CN113882241A - Bridge that facilitates installation is with flexible shock attenuation connecting device - Google Patents

Abstract

The invention relates to the technical field of bridges, in particular to a telescopic shock absorption connecting device convenient to install for a bridge. The damping component is fixedly arranged on the upper surface of the supporting column, so that the shock absorption device can absorb shock, can cope with strong shock, and has correspondingly prolonged service life.

Description

Bridge that facilitates installation is with flexible shock attenuation connecting device

Technical Field

The invention relates to the technical field of bridges, in particular to a telescopic shock absorption connecting device convenient to install for a bridge.

Background

The bridge is generally a structure which is erected on rivers, lakes and seas and allows vehicles, pedestrians and the like to smoothly pass through. In order to adapt to the modern high-speed developed traffic industry, bridges are also extended to be constructed to span mountain stream, unfavorable geology or meet other traffic needs, so that the buildings are convenient to pass. The bridge generally comprises an upper structure, a lower structure, a support and an auxiliary structure, wherein the upper structure is also called a bridge span structure and is a main structure for spanning obstacles; the lower structure comprises a bridge abutment, a bridge pier and a foundation; the support is a force transmission device arranged at the supporting positions of the bridge span structure and the bridge pier or the bridge abutment; the auxiliary structures refer to bridge head butt straps, conical revetments, bank protection, diversion projects and the like;

however, when the traditional bridge is built and installed, time and labor are wasted, a large amount of manpower and material resources are consumed to build the bridge, the traditional building method is relatively slow, the engineering progress is slowed down, and the damping effect is poor, so that the telescopic damping connecting device is provided, and the bridge can be conveniently and rapidly installed and damped.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the telescopic shock absorption connecting device for the bridge, which is convenient to install, and solves the problems of relatively slow speed and poor shock absorption effect of the traditional construction method.

(II) technical scheme

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a flexible shock attenuation connecting device for bridge easy to assemble, includes spacing dish, fixed surface is connected with the support column on the spacing dish, fixed surface installs damper on the support column, damper one side fixedly connected with connecting plate, damper's one side fixedly connected with coupling assembling is kept away from to the connecting plate, coupling assembling one side movable mounting has a plurality of bull sticks, bull stick swing joint has the bridge plate.

Preferably, the shock absorption assembly comprises a supporting disc, the lower surface of the supporting disc is fixedly connected with the supporting column, and the upper surface of the supporting disc is fixedly connected with the first movable ball.

Preferably, the outer portion of the first movable ball is movably connected with a movable disc, the lower side of the movable disc is movably connected with a movable ring, the lower side of the movable ring is fixedly connected with four second shock absorbers respectively, and the upper surface of the support column is fixedly connected with a support ring.

Preferably, each second shock absorber is fixedly mounted on the upper surface of the support column respectively, four fixing plates are fixedly mounted on the outer side of the support plate through bolts, and the surface of one side, far away from the support plate, of each fixing plate is fixedly connected with a first shock absorber.

Preferably, one side of the first shock absorber, which is far away from the supporting disc, is movably connected with a movable tube, a cover plate is arranged on the upper side of the movable tube, the cover plate is fixedly connected with the movable disc through a first spring, and a connecting plate is fixedly connected to the outer side of the movable disc.

Preferably, the connecting assembly comprises two movable plates, one movable plate is fixedly connected with the connecting plate, the other movable plate is fixedly connected with the other connecting plate, the two connecting plates are movably connected through a clamping ring, one side of the movable plate, far away from the clamping ring, is fixedly connected with a clamping plate, one side of the clamping plate, far away from the movable plate, is internally and movably provided with two clamping blocks through a third spring, and the movable plate is fixedly connected with the connecting plate through the clamping blocks.

Preferably, three rotating rods are movably mounted on one side of each movable plate, two rotating rods of each movable plate are movably connected with one bridge plate, and the rest rotating rod of each movable plate and the rest rotating rod of the other movable plate are respectively and movably connected to the same bridge plate.

As preferred, every both sides difference fixedly connected with connector about the fly leaf, one side fixedly connected with backup pad of fly leaf is kept away from to the connector, the connector is including the spliced pole, spliced pole fixed mounting is in fly leaf one side, the spliced pole is kept away from one side inside and swing joint of fly leaf and is had the second movable ball, one side fixedly connected with connecting rod that the spliced pole was kept away from to the second movable ball, the one end fixedly connected with third bumper shock absorber of second movable ball is kept away from to the connecting rod.

Preferably, the first damper, the second damper and the third damper are internally provided with the same structure, the third damper comprises a fixed pipe, one side of the fixed pipe is fixedly connected with the connecting rod, one side of the fixed pipe, which is far away from the connecting rod, is internally and movably connected with a movable rod, the movable rod is far away from another connecting rod of the fixed pipe, and one side of the fixed pipe, which is far away from the connecting rod, is connected with another connecting rod through a second spring.

Compared with the prior art, the invention has the following beneficial effects:

the invention is fixedly provided with a damping component through the upper surface of the supporting column, is movably connected with a movable disc through the outside of a first movable ball, enables the movable disc to carry out angle deviation movement through the first movable ball, is movably connected with a movable ring through the lower side of the movable disc, enables the movable disc to be contacted with the movable ring when the movable disc is stressed to move, is respectively and fixedly connected with four second dampers through the lower sides of the movable rings, enables the movable disc to carry out multi-angle damping through the four second dampers, is fixedly connected with a supporting ring through the upper surface of the supporting column, can carry out limiting operation and is connected with a movable tube, is fixedly provided with four fixed plates through bolts at the outer side of the supporting disc, enables the first dampers to be arranged on the fixed plates, thereby extruding the first dampers at the corresponding side to carry out secondary damping when one side of the movable tube is stressed to descend, and enhances the damping effect, the cover plate is arranged on the upper side of the movable pipe and is fixedly connected with the movable disc through the first spring, so that the shock absorption in the vertical direction can be performed through the first spring machine, the strong shock can be responded, and the service life is correspondingly prolonged;

according to the invention, one movable plate is fixedly connected with the connecting plate, and the other movable plate is fixedly connected with the other connecting plate, so that the connecting assembly can be connected and installed with the two damping assemblies;

according to the invention, the remaining rotating rod of the movable plate and the remaining rotating rod of the other movable plate are respectively movably connected to the same bridge plate, so that the bridge plate can move when the damping assembly damps the shock, and the damping assembly can normally damp the internal part position offset;

the invention is fixedly connected with the connectors through the upper side and the lower side of the movable plate respectively, so that a user can reinforce the connection between two damping components through the connectors and carry out auxiliary damping operation, the inner part of one side of the connecting column far away from the movable plate is movably connected with the second movable ball, so that the connectors can carry out multi-angle deflection and cooperate with the damping components to carry out linkage, thereby enhancing the damping effect, a plurality of rotating rods are movably arranged at one side of the connecting component, the rotating rods are movably connected with the bridge plate, so that the user can install the bridge plate by using the rotating rods in the two connecting components, the bridge plate can slightly move when the invention carries out damping movement, the bridge frame can be quickly built by modularizing the damping components and the connecting components in advance, then the bridge plate is installed in the bridge frame through the rotating rods, the building speed is accelerated, and the damping effect is enhanced, the service life of the bridge is greatly prolonged.

Drawings

FIG. 1 is a schematic structural view of a bridge telescopic shock-absorbing connecting device convenient to install according to the present invention;

FIG. 2 is a schematic view of a connecting assembly structure of the bridge telescopic shock-absorbing connecting device convenient to install;

FIG. 3 is a schematic diagram of a fixture block structure of the bridge telescopic shock-absorbing connecting device convenient to mount according to the present invention;

FIG. 4 is a schematic structural view of a third shock absorber of the telescopic shock-absorbing connecting device for a bridge, which is convenient to install, of the present invention;

FIG. 5 is an exploded view of a shock-absorbing member of the telescopic shock-absorbing connecting device for a bridge according to the present invention;

FIG. 6 is a schematic sectional view of a shock-absorbing assembly of the telescopic shock-absorbing connecting device for a bridge, which is convenient to install;

fig. 7 is a schematic view of the internal structure of a shock-absorbing assembly of the telescopic shock-absorbing connecting device for a bridge, which is convenient to install.

In the figure: 1. a limiting disc; 2. a shock absorbing assembly; 201. a support ring; 202. a first shock absorber; 203. a second shock absorber; 204. a fixing plate; 205. a movable tray; 206. a movable ring; 207. a first spring; 208. a movable tube; 209. a first movable ball; 210. a support disc; 211. a bolt; 212. a cover plate; 3. a support pillar; 4. a connecting plate; 5. a connecting assembly; 501. a support plate; 502. a connector; 5021. connecting columns; 5022. a second movable ball; 5023. a connecting rod; 5024. a third damper; 50241. a fixed tube; 50242. a movable rod; 50243. a second spring; 503. a movable plate; 504. clamping a plate; 505. a clamping block; 506. a third spring; 507. a snap ring; 6. a rotating rod; 7. and a bridge plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

As shown in fig. 1-7, a flexible shock attenuation connecting device for bridge easy to assemble, including spacing dish 1, fixed surface is connected with support column 3 on spacing dish 1, and fixed surface installs damper 2 on the support column 3, and damper 2 one side fixedly connected with connecting plate 4, one side fixedly connected with coupling assembling 5 that damper 2 was kept away from to connecting plate 4, and coupling assembling 5 one side movable mounting has a plurality of bull sticks 6, and 6 swing joint of bull sticks has bridge plate 7.

Through the technical scheme, the supporting column 3 is fixedly connected with the upper surface of the limiting disc 1, the invention can be installed in a river for use, the limiting disc 1 is used for limiting and fixing to increase resistance, the damping component 2 is fixedly installed on the upper surface of the supporting column 3, so that the invention can damp, the invention can deal with strong vibration, the service life is correspondingly prolonged, the connecting component 5 is fixedly connected with one side of the connecting plate 4 far away from the damping component 2, so that the damping component 2 is connected with the connecting component 5, the connecting component 5 can be connected with another damping component 2 to carry out rapid positioning installation, the connecting component 5 is movably provided with a plurality of rotating rods 6 on one side, the rotating rods 6 are movably connected with the bridge plate 7, so that a user can install the bridge plate 7 by using the rotating rods 6 in the two connecting components 5, the bridge plate 7 can move slightly when the shock absorption device performs shock absorption movement, a bridge frame can be quickly built by modularizing the shock absorption components 2 and the connecting components 5 in advance, and then the bridge plate 7 is installed in the bridge frame through the rotating rod 6, so that the building speed is increased, the shock absorption effect is enhanced, and the service life of the bridge is greatly prolonged.

In this embodiment, the shock absorbing assembly 2 includes a supporting plate 210, the supporting plate 210 is fixedly connected to the supporting column 3 on the lower surface, a first movable ball 209 is fixedly connected to the upper surface of the supporting plate 210, the outside of the first movable ball 209 is movably connected to a movable plate 205, a movable ring 206 is movably connected to the lower side of the movable plate 205, four second shock absorbers 203 are fixedly connected to the lower side of the movable ring 206 respectively, and a supporting ring 201 is fixedly connected to the upper surface of the supporting column 3. Have activity dish 205 through the outside swing joint of first activity ball 209, make activity dish 205 can carry out the angle migration activity through first activity ball 209, there is activity ring 206 through activity dish 205 downside swing joint, make when activity dish 205 atress activity, contact with activity ring 206, through four second bumper shock absorbers 203 of activity ring 206 downside difference fixedly connected with, make activity dish 205 can carry out the multi-angle shock attenuation through four second bumper shock absorbers 203, through 3 last fixed surface of support column support rings 201, can carry out spacing operation, be connected with activity pipe 208.

In this embodiment, each second damper 203 is fixedly mounted on the upper surface of the support column 3, four fixing plates 204 are fixedly mounted on the outer side of the support plate 210 through bolts 211, a first damper 202 is fixedly connected to the surface of one side of the fixing plate 204 far away from the support plate 210, a movable tube 208 is movably connected to one side of the first damper 202 far away from the support plate 210, a cover plate 212 is arranged on the upper side of the movable tube 208, the cover plate 212 is fixedly connected to the movable plate 205 through a first spring 207, and a connecting plate 4 is fixedly connected to the outer side of the movable plate 205. The four fixing plates 204 are fixedly mounted on the outer side of the supporting plate 210 through bolts 211, so that the first shock absorbers 202 can be mounted on the fixing plates 204, when one side of the movable tube 208 is stressed to descend, the first shock absorbers 202 on the corresponding side can be extruded to perform secondary shock absorption, the shock absorption effect is enhanced, the cover plate 212 is arranged on the upper side of the movable tube 208, and the cover plate 212 is fixedly connected with the movable plate 205 through the first spring 207, so that the vertical shock absorption can be performed through the first spring 207 machine.

In this embodiment, the connecting assembly 5 includes two movable plates 503, one of the movable plates 503 is fixedly connected to the connecting plate 4, the other movable plate 503 is fixedly connected to the other connecting plate 4, the two connecting plates 4 are movably connected through a snap ring 507, one side of the movable plate 503 away from the snap ring 507 is fixedly connected to a snap plate 504, two blocks 505 are movably mounted inside one side of the snap plate 504 away from the movable plate 503 through third springs 506, and the movable plate 503 is fixedly connected to the connecting plate 4 through the blocks 505. Through one of them fly leaf 503 and connecting plate 4 fixed connection, another fly leaf 503 and another connecting plate 4 fixed connection for coupling assembling 5 can be connected the installation with two damper 2, keep away from one side fixedly connected with cardboard 504 of snap ring 507 through fly leaf 503, cardboard 504 keeps away from one side of fly leaf 503 inside respectively through third spring 506 movable mounting have two fixture blocks 505, make the user can accomplish coupling assembling 5 and damper 2's quick installation through fixture block 505, work efficiency has been accelerated greatly.

In this embodiment, three rotating rods 6 are movably mounted on one side of the movable plate 503, two rotating rods 6 of each movable plate 503 are movably connected to one bridge plate 7, and the remaining rotating rod 6 of the movable plate 503 and the remaining rotating rod 6 of the other movable plate 503 are respectively movably connected to the same bridge plate 7. The remaining rotating rod 6 of the movable plate 503 and the remaining rotating rod 6 of the other movable plate 503 are movably connected to the same bridge plate 7, so that the bridge plate 7 can move when the damping assembly 2 damps the shock, and the damping assembly 2 can normally damp the position deviation of the internal components.

In this embodiment, the upper and lower sides of each movable plate 503 are respectively and fixedly connected with a connector 502, one side of the connector 502 far away from the movable plate 503 is fixedly connected with a supporting plate 501, the connector 502 comprises a connecting column 5021, the connecting column 5021 is fixedly installed at one side of the movable plate 503, the inside of one side of the connecting column 5021 far away from the movable plate 503 is movably connected with a second movable ball 5022, one side of the second movable ball 5022 far away from the connecting column 5021 is fixedly connected with a connecting rod 5023, one end of the connecting rod 5023 far away from the second movable ball 5022 is fixedly connected with a third shock absorber 5024, the inside of the first shock absorber 202, the second shock absorber 203 and the third shock absorber 5024 have the same structure, the third shock absorber 5024 comprises a fixed pipe 50241, one side of the fixed pipe 50241 is fixedly connected with a connecting rod 5023, the inside of one side of the fixed pipe 50241 far away from the connecting rod 5023 is movably connected with a movable rod 50242, one end of the movable rod 50242 far away from the fixed pipe 50241 is fixedly connected with another connecting rod 5023, the side of the stationary pipe 50241 remote from the coupling rod 5023 is connected with another coupling rod 5023 by a second spring 50243. The connectors 502 are fixedly connected to the upper side and the lower side of the movable plate 503 respectively, so that a user can reinforce the connection between the two shock absorbing assemblies 2 through the connectors 502 and perform auxiliary shock absorbing operation, the inner part of one side, far away from the movable plate 503, of the connecting column 5021 is movably connected with the second movable ball 5022, so that the connector 502 can perform multi-angle offset, the connector is matched with the shock absorbing assemblies 2 to perform linkage, the shock absorbing effect is improved, the other connecting rod 5023 is connected to one side, far away from the connecting rod 5023, of the fixing pipe 50241 through the second spring 50243, and the movable rod 50242 is used for limiting, so that the third shock absorber 5024 and the first shock absorber 202 and the second shock absorber 203 which have the same structure have a shock absorbing function, and the shock absorbing operation is assisted, so that the shock absorbing device has the characteristics of quick installation and shock absorption.

This flexible shock attenuation connecting device for bridge easy to assemble's theory of operation:

when in use, firstly, the support columns 3 are fixedly connected with the upper surface of the limit disc 1, the invention can be installed in a river for use, the limit disc 1 is used for limiting and fixing to increase resistance, the shock absorption component 2 is fixedly installed on the upper surface of the support columns 3, the movable disc 205 is movably connected with the outer part of the first movable ball 209, so that the movable disc 205 can perform angle deviation movement through the first movable ball 209, the movable ring 206 is movably connected with the lower side of the movable disc 205, so that the movable disc 205 is contacted with the movable ring 206 when stressed to move, the four second shock absorbers 203 are respectively and fixedly connected with the lower sides of the movable rings 206, so that the movable disc 205 can perform multi-angle shock absorption through the four second shock absorbers 203, the support rings 201 are fixedly connected with the upper surfaces of the support columns 3, so that the limit operation can be performed, the support rings are connected with the movable pipes 208, and the four fixing plates 204 are fixedly installed on the outer sides of the support discs 210 through bolts 211, the first shock absorber 202 can be arranged on the fixed plate 204, so that when one side of the movable pipe 208 is stressed to descend, the first shock absorber 202 on the corresponding side can be extruded to perform secondary shock absorption, the shock absorption effect is enhanced, the cover plate 212 is arranged on the upper side of the movable pipe 208, the cover plate 212 is fixedly connected with the movable plate 205 through the first spring 207, the shock absorption in the vertical direction can be performed through the first spring 207, the shock absorption device can cope with strong shock, the service life is correspondingly prolonged,

one movable plate 503 is fixedly connected with the connecting plate 4, and the other movable plate 503 is fixedly connected with the other connecting plate 4, so that the connecting assembly 5 can be connected and installed with the two shock-absorbing assemblies 2, one side of the movable plate 503, which is far away from the clamping ring 507, is fixedly connected with the clamping plate 504, and two clamping blocks 505 are respectively and movably installed inside one side of the clamping plate 504, which is far away from the movable plate 503, through the third springs 506, so that a user can finish the quick installation of the connecting assembly 5 and the shock-absorbing assemblies 2 through the clamping blocks 505, and the working efficiency is greatly accelerated; the remaining rotating rod 6 of the movable plate 503 and the remaining rotating rod 6 of the other movable plate 503 are respectively movably connected to the same bridge plate 7, so that the bridge plate 7 can move when the shock-absorbing component 2 absorbs shock, so that the shock-absorbing component 2 can normally perform internal component position offset shock absorption, the connectors 502 are respectively and fixedly connected to the upper side and the lower side of the movable plate 503, so that a user can reinforce the connection between the two shock-absorbing components 2 through the connectors 502 and perform auxiliary shock absorption operation, a second movable ball 5022 is movably connected to the inside of one side, away from the movable plate 503, of the connecting column 5021, so that the connector 502 can perform multi-angle offset, and is matched with the shock-absorbing component 2 to perform linkage, so as to increase the shock-absorbing effect, the plurality of rotating rods 6 are movably installed on one side of the connecting assembly 5, the rotating rods 6 are movably connected with the bridge plate 7, so that the user can install the bridge plate 7 by using the rotating rods 6 in the two connecting assemblies 5, the bridge plate 7 can move slightly when the shock absorption device performs shock absorption movement, a bridge frame can be quickly built by modularizing the shock absorption components 2 and the connecting components 5 in advance, and then the bridge plate 7 is installed in the bridge frame through the rotating rod 6, so that the building speed is increased, the shock absorption effect is enhanced, and the service life of the bridge is greatly prolonged.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a bridge of easy to assemble is with flexible shock attenuation connecting device, includes spacing dish (1), its characterized in that: fixed surface is connected with support column (3) on spacing dish (1), fixed surface installs damper (2) on support column (3), damper (2) one side fixedly connected with connecting plate (4), one side fixedly connected with coupling assembling (5) of damper (2) are kept away from in connecting plate (4), coupling assembling (5) one side movable mounting has a plurality of bull sticks (6), bull stick (6) swing joint has bridge plate (7).

2. The telescopic shock-absorbing connecting device for the bridge convenient to mount as claimed in claim 1, wherein: the shock absorption assembly (2) comprises a supporting disc (210), the lower surface of the supporting disc (210) is fixedly connected with a supporting column (3), and the upper surface of the supporting disc (210) is fixedly connected with a first movable ball (209).

3. The telescopic shock-absorbing connecting device convenient to mount for the bridge of claim 2, wherein: first activity ball (209) outside swing joint has activity dish (205), activity dish (205) downside swing joint has activity ring (206), four second bumper shock absorbers (203) of activity ring (206) downside difference fixedly connected with, fixed surface is connected with support ring (201) on support column (3).

4. The telescopic shock-absorbing connecting device convenient to mount for the bridge of claim 3, wherein: every second bumper shock absorber (203) fixed mounting is respectively at support column (3) upper surface, there are four fixed plates (204) supporting disk (210) outside through bolt (211) fixed mounting, one side fixed surface that supporting disk (210) were kept away from to fixed plate (204) is connected with first bumper shock absorber (202).

5. The easy-to-install telescopic shock-absorbing connecting device for the bridge, according to claim 4, is characterized in that: one side swing joint that supporting disk (210) was kept away from in first bumper shock absorber (202) has movable pipe (208), movable pipe (208) upside is equipped with apron (212), apron (212) are through first spring (207) fixed connection activity dish (205), activity dish (205) outside fixedly connected with connecting plate (4).

6. The telescopic shock-absorbing connecting device for the bridge convenient to mount as claimed in claim 1, wherein: the connecting assembly (5) comprises two movable plates (503), wherein one movable plate (503) is fixedly connected with the connecting plate (4), the other movable plate (503) is fixedly connected with the other connecting plate (4), the two connecting plates (4) are movably connected through a clamping ring (507), one side of the movable plate (503), which is far away from the clamping ring (507), is fixedly connected with a clamping plate (504), two clamping blocks (505) are respectively and movably mounted in one side of the clamping plate (504), which is far away from the movable plate (503), through the clamping blocks (505), and the movable plate (503) is fixedly connected with the connecting plate (4).

7. The easy-to-mount telescopic shock-absorbing connecting device for the bridge of claim 6, wherein: three rotating rods (6) are movably mounted on one side of each movable plate (503), two rotating rods (6) of each movable plate (503) are movably connected with one bridge plate (7), and the rest rotating rod (6) of each movable plate (503) and the rest rotating rod (6) of the other movable plate (503) are respectively and movably connected to the same bridge plate (7).

8. The easy-to-mount telescopic shock-absorbing connecting device for the bridge of claim 7, wherein: every both sides difference fixedly connected with connector (502) about fly leaf (503), one side fixedly connected with backup pad (501) of fly leaf (503) is kept away from in connector (502), connector (502) are including spliced pole (5021), spliced pole (5021) fixed mounting is in fly leaf (503) one side, one side inside and swing joint that fly leaf (503) were kept away from to spliced pole (5021) have second movable ball (5022), one side fixedly connected with connecting rod (5023) of spliced pole (5021) are kept away from to second movable ball (5022), one end fixedly connected with third bumper shock absorber (5024) of second movable ball (5022) are kept away from to connecting rod (5023).

9. The easy-to-mount telescopic shock-absorbing connecting device for the bridge of claim 8, wherein: first bumper shock absorber (202), second bumper shock absorber (203) and third bumper shock absorber (5024) are inside to have the structure the same, third bumper shock absorber (5024) are including fixed pipe (50241), fixed pipe (50241) one side fixed connection connecting rod (5023), the inside swing joint in one side that connecting rod (5023) were kept away from to fixed pipe (50241) has movable rod (50242), another connecting rod (5023) of one end fixed connection of fixed pipe (50241) are kept away from to movable rod (50242), one side that connecting rod (5023) were kept away from to fixed pipe (50241) is connected with another connecting rod (5023) through second spring (50243).

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