KR102598836B1 - Elevation Control Anchor and Bridge Bearing System using it - Google Patents

Abstract

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Specifically, the bridge structure includes a lower structure that stands upright while being supported by the ground; and an upper structure formed on the upper part of the lower structure to connect spaces spaced apart from each other; and a bridge support provided between the lower structure and the upper structure, wherein the bridge support includes: an upper plate in contact with the upper structure; and a support portion that accommodates the behavior of the bridge structure due to external forces; and a lower plate in contact with the lower structure, wherein the lower plate includes a plurality of support anchor portions embedded in the lower structure.

Description

Bridge bearing with an anchor device that can control elevation {Elevation Control Anchor and Bridge Bearing System using it}

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied.

Patented invention 001 effectively resists the horizontal force acting on the bridge bearing, minimizing the cross-section of the bolt for anchor installation, making it easy to replace the bridge bearing, and the bridge bearing anchor that can effectively resist negative reaction forces is made of supporting concrete or mortar. An anchor socket receiving pipe installed so that it is buried in the upper and lower parts so that the upper surface is set at the same height as the upper surface of the supporting concrete or mortar and the lower part is closed with a protective cap; a rod shape with the same length as the anchor socket receiving pipe An anchor socket is inserted into the anchor socket receiving tube as a member and has fastening holes formed in the centers of the upper and lower surfaces, respectively; A lower plate for bridge support in which an insertion groove is formed on the bottom and installed so that the insertion groove is located at the top of the anchor socket; a bolt that is fastened to the fastening hole on the upper surface of the anchor socket and is installed to penetrate the fastening hole, the insertion groove and the bottom plate Fastening bolts installed so that the head part is supported on the upper surface of the lower plate; And it is fastened to the fastening hole on the bottom of the anchor socket, and is installed to penetrate the fastening hole, the anchor socket receiving pipe, and the negative reaction force prevention disk installed to support the bottom of the anchor socket, and the bolt head is installed to be located below the negative reaction force prevention disk. Includes support bolts.

Patent Document 002 relates to an anchor applied to a bridge device that is mounted between the superstructure (top plate; SLAB) of a bridge and piers and can accommodate the load and movement of the superstructure. More specifically, it relates to an anchor applied to the bridge deck and piers. This invention relates to an anchor for a brace device that is convenient for maintenance, allowing convenient maintenance and repair after installation by forming an assembly structure that allows the anchor to be buried to be taken out. The anchor for the bridge seat device of the present invention, which is convenient for maintenance, is built between an upper plate embedded in the upper plate of a bridge, a lower plate embedded in a pier, and the upper and lower plates to adapt to displacement or stress so that the load applied to the upper plate is adjusted to the pier. In the steering device made of a bearing that operates to prevent strain, a recessed groove is formed around an anchor bolt mounted on at least one of the upper plate and the lower plate, and a recessed groove that can be inserted into the recessed groove It consists of an internal socket in the center of which a tab is formed into which an anchor bolt is screwed, and an external socket in which the internal socket is movable up and down and is embedded in at least one of the upper plate or piers.

Patent Document 003 discloses an anchor device that can resist large horizontal forces and has no fear of being unlocked. The anchor device includes an anchor socket having an intermediate insertion material insertion portion, an intermediate insertion material insertion hole formed in the fixing target member, a pressure plate insertion groove formed in the fixing target member with an edge outward over the intermediate insertion material insertion hole, and the intermediate insertion material insertion hole. It includes an intermediate insertion material coupled across the ball and the intermediate insertion material insertion portion, a pressure plate inserted into the pressure plate insertion groove, and a pressing means for pressing the pressure plate toward the anchor socket, and for coupling to the anchor socket and the pressure plate, respectively. The spirals of the male threads formed in the intermediate insertion material are formed in opposite directions, and a rotation prevention member is provided to prevent rotation of the pressure plate.

Patent Document 004 drills an anchor hole in concrete and installs a negative reaction force key and a negative reaction force pin inside to control the negative reaction force, and connects an anchor bolt to the negative reaction force pin, so that when horizontal force is generated, the entity that resists when horizontal force is generated is controlled through the anchor bolt. It relates to a negative reaction force control anchor assembly capable of supporting and its construction method. A preferred embodiment of the negative reaction force control anchor assembly of the present invention includes a key box in the shape of a rectangular box with an empty interior and a through hole formed in the upper surface; A negative reaction key configured inside the key box, which is formed in the shape of a square plate with a certain thickness and has a coupling hole formed with a screw thread on the inner circumferential surface vertically penetrating therethrough; A nut hole is formed vertically at a certain depth in the center of the upper part, and a screw thread is formed on the outer circumferential surface from the lower part to a certain height, and the lower part where the thread is formed passes through the through hole of the key box and is bolted to the coupling hole of the negative reaction force key. pin and; a fixed plate having a plate shape of a certain size with a pin insertion hole formed in the center, and the upper end of the negative reaction force pin is inserted into the pin insertion hole; A cover plate formed in the shape of a plate of a certain size and having a bolt through hole with a smaller diameter than the pin insertion hole of the fixed plate and located on the upper part of the fixed plate; a pin cover formed to surround the outer peripheral surface of the negative reaction force pin between the upper surface of the key box and the lower surface of the fixing plate; It includes an anchor bolt that penetrates the bolt through hole and pin insertion hole of the cover plate and the fixing plate and is coupled to the nut hole of the negative reaction force pin.

KR 10-1230599 B1 (registration date January 31, 2013) KR 10-1030747 B1 (registration date April 15, 2011) KR 10-1807772 B1 (registration date December 5, 2017) KR 10-1742159 B1 (registration date May 25, 2017)

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Specifically, the bridge structure includes a lower structure that stands upright while being supported by the ground; and a superstructure formed on top of the substructure to connect spaces spaced apart from each other. and, a bridge support provided between the lower structure and the upper structure, wherein the bridge support includes an upper plate in contact with the upper structure; and a support portion that accommodates the behavior of the bridge structure due to external forces; and a lower plate in contact with the lower structure, wherein the lower plate includes a plurality of support anchor portions 200 embedded in the lower structure.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In the invention presented above, the support anchor portion 200 includes a fastening plate located on the lower surface of the through hole of the lower plate and having a thread formed thereon; A sleeve fixed to the lower part of the fastening plate; An anchor socket inserted into the sleeve; and a steel rod that protrudes from the upper surface of the lower plate, is fastened to the fastening plate, penetrates the sleeve, and is fastened to the anchor socket. It includes providing.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In the invention presented above, the steel bar further includes that the steel bar protrudes from the upper part of the lower plate and is fastened with a nut.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In the invention presented above, the fastening plate includes being formed to have a thickness lower than the lower plate.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In the invention presented above, the sleeve is in the form of a steel pipe and includes one or more through holes formed on the outer surface.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In the invention presented above, the through hole of the sleeve includes one or more through holes formed in a plurality of different heights and directions.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In the invention presented above, a negative reaction force resistance plate larger than the diameter of the anchor socket is provided at the bottom of the anchor socket.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In the invention presented above, the anchor socket is in the form of a steel pipe and includes one or more through holes formed on the outer surface.

The present invention relates to a construction method using a bridge bearing equipped with an anchor device capable of lifting and lowering. In the invention presented above, the steel rod of the supporting anchor attached to the lower plate of the bridge bearing is reversely rotated to insert the anchor socket into the sleeve as much as possible. Inserting and setting the height of the support anchor portion to the minimum; And a bridge support lifting step of lifting the bridge support and placing it on the upper surface of the bridge substructure; And, a bridge support position adjustment step of adjusting the position of the bridge support after adjusting the installation position of the bridge support, installing leveling bolts to adjust the height, seating the bridge support on the leveling bolt, and adjusting the position; And, a support anchor portion support step of rotating the steel rod of the support anchor portion attached to the lower plate of the bridge support in a forward direction and pulling it out until the anchor socket inserted inside the sleeve is supported by the lower structure; A reinforcing bar arrangement step of selectively arranging reinforcing bars around the installed support anchor portion; And, a form installation step of installing form around the lower structure and the bridge support; And, pouring and curing steps of injecting and curing concrete; Includes being provided with.

By implementing the anchor device capable of lifting and lowering of the present invention, it is possible to facilitate the seating of the new bridge bearing on the upper surface of the chipping part of the lower structure by reducing the length of the anchor part when installing the bridge bearing, and to secure the anchor socket through the rotation of the steel bar after seating. The length can be adjusted to extend and support so that it interferes with the cushion rebar, and the mortar can be filled into the anchor socket and sleeve by pouring mortar, solving the difficulties of new construction or replacement of bridge bearings and ensuring the function of load transfer during public use. Reliability can be secured by performing.

Figure 1 is a conceptual diagram showing a bridge support installed on a bridge structure.
Figures 2 and 3 are cross-sectional views of a bridge support to which the anchor device capable of lifting and lowering of the present invention is applied.
Figures 4 and 5 are cross-sectional views of the support anchor portion of the bridge support to which the anchor device capable of lifting and lowering of the present invention is applied.
Figure 6 is a perspective view of the anchor socket being installed on the support anchor portion of the present invention.
Figure 7 is a cross-sectional view of a bridge support to which an anchor device capable of lifting and lowering is applied according to another embodiment of the present invention.
Figures 8 and 9 are perspective views of a support anchor installed on a lower plate according to another embodiment of the present invention.
Figure 10 is a cross-sectional view showing a support anchor portion installed on the lower plate shown in Figure 9 according to another embodiment of the present invention.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention. The citation relationships in the following examples are merely numbers provided to aid technical understanding, and other unquoted examples may be cited. Even if the configuration is not specified in the examples below, it can be replaced with an object that has a similar purpose and effect. Even if it is a sub-concept configuration that is not specified in the examples below, it is considered specified.

[Example 1-1] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. The bridge structure (Br) includes a lower structure (20) that stands upright while being supported on the ground; and an upper structure 10 formed on the upper part of the lower structure 20 to connect spaced apart spaces; and a bridge support 100 provided between the lower structure 20 and the upper structure 10. It is formed, and the bridge support 100 includes an upper plate 110 in contact with the upper structure 10; and a support portion 120 that accommodates the behavior of the bridge structure due to external forces; and a lower plate 130 in contact with the lower structure 20, wherein the lower plate 130 includes a plurality of support anchor portions 200 embedded in the lower structure.

[Example 1-2] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 1-1, the support anchor part 200 is installed on the lower surface of the through hole of the lower plate 130. A fastening plate 210 located and having threads formed thereon; A sleeve 220 fixed to the lower part of the fastening plate 210; An anchor socket 230 inserted into the sleeve; and a steel rod 240 that protrudes from the upper surface of the lower plate 130, is fastened to the fastening plate 210, penetrates the sleeve 220, and is fastened to the anchor socket 230. do.

The present invention relates to a bridge support (100) to which an anchor device capable of lifting and lowering is applied. For Examples 1-1 to 1-2, the conventional bridge support is arranged by chipping the bed portion of the upper surface of the coping for installing the bridge support 100 after constructing the substructure 20, and arranging the bridge support support reinforcement bars, commonly called cushion reinforcement. Installation of the bridge support is completed by inserting the anchor of the bridge support 100 between positions and pouring mortar. The bridge support 100 is replaced for the purpose of repair and reinforcement of the structure due to deformation or damage due to external force during public use and the aging of the bridge structure. The reality is that the working environment is very poor due to problems during replacement construction, which require replacement of the support while maintaining it.

In order to replace the bridge support 100, supporting the load of the upper structure 10 of the bridge support is replaced by supporting a lift jack between the upper and lower structures, and then chipping the lower structure 20 to replace the existing bridge. The support (100) is removed. In theory, the replacement work could be completed by installing a new bridge support at the location where the existing bridge support (100) was removed and re-pouring mortar to integrate it with the upper and lower structures. However, the existing anchors and cushion rebar placed there could be completed. The reality is that in order to remove the anchor of the existing bridge support and install the new bridge support 100, as they are installed to interfere with each other, the cushion reinforcement bars that are usually placed must be cut to enable insertion. The support replacement work can be completed by installing a new bridge support with anchors installed between the cut reinforcement bars, reconnecting the partially cut reinforcement bars by welding, and finishing by pouring mortar. However, as a result, this may result in damage to the existing structure. A structure that has been verified through standard design, analysis, and initial construction may cause unexpected reliability problems during the load transfer process by changing part of the structure to replace the support.

The support anchor part used in the bridge support 100 of the present invention was conceived by utilizing the pre-setting method of the sleeve 220 (Sleeve) provided to facilitate the installation of existing structures and bridge supports. The bridge support 100 provided between the upper structure 10 and the lower structure 20 for forming the bridge structure Br is exposed and formed by the upper plate 110, the support portion 120, and the lower plate 130. , a plurality of support anchor parts 200 are formed at the bottom of the lower structure in a form connected to the lower structure 20. The support anchor part 200 of the present invention is located on the lower surface of the through hole of the lower plate 130 and includes a screwed fastening plate 210, a sleeve 220 fixed to the lower part of the fastening plate 210, and the sleeve 220. A steel rod ( 240).

Specifically, the installation anchor of the bridge support 100 is installed by installing the sleeve 220 at the lower part of the bridge support substructure and providing an anchor socket 230 that can elevate the inside of the sleeve 220 around the steel bar 240. By reducing the length of the part, it is easy to seat the new bridge support on the upper surface of the chipping part of the lower structure (20), and after seating, the length of the anchor socket (230) is extended to interfere with the cushion reinforcement through rotation of the steel bar (240). By adjusting it to support it and filling the inside of the anchor socket 230 and sleeve 220 with mortar by pouring mortar, the difficulty of replacement construction of the bridge support 100 is resolved and the function of load transfer during public use is clearly performed. It forms a bridge support equipped with an anchor part that can be adjusted to raise and lower to ensure reliability.

[Example 2-1] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 1-2, the steel bar 240 protrudes from the upper part of the lower plate 130 and is fastened with a nut. Includes more.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied, and the steel bar 240 of Example 2-1 is a lower plate ( The steel bar 240 that penetrates 130) and is exposed to the upper surface of the bed can be fixed through a fastening means such as a nut.

[Example 2-2] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 2-1, the steel bar 240 is connected to the fastening plate 210 and the anchor socket 230. ) and those that are threaded.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Regarding Example 2-1, the steel bar 240 is a screw thread formed on the steel bar 240 and is connected to the fastening plate 210 and the anchor socket ( 230). Through this, the steel bar 240 is connected to the fastening plate 210 connected to the lower plate 130, and the lower part is connected to the anchor socket 230, thereby combining the configuration of the support anchor portion 200 formed on the lower surface of the lower plate 130. And, it can be connected to the lower plate 130 by protruding from the upper surface of the through hole of the lower plate 130 and fastened with a nut.

[Example 2-3] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 2-2, one side of the steel bar 240 is fastened to the anchor socket 230 and interpolated. , an elastic body with a length longer than the sum of the thickness of the lower plate 130 and the height of the other side of the steel rod 240 protruding above the lower plate 130 is in contact with the end of one side of the steel rod 240.

[Example 2-4] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 2-3, the other end of the steel bar 240 is indented with a straight line, a cross, a square, or a hexagon. It includes providing a home;

[Example 2-5] The present invention relates to a bridge bearing to which an anchor device capable of lifting and lowering is applied. In Example 2-2, a release agent is applied to the steel bar 240.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Regarding Examples 2-3 to 2-5, in the present invention, the steel bar 240 is connected to the lower plate 130 of the bridge support 100. It is provided to be anchored to the substructure (20), and when the service life of the bridge support has expired or a situation arises in which the bridge support (100) needs to be replaced due to damage due to external force or strengthening of social design standards, the lower plate is removed from the substructure. (130) Considering the height of the steel bar 240 protruding from the upper surface, the bridge superstructure 10 cannot be raised.

Therefore, the bridge support 100 must be replaced while minimizing the impression of the space where the bridge support is installed. In the present invention, the steel rod is formed with a thread rather than a bolt-shaped coupling structure like the typical bridge support anchor socket 230. Since (240) extends from the top of the lower plate 130 to the inside of the lower structure 20, it is impossible to replace the bridge support using a normal bridge support replacement method. Therefore, in the present invention, the problem when replacing the bridge support 100 as described above can be solved by rotating the steel bar 240 to insert it into the lower structure.

For this purpose, one end of the steel bar 240 located inside the mortar-poured sleeve 220 and anchor socket 230 is attached to the top of the lower structure 20, that is, the thickness of the lower plate 130 and the upper portion of the lower plate 130. The bridge support is formed by attaching an elastic body with a length longer than the sum of the heights of the other sides of the protruding steel bar 240, and when the bridge support 100 is replaced, the steel bar 240 is rotated downward. By pressurizing the elastic body formed at one end to reduce the volume of the elastic body, it is possible to secure a space for the steel rod 240 to be inserted into the lower structure. In order to rotate the steel bar 240 of the present invention, the other end of the steel bar 240 exposed to the upper part of the lower plate 130 is provided with a straight, cross, square, or hexagonal indentation groove in the form of a kind of headless bolt, such as a driver, The steel bar 240 can be inserted into the lower structure 20 using a tool such as a wrench.

For this purpose, when manufacturing a bridge support, a separate release agent (release agent) can be applied to the steel bar 240 or the counterpart in contact with the steel bar 240, and a grease-based lubricant can be used as the release agent. The elastic body attached to and embedded in one end of the steel bar 240 is formed to be larger than the diameter of the steel bar 240, and is made of ordinary foam to facilitate compression by pressure during interpolation by rotation of the steel bar 240. is formed

[Example 3-1] The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. In Example 1-2, the fastening plate 210 has a thickness lower than that of the lower plate 130. It includes those formed by.

[Example 3-2] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 3-1, the fastening plate 210 is formed to be larger than the cross section of the sleeve 220. It includes

[Example 3-3] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 3-1, the fastening plate 210 is formed to have the same area as the lower plate 130. It includes

[Example 3-4] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 3-1, the fastening plate 210 is embedded in the lower plate 130 with a certain thickness to form a lower plate. Including those bound to (130).

[Example 3-5] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 3-1, the fastening plate 210 is fixed to the lower plate 130 by welding, The sleeve 220 fixed to the fastening plate 210 is welded or screwed to the fastening plate 210.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. The fastening plate 210 of Examples 3-1 to 3-5 is formed on the lower surface of the lower plate 130, and the sleeve 220 is connected to the lower plate 130. ) is provided to connect to. The fastening plate 210 provided for this function does not need to be as thick as the lower plate 130, and can be formed to a minimum size to facilitate coupling with the lower plate 130, and may have at least a sleeve ( It needs to be formed larger than the cross section of 220). The fastening plate 210 is formed in consideration of the ease of manufacturing and construction of a plurality of sleeves 220, a plurality of anchor sockets 230, and a steel bar 240 formed together with the fastening plate 210. ) is formed to correspond to the area of the lower plate 130, and a plurality of sleeves 220, anchor sockets 230, and steel rods ( 240) Connection configuration can be installed at once.

In addition, the fastening plate 210 can be implemented in various ways to secure the joining area of the support cross section for stable support of the load (vertical load, horizontal load) transmitted upward through the lower plate 130, and For example, by providing a recessed groove on the lower surface of the lower plate 130, a certain thickness of the fastening plate 210 can be inserted into the recessed groove to ensure reliability of load transfer by horizontal shear force, vertical pressure stress, etc. This coupling method can be changed to welding, thread coupling, etc., and various methods such as welding, screw coupling, and embedding can be used for coupling with the sleeve 220 coupled to the fastening plate 210.

[Example 3-6] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 3-3, the support anchor portion 200 includes a plurality of pieces formed on the lower plate 130. a plurality of through holes formed in the fastening plate 210 to match the through holes; and a sleeve 220 formed on the lower surface centered on each of the through holes; and an anchor socket 230 inserted into the sleeve 220; and a steel bar 240 penetratingly fastening the through hole of the fastening plate 210 and the sleeve 220 and the anchor socket 230. It includes a modular type manufactured to form one body.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Example 3-6 is the details of the support anchor part 200, including the fastening plate 210 and sleeve 220, anchor socket 230, and The steel bar 240 can be manufactured in a single module shape.

[Example 4-1] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 1-2, the sleeve 220 is in the form of a steel pipe and has one or more through holes formed on the outer surface. Includes.

[Example 4-2] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 4-1, the through hole of the sleeve 220 has one or more through holes with different heights and directions. Including those formed in plural numbers.

[Example 4-3] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 4-1, one or more notches are formed on the outer surface of the sleeve 220.

[Example 4-4] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 4-1, the sleeve 220 includes forming a square pipe shape.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Examples 4-1 to 4-4 relate to details of the sleeve 220, and the sleeve 220 is formed in the form of a steel pipe. Considering that the steel materials used as conventional anchors are mainly circular in shape, such as the steel bar 240, the sleeve 220 into which it is inserted is also made of a steel pipe, and one or more through holes are formed on the outer surface of the steel pipe of the sleeve 220. After adjusting the height of the support anchor portion 200, the mortar can be guided to enter the inside of the sleeve 220 when pouring mortar. In order to improve the mortar filling performance inside the sleeve 220 through the fluidity of the mortar, the sleeve 220 may be provided with one or more through holes with different heights and directions. Through this, voids that cannot be filled with mortar can be minimized. In addition, the sleeve 220 can improve bonding with mortar to be poured in the future by forming one or more notches on the outer surface.

The sleeve 220 may be manufactured in the form of a square pipe, rather than a steel pipe, if necessary. When the sleeve 220 is formed in the shape of a square pipe, the anchor socket 230 inserted into the sleeve 220 also has a corresponding It is formed in a square shape, so that when the anchor socket 230 is lifted or lowered through rotation of the steel bar 240, the rotation of the anchor socket 230 is limited and the lift is performed.

[Example 4-5] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 4-1, the sleeve 220 and the anchor socket 230 are tightly coupled and the The inner surface of the sleeve 220 includes Tefron coating.

[Example 4-6] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 4-1, the vertical line of the sleeve 220 is constant with the vertical center line of the steel bar 240. It includes being provided to rotate eccentrically by forming center lines spaced apart from each other.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Examples 4-5 to 4-6 are additional embodiments that implement the sleeve 220, and include an anchor socket interpolated into the sleeve 220. In order to facilitate the lifting and lowering of the sleeve 230, the lifting and lowering by rotation can be easily induced by coating a Teflon film with self-lubrication on one surface where the sleeve 220 and the anchor socket 230 come into contact. In addition, by forming the vertical line of the sleeve 220 and the vertical center line of the steel bar 240 to be spaced apart, the sleeve 220 and the anchor socket 230 dependent on the sleeve 220 are rotated eccentrically from the steel bar 240. It can be provided. Through this, the horizontal position of each anchor of the support anchor unit 200 can be finely adjusted, thereby avoiding interference when the reinforcing bars interfere with site conditions and securing coupling with the lower structure.

[Example 5-1] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 1-2, the lower end of the anchor socket 230 has a diameter larger than the diameter of the anchor socket 230. It includes being provided with a secondary reaction force resistance plate (231).

[Example 5-2] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-1, the anchor socket 230 is in the form of a steel pipe and has one or more through holes formed on the outer surface. It includes

[Example 5-3] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-1, the anchor socket 230 is formed in a cylindrical shape and has the steel bar 240 at the top. ) Including those formed with threaded tabs for fastening.

[Example 5-4] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-2, the through hole of the anchor socket 230 has one or more through holes of different heights and directions. It includes forming a plurality of balls.

[Example 5-5] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-2, a reinforcing bar is inserted into the through hole of the anchor socket 230 to form the lower structure ( It includes those connected to the support reinforcement of 20).

[Example 5-6] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-2, a chain is passed through the through hole of the anchor socket 230, and the chain is It includes attachment to the support reinforcement of the bridge substructure.

[Example 5-7] The present invention relates to a bridge bearing to which an anchor device capable of lifting and lowering is applied. In Example 5-2, the inside of the anchor socket 230 is filled with mortar.

[Example 5-8] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-2, the mortar filled inside the anchor socket 230 is applied to the lower structure 20. It includes filling and curing before installation and integration with the anchor socket 230.

[Example 5-9] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-2, the steel bar fastener of the anchor socket 230 includes a nut.

[Example 5-10] The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. In Example 5-2, the anchor socket 230 is formed in the shape of a square pipe.

The present invention relates to a bridge support to which an anchor device capable of lifting and lowering is applied. Examples 5-1 to 5-10 relate to the anchor socket 230, and the anchor socket 230 is located at the bottom of the anchor socket 230. A negative reaction force resistance plate 231 larger than the diameter may be provided. The negative reaction force resistance plate 231 is a support anchor embedded in the bed to resist negative reaction force (Up-Lift Force) among various load conditions that may occur in the bridge support installed after completion of construction of the bridge support 100. The negative reaction force generated by the formation of the part 200 can be resisted by the friction force of the main surface of the anchor socket 230 and the negative reaction force resistance plate expanded at the end of the anchor socket 230. In addition, the anchor socket 230 is formed in the form of a steel pipe (when formed in a cylindrical shape, there is no through hole, and is provided with a threaded tab for fastening the steel rod 240), and can form one or more through holes. This is to ensure that the mortar poured after determining the position and level of the bridge support 100 fills the inside of the anchor socket 230, and a plurality of through holes are formed to minimize the voids inside the anchor socket 230. It can be formed in various heights and directions. In order to improve the coupling strength with the lower structure, reinforcing bars, chains, etc. are inserted or penetrated into the through hole of the anchor socket 230, thereby improving the coupling strength with the support reinforcing bars of the existing lower structure 20.

Additionally, the mortar filled inside the anchor socket 230 can be pre-filled and cured before installation on the lower structure. This ensures the reliability of mortar filling by completing the mortar pouring when manufacturing the anchor socket 230 or support anchor portion 200 due to concerns about a decrease in bearing capacity (ground pressure, shear) due to the occurrence of voids due to on-site pouring. . In addition, when the anchor socket 230 is made of a steel pipe, the steel bar fastener formed in the anchor socket and fastening the steel bar 240 can be formed by welding a normal nut to the steel pipe, thereby improving economic efficiency. The anchor socket may be formed in a square tube shape corresponding to the above-described square tube sleeve configuration (Example 4-4).

[Example 6-1] The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. In Example 1-1, the support anchor portion 200 penetrates the lower plate 130. An assembly 250 located on the lower surface of the ball and having a screw thread formed at the top; A fixture 260 inserted into the assembly 250; It is inserted into the fixture 260, and includes a steel rod 240 that penetrates the assembly 250 and has one end protruding toward the upper part of the lower plate 130.

[Example 6-2] The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. In Example 6-1, the assembly 250 is formed at the bottom of the lower plate 130. a coupling plate (251); It includes a coupling socket 252 extending from the outer peripheral surface of the coupling plate 251 to the bottom.

[Example 6-3] The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. In Example 6-2, it is formed inside the coupling socket 252, and the fixture Includes a packing (253) that seals the space separated from (260).

[Example 6-4] The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. In Example 6-2, the bridge support 100 is formed between the coupling plate 251 and the lower plate 130. It includes a guide plate 254 that guides the position of the combination body 250.

[Example 6-5] The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. In Example 6-2, it is formed on the outside of the fixture 260 and is spirally coupled. It includes a fixing wedge 261 that fixes the movement of the combination body 250.

[Example 6-6] The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. In Example 6-1, it is formed on the lower surface of the fixture, and the lower structure 20 and a joining groove 262 that increases the joining force.

The present invention relates to a bridge support 100 to which an anchor device capable of lifting and lowering is applied. Examples 6-1 to 6-5 relate to other embodiments of the support anchor part 200, and the support anchor part is made of metal. (200) is used in the bridge support 100 to facilitate installation of the existing structure and the bridge support 100, and is inserted into the lower structure 20 to adjust the height and spacing of the bridge support 100. will be. And the support anchor part 200 is located on the lower surface of the through hole formed in the lower plate 130, and a coupling body 250 with a screw thread is formed at the upper part.

At this time, the coupling body 250 includes a coupling plate 251 formed at the bottom of the lower plate 130 and a coupling socket 252 extending from the outer peripheral surface of the coupling plate 251 to the bottom. And a guide plate 254 is formed between the coupling plate 251 and the lower plate 130, and the guide plate 254 guides the position of the support anchor portion 200 by guiding the position of the coupling body 250. . In addition, the guide plate 254 is formed to have a predetermined length to connect the plurality of support anchor parts 200 to each other, and a seating groove in which the coupling plate 251 of the assembly 250 is seated is formed on the lower surface of the guide plate 254. This is formed. Accordingly, the support anchor portion 200 is smoothly seated on the guide plate 254 and its position is guided. And the coupling socket 252 extending to the bottom of the coupling plate 251 extends to the lower fixture 260 so that the end of the fixture 260 is inserted into the coupling socket 252. And the assembly 250 has a packing 253 formed between the outside of the fixture 260 inserted inside, and the assembly 250 rotates or moves by the packing 253 made of a rubber material such as silicon. At the same time, it prevents the mortar filled inside the assembly 250 from being separated.

And the fixture 260 is formed with an open interior, and the steel bar 240 is fastened as a screw thread is formed at the top. The steel bar 240 can fasten the fixture 260 and the coupling plate 251 with threads formed on the outside. And, as the steel bar 240 rotates inside the fixture 260, the length penetrating the lower plate 130 is determined, and the steel rod 240 rises inside the fixture 260 the same as the length penetrating the lower plate 130. will be. In addition, the steel bar 240 penetrates the lower plate 130 and is then fastened with a nut.

In this way, the fixture 260 through which the steel bar 240 penetrates is formed in the same manner as the anchor socket 230, but the diameter of the fixture 260 is formed in various ways depending on the diameter of the assembly 250. And the fixture 260 may have threads formed on the outside, and the fixing wedge 261 may be spiral coupled. At this time, the fixing wedge 261 is formed in a cone shape that becomes narrower as the diameter rises to the top, so that when the fixture 260 is inserted into the assembly 250 by the fixing wedge 261, the assembly 250 and the fixture ( 260), a fixing wedge 261 is inserted between them to prevent movement of the combination body 250. In addition, a plurality of joining grooves 262 are formed on the lower surface of the fixture 260 to increase bonding strength with the lower structure 20.

[Example 7-1] The present invention relates to a construction method using a bridge bearing equipped with an anchor device capable of lifting and lowering. In Example 1-2, the steel rod of the supporting anchor attached to the lower plate of the bridge bearing is rotated in reverse. Setting the height of the support anchor portion to the minimum by inserting the anchor socket into the sleeve as much as possible; And a bridge support lifting step of lifting the bridge support and placing it on the upper surface of the bridge substructure; And, a bridge support position adjustment step of adjusting the position of the bridge support after leveling the installation position of the bridge support, installing leveling bolts to adjust the height, seating the bridge support on the leveling bolt, and attaching it to the lower plate of the bridge support. A support anchor portion support step of rotating the steel rod of the support anchor portion forward and withdrawing it until the anchor socket inserted inside the sleeve is supported by the lower structure; A reinforcing bar arrangement step of selectively arranging reinforcing bars around the installed support anchor portion; And, a form installation step of installing a form around the lower structure and the bridge support; And, a pouring and curing step of injecting and curing concrete; Includes being provided with.

The present invention is a construction method using a bridge bearing equipped with an anchor device capable of adjusting the elevation. In order to install the bridge bearing, the steel rod of the supporting anchor attached to the lower plate of the bridge bearing of Example 1-2 is reversely rotated (counterclockwise). direction), inserting the anchor socket as much as possible inside the sleeve to form the step of setting the height of the support anchor part to the minimum. This sets the height of the bridge support to be installed to the minimum, improving work efficiency when lifting for bridge support installation and seating it on the upper surface of the substructure (the same applies to bridge support replacement construction).

In addition, the installation location of the bridge supports is evenly positioned and leveling bolts to support the bridge supports are formed where the supports will be located. The position adjustment step of the bridge support is completed by adjusting the height by inserting and leveling the bridge support at the top of the leveling bolt formed in this way. In order to integrate the bridge support with the lower structure, the work of embedding the support anchor member attached to the bridge support into the lower structure is performed. For this purpose, the steel bar of the support anchor attached to the lower plate of the bridge support is rotated clockwise. ), the anchor socket inserted as much as possible inside the sleeve before lifting is pulled out and supported on the lower structure until it is supported on the lower structure. Afterwards, reinforcing bars can be placed around the fixed bridge bearings, and after the reinforcing bar arrangement step, concrete pouring forms are installed to integrate the bridge bearings with the lower structure, and then concrete pouring and curing work are performed. Final finish.

Br: bridge structure
10: superstructure 20: substructure
100: Bridge support
110: upper plate 120: support portion
130: lower plate
200: Support anchor part
210: fastening plate 220: sleeve
230: anchor socket 231: negative reaction force resistance plate
240: steel bar
250: combination body 251: combination plate
252: Combined socket 253: Packing
254: Guide plate
260: fixture 261: fixture wedge
262: Joint groove

Claims (9)

A bridge structure includes a substructure that stands upright by being supported on the ground; and
a superstructure formed on top of the substructure to connect spaced apart spaces;
And, a bridge support provided between the lower structure and the upper structure.
And, the bridge support includes an upper plate in contact with the superstructure; and
A support portion that accommodates the behavior of the bridge structure due to external forces; and
It is formed by a lower plate in contact with the lower structure,
The lower plate includes a plurality of support anchor portions embedded in the lower structure,
The support anchor portion is located on the lower surface of the through hole of the lower plate,
A fastening plate with threads formed; And a sleeve fixed to the lower part of the fastening plate; and
An anchor socket inserted into the sleeve; and
It protrudes from the upper surface of the lower plate, is fastened to the fastening plate, and attaches the sleeve to the
Provided with a steel rod that penetrates and is fastened to the anchor socket,
A bridge support equipped with an anchor device capable of lifting and lowering, including the steel bar protruding from the upper part of the lower plate and fastened with a nut.
delete delete According to paragraph 1,
The fastening plate is lifted and lowered, including being formed with a thickness lower than the lower plate.
Bridge support with adjustable anchor device.
According to paragraph 1,
The sleeve is in the form of a steel pipe and has one or more through holes formed on the outer surface.
A bridge support equipped with an anchor device capable of lifting and lowering.
According to clause 5,
The through hole of the sleeve includes one or more through holes of different heights and directions.
A bridge support equipped with an anchor device capable of lifting and lowering, including forming.
According to paragraph 1,
A negative reaction force resistance plate larger than the diameter of the anchor socket is provided at the bottom of the anchor socket.
A bridge support equipped with an anchor device capable of lifting and lowering, including:
In clause 7,
The anchor socket is in the form of a steel pipe and has one or more through holes formed on the outer surface.
A bridge support equipped with an anchor device capable of lifting and lowering.
In the construction method using a bridge support equipped with an anchor device capable of lifting and lowering of paragraph 1,
Reversely rotate the steel bar of the support anchor attached to the lower plate of the bridge support and move it to the inside of the sleeve.
Setting the height of the support anchor portion to the minimum by inserting the anchor socket as much as possible; and,
A bridge support that lifts the bridge support and places it on the upper surface of the bridge substructure.
Both stages; and,
After leveling the installation location of the bridge support, install leveling bolts to adjust the height.
After installation and seating the bridge support on the leveling bolt, the position of the bridge support is adjusted.
adjustment stage; and,
By rotating the steel bar of the support anchor attached to the lower plate of the bridge support forward, the sleeve
A support anchor that is pulled out until the anchor socket inserted inside is supported by the lower structure.
Secondary support stage; and,
Reinforcing bar arrangement, which selectively places reinforcing bars around the installed support anchor part.
step; and,
A form installation step of installing form around the substructure and bridge support;
And, pouring and curing steps of injecting and curing concrete; Including what is provided with
is a construction method using a bridge bearing equipped with an anchor device that can adjust the elevation.