KR200470260Y1 - Anchor Bolt System - Google Patents

Abstract

Anchor bolt system according to the present invention, in the anchor bolt system is installed between the upper structure and the lower structure, the horizontal member is coupled to the upper structure and the through-hole is formed, and is formed to protrude vertically on one side of the horizontal member Supporting device consisting of a vertical member for supporting the upper structure; A connection member inserted into the through hole and having a thread formed on an inner circumferential surface thereof; And a lower member which is provided perpendicularly to the lower portion of the horizontal member, is embedded in the lower structure, a receiving groove having a predetermined length is formed, and a thread is formed on an inner circumferential surface of the receiving groove. And an anchor bolt inserted into and connected to the connection member and the lower member.

Description

Anchor Bolt System

The present invention relates to an anchor bolt system, such as a bearing, to an anchor bolt system for fixing the device to the ground to transfer the load of the upper structure to the lower structure or to allow relative movement.

In particular, the present invention relates to an anchor bolt system capable of removing and reinstalling a device even in a case where the clearance between the upper structure and the lower structure is so small that it is difficult to remove the anchor bolt.

Large structures, such as bridges, install devices, such as supports, between the superstructure and the substructure. Typically devices have the function of supporting vertical loads, supporting horizontal loads or allowing displacement in the transverse direction, allowing rotation and also resisting negative reaction forces. The devices functioning as such are fixed to the upper structure or the lower structure through the anchor bolt.

1 is a cross-sectional view of an anchor bolt system according to the prior art. As shown in Figure 1, the conventional anchor bolt system is provided in the lower portion of the horizontal member 12, the anchor bolt 40 and the horizontal member is firmly fixed to the lower structure 200 as part of the device and the anchor bolt on the inner peripheral surface It is characterized in that the lower member 30 is provided with a fastening means to be fastened to and embedded in the lower structure. The anchor bolt is fastened to the lower member through the horizontal member, so that the horizontal load applied from the horizontal member is transmitted to the lower member through the anchor bolt, and the horizontal load transmitted to the lower member is transmitted to the lower structure again. The negative reaction force applied from the horizontal member is transmitted to the head of the anchor bolt, which in turn is transmitted to the anchor bolt, the fastening portion between the anchor bolt and the lower member and the lower member, and the reaction force of the negative portion transmitted to the lower member is lower member and lower structure. It is transmitted to the substructure by the adhesive force of

However, if there is a problem with the device and needs to be replaced, it can be replaced when the gap between the upper structure and the lower structure is wide and it is possible to loosen the anchor bolt, but the condition is so narrow that it is difficult to loosen the anchor bolt. When it is impossible to replace it, it is possible to remove the device by forcibly removing the anchor bolt, but it is difficult to reinstall it. Therefore, when the device needs to be repaired, it is cumbersome to remove and remove part of the substructure and to reinstall.

2 is a cross-sectional view of another anchor bolt system according to the prior art. As shown in Figure 2, a conventional anchor bolt system is a part of the device is a horizontal member 12, a nut 80 and the anchor bolt that is directly embedded in the substructure through the horizontal member firmly fixed to the substructure 200 ( 40) is provided. The anchor bolt is embedded directly with the lower structure through the horizontal member, the horizontal load applied from the horizontal member is transmitted directly to the lower structure through the anchor bolt, the negative reaction force applied from the horizontal member through the nut and the anchor bolt Delivered directly to the substructure.

However, if there is a problem with the device and needs to be replaced, the gap between the upper and lower structures may be wide and the jackup amount may be replaced by loosening the nut and jacking it up. At this time, the anchor bolt is long and can not be replaced. If the anchor bolt is forcibly removed, the device can be removed. Therefore, when the device needs to be repaired, it is cumbersome to remove and remove part of the substructure and to reinstall.

3 is a cross-sectional view of another anchor bolt system according to the prior art. As shown in FIG. 3, the conventional anchor bolt system is a horizontal member 12, a nut 80, an anchor bolt 40, a compression plate 90 and the compression firmly fixed to the substructure 200 as part of the device. It is characterized in that the lower member 30 is provided at the bottom of the plate and provided with a fastening means fastened to the anchor bolt on the inner circumferential surface and embedded directly in the lower structure. An elastic body is provided with a compression plate between the horizontal member and the lower member to prevent the fastening force is released. Therefore, as in the prior art described above, if the device has a problem and needs to be replaced, it can be replaced if the gap between the upper structure and the lower structure is large and the amount of jackup is not limited, but the gap is narrow. The anchor bolt is long and cannot be replaced. If the anchor bolt is forcibly removed, the device can be pulled out, but it is difficult to reinstall. Therefore, when the device needs to be repaired, it is cumbersome to remove and remove part of the substructure and to reinstall.

KR 20-0274804 Y1

The anchor bolt system according to the present invention, even if the gap between the upper structure and the lower structure is very small, it is possible to remove the operation and reinstallation of the device even if it is difficult to remove the anchor bolt and provide an anchor bolt system that minimizes the amount of jackup of the upper structure There is a purpose.

In order to achieve the above object, the anchor bolt system according to the present invention, in the anchor bolt system is installed between the upper structure and the lower structure, the horizontal member coupled to the upper portion of the lower structure and the through-hole formed, and the horizontal member A support device formed of a vertical member protruding vertically on one side to support the upper structure; A connection member inserted into the through hole and having a thread formed on an inner circumferential surface thereof; And a lower member which is provided perpendicularly to the lower portion of the horizontal member, is embedded in the lower structure, a receiving groove having a predetermined length is formed, and a thread is formed on an inner circumferential surface of the receiving groove. And an anchor bolt inserted into and connected to the connection member and the lower member.

Length Ls of the receiving groove of the lower member is characterized in that it is not relatively smaller than the length of the anchor bolt minus the jack-up amount.

The anchor bolt is characterized in that the tool fastening groove is formed on the upper surface.

The through hole may have a wedge shape or one or more stages having a larger upper portion than a lower size, and the connecting member may be formed to correspond to the through hole.

The connecting member is characterized in that the tool fastening groove is formed on the upper surface.

A portion of the horizontal member and the connecting member in contact with each other, characterized in that the gap filling process to prevent foreign matter penetration.

A portion of the connecting member and the anchor bolt in contact with each other, characterized in that the gap filling treatment to prevent foreign matter penetration.

In the upper portion of the connecting member, a cover plate is provided to seal the interior.

At the bottom of the lower member, a plate having a relatively larger cross section than the lower member cross section is integrally provided so as to be more resistant to negative reaction force.

Anchor bolt system according to the present invention, when the gap between the upper structure and the lower structure is very small, it is difficult to pull out the anchor bolt, it is possible to work and reinstall the horizontal member from the gap without releasing the anchor bolt, and the horizontal It is possible to minimize the amount of jackup of the superstructure during removal and re-installation of the member. In addition, the structure is simpler than the existing anchor system.

1 is a cross-sectional view of an anchor bolt system according to the prior art.
2 is a cross-sectional view of another anchor bolt system according to the prior art.
3 is a cross-sectional view of another anchor bolt system according to the prior art.
4 is a cross-sectional view of the anchor bolt system according to an embodiment of the present invention.
5 is an exploded cross-sectional view of FIG. 4.
6 is an exemplary view illustrating a procedure for removing the support device by separating the anchor bolt.
7 is a cross-sectional view of the anchor bolt system according to another embodiment of the present invention.

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

4 is a cross-sectional view of the anchor bolt system according to an embodiment of the present invention, Figure 5 is an exploded cross-sectional view of FIG.

4 and 5, the present invention in the anchor bolt system installed between the upper structure 100 and the lower structure 200, the supporting device 10, the connecting member 20, the lower member 30, the anchor It consists of a bolt 40.

The support device 10 is a structure that is installed between the upper structure 100 and the lower structure 200 to support the upper structure 100.

The configuration is coupled to the upper portion of the lower structure 200, as shown in Figure 5, the horizontal member 12, the through-hole 11 is formed, and is formed to protrude vertically on one side of the horizontal member 12 It consists of a vertical member 14 that supports the upper structure.

The through hole 11 of the horizontal member 12 is a hole for providing the connecting member 20 and the anchor bolt 40 for fixing the horizontal member 12 to the lower structure 200.

The connecting member 20 is inserted into the through hole 11, and a thread is formed on an inner circumferential surface thereof so that the connecting member 20 may be coupled to the anchor bolt 40.

Here, the through hole 11 has a wedge shape or one or more stages having a larger size than that of the lower portion, and thus, the connection member 20 is formed to correspond to the through hole 11. By doing so, the connection member 20 can be freely moved to the upper portion of the through hole 11 and prevented from being separated downward.

The lower member 30 is vertically provided in the lower portion of the horizontal member 12 is embedded in the lower structure, the receiving groove 32 of a predetermined length is formed and the thread is formed on the inner peripheral surface of the receiving groove 32 It can be fastened with the anchor bolt 40.

Here, the receiving groove 32 is in communication with the through hole 11 vertically so that the anchor bolt 40 can be coupled.

The anchor bolt 40 is inserted into the connecting member 20 and the lower member 30 is coupled by a screw thread.

The length Ls of the receiving groove 32 of the lower member 30 is not relatively smaller than the length La of the anchor bolt 40.

If the anchor bolt 40 continues to move to the lower side of the receiving groove 32 by the rotation, the anchor bolt 40 can be separated from the connecting member 20 is the support structure 10 to the upper structure ( 100) and the substructure 200 can be easily separated from.

More preferably, the lower member 30 receiving groove length Ls may be determined based on a jack up operation.

That is, when the jack-up operation, so as not to be smaller than the length minus the jack-up amount from the length (La) of the anchor bolt (40).

Here, the jackup amount means the change length of the upper structure 100 by the jackup.

Typically, the jackup amount is to be worked within 10mm.

Portions of the horizontal member 12 and the connecting member to be in contact with each other are to be filled with a gap to prevent foreign matter from penetrating, the filling process may be used, for example, rust preventive oil, caulking or plunging.

In addition, the portion of the connecting member 20 and the anchor bolt 40 to be in contact with each other to be a gap filling treatment to prevent foreign matter penetration, the filling treatment may be used, for example, rust preventive oil, caulking or plugging.

Therefore, the horizontal load applied from the horizontal member is the connecting member 20 adjacent to the horizontal member 12, the anchor bolt 40 adjacent to the connecting member 20, the lower member 30 adjacent to the anchor bolt 40, the It is transmitted to the ground through the lower structure 200 and the lower member 200 adjacent to the lower member 30, the negative reaction force applied from the horizontal member is coupled to the connecting member 20 and the connecting member 20 in a unitary form, the horizontal member 12 The anchor bolt 40, the lower member 30 is coupled to the anchor bolt, the lower member is transmitted to the ground through the buried lower structure 200. Therefore, the load transfer function as an anchor bolt is sufficient.

However, if there is a problem in the device and needs to be replaced, the gap between the upper structure and the lower structure is wide, so that it is possible to replace it when it is possible to loosen the anchor bolts. This can be easily solved by the anchor bolt system.

6 shows an example of a procedure for removing the support device by separating the anchor bolt.

Referring to FIG. 6, which is an embodiment of the present invention, as shown in steps 1 and 2, the anchor bolt 40 is rotated so that the lower member (a) corresponds to the portion L2 corresponding to the excess fastening means of the lower member 30. 30, push it deeper by the length of the anchor bolt protruding from L1, and then pull out the connecting member 20 as shown in step 3, and then jack up the superstructure 100 as shown in step 4. The support device 10 is laterally pulled out between the upper structure 100 and the lower structure 200. Then repair the device and reinstall in reverse order.

Therefore, the minimum space required for removing and re-installing the device is sufficient to push the anchor bolt into the portion corresponding to the excess fastening means of the lower member 30.

7 is a cross-sectional view of the anchor bolt system according to another embodiment of the present invention.

Referring to Figure 7, the anchor bolt 40 is characterized in that the tool fastening groove 70 is formed on the upper surface can be easily loosened or tightened by fastening with a tool in a narrow space.

The connecting member 20 is characterized in that the tool fastening groove is formed on the upper surface can be easily loosened with the anchor bolt 40 by fastening with a tool in a narrow space.

The cover plate 60 is provided on the connection member 20 to seal the inside to prevent foreign matter from penetrating into the anchor bolt 40 and the connection member 20.

The same applies to the case where the anchor bolt system is provided in the superstructure.

The lower end of the lower member 30 is characterized in that the plate having a relatively larger cross section than the lower member cross-section is integrally provided so as to be more resistant to negative reaction.

As described above, the present invention has a main technical idea to provide an anchor bolt system that can be removed and reinstalled even when the anchor bolt is very small and it is difficult to remove the anchor bolt. Within the scope of the basic idea of the present invention is only an embodiment, of course, many other modifications are possible to those of ordinary skill in the art.

100; Superstructure 200; Substructure
10; Support 12; Horizontal member
14: vertical member 20: connecting member
30; Lower member 40: anchor bolt
60; Cover plate 70; Tool Tightening Groove
80; Nut 90; Compression plate

Claims (9)

In the anchor bolt system is installed between the upper structure 100 and the lower structure 200,
A supporting device (10) comprising a horizontal member (12) coupled to an upper portion of the lower structure and having a through hole formed therein, and a vertical member (14) protruding perpendicularly to one side of the horizontal member to support the upper structure;
A connection member 20 inserted into the through hole and having a screw thread formed on an inner circumferential surface thereof;
A lower member 30 provided perpendicular to the lower portion of the horizontal member and buried in the lower structure, the receiving groove having a predetermined length and a screw thread formed on an inner circumferential surface of the receiving groove; And
Anchor bolt system, characterized in that it includes; anchor bolt 40 is inserted into the connecting member and the lower member to be fastened. The method of claim 1,
Length Ls of the receiving groove of the lower member 30,
Anchor bolt system, characterized in that the anchor bolt is less than the length (La) of the jackup minus less than. The method of claim 1,
The anchor bolt 40,
Anchor bolt system, characterized in that the tool fastening groove 70 is formed on the upper surface. The method of claim 1,
The through hole 11 has a wedge shape or one or more stages having a larger size than that of a lower portion,
The connecting member 20 is anchor bolt system, characterized in that formed to correspond to the through hole. The method of claim 1,
The connecting member 20,
Anchor bolt system, characterized in that the tool engaging groove is formed on the upper surface. The method of claim 1,
In the parts in contact with each other of the horizontal member 12 and the connecting member 20,
Anchor bolt system, characterized in that the gap is filled to prevent foreign matter penetration. The method of claim 1,
In the parts in contact with each other of the connecting member 20 and the anchor bolt 40,
Anchor bolt system, characterized in that the gap is filled to prevent foreign matter penetration. The method of claim 1,
On the connecting member 20,
Anchor bolt system, characterized in that the cover plate 60 is provided to seal the inside. The method of claim 1,
At the bottom of the lower member 30,
Anchor bolt system, characterized in that integrally provided with a plate having a cross section relatively larger than the cross section of the lower member so as to be more resistant to negative reaction forces.

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