KR102414437B1 - Pendulum bridge bearing capable of presetting - Google Patents

Abstract

The present invention provides a preset pendulum bridge support, comprising: a lower plate installed on the upper side of the lower structure of the bridge and including a concave surface on the upper side; an upper plate installed on the lower side of the upper structure of the bridge and including a concave surface on the lower side; a slide installed between the concave surface of the upper side of the lower plate and the concave surface of the lower side of the upper plate, the slide including a concave surface of the upper plate and a convex surface corresponding to the concave surface of the lower plate at the upper and lower sides, respectively; As being installed over the upper plate and the lower plate while being the front of the lower plate and the upper plate, the upper plate with respect to the lower plate corresponds to the displacement of the upper structure before the upper structure of the bridge is installed on the upper side of the upper plate. a presetting device for pre-adjusting the relative position of
Therefore, the present invention enables easy and accurate presetting of the pendulum bridge bearing, thereby minimizing the vertical step difference occurring at the bridge joint, thereby improving vehicle drivability, and preventing damage to the bridge joint. have.

Description

PENDULUM BRIDGE BEARING CAPABLE OF PRESETTING

The present invention is a presettable pendulum bridge bearing, specifically by presetting before installing the bridge superstructure on the upper side of the pendulum bridge bearing to minimize the vertical step difference occurring at the bridge joint, and to improve vehicle drivability. In addition, the invention relates to a presettable pendulum bridge support that can prevent damage to the bridge joint.

The bridge includes a lower structure such as a pier and an abutment, an upper structure such as a girder and an upper plate installed on the upper side of the lower structure, and a bridge bearing installed between the lower structure and the upper structure.

The bridge bearing supports the load transmitted through the superstructure and absorbs shocks from earthquakes, expansion and contraction of the superstructure due to temperature changes, creep, and drying shrinkage, etc. There are various types.

Recently, pendulum bridge bearings have been widely used. Pendulum bridge bearings are designed using the principle of a pendulum, and the upper and lower plates and the slide installed between them change the natural period of the structure during an earthquake, accommodate the horizontal displacement of the structure, and lift the structure from the ground. It protects the structure by isolating it, and after the structure moves, it can be restored to its original position by gravity.

However, due to the structural characteristics of the pendulum bridge bearing, vertical displacement occurs during horizontal expansion and contraction of the bridge according to changes in temperature, etc., and the vertical displacement increases non-linearly as the horizontal expansion and contraction amount increases.

Therefore, in the case of pendulum bridge bearings, if presetting is not carried out in consideration of temperature changes, or if there is a large temperature change such as midsummer or midwinter, the upper and lower steps will be very large, and accordingly, the drivability of the vehicle will be deteriorated. , there is a problem in that the damage at the bridge joints continues to occur due to the impact caused by the step difference.

On the other hand, in the case of pendulum bridge bearings, the radius of curvature of the concave surface of the lower plate in contact with the lower concave surface of the slide is different from the radius of curvature of the concave surface of the upper plate in contact with the upper convex surface. As the displacement increases nonlinearly, it is not easy to perform presetting in consideration of changes in temperature, etc., so it is a reality that presetting is not performed after securing a margin of movement in the actual field.

Therefore, the development of a technology capable of easily and accurately presetting the pendulum bridge bearings has been requested.

Republic of Korea Patent Publication No. 10-2088819

The present invention has been devised to solve the above problems, and an object of the present invention is to minimize the vertical step difference occurring in the bridge joint by enabling easy and accurate presetting of the pendulum bridge bearing, and accordingly An object of the present invention is to provide a presettable pendulum bridge support that can improve vehicle drivability and prevent damage to bridge joints.

A presettable pendulum bridge bearing according to an example of the present invention includes: a lower plate installed on the upper side of the lower structure of the bridge and including a concave surface on the upper side; an upper plate installed on the lower side of the upper structure of the bridge and including a concave surface on the lower side; a slide installed between the concave surface of the upper side of the lower plate and the concave surface of the lower side of the upper plate, the slide including a concave surface of the upper plate and a convex surface corresponding to the concave surface of the lower plate at the upper and lower sides, respectively; As being installed over the upper plate and the lower plate while being the front of the lower plate and the upper plate, the upper plate with respect to the lower plate corresponds to the displacement of the upper structure before the upper structure of the bridge is installed on the upper side of the upper plate. It may include; a presetting device for pre-adjusting the relative position of the.

The presetting device is a lower member coupled to the front surface of the lower plate, an upper member coupled to the front surface of the upper plate, and is installed in the front and rear directions across the lower member and the upper member to adjust the position of the upper plate member may be included.

The upper member includes a coupling surface coupled to the upper plate, a locking surface convexly protruding from the center of the coupling surface, and an insertion hole elongated vertically on the locking surface, and one end of the adjusting member is the locking surface. While being caught on the surface, the position of the upper plate can be adjusted while flowing up and down along the insertion hole.

The adjusting member is screwed to the lower member, and by rotating the screw with respect to the lower member as the other end of the adjusting member is rotated, the relative position of the upper plate in the front-rear direction with respect to the lower plate can be adjusted. .

The lower member may include a first member coupled to the lower plate and a second member installed above the first member, and the adjusting member may be screwed to the second member.

It is installed between the first member and the second member and further includes a height adjustment member capable of adjusting the height, the height adjustment member includes a long hole formed in the vertical direction, it is possible to adjust the height by using the long hole.

A side surface of the lower plate and the upper plate as being installed over the upper plate and the lower plate, it may further include a presetting guide for guiding the movement of the upper plate by the adjustment of the presetting device.

The preset guide includes a fixing member coupled to the side surface of the lower plate and having a guide hole elongated in the front and rear directions, a guide member coupled to the side surface of the upper plate and protruding through the guide hole of the fixing member, the guide The member may move the upper plate in a stable state while moving along the guide hole of the fixing member according to the front and rear movement of the upper plate.

The guide hole of the fixing member is convex downward to correspond to the horizontal movement of the upper plate and the resulting vertical movement, and is inclined upward to both sides, and at the same time to both ends. have.

The fixing member includes a lower fixing member coupled to a side surface of the lower plate, an upper fixing member installed on an upper side of the lower fixing member, and a bolt coupling the lower fixing member and the upper fixing member, the lower fixing member and All of the upper fixing member or the bolt holes on either side are formed into long long holes up and down, so that the height can be adjusted.

The presetting guide may be characterized in that it is a pair installed side by side before and after.

The guide hole and the guide member may be characterized as a pair installed side by side before and after.

According to the present invention, by enabling easy and accurate presetting of the pendulum bridge bearing, it is possible to minimize the vertical step difference occurring at the bridge joint, thereby improving vehicle drivability, and to prevent damage to the bridge joint. can

1 is an exploded perspective view of a pendulum bridge support;
2 is a side view showing the shape of a presettable pendulum bridge bearing according to an example of the present invention;
Figure 3a is a view showing the state of the presetting device of the present invention,
Figure 3b is a front view and a cross-sectional view of the upper member of the presetting device of the present invention;
Figure 3c is an exploded view of the lower member of the presetting device of the present invention,
4 is an exploded side view of the presetting guide of the present invention;
Figure 5a is a view showing the state of installing the bridge superstructure on the upper side of the pendulum bridge support after presetting in the state that the superstructure of the bridge of the present invention is contracted to the left;
5b is a view showing a state in which the superstructure of the bridge of the present invention has reached the average annual temperature;
6a and 6b are side views showing the appearance of a presettable pendulum bridge bearing according to another example of the present invention;

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is between each component. may be “connected”, “coupled” or “connected”.

Hereinafter, a presettable pendulum bridge bearing according to an example of the present invention will be described with reference to the drawings.

1 is an exploded perspective view of a pendulum bridge support 10, FIG. 2 is a side view showing a presettable pendulum bridge support 10 according to an example of the present invention, and FIG. 3a is a presetting device of the present invention (20) is a view showing the state, Figure 3b is a front view and a cross-sectional view of the upper member 24 of the presetting device 20 of the present invention, Figure 3c is a lower member of the presetting device 20 of the present invention 22 is an exploded side view and a front view, FIG. 4 is an exploded view of the presetting guide 30 of the present invention, and FIG. 5a is a pendulum bridge after presetting in a state in which the upper structure of the bridge of the present invention is contracted to the left. It is a view showing the installation of the bridge superstructure on the upper side of the support 10, FIG. 5b is a view showing the state in which the superstructure of the bridge of the present invention has reached the average annual temperature, and FIGS. 6a and 6b are the views of the present invention It is a side view showing the appearance of a presettable pendulum bridge support according to another example.

Hereinafter, the front-rear direction refers to a longitudinal direction that is the throttle direction, and the left-right direction refers to a transverse direction that is perpendicular to the throttle axis.

A presettable pendulum bridge bearing 10 according to an example of the present invention includes a lower plate 12 installed on the upper side of the lower structure of the bridge and including a concave surface on the upper side; an upper plate (14) installed on the lower side of the upper structure of the bridge and including a concave surface on the lower side; It is installed between the concave surface of the upper side of the lower plate 12 and the concave surface of the lower side of the upper plate 14, and the concave surface of the upper plate 14 and the convex surface corresponding to the concave surface of the lower plate 12 on the upper and lower sides. slides 16 each comprising a face; The front surface of the lower plate 12 and the upper plate 14 and installed over the upper plate 14 and the lower plate 12, before the upper structure of the bridge is installed on the upper side of the upper plate 14. and a presetting device 20 for pre-adjusting the relative position of the upper plate 14 with respect to the lower plate 12 in response to the displacement of the upper structure.

The substructure of the bridge includes an abutment, a pier, and the like. In addition, the superstructure of the bridge includes a bridge top plate, a girder, and the like.

The lower plate 12 may be installed on an upper side of a substructure such as an abutment or a pier. The lower plate 12 may be fixed to an abutment, an upper side of a pier, etc. with an anchor bolt or the like. A concave surface may be formed on the upper side of the lower plate 12 . The concave surface of the lower plate 12 corresponds to the convex surface of the lower side of the slide 16 .

The upper plate 14 may be installed on the lower side of the bridge top plate, girder, and the like. The upper plate 14 may be fixed by anchor bolts or the like to the lower side of the upper plate, girder, etc. of the bridge, or fixed by welding or the like. A concave surface may be formed on the lower side of the upper plate 14 . The concave surface of the lower side of the upper plate 14 corresponds to the convex surface of the upper side of the slide 16 .

The slide 16 may include a convex surface on the upper side and the lower side, respectively. The slide 16 may be installed between the concave surface of the upper side of the lower plate 12 and the concave surface of the lower side of the upper plate 14 . The upper and lower convex surfaces of the slide 16 may be in contact with the concave surface of the lower side of the upper plate 14 and the concave surface of the upper side of the lower plate 12 , respectively.

The radius of curvature of the concave surface of the upper plate 14 is larger than the radius of curvature of the concave surface of the lower plate 12 .

Accordingly, the horizontal movement of the upper plate 14 due to displacement of the upper structure due to temperature, creep, drying shrinkage, etc. can be counteracted by rotation of the slide 16 . That is, in response to the horizontal displacement of the superstructure, the slide 16 may rotate to respond.

The rotation of the slide 16 due to the horizontal displacement of the upper plate 14 inevitably causes vertical displacement (vertical displacement) of the upper plate 14 and, accordingly, the vertical displacement of the bridge deck or girder. In this vertical displacement, as the horizontal displacement increases, the width of the displacement increases non-linearly. Therefore, if presetting is not performed, a large vertical displacement may occur, which may deteriorate vehicle drivability and may cause damage to the bridge joint. In particular, such a problem can occur greatly when a bridge is constructed during periods such as midsummer and midwinter.

On the other hand, in the case of the pendulum bridge bearing 10, as the horizontal displacement increases, the vertical displacement increases non-linearly, so it is not easy to preset in consideration of the displacement due to temperature, etc. Therefore, in the actual field, it is a reality that presetting is not performed after securing a margin of movement without presetting.

The presetting device 20 of this embodiment is the front surface of the lower plate 12 and the upper plate 14 and is installed over the upper plate 14 and the lower plate 12, and the upper structure of the bridge is the upper part. The relative position of the upper plate 14 with respect to the lower plate 12 may be adjusted in advance in response to the displacement of the upper structure before being installed on the upper side of the plate 14 .

The presetting device 20 includes a lower member 22 coupled to the front surface of the lower plate 12 , an upper member 24 coupled to the front surface of the upper plate 14 , the lower member 22 and the It may include an adjustment member 26 installed in the front-rear direction over the upper member 24 to adjust the position of the upper plate 14 .

The upper member 24 includes a coupling surface 242 coupled to the upper plate 14 , a stopping surface 244 protruding vertically and convexly from the center of the coupling surface 242 , and the engaging surface 244 . ) may include an insertion hole 246 elongated vertically in the center. One end of the adjusting member 26 may adjust the position of the upper plate 14 while being caught on the engaging surface 244 and flowing up and down along the insertion hole 246 .

That is, the upper member 24 may be coupled with a bolt or the like after the locking surface 244 is formed so that the center thereof is convex and protrudes toward the front, and both sides thereof come into contact with the upper plate 14 . The insertion hole 246 may be formed so that the upper and lower sides are blocked, or open in the upper or lower direction. An adjustment member 26 to be described later can be easily inserted through this open portion. If it is not opened, the upper end or lower end of the insertion hole 246 may be formed to be large so that the end of the adjusting member 26 may be inserted. Forming the insertion hole 246 vertically up and down can accommodate the vertical displacement of the upper plate 14 that occurs during the presetting process of the upper plate 14 .

The adjusting member 26 is screw-coupled to the lower member 22 to be described later, and the relative position of the upper plate 14 in the front-rear direction with respect to the lower plate 12 can be adjusted by screw rotation. That is, the adjustment member 26 advances the upper plate 14 when it rotates while one end of the adjusting member 26 is inserted into the engaging surface 244 , that is, inserted between the engaging surface 244 and the upper plate 14 . can be pushed back or retreated. The adjustment member 26 may be formed of bolts or the like, and may be formed by welding a ring or the like to one end. In addition, the other end of the adjustment member 26 may be formed of a bolt head. Therefore, as the bolt head of the adjusting member 26 is rotated, the adjusting member 26 may move in the front-rear direction in the lower member 22 and the upper plate 14 may move in the front-rear direction at the same time.

The lower member 22 is formed as a single member, the lower part is coupled to the lower plate 12 with bolts or the like, and the adjusting member 26 is screwed to the upper part to move in the front-rear direction.

In addition, the lower member 22 includes a first member 222 coupled to the lower plate 12 with a bolt or the like, and a second member 224 coupled to the upper side of the first member 222 with a bolt or the like. and the adjusting member 26 may be screwed to the second member 224 . The first member 222 and the second member 224 may have long holes formed on either side or on either side to adjust the vertical height. This makes it possible to apply to the pendulum bridge bearing 10 of various shapes and sizes. In addition, it may further include a height adjustment member 226 installed between the first member 222 and the second member 224 to adjust the height. The height adjusting member 226 includes a long hole formed vertically in the vertical direction, and the height can be adjusted by using the long hole. That is, the height of the second member 224 can be adjusted by using the long hole formed in the height adjusting member 226 .

Side of the lower plate 12 and the upper plate 14 and installed over the upper plate 14 and the lower plate 12, the upper plate 14 by the adjustment of the presetting device 20 It may further include a presetting guide 30 for guiding the forward and backward movement.

The preset guide is a fixing member 32 having a lower side coupled to the side surface of the lower plate 12 with bolts, etc., and a guide hole 34 formed long in the front-rear direction on the upper side, on the side of the upper plate 14 It may include a guide member (36) coupled and protruding through the guide hole (34) of the fixing member (32). The guide member 36 moves along the guide hole 34 of the fixing member 32 according to the front-back direction movement of the upper plate 14 so that the upper plate 14 can be moved in a stable state. .

The guide hole 34 of the fixing member 32 is convex downward to correspond to the horizontal movement of the upper plate 14 and the resulting vertical movement, and is inclined upward to both sides, and at the same time to the both ends, the degree of upward is increased. It can be formed into a curved shape that greatly increases. That is, the guide hole 34 of a curved shape whose upward degree greatly increases toward both ends is the horizontal level of the upper plate 14 of the pendulum bridge bearing 10 that occurs according to changes in temperature, etc. in the upper structure of the bridge. It is the same as the trajectory of the guide member 36 according to the displacement and the vertical displacement occurring at the same time.

2 and 5 , the guide hole 34 is exaggerated slightly in the vertical direction so that it can be easily grasped.

Referring to FIG. 5A , it can be seen that the fixed end is located on the left, and the upper structure of the bridge is installed after presetting the pendulum bridge support 10 of FIG. 5A , which is the movable end position.

That is, when the bridge is constructed at a time when the temperature changes the most from the average annual temperature, such as in midwinter, the presetting is adjusted so that the upper plate 14 is located in a state that is greatly skewed to the left. In this case, the slide 16 rotates clockwise, and at the same time, the upper plate 14 moves to the left and upward at the same time. In this state, the upper structure of the bridge is mounted on the upper side of the upper plate 14 and the upper plate 14 is fixed to the upper structure of the bridge. Thereafter, the presetting device 20 and the presetting guide are removed. Then, when the season reaches the average annual temperature as in spring, the upper plate 14 moves downward while being positioned in the center of the lower plate 12 (see FIG. 5B ).

By presetting in this way, the upper plate 14 reciprocates from the center of the lower plate 12 to the left and right to the same degree, and the displacement in the vertical direction is minimized, and the step at the bridge joint is minimized, Vehicle drivability is good, and damage at joints can be significantly reduced.

If, in the case of construction in midsummer, the upper plate 14 is preset to be located to the right, and then the upper structure is mounted on the upper plate 14 and fixed.

The fixing member 32 includes a lower fixing member 322 coupled to the side surface of the lower plate 12 , an upper fixing member 324 installed on an upper side of the lower fixing member 322 , and the lower fixing member 322 . ) and a bolt for coupling the upper fixing member 324 may be included. That is, the fixing member 32 can be separated up and down, and the height can be adjusted at the same time as it is coupled with a bolt. The lower fixing member 322 and the upper fixing member 324 may form all or one side of the bolt hole as a vertical long hole. Therefore, it can be easily applied regardless of the size or shape of the pendulum bridge support 10 .

The guide member 36 may use a bolt or the like. Therefore, it can be easily screwed into or removed from the upper plate 14 . In addition, the guide member 36 may be formed in a threaded portion only to be screwed to the upper plate 14, and may be formed in a non-threaded rod shape. This may be advantageous for the guide member 36 to move along the guide hole 34 . In addition, the guide member 36 outside the guide hole 34 may be provided with a ring-shaped flange. This ring-shaped flange prevents the fixing member 32 from being excessively spaced from the upper plate 14, so that a stable guide can be performed.

Referring to FIG. 6A , the presetting guides may be installed in pairs side by side before and after. That is, the lower side is coupled to the side surface of the lower plate 12 with a bolt or the like, and the upper side is coupled to the side surface of the upper plate 14 and the fixing member 32 having a guide hole 34 formed long in the front-rear direction. The guide member 36 protruding through the guide hole 34 of the fixing member 32 may be installed in a pair side by side before and after. This configuration allows the upper plate 14 to be moved back and forth in a stable state while maintaining a horizontal state by a pair of guide members 36 when the upper plate 14 is moved in the front-rear direction.

In addition, referring to 6b, the guide hole 34 and the guide member 36 may be installed side by side in a pair before and after. That is, it is possible to form a pair of guide holes 34 formed in one fixing member 32 side by side before and after, and at the same time, the guide members 36 to be respectively installed in the pair of guide holes 34 . This configuration also allows the upper plate 14 to be moved back and forth in a stable state while maintaining a horizontal state by a pair of guide members 36 when the upper plate 14 is moved in the front-rear direction.

In the above, even though it has been described that all the components constituting the embodiment of the present invention operate by being combined or combined into one, the present invention is not necessarily limited to this embodiment. That is, within the scope of the present invention, all the components may be configured or operated by selectively combining one or more components. In addition, terms such as "comprises", "comprises" or "have" described above mean that the corresponding component may be inherent, unless otherwise specified, excluding other components. Rather, it should be construed as being able to further include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless otherwise defined. Terms commonly used, such as those defined in the dictionary, should be interpreted as being consistent with the contextual meaning of the related art, and are not interpreted in an ideal or excessively formal meaning unless explicitly defined in the present invention.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: Pendulum bridge support
12: lower plate
14: upper plate
16: slide
20: presetting device
22: lower member
222: first member
224: second member
226: height adjustment member
24: upper member
242: coupling surface
244: catch surface
246: insertion hole
26: adjustment member
30: presetting guide
32: fixing member
322: lower fixing member
324: upper fixing member
34: guide ball
36: guide member

Claims (12)

delete delete a lower plate installed on the upper side of the lower structure of the bridge and including a concave surface on the upper side;
an upper plate installed on the lower side of the upper structure of the bridge and including a concave surface on the lower side;
a slide installed between the concave surface of the upper side of the lower plate and the concave surface of the lower side of the upper plate, the slide including a concave surface of the upper plate and a convex surface corresponding to the concave surface of the lower plate at the upper and lower sides, respectively;
As being installed over the upper plate and the lower plate while being the front of the lower plate and the upper plate, the upper plate with respect to the lower plate corresponds to the displacement of the upper structure before the upper structure of the bridge is installed on the upper side of the upper plate. A presetting device for pre-adjusting the relative position of
The presetting device is a lower member coupled to the front surface of the lower plate, an upper member coupled to the front surface of the upper plate, and is installed in the front and rear directions across the lower member and the upper member to adjust the position of the upper plate including absence,
The upper member includes a coupling surface coupled to the upper plate, a locking surface convexly protruding from the center of the coupling surface, and an insertion hole formed vertically on the locking surface,
A presettable pendulum bridge support, characterized in that one end of the adjusting member adjusts the position of the upper plate while being caught on the engaging surface and flowing up and down along the insertion hole. 4. The method according to claim 3,
The adjusting member is screwed to the lower member, and adjusting the relative position of the upper plate in the front-rear direction with respect to the lower plate by rotating the screw with respect to the lower member as the other end of the adjusting member is rotated Pre-settable pendulum bridge bearings. 4. The method according to claim 3,
The lower member includes a first member coupled to the lower plate and a second member installed on an upper side of the first member, wherein the adjusting member is screw-coupled to the second member. Pendulum bridge support. 6. The method of claim 5,
Further comprising a height adjustment member installed between the first member and the second member to adjust the height, wherein the height adjustment member includes a long hole formed in the vertical direction, characterized in that the height is adjusted using the long hole Pre-settable pendulum bridge bearings. delete a lower plate installed on the upper side of the lower structure of the bridge and including a concave surface on the upper side;
an upper plate installed on the lower side of the upper structure of the bridge and including a concave surface on the lower side;
a slide installed between the concave surface of the upper side of the lower plate and the concave surface of the lower side of the upper plate, the slide including a concave surface of the upper plate and a convex surface corresponding to the concave surface of the lower plate at the upper and lower sides, respectively;
As being installed over the upper plate and the lower plate while being the front of the lower plate and the upper plate, the upper plate with respect to the lower plate corresponds to the displacement of the upper structure before the upper structure of the bridge is installed on the upper side of the upper plate. A presetting device for pre-adjusting the relative position of
A side surface of the lower plate and the upper plate and installed over the upper plate and the lower plate, further comprising a presetting guide for guiding the movement of the upper plate by adjustment of the presetting device,
The preset guide includes a fixing member coupled to the side surface of the lower plate and having a guide hole elongated in the front and rear directions, a guide member coupled to the side surface of the upper plate and protruding through the guide hole of the fixing member,
The guide member is a presettable pendulum bridge support, characterized in that it moves along the guide hole of the fixing member according to the front-rear movement of the upper plate, so that the upper plate is moved in a stable state. 9. The method of claim 8.
The guide hole of the fixing member is convex downward to correspond to the horizontal movement of the upper plate and the resulting vertical movement, and is inclined upward to both sides, and at the same time it is formed in a curved shape that greatly increases the degree of upward toward both ends. Pre-settable pendulum bridge bearings. 10. The method of claim 9,
The fixing member includes a lower fixing member coupled to a side surface of the lower plate, an upper fixing member installed on an upper side of the lower fixing member, and a bolt coupling the lower fixing member and the upper fixing member, and the lower fixing member and Presettable pendulum bridge support, characterized in that all of the upper fixing member or one side of the bolt hole is formed into a long long hole up and down so that the height can be adjusted. 9. The method of claim 8,
The presetting guide is a presettable pendulum bridge support, characterized in that a pair installed side by side before and after. 9. The method of claim 8,
The guide ball and the guide member are presettable pendulum bridge support, characterized in that a pair installed side by side before and after.

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