KR102134745B1 - Bridge support and installing method thereof - Google Patents

Abstract

The present invention relates to a bridge support and an installing method thereof and, more specifically, to a bridge support and an installing method thereof, wherein the bridge support is provided such that an installation position of an anchor socket can be changed by applying a rotary anchor module to the bridge support provided between an upper structure and a lower structure to support the bridge. Accordingly, the anchor socket can be installed by avoiding interference with a reinforcing bar reinforced in the lower structure so that the bridge support can be conveniently constructed. Also, the bridge support can be constructed without cutting of the reinforcing bar, thereby maintaining the entire durability of the bridge.

Description

BRIDGE SUPPORT AND INSTALLING METHOD THEREOF}

The present invention relates to a bridge bearing and a method for installing the bridge, and more specifically, it is provided between the upper structure and the lower structure to apply a rotary anchor module to the bridge support to support the bridge so that the installation position of the anchor socket can be changed. By doing so, it is possible to install the anchor socket by avoiding interference with the reinforced bar in the lower structure, which is not only convenient for construction, but also can be constructed without cutting the reinforcing bar, thereby supporting the bridge support and its installation method to maintain the durability of the entire bridge. will be.

Generally, the bridge bearing is installed between the bridge's pier and the bridge's top plate, absorbs the vertical load of the bridge's top plate and the horizontal force caused by the movement and rotation of the bridge's top plate, and performs seismic functions such as impact force or vibration transmitted through the bridge, The safety of the bridge is promoted by performing the expansion and contraction according to the impact of contraction, expansion, wind vibration, and shaking according to seasonal temperature changes.

In addition, the bridge bearing is composed of an upper plate and a lower plate. The upper plate is installed on the upper plate of the bridge, the lower plate is installed on the bridge, and the bridge bearing is provided with various shock absorbing members and shock absorbing structures between the upper plate and the lower plate of the bridge. Absorbs the shock delivered to it.

The upper plate and the lower plate of the bridge have a plurality of anchor sockets fixed to the bridge top plate and piers, and the anchor sockets are coupled to the concrete, thereby fixing the upper and lower plates of the bridge bearing to the bridge tops and bridges.

In the installation process of the bridge support, the location of the lower plate is measured, and then the concrete in the bridge part is removed so that the reinforcing bars installed in the bridge can be seen. Thereafter, after confirming the installation position of the lower plate in the measured position, the reinforcing bar and the lower plate of the pier are fixed. At this time, the anchor socket and the reinforcing bar of the lower plate may interfere with each other, making installation difficult. In order to solve this problem, a method of removing reinforcing bars in an area causing interference or forcibly moving reinforcing bars was used.

However, this method caused problems such as deterioration of the fixing force of the bridge bearing and bridge deformation due to the removal of the rebar.

Korea Public Utility Model Publication 20-2011-0010014 (2011. 10. 24)

Accordingly, the technical problem of the present invention is conceived in this regard, and the present invention can not only install the bridge support without being affected by the installed reinforcing bar by movably providing the position of the anchor socket constituting the anchor module of the bridge support. , It is possible to separate the components constituting the anchor module so that the maintenance of the anchor module is easy.

In addition, the durability of the anchor module of the bridge bearing can be improved by configuring the shear force applied to the anchor bolt to receive other components together.

According to an embodiment of the present invention, a bridge support provided between an upper structure and a lower structure to support a bridge, the upper plate being fixed to the upper structure; A base plate fixed to the lower structure; A support structure positioned between the upper plate and the base plate; And an anchor module for fixing the base plate to the lower structure, the anchor module comprising: a guide plate rotatably provided on an upper portion of the base plate; A cylinder inserted into the base plate and connected to the guide plate to rotate according to the rotation of the guide plate; A sleeve which is inserted into the cylinder so as to be eccentric with the center of the cylinder, and rotates as the cylinder rotates; An anchor socket connected to the sleeve and coupled to the lower structure; It is installed to penetrate the sleeve to provide a bridge bearing, including an anchor bolt connecting the guide plate and the anchor socket.

The guide plate is coupled to the base plate by a fixing bolt, and a moving slit for rotating the guide plate along the fixing bolt may be formed on the guide plate.

In the guide plate, an insertion hole is formed by being spaced from the center of the guide plate, and the anchor bolt can penetrate the insertion hole and be connected to the anchor socket.

In the anchor socket, an insertion portion into which an end of the sleeve passing through the cylinder is inserted is formed, and a fastening portion through which the anchor bolt passing through the sleeve is fastened may be formed in the lower portion of the anchor socket.

The base plate may correspond to the moving slit formed in the guide plate, and a fixing groove into which the fixing bolt is inserted and fixed may be formed.

The guide plate is formed in a circular shape, and the moving slits may be formed in a pair to face each other along the outer circumference of the guide plate.

According to another embodiment of the present invention, a bridge support installation method comprising an anchor module for supporting a bridge, Positioning the anchor module on the upper portion of the lower structure; Rotating the guide plate to place the anchor socket in an installation position of the substructure; Coupling the guide plate to the base plate using a fixing bolt; And coupling the anchor bolt to the anchor socket to fix the anchor socket.

According to an embodiment of the present invention, by changing the position of the anchor socket constituting the anchor module of the bridge bearing, it is possible to install the bridge bearing without being influenced by the installed reinforcing bars, and individual separation of components constituting the anchor module is possible. Therefore, there is an advantage of easy maintenance of the anchor module of the bridge bearing.

In addition, there is an advantage that the durability of the anchor module of the bridge bearing can be improved by configuring the shear force applied to the anchor bolt to receive other parts together.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

The detailed description of the preferred embodiments of the present application described below, as well as the summary described above, will be better understood when read in connection with the accompanying drawings. For the purpose of illustrating the invention, the drawings show preferred embodiments. However, it should be understood that this application is not limited to the precise arrangements and instrumentalities shown.
1 is a reference diagram for explaining a bridge bearing according to an embodiment of the present invention.
2 is a reference diagram for explaining an anchor module of a bridge bearing according to an embodiment of the present invention.
3 is a cross-sectional view of the anchor module of the bridge bearing according to an embodiment of the present invention.
Figure 4 is an exploded perspective view of the anchor module of the bridge bearing according to an embodiment of the present invention, Figure 5 is a combined view.
6 is a reference diagram for explaining a method of installing an anchor module of a bridge bearing according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only described to more easily disclose the contents of the present invention, and the scope of the present invention is not limited to the scope of the accompanying drawings, and it is easily understood by those skilled in the art. You will know.

In addition, in describing embodiments of the present invention, it is revealed in advance that components having the same function use the same name and the same reference numerals and are not substantially identical to components of the prior art.

In addition, the terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, terms such as “include” or “have” are intended to indicate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, and that one or more other features are present. It should be understood that the existence or addition possibilities of fields or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance.

Hereinafter, a bridge support according to the present invention and an installation method thereof will be described in detail with reference to the accompanying drawings, and in describing with reference to the accompanying drawings, identical or corresponding components are assigned the same reference numbers, and Duplicate description will be omitted.

1 is a reference diagram for explaining a bridge bearing 1 including an anchor module 10 in one embodiment of the present invention.

Referring to FIG. 1, the bridge support 1 includes an upper plate 7 provided at a lower portion of a bridge top plate (hereinafter, an upper structure) and a base plate 110 provided at an upper portion of an alternate or pier (hereinafter, lower structure). ), a support structure (9) provided between the upper plate (7) and the base plate (110) to cushion the shock, and an anchor module (10) for fixing the base plate (110) to the lower structure (3) do.

The upper plate 7 is coupled to the lower portion of the upper structure 5 by welding, bolts, etc., and the base plate 110 is provided below the upper plate 7 and the lower structure through the anchor module 10 to be described later ( 3).

2 is a reference diagram for explaining an anchor module 10 constituting a bridge support 1 according to an embodiment of the present invention, and FIG. 3 is a bridge support 1 according to an embodiment of the present invention 4 is an exploded perspective view of the anchor module 10 constituting the bridge bearing 1 according to an embodiment of the present invention, and FIG. 5 is a combined view thereof.

Hereinafter, an anchor module 10 constituting a bridge bearing according to an embodiment of the present invention will be described with reference to FIGS. 2 to 5.

The anchor module 10 of the bridge bearing 1 according to the present embodiment may include a guide plate 120, a cylinder 150, a sleeve 170, an anchor socket 130 and an anchor bolt 190.

The base plate 110 together with the upper plate 7 and the supporting structure 9 constitutes the bridge support 1, and the base plate 110 is formed of a metal material on the plate, and is formed on the upper portion of the lower structure 3. Is installed.

The guide plate 120 may be rotatably provided on an upper portion of the base plate 110. The guide plate 120 may be formed of a metal material on a plate, and provided on an upper portion of the base plate 110 to change the installation position of the anchor socket 130 to be described later as it rotates.

The guide plate 120 may be coupled to the upper surface of the base plate 110 by a fixing bolt 125. Specifically, a fixing groove 113 corresponding to the moving slit 121 formed in the guide plate 120 to be described later may be formed on the upper portion of the base plate 110. After the rotation of the guide plate 120, the moving slit ( 121) and the fixing bolt 125 is inserted into the fixing groove 113 so that the guide plate 120 is fixed to the base plate 110.

The moving slits 121 may be formed in plural on a portion of the guide plate 120 and may be formed to have a predetermined length to be moved along the fixing bolt 125.

At this time, the guide plate 120 may be formed in a circular shape, the movable slit 121 may be formed in a predetermined length along the outer periphery of the guide plate 120, and may be formed in pairs to face each other.

Looking at the rotation and fixing method from the base plate 110 of the guide plate 120, the fixing bolt 125 in the state in which the fixing bolt 125 is inserted into the moving slit 121 of the guide plate 120 After positioning the guide plate 120 to the base plate 110 by positioning it in the fixing groove 113 of (110), the moving slit 121 of the guide plate 120 is rotated around the fixing bolt 125 It is to rotate the guide plate 120 according to the seam. After rotating the guide plate 120 to a desired position, by fixing the fixing bolt 125 to the fixing groove 113 of the base plate 110, the guide plate 120 is fixed to the base plate 110.

Cylinder 150 is inserted into the base plate 110, is connected to the guide plate 120 is installed to rotate according to the rotation of the guide plate 120. The cylinder 150 may be formed in a cylindrical shape, and may be eccentric with the center of the cylinder 150 to form a through hole 151 in the longitudinal direction. The cylinder 150 may have the same height as the thickness of the base plate 110 and is inserted into the base plate 110 and connected to the guide plate 120 to rotate in conjunction with rotation of the guide plate 120 . Connection of the guide plate 120 and the cylinder 150 may be made through the sleeve 170 and the anchor bolt 190, which will be described later.

The sleeve 170 is inserted into the through hole 151 so as to be eccentric with the center of the cylinder 150 in the cylinder 150, and rotates as the cylinder 150 rotates. The sleeve 170 may be formed in the form of a cylindrical long pipe (PIPE), and the length of the sleeve 170 may be formed to be longer than the length of the through hole 151 of the cylinder 150.

The sleeve 170 is inserted into the through-hole 151 of the cylinder 150, and the sleeve 170 rotates according to the rotation of the cylinder 150 interlocked with the rotation of the guide plate 120.

The anchor socket 130 is connected to the sleeve 170 and is coupled to the lower structure 3. The anchor socket 130 is formed in a cylindrical shape, located at the bottom of the base plate 110, and connected to the lower end of the sleeve 170. Sleeve 170 may be formed longer than the length of the through-hole 151 of the cylinder 150, the lower end of the sleeve 170 through the through-hole 151 is inserted into the anchor socket 130, the anchor socket ( 130) and the sleeve 170 is connected. The lower part of the anchor socket 130 is installed in the lower structure 3 to fix the anchor module 10 to the lower structure mall. The anchor socket 130 may be provided in plural on the base plate 110.

The anchor bolt 190 is installed to penetrate the sleeve 170 to connect the guide plate 120 and the anchor socket 130. The guide plate 120 may be formed with an insertion hole 123 that is eccentric with the center of the guide plate 120, and the anchor bolt 190 penetrates the insertion hole 123 and is coupled with the anchor socket 130. . Specifically, the holes (HOLE, not shown) of the sleeve 170 provided in the insertion hole 123 of the guide plate 120 and the through hole 151 of the cylinder 150 are arranged to communicate with each other, and the anchor bolt ( 190) is inserted to penetrate the hole (151) and the hole (HOLE) of the sleeve 170, by being fastened with the anchor socket 130, the guide plate 120 and the anchor socket 130 are connected to each other. At this time, the upper portion of the anchor socket 130 may be formed with an insertion portion 131 into which the lower end of the sleeve 170 penetrating the cylinder 150 is inserted, and the sleeve 170 is provided below the anchor socket 130. A fastening portion 133 for fastening the pierced anchor bolt 190 may be formed. A screw groove (not shown) corresponding to the thread of the anchor bolt 190 is formed in the fastening part 133 of the anchor socket 130, and the anchor bolt 190 and the anchor socket 130 are coupled to each other by screwing. Can be.

In this way, by connecting the guide plate 120 and the anchor socket 130, the anchor socket 130 is rotated and moved according to the rotation of the guide plate 120, so that the installation of the lower structure 3 of the anchor module 10 is performed. The installation position of the anchor socket 130 can be moved. Thus, since the installation position of the anchor socket 130 can be adjusted, the anchor module 10 can be installed on the lower structure 3 without interfering with the reinforcing bars installed in the lower structure 3.

The anchor module 10 of the bridge bearing 1 according to an embodiment of the present invention includes a guide plate 120, a cylinder 150, a sleeve 170, an anchor socket 130 constituting the anchor module 10, The anchor bolts 190 are provided so that they can be separated from each other, and thus, when a part is damaged, only the corresponding part can be replaced, so that the maintenance of the anchor module 10 is easy.

In addition, since the anchor module 10 receives the shear force applied to the anchor bolt 190 and also the cylinder 150 and the sleeve 170 in addition to the anchor bolt 190, the durability of the anchor module 10 can be improved. It has an effect.

On the other hand, according to another embodiment of the present invention provides a bridge support (1) installation method.

As a method for installing a bridge support (1) provided between the lower structure (3) and the upper structure (5) to support the bridge, the anchor module (10) of the bridge support (1) according to the previous embodiment is the lower structure (3) It is located at the top of. Specifically, after the position where the bridge support 1 is to be installed is measured on the lower structure 3, the concrete of the lower structure 3 is removed so that the reinforcing bar is visible. Subsequently, by checking the installation position of the base plate 110 in the measured position, the plurality of anchor sockets 130 of the anchor module 10 temporarily assembled to the base plate 110 are inserted between the reinforcing bars of the lower structure 3. do. At this time, since the arrangement of the reinforcing bars of the lower structure 3 is made arbitrarily, it may occur that the anchor socket 130 cannot be stably inserted into the space between the reinforcing bars. In this case, the guide plate 120 of the anchor module 10 temporarily assembled to the base plate 110 is rotated on the base plate 110, and as the guide plate 120 is rotated along the moving slit 121, the guide plate ( The anchor socket 130 connected to the 120) rotates. That is, the anchor socket 130 is provided eccentrically in the center of the guide plate 120, so that the position of the anchor socket 130 moves as the guide plate 120 rotates (see FIG. 6). After rotating the guide plate 120 to move the anchor socket 130 to a position without interference of reinforcing bars, insert the anchor socket 130 into the lower structure 3, and fasten the fixing bolt 125 to fasten the guide plate The 120 is fixed to the base plate 110, and the anchor bolt 190 is fastened to the anchor socket 130 to fix the installation position of the anchor socket 130. After that, the anchor module 10 is fixed to the lower structure 3 by installing a formwork (not shown) and pouring mortar in an empty space between the lower structure 3 and the formwork (not shown) and then undergoing a curing process. .

As described above, according to the method of installing the bridge bearing (0) according to the present embodiment, the installation position of the anchor socket 130 can be moved by rotating the guide plate 120, and accordingly, the lower portion when installing the bridge bearing 1 It is possible to install the anchor socket 130 without interference with the reinforcing bar of the structure (3). In addition, the components constituting the anchor module 10 of the bridge bearing 1 are provided so that they can be separated, and when a part is damaged, only the corresponding part can be replaced, so that the maintenance of the anchor module 10 is easy. have. In addition, since the shear force applied to the anchor module 10 is received together with the cylinder 150 and the sleeve 170 in addition to the anchor bolt 190, the durability of the anchor module 10 and the bridge bearing 1 can be improved. It works.

As described above, the preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the embodiments described above has ordinary knowledge in the art. It is obvious to them. Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

1: Bridge stand 3: Undercarriage
5: superstructure 7: top plate
9: Shock absorbing structure 10: Anchor module
110: base plate 113: fixing groove
120: guide plate 121: moving slit
123: insertion hole 125: fixing bolt
130: anchor socket 131: insert
133: fastener 150: cylinder
151: through hole 170: sleeve
190: anchor bolt

Claims (7)

A bridge support provided between the upper structure and the lower structure to support the bridge,
An upper plate fixed to the upper structure;
A base plate fixed to the lower structure;
A support structure positioned between the upper plate and the base plate; And
An anchor module for fixing the base plate to the lower structure,
The anchor module,
A guide plate rotatably provided on an upper portion of the base plate;
A cylinder inserted into the base plate and connected to the guide plate to rotate according to the rotation of the guide plate;
A sleeve which is inserted into the cylinder so as to be eccentric with the center of the cylinder, and rotates as the cylinder rotates;
An anchor socket connected to the sleeve and coupled to the lower structure;
An anchor bolt installed to penetrate the sleeve and connecting the guide plate and the anchor socket,
The guide plate is coupled to the base plate by a fixing bolt,
A moving slit for rotating the guide plate along the fixing bolt is formed on the guide plate,
On the guide plate,
An insertion hole is formed by being eccentric from the center of the guide plate,
The anchor bolt penetrates the insertion hole and is connected to the anchor socket,
The anchor socket,
In the upper portion is formed an insertion portion through which the end of the sleeve through the cylinder is inserted,
The lower portion is formed with a fastening portion for fastening the anchor bolt through the sleeve,
On the base plate,
Corresponding to the movement slit formed in the guide plate, characterized in that the fixing groove is formed by fixing the fixing bolt is inserted, bridge support.
delete delete delete delete According to claim 1,
The guide plate is formed in a circular shape,
The movable slit is formed in a pair to face each other along the outer circumference of the guide plate, bridge support.
A bridge support installation method comprising the anchor module according to claim 1 for supporting a bridge,
Placing the anchor module on top of the lower structure;
Rotating the guide plate to place the anchor socket in an installation position of the substructure;
Coupling the guide plate to the base plate using a fixing bolt; And
And fixing the anchor socket by coupling the anchor bolt to the anchor socket.

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