper surface of the second lower fixing plate 330 and the lower steel bar 310 is configured.

The first lower fixing plate 320 also has the same shape as the first upper fixing plate 220. That is, the first lower fixing plate 320 is formed in the shape of a hollow disc to form a shape that protrudes along the outer circumferential surface of the lower steel bar 310 and is inserted into the circumference of the lower steel bar 310, Round strips form thicker protrusions than disc thickness.

The connecting member is fastened through the ring connecting portions 294 and 394 provided at the upper end of the upper steel rod 210 and the lower portion of the lower steel rod 310, and the connecting member is U-shaped hook 390 or as described above with reference to FIG. 2. It consists of a circular ring 290. The connection member may be freely rotated 360 ° on the ring connection parts 294 and 394, so that the buffer fixing device 100 may be more easily connected to the reinforcing cable and the bridge superstructure.

As described above, the first elastic rubber 410 and the second elastic rubber 420 are in contact with the surfaces of the first upper fixing plate 220 and the first lower fixing plate 320 having the protruding portion.

The second upper fixing plate 230 and the second lower fixing plate 330 is formed in the shape of a hollow disc with a central portion of the body, and is inserted into the upper end of the lower lower steel bar 310 of the upper steel bar 210, respectively, and the upper steel bar 210. The outer circumferential surface and the lower steel bar 310 is formed in a shape protruding to the outer circumferential surface.

The first elastic sleeve 240 and the second elastic sleeve 340 is made of an elastic material that is deformed when a force is applied from the outside, for example, when the compression force is applied to the upper and lower sides of the buffer fixing device 100, Compressed in the butt state, the working force is lost, returning to its original form.

The first elastic sleeve 240 and the second elastic sleeve 340 is configured in the form of a disc having the same cross-sectional area as the upper steel rod 210 or the lower steel rod 310, when pressed against each other, according to the deformation of the body Protrusions and grooves may be formed in each disc shaped body to prevent deflection. In this embodiment, a protrusion is formed in the center of the disc-shaped body in the first elastic sleeve 240, and a groove is formed in the center of the disc-shaped body so that the protrusion may be inserted into the second elastic sleeve 340.

On the other hand, the buffer unit 400 is a pair of first elastic rubber 410 that is fitted around the upper steel bar 210 between the first upper fixing plate 220 and the second upper fixing plate 230 and the first lower A pair of second elastic rubbers 420 fitted around the lower steel bar 310 between the fixing plate 320 and the second lower fixing plate 330, and the first elastic sleeve 240 which is stacked against and overlapped with each other; The third elastic rubber 430 is inserted into the circumference of the second elastic sleeve 430 and the steel rod fastening means 440 for connecting the upper rod 210 and the lower rod 310.

Elastic rubber 410, 420, 430 according to the present embodiment is made of a cylindrical through the center portion to be fitted around the upper rod 210, lower rod 310 or expansion sleeves 240, 340 Excellent elasticity can cushion the tensile force or the compressive force applied to the buffer fixing device 100.

The steel rod fastening means 440 has a hollow portion in the body, and both ends are made of a cylindrical groove formed in a circular groove to be fitted around the upper steel bar 210 and the lower steel bar 310, the upper steel bar 210 And divided into two bodies for easier coupling with the lower rod 310.

The body of the steel bar fastening means 440 divided into two is provided with a connection grip (not shown) for fixing the two bodies in a butted state.

The steel rod fastening means 440 includes the first upper fixing plate 220 and the second upper fixing plate 230 attached to the upper steel bar 210 so that the upper connecting portion 200 and the lower connecting portion 300 are not separated from the buffer 400. The upper part of the steel rod fastening means 440 is inserted around the upper steel bar 210 between the lower bar between the first lower fixing plate 320 and the second lower fixing plate 330 attached to the lower steel bar 310. The lower portion of the steel rod fastening means 440 is fitted around the 310.

When the upper steel rod 210 and the lower steel rod 310 is vertically connected by the steel rod fastening means 440 as described above, the outside of the shock absorbing portion 400 is wrapped with a protective cover 450, the shock absorbing portion 400 inside To prevent foreign substances such as rain water or dust from entering, the protective cover 450 is composed of a pair of semi-cylindrical formed with a hollow portion inside the body, the upper steel bar 210 and the lower part when the pair of semi-cylindrical body is combined Circular grooves are formed around the steel rods 310 so that both ends may be fitted to each other.

When the protective cover 450 is wrapped around the outside of the buffer 400, the upper portion of the protective cover 450 is supported by the first upper fixing plate 220 formed on the upper steel bar 210 from the buffer 400 It is possible to prevent the departure. That is, the upper portion of the protective cover 450 is caught by the first upper fixing plate 220 so as not to descend to the lower side.

In addition, the hollow portion of the protective cover 450 is formed so as not to deform the outer shape of the protective cover 450, even if the upper connecting portion 200 and the lower connecting portion 300 is opened in the vertical direction as much as possible by the tensile force.

The protective cover 450 is also provided with a connection grip (not shown) for fixing a pair of semi-cylindrical bodies in abutted state, similarly to the steel rod fastening means 440.

FIG. 5A is a view illustrating an internal state that is deformed when a tension force is applied to the buffer unit illustrated in FIG. 4, and FIG. 5B is a diagram illustrating an internal state that is deformed when a compression force is applied to the buffer unit illustrated in FIG. 4. to be.

Referring to Figures 5a and 5b to look at the load generated in the upper structure of the cable and the bridge through the buffer, that is, the tension or compressive force is buffered, first, as shown in Figure 5a the upper rod 210 and the lower rod When a tensile force T is applied to the 310, since the second upper fixing plate 230 and the second lower fixing plate 330 are moved up and down, respectively, under the restriction of the steel bar fastening means 440, FIG. As shown in 4, the first elastic rubber 410 and the second elastic rubber 420 provided in the shock absorbing part 400 are compressed while the gap between the upper steel rod 210 and the lower steel rod 310 facing each other is increased. .

In other words, the first elastic rubber 410 provided between the second upper fixing plate 230 and the steel rod fastening means 440 is compressed while the upper steel rod 210 is forced upward, and the lower steel rod 310 is downward. While receiving the force, the second elastic rubber 420 provided between the second lower fixing plate 330 and the steel rod fastening means 440 is compressed.

On the other hand, when the compressive force (P) is applied to the upper rod 210 and the lower rod 310 as shown in Figure 5b, it is attached to the lower surface of the upper upper rod 210 and the upper end of the lower rod 310 The first elastic sleeve 240 and the second elastic sleeve 340 is stacked and then compressed, the first elastic rubber 410 provided between the first upper fixing plate 220 and the steel rod fastening means 440 is compressed The second elastic rubber 420 provided between the first lower fixing plate 320 and the steel rod fastening means 440 is compressed.

As described above, the buffer fixing device 100 according to the present invention is provided with a structure that can buffer the load generated in the bridge superstructure or landscape cable by providing a plurality of elastic rubber inside the buffer unit 400 do.

The present invention described above is not limited to the above-described embodiments and accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be clear to those who have knowledge of God.

1 is a view showing a state in which the buffer fixing device of the landscape cable of the bridge according to an embodiment of the present invention applied to the bridge.

Figure 2 is a perspective view showing in detail the structure of the buffer fixing device shown in FIG.

Figure 3 is an exploded perspective view of the buffer fixing device shown in FIG.

Figure 4 is a cross-sectional view showing the internal configuration of the buffer portion constituting the buffer fixing device according to the present invention.

Figure 5a is a view showing the internal state of the shock absorbing portion is applied to the tension of the buffer fixing device according to the present invention.

Figure 5b is a view showing the internal state of the shock absorbing portion applied to the compression force on the upper and lower sides of the buffer fixing apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: buffer fixing device 200: upper connection

210: upper steel bar 220: first upper fixing plate

230: second upper fixing plate 240: first expansion sleeve

300: lower connecting portion 310: lower steel bar

320: first lower fixing plate 330: second lower fixing plate

340: second expansion sleeve 400: buffer

410, 420, 430: elastic rubber 440: steel rod fastening means

450: protective cover

Claims (8)

In the buffer fixing device connected to the landscape cable installed on the bridge, The upper steel bar 210 forming a body connected to the landscape cable 30 and the lower end of the upper steel bar 210 is spaced apart from each other by a predetermined distance, and is configured to protrude along the outer circumferential surface of the upper steel bar 210 An upper connection part 200 including a first upper fixing plate 220 and a second upper fixing plate 230, and a first elastic sleeve 240 attached to a lower surface of the upper steel bar 210; The lower steel bar 310 forming a body connected to the bridge upper structure 10 and the upper end of the lower steel bar 310 is spaced apart from each other by a predetermined distance, and is configured to protrude along the outer circumferential surface of the lower steel bar 310 A lower connection part 300 including a first lower fixing plate 320 and a second lower fixing plate 330, and a second elastic sleeve 340 attached to an upper end surface of the lower steel bar 310; And Is configured to connect the upper connection portion 200 and the lower connection portion 300, provided with a cushioning means configured to include an elastic rubber (410, 420, 430) therein, the cable for landscape or the bridge (30) Shock absorbing portion 400 for buffering the load generated in the upper structure (10); The buffer fixing device for landscape cable of the bridge, characterized in that comprises a. delete The method of claim 1, The buffer unit 400, A pair of hollow cylindrical first elastic rubbers 410 fitted around the upper steel bar 210 between the first upper fixing plate 220 and the second upper fixing plate 230; A pair of hollow cylindrical second elastic rubbers 420 fitted around the lower steel bar 310 between the first lower fixing plate 320 and the second lower fixing plate 330; A hollow cylindrical third elastic rubber 430 fitted around the first elastic sleeve 240 and the second elastic sleeve 340; And Hollow cylindrical fastening means 440 for connecting the upper rod 210 and the lower rod 310; It is configured to include, the upper portion of the steel rod fastening means 440 is fitted around the upper steel bar 210 between the pair of first elastic rubber 410, the lower portion of the steel rod fastening means 440 The buffer anchoring device for the landscape cable of the bridge, characterized in that is configured to be fitted around the lower steel bar 310 between the pair of second elastic rubber (420). The method of claim 1, A buffer fixing device for a scenic cable of a bridge, characterized in that a connection member connected to the scenic cable 30 is formed at an upper end of the upper steel bar 210. The method of claim 4, wherein The connecting member is a cushioning device for landscape cable of the bridge, characterized in that consisting of a circular ring or U-shaped hook. The method of claim 1, The lower end of the lower rod 310 is a buffer fixing device for the landscape cable of the bridge, characterized in that the connection member is connected to the bridge upper structure (10) is formed. The method of claim 6, The connecting member is a cushioning device for landscape cable of the bridge, characterized in that consisting of a circular ring or U-shaped hook. The method of claim 1, A buffer fixing device for a landscape cable of a bridge, characterized in that it further comprises a protective cover 450 surrounding the outside of the buffer 400.

Images