KR102034502B1 - Temporary bridge that is not affected by temperature load using slip pads and separation prevention devices and construction method thereof - Google Patents

Abstract

The present invention provides a hypothetical bridge that is not affected by the temperature load using the sliding plate and the release prevention plate that the girder is freely slid by the sliding plate, so that structurally unfavorable stress does not occur due to the temperature load on the girder and the temporary vent. As for the purpose, hypothesis vents are installed spaced apart from each other in the longitudinal direction in the axial direction; Girders are installed in the form of a continuous beam in the longitudinal direction and spaced apart from each other in the transverse direction on the upper side of the temporary installation, the temporary vents are installed in the ground spaced apart from each other in the longitudinal and transverse directions And, support beams installed to be coupled to the upper sides of the piles and coupled to each other, and connecting members interconnecting the support beams, wherein the girders are fixedly coupled to the movement of the temporary vents of some of the temporary vents. The rest is slidingly coupled to be able to slide in the longitudinal direction, the sliding coupling is a sliding plate installed between the support beam and the lower flange of the girder, a pair of separation prevention plate to prevent the separation of the girder, a pair of separation Bolts and nuts for fastening the baffle plate to the support beam.

Description

Temporary bridge that is not affected by temperature load using slip pads and separation prevention devices and construction method

The present invention relates to a temporary bridge that is not affected by the temperature load using a sliding plate and a separation prevention plate, and a construction method thereof, and in detail, the girder is constructed freely with respect to the longitudinal expansion and contraction on the upper side of the temporary vent. By enabling the contraction and expansion of the girder, the construction of the construction bridge and the construction method which are not affected by the temperature load using the sliding plate and the release preventing plate, which does not cause structurally unfavorable stress or torsion in the girder and the temporary vent It is about.

Conventional temporary bridges have been installed by installing temporary vents on the ground at regular intervals, installing girders in the longitudinal direction above the temporary vents, and installing a perforated plate above the girders.

Such conventional temporary bridges are usually constructed in the form of a ramen structure in which temporary vents and girders are rigid structures. That is, the coupling of the temporary vent and the girder has a structure of fastening with a high tension bolt or by welding. This structural form is excellent in structure, but due to crossover or seasonal temperature changes, the upper girders and the lower construction vents are unreasonably loaded as the upper girders repeat their construction. In particular, in the case of continuous bridges and long longitudinal bridges, the load burden due to the temperature load increases, and there is a problem that the construction cost increases by increasing the cross section to cope with this.

As a technique for solving the above problems, Korean Patent Publication No. 10-0949292 discloses a method of constructing a point portion of a temporary bridge that is not influenced by temperature stretching (see FIGS. 4A and 4B). This prior art is a temporary bridge that is installed to support the load of the temporary bridge, the support beam is fixed to the upper portion of the temporary vent, the temporary bridge to be installed between the upper beam and the support beam supporting the load of the temporary bridge deck In the point construction method of the, the first bracket 135 of the stainless steel plate which is located on the lower surface of the lower flange (120a) of the upper beam 120, and is mounted on the lower portion of the first bracket (135) to contact. Install the elastic support 140 which is a synthetic rubber plate which can be installed, the second pedestal 145 is located between the upper flange (115a) of the braces 115 in the lower portion of the elastic support 140 and is formed of a stainless plate In addition, between the lower flange 120a of the upper beam 120 and the upper flange 115a of the brace beam 115, the lower flange 120a, the upper flange 115a, the first pedestal 135, elastic Support the base 140 and the second pedestal 145 By installing a plurality of fixing bolts 160 which are fixed by penetrating through the horizontal load and the vertical load caused by the temperature change through the elastic support 140, the movement of the point portion is characterized in that the free movement of the point portion It is related to the point construction method of temporary bridges (refer to claim 1), which is not subjected to the construction of a temporary bridge.The movable vent is installed on the end vent part (branch part) to freely expand and contract by the temperature load. It is an object of the present invention to provide a method of constructing a pointed section of a temporary bridge that is not affected by temperature expansion and contraction to eliminate stress and warpage at the point by removing horizontal and vertical loads caused by temperature changes.

However, the prior art has a problem in that the expansion and contraction is not performed smoothly due to the hardening of the synthetic rubber plate after a long time by using the elastic support 140 is a synthetic rubber plate in the stretchable point. In addition, the bolt hole is formed in a long hole to enable expansion and contraction, but the fixing bolt 160 is fastened by the long hole, but the amount of expansion is not limited to the long hole, and it is difficult to firmly fasten the fixing bolt 160. have. In addition, when the amount of expansion is excessive, horizontal deformation may occur in the synthetic rubber plate, and the horizontal load of the synthetic rubber plate may be transferred to the temporary tent, thereby being structurally disadvantageous. In addition, the configuration to accommodate the expansion is the first base 135, the elastic base 140, the second base 145, etc. are installed in the overlapped structure is complicated, the point where they are not installed due to the overlapping installation And there is a problem that the height is installed different.

Therefore, there is a demand for the development of a technology that facilitates expansion and contraction due to temperature change and the structure is simple and the height difference due to the sliding structure is not large.

Korean Patent Publication No. 10-0949292

In order to solve the above problems, the present invention is the sliding of the girder by the sliding plate, the temperature load using the sliding plate and the release prevention plate that does not generate structurally disadvantageous stress due to the temperature load on the girder and the temporary vent The purpose of this study is to provide temporary bridges and construction methods that are not affected.

In addition, it is intended to provide a temporary bridge and a construction method that is not affected by the temperature load using the sliding plate and the separation prevention plate that the construction is fast and the construction cost is reduced due to the simple sliding coupling structure.

In addition, it is intended to provide a temporary bridge and the construction method that is not affected by the temperature load using the sliding plate and the separation prevention plate that the height difference of the sliding plate of the sliding coupling structure is low.

Temporary bridges that are not affected by the temperature load using the sliding plate and the release prevention plate according to an example of the present invention are installed on the ground spaced apart from each other in the longitudinal direction of the axial direction; Girders are installed in the form of a continuous beam in the longitudinal direction and spaced apart from each other in the transverse direction on the upper side of the temporary installation, the temporary vents are installed in the ground spaced apart from each other in the longitudinal and transverse directions And, support beams installed to be coupled to the upper sides of the piles and coupled to each other, and connecting members interconnecting the support beams, wherein the girder has an upper flange and a lower flange spaced apart from each other, and the upper flange and the lower flange. It is an I-beam including a connecting web, wherein the girders may be fixedly coupled to the movement of the temporary vent of some of the temporary vents, and the other side is slidingly coupled to enable sliding in the longitudinal direction.

In addition, the sliding coupling may be characterized in that the sliding plate is installed between the support beam of the temporary vent and the lower flange of the girder.

In addition, the sliding plate may be characterized in that the PTFE (Polytetrafluoroethylene).

In addition, the sliding coupling includes a pair of separation prevention plate for preventing the separation of the girder, and bolts and nuts for fastening the pair of separation prevention plate to the support beam, the release prevention plate, the girder It may include a cover plate surrounding the upper side of the lower flange of the coupling plate coupled to the support beam, and the connecting plate for connecting the cover plate and the coupling plate in the vertical direction.

In addition, the sliding plate may extend to the coupling plate of the separation prevention plate in the transverse direction may be coupled between the coupling plate and the support beam by the bolt and nut.

In addition, the sliding plate may be characterized in that attached to the support beam.

In addition, it may be characterized in that it further comprises a height adjustment plate installed between the coupling plate of the separation prevention plate and the support beam.

In addition, the height adjustment plate may further include a locking portion protruding toward the sliding plate at the front and rear ends, and the locking portion may prevent the sliding of the sliding plate in the front and rear direction.

In addition, the temporary bridge construction method that is not affected by the temperature load using the sliding plate and the separation prevention plate according to an example of the present invention, the construction of the construction vents to install the construction vents spaced apart from each other in the longitudinal direction of the axial direction on the ground step; And a girder construction step of installing girders installed in a continuous beam form in a longitudinal direction on the upper side of the temporary vents and spaced apart from each other in a transverse direction, wherein the temporary vents are spaced apart from each other in the longitudinal and transverse directions on the ground. Included files are inserted and installed, the supporting beams are installed and coupled to the upper side of the pile and connecting members for interconnecting the support beams, the girder is the upper flange and the lower flange, the upper spaced apart from each other It is an I-beam including a web connecting the flange and the lower flange, the girders may be fixedly coupled so as not to move to the temporary vent of some of the temporary vents, and the other side may be slidingly coupled to be able to slide in the longitudinal direction.

In addition, the sliding coupling, the sliding plate is installed between the support beam of the temporary vent and the lower flange of the girder, a pair of separation prevention plate to prevent the separation of the girder, and the pair of separation prevention plate And bolts and nuts fastened to the support beams, and the separation prevention plate includes a cover plate surrounding an upper side of the lower flange of the girder, a coupling plate coupled to the support beams, and the cover plate and the coupling plate. It includes a connecting plate connected in the vertical direction, the sliding plate may be characterized in that the PTFE (Polytetrafluoroethylene).

The girder is slid freely by the sliding plate through the present invention, so that structurally unfavorable stress does not occur in the girder and the temporary vent.

In addition, since the girder is freely slid by the sliding plate, structurally unfavorable stress does not occur in the girder and the temporary vent, and thus the construction cost can be saved because the cross-sectional size of the temporary vent or the like can be reduced in design.

In addition, since the sliding coupling structure is simple, the construction can be quickly and the construction cost can be saved.

In addition, the height difference of the sliding plate of the sliding coupling structure does not occur.

Figure 1a is a cross-sectional view of the temporary bridge is not affected by the temperature load using the sliding plate and the separation prevention plate according to an example of the present invention.
FIG. 1B is a longitudinal cross-sectional view (side view) of FIG. 1A.
1C is a top view of FIG. 1A.
Figure 2a is a view showing a state in which the piles of the hypothesis vent of the present invention is installed on the ground.
Figure 2b is a view showing a state in which the support beam is installed on the upper side of the files installed on the ground of the present invention.
Figure 2c is a view showing a state in which the sliding plate is installed on the upper side of the support beam of the present invention.
Figure 2d is a view showing a state in which girders are installed on the upper side of the sliding plate of the present invention.
Figure 2e is a view showing a state in which the installation of the separation prevention plate over the lower flange upper side and the support beam of the girder of the present invention and sliding the girder to the support beam by fastening bolts and nuts.
Figure 2f is a view showing a state of mutually coupling the girders of the present invention using a crossbeam.
Figure 2g is a view showing a state in which the perforated plate is installed on the upper side of the integrated girders of the present invention.
Figure 2h is a view showing the appearance of finishing the construction of the temporary bridge by installing a guard rail to prevent the fall on both sides of the present invention.
Figure 2i is a side view showing the overall appearance of the temporary bridge not affected by the temperature load using the sliding plate and the separation prevention plate of the present invention.
Figure 3a is a cross-sectional view showing a state in which the sliding plate is installed under the lower flange of the girder of the present invention.
Figure 3b is a view of the height adjustment plate and the sliding plate installed between the girder and the support beam of the present invention is installed.
Figure 3c is a view showing the height adjustment plate installed between the girder and the support beam of the present invention and the engaging portion by hatching.
Figure 3d is a view showing a state in which the sliding plate installed between the girder and the support beam of the present invention is extended to the coupling plate of the separation prevention plate.
4A and 4B are prior art views.

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the reference numerals to the components of the drawings, the same components are to have the same reference numerals as much as possible even if displayed on different drawings. In addition, in describing the embodiments of the present invention, when it is determined that a detailed description of a related well-known configuration or function interferes with the understanding of the embodiments of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but there is another component between each component. May be “connected”, “coupled” or “connected”.

1 to 3, a temporary bridge which is not affected by the temperature load using the sliding plate and the release preventing plate according to an example of the present invention will be described in detail.

Temporary bridges that are not affected by the temperature load using the sliding plate and the release prevention plate according to an embodiment of the present invention are installed on the ground spaced apart from each other in the longitudinal direction of the axial direction; The girders 20 are installed in the form of a continuous beam in the longitudinal direction and spaced apart from each other in the transverse direction on the upper side of the temporary vent (10); may include.

The temporary vents 10 may be installed in plural while being spaced apart from each other in the longitudinal direction in the axial direction. In addition, the girder 20 may be installed continuously in the axial direction and spaced apart from each other in the transverse direction on the upper side of the temporary vent (10).

Each of the hypothetical vents 10 are piles 12 inserted into the ground spaced apart from each other in the longitudinal direction and the transverse direction, and the support beams 14 are installed in the transverse direction and coupled to the upper side of the piles 12 and It may include a connecting member 16 for interconnecting the support beams (14).

The piles 12 may be H-shaped steel, rectangular steel, circular steel pipes, etc., which are arranged and installed in a lattice shape on the ground to constitute each temporary vent 10. Installation of the pile 12 may be installed after boring the ground, or may be installed by hitting the ground. The piles 12 may be joined to each other by horizontal bracing, X-shaped bracing, or the like in the middle part or the upper part.

The support beam 14 may be installed in the transverse direction on the upper sides of the piles 12 and coupled. The support beam 14 installed and coupled in the lateral direction may allow the temporary vent 10 to withstand the load in the horizontal direction. In addition, the support beam 14 may support the girders 20 mounted on the upper side.

The connecting members 16 may interconnect the support beams 14 in the longitudinal direction in the axial direction. Thus, the temporary vent 10 can be well resisted in the longitudinal direction by the connecting members 16.

That is, the temporary vent 10 can be well supported against the load in the longitudinal direction by being interconnected in the transverse direction and the longitudinal direction by the support beam 14 and the connecting member 16 from the upper side.

Girder 20 may be installed above the temporary vents 10, that is, above the support beam 14. The girder 20 may be installed in the form of a continuous beam in the longitudinal direction on the upper side of the temporary vent 10, spaced apart from each other in the transverse direction. The girder 20 may support the perforated plate of the temporary bridge, and may transmit the load received from the perforated plate to the temporary vent 10.

The girder 20 may be an I-shaped steel including an upper flange and a lower flange spaced apart from each other, and a web connecting the upper flange and the lower flange. That is, the lower flange of the I-beam can be supported on the upper side of the support beam 14, the upper flange can support the perforated plate.

The girders 20 are fixedly coupled to the temporary vents 10 of some of the temporary vents 10, for example, to one temporary vent 10, and slide to allow sliding in the longitudinal direction. Can be combined. Therefore, when the expansion and contraction of the girder 20 due to temperature changes, structurally unfavorable stress may not occur in the girder 20 or the temporary vent 10. At the same time, the size of the cross section of the girder 20 or the temporary vent 10 at the time of design can be reduced, thereby reducing the construction cost including material cost, installation cost, and the like.

Sliding coupling of the girder 20 may be configured by installing a sliding plate 30 between the support beam 14 of the temporary tent 10 and the lower flange of the girder 20. That is, the sliding plate 30 is installed on the upper side of the support beam 14 and the lower side of the girder 20 so that the girder 20 can freely deform when expansion and contraction occurs due to the temperature load, thereby making the girder 20 or the temporary vent. It is possible to prevent structurally unfavorable stress from developing in (10).

The sliding plate 30 may be PTFE or the like. PTFE has a very low coefficient of friction without changing its properties even at high temperatures, and thus the PTFE can freely accommodate expansion and contraction due to the temperature load of the girder 20. In addition, the PTFE sliding plate 30 is low in height, the height difference according to the longitudinal direction of the girders compared to the prior art, for example, the roller structure, and the like, at the same time does not generate a bending stress adverse to the girders.

The sliding plate 30 may be manufactured and installed in one plate shape, or may be manufactured and installed in a plurality of divided plates having a disc shape and a square plate shape. The sliding plate 30 may be attached to the support beam 14 by an adhesive such as epoxy.

Sliding coupling of the girder 20 is a bolt and nuts for fastening the pair of escape prevention plate 40 and the pair of escape prevention plate 40 to the support beam 14 to prevent the separation of the girder 20 It can be configured to include.

The release prevention plate 40 is a cover plate 42 surrounding the upper side of the lower flange of the girder 20, a coupling plate 44 coupled to the support beam 14, the cover plate 42 and the coupling plate It may be configured to include a connecting plate 46 for connecting the 44 in the vertical direction. The release preventing plate 40 may be coupled to the support beam 14 while wrapping the lower flange of the girder 20 so that the girder 20 does not escape in the upper or horizontal direction. The cover plate 42 is preferably spaced slightly from the upper surface of the lower flange while surrounding the upper side of the lower flange. The coupling plate 44 may be bolted to the support beam 14. The connecting plate 46 is configured to vertically connect the outer end of the cover plate 42 and the inner end of the coupling plate 44.

The sliding plate 30 may extend to the coupling plate 44 of the release preventing plate 40 in the lateral direction and may be coupled between the coupling plate 44 and the support beam 14 by the bolts and nuts. . That is, the length of the sliding plate 30 is formed long in the transverse direction may be extended to be coupled to the lower side of the coupling plate 44 of the separation prevention plate 40. It is not necessary to adhere the sliding plate 30 to the support beam 14, and the construction work can be performed quickly and easily by performing the combination of the sliding plate 30 and the release preventing plate 40 in a single process.

A height adjusting plate 50 may be further included between the coupling plate 44 and the support beam 14 of the separation preventing plate 40. The height adjustment plate 50 is installed between the coupling plate 44 and the support beam 14 of the departure prevention plate 40 to adjust the gap between the departure prevention plate 40 and the support beam 14, preventing departure The separation prevention plate 40 supports the girders 20 regardless of various sizes such as the height of the connecting plate 46 of the plate 40, the thickness of the lower flange of the girder 20, the thickness of the sliding plate 30, and the like. It can be tightly and firmly coupled to the beam 14. That is, while the girder 20 slides well, excessive flow may not be generated in the release preventing plate 40.

The sliding plate 30 is installed only in the lower portion of the lower flange of the girder 20, the coupling plate 44 of the release preventing plate 40 is directly coupled to the support beam 14 of the temporary construction 10, or As described above, the height adjustment plate 50 may be installed between the coupling plate 44 and the support beam 14 of the separation prevention plate 40 to be coupled together. That is, the height adjusting plate 50 can be tightly and firmly coupled even when the height of the connecting plate 46 of the release preventing plate 40, the thickness of the sliding plate 30, and the like are different from the design dimensions.

The height adjusting plate 50 may have a locking portion 52 protruding toward the sliding plate 30 at front and rear ends. The locking portion 52 may prevent the sliding plate 30 from being separated in the front-back direction, that is, the longitudinal direction. That is, since the locking portion 52 of the height adjustment plate 50 is formed to protrude toward the sliding plate 30, the sliding plate attached to the support beam 14 by the sustained temperature deformation of the girder 20 for a long time sharing ( When the 30 is dropped, the sliding plate 30 can be prevented from being separated.

The locking portion 52 of the height adjustment plate 50 may be connected to the locking portion 52 of the height adjustment plate 50 facing each other. That is, the pair of height-adjusting plate 50 and the engaging portion 52 which face each other form a rectangle, and by installing the sliding plate 30 in the inside of the square, the sliding plate 30 is completely separated. You can prevent it.

Temporary bridge construction method that is not affected by the temperature load using the sliding plate and the separation prevention plate according to an example of the present invention, the construction of the construction vents 10 installed on the ground spaced apart from each other in the longitudinal direction of the axial direction Construction step; A girder construction step of installing girders 20 installed on the temporary side of the temporary vents 10 in a longitudinal beam type and spaced apart from each other in a lateral direction; Can be installed in order.

The description of the same components as the above-described temporary bridge among the components in the present construction method may be omitted. The omitted description may be inferred to apply the above.

The temporary vent 10 is spaced apart from each other in the longitudinal and transverse directions to insert the piles 12 on the ground, and to install and support the support beams 14 in the transverse direction above the piles 12, the Connection members 16 may be installed to interconnect the support beams 14. The connecting members 16 may be installed side by side or inclined in the longitudinal direction.

The girder 20 may be an I-shaped steel including an upper flange and a lower flange, and a web connecting them. The girders 20 may be fixedly coupled so as not to move to some of the temporary vents 10 of the temporary vents 10 and slidingly coupled to the other side to allow sliding in the longitudinal direction.

The sliding coupling is provided with a sliding plate 30 between the support beam 14 of the temporary tent 10 and the lower flange of the girder 20, a pair of separation prevention plate 40 to prevent the separation of the girder. And, it may include a bolt and nuts for fastening the pair of departure prevention plate 40 to the support beam (14).

The release preventing plate 40, the cover plate 42 surrounding the upper side of the lower flange of the girder, the coupling plate 44 coupled to the support beam 14, the cover plate 42 and the coupling plate 44 It may include a connecting plate 46 for connecting in a vertical direction.

 The sliding plate 30 is preferably used PTFE (Polytetrafluoroethylene).

In the above description, all elements constituting the embodiments of the present invention are described as being combined or operating in combination, but the present invention is not necessarily limited to the embodiments. In other words, within the scope of the present invention, all of the components may be configured or operated by selectively combining one or more of them. In addition, the terms "comprise", "comprise" or "having" described above mean that the corresponding component may be inherent unless otherwise stated, and thus, other components are excluded. It should be construed that it may further include other components instead. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms commonly used, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: hypothesis vent
12: File
14: support
16: connecting member
20: girder
30: sliding plate
40: Breakaway Plate
42: cover plate
44: binding plate
46: connecting plate
50: height adjustment plate
52: catch

Claims (9)

Hypothesis vents spaced apart from each other in the longitudinal direction in the axial direction on the ground;
Includes girders installed in the form of a continuous beam in the longitudinal direction and spaced apart from each other in the transverse direction on the upper side of the temporary vents;
The temporary vent includes a pile that is inserted into the ground spaced apart from each other in the longitudinal direction and the transverse direction, the supporting beams are installed and coupled in the transverse direction on the upper side of the pile, and connecting members for interconnecting the support beams; ,
The girder is an I-beam including a web connecting the upper flange and the lower flange spaced apart from each other, the upper flange and the lower flange,
The girders are fixedly coupled so as not to move to the temporary vents of some of the temporary vents and slidingly coupled to allow longitudinal sliding in the remaining ones,
The sliding coupling is,
A sliding plate installed between the support beam of the temporary vent and the lower flange of the girder, a pair of separation prevention plates for preventing the separation of the girder, and a bolt for fastening the pair of separation prevention plates to the support beams. And nuts,
Further comprising a height adjustment plate installed between the separation prevention plate and the support beam,
The height adjustment plate is protruded toward the sliding plate toward the front and rear end to prevent the slipping of the sliding plate,
The engaging portion is connected to the engaging portion of the height adjustment plate facing, the pair of height adjustment plate and the engaging portion to form a rectangular, the sliding plate is installed inside the rectangular,
The sliding plate is PTFE (Polytetrafluoroethylene),
The release preventing plate, the cover plate surrounding the upper side of the lower flange of the girder, a coupling plate coupled to the support beam, and a connecting plate for connecting the cover plate and the coupling plate in the vertical direction,
The sliding plate is a temporary bridge that is not affected by the temperature load using the sliding plate and the separation prevention plate, characterized in that attached to the support beam. delete delete delete delete delete delete Temporary vent construction step of constructing the temporary vents are spaced apart from each other in the longitudinal direction in the axial direction on the ground;
And a girder construction step for installing girders installed in a continuous beam form in the longitudinal direction and spaced apart from each other in the transverse direction on the upper side of the temporary vents.
The temporary vent includes a pile that is inserted into the ground spaced apart from each other in the longitudinal direction and the transverse direction, the supporting beams are installed and coupled in the transverse direction on the upper side of the pile, and connecting members for interconnecting the supporting beams ,
The girder is an I-beam including a web connecting the upper flange and the lower flange spaced apart from each other, the upper flange and the lower flange,
The girders are fixedly coupled so as not to move to the temporary vents of some of the temporary vents and slidingly coupled to allow longitudinal sliding in the remaining ones,
The sliding coupling is,
A sliding plate installed between the support beam of the temporary vent and the lower flange of the girder, a pair of separation prevention plates for preventing the separation of the girder, and a bolt for fastening the pair of separation prevention plates to the support beams. And nuts,
Further comprising a height adjustment plate installed between the separation prevention plate and the support beam,
The height adjusting plate is protruded toward the sliding plate toward the front and rear end to prevent the slipping of the sliding plate,
The engaging portion is connected to the engaging portion of the height adjustment plate facing, the pair of height adjustment plate and the engaging portion to form a rectangular, the sliding plate is installed inside the rectangular,
The release preventing plate, the cover plate surrounding the upper side of the lower flange of the girder, a coupling plate coupled to the support beam, and a connecting plate for connecting the cover plate and the coupling plate in the vertical direction,
The sliding plate is a temporary bridge construction method that is not affected by the temperature load using a sliding plate and the separation prevention plate, characterized in that the PTFE (Polytetrafluoroethylene). delete

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