KR101401548B1 - A bridge bearing - Google Patents

Abstract

The present invention relates to a bridge bearing that can reduce working time and improve the convenience of a worker when a sliding plate is replaced, which comprises: an upper side plate that has a fixing groove in which a fixing protrusion can be formed in two points at both sides; a sliding plate that is formed to come in contact with the lower side of the upper side plate; a lower side plate that has a wedge coupling groove on the same location of the fixing groove on the upper side plate; a pair of wedges which is coupled to the wedge coupling groove of the lower side plate by a coupling bolt; and a mason plate that is coupled to the lower side of the lower side plate and which includes a wedge containing part formed on the lower side of a wedge in order for the wedge to be received by lowering the wedge when releasing the coupling bolt that couples the lower side plate to the wedge. As the upper side plate can be separated for the work after lowering the wedge to the wedge containing part when replacing the sliding plate, the work time can be reduced and the convenience of the user can be improved. And at a normal time, as the coupling bolt is coupled when a certain horizontal length of the wedge are being contained in the wedge containing part, it is possible to successfully limit the movement of an upper plate of the bridge, and the number of anchor bars can be reduced as the wedge containing part that contains the wedge plays the same function of an anchor bar. Also the present invention can enhance the durability as it prevents water from entering into the wedge containing part by introducing a sealing material in the wedge containing part.

Description

A bridge bearing

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tilting apparatus capable of shortening a working time and an operator's convenience when replacing a sliding plate.

In general, the bridge device is a device that transmits the impact load acting on the upper part of the bridge to the lower structure and absorbs the impact, which is a structural element in durability and safety of the entire bridge structure.

These bridge devices are implemented by various devices and methods. In recent years, by absorbing the relative displacement caused by temperature change, wind, support shock, etc. or the horizontal force of the bridge top plate, the seismic function of the bridge is smoothly In order to prolong the durability of the bridge, a spillway-type survey device is installed between the bridge top plate and the bridge.

The above-described spherical coordinate system has been proposed in the Registration Practice Model No. 20-0398506 entitled " Spherical Type Bridge Calculation Apparatus ".

Briefly, the sliding plate is coupled between an upper plate including a locking portion, a groove in an inner central portion, and a lower plate including wedges on both sides thereof.

A side block for preventing a negative reaction force is coupled to the wedge of the lower plate. The side block is coupled to the space between the latching portion formed on the upper plate and the latching portion to limit the behavior to one side Consists of.

The spherical quasi apparatus of the above construction has a structure in which the sliding plate including the inner rubber pad can be replaced, which is very practical.

In the sliding plate replacing operation of the spherical type quadrature apparatus, the side block coupled to the wedge of the lower plate is disengaged and the upper plate is lifted by pulling up the bridge upper plate through the bridge lifting jack.

This is because it is difficult to replace the sliding plate when there is no removal operation of the upper plate due to interference between the latching portion of the upper plate and the wedge formed on the lower plate.

When the removal of the upper plate is completed as described above, the replacement operation is completed by removing the existing sliding plate and joining the new sliding plate.

However, when replacing the sliding plate through the above-described replacement method, the time required to raise the bridge upper plate must be very narrow and the height of the bridge plate should be increased to a level at which the interference between the latching portion and the wedge does not occur. The plate has to be lifted, so that there is a risk that the work is dangerous and the working time is prolonged.

In order to solve such a problem, Korean Patent No. 10-0643015 (October 31, 2006) proposed a maintenance-enabled Spherical-type coordinate system.

The basic structure of the above-mentioned registered patent is similar to the above-mentioned registration utility model.

However, if the engagement plate formed on the upper plate is divided at the upper plate and then fastened through the bolts, interference between the wedge and the bridge plate is prevented by the impression jack, So that it can be raised to a low height so as to shorten the working time.

Normally, the calibration apparatus is structured to be always influenced by the behavior acting in the direction of the throttling axis or the direction perpendicular to the throttling axis.

In the case of the above-mentioned registered patent, the wedge comes in contact with the latching portion engaged with the upper plate, so that the behavior of the upper plate is restricted. At this time, when the behavior of the bridge upper plate coupled with the upper plate occurs, The shear force of the bolt and the shear force connecting the wedge and the side block.

In order to limit the behavior of the bridge only by the shear stress of the bolt as described above, there is a problem in limiting the behavior of the upper plate coupled with the bridge top plate because the amount of load generated during the movement is much larger than the shear force of the bolt. There is a problem that a greater amount of stress is generated in the fastening bolt connecting the fastening portion and the upper plate, and there is a high possibility of occurrence of shearing.

In order to solve such a problem, there is a method of forming the size of the upper plate to be larger. In this case, the size of the whole spermic needs to be increased, which leads to a problem of design and an increase in the overall manufacturing cost.

In order to solve the above-mentioned problems, the present invention provides a sliding apparatus for sliding a sliding plate, comprising a wedge capable of moving up and down and a wedge receiving part capable of receiving the wedge, The present invention has been made in view of the above problems.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems in the prior art by replacing a sliding plate with an upper plate and a wedge by moving the wedge.

Since the wedge is lowered to the wedge compartment when the sliding plate is replaced and the upper plate is separated, the operation time can be shortened and the convenience of the operator can be improved.

In addition, the fastening bolts are fastened in a state that a predetermined length of the wedge in the normal direction is always stored in the wedge accommodating portion at all times, so that the behavior of the bridge top plate can be smoothly restricted.

And the wedge receiving part for receiving the wedge acts in the same manner as the anchor bar, so that the number of the anchor bars can be reduced.

In addition, it is a useful invention to improve the durability by introducing a sealing material into the wedge storage portion to block the inflow of water into the wedge storage portion.

1 is a perspective view showing an installation state of a spherical coordinate measuring apparatus according to the present invention;
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
Fig. 3 is a sectional view of Fig. 1; Fig.
4 is a perspective view showing an impression bolt for raising a wedge;
5 is a cross-sectional view illustrating an elastic support type confusion apparatus according to the present invention.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings. In the present embodiment, a configuration and an operation effect will be described by using a conventional spherical coordinate system, And that it can be applied to all teaching devices that apply to

1, the present invention is formed between a sole plate 1 and a pierce S on the lower side of a bridge upper plate P. [

First, the upper plate 10 is arranged to be able to engage with the above-described bridge top plate P, more specifically, the sole plate 1 below the bridge top plate P as shown in Figs.

The upper plate 10 is formed in a substantially I-letter shape in plan view with a latching groove 12 formed between the two latching protrusions 11 on both sides.

Next, the sliding plate 20 including the convex jaws 21 on the lower side is formed on the lower side of the upper plate 10 so as to absorb the movement of the bridge upper plate P while allowing the smooth movement to be performed And the detailed description thereof will be omitted.

The lower plate 30 is disposed below the sliding plate 20 so that the sliding plate 20 can be formed between the upper and lower plates 10 and 30.

The lower plate 30 is formed with a concave groove 31 having a shape similar to that of the convex jaw 21 of the sliding plate 20 so as to be coupled to the sliding plate 20 at an inner center thereof, And a wedge joint groove 32 is formed on the side surface.

The wedge engaging groove 32 is formed on a side surface of the upper plate 10 where the engaging protrusion 11 and the engaging groove 12 are formed. It may be formed in the same shape as the groove 12.

The wedge joint groove 32 is formed with a fastening groove h for fastening the fastening bolt B thereto.

The wedge 40 is configured to be able to engage with the wedge coupling groove 32 of the lower plate 30. The wedge 40 is formed in a substantially rectangular shape so as not to be separated from the wedge coupling groove 32 And is configured to have the same shape and dimensions as those of the wedge coupling groove 32.

A coupling hole H is formed in the wedge coupling groove 32 so as to be coupled to the coupling groove h formed in the coupling groove 32 of the lower plate 30 by the coupling bolt B .

The side blocks 50 are engaged with the engagement grooves 12 so as to limit the behavior of the vertical bars 51 and the upper plate 10 engaged by the wedge 40 and the fastening bolts B, The horizontal bar 52 is formed in a substantially L-shape.

The side block 50 forms a coupling hole H for coupling with the wedge 40 and a coupling groove h is formed in the corresponding wedge 40.

Although the side block 50 and the coupling hole H and the coupling groove h are formed in the side block 50 and the coupling hole H and the coupling groove h are formed in the present embodiment, May be disposed in the latching groove 12 of the upper plate 10.

Next, the mason plate 60 is coupled to the lower side of the lower plate 30 on the upper side, and is coupled to the upper end of the pierce S on the lower side.

A wedge accommodating portion 61 that is capable of accommodating the wedge 40 at the same position as the position where the wedge 40 engaging with the wedge coupling groove 32 of the lower plate 30 is disposed, Is formed.

The wedge compartment 61 is open on the upper side, and the front, rear, left, right side and lower side are clogged.

The wedge receiving portion 61 is embedded in the pierce S together with the anchor bar 63.

After the release wedge 40 of the fastening bolt B that has coupled the lower plate 30 and the wedge 40 is received in the wedge receiving portion 61 of the mason plate 60, A pulling bolt groove 41 may be formed on the upper side of the wedge 40 as shown in FIG. 4, and a pulling bolt 42 may be further provided.

The wedge 40 of the present invention is formed to have a length of 20 to 50% of the entire length of the wedge 40 in the vertical direction of the mason plate 60 when the wedge 40 is coupled to the lower plate 30 by the fastening bolts B. It is preferable to be configured to be inserted into the wedge storage portion 61. [

In addition, the entrance side of the wedge receiving portion 61 of the mason plate 60 may further include a sealing material 61a for preventing inflow of water into the wedge receiving portion 61.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

First, the present invention operates normally in response to the behavior of the bridge.

Particularly, in the present invention, the wedge 40 of the upper plate 10 is joined to the lower plate 30 by a fastening bolt B in the normal state, and further, a part of the wedge 40, 20 to 50% of the total length of the bridge is inserted into the wedge accommodating portion 61 of the mason plate 60 so that shearing due to shear stress does not occur even when the bridge is static, .

Meanwhile, the sliding device 20 of the present invention, which operates according to the behavior of the bridge while supporting the bridge in the usual manner, must be replaced when the sliding device 20 is used for a predetermined period of time.

The sliding movement of the sliding plate 20 can be easily performed when the sliding plate 20 is worn after being installed on the bridge as described above.

In terms of its effect,

If there is a need to replace the sliding plate 20 during use of the co-ordinate apparatus 100 of the present invention, the engagement bolts B joining the wedge 40 and the side block 50 are disengaged and removed The side block 50 is disassembled (in the case of the elastic supporter, it may be omitted)

Thereafter, the coupling between the wedge coupling groove 32 of the lower plate 30 and the coupling bolt B coupling the wedge 40 is released and removed.

Then, the wedge 40 is inserted in the direction of the wedge receiving portion 61 of the mason plate 60.

Therefore, as described in the related art, when the wedge 40, which interferes with the latching jaw 11 of the upper plate 10, is lowered, factors that may cause interference are removed, The upper plate 10 is moved in a state where the lifting operation of the bridge upper plate P is carried out at a lower height to replace the existing sliding plate 20. [

That is, in the present invention, since the pull-up jack is not used or pulled up to a low height when pulling up through the pull-up jack, it is possible to shorten the working time and the operator's convenience.

When the sliding plate 20 is completely replaced, the wedge 40 is moved up and down in the state where the upper plate 10 is disposed at the first position, and then the wedge 40 is moved to the wedge engaging groove 32 of the lower plate 30 The fastening bolt B is fastened to the fastening hole h formed in the wedge 40 and the side block 50 is fastened to the fastening bolt B on the wedge 40, So that the replacement operation of the sliding plate 20 can be completed.

That is, according to the present invention, since the behavior is restrained smoothly even when the bridge is normally in operation, it is possible to shorten the working time and the convenience of the operator at the time of replacing the sliding plate 20.

In the present invention, the sealing member 61a is further provided on the entrance side of the wedge receiving portion 61 of the mason plate 60 so as to block the water that may flow into the wedge receiving portion 61, Can also be improved.

In the meantime, all the tensioning devices are constructed so as to improve fixation force in the bridge pier S by providing a structure capable of fixing a coordinate system such as a stud bolt or a socket when installed on the bridge pier S, The wedge receiving portion 61 formed in the wedge receiving portion 60 has a structure in which the wedge 40 is embedded in the piercings S together with the constituent elements. It is possible to obtain the effect of reducing the number of the anchor bars 63 since the bar 63 acts to generate a fixing force.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. And is obvious to those of ordinary skill in the art.

1: sole plate P: bridge top plate S: pier
10: upper plate
11: latching jaw 12: latching groove
20: Sliding plate
21: convex jaw
30: Lower plate
31: concave groove 32: wedge joint groove
40: Wedge
41: fastening bolt groove for pulling up 42: fastening bolt for pulling up
50: Side block
51: vertical bar 52: horizontal bar
60: mason plate
61: wedge receiving portion 61a: sealing material 62: anchor bar fastening bolt 63: anchor bar
100:

Claims (5)

An upper plate (10) having a latching groove (12) formed on both sides so that the latching jaws (11) can be formed at two positions;
A sliding plate 20 formed to abut the lower surface of the upper plate 10;
A lower plate 30 having a wedge coupling groove 32 and a coupling groove h formed in the wedge coupling groove 32 at the same position as the position where the latching groove 12 of the upper plate 10 is formed;
A pair of wedges 40 including a fastening groove h and a fastening hole h for fastening the fastening bolt B to the fastening groove h of the wedge fastening groove 32 of the lower plate 30, ;
A side block 50 consisting of a vertical bar 51 formed with a fastening hole H corresponding to the fastening groove h of the wedge 40 and a horizontal bar 52 bent from the vertical bar 51 );
The wedge 40 is lowered so that the wedge 40 is lowered when the lower bolt B is coupled to the lower plate 30 and the lower plate 30 is engaged with the wedge 40. [ And a mason plate (60) including a wedge receiving portion (61) having a sealing member (61a) on the entrance side thereof,
A pulling bolt groove 41 is further formed on the wedge 40 coupled to the lower plate 30 so that the wedge receiving portion 61 of the mason plate 60 is pulled by the pulling bolt 42, Is configured to be able to pull up the wedge (40) by engaging the pulling fastening bolt (42) with the pulling fastening bolt groove (41) in a state where the wedge (40) is housed.
delete The wedge (40) according to claim 1, wherein the wedge (40) engaged with the lower plate (30) has a length of 20 to 50% A calibration device characterized by.
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