KR102369386B1 - Sear key apparatus for bridge with spacer - Google Patents

Abstract

Disclosed is a shear key apparatus for a bridge in which a spacer is installed. The shear key apparatus for the bridge in which the spacer is installed may comprise: a plurality of support units installed on a lower part of a girder of the bridge; a support base which is installed on an upper part of the plurality of support units, wherein a plurality of support protrusion units extending in the first direction are formed on the upper surface of the support base, and wherein a shear groove is formed between the support protrusion units; a shear key which is supported on the support protrusion unit in an upper part of the support base, wherein and a key protrusion unit inserted into a shear groove protrudes at a lower part, and wherein the upper surface supports the girder of the bridge; and a spacer unit for maintaining an installation distance between the support base and the shear key. The spacer unit may be removed in a status in which the shear key is constructed on an upper side of the support base. An objective of the present invention is to provide the shear key apparatus for the bridge, installed with the spacer in which height adjustment is made stably.

Description

Shear key device for bridges with spacers installed {SEAR KEY APPARATUS FOR BRIDGE WITH SPACER}

The present invention relates to a shear key device for a bridge in which a variable spacer of the installation height of the shear key is installed.

In general, a shear key for seismic reinforcement may be installed in the lower part of the girder of the bridge.

These shear keys are installed in various forms to prevent the bridge from falling off the upper structure due to natural disasters such as earthquakes, and may be installed to enable seismic design.

However, the conventional shear key has a problem in that it is not easy to adjust the installed height during the installation process, so that the stable installation is not made to have sufficient durability for earthquake-resistant reinforcement of the bridge.

An embodiment of the present invention is to provide a shear key device for a bridge installed with a spacer, the height adjustment is made stably in the construction process of the shear key installed on the lower part of the girder of the bridge.

One embodiment of the present invention is a shear groove between a plurality of support parts installed on the lower part of the girder of the bridge, and a plurality of support parts installed on the upper surface of the plurality of supports and extending in the first direction on the upper surface of the support protrusions The formed support base, supported by the support protrusion in the upper part of the support base, a key protrusion inserted into the shear groove protrudes at the lower part, and the upper surface is a shear key supporting the girder of the bridge, and the installation distance between the support base and the shear key is maintained It may include a spacer unit. The spacer part may be removed in a state in which the shear key is constructed on the upper side of the support base.

The spacer portion includes a first spacer plate that is in surface contact with the front surface of the support base and the front surface of the shear key. It may include a second spacer plate surface-contacting the rear surface of the support base and the rear surface of the shear key, and a fixing member for fixing each of the first spacer plate and the second spacer plate to the support base and the shear key.

It is inserted between the support protrusion of the shear key and the lower surface of the support base, the shear key may further include a pressing member for varying the height installed on the upper side of the support protrusion.

The pressing member may include a support plate installed on the side of the support base, and a pressure protrusion inserted with a pressing force between the support protrusion and the lower surface of the support base in the support plate to vary the separation distance between the shear key and the support base. there is.

The pressing protrusion may be a screw bolt that is installed on the support plate by screwing, and a conical wedge is formed at an end thereof, and is inserted between the support protrusion and the lower surface of the support base.

A ruler may be marked on the surface of the head of the screw bolt.

It may further include a level for measuring the installed horizontal state of the shear key.

A corrugation portion may be formed on the support plate.

According to one embodiment of the present invention, the shear key for supporting the girder on the supporting base is installed in a state spaced apart from the supporting base by a certain distance, and when an earthquake occurs, the excessive horizontal displacement of the girder is appropriately limited to limit the girder can prevent the occurrence of deviations. Accordingly, it is possible to easily reinforce the seismic reinforcement of the bridge at a low cost.

According to an embodiment of the present invention, if precision construction is not performed when installing the shear key, the shear key is damaged due to horizontal displacement and rotational displacement of the upper structure such as a girder, etc., and does not operate normally. However, in the embodiment, precision construction is possible with the designed separation distance of the shear key, so that damage to the shear key does not occur and smooth normal operation is possible.

1 is a perspective view schematically showing a shear key device for a bridge installed with a spacer according to a first embodiment of the present invention.
Figure 2 is an exploded perspective view schematically showing the shear key device for a bridge installed with the spacer of Figure 1.
3 is a view schematically showing a pressing protrusion of the pressing member according to the first embodiment of the present invention.
Figure 4 is a perspective view schematically showing a shear key device for a bridge installed with a spacer according to the first embodiment of the present invention.
5 is an exploded perspective view schematically showing a shear key device for a bridge installed with a spacer according to a second embodiment of the present invention.
6 is a perspective view schematically showing a shear key device for a bridge installed with a spacer according to a third embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those skilled in the art can easily carry out the present invention. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

Figure 1 is a perspective view schematically showing a shear key device for a bridge installed with a spacer according to an embodiment of the present invention, Figure 2 is an exploded perspective view schematically showing the shear key device for a bridge installed with a spacer of Figure 1, Figure 3 is a view schematically showing a pressing protrusion of a pressing member according to an embodiment of the present invention, Figure 4 is a perspective view schematically showing a shear key device for a bridge installed with a spacer according to an embodiment of the present invention.

1 to 4, the shear key device 100 for a bridge installed with a spacer according to an embodiment of the present invention, a plurality of supports 10 installed under the girder 11 of the bridge and, A support base 20 installed on the upper portion of the plurality of supports 10 and having a shear groove 21a formed between the plurality of support protrusions 21 and the support protrusions 21 extending in the first direction on the upper surface thereof; A key protrusion 31 supported by the support protrusion 21 in the upper part of the support base 20 and inserted into the shear groove 21a protrudes, and the upper surface is a shear key 30 supporting the girder of the bridge, and the support base ( 20) and a spacer portion 40 that maintains the installation position between the shear key 30 is included.

The support 10 is installed under the girder 11 of the bridge and may be installed in an anchor socket type in this embodiment.

Four such support units 10 may be installed to stably support the support base 20 . Of course, the support portion 10 is not necessarily limited to four supporting the support base 20, it is also possible to change and install an appropriate number in consideration of the size and support load of the support base 20.

The support base 20 is installed on the upper side of the plurality of support parts 10 , is installed at a lower position of the girder 11 , and may be installed to support the shear key 30 to be described later.

The support protrusion 21 may protrude from the upper surface of the support base 20 to support the shear key 30 .

The support protrusion 21 may be installed on the upper surface of the support base 20 to have a long length in the first direction. This support protrusion 21 is formed in a state in which a pair of protrusions formed in a long length in the first direction on the upper surface of the support base 20 is formed, and between the pair of support protrusions 21 is a shear groove 21a. ) can be formed.

Although the support protrusion 21 is exemplarily described as being formed in a long length in the first direction on the support base 20, it is not necessarily limited thereto, and it is also possible to change and apply appropriately so that a polygonal shear groove is formed. .

The shear key 30 may be installed on the upper side of the support protrusion 21 .

The shear key 30 is supported on the support protrusion 21 at the upper part of the support plate 51, and the key protrusion 31 inserted into the shear groove 21a protrudes from the lower part, and the upper surface supports the girder of the bridge. can be installed to

The shear key 30 has an upper surface installed to support the girder 11 , and the key protrusion 31 protruding at the bottom may protrude to be inserted into the shear groove 21a between the support protrusions 21 .

The shear key 30 is formed with a long length corresponding to the length of the support protrusion 21, and may be installed to have a rectangular planar shape in this embodiment.

In this way, the shear key 30 is installed on the upper side of the support plate 51 while supporting the girder 11 limits the excessive horizontal displacement of the bridge when an earthquake occurs, so that the departure of the girder 11 does not occur. in order to avoid

On the other hand, the shear key 30 is to be installed in a state spaced apart a certain distance from the upper side of the support plate 51, for this purpose, a spacer portion 40 that maintains the installation distance between the support base 20 and the shear key 30 is can be installed.

The spacer unit 40 may be temporarily installed on the upper side of the support plate 51 to maintain a state in which the shear key 30 is constructed to support the girder 11 .

That is, the spacer part 40 is installed to support the initial state of the shear key 30 supporting the girder 11 and the key protrusion 31 being constructed at an appropriate distance from the inside of the shear groove 21a. can The spacer part 40 may be removed in a state where the construction of the shear key 30 is completed.

More specifically, the spacer part 40 includes a first spacer plate 41 that is in surface contact with the front surface of the front surface of the support base 20 and the shear key 30, and the rear surface of the support base 20 and the shear key ( A fixing member for fixing the second spacer plate 43 surface-contacting the rear surface of 30 , and each of the first spacer plate 41 and the second spacer plate 43 to the support base 20 and the shear key 30 . (45) may be included.

The first spacer plate 41 may be installed to fix a state in which the shear key 30 is installed to support the girder 11 in a state in which the shear key 30 is spaced a predetermined distance from the upper side of the support base 20 .

This first spacer plate 41 is installed in the shape of a rectangular plate, and can be fixed by the fixing member 45 in a state in which the front surface of the support base 20 and the front surface of the shear key 30 are in surface contact. there is.

And, the second spacer plate 43 is installed to fix a state in which the shear key 30 is installed to support the girder 11 in a state in which the shear key 30 is spaced apart from the upper side of the support base 20 by a predetermined distance, the first spacer plate (41) can be installed in the opposite position installed.

This second spacer plate 43 is installed in the shape of a rectangular plate, and can be fixed by the fixing member 45 in a state in which the front surface of the support base 20 and the front surface of the shear key 30 are in surface contact. there is.

The fixing member 45 may be applied as a bolt member for detachably fixing the first spacer plate 41 and the second spacer plate 43 to the support base 20 and the shear key 30 . Hereinafter, the fixing member and the bolt member use the same reference numerals.

In this way, the first spacer plate 41 and the second spacer plate 43 are temporarily fixed to the support base 20 and the shear key 30 using the bolt member 45, and the construction of the shear key 30 is completed. Upon completion, the construction may be completed by removing the first spacer plate 41 and the second spacer plate 43 .

Meanwhile, slot holes 42 may be formed in the first spacer plate 41 and the second spacer plate 43 . Therefore, in a state in which the first and second spacer plates 41 and 43 are fixed using the bolt member 45 , the height adjustment of the shear key 30 can be stably performed by the slot hole 42 .

On the other hand, inserted between the lower surface of the shear key 30 and the support protrusion 21 of the support base 20, the shear key 30 is installed on the upper side of the support protrusion 21, the pressing member 50 for varying the height can be installed.

The pressing member 50 is installed so that the height at which the shear key 30 is installed can be appropriately varied. According to a length inserted into the space between the shear key 30 and the support base 20 , the shear key 30 may be installed to enable adjustment of the height of the installed upper portion of the support base 20 .

More specifically, the pressing member 50 includes a support plate 51 installed on a side surface of the support base 20 , and a lower surface of the support protrusion 21 and the support base 20 in the support plate 51 . It is inserted with a pressing force between the shear key 30 and the support base 20 may include a pressing protrusion 53 for varying the separation distance between the.

The support plate 51 may have one side connected to the support base 20 and the other side connected to the side of the shear key 30 . The support plate 51 is connected to the side of the support base 20 and the shear key 30 in a bent state, and may be installed to support the pressing protrusion 53 .

The support plate 51 may be formed of a metal material capable of elastic deformation and installed to support the pressing protrusion 53 .

The pressing protrusion 53 is fastened to the support plate 51 by screwing, and may be applied as a screw bolt having a conical wedge portion formed to a predetermined length at the end thereof. Hereinafter, the same reference numerals are used for the pressing protrusion and the screw bolt.

In this way, the screw bolt 53 is screwed to the support plate 51, and the wedge portion 53a is inserted between the shear key 30 and the support base 20 by rotational operation to adjust the depth. It is possible to adjust the appropriate installation height of the shear key 30.

Meanwhile, a ruler 53a may be displayed on the surface of the head of the screw bolt 53 . Therefore, it is possible to easily check the height displacement of the shear key 30 according to the rotation of the screw bolt 53 .

In addition, a level 60 may be installed in the shear key device 100 for a bridge installed with a spacer of this embodiment. Therefore, it is possible to stably install the shear key 30 in a state in which the horizontality is accurately maintained during the installation process.

As described above, the shear key device 100 for a bridge in which the spacer of this embodiment is installed is a shear key 30 supporting the girder 11 on the support base 20 in a state spaced apart from the support base 20 by a certain distance. When installed, when an earthquake or the like occurs, excessive horizontal displacement of the girder 11 is appropriately limited to prevent the girder 11 from being separated. Accordingly, it is possible to easily reinforce the seismic reinforcement of the bridge at a low cost.

5 is an exploded perspective view schematically showing a shear key device for a bridge installed with a spacer according to a second embodiment of the present invention. 1 to 4 and the same reference numerals refer to the same or similar members. Hereinafter, detailed descriptions of the same reference numerals will be omitted.

As shown in FIG. 5, in the shear key device 200 for a bridge installed with a spacer according to the second embodiment of the present invention, the first spacer plate 41 and the second spacer plate 43 are screwed together and fastened to A variable bolt 110 inserted between the support protrusion 21 of the shear key 30 and the support base 20 may be installed.

Accordingly, it is possible to assist in adjusting the height of the shear key 30 by adjusting the protruding length by the rotational operation of the variable bolt 110 .

6 is a perspective view schematically showing a shear key device for a bridge installed with a spacer according to a third embodiment of the present invention. 1 to 5 and the same reference numerals refer to the same or similar members. Hereinafter, detailed descriptions of the same reference numerals will be omitted.

As shown in Figure 6, the support plate 51 of the shear key device 300 for a bridge installed with a spacer according to the third embodiment of the present invention, the wrinkle portion 252 may be formed.

therefore. The wrinkle portion 252 may be installed to support a stable height variable action by further adding an elastic force to the height variable operation of the shear key 30 .

Although preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and it is possible to carry out various modifications within the scope of the claims, the detailed description of the invention, and the accompanying drawings, and this also It is natural to fall within the scope of

10...Support 11...Girder
20...Support base 21...Support protrusion
21a.. Shear groove 30... Shear key
31...key stone part 40...spacer part
41...first spacer plate 43...second spacer plate
45...Fixing member, bolt member 50...Pressing member
51...Support plate 53...Pressure protrusion
53a..wedge 110..variable bolt

Claims (8)

A plurality of supports installed on the lower part of the girder of the bridge;
a support base installed on an upper portion of the plurality of supports and having a plurality of support protrusions extending in the first direction and shear grooves formed between the support protrusions on the upper surface;
a shear key supported on the support protrusion in the upper part of the support base, a key protrusion inserted into the shear groove protrudes from the lower part, and the upper surface supports the girder of the bridge; and
a spacer portion for maintaining an installation distance between the support base and the shear key;
It is inserted between the lower surface of the shear key and the support protrusion of the support base, the shear key is a pressing member for varying the height installed on the upper side of the support protrusion; includes,
The spacer part is removed in a state in which the shear key is constructed on the upper side of the support base,
The pressing member is
a support plate installed on a side surface of the support base; and
The support plate is inserted with a pressing force between the support protrusion and the lower surface of the support base, the pressing protrusion for varying the separation distance between the shear key and the support base; a spacer installed shear key device for a bridge including a.
According to claim 1,
The spacer part,
a first spacer plate surface-contacting the front surface of the support base and the front surface of the shear key;
a second spacer plate surface-contacting the rear surface of the support base and the rear surface of the shear key; and
a fixing member for fixing each of the first spacer plate and the second spacer plate to the support base and the shear key;
Including, a shear key device for a bridge installed with a spacer.
delete delete According to claim 1,
The pressing protrusion,
It is installed by screwing on the support plate, the end of which is formed with a conical wedge, the screw bolt inserted between the support protrusion and the lower surface of the support base, a spacer-installed shear key device for a bridge.
6. The method of claim 5,
A shear key device for a bridge in which a ruler is displayed on the surface of the head of the screw bolt, a spacer is installed.
According to claim 1,
The shear key device for a bridge installed with a spacer, further comprising a level for measuring the installed horizontal state of the shear key.
According to claim 1,
The support plate has a wrinkle portion is formed, the shear key device for a bridge installed with a spacer.

Images