KR100513852B1 - A bearing apparatus for structure - Google Patents

Abstract

The present invention relates to a bearing device for a structure provided between the upper structure and the lower structure to support the upper structure, the upper plate and the lower plate respectively installed on the upper structure and the lower structure at predetermined intervals, and between the upper plate and the lower plate A sliding pad interposed in the sliding structure for slidingly supporting the upper structure with respect to the lower structure, a sliding rigid body provided between the lower plate and the sliding pad and sliding with respect to the lower plate, and having a sliding pad therebetween from one of the upper and lower plates. A protruding at least one pair of keys and a key receiving portion recessed from the other one of the upper and lower plates to accommodate one end of each key, the key receiving portion being provided with a long hole to allow the key to move along the direction of movement of the superstructure. It is characterized by having a shape. As a result, a bearing device for a structure can be provided, which reduces the installation area and can be installed in a place where the distance between the upper structure and the lower structure is smaller than the amount of movement of the upper structure.

Description

Bearing device for structures {A BEARING APPARATUS FOR STRUCTURE}

The present invention relates to a bearing device for a structure, and more particularly, to a bearing device for a structure that is provided between an upper structure and a lower structure to support a load of the upper structure, and at the same time, supports the upper structure to slide against the lower structure. It is about.

5 is a cross-sectional view of a conventional bearing device for a structure, as shown, the conventional bearing device 110, the upper plate 125 and the lower plate (installed in the upper structure 111 and the lower structure 115, respectively) 131, a rubber pad 135 supporting the upper structure 111 with respect to the lower structure 115, and a pair of upper keys protruding from the plate surface of the upper plate 125 with the rubber pad 135 therebetween ( 141 and a pair of lower keys 145 protruding from each plate surface of the lower plate 131 with the pair of upper keys 141 interposed therebetween and interposed with the upper keys 141.

The upper structure 111 is made of concrete, the lower structure 115 is a concrete portion 117 made of concrete, and the non-contraction mortar portion 119 is provided on the upper side of the concrete portion 117, the lower plate 131 is installed. Has

The upper plate 125 and the lower plate 131 are embedded in the non-contraction mortar portion 119 of the upper structure 111 and the lower structure 115, respectively, so that the upper plate 125 and the lower plate 131 are respectively disposed on the upper structure 111. And a plurality of anchor bolts 127 and 133 fixed to the substructure 115.

The rubber pad 135 is provided between the upper plate 125 and the lower plate 131 to support the upper structure 111 and the lower structure 115, and at the same time, the load, rotation, and direction transmitted from the upper structure 111. Transfers the movement to the substructure 115.

6A and 6B, the upper plate 125 has a pair of upper keys 141 protruding from the plate horizontally in the moving direction of the upper structure 111 with the rubber pad 135 interposed therebetween. Is provided.

7A and 7B, the lower plate 131 has a pair of upper keys 141 interposed therebetween and a pair of lower keys 145 protruding from the plate surface along the moving direction of the upper structure 111. Is provided. The lower key 145 is closely attached to the circumference of the upper key 141 to prevent the upper structure 111 from moving horizontally with respect to the moving direction of the upper structure 111 when the upper structure 111 moves.

Due to this configuration, when the displacement occurs in the upper structure 111 to move the upper structure 111, the shear deformation occurs in the rubber pad 135, which is the upper structure 111 to the lower structure 115 Relative to the amount of shear deformation of the rubber pad 135.

Accordingly, when the amount of movement of the upper structure 111 is large, the height of the rubber pad 135 is increased in consideration of the shear deformation amount of the rubber pad 135 according to the amount of movement of the upper structure 111, that is, of the rubber pad 135. Make the thickness large.

By the way, in the conventional sliding bearing device for a structure, since the pair of lower keys have a structure surrounding the outer side of the pair of upper keys, there is a problem that the size of the upper plate and the lower plate is increased and the installation area is increased. In addition, since the height of the rubber pad is determined in consideration of the shear deformation amount of the rubber pad according to the amount of movement of the upper structure, it is impossible to install in a place where the distance between the upper structure and the lower structure is smaller than that of the upper structure. There is a problem that is limited.

Accordingly, it is an object of the present invention to reduce the installation area and to provide a bearing device for a structure that can be installed in a place where the distance between the upper structure and the lower structure is smaller than the amount of movement of the upper structure.

According to the present invention, in the bearing device for a structure provided between the upper structure and the lower structure to support the upper structure, the upper plate and the lower plate respectively installed at the upper structure and the lower structure at predetermined intervals, and A sliding pad interposed between the upper plate and the lower plate to slide and support the upper structure with respect to the lower structure, a sliding rigid body provided between the lower plate and the sliding pad and sliding with respect to the lower plate; And at least one pair of keys protruding from one of the upper and lower plates, and a key receiving portion recessed from the other one of the upper and lower plates to accommodate one end of each of the keys. By bearing device for structures It is.

Here, the key receiving portion preferably has a shape of a long hole so that the key is movable along the moving direction of the upper structure.

The key receiving portion may be formed through the plate surface of any one of the upper plate and the lower plate.

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

1 is a cross-sectional view of a bearing device for a structure according to the present invention, Figure 2 is a side cross-sectional view of FIG. Structural bearing device 10 is provided between the upper structure 11 and the lower structure 15 to support the load of the upper structure 11, and at the same time to support the upper structure 11 with respect to the lower structure 15 do. As shown in these figures, the bearing device 10 according to the present invention, the upper plate 25 and the lower plate 31 and the upper structure 11 and the lower structure 15 which are respectively installed at predetermined intervals and , A sliding pad 35 slidingly supporting the upper structure 11 with respect to the lower structure 15, and a sliding rigid body 37 provided between the lower plate 31 and the sliding pad 35 to slide against the lower plate 31. ), A pair of keys 41 protruding from the plate surface of the upper plate 25 with the sliding pad 35 interposed therebetween, and a key formed through the plate surface of the lower plate 31 so as to accommodate one end of each key 41. It has the accommodating part 45.

The upper structure 11 according to an embodiment of the present invention is made of concrete, the lower structure 15 is provided on the concrete portion 17 and the upper portion of the concrete portion 17 made of concrete, the lower plate 31 is installed It has a non-shrink mortar part 19 which becomes.

The upper plate 25 is provided with a plurality of anchor bolts 27 embedded in the upper structure 11 made of concrete to fix the upper plate 25 to the upper structure 11.

The lower plate 31 installed in the non-contraction mortar portion 19 of the lower structure 15 is embedded in the non-contraction mortar portion 19, and a plurality of anchor bolts 33 fixing the lower plate 31 to the lower structure 15. ) Is provided.

The sliding pad 35 is provided between the upper plate 25 and the sliding rigid body 37 to transmit the load, rotation, and movement of the direction transmitted from the upper structure 11 to the lower structure 15. Here, the sliding pad 35 is preferably made of a rubber material having excellent shear deformation.

The sliding rigid body 37 which slides with respect to the lower board 31 is provided between the sliding pad 35 and the lower board 31. As shown in FIG. Thus, when the displacement occurs in the upper structure 11 to move the upper structure 11, the sliding rigid body 37 is to slide on the upper side of the lower plate 31 along the moving direction of the upper structure (11).

Meanwhile, as shown in FIGS. 3A and 3B, a pair of keys 41 having a predetermined width and spaced apart at predetermined intervals protrude from the plate surface of the upper plate 25 facing the lower plate 31. It is. One end of each key 41 is coupled to a key receiving portion 45 to be described later.

On the plate surface of the lower plate 31, as shown in FIG. 4A and FIG. 4B, a pair of key accommodating part 45 is penetrated and formed corresponding to a pair of key 41. As shown in FIG. The key receiving portion 45 accommodates one end of the key 41, and the key receiving portion 45 has a long hole shape so that the key 41 can move along the moving direction of the upper structure 11. On the other hand, when installing the lower plate 31, it is preferable to install a blocking plate (not shown) in the bottom region of the key receiving portion 45 so that the non-contraction mortar does not leak through the key receiving portion 45.

Thus, as shown in Figure 2, since the key 41 is moved in the key receiving portion 45, it is possible to restrain the direction of movement of the upper structure 11 that the upper structure 11 is distorted when moving It can be prevented.

By this configuration, the upper plate 25 and the lower plate 31 are fixed to the upper structure 11 and the lower structure 15, respectively, and the sliding pad 35 between the upper structure 11 and the lower structure 15. And after arranging the sliding rigid body 37, the key 41 is received and coupled to the key receiving portion 45 to complete the installation of the sliding bearing device 10 for a structure according to the present invention.

Therefore, when the upper structure 11 is moved due to displacement of the upper structure 11, the sliding pad 35 supports the upper structure 11 while the sliding rigid body 37 is the upper structure on the lower plate 31. It slides along the moving direction of (11). At the same time, the direction of movement of the upper structure 11 is limited by the key 41 received and coupled to the key receiving portion 45.

As described above, according to the present invention, by combining the upper plate and the lower plate, the installation area of the upper plate and the lower plate can be reduced.

Further, by further providing a sliding rigid body that slides with respect to the lower plate between the lower plate and the sliding pad, and by forming the key receiving portion in the shape of a long hole so that the key can move within the key receiving portion, the upper structure without depending on the sliding pad It is possible to increase the movement of the upper structure, it can be installed in a place where the gap between the upper structure and the lower structure is smaller than the amount of movement of the upper structure, and also the movement direction of the upper structure is constrained so that the upper structure does not turn during the movement direction Are guided to move along smoothly.

Meanwhile, in the above-described embodiment, the key receiving portion has a long hole shape, and the key is moved along the key receiving portion by the movement of the upper structure, but the key structure is combined with the key receiving portion to restrict the movement of the upper structure. You may.

In addition, in the above-described embodiment, the key receiving portion is described as penetrating through the plate surface, but the key receiving portion does not penetrate the plate surface and is recessed by a predetermined depth from the plate surface so that one end of the key can be accommodated in the key receiving portion. Of course you can.

In addition, in the above-described embodiment, the upper structure is described as being made of concrete, but the upper structure may be made of steel. In this case, the connecting plate may be provided between the upper structure and the upper plate, thereby connecting the connecting plate to the steel part and the upper plate. The superstructure and the top plate can be interconnected by welding to each.

In addition, in the above-described embodiment, a pair of keys is provided on the upper plate and a pair of key receiving portions are provided on the lower plate, but a pair of keys may be provided on the lower plate and a pair of key receiving portions may be provided on the upper plate. Of course.

In the above-described embodiment, a pair of keys and a pair of key receivers are provided with the sliding pads interposed therebetween, but two pairs of keys and two pairs of key receivers may be provided corresponding to each side of the sliding pad. .

As described above, according to the present invention, there is provided a bearing device for a structure that can be installed in a place where the installation area is reduced and the spacing between the upper structure and the lower structure is smaller than the amount of movement of the upper structure.

1 is a front sectional view of a bearing device for a structure according to the present invention;

2 is a side cross-sectional view of FIG.

3A and 3B are front and side views of the top plate of FIG. 1,

4A and 4B are front and side cross-sectional views of the lower plate of FIG. 1, FIG.

5 is a front sectional view of a conventional bearing device for a structure,

6A and 6B are front and side views of the top plate of FIG. 5;

7A and 7B are front and side views of the lower plate of FIG. 5.

 * Explanation of symbols for the main parts of the drawings

10: bearing device 11: upper structure

15: substructure 25: top plate

31: lower plate 35: sliding pad

37: sliding rigid body 41: key

45: key receiving part

Claims (3)

In the bearing device for the structure provided between the upper structure and the lower structure to support the upper structure, An upper plate and a lower plate respectively installed on the upper structure and the lower structure at predetermined intervals; A sliding pad interposed between the upper plate and the lower plate to slide and support the upper structure with respect to the lower structure; A sliding rigid body provided between the lower plate and the sliding pad and sliding with respect to the lower plate; At least a pair of keys protruding from one of the upper and lower plates with the sliding pad interposed therebetween, It includes a key receiving portion recessed from the plate surface of the other one of the upper plate and the lower plate to accommodate one end of each key, The key receiving portion is a bearing device for a structure, characterized in that the key has a shape of a long hole to be movable along the moving direction of the upper structure. delete The method of claim 1, The key receiving portion is a structural bearing device, characterized in that formed through the plate surface of any one of the upper plate and the lower plate.