KR100949292B1 - Construction method for supports of temporary bridge dealing with thermal strain - Google Patents

Abstract

PURPOSE: A construction method for the supports of a temporary bridge dealing with thermal strain is provided to reduce the stress of the supports and prevent the supports from being twisted by effectively removing horizontal load and vertical load which are generated by temperature change. CONSTITUTION: A construction method for the supports of a temporary bridge dealing with thermal strain comprises following steps. A first supporter(135), an elastic bearing(140), and a second supporter(145) are perforated by plural fixing bolts(160) and are fixed by nuts(170) between the bottom of the lower flange(120a) of an upper beam(120) and an upper flange(115a) of a strut(115). The supports are freely moved by controlling the horizontal load and the vertical load due to temperature change using the elastic bearing.

Description

CONSTRUCTION METHOD FOR SUPPORTS OF TEMPORARY BRIDGE DEALING WITH THERMAL STRAIN}

The present invention relates to a method for constructing a point portion of a temporary bridge that is free to stretch the temperature, and more specifically, to the end vent portion (point portion) by installing an elastic support that is easy to move in accordance with the temperature stretch freely shrinkage expansion by temperature load By removing the horizontal load and the vertical load caused by the temperature generated in the upper part of the temporary vents to prevent the stress reduction and distortion of the point portion of the construction of the point bridge construction of the temporary bridge is not affected by the expansion and contraction.

In general, the temporary bridge 1 is a cross-sectional view of the fixed end 20 is formed in the center of the temporary bridge after the installation of the temporary vent 10, as shown in the overall longitudinal cross-sectional view in FIG. After the stabilization device of the movable end 30 is installed, the upper beam 35 and the perforated plate 40 are installed thereon.

As shown in FIG. 2, the bridge device of the movable end 30 installed in the conventional temporary bridge 1 is installed at both side points of the temporary bridge 1 to form the temporary bridge 1. Many are provided between the lower flange 35a of the upper beam 35, and between the upper flange 37a of the brace 37 arrange | positioned laterally.

As shown in FIG. 3A, the upper plate 52 having the long holes 52a installed on both sides thereof has an upper beam 35 as shown in FIG. 3A. Located on the lower surface of the lower flange (35a) of the bottom, a plurality of round bar 54, reinforcing plate 56, reinforcing elastic rubber plate 58 and the central support frame 60 is formed at the lower part, The lower plate 62 having holes 62a formed at both sides thereof is integrally installed with the bolt 64a and the nut 64b using the long hole 52a and the hole 62a at the upper portion of the brace 37. .

When the bridge device 50 of the branch portion provided in the conventional temporary bridge 1 is stretched in accordance with the temperature to the temporary bridge 1, it can absorb the thermal expansion only in one direction along the round bar 54 Structure.

Therefore, the structure of the conventional teaching device 50 can exhibit the effect on the horizontal load due to the temperature stress to some extent, but if it is deformed in the combined state of the concrete slab plate 40 and the upper beam 35 is appropriate It can not be easily received, causing the deformation of the temporary bridge (1).

In order to solve such a problem, a conventional chair apparatus 70 as shown in FIG. 3B has been proposed.

The bridge device 70 installed in the conventional temporary bridge 1 removes the horizontal load due to the temperature generated on the temporary vent 10 by freeing the contraction and expansion caused by the temperature load through the stress of the temporary vent part. This is to prevent reduction and distortion.

That is, in the conventional chair apparatus 70 shown in FIG. 3B, at least one floating ball groove (not shown) is formed on the inner side of the support beam 37 of the temporary vent 10 installed to support the load of the temporary bridge 1. The pedestal 72 is fixed and is provided with a plurality of flow balls 75 which are seated in the flow ball groove to make a rolling contact or sliding contact. And it is installed on the outer portion of the pedestal 72 includes a departure prevention frame 77 and the upper beam escape guard 80 to prevent the separation of the flow ball 75, the upper portion of the flow ball 75 The upper beam 35 is mounted.

Shrinkage due to horizontal loads such as temperature loads in the composite structure of the double hole plate 40 and the upper beam 35 mixed with concrete and ascon through the point bridge device 70 installed in the conventional temporary bridge 1 and In the case of such a conventional device 70, it is possible to receive the expansion freely, but the effect is obtained to some extent in the horizontal direction with respect to the temperature load, but the temperature load is not accommodated at all in the vertical direction. It was to have.

Therefore, such a conventional temporary bridge (1) was to have a problem that does not completely remove the horizontal load and the vertical load due to the temperature change occurring in the upper portion of the temporary vent (10) to cause distortion.

The present invention is to solve the above-mentioned conventional problems, the object is to provide a flexible elastic support on the end vent portion (point portion) to freely shrinkage expansion due to the temperature load to be generated on the top of the temporary vent The present invention provides a method of constructing a pointed section of a temporary bridge that is not affected by temperature expansion and contraction to remove stress and warpage at the point by removing horizontal and vertical loads caused by temperature changes.

In addition, another object of the present invention is to provide a simple structure and freely accommodate the contraction and expansion for horizontal and vertical loads, such as temperature loads for long-term use, thereby greatly improving the durability to extend the service life significantly It is to provide branch construction method of temporary bridge which is not influenced by.

In order to achieve the above object, the present invention is a temporary vent is installed to support the load of the temporary bridge, the support beam is fixed to the upper portion of the temporary vent, the expansion between the upper beam and the support beam supporting the load of the temporary bridge bridge In the construction method of the point portion of the temporary bridge to be made so that, the first plate-shaped pedestal located on the lower flange lower surface of the upper beam, and the elastic support to be seated in contact with the lower portion of the first pedestal And installing a second pedestal located between the upper flanges of the brace and formed in a plate shape at the lower portion of the elastic support, and between the upper flange of the upper beam and the lower flange of the upper beam and the upper flange of the brace. Horizontal fixing due to temperature change by installing a plurality of fixing bolts for fixing the pedestal, the elastic base and the second pedestal through And the normal load is a free to stretch to a point of negative behavior through the elastic support 140. The Through this, the present invention is not only flow in one direction and both directions in the elastic support, but also in the vertical up and down direction, so that the upper beam is free flow without distortion or bending, the lower vent is to support the upper beam stably.

And the present invention preferably the first pedestal is made of a plurality of stainless steel plate of 1 mm to 3mm thickness, the second pedestal is made of stainless steel plate of 1 mm to 3mm thickness, the elastic support is 5mm to 10mm It is composed of thick synthetic rubber plates. Therefore, the present invention transmits the horizontal load and the vertical load of the upper beam by the temperature change to the elastic support through the first and second pedestal made of a stainless plate between the upper beam and the support beam and does not cause distortion or warpage.

In addition, the present invention preferably has a plurality of long holes are formed in the lower flange of the upper beam in the longitudinal direction of the girder, bolt holes are formed in the upper flange of the support beam through the plurality of fixing bolts the upper, lower flange, When the first pedestal, the elastic support and the second pedestal is mounted, the relative displacement of the upper beam with respect to the brace when the expansion and contraction by the temperature change is made. Through this structure, the present invention allows the upper beam to freely flow without warping or bending, and the lower vent supports the upper beam stably.

Preferably, the first pedestal forms a plurality of protrusions protruding to the upper surface of the elastic support, the second pedestal forms a plurality of protrusions protruding to the lower surface of the elastic support, the elastic support The upper and lower surfaces are formed with a plurality of grooves for accommodating the protrusions, respectively, and are narrowly supported between the first and second pedestals so that the upper and lower portions of the first and second pedestals and the elastic support are stretched and contracted. Relative displacement of the upper beam relative to the brace through the deformation of the elastic support without slip between the surfaces (slip). Therefore, by effectively removing the horizontal load and the vertical load of the upper beam caused by the temperature change in the upper portion of the temporary vent it is possible to effectively prevent the stress reduction and distortion of the temporary vent portion.

According to the construction method of the point portion of the temporary bridge not affected by the temperature expansion and contraction according to the present invention, the first pedestal, the elastic support and the second pedestal between the lower flange of the upper beam and the upper flange of the brace beam with a plurality of fixing bolts. The horizontal load and the vertical load caused by the temperature change are expanded and contracted through the elastic support 140 to freely move the point portion, so that the horizontal load and the vertical load due to the temperature change generated on the upper part of the temporary vent are installed. Can be removed effectively. Thus, an improved effect of preventing stress reduction and distortion of the temporary vent portion is obtained.

In addition, according to the present invention, it is possible to freely accommodate the contraction and expansion of the upper beam with respect to the horizontal load such as the temperature load while having a simple structure, thereby greatly improving the durability of the temporary bridge, thereby greatly extending the service life over a long period of time. Lose.

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

Point construction method 100 of the temporary bridge is not affected by the temperature stretching according to the present invention, as shown in Figure 4, the temporary vent 112 is installed to support the load of the temporary bridge 110, the hypothesis The brace beam 115 is fixed to the upper part of the vent 112, and the seating device 130 to be freely stretched between the brace beam 115 and the upper beam 120 supporting the load of the perforated plate 117 of the temporary bridge 110 To install it.

The point construction method 100 of the temporary bridge is not affected by the temperature expansion and contraction according to the present invention is a free expansion and contraction device 130 as shown in Figure 5 and the lower flange 120a of the upper beam 120 A plurality of upper flanges 115a of the braces 115 are provided.

Such a device 130 is provided with a plate-shaped first pedestal 135 is located on the lower surface of the lower flange (120a) of the upper beam 120, it is seated on the lower portion of the first pedestal 135 to contact. It is provided with an elastic support 140, and is positioned between the upper flange (115a) of the braces 115 in the lower portion of the elastic support 140 and is provided with a second pedestal 145 is formed in a plate shape. .

In such a structure, the first pedestal 135 is made of a plurality of 1 mm to 3 mm thick stainless steel plate, the second pedestal 145 is made of a stainless plate of 1 mm to 3 mm thick, the elastic support ( 140) is made of a synthetic rubber plate of 5mm to 10mm thickness.

In the above, the first pedestal 135 and the second pedestal 145 are each made of a stainless plate of 1 mm to 3 mm thick, when the thickness of the stainless plate is less than 1 mm, the structural strength is weak, and more than 3 mm thick It is excessively unnecessary.

If the thickness of the stainless steel plate of the first pedestal 135 and the second pedestal 145 is more than necessary, a plurality of stainless steel plate is overlapped and used. The first pedestal 135 and the second pedestal 145 may be positioned on the upper and lower surfaces of the elastic support 140 or more, respectively.

In the case of the elastic support 140, if the thickness is 5mm or less, it is difficult to exert sufficient elastic deformation, and if the thickness is 10mm or more, it is excessive, and if more than necessary, a plurality of sheets may be overlapped.

In addition, the first pedestal 135, the elastic support 140 and the second pedestal 145 together with the lower flange (120a) of the upper beam 120 and the upper flange (115a) of the support beam 115 It is mounted through the fixing bolts 160 of the up and down.

In this structure, a plurality of long holes 162 are formed in the lower flange 120a of the upper beam 120 in the longitudinal direction of the upper beam 120, and a bolt hole is formed in the upper flange 115a of the brace beam 115. 164 is formed, when the first pedestal 135, the elastic support 140 and the second pedestal 145 is mounted through a plurality of fixing bolts 160 therebetween when the expansion and contraction by the temperature change, The relative displacement of the upper beam 120 with respect to the brace beam 115 is made.

As described above, the method for constructing the point portion 100 of the temporary bridge that is not affected by the temperature stretching according to the present invention is provided between the lower flange 120a of the upper beam 120 and the upper flange 115a of the brace 115. The first pedestal 135, the elastic support 140 and the second pedestal 145 through a plurality of fixing bolts 160 to be fixed and installed with a nut 170, the horizontal load and the vertical load by the temperature change is Stretching through the elastic bearing 140 is to allow the movement of the point portion free. Therefore, it is possible to effectively remove the horizontal load and the vertical load caused by the temperature change in the upper portion of the temporary vent 112, it is possible to effectively prevent the stress reduction and distortion of the temporary part 112.

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As shown in FIG. 8, the fixed point 180 is disposed at the central portion of the temporary bridge 110, and the central portion of the temporary bridge construction method 100 is not affected by the temperature stretching according to the present invention. In addition, when the movable stage 190 is disposed, if the movement of the chair device 130 of the movable stage 190 on the basis of the fixed stage 180 occurs due to stress or shock generated by thermal deformation, Absorb it.

That is, the free movement through the elastic support (140 ', 140') in the bridge device 130 of the movable end 190 arranged in the longitudinal or width direction of the temporary bridge 110, so as to absorb the rotational movement or torsional movement, etc. Done.

As described above, the present invention not only flows in one direction and in both directions through the elastic base 140 in the movable end 190 around the fixed end 180, and also in the vertical vertical direction, and thus, the upper beam 120. Is free to flow without twisting or bending, the bottom of the temporary vent 112 is to stably support the upper beam (120).

Such a modified structure of the point construction method 100 of the temporary bridge is not affected by the temperature expansion and contraction according to the present invention is shown in Figure 9b compared to the conventional temporary bridge (1) moment diagram as shown in Figure 9a As described above, the moment is hardly generated at the point portion of the temporary bridge 110 of the present invention.

Therefore, the point construction method 100 of the temporary bridge is not affected by the expansion and contraction according to the present invention is the first between the lower flange (120a) of the upper beam 120 and the upper flange (115a) of the support beam 115 The pedestal 135, the elastic support 140 and the second pedestal 145 are installed through a plurality of fixing bolts 160, and the horizontal load and the vertical load caused by the temperature change are stretched through the elastic support 140. By installing so that the behavior is free, it is possible to greatly increase the stability against buckling due to the temperature change occurring in the upper portion of the temporary vent 112.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

1 is a longitudinal cross-sectional view of a temporary bridge according to the prior art.

2 is a view showing a structure in which a bridge device is installed in a movable end in a temporary bridge according to the prior art, a) is a longitudinal cross-sectional view, b) is a cross-sectional view.

Figure 3a is an exploded perspective view showing a bridge device installed on the movable end in the temporary bridge according to the prior art.

FIG. 3B is an exploded perspective view illustrating a bridge device having a structure different from that of FIG. 3A installed in a temporary bridge according to the related art. FIG.

Figure 4 is a view having a bridge device provided in the point construction method of the temporary bridge is not affected by the temperature stretching according to the present invention, a) is a longitudinal cross-sectional view, b) is a cross-sectional view.

5 is an exploded perspective view of a scaffolding device provided in the point construction method of the temporary bridge is not affected by the temperature stretching according to the present invention.

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8 is a plan view showing a position where the bridge device used in the point construction method of the temporary bridge is not affected by the temperature expansion and contraction according to the present invention is installed on the temporary bridge.

9 is a moment diagram applied to the fixed end and the movable end in the prior art and the temporary bridge of the present invention, a) is a moment diagram of the prior art, b) is a moment diagram of the present invention.

<Description of Symbols for Major Parts of Drawings>

1 ..... Conventional temporary bridge 10 ..... Temporary vent

20 .... fixed end 30 ..... movable end

35 .... upper beam 35a .... lower flange

37 .... brace 37a .... upper flange

40 ..... Double-hole plate 50 ... Stool device

52 .... upper plate 52a .... long

54 .... Round bar 56 .... Reinforcement plate

58 .... reinforced elastic rubber plate 60 .... support frame

62 .. Bottom plate 62a .... hole

64a ... bolt 64b .... nut

70 .... Pedestal 72 .... Pedestal

75 .... Floating Ball 77 .... Breakaway Frame

80 .... Breakaway Guard

100. Construction method of the point of temporary bridges not affected by temperature expansion

110 ... temporary bridge 112 ... temporary tent

115 .. Bracing 115a .... Upper flange

117 .... perforated plate 120 ....

120a ... lower flange 130 ....

135 .... the first pedestal 135a ', 145a' ... projection

140,140 '.... Composite Elastic Support 140a' .... Groove

145 .... 2nd pedestal 160 .... fixing bolt

162 .... long 164 .... bolt holes

170 .... Nut 180 .... Fixed End

190 ....

Claims (4)

Temporary vents are installed to support the loads of temporary bridges, and the support beams are fixed to the upper part of the temporary vents. To An elastic support, which is a synthetic rubber plate which is installed on the lower surface of the lower flange 120a of the upper beam 120 and is provided with a first pedestal 135 made of stainless steel plate, may be seated and in contact with the lower portion of the first pedestal 135 ( 140 is installed, and a second pedestal 145 is disposed between the upper flanges 115a of the braces 115 at a lower portion of the elastic support 140 and formed of a stainless plate, and the upper beams 120 are installed. Between the lower flange 120a and the upper flange 115a of the bracing 115, the lower flange 120a, the upper flange 115a, the first pedestal 135, the elastic support 140 and the second pedestal. By installing a plurality of fixing bolts 160 which are fixed by penetrating 145 up and down, the horizontal load and the vertical load caused by the temperature change are stretched through the elastic bearing 140 to freely move the point portion. The construction of the branch of the temporary bridge that is not affected by the stretching . According to claim 1, wherein the first pedestal 135 is made of a plurality of 1mm to 3mm thick stainless steel plate, the second pedestal 145 is made of a stainless plate of 1 mm to 3mm thick, the elastic support 140 is a method of construction of the point portion of the temporary bridge is not affected by the temperature stretching, characterized in that consisting of 5mm to 20mm thick synthetic rubber plate. According to claim 1, The lower flange (120a) of the upper beam 120 is formed with a plurality of long holes 162 in the longitudinal direction of the girder, bolt holes 164 in the upper flange (115a) of the brace beam 115 ) Is formed so that the first pedestal 135, the elastic support 140 and the second pedestal 145 is mounted through a plurality of fixing bolts 160, when the expansion and contraction due to the temperature change, Method of construction of the point portion of the temporary bridge not affected by the temperature stretching, characterized in that the relative displacement of the upper beam 120 is made. delete

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