KR100950084B1 - A shock absorber and a seat bridge using the above shock absorber - Google Patents

Abstract

The present invention relates to a damper and a teaching device using the same.

In particular, the upper and lower plates which are installed facing each other while being in contact with the ground

The upper and lower plates are provided with a plurality of sliding blocks protruding from the upper and lower connecting plates so as to be connected as a link, respectively, the sliding block is formed as an operation plate provided with a plurality of operating holes to elastically move at a predetermined position.

Accordingly, the vibration in the vertical direction as well as to easily absorb the vibration in each direction.

Bracket, Sliding Block, Motion Hole, Link

Description

Damper and bridge device using same {a shock absorber and a seat bridge using the above shock absorber}

The present invention provides a plurality of sliding blocks protruding from the upper and lower plates and the connecting plate as a link to the upper and lower plates and the plate, respectively, and the sliding block is provided with a plurality of operation holes to move elastically at a predetermined position It is made as a plate and a damper for easily absorbing vibration in each direction as well as the vibration in the vertical direction, and a stapling device using the same.

In general, a bridge is composed of a bridge piers installed at predetermined intervals, a girder (GIRDER) installed on the upper portion of the pier, and an upper plate installed on the upper portion of the girder, and the connecting portion of the pier upper portion and the girder acts on the upper plate. BRIDGE SHOE is installed to transfer the load to the piers.

In addition, various types of bridge arrangements have been developed to safely transmit the weight and external force of the top plate or the girder to the pier and to allow movement according to the deformation or expansion of the top plate and the girder.

In addition, the type of the bridge device is a fixed type, one-way movable type, two-way movable type, the fixed type bridge device is to allow the vertical movement and tilting in the installed state on the piers, and to prevent the injuries of the girder or the top plate. do.

In addition, in the case of one-way or two-way movable type, shocks acting in the movable direction in addition to the above functions should be absorbed to prevent breakage of the piers provided with fixed type bridge devices.

However, since each type of teaching apparatus is designed and manufactured separately, the components cannot be used interchangeably, and thus, in the case of a small quantity production, there is a disadvantage in that the price is high.

An impact load absorbing teaching apparatus for improving such a problem is disclosed in Korean Utility Model Registration No. 20-231056. The configuration of the shock absorber 1 is fixed to the upper plate 2 of the teaching apparatus as shown in FIG. The shock absorber can be absorbed by inserting and restraining the protrusion 1a of the shock absorber 1 into the groove 4 of the movable member 3 provided so as to move relative to the upper plate.

However, the chair apparatus does not have an injury prevention function, and the shock applied through the upper plate is transmitted to the lower plate 5 through the shock absorber 1 and the movable member 3, so that it may be subjected to long-term use or strong impact. In this case, there is a risk that the connection between the movable member 3 and the lower plate 5 is damaged.

In addition, when the force applied to the pair of shock absorbers 3 is not uniform, a right force is generated and the movable member 3 swings so that the guide groove 7 of the upper plate and the guide protrusion 6 of the movable member 3 There is a risk of damage.

An object of the present invention for improving the conventional problems as described above, the damper to be able to easily absorb the impact in the vertical direction as well as the impact in the vertical direction, and to always be restored to the correct position when removing the external force and It is to provide a teaching device using the same.

The present invention, in order to achieve the above object, the upper and lower plates which are installed facing one side is selected to be in contact with the ground;

It is provided with a plurality of sliding blocks protruding the connecting plate in the upper and lower portions so as to be connected to the plate as a link, respectively, and the sliding block is provided as a motion plate is provided with a plurality of operating holes to elastically move at a predetermined position. .

In addition, a predetermined space is formed inside the cover body made of a rubber material, and a damper made of a connection structure between the upper and lower plates and the operation plate is built in, and the fastening means is integrally provided on the outside of the cover body. Provides a chafing device using a jean damper.

According to the present invention as described above, the impact in the vertical direction as well as the impact on the side is easily absorbed, always restored to the correct position when removing the external force, so that the impact force is absorbed in multiple stages to increase the shock absorption effect And, it is made of a simple structure has an effect that is easy to manufacture and installation.

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

2 to 4, the damper of the present invention is composed of a connecting structure of the upper and lower plates 100 and 500 which are installed to face the operation plate 300 and the operation plate 300 as a center. Lose.

The upper and lower plates 100 and 500 are provided with a plurality of first and second brackets (not shown) spaced apart at equal intervals in the circumferential direction.

The first and second links 310 and 510 connected to the operation plate 300 are connected to one end of the bracket, respectively.

In addition, the first and second links 310 and 350 may be formed of a cylinder installed to have a predetermined elastic force by using hydraulic pressure, pneumatic pressure, or spring force.

The operation plate 300 is provided with a plurality of sliding blocks 350 provided with connecting plates (not shown) in opposite directions on both sides such that the other ends of the first and second links 310 and 510 are connected to each other. do.

At this time, the sliding block 350 is provided with a plurality of operation holes 330 to move elastically at a predetermined position.

Both sides of the sliding block 350 are elastically supported by the spring 370 provided in the operation hole 330.

In addition, the sliding block 350 is formed in a cylindrical shape so as to rotate in the operation hole 330, both ends thereof are fixed to the spring 370, so that a certain torsional stress is installed.

On the other hand, as shown in Figure 5, the chair device of the present invention, a predetermined space is formed inside the cover member 600 made of a rubber material as described above, the upper and lower plates 100 and 500 and the operation plate A damper made of a connection structure of 300 is embedded.

The cover 600 is integrally formed with a fastening means 610 made of a screw part or the like for coupling to a bridge or the like.

The operation of the present invention having the above configuration will be described.

2 to 4, the first and second brackets formed on the upper and lower plates 100 and 500, respectively, one end of the first and second links 310 connected to both sides of the sliding block 350, respectively. The other ends of the 510 are connected to each other.

In this case, the sliding block 350 is elastically installed in the plurality of operation holes 330 disposed radially in the circumferential direction of the operation plate 300.

In addition, both ends of the first and second 310 and 510 are connected as hinges to the first and second brackets formed on the upper and lower plates 100 and 500, respectively, so that the link is formed around the upper and lower plates. Rotate freely.

In addition, the first and second links 310 and 510 do not necessarily need to be connected to only one sliding block 350, and after the plurality of sliding blocks are disposed in the operation holes 330 radially disposed as described above. The same effect can be obtained by alternately arranging the first and second links.

At this time, the first and second brackets of the upper and lower plates supporting the first and second links should be provided to correspond to the link, and the link and the sliding blocks corresponding thereto are three or more at equal intervals in the circumferential direction. It must be deployed.

When the lower plate 500 of the damper is placed on the ground and the impact force is applied to the upper plate 100, the impact force acting on the upper plate 100 is transferred to the operation plate 300 through the first link 310. While being transmitted, the sliding block 350 is moved toward the center of the operation plate 300 to absorb the impact force.

At this time, the second link 510 is also connected to the sliding block 350 to move toward the center of the operation plate 300 to absorb the shock transmitted to the lower plate 500.

In addition, the shock absorbing effect is further enhanced when a cylinder is installed to the first and second links 310 and 510 to use hydraulic pressure, pneumatic pressure or spring force.

Subsequently, the sliding block 350 may be selectively interposed with the operation hole 330 in accordance with the use of the damper in the rectangular parallelepiped or the cylindrical shape in which the longitudinal movement is possible as well as the rotation in the longitudinal direction. Used.

First, in the case of the sliding block of the rectangular parallelepiped, only the movement in the longitudinal direction is allowed to absorb only the impact force transmitted to the first and second links, but when the cylindrical sliding block is applied, the upper and lower plates (100, 500) Is moved to the left and right and up and down directions about the operation plate 300.

At this time, the other end of the spring 370 fixed to the operation hole 330 is fixed to the sliding block 350 so that the torsion during rotation of the sliding block 350 is always restored to a predetermined position.

On the other hand, after placing a plurality of sliding blocks in the operation hole 330 disposed radially and alternately connecting the first and second links, while absorbing the impact force acting on the upper plate 100 in the operation plate 300 The action of transmitting the impact force to the lower plate may occur sequentially and simultaneously.

On the other hand, when the damper of the present invention is applied to the bridge device as shown in Figure 5 is mounted on the inside of the cover member 600 made of rubber material and then coupled to the bridge through the fastening means 610 and the upper side When the bridge is seated on the bridge, the impact in the vertical direction and the flow in the left and right directions and the front and rear directions are easily absorbed.

1 is an exploded view showing a conventional teaching device.

2 is a perspective view of a damper according to the present invention, respectively.

3 is a cross-sectional view showing a coupled state of the damper according to the present invention.

Figure 4 is a cross-sectional view showing a damper device is applied according to the present invention.

* Description of the symbols for the main parts of the drawings *

100..Top plate 300 ... Operation plate

310,510 ... Link 330 ... Moving Hole

350 ... sliding block 370 ... spring

500 lower plate 600 cover body

610 ... Fasteners

Claims (6)

It consists of the upper and lower plates 100 and 500 installed to face the operation plate 300 and the upper and lower parts thereof, The upper and lower plates 100 and 500 are connected to the operation plate 300 as a plurality of first and second links 310 and 510, respectively. The operation plate 300 is connected to a plurality of sliding blocks 350 spaced at equal intervals in the circumferential direction, The sliding block 350, the damper made of a configuration that is always elastically connected to the positioning at the right position when the external force is removed from the inside of the operation hole 330 installed in the circumferential direction of the operation plate 300 The first and second links 310 and 350 of claim 1, wherein the operation plates 300 are respectively connected to upper and lower sides of the unit sliding blocks 350 that are elastically connected to the plurality of operation holes 330, respectively. Damper, characterized in that connected to the upper, lower plates 100, 500 as The method of claim 1, wherein the operation plate 300, the first, respectively connected alternately in the circumferential direction from the upper side or the lower side of the unit sliding block 350, each elastically connected to the plurality of operation holes 330, Damper, characterized in that connected to the upper, lower plates 100, 500 as two links (310, 350) The damper according to any one of claims 1 to 3, wherein the first and second links (310, 350) are formed as a cylinder operated by hydraulic pressure, pneumatic pressure or spring force. The damper of claim 1, wherein the sliding block 350 is formed in a cylindrical shape so as to rotate in the operation hole 330, and is coupled to the spring 370 at both sides thereof so as to be restored during rotation. A predetermined space is formed inside the cover member 600 made of a rubber material, and a damper made of any one of claims 1 to 3 and 5 is embedded therein. The cover 600 is a bridge device using a damper is provided with a fastening means 610 integrally coupled to the bridge, etc.

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