KR200420477Y1 - Stud Anchor Structure for a Elasticity Support - Google Patents

Abstract

The present invention relates to the structure of the stud anchor for elastic bearing, and in detail, it can reduce the manufacturing cost and can strengthen the adhesion between the elastic bearing and the structure at a low cost, and can strengthen the durability by minimizing the buried grooves formed in the structure. In addition, the present invention relates to a stud anchor structure for elastic support, which allows a structure such as a bridge on which elastic support is installed to have a safer structure.

The construction of the present invention for this purpose is the upper plate formed integrally with the stud anchor is embedded and fixed to the lower portion of the bridge top plate, the lower plate formed integrally with the stud anchor is embedded and fixed to the upper portion of the bridge, and the upper plate and the lower plate It includes a bearing provided between, the stud anchor is characterized in that it further comprises an elastic member that can be reinforced with the structure and the buried structure.

Stud anchor, elastic bearing

Description

Stud Anchor Structure for a Elasticity Support

1 is a perspective view of a conventional elastic bearing

Figure 2 is a perspective view of the elastic support having a stud anchor structure for elastic support according to an embodiment of the present invention

Figure 3 is a state of use of the elastic support having a stud anchor structure for elastic support according to an embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

1: stud anchor structure for elastic bearing according to the present invention 2: stud anchor 3: elastic member

DESCRIPTION OF SYMBOLS 4 Upper board 5 Lower board 6 Bearing 7 Elastic support 8 Bridge top board

DESCRIPTION OF SYMBOLS 10 Pier 10 Conventional elastic support 11 Upper plate 12 Lower plate 13 Stud anchor

14 stud anchor 15 bearing 16 first fixed end 17 second fixed end

21: upper stud anchor 22: lower stud anchor 41: first fixed end

51 second fixed end 61 steel reinforcing plate 211 body 212 head 221 body

222: head

The present invention relates to a stud anchor structure for the elastic bearing, and in particular, the upper plate formed integrally with the stud anchor is embedded and fixed to the lower portion of the bridge top plate, and formed integrally with the stud anchor is embedded and fixed to the upper portion of the bridge It includes a lower plate and a bearing provided between the upper plate and the lower plate, the stud anchor relates to a stud anchor structure for the elastic support further comprises a structure to be embedded and an elastic member to enhance the adhesion.

In general, the elastic bearing is installed between the bridge and the upper structure to support the vertical load transmitted from the upper structure and absorb the horizontal force caused by the movement and rotation to facilitate the seismic function of the bridge, and to change the temperature and wind according to the season. In order to ensure the safety of the bridges, the expansion and contraction functions smoothly according to the impact of the earthquake.

1 is a perspective view of a conventional elastic bearing.

The conventional elastic support 10 has a top plate 11 having a lower plate 12 having a stud anchor 13 is buried in the upper portion of the pier, and a stud anchor 14 embedded in the lower portion of the upper structure. ) And a bearing 15 absorbing the axial deformation due to the vertical load and the expansion and contraction of the upper structure between the lower plate 12 and the upper plate 11.

In addition, the conventional elastic support 10 as described above is formed on the upper surface of the lower plate 12, the first fixed end 16, and formed on the lower surface of the upper plate 11 and the first fixed end (16) ) May further have a second fixed end 17 inserted and fixed between the bearing and the bearing 15, the fixed end of the horizontal force generated by the vehicle moving in the bridge and the vertical load transmitted from the superstructure. To aid in absorption. On the other hand, the direction in which the fixed end is not installed is called a movable end, the movable end is to receive the expansion and contraction action due to the contraction, expansion caused by the temperature difference according to the change of the season of the upper structure.

The conventional elastic support 10 is a stud anchor (13, 14) of the lower plate 12 and the upper plate 11 is formed in a cylindrical shape whose outer peripheral surface is smooth, the pier and the elastic support 10 is installed There is a problem of weak adhesion to the superstructure.

In addition, when an impact due to seismic force, vibration, etc. is applied, the adhesion force of the stud anchors 13 and 14 is weak, so that the elastic support 10 is easily detached from the structure in which it is installed.

In addition, in the case of increasing the attachment surface by increasing the length of the stud anchors 13 and 14 in order to increase the adhesion of the stud anchors 13 and 14, the area of the buried groove in which the stud anchors 13 and 14 are buried accordingly There is a problem to increase the durability of the structure.

In addition, when the length of the stud anchors 13 and 14 increases, the cost increases due to the increase in cost, and the work process is delayed, thereby weakening the competitiveness of the facility.

On the other hand, in the case where the stud anchors 13 and 14 are provided with an attachment force assisting tool such as a deformed steel bar, a welding operation or surface processing of the stud anchors 13 and 14 is required for fixing thereof, and thus a working time. There is a problem that the increase in manpower costs.

The present invention has been made to solve the above problems, an object of the present invention is to provide a stud anchor structure for elastic support that can increase the adhesion to the structure at a low cost.

Another object of the present invention is to be resistant to shock due to seismic force, vibration, etc. due to the increase of adhesion force, so that the elastic support can be fixed by minimizing the area of the buried grooves formed in the structure, thereby enhancing the durability of the structure. An object of the present invention is to provide a stud anchor structure for elastic bearing.

Still another object of the present invention is to provide a stud anchor structure for elastic support, which can reduce the cost by increasing the adhesive force while shortening the length of the stud anchor, and enhance the competitiveness of the facility by the easy work process. The purpose.

Another object of the present invention is to be supported by the upper plate and the lower plate of the elastic support without elastic welding or surface processing of the stud anchor to be elastically fixed to reinforce the adhesion between the elastic support and the structure of the work, the working time An object of the present invention is to provide a stud anchor structure for elastic bearing which can reduce the manpower cost.

The elastic bearing stud anchor structure for achieving the above object of the present invention includes the following configuration.

According to the first embodiment of the present invention, the stud anchor structure for the elastic bearing according to the present invention is a top plate formed integrally with the stud anchor is embedded and fixed to the lower portion of the bridge top plate, and the studs are embedded and fixed to the top of the bridge And a lower plate formed integrally with the anchor, and a bearing provided between the upper plate and the lower plate, wherein the stud anchor further includes an embedded member and an elastic member capable of reinforcing adhesion.

According to a second embodiment of the present invention, the elastic support stud anchor structure according to the present invention is characterized in that in the first embodiment, the elastic member is formed of a spring is fixed to protrude from the outer peripheral surface of the stud anchor. .

According to a third embodiment of the present invention, in the second embodiment, the elastic support stud anchor structure according to the present invention is characterized in that the elastic member is formed smaller than the diameter of the stud anchor.

According to the fourth embodiment of the present invention, the stud anchor structure for elastic support according to the present invention, in any one of the first embodiment to the third embodiment, the elastic member is the stud anchor and the upper plate and It is characterized by being formed to have an elastic force that is supported by the stud anchor and the lower plate can be elastically fixed.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the stud anchor structure for the elastic bearing according to the present invention will be described in detail.

Figure 2 is a perspective view of the elastic support having a stud anchor structure for elastic support according to an embodiment of the present invention, Figure 3 is a state of use of the elastic support having a stud anchor structure for elastic support according to an embodiment of the present invention.

Referring to Figures 2 and 3, the stud anchor structure (1) for the elastic support according to the present invention includes an elastic member (3) for reinforcing the adhesive force with the structure to the stud anchor (2), having a top plate (4), the lower plate 5, the bearing 6 is formed so that it can be firmly fixed to the installation structure.

The stud anchor 2 is integrally formed by stud welding on the upper plate 4 and the lower plate 5 to be described below so that the elastic support 7 can be fixed to an installation structure such as a bridge. It is embedded in the structure, the shape of the cylindrical body (211, 221) is formed to extend a certain length from the circular surface, and the nut-shaped head (212, 222) is expanded to a predetermined length formed on the extension surface is coupled Structure. The stud anchor (2) has a problem that the body (211, 221) is made of a smooth cylindrical shape can not achieve a rigid coupling with the installation structure of the elastic support (7), a detailed description thereof will be described below The structure of the base 7 will be described in detail.

On the other hand, when inserting and fixing the elastic member 3 to be described below to the stud anchor 2 according to a preferred embodiment of the present invention, the length can be formed shorter than the conventional stud anchor to reduce the manufacturing cost, The effect of reducing the manpower cost according to the convenience of the work can be achieved, which will be described in detail in the description of the elastic member 3 below.

The elastic member 3 is provided on the outer circumferential surface of the stud anchor 2 so that the elastic support 7 to be described below will be more firmly fixed to the installation structure such as a bridge, the stud anchor 2 and it It is possible to strengthen the adhesion with the embedded installation structure. In addition, the elastic member 3 is inserted into the outer circumferential surface of the stud anchor 2 can be elastically fixed, protruding from the outer circumferential surface of the stud anchor 2 is fixed to the stud anchor (2) by the projection ) Can be more firmly fixed to the elastic support (7) by strengthening the attachment force according to the increase in the installation structure and the attachment surface, the groove is formed.

Therefore, the elastic member 3 is elastically inserted and fixed to the stud anchor 2 so that the elastic support 7 can be firmly fixed to the structure, such as a bridge, on which it is installed, and with an enhanced attachment force, so that the stud The length of the anchor 2 can be made shorter than the stud anchors 13, 14 (shown in FIG. 1) of the conventional elastic bearing 10 (shown in FIG. 1), which is the length of the stud anchor 2. According to the reduction of manufacturing cost and short length, the area of the buried groove formed in the installation structure in which the elastic support 7 is installed can be minimized, thereby increasing the durability of the installation structure such as a bridge and improving the convenience of the installation work. It can strengthen your competitiveness.

In addition, according to another embodiment of the present invention, the elastic member 3 is formed of a spring material can be elastically fixed to the outer circumferential surface of the stud anchor 2, installed as a compression spring, tension spring, coil spring Various types of springs may be used according to the environment, and the elastic member 3 may be formed to have a diameter equal to or smaller than the diameter of the stud anchor 2 to which the elastic member 3 is elastically inserted and fixed. .

On the other hand, according to another embodiment of the present invention, one side of the elastic member 3 is supported on the upper surface of the head (212, 222) formed on one side of the stud anchor 2, the other side is the stud anchor The elastic member (3) is elastically supported on the upper surface of the upper plate (4) or the lower surface of the lower plate (5) having a (2), and adjusts the restoring force according to the elastic modulus of the elastic member (3) It can be fixedly installed without welding to the stud anchor (2). Accordingly, the elastic member 3 may be firmly fixed by the elastic force of the elastic member 3 without welding the elastic member 3 or processing the surface of the stud anchor 2 to reinforce the attachment force of the stud anchor 2. Therefore, the work is easy, and the working time is shortened, thereby reducing the manpower cost, etc. can achieve the effect of providing a stud anchor structure (1) for reinforcing the competitiveness of the facility.

Hereinafter, an elastic support 7 comprising a stud anchor 2, an upper plate 4, a lower plate 5, and a bearing 6, in which the elastic member 3 is inserted and fixedly installed, is shown in FIGS. Reference will be made in detail to FIG. 3.

As described above, the stud anchor 2 is integrally formed by stud welding on the upper plate 4 and the lower plate 5 so that the elastic support 7 can be fixed to an installation structure such as a bridge. It is embedded in the structure, and includes an upper stud anchor 21 and a lower upper stud anchor 22.

The upper stud anchor 21 has a cylindrical body 211 formed to extend a predetermined length upwards with a circular surface of a predetermined diameter on the upper surface of the upper plate 4 to be described below, and is enlarged in its extension surface The nut-shaped head 212 is formed to extend upward by a predetermined length is coupled to the structure, and is buried in the lower portion of the bridge top plate 8 is installed the elastic support so that the elastic support (7) can be fixed. In addition, the upper stud anchor 21 is spaced apart from the upper surface of the upper plate 4 to be described later by a predetermined interval fixed to each inside of the corner of the upper plate 4 is formed integrally by welding Four upper stud anchors 21 may be provided, but a plurality of upper stud anchors 21 are provided, such as six upper stud anchors 21 according to the load of the structure in which the elastic support 7 is installed. May be

On the other hand, according to another embodiment of the present invention, the head 212 of the upper stud anchor 21 may be formed in various shapes such as a circular flange in addition to the nut shape, the upper stud anchor 21 is the top plate ( 4) may be formed integrally with the top plate 4 in other ways besides being fixed through welding such as stud welding.

The lower stud anchor 22 has a cylindrical body 221 and a nut shape which are formed to extend downward in a predetermined length in the same shape as the upper stud anchor 21 described above on the lower surface of the lower plate 5 to be described below. The head 222 of the combined form, the buried in the upper portion of the bridge (9) where the elastic bearing 7 is installed so that the elastic bearing (7) can be fixed, the upper stud anchor (21) and As described above, a plurality of lower stud anchors 22 may be formed according to the load of the structure in which the elastic support 7 is installed.

On the other hand, according to another embodiment of the present invention, the head 222 of the lower stud anchor 22 may be formed in various shapes such as a circular flange in addition to the nut shape, the lower stud anchor 22 is the lower plate (5) In addition to being fixed through welding, such as stud welding, it may be formed integrally with the lower plate 5 in other ways.

The stud anchor 2 including the upper stud anchor 21 and the lower stud anchor 22 as described above elastically inserts and fixes the elastic member 3 to its outer circumferential surface as described above. ) Can increase the adhesion to the structure is installed, in this case, the length of the stud anchor (2) is formed to shorten the reduction of manufacturing cost, the work convenience according to the short length of the work cost reduction and work time, the said By minimizing the area of the buried groove formed in the structure on which the stud anchor 2 is installed, it is possible to enhance the durability of the structure, such as a bridge on which the elastic support 7 is installed.

Meanwhile, according to another embodiment of the present invention, the heads 212 and 222 of the stud anchor 2 support one side of the elastic member 3 inserted into and fixed to the stud anchor 2, and Since the upper plate 4 and the lower plate 5, in which the stud anchors 2 are integrally formed through stud welding, support the other side of the elastic member 3, the elastic member 3 is attached to the stud anchor 2. It can be firmly fixed by the support force to the head (212, 222) and the upper plate 4, the lower plate 5 by the elastic force of the elastic member 3 without welding or surface processing for forming the insertion groove. In this case, the elastic member 3 is inserted into the stud anchor 2, and the stud anchor 2 and the upper plate 4 and the lower plate 5 into which the elastic member 3 is inserted are subjected to stud welding. It may be formed integrally through. Therefore, the installation work of the elastic member 3 is easy, and the working time is shortened, thereby achieving the effect of providing a stud anchor structure (1) for the elastic support to enhance the competitiveness of the facility by reducing manpower costs, etc. Can be.

The upper plate 4 is a flange shape formed by extending a predetermined length downward from the upper surface having a rectangular shape. The upper plate 4 supports the lower surface of the bridge upper plate 8 on which the elastic support 7 is installed, and the bearing ( It is supported on the upper surface of 6), and may further include a first fixing end (41). Meanwhile, according to another embodiment of the present invention, if the top plate 4 supports the bridge top plate 8 and can be supported by the bearing 6, the upper plate 4 may have a square surface, a circular surface, and the like in various forms. It may also be formed into a plate.

The first fixed end 41 is a rectangular parallelepiped extending downward from the lower surface of the upper plate 4 by a predetermined length. The second fixed end 51 and the bearing 6 of the lower plate 5 will be described below. The elastic bearing 7 is inserted between the two to assist the absorption of the horizontal force generated by the vehicle moving in the bridge and the vertical load transmitted from the superstructure. In this case, the fixed end of the elastic support (7) assists the absorption of the vertical load transmitted from the upper structure and the horizontal force generated by the vehicle moving in the bridge, the direction in which the fixed end is not installed is called a movable end, The movable end receives the expansion and contraction action due to the contraction and expansion caused by the temperature difference according to the change of seasons of the upper structure, and the elastic support 7 is fixed by the fixed end according to the characteristics of the structure such as the bridge to be installed It consists of a bidirectional fixed end fixed in both the direction and the axial vertical direction, a one-way movable end fixed in only one of the axial or axial vertical direction, the bidirectional movable end is not provided with a fixed end.

Therefore, according to another embodiment of the present invention, in addition to the first fixed end 41 provided in the elastic support 7 of the one-way movable end as described above, although not shown, the first fixed end 41 is As described above, according to the characteristics of the bridge on which the elastic support 7 is to be installed, the elastic support 7 is formed in the bidirectional movable end without being provided in the upper plate 4, or the bridge of the second fixed end 51 is formed. It can be fixed both in the direction and the axial vertical direction to form a bidirectional fixed end of the elastic bearing (7), which is a technique known in the art to which the present invention belongs to the characteristics of the bridge on which the elastic bearing (7) will be installed It can be carried out selectively according to.

The lower plate 5 may be formed in the same shape corresponding to the upper plate 4 described above, and is supported on the lower surface of the piers 9 on which the elastic support 7 is installed, and the bearing 6 to be described below. ) And a second fixing end 51.

The second fixing end 51 is a rectangular parallelepiped formed by extending a predetermined length upward from the upper surface of the lower plate 5, and as described above, the elastic support 7 is formed outside the first fixing end 41. Assist to absorb vertical load and horizontal force by external force.

On the other hand, according to another embodiment of the present invention, although not shown, in accordance with the characteristics of the bridge on which the elastic support 7 is installed in addition to the elastic support 7 of the one-way movable end as in the first fixed end described above , It may be formed of an elastic bearing 7 of the bidirectional fixed end, which can be selectively implemented by those skilled in the art to which the present invention pertains.

The bearing 6 is formed of a rectangular parallelepiped of an elastic material that supports the lower surface of the upper plate 4 and is supported on the upper surface of the lower plate 5 so that the elastic support 7 is adapted to deform the upper structure of the elastic material. By absorbing by deformation, the shear spring coefficient and compression spring coefficient can be set according to the thickness of the bearing 6 to evenly distribute or distribute the horizontal and vertical forces transmitted from the upper structure to an appropriate size. The long period of the intrinsic period of the upper structure is formed to reduce the seismic force induced therefrom to ensure the safety of upper structures such as bridges. In addition, the bearing 6 may further include a steel reinforcing plate 61 therein, the steel reinforcing plate 61 to prevent the expansion of the free side of the bearing 6 to increase the load capacity To support the vertical load applied to the bearing (6).

In addition, although not shown in accordance with another embodiment of the present invention, the bearing 6 may be formed in a cylindrical or hexahedral form in addition to the rectangular parallelepiped according to the characteristics of the bridge on which the elastic bearing 7 is installed, the inner center The lead core may further include a cylindrical lead core. The lead core may be formed according to the action and size and speed of a load applied to a structure such as a bridge in which the elastic bearing 7 is installed. It helps to absorb deformation more efficiently.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

The present invention can achieve the following effects by the above configuration and the coupling relationship.

The present invention can achieve the effect that the structure such as the bridge can have a more secure structure by increasing the attachment force between the elastic bearing and the structure, such as the bridge on which the elastic bearing is installed, to strengthen the durability against impacts from seismic forces and vibrations. .

The present invention can achieve the effect of strengthening the competitiveness of the facility by efficiently increasing the adhesion between the structure and the structure, such as the bridge on which the elastic support is installed at low cost.

The present invention can form a short stud anchor can reduce the manufacturing cost, easy work process, has the effect of strengthening the durability of the structure by minimizing the area of the buried groove formed in the structure, such as bridges .

The present invention can elastically insert and fix the elastic member to the stud anchor can omit welding work or stud anchor surface processing work can be equipped with a competitive facility according to the convenience of work, shortening the work time, reducing manpower cost The effect can be achieved.

Claims (4)

An upper plate integrally formed with a stud anchor embedded in and fixed to a lower portion of the bridge top plate, a lower plate integrally formed with a stud anchor embedded in and fixed to an upper portion of the bridge, and a bearing provided between the upper plate and the lower plate. And, the stud anchor is a stud anchor structure for the elastic support further comprises a buried structure and an elastic member that can enhance the attachment force The method of claim 1, wherein the elastic member Stud anchor structure for elastic bearing, characterized in that the spring is fixed to protrude from the outer peripheral surface of the stud anchor The method of claim 2, wherein the elastic member Stud anchor structure for elastic bearing, characterized in that formed smaller than the diameter of the stud anchor The method of claim 1, wherein the elastic member is The stud anchor structure for elastic support, characterized in that the stud anchor and the upper plate and the stud anchor and the lower plate is formed to have an elastic force that can be elastically fixed

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