KR20070057329A - Apparatus for supporting an upper structure of a bridge - Google Patents

Abstract

An apparatus for supporting an upper structure of a bridge is provided to perform a jacking work for an upper structure easily and shortly with low manpower. The apparatus(100) for supporting an upper structure of a bridge comprises a support(110) installed to the side of a pier(12) and composed of a fixed portion(120) placed vertically, reinforced by brackets(132) and provided with plural holes and a support portion(130) placed horizontally to support the load of an upper structure(14), a fixture(140) composed of a wedge member, a bolt(144) and a nut(146) to fix the fixed unit to the side of the pier, plural spiral members(150) inserted to holes(134) of the support unit to be movable vertically and provided with a spiral(152) on the outer circumferential surface to regulate the height, and supporting the load of the upper structure using the support unit, a height regulating nut(162) coupled to the spiral member on the support unit to fix the spiral member at the required height on the support unit and to transfer the load added on the spiral member to the support unit, a connection member(170) installed on the spiral members to disperse the bearing load by the spiral member and to hold up the spiral members not to buckle and provided with holes(172) to insert the spiral members respectively and support nuts(174) to regulate the height of the connection member, and a lift height restricting nut(176) installed to each spiral member under the support unit to restrict the lift height of the spiral, thereby to regulate the lift height of the upper structure appropriately when lifting up the upper structure with a jack.

Description

Apparatus for supporting an upper structure of a bridge}

1 is a side view of a bridge for explaining a conventional superstructure lifting method,

2 is a partial cross-sectional view of a bridge in which the upper structure supporting apparatus for the bridge according to the present invention is installed,

3 is a partial side cross-sectional view of a bridge in which the superstructure support device of the bridge according to the present invention is installed;

4 is a view showing a modified example of the support device shown in Figs.

5 is a plan view of the anti-buckling plate of FIG.

Explanation of symbols on the main parts of the drawings

12: pier 14: superstructure

20: Jack 22: Rod

100: upper structure support device 110: pedestal

120: fixed portion 130: support portion

140: fixing means 150: spiral member

162: height adjustment nut 170: connection member

174: connection member support nut 176: lift height limit nut

180: auxiliary support 190: buckling prevention plate

The present invention relates to a superstructure support device for bridges, and more particularly, to a superstructure support device for bridges that can be usefully used when it is necessary to raise a superstructure such as a top plate installed on a pier to the jack beyond the operating limit of the jack. It is about.

In general, the bridge is composed of upper structures such as girders and top plates installed over the upper portion of the bridge through the bridge and the bridge device. Such bridges must be repaired or replaced as time passes after installation, if the top plate or bridge system is damaged due to various types of natural or artificial factors.

In general, bridge repair is performed by lifting only the upper structure of the site requiring repair using a hydraulic jack without dismantling or dismantling the girder and the bridge deck.

The height at which the superstructure can be raised at one time with a hydraulic jack is limited. Generally, the working height of the hydraulic jack is about 50 mm is used a lot. Of course, in some cases the working height is well over 50 mm, but the size and weight are not suitable for raising the superstructure.

If you want to raise the upper structure to a large height such as 1000mm or 1500mm by using the hydraulic jack as described above, after raising the upper structure about 50mm with the jack and overlapped several sheets of steel plate to other points without the jack After supporting the upper structure, lowering the rod of the jack in that state, and then the iron plate on the bottom of the jack to raise the support height of the jack to raise the upper structure again dozens of times should be repeated. In this regard, a conventional upper structure pulling method will be briefly described with reference to FIG. 1.

1 is a side view of a bridge for explaining a conventional superstructure lifting method.

As shown, the bridge 10 is installed between the superstructure 14 and the bridge 12 and the upper structure 14 installed on the bridge 12 and the bridge 12 to support the upper structure 14 The note consists of a teaching device 16. The upper structure 14 is composed of a girder 14a and a top plate 14b. In order to raise the upper structure 14 in the bridge as described above, the jack 20 is installed in the bridge 12 to lift the upper structure 14, and then remove the bridge device 16 and on the bridge 12 Stacking the iron plate 30 to support the upper structure 14, the rod 22 of the jack 20 is lowered in the state, the iron plate 24 is laid on the lower portion of the jack 20 jack 20 After increasing the height of the jack again to repeat the process of lifting the upper structure (14). After the upper structure 14 is lifted to some extent, the edges of the steel plates 30 are supported by H-beams, etc. so that the steel plates 30 supporting the upper structures 14 do not collapse, and the neighboring H-beams are again X. There are inconveniences such as having to work with each other in the form of a child.

Accordingly, raising the superstructure in the conventional manner is very cumbersome, time consuming, requires a lot of materials, is difficult to work and requires a lot of manpower.

It is an object of the present invention to provide a superstructure support apparatus that allows the superstructure lifting operation using a jack to be easily performed in a short time with little manpower.

An upper structure supporting apparatus for a bridge according to the present invention is installed on a pier to support the upper structure to raise the upper structure using a jack, the fixing portion for fixing to the side of the pier and the fixed portion is connected A support portion for receiving the load of the upper structure, the support portion having a support formed in the upper and lower holes at intervals, fixing means for fixing the fixing portion to the side of the piers, the holes It is inserted into each of the vertical movement and the spiral is formed on the outer circumferential surface and coupled to the plurality of spiral members for transmitting the load of the upper structure to the support portion and the spiral members of the upper portion of the support portion, respectively. It has a configuration including height adjustment nuts for adjusting the height of the spiral member.

It is preferable that a connection member is installed at the upper ends of the spiral members to connect the spiral members to each other and to contact the bottom surface of the upper structure to distribute the support load of the spiral members to the upper structure.

The spiral member of the lower portion of the support portion may be further provided with a height lift limit nut for restricting by adjusting the height that the spiral member can be raised.

The spiral members above the height adjusting nut are provided with holes through which the spiral members can be inserted, respectively, to hold the spiral members together, and to prevent the spiral members from buckling, a buckling prevention plate is coupled to the spiral members. It is more preferable that the buckling plate fixing nuts are installed on the upper and lower surfaces of the plate to secure the buckling plate to the spiral members.

The buckling prevention plate is preferably formed with a hole for allowing the jack installed in the support portion to pass toward the upper structure.

The connecting member has holes formed therein for inserting the upper ends of the spiral members, and the connecting member support nuts for adjusting and supporting the height of the connecting member are coupled to the spiral members on the upper and lower surfaces of the connecting member. It may have a configuration.

The support portion has a flat plate formed with holes for the passage of the spiral members and a nut support bar extending upward from the position where the holes are installed to surround the outer peripheral surface of the spiral members and support the bottom surface of the height adjusting nut. It is preferable that a secondary support is further provided.

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

Figure 2 is a partial front cross-sectional view of the bridge is installed the upper structure support device of the bridge according to the present invention, Figure 3 is a partial side cross-sectional view of the bridge is installed the superstructure support device of the bridge according to the invention.

2 and 3, the superstructure support apparatus 100 for a bridge according to the present invention includes a pedestal 110. The pedestal 110 is installed on the side of the pier 12, and has a fixing portion 120 fixed to the side of the pier 12 and a support 130 for receiving the load of the upper structure 14. do. In this embodiment, the fixing part 120 is preferably arranged vertically and the upper surface of the support 130 is preferably arranged horizontally. The upper lower part of the support 130 is reinforced with brackets 132.

The fixing part 120 has a plurality of holes 122 formed in the horizontal direction at intervals. These holes 122 are intended to be able to fix the fixing portion 120 to the side of the pier 12 by using the fixing means 140. The holes 122 formed in the fixing part 120 are not necessarily required according to the fixing method. For example, forming protrusions on the fixing part 120 and fixing the protrusions to the piers with wires or the like, or fixing the fixing parts 120 hanging down both sides over the top of the piers 12 and tying them with wires and the like. In this case, the hole 122 of the fixing part 120 is not necessary. The receiving portion 130 is provided with a plurality of holes 134 formed in the vertical direction at intervals.

The pedestal 110 as described above may be fixed to the side of the piers 12 in various ways. As shown in Figures 2 and 3 using the wedge member 142, the bolt 144 and the nut 146 as the fixing means 140, the fixing portion 120 of the pedestal 110 to the side of the piers 12 It may be made to adhere and fixed, or another known method may be used. For example, a plurality of holes are drilled in the pier 12, and the long bolts are inserted into the holes in a state where the fixing portions 120 are brought into close contact with both sides of the pier 12, and the fixing portions 120 on both sides using nuts. ) Can be fixed by pressing the bridge 12. Since the support 130 may be fixed to the side of the pier 12 to support it, the fixing part 120 and the fixing means 140 are variously changed parts.

Regarding the installation of the pedestal 110 on the side of the bridge 12, Patent Publication No. 10-2002-0095523 published by the inventor of the present invention and published after patent application, "Upper Bridge Lift Method and Apparatus", Patent Publication No. 10-2003-0079073 method of raising the upper structure of the bridge and its device ", Utility Model Registration No. 0325881," Wedge device "and the like can be found in detail.

The upper structure supporting apparatus 100 according to the present invention includes a plurality of spiral members 150. These spiral members 150 are intended to support the load of the upper structure 14 through the support 130, the weight of the upper structure 14 and the number of spiral members 150 supporting the weight, helix In consideration of the compressive strength of the member 150, a material having an appropriate diameter may be selected and used. This can be easily calculated at the skill level. The spiral 152 is formed on the outer circumferential surface of the spiral member 150. The spiral member 150 is inserted into the hole 134 formed in the support 130 in a non-fixed state, and should be installed to be movable up and down to adjust the height.

As shown, the height adjustment nut 162 is coupled to the spiral member 150 above the base 130. The height adjustment nut 162 serves to fix the spiral member 150 to the required height on the base 130. The height adjustment nut 162 serves to transmit the load applied to the spiral member 150 to the support 130. The height adjusting nut 162 increases the height thereof, and as the area of the lower portion thereof increases, the height adjusting nut 162 can withstand a larger load.

As shown, the upper end of the spiral member 150 is provided with a connecting member 170 for connecting the spiral member 150 to each other. The connecting member 170 is installed on the top of the spiral members 150 to be in contact with the bottom surface of the upper structure 14 serves to distribute the supporting load by the spiral member 150, and each spiral member By holding the 150 to each other also serves to prevent each of the spiral member 150 buckling. The connection member 170 has holes 172 through which the spiral members 150 may be inserted, respectively. The upper end of the spiral member 150 is inserted into the holes 172, and the connecting member support nut 174 supports the connecting member 170 at the upper and lower sides of the connecting member 170. The connecting member support nut 174 allows adjusting the height of the connecting member 170.

The spiral member 150 at the lower side of the supporting part 130 is provided with a lift height limit nut 176 for limiting the lift height of the spiral member 150. This is to raise the upper structure 12 with the jack 20 should be leveled with the lifting portion of the jack installed on the other side, in order to prevent the rise above a certain height in one operation due to unbalanced load. . That is, the lift height limit nut 176 allows to properly adjust the height that each jack can be raised in one operation. If one side is lifted too much and the upper structure 12, which is a heavy object, is inclined, a big accident may occur.

The flat plate 184 and the holes 182 formed on the upper surface of the support 130 and the holes 182 for the passage of the spiral member 150 is extended to the upper portion to surround the outer peripheral surface of the spiral members 150 The auxiliary support 180 is further provided with a nut support bar 186 for supporting the bottom of the height adjustment nut 162.

The pulling process of the upper structure 12 using the upper structure supporting device 100 as described above is as follows.

After the upper structure supporting apparatus 100 according to the present invention is installed on the side of the pier 12 as shown in Figs. 2 and 3, the jack 20 is mounted on the support 130. In some cases, if there is a space for installing the jack 20 in the pier 12, the jack 20 may be provided on the pier 12. Then, the jack 20 is operated to first raise the upper structure 12. The height to be raised at a time before the jack 20 is raised is adjusted by the lifting height limit nut 176. For example, an interval of about 50 mm may be set on the bottom surface of the support 130. As the connecting member 170 is raised using the jack 20, the spiral member 150 connected to the connecting member 170 is raised together with the connecting member 150. After the upper structure 12 is sufficiently raised, the height adjusting nut 162 is rotated and lowered to the nut support bar 186 of the auxiliary support 180. If the auxiliary support 180 is not used, the height adjustment nut 162 is lowered to the upper surface of the support 130. In addition, the lifting height limit nut 176 is rotated to lower the height for the lifting limit.

Then, the rod 22 of the jack 20 is lowered, an iron plate is placed on the bottom of the jack 20 to raise the height of the jack 20, and then the rod 22 of the jack 20 is raised to raise the upper structure 12. ) Again. By repeating this process several times, the superstructure 12 can be raised to the required height.

That is, in the case of using the upper structure support device 100 according to the present invention can be performed very easily the lifting operation of the upper structure (12).

Stacking iron plates as in the prior art to support the upper structure, when the height of the iron plate is not necessary because the process of reinforcing it, such as the time to raise the upper structure is significantly shortened.

4 is a view showing a modified example of the support device shown in Figures 2 and 3, Figure 5 is a plan view of the anti-buckling plate of FIG.

As shown, the upper structure supporting apparatus 100 according to the present invention may further include a buckling preventing plate 190. The buckling plate 190 has holes 192 into which the spiral members 150 can be inserted, respectively. The anti-buckling plate 190 is coupled to the spiral members 150 on the height adjustment nut 162 to hold the spiral members 150 to each other so that the spiral members 150 do not cause buckling. The buckling prevention plate 190 is provided with a hole 194 for allowing the jack 20 installed in the support 130 to pass toward the upper structure 12. The planar shape of the buckling preventing plate 190 can be seen in FIG. The buckling plate fixing nuts 196 are coupled to the spiral members 150 on the upper and lower surfaces of the buckling plate 190 to fix the buckling plate 190.

The rest is as described with reference to FIGS. 2 and 3.

As can be seen from the above description, the upper structure supporting apparatus according to the present invention makes it possible to easily perform the upper structure raising work using the jack, and can significantly shorten the time required for the upper structure raising work of the bridge. To make sure.

In addition, many of the materials conventionally used for raising superstructures are not needed.

Claims (7)

In the upper structure support device for installing the pier to raise the upper structure using a jack, A pedestal having a fixing portion for fixing to the side of the pier and a supporting portion connected to the fixing portion and receiving a load of the upper structure, wherein the supporting portion is provided with spaced up and down holes; Fixing means for fixing the fixing part to the side of the piers; A plurality of spiral members each inserted into the holes so as to be movable up and down and having spirals formed on an outer circumferential surface thereof to transfer the load of the upper structure to the support unit; And And a height adjusting nut coupled to the spiral members on the upper side of the support part to adjust heights of the spiral members. The upper structure of claim 1, wherein the upper members of the spiral members are connected to each other and the upper members are connected to the lower surfaces of the upper structures, and the connecting members are disposed to distribute the supporting loads of the spiral members to the upper structures. Support device. The upper structure supporting apparatus according to claim 1 or 2, wherein the spiral member below the support part is further provided with a lift height limit nut for adjusting and restricting a height at which the spiral member can be lifted. The spiral member of claim 1 or 2, wherein the spiral members above the height adjusting nut are provided with holes through which the spiral members can be inserted, respectively, to hold the spiral members together to prevent the spiral members from causing buckling. The upper structure supporting device is coupled to the anti-buckling plate, the upper surface and the lower surface of the anti-buckling plate is coupled to the spiral member, the upper structure supporting device is provided with buckling plate fixing nuts for fixing the buckling plate. 5. The upper structure supporting apparatus according to claim 4, wherein the anti-buckling plate is formed with a hole for allowing a jack installed in the supporting portion to pass toward the upper structure. According to claim 2, The connecting member is formed with holes for inserting the upper end of the spiral member, respectively, The spiral member on the upper and lower surfaces of the connecting member for adjusting and supporting the height of the connecting member An upper structure supporting device to which connecting member support nuts are coupled. According to claim 1 or claim 2, wherein the support portion is formed on the plate for forming the holes for the passage of the spiral member and the upper portion extending from the position where the holes are installed to surround the outer peripheral surface of the spiral member and adjust the height An upper structure supporting device further provided with an auxiliary support having a nut support bar supporting the bottom of the nut.

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