CN217701043U - Debugging machine for adjusting feed rod of punching machine - Google Patents

Abstract

The application discloses a debugging machine for adjusting feed bar of punching machine includes: the device comprises a supporting platform, a movable support, a height adjusting device and a fine adjusting device; the movable supports are arranged at two opposite ends of the support platform and move along a first direction; the height adjusting device is movably arranged in the height direction of the movable support and moves; the fine adjustment device moves along with the height adjustment device in the height direction and adjusts the connected feed rod to a specified position in the movement of the second direction. The utility model provides a removal support can move to the assigned position of first direction, and height adjusting device can move to the assigned position of direction of height, and micromatic setting can drive the feed rod of connection and adjust to the assigned position. This application removes to support and sets up the both ends that supporting platform is relative, it does not influence the normal work of punching machine when removing the adjustment, and each part through the debugging machine in the removal of all directions, can remove the porter bar that the debugging machine bore to the assigned position, has realized the adjustment to the porter bar position.

Description

A debugging machine for adjusting feed rod of punching machine

Technical Field

The application relates to the technical field of punching machines, concretely relates to debugging machine for adjusting the feed rod of punching machine.

Background

Stamping machines have become an indispensable manufacturing facility in product processing. The punching machine can produce the material to the appointed product form according to the production requirement, and after the product is processed by the punching machine, the punching machine needs to convey the product to the next working position through a feeding rod on the punching machine.

The existing feeding rod of the punching machine is generally arranged at the appointed position of the punching machine correspondingly according to the shape of the product, and when the shape of the product is changed, the feeding rod of the punching machine needs to be correspondingly reinstalled at the appointed position of the punching machine. The installation of the feed bar of current punching machine is accomplished by artifical manual mostly, and when the feed bar of installation punching machine, the punching machine is unable normal work, must influence the production efficiency of product like this.

Therefore, how to adjust the position of the feeding rod without affecting the normal operation of the punch is a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a debugging machine for adjusting the feed bar of punching machine to solve how among the prior art under the prerequisite that does not influence the normal work of punching machine, can realize the problem to the adjustment of feed bar position.

The embodiment of the application provides a debugging machine for adjusting the feed bar of punching machine, includes: the device comprises a supporting platform, a movable support, a height adjusting device and a fine adjusting device;

the movable supports are arranged at two opposite ends of the support platform and move along a first direction;

the height adjusting device is movably arranged on the movable support and moves along the movable support in the height direction;

the fine adjustment device is arranged at the tail end of the height adjustment device, moves along with the height adjustment device in the height direction, and adjusts the connected feed rod to a specified position in the movement of the second direction;

wherein the first direction, the height direction, and the second direction are mutually perpendicular in spatial position.

Optionally, the moving support comprises a first sliding guide mechanism and a support structure;

the first sliding guide mechanisms are distributed at two opposite ends of the supporting platform along the first direction, and the supporting structure is movably arranged on the first sliding guide mechanisms and moves along the first direction.

Optionally, the first sliding guide mechanism includes a first guide rail and a first slider cooperating with the first guide rail;

the first guide rails are distributed at two opposite ends of the supporting platform along the first direction, and the first sliding blocks are arranged at the bottom of the supporting structure and are in sliding connection with the first guide rails.

Optionally, the first sliding guide mechanism further includes a first positioning structure, and the first positioning structure includes a first positioning track, a first positioning pin, a first positioning hole, and a second positioning hole;

the first positioning rails are arranged between the first guide rails along the first direction, and the first positioning holes are arranged on the first positioning rails at intervals along the first direction;

the second positioning hole is arranged on the supporting structure and is aligned with the first positioning hole when the supporting structure moves to a specified position;

the first positioning pin is mounted on the support structure, and when the movable support moves to a designated position, the first positioning pin penetrates through the second positioning hole and is inserted into the first positioning hole.

Optionally, the first sliding guide mechanism further includes a first limiting structure, the first limiting structure includes a first limiting block, and the first limiting block is disposed at two ends of the first guide rail, or the first limiting block is disposed at two ends of the first positioning rail.

Optionally, the height adjusting device includes a second sliding guide mechanism, a support frame and an adjusting mechanism;

the second sliding guide mechanism is arranged on the circumferential outer wall of the supporting structure along the height direction and moves along the height direction;

the supporting frame is connected with the second sliding guide mechanism in a sliding mode and moves in the height direction through the second sliding guide mechanism;

the adjusting mechanism is arranged inside the supporting structure, and one end of the adjusting mechanism is connected with the supporting frame and used for being matched with the second sliding guide mechanism to adjust the height of the supporting frame in the supporting structure.

Optionally, the second sliding guide mechanism includes a second guide rail and a second slider matched with the second guide rail;

the second guide rail is distributed on two opposite sides of the circumferential outer wall of the supporting structure along the height direction, and the second sliding block is arranged on the supporting frame and is in sliding connection with the second guide rail.

Optionally, the adjusting mechanism includes a pulley, a counterweight and a steel wire rope;

the pulley sets up bearing structure's top position, the balancing weight is located bearing structure's inside, wire rope's one end connect in the balancing weight, the other end is walked around the pulley connect in braced frame.

Optionally, the fine adjustment device includes a third sliding guide mechanism and an abutting structure;

the third sliding guide mechanism is arranged on a support table arranged at the tail end of the support frame along the second direction, and the abutting structure is movably arranged on the third sliding guide mechanism through the support plate and moves along the second direction to abut against the feed rod so as to adjust the feed rod to a specified position.

Optionally, the third sliding guide mechanism includes a third guide rail and a third slider matched with the third guide rail;

the third guide rail is distributed on the supporting table along the second direction, and the third sliding block is arranged at the bottom of the abutting structure and is in sliding connection with the third guide rail.

Compared with the prior art, the method has the following advantages:

the embodiment of the application provides a debugging machine for adjusting the feed bar of punching machine, includes: the device comprises a supporting platform, a movable support, a height adjusting device and a fine adjusting device; the movable supports are arranged at two opposite ends of the support platform and move along a first direction; the height adjusting device is movably arranged on the movable support and moves along the movable support in the height direction; the fine adjustment device is arranged at the tail end of the height adjustment device, moves along with the height adjustment device in the height direction, and adjusts the connected feed rod to a specified position in the movement of the second direction; wherein the first direction, the height direction, and the second direction are mutually perpendicular in spatial position. The embodiment moves in the first direction of the supporting platform through the moving support, so that the moving support can move to the designated position in the first direction, and moves in the height direction of the moving support through the height adjusting device, so that the height adjusting device can move to the designated position in the height direction, and then moves in the second direction through the fine adjusting device, so that the fine adjusting device can drive the connected feeding rod to adjust to the designated position. In addition, this embodiment removes to support the setting in the both ends that support platform is relative, and it does not influence the normal work of punching machine when removing the adjustment, and through the removal of each part of debugging in all directions, can remove the porter bar that the debugging bore to the assigned position, has realized the mechanized adjustment to the porter bar position.

Drawings

Fig. 1 is a schematic structural diagram of a debugging machine for adjusting a feed bar of a punch press according to an embodiment of the present disclosure.

Fig. 2 is a schematic partial structural diagram of a debugging machine provided in an embodiment of the present application.

Fig. 3 is a sectional view of a part of the structure of a debugging machine provided in the embodiment of the present application.

The reference numeral, the debugging machine 100, the supporting platform 1, the movable support 2, the first sliding guide mechanism 21, the first guide rail 22, the first slider 23, the first positioning rail 24, the first positioning hole 25, the supporting structure 26, the first stopper 27, the height adjusting device 3, the second sliding guide mechanism 31, the second guide rail 32, the second slider 33, the supporting frame 34, the adjusting mechanism 35, the pulley 36, the counterweight 37, the steel wire rope 38, the second stopper 39, the fine adjusting device 4, the third sliding guide mechanism 41, the third guide rail 42, the third slider 43, the abutting structure 44, and the supporting table 45.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of implementation in many different ways than those herein set forth and of similar import by those skilled in the art without departing from the spirit and scope of this application, and thus this application is not limited to the specific implementations disclosed below.

The embodiment of the application provides a debugging machine 100 for adjusting a feeding rod of a punching machine, and fig. 1 is a schematic structural diagram of the debugging machine for adjusting the feeding rod of the punching machine provided by the embodiment of the application. Fig. 2 is a schematic structural diagram of a part of a debugging machine according to an embodiment of the present application. Fig. 3 is a sectional view of a part of the structure of a debugging machine provided in an embodiment of the present application.

Referring to fig. 1 to 3, a debugging machine 100 for adjusting a feeding rod of a punching machine according to an embodiment of the present application includes: a support platform 1, a movable support 2, a height adjusting device 33 and a fine adjusting device 4. The support platform 1 is a bearing platform of the debugging machine 100 (briefly described), and meanwhile, the support platform 1 is also a support platform 1 of a punching machine (not shown), and the punching machine occupies more area of the support platform 1, and the debugging machine 100 of the embodiment is located at two opposite ends of the support platform 1 and can move along a first direction. The first direction is referred to as the direction of the arrow in the drawing. The respective structures of the debug machine 100 and the connection relationship between the respective structures will be described in detail below.

In this embodiment, the movable support 2 includes a first sliding guide mechanism 21 and a support structure 26, the first sliding guide mechanism 21 is distributed at two opposite ends of the support platform 1 along the first direction, and the support structure 26 is movably disposed on the first sliding guide mechanism 21 and moves along the first direction. Specifically, in the present embodiment, the first sliding guide mechanism 21 includes a first guide rail 22 and a first slider 23 engaged with the first guide rail 22. The first guide rails 22 are distributed at two opposite ends of the supporting platform 1 along the first direction, the first guide rails 22 are arranged into two parallel rails, each first guide rail 22 is correspondingly matched with a first sliding block 23, and the first sliding blocks 23 are connected with the first guide rails 22 in a sliding manner and can slide on the first guide rails 22. The first slider 23 may be provided in a block shape or a strip shape. When the first sliding blocks 23 are block-shaped, the number of the first sliding blocks 23 on each first guide rail 22 is two; when the first slider 23 is a bar, the number of the first sliders 23 provided on each of the first guide rails 22 is one. A first slide 23 is arranged at the bottom of said support structure 26 to enable the support structure 26 to slide on the first guide rail 22.

In this embodiment, the first sliding guide mechanism 21 further includes a first positioning structure, and the first positioning structure is used for positioning the movable support 2. Wherein the first positioning structure comprises a first positioning track 24, a first positioning pin and a first positioning hole 25 and a second positioning hole. Specifically, the first positioning rails 24 are disposed between the first guide rails 22 along the first direction, the first positioning holes 25 are disposed on the first positioning rails 24 at intervals along the first direction, and the second positioning holes are disposed on the supporting structure 26 and aligned with the first positioning holes 25 when the supporting structure 26 moves to a designated position. The first positioning pin is mounted on the support structure 26, and is inserted into the first positioning hole 25 through the second positioning hole when the movable support 2 moves to a predetermined position. The first positioning structure can realize the positioning of the movable support 2 when the movable support 2 is moved to a specified position, so that the movable support 2 can not move.

In the present embodiment, the first positioning pin is mounted on the support structure 26, which may be specifically mounted on the support structure 26 at the side of the second positioning hole, and when the movable support 2 moves to the designated position, the first positioning pin is manually inserted through the second positioning hole and inserted into the first positioning hole 25. Alternatively, a sheet (not shown) which can be rotated and covers the second positioning hole is provided at the edge of the second positioning hole, the first positioning pin is provided above the second positioning hole through the sheet, and when the movable support 2 is moved to the specified position, the sheet is manually rotated to be separated from the area covering the second positioning hole, so that the first positioning pin penetrates the second positioning hole by its own weight and is inserted into the first positioning hole 25.

In this embodiment, in order to prevent the movable support 2 from being separated from the first guide rail 22 when moving, the first sliding guide mechanism 21 of this embodiment further includes a first limiting structure, and the first limiting structure includes a first limiting block 27, and the first limiting block 27 is disposed at two ends of the first guide rail 22, or the first limiting block 27 is disposed at two ends of the first positioning rail 24. When the movable support 2 moves to the end of the first guide rail 22, the movable support 2 abuts against the first stopper 27, thereby restricting the movable support 2 from moving on the first guide rail 22.

In this embodiment, the supporting structure 26 of the movable support 2 is a cylindrical hollow cube structure, a bearing plate is disposed at the bottom of the supporting structure, a main body of the cylindrical cube is fixedly disposed on the upper end surface of the bearing plate, and the first slider 23 is disposed on the lower end surface of the bearing plate. The movable support 2 is provided as a cylindrical hollow cube structure, on the one hand to reduce the weight of the movable support 2, and on the other hand to accommodate other components in the hollow structure.

The height adjusting device 33 is movably disposed on the movable support 2 and moves along the movable support 2 in the height direction. The height adjusting device 33 is movably disposed on the circumferential outer wall of the columnar cube, and the height adjusting device 33 includes a second sliding guide mechanism 31, a supporting frame 34, and an adjusting mechanism 35. Wherein the second slide guide mechanism 31 is provided on the circumferential outer wall of the support structure 26 in the height direction and moves in the height direction. In this embodiment, the second sliding guide mechanism 31 includes a second guide rail 32 and a second sliding block 33 engaged with the second guide rail 32, the second guide rail 32 is distributed on two opposite sides of the circumferential outer wall of the supporting structure 26 along the height direction, and the second sliding block 33 is disposed on the supporting frame 34 and slidably connected with the second guide rail 32, so that the supporting frame 34 can slide on the second guide rail 32 along the height direction.

In the present embodiment, in order to position the height adjusting device 33 at a specified height, the second slide guiding mechanism 31 further includes a second positioning structure (not shown) including a second positioning rail, a second positioning pin, and third and fourth positioning holes. Wherein, a second positioning track is disposed at one side of the second guide rail 32 along the height direction, third positioning holes are disposed at intervals along the height direction on the second positioning track, a fourth positioning hole is disposed on the support frame 34 and is aligned with the third positioning hole when the support frame 34 moves to a designated position, a second positioning pin is mounted on the support frame 34, and the second positioning pin penetrates through the fourth positioning hole and is inserted into the third positioning hole when the support frame 34 moves to the designated position.

The second sliding guide mechanism 31 further includes a second limiting structure, the second limiting structure includes a second limiting block 39, the second limiting block 39 is disposed at two ends of the second guide rail 32, or the second limiting block 39 is disposed at two ends of the second positioning rail. When the support frame 34 is moved to the end of the second rail 32, the support frame 34 abuts against the second stopper 39, thereby moving the support frame 34 to be confined on the second rail 32.

In the present embodiment, the support frame 34 is slidably connected to the second slide guide mechanism 31, and is moved in the height direction by the second slide guide mechanism 31. Specifically, in combination with the foregoing, one end of the second slider 33 is disposed on the supporting frame 34, and the other end of the second slider 33 is movably disposed on the second guiding rail 32, so that the supporting frame 34 is slidably connected to the second guiding rail 32 through the second slider 33.

The adjusting mechanism 35 is disposed inside the supporting structure 26, and one end of the adjusting mechanism 35 is connected to the supporting frame 34, for cooperating with the second sliding guide mechanism 31 to adjust the height of the supporting frame 34 on the supporting structure 26. Specifically, in the present embodiment, the adjustment mechanism 35 is provided at a hollow position of the columnar hollow cube structure of the moving support 2. The adjusting mechanism 35 includes a pulley 36, a weight 37, and a wire rope 38. Wherein, the pulley 36 is disposed at the top position of the supporting structure 26, the weight block 37 is located inside the supporting structure 26 (hollow position), one end of the wire rope 38 is connected to the weight block 37, and the other end is connected to the supporting frame 34 by passing around the pulley 36. Through calculation, the weight of the counterweight block 37 is the sum of the weights of the support frame 34 and the workpiece, that is, the weights of the two ends of the steel wire rope 38 passing through the pulley 36 are equivalent, the counterweight block 37, the support frame 34 and the workpiece are in a balanced state at the moment, and if the heights of the support frame 34 and the workpiece need to be adjusted, a small acting force can be applied to the support frame 34, so that the support frame 34 and the workpiece can be lifted or lowered.

After the support frame 34 is moved to a designated height, the feed bar needs to be adjusted to a designated position by the fine adjustment device 4. Specifically, the fine adjustment device 4 is arranged at the end of the height adjustment device 33, moves in the height direction with the height adjustment device 33, and adjusts the connected feed rod to a specified position in the second direction movement. Wherein the first direction, the height direction, and the second direction are mutually perpendicular in spatial position. The first direction is along the width of the support platform 1 and the second direction is along the length of the support platform 1.

In this embodiment, the fine adjustment device 4 includes a third sliding guide mechanism 41 and an abutting structure 44, wherein the third sliding guide mechanism 41 is disposed on a support platform 45 disposed at the end of the support frame 34 along the second direction, and the abutting structure 44 is movably disposed on the third sliding guide mechanism 41 through a support plate thereof, and moves along the second direction to abut against the feeding rod, so as to adjust the feeding rod to a specified position. Further, in this embodiment, the third sliding guide mechanism 41 includes a third guide rail 42 and a third sliding block 43 matching with the third guide rail 42, the third guide rail 42 is distributed on the supporting platform 45 along the second direction, and the third sliding block 43 is disposed at the bottom of the abutting structure 44 and is connected with the third guide rail 42 in a sliding manner. The third sliding guide mechanism 41 further includes a third positioning structure, the third positioning structure includes a third positioning rail, a third positioning pin, a fifth positioning hole, and a sixth positioning hole, the third positioning rail is disposed on one side of the third guide rail 42 along the second direction, the fifth positioning hole is disposed on the third positioning rail at an interval along the second direction, the sixth positioning hole is disposed on the support plate and aligned with the fifth positioning hole in the process of moving the abutting structure 44, the third positioning pin is mounted on the support plate, and when the abutting structure 44 moves to a specific position, the third positioning pin penetrates through the sixth positioning hole and is inserted into the fifth positioning hole.

In this embodiment, the abutment structure 44 comprises an abutment end matching the feed bar, the abutment end being arranged on the support plate in the second direction. The butt end and the structure phase-match of pay-off pole, set up the butt end into the structure that can bear the weight of the tip of pay-off pole promptly, perhaps set up the butt end into the structure that can disassemble the tip of connecting the pay-off pole. The connection disassembly means that the connection between the abutting end and the feeding rod can be realized, and the detachment between the abutting end and the feeding rod can also be realized. This disassemble and connect the corresponding connection structure of disassembling can be the sleeve structure, is about to the sleeve setting in butt end position, and the tip of porter bar is directly pegged graft in this sleeve, dismantles then for directly pulling out the tip of porter bar from this sleeve. The structure of the clamping hook and the clamping groove is further included, the clamping groove is formed in the abutting end, the clamping hook is arranged at the end portion of the feeding rod, the clamping hook and the clamping groove are clamped, namely the end portion of the feeding rod is directly clamped in the clamping groove, and the clamping hook at the end portion of the feeding rod is pulled out of the clamping groove at the abutting end when the feeding rod is detached.

The present embodiment provides a debugging machine 100 for adjusting a feed bar of a press machine, including: the device comprises a supporting platform 1, a movable support 2, a height adjusting device 33 and a fine adjusting device 4; the movable supports 2 are arranged at two opposite ends of the support platform 1 and move along a first direction; the height adjusting device 33 is movably arranged on the movable support 2 and moves along the movable support 2 in the height direction; the fine adjustment device 4 is arranged at the tail end of the height adjustment device 33, moves along with the height adjustment device 33 in the height direction, and adjusts the connected feed rod to a specified position in the movement of the second direction; wherein the first direction, the height direction, and the second direction are mutually perpendicular in spatial position. In the embodiment, the movable support 2 moves in the first direction of the support platform 1 through the movable support 2, so that the movable support 2 can move to the designated position in the first direction, and the height adjusting device 33 moves in the height direction of the movable support 2, so that the height adjusting device 33 can move to the designated position in the height direction, and then the fine adjusting device 4 moves in the second direction, so that the fine adjusting device 4 can drive the connected feed rod to adjust to the designated position. In addition, the movable supports 2 of this embodiment are disposed at two opposite ends of the support platform 1, and do not affect the normal operation of the press machine during the movement adjustment, and the feeding rod carried by the debugging machine 100 can be moved to the designated position through the movement of each component of the debugging machine 100 in each direction, so that the mechanical adjustment of the position of the feeding rod is realized.

Although the present application has been described with reference to the preferred embodiments, it is not intended to limit the present application, and those skilled in the art can make variations and modifications without departing from the spirit and scope of the present application, therefore, the scope of the present application should be determined by the appended claims.

Claims (10)

1. A pilot machine for adjusting a feed bar of a stamping press, comprising: the device comprises a supporting platform, a movable support, a height adjusting device and a fine adjusting device;

the movable supports are arranged at two opposite ends of the support platform and move along a first direction;

the height adjusting device is movably arranged on the movable support and moves along the movable support in the height direction;

the fine adjustment device is arranged at the tail end of the height adjustment device, moves along with the height adjustment device in the height direction, and adjusts the connected feed rod to a specified position in the movement of the second direction;

wherein the first direction, the height direction, and the second direction are mutually perpendicular in spatial position.

2. The debugging machine for adjusting the feed bar of a stamping press according to claim 1, wherein said mobile support comprises a first sliding guide and a support structure;

the first sliding guide mechanisms are distributed at two opposite ends of the supporting platform along the first direction, and the supporting structure is movably arranged on the first sliding guide mechanisms and moves along the first direction.

3. The debug machine for adjusting the feed bar of a press according to claim 2, wherein said first slide guide mechanism comprises a first guide rail and a first slide cooperating with said first guide rail;

the first guide rails are distributed at two opposite ends of the supporting platform along the first direction, and the first sliding blocks are arranged at the bottom of the supporting structure and are in sliding connection with the first guide rails.

4. The debugging machine for adjusting a feed bar of a stamping press according to claim 3, wherein said first sliding guide mechanism further comprises a first positioning structure comprising a first positioning track, a first positioning pin and a first positioning hole and a second positioning hole;

the first positioning rails are arranged between the first guide rails along the first direction, and the first positioning holes are arranged on the first positioning rails at intervals along the first direction;

the second positioning hole is arranged on the supporting structure and is aligned with the first positioning hole when the supporting structure moves to a specified position;

the first positioning pin is mounted on the support structure, and when the movable support moves to a designated position, the first positioning pin penetrates through the second positioning hole and is inserted into the first positioning hole.

5. The debugging machine for adjusting a feed bar of a stamping machine according to claim 4, wherein said first sliding guide mechanism further comprises a first limiting structure, said first limiting structure comprising a first limiting block, said first limiting block being disposed at both ends of said first guide rail, or said first limiting block being disposed at both ends of said first positioning rail.

6. A debugging machine for adjusting the feed bar of a press according to claim 2, wherein said height adjusting device comprises a second sliding guide mechanism, a support frame and an adjusting mechanism;

the second sliding guide mechanism is arranged on the circumferential outer wall of the supporting structure along the height direction and moves along the height direction;

the supporting frame is connected with the second sliding guide mechanism in a sliding mode and moves in the height direction through the second sliding guide mechanism;

the adjusting mechanism is arranged inside the supporting structure, and one end of the adjusting mechanism is connected with the supporting frame and used for being matched with the second sliding guide mechanism to adjust the height of the supporting frame on the supporting structure.

7. The debugging machine for adjusting the feed bar of a punching machine according to claim 6, wherein said second sliding guide mechanism comprises a second guide rail and a second slider cooperating with said second guide rail;

the second guide rail is distributed on two opposite sides of the circumferential outer wall of the supporting structure in the height direction, and the second sliding block is arranged on the supporting frame and is in sliding connection with the second guide rail.

8. The debugging machine for adjusting a feed bar of a stamping press according to claim 7, wherein said adjustment mechanism comprises a pulley, a counterweight, and a wire rope;

the pulley sets up bearing structure's top position, the balancing weight is located bearing structure's inside, wire rope's one end connect in the balancing weight, the other end is walked around the pulley connect in braced frame.

9. A debugging machine for adjusting the feed bar of a punching machine according to claim 6, characterized in that said fine adjustment means comprise a third sliding guide mechanism and an abutment structure;

the third sliding guide mechanism is arranged on a support table arranged at the tail end of the support frame along the second direction, and the abutting structure is movably arranged on the third sliding guide mechanism through the support plate and moves along the second direction to abut against the feed rod so as to adjust the feed rod to a specified position.

10. The debug machine for adjusting the feed bars of a punch press of claim 9, wherein said third slide guide mechanism comprises a third guide rail and a third slide cooperating with said third guide rail;

the third guide rail is distributed on the supporting table along the second direction, and the third sliding block is arranged at the bottom of the abutting structure and is in sliding connection with the third guide rail.

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