KR102245797B1 - Non-uniform-type girder bridge structure - Google Patents

Abstract

The present invention relates to a bridge structure having girders with nonuniform height, comprising: a lower structure of a bridge; girders installed long at the upper side of the lower structure in a longitudinal direction which is a bridge axis direction while being spaced in a lateral direction from each other; and a bridge slab installed at the upper sides of the girders, wherein the upper surface of the lower structure is formed of a plane, the bridge slab is inclined upward such that the height is gradually increased from one side surface to the other side surface in a lateral direction on the whole or is inclined upward such that the height is gradually increased from both side surfaces to the center in a lateral direction on the whole, and the girders are formed with a nonuniform height to be matched with the height between the lower structure and the bridge slab, thereby reducing the number of installed girders and at the same time being easily constructed because the lower structure has the upper surface, which is a plane. According to the present invention, the upper surfaces of piers or abutments, which are the lower structure of the bridge, are formed in a plane shape at the lower side of the bridge slab inclined downward in both side directions, and simultaneously the girders with large height nonuniformity are formed such that the height is gradually increased from one side surface to the other side surface or the height is gradually increased from both side surfaces to the center in a lateral direction on the whole, thereby reducing the number of installed girders and bridge bearings to be rapidly and easily constructed and to save construction and maintenance costs. In addition, the present invention reduces the number of installed bridge bearings by installing a connection structure, in which the girders are connected in each pair from both side surfaces of the bridge, and installing the bridge bearings at the lower sides of the connection structure, thereby being rapidly and easily constructed and saving construction and maintenance costs.

Description

Non-uniform-type girder bridge structure

The present invention relates to a non-uniform height girder bridge structure, and more specifically, by varying the height of the girders installed at a certain interval in the transverse direction of the bridge and reducing the number of bridge supports, construction is more efficient than the prior art. It is not only quick and easy, but also a non-uniform height girder bridge structure that saves construction and maintenance costs.

In general, girders are installed at regular intervals in the transverse direction at the upper part of the bridge or bridge, which is the lower structure of the bridge, to support the self-weight of the bridge deck and the vehicle load acting on the bridge deck.

The bridge upper plate may be formed to be inclined upward from both sides to the center for drainage of rainwater. In addition, the curved bridge may be formed to be inclined upward from one side to the other side to correspond to the centrifugal force of the driving vehicle. In the case of an existing bridge, the height of the girders is the same, so that the upper surface of the bridge or pier, which is a substructure, is formed to change in stages to correspond to the inclined bridge deck. In the case of forming the upper surface of a bridge or pier in this way, the work of reinforcing reinforcement, installing formwork, and placing concrete is very cumbersome and inefficient.

In addition, a bridge support is installed under each of the girders, and a new one is replaced after a certain period of time has elapsed. In this way, it takes a lot of time and cost to install and maintain or replace the bridge support for each girder.

Republic of Korea Patent Publication No. 10-0984249

The present invention has been conceived to solve the above problems, and an object of the present invention is a bridge deck with a flat top surface and a bridge deck inclined upward from one side in the transverse direction to the other side or inclined upward from both sides to the center. By installing girders of different heights so as to correspond between them, the number of installations of girders is reduced, and the construction of piers or abutments is easy to provide a non-uniform type high girder bridge structure that saves construction costs.

In addition, it includes a connection structure that connects the girders of the bridge in a pair, and the bridge support is installed on the lower side of the connection structure, reducing the number of installations of the bridge support so that construction is quick and easy, and maintenance costs are reduced. It is to provide a girder bridge structure.

A non-uniform type high girder bridge structure according to an example of the present invention, the lower structure of the bridge; Girders that are horizontally spaced apart from each other on the upper side of the lower structure and elongately installed in the longitudinal direction of the bridge axis direction; And a bridge top plate installed on the upper side of the girders, wherein the upper surface of the lower structure is formed in a plane, and the bridge top plate is generally inclined upward so that the height gradually increases from one side in the transverse direction to the other side, The girders are formed in a non-uniform height that gradually increases in height from one side in the transverse direction to the other side to match the height between the lower structure and the bridge deck, thereby reducing the number of girders installed, and at the same time, the lower structure is a flat upper surface. Due to this, the construction can be easy.

In addition, the non-uniform type height girder bridge structure according to another example of the present invention, the lower structure of the bridge; Girders that are horizontally spaced apart from each other on the upper side of the lower structure and elongately installed in the longitudinal direction of the bridge axis direction; And a bridge top plate installed on the upper side of the girders, wherein the upper surface of the lower structure is formed as a flat surface, and the bridge top plate is generally inclined upward so that its height gradually increases from both sides in the transverse direction toward the center, and the The girders are formed in non-uniform heights that gradually increase in height from both sides in the transverse direction toward the center to match the height between the lower structure and the bridge deck, so that the number of girders is reduced, and at the same time, the lower structure is due to the flat upper surface. Construction can be easy.

The lower surface of the bridge upper plate may have a plane and an upward inclined surface alternately formed, and the girders may be located on a plane of the lower surface of the bridge upper plate.

It may further include bridge supports installed between the lower structure and the girders.

A pair of adjacent girders may include a connection structure that connects to each other, and the bridge support may be installed at a lower central portion of the connection structure.

The connection structure includes an upper member connecting the upper portions of both girders connected to each other in a pairwise manner, a lower member connecting the lower portions to each other, and a plurality of connecting members connecting the upper member and the lower member to each other in a vertical direction. can do.

While penetrating the center of the plurality of connecting members, connecting the pair of girders connecting to each other, the upper member connecting the upper portion of the pair of girders connecting to each other, and the lower portion of the pair of girders connecting to each other It may include a plate-shaped central member connecting while blocking the inside of the closed polygon formed by the lower member.

The lower member has a trapezoidal shape open to the lower side, both ends are coupled to the lower portions of the two girders connected to each other, and the lower portions of the plurality of connecting members are coupled to the upper side of the upper plane, and the lower side of the upper plane is The bridge support can be supported.

The lower member may be installed over the entire length of the girder.

Concrete is poured in the upper and negative moment regions of the lower member to correspond to the negative moment.

The girder can be applied to ramen bridges.

According to the present invention, by installing girders of different heights so as to correspond between a bridge top plate and a bridge pier or abutment with a flat top surface inclined upward from one side in the transverse direction to the other side or inclined upward from both sides to the center, installation of a girder The number is reduced, and the construction of piers or shifts is easy, so construction costs can be saved.

In addition, it includes a connection structure that connects the girders of the bridge in a pair, and the bridge support is installed on the lower side of the connection structure, so that the number of installations of the bridge support is reduced, so that construction is quick, easy, and maintenance cost can be saved.

1 to 14 are views showing a non-uniform type high girder bridge structure according to an example of the present invention
15 to 19 are views showing a non-uniform type height girder bridge structure according to another example of the present invention

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

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

Hereinafter, with reference to the accompanying drawings, a non-uniform type high girder bridge structure of the present invention will be described.

1 to 14, the non-uniform type height girder bridge structure 100 according to an example of the present invention may include a substructure 110, a girder 120, and a bridge top plate 130 of a bridge. In addition, it may further include a bridge support (140). Bridges may include simple bridges, continuous bridges, and ramen bridges.

In the case of the prior art, in order to support girders having the same height on the upper surface of the bridge or abutment, which is a lower structure, in the case of a curved bridge, the height is gradually increased from one side to the other side. That is, in consideration of the centrifugal force generated from the curved bridge, the bridge deck is formed to be inclined upward from one side to the other side, and to install a girder of the same height, the upper surface of the bridge or abutment is also stepped so that the height increases gradually toward the other side. Was formed. In the case of such a prior art, there is a problem in that construction time and construction cost are increased due to cumbersome work such as reinforcement of reinforcing bars to form a stepped upper surface of a pier or abutment, installation of a formwork, and pouring of concrete.

The lower structure 110 of the present embodiment includes a pier or an abutment, and the upper surface of the pier or abutment may be formed in a plane unlike the prior art.

The girders 120 may be installed on the upper side of the lower structure 110 in a longitudinal direction, which is a transverse direction, while being spaced apart from each other in the transverse direction. The girders 120 may be manufactured in advance or manufactured in advance so that the height of the girders 120 is different according to the design, that is, the height gradually increases from one side in the transverse direction to the other side. The girder 120 can be any of an I-type, a box-type, and a U-type. In addition, the material of the girder 120 may be steel, steel composite, prestressed concrete, or the like. Hereinafter, for the convenience of description, the description will proceed by assuming the girder 120 as a steel type I.

The girder 120 may include an upper flange 121 and a lower flange 122 and an abdomen 123 connecting the upper flange 121 and the lower flange 122. The girders 120 may be formed in a non-uniform shape whose height gradually increases from one side in the transverse direction to the other side so as to fit the height between the lower structure 110 and the bridge top plate 130. Compared to the prior art in which all the girders are formed to have the same height, the height increases from one side to the other side, so that the stiffness of the entire girder 120 can be increased. Accordingly, the number of installations of the girder 120 and the bridge support 140 is reduced, and at the same time, by making the upper surface of the lower structure 110 flat, construction is easy, and construction period and construction cost can be saved.

Bridge top plate 130 may be installed on the upper side of the girders (120). The bridge top plate 130 may be formed to be inclined upward so that the height gradually increases from one side in the transverse direction to the other side. That is, the bridge top plate 130 may be formed to be inclined so that the driving vehicle does not deviate from the roadway by centrifugal force. The lower surface of the bridge upper plate 130 is also an upward slope from one side to the other side as a whole, but in detail considering the installation of the girder, the plane and the upward slope are formed alternately, and the girders are located on the plane of the lower surface of the bridge upper plate. I can. That is, the lower surface of the bridge top plate 130 is generally formed to be inclined upward from one side to the other side, and a portion where the girder is located may be formed in a plane.

In this embodiment, by pre-fabricating or custom-made girders 120 having different heights, on-site work for forming a bridge or bridge with a flat top surface, that is, reinforcement of reinforcing bars, installation of formwork, concrete pouring, etc. It is easy, and can significantly reduce the construction cost and construction period.

In addition, in the present embodiment, by forming the upper surface of the bridge pier or the abutment, which is the lower structure 110 in a plane, and forming the girders 120 in a non-uniform shape whose height increases from one side to the other side, the girder 120 and By reducing the number of bridge bearings 140, it is possible to reduce the construction period, construction cost, and maintenance cost.

The bridge support 140 may be installed between the lower structure 110 and the girders 120.

A pair of adjacent girders 120 may further include a connection structure 150 connected to each other. The bridge support 140 may be installed below the center of the connection structure 150. Therefore, by reducing the number of installations of the bridge support 140, construction is easy, construction cost is saved, and replacement or maintenance cost can be reduced at the same time.

The connection structure 150 may include an upper member 151, a lower member 152, and a connection member 153.

The upper member 151 may connect the upper portions of both girders 120 connected to each other in a pair. The upper member 151 is formed in a plate shape, and both ends of the upper member 151 may be welded to the ends of the upper flange 121 of the both girders 120.

The lower member 152 may connect the lower portions of both girders 120 connected to each other in a pair. The lower member 152 is formed in a plate shape, and both ends of the lower member 152 may be welded to the ends of the lower flanges 122 of the girders 120.

The lower member 152 has a trapezoidal shape that is opened downward, and both ends may be coupled to the lower portion of the girders 120, that is, the lower flange 122. The lower portion of the connecting member 153 to be described later is coupled to the upper side of the upper plane of the lower member 152, and the bridge support 140 may support the lower side of the upper plane. In addition, the lower member 152 may be installed long over the entire length of both girders (120). Concrete (C) is poured in the upper and negative moment region of the lower member 152 to correspond to the negative moment. The concrete (C) poured on the upper side of the lower member 152 may increase the bending stiffness of the girder and reduce vibration.

The lower member 152 having a trapezoidal shape that is open to the lower portion reduces the installation height of the bridge, thereby reducing the embankment height of the connecting road, thereby saving construction cost. The lower member 152 having a trapezoidal shape opened to the bottom may increase structural stability of the bridge due to the arch shape. In addition, since the bridge support 140 is located inside the trapezoidal lower member 152 that is open to the lower side, it is possible to prevent separation of the girder, and the like.

The connecting member 153 may connect the upper member 151 and the lower member 152 to each other in a vertical direction. The connecting member 153 is formed in a plurality of one or more, and a flat plate, a square column, a cylinder, an I type, etc. are also possible.

The upper member 151 connecting the upper portion of the two girders 120 and both girders 120 connected to each other while passing through the connecting member 153 and a lower member 152 connecting the lower portion of both girders 120 It may further include a central member 154 connecting while blocking the interior of the closed polygon formed by ). The central member 154 has a substantially rectangular shape that closes the interior of the space formed by both the girders and the upper member and the lower member, and is welded along the circumference so that both girders can be firmly coupled. One or more through holes may be formed in the central member 154.

The connection structure 150 may be installed in the middle of both girders 120 in addition to the piers or alternating points. That is, by interconnecting both girders 120 at regular intervals, twisting and buckling of the girders can be prevented.

The following describes the construction process of the present invention non-uniform type high girder bridge structure constructed as described above.

First, referring to FIG. 1, it is possible to form an alternating bridge or pier, which is the substructure 110 of the bridge according to the design drawing. By forming the upper surface of the lower structure 110 of the bridge in a flat, construction can be quickly and easily.

Bridge supports 140 are installed on the upper surface of the lower structure 110 which is the plane, and girders 120 may be seated on the bridge support 140. The girders 120 are formed in a non-uniform height gradually increasing in height from one side of the bridge to the other side, and may be installed while being spaced apart from each other. By increasing the overall flexural stiffness of the girders 120 formed with a non-uniform height, it is possible to reduce the number of installations of the girders and bridge supports compared to the prior art formed with a uniform height.

A bridge top plate 130 may be formed on the upper side of the girders 120. At this time, the lower surface of the bridge top plate 130 is generally inclined upward from one side to the other side, but in detail, a plane and an upward inclined surface are alternately formed, and the girders 120 may be located on the plane. In addition, the upper surface of the bridge upper plate 130 is inclined upward from one side to the other side to prevent the vehicle from being separated by centrifugal force, and at the same time, it is possible to smooth drainage of rainwater or the like.

2 to 4, the bridge support 160 may be installed on the upper surface of the lower structure 110, which is a plane according to the design drawing.

In addition, one set of both girders 120 may be connected to each of the plurality of girders on both sides in the transverse direction by the connection structure 150.

The connection structure 150 is welded to the upper member 121 at the end of the upper flange 121 of both girders 120, and the lower flange 122 of both girders 120 has a plate shape or opened downward. The trapezoidal lower member 152 may be welded, and the central portion of the upper member 151 and the central portion of the lower member 152 may be welded to each other with a connecting member 153.

In addition, it may include a central member 154 installed through the connection structure 150. The connection structure 150 may be installed on both sides of the central member 154 first, that is, before and after.

Referring to FIG. 14, when the lower member 152 is installed on the entire length of the girder 120, concrete (C) is poured in the upper portion of the lower member 152 and in the parental moment area to correspond to the parental moment. have. Concrete (C) may be high-strength concrete.

It is possible to form a bridge top plate 130 on the upper part of both girders. Since the bridge support 140 is installed in the center of the connection structure 150 connecting the two girders, the number of installations of the bridge support 140 can be reduced, so that construction and maintenance costs can be saved.

The lower surface of the bridge top plate 130 is formed by alternately forming a plane and an upwardly inclined surface from one side in the transverse direction to the other side, so that it can be easily seated on the upper surface of the upper flange 121 of each girder. In addition, the bridge top plate 130 is installed to be inclined at a predetermined angle by non-uniform type height girders, thereby promoting safe driving of the vehicle and facilitating drainage of rainwater.

In addition, since the girders are formed in a non-uniform height gradually increasing from one side in the transverse direction to the other side to match the height between the lower structure 110 and the bridge top plate 130, the installation cost of the girders is reduced. Can be saved.

15 to 19, the non-uniform type height girder bridge structure 100 according to another example of the present invention may include a substructure 110, a girder 120, and a bridge top plate 130 of a bridge. In addition, it may further include a bridge support (140). Bridges may include simple bridges, continuous bridges, and ramen bridges.

In the case of the prior art, in order to support girders having the same height, the upper surface of the bridge or abutment, which is a lower structure, is stepped so that the height gradually increases from both sides to the center. In other words, in the case of a straight bridge, the bridge deck was formed to be inclined upward from both sides to the center for drainage of rainwater. Therefore, in order to install girders having the same height, the upper surface of the pier or abutment was also stepped so that the height increased toward the center. In the case of such a prior art, there is a problem in that construction time and construction cost are increased due to cumbersome work such as reinforcement of reinforcing bars to form a stepped upper surface of a pier or abutment, installation of a formwork, and pouring of concrete.

The bridge top plate 130 of this embodiment may be formed to be inclined upward so that the height gradually increases from both sides in the transverse direction toward the center. That is, the bridge top plate 130 may be formed to be inclined downward toward both sides so that rainwater or the like flows out well. For example, the upper surface of the bridge top plate 130 may be inclined downward by 2% or greater or less than that toward both sides. The lower surface of the bridge top plate 130 is also an upward slope from both sides to the center as a whole, but in detail, in consideration of the installation of the girder, the plane and the upward slope are formed alternately, and the girders 120 can be located at the flat position. have. That is, the lower surface of the bridge top plate 130 is generally formed to be inclined downward toward both sides, but the portion where the girder is located may be formed in a plane.

The other configuration and construction process thereof are the same as the non-uniform type height girder bridge structure of the embodiment of the present invention described above, so a description thereof will be omitted.

In the above, even if all the constituent elements constituting the embodiments of the present invention have been described as being combined into one or operating in combination, the present invention is not necessarily limited to these embodiments. That is, within the scope of the object of the present invention, all of the constituent elements may be configured or operated by selectively combining one or more. In addition, terms such as "include", "consist of" or "have" described above mean that the corresponding component may be present unless otherwise stated, excluding other components. It should not be construed as being able to further include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art, unless otherwise defined. Terms generally used, such as terms defined in the dictionary, should be interpreted as being consistent with the meaning of the context of the related technology, and are not interpreted as ideal or excessively formal meanings unless explicitly defined in the present invention.

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

100: bridge structure 110: substructure
120: girder 130: bridge top plate
140: bridge support 150: connection structure
151: upper member 152: lower member
153: connecting member 154: central member

Claims (11)

The substructure of the bridge;
Girders that are horizontally spaced apart from each other on the upper side of the lower structure and elongately installed in the longitudinal direction of the bridge axis direction; And
Includes; a bridge top plate installed on the upper side of the girders,
The upper surface of the lower structure is formed in a plane,
The bridge deck is generally inclined upward so that the height gradually increases from one side in the transverse direction to the other side,
The girders are formed in a non-uniform height that gradually increases in height from one side in the transverse direction to the other side to match the height between the lower structure and the bridge deck, thereby reducing the number of girders installed, and at the same time, the lower structure is a flat upper surface. It is easy to construct and
A pair of adjacent girders includes a connection structure that connects to each other, and a bridge support is installed at the lower central side of the connection structure,
The connection structure includes an upper member connecting the upper portions of both girders connected to each other in a pairwise manner, a lower member connecting the lower portions to each other, and a plurality of connecting members connecting the upper member and the lower member to each other in a vertical direction. and,
While penetrating the centers of the plurality of connecting members, connecting the pair of girders connecting to each other, the upper member connecting the upper portions of the pair of girders connecting to each other, and the lower portion of the pair of girders connecting to each other It includes a plate-shaped central member connecting while blocking the interior of the closed polygon formed by the lower member,
The lower member has a trapezoidal shape open to the lower side, both ends are coupled to the lower portions of both girders that connect the pair of girders, and the lower portions of the plurality of connecting members are coupled to the upper side of the upper plane, and the lower side of the upper plane is Non-uniform type high girder bridge structure, characterized in that the bridge support is supported. The substructure of the bridge;
Girders that are horizontally spaced apart from each other on the upper side of the lower structure and elongately installed in the longitudinal direction of the bridge axis direction; And
Includes; a bridge top plate installed on the upper side of the girders,
The upper surface of the lower structure is formed in a plane,
The bridge deck is generally inclined upward so that the height gradually increases from both sides in the transverse direction toward the center,
The girders are formed in non-uniform heights that gradually increase in height from both sides in the transverse direction toward the center to match the height between the lower structure and the bridge deck, so that the number of girders is reduced, and at the same time, the lower structure has a flat upper surface. Because of this, it is easy to construct,
A pair of adjacent girders includes a connection structure that connects to each other, and a bridge support is installed at the lower central side of the connection structure,
The connection structure includes an upper member connecting the upper portions of both girders connected to each other in a pairwise manner, a lower member connecting the lower portions to each other, and a plurality of connecting members connecting the upper member and the lower member to each other in a vertical direction. and,
While penetrating the centers of the plurality of connecting members, connecting the pair of girders connecting to each other, the upper member connecting the upper portions of the pair of girders connecting to each other, and the lower portion of the pair of girders connecting to each other It includes a plate-shaped central member connecting while blocking the interior of the closed polygon formed by the lower member,
The lower member has a trapezoidal shape open to the lower side, both ends are coupled to the lower portions of both girders that connect the pair of girders, and the lower portions of the plurality of connecting members are coupled to the upper side of the upper plane, and the lower side of the upper plane is Non-uniform type high girder bridge structure, characterized in that the bridge support is supported. The method according to claim 1 or 2,
The lower surface of the bridge upper plate is formed alternately with a plane and an upward inclined surface, and the girders are located on a plane of the lower surface of the bridge upper plate. delete delete delete delete delete The method according to claim 1 or 2,
The lower member is a non-uniform type high girder bridge structure, characterized in that installed over the entire length of the girder. The method of claim 9,
A non-uniform type high girder bridge structure, characterized in that concrete is poured in the upper and negative moment regions of the lower member to correspond to the negative moment. The method according to claim 1 or 2,
The girder is a non-uniform type high girder bridge structure, characterized in that applied to the ramen bridge.

Images