CN114538116A - Version roller transfer device based on magnetic suspension technique - Google Patents

Abstract

The invention belongs to the technical field of printing rollers, and particularly relates to a printing roller transfer device based on a magnetic suspension technology. According to the invention, the technical effects of stably and quickly transferring the printing roller are achieved through the track unit, the power block unit arranged on the track unit through the magnetic force, the supporting plate unit arranged on the power block unit, the shelf unit arranged on the supporting plate unit and used for placing the printing roller, and the turntable unit arranged on the supporting plate unit and used for adjusting the position of the shelf unit on the supporting plate unit. The invention adopts magnetic suspension as a power source of the transfer device, so that the bumping amplitude in the transfer process is very small, the printed patterns on the surface of the printing roller are effectively protected in the transfer process, the distance between two object placing plates for supporting the printing roller in the transfer process is adjustable, the printing rollers with different length specifications are conveniently transferred, meanwhile, the distance between the object placing plates can be accurately adjusted, and the self-locking function is realized when the transfer device is not operated.

Description

Version roller transfer device based on magnetic suspension technique

Technical Field

The invention belongs to the technical field of printing rollers, and particularly relates to a printing roller transfer device based on a magnetic levitation technology.

Background

The plate roller, also called steel roller, is generally used for platemaking, the surface of the cylinder is plated with copper, the pattern is carved by an electronic gravure engraving machine, then a layer of chromium is plated, the plate roller is generally required to be centralized in a storage area by a corresponding transfer device after the plate roller is prepared, and then the plate roller is conveniently delivered to a printing factory and other demand parties, the existing transfer mode generally adopts a transfer trolley with a roller as a base to carry out the transfer process, but the transfer mode can generate vibration, and the risk of collision exists in the transfer process.

For example, the chinese utility model patent with publication number CN215799991U and publication date 2022-02-11 discloses a printing roller electroplating transfer mechanism, which comprises a transfer frame, wherein the inner side of the transfer frame is provided with a plurality of groups of hanging frames capable of hanging printing rollers, the transfer frame comprises a top frame, two hanging frames are a group of symmetrical and fixed at the front side and the rear side of the inner side of the top frame, the bottom of the hanging frame is provided with a hook type, and a water collecting tray is rotatably connected between the two hanging frames of the same group through a sliding rod.

Therefore, in order to solve the problem of collision on the surface of the plate roller during transportation, a transportation device which is stable during transportation of the plate roller is urgently needed.

Disclosure of Invention

The invention aims to provide a plate roller transfer device based on a magnetic levitation technology, which achieves the technical effect of stably and quickly transferring plate rollers by a track unit, a power block unit arranged on the track unit through the action of magnetic force, a support plate unit arranged on the power block unit, a storage rack unit arranged on the support plate unit and used for storing the plate rollers, and a turntable unit arranged on the support plate unit and used for adjusting the position of the storage rack unit on the support plate unit.

The technical scheme adopted by the invention for solving the problems is as follows: the utility model provides a version roller transfer device based on magnetic suspension technique, includes the track unit, sets up through magnetic action power piece unit on the track unit sets up backup pad unit on the power piece unit sets up on the backup pad unit and be used for laying the supporter unit of version roller, and set up be in on the backup pad unit and be used for the adjustment the supporter unit is in the carousel unit of backup pad unit position.

The further preferred technical scheme is as follows: the track unit comprises a straight track, a vertical track arranged on the straight track, an electromagnetic suspension track and an electromagnetic power track arranged on the vertical track, and a soft cushion arranged on the straight track and used for supporting the power block unit; the power block unit is in including setting up connecting block on the bottom surface under the backup pad unit sets up vertical board on the connecting block sets up horizontal board on the vertical board sets up on the vertical board and with the electromagnetism power rail takes place electromagnetism interaction's power module, and sets up on the horizontal board and with electromagnetism suspension rail takes place electromagnetism interaction's suspension module.

The further preferred technical scheme is as follows: the support plate unit comprises a support plate arranged on the connecting block, a sliding groove arranged on the support plate and used for mounting the commodity shelf unit, and a stop block arranged on the sliding groove; the supporter unit is including setting up sliding block on the sliding tray sets up stand on the sliding block sets up put the thing board on the stand, and set up and be in put on the thing board and be used for laying the arc wall of version roller.

The further preferred technical scheme is as follows: the supporting plate unit also comprises a turntable column hole and a crown gear groove which are arranged on the supporting plate and communicated with the sliding groove and used for installing the turntable unit, a turntable column supporting barrel which is arranged on the inner side surface of the crown gear groove and used for installing the turntable unit, and a threaded column supporting barrel which is arranged on the inner side surface of the sliding groove and used for installing the turntable unit; the article placing rack unit also comprises an internal thread hole arranged on the sliding block; the carousel unit includes the carousel, sets up on the carousel and insert carousel post hole is installed carousel post on the carousel post supports a section of thick bamboo, sets up crown gear on the carousel post is installed screw thread post on the internal thread hole, and set up be in on the screw thread post and be used for meshing the gear of crown gear

The further preferred technical scheme is as follows: the supporting plate unit further comprises a limiting groove arranged on the side face of the rotary disc column hole, the rotary disc unit further comprises a limiting column part arranged on the rotary disc column and used for clamping the limiting groove, and a movable column part arranged on the rotary disc and used for pushing the limiting column part and further canceling the clamping state with the limiting groove.

The further preferred technical scheme is as follows: the turntable unit also comprises a pushing column hole arranged on the turntable column and a limiting column hole which is arranged on the turntable column and communicated with the pushing column hole; the limiting column part comprises a limiting column arranged on the limiting column hole, and an inclined plane groove arranged on the limiting column; the pushing column is arranged on the end face of the movable column and used for being inserted into the pushing column hole, and the inclined plane block is arranged on the pushing column and used for being inserted into the inclined plane groove.

The further preferred technical scheme is as follows: the turntable unit also comprises a spring groove which is arranged on the turntable column and communicated with the pushing column hole, and a notch of the spring groove is communicated with an orifice of the limiting column hole; the limiting column part further comprises a return spring which is arranged on the bottom surface of the inner side of the spring groove and used for jacking the limiting column.

The further preferred technical scheme is as follows: the turntable unit further comprises an auxiliary rotating groove formed in the turntable post, and an auxiliary rotating post formed in the movable post and inserted into the auxiliary rotating groove.

The further preferred technical scheme is as follows: the rotary table unit further comprises a closing block arranged on the auxiliary rotating groove and a protruding block arranged on the auxiliary rotating column.

The further preferred technical scheme is as follows: the support plate unit further comprises an auxiliary support cylinder which is arranged on the bottom surface of the inner side of the sliding groove and used for mounting the threaded column.

The invention has the following advantages:

firstly, magnetic suspension is used as a power source of the transfer device, so that the bumping amplitude in the transfer process is very small, and the printed patterns on the surface of the plate roller are effectively protected in the transfer process.

And secondly, the distance between the two object placing plates for supporting the printing roller in the transferring process is adjustable, so that the printing rollers with different length specifications can be conveniently transferred.

And thirdly, the distance between the two object placing plates is adjusted in a threaded column rotating mode, and the threaded column is driven to rotate by rotating the rotary disc, so that the distance between the object placing plates is adjusted more accurately.

Fourth, set up stopper mechanism on the carousel for the carousel can not rotate when the natural state of not operating down, makes two distance relatively fixed between putting the thing board, and if make the carousel rotate again, only need inwards promote the carousel and can realize.

Drawings

Fig. 1 is a schematic structural view of the entire transfer device and the transfer of a small-sized plate roller according to the present invention.

Fig. 2 is a schematic structural diagram of the entire transfer device and the transfer of a large-sized plate roller according to the present invention.

Fig. 3 is a schematic structural view of the entire top view of the transfer device of the present invention.

Fig. 4 is a schematic structural view of a joint between a support plate unit and a shelf unit according to the present invention.

Fig. 5 is a schematic structural view of the power block unit in a running state on the track unit in the invention.

Fig. 6 is a schematic structural view of the power block unit in a non-operating state on the rail unit in the present invention.

FIG. 7 is a schematic view of the top view of the supporting plate unit and the position of the stopper mounted on the sliding groove according to the present invention.

FIG. 8 is a schematic view of the mounting positions of the turntable post hole, the sliding slot and the crown gear slot and the internal components thereof.

Fig. 9 is a schematic structural view of a connection mode of the internal thread hole and the threaded column in the invention.

Fig. 10 is a schematic structural view of the position-limiting post portion of the present invention.

In the drawings, the reference numerals denote the following components: the plate roller A, the track unit 1, the power block unit 2, the support plate unit 3, the shelf unit 4, the turntable unit 5, the straight rail 101, the vertical rail 102, the electromagnetic suspension rail 103, the electromagnetic power rail 104, the soft pad 105, the connecting block 201, the vertical plate 202, the horizontal plate 203, the power module 204, the suspension module 205, the support plate 301, the sliding groove 302, the stopper 303, the turntable post hole 304, the crown gear groove 305, the turntable post support cylinder 306, the threaded post support cylinder 307, the limiting groove 308, the auxiliary support cylinder 309, the sliding block 401, the upright post 402, the shelf plate 403, the arc-shaped groove 404, the internal threaded hole 405, the turntable 501, the turntable post 502, the crown gear 503, the threaded post 504, the gear 505, the limiting post portion 506, the movable post 507, the pushing post hole 508, the limiting post hole 509, the spring groove 510, the auxiliary rotating inclined groove 511, the auxiliary rotating post 512, the closing block 513, the protruding block 514, the limiting post 506a, the limiting post 506b, pushing post 506c, ramp block 506d, and return spring 506 e.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

In addition, references to the terms "vertical," "horizontal," "top," "bottom," "front," "back," "upper," "lower," "inner," "outer," and the like in embodiments of the invention are based on the orientation or positional relationship shown in FIG. 1, or the orientation or positional relationship in which the product is conventionally used, for convenience in describing and simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

Example (b): as shown in fig. 1-10, a version roller transfer device based on magnetic levitation technology includes track unit 1, power block unit 2 set on track unit 1 through magnetic force, support plate unit 3 set on power block unit 2, shelf unit 4 set on support plate unit 3 and used for placing version roller a, and turntable unit 5 set on support plate unit 3 and used for adjusting shelf unit 4 in the position of support plate unit 3.

In this embodiment, the track unit 1 is laid between two places where the printing roller a needs to be frequently transported, and generally laid between the preparation workshop and the storage workshop of the printing roller, the track unit 1 is generally laid with two parallel lines, similar to the laying manner of the rail, the power block unit 2 is disposed below the support plate unit 3, two sides are respectively provided with one, the distance between the two power block units 2 and the two track units 1 is the same, so that the support plate unit 3 is mounted on the power block unit 2 to advance, the rack unit 4 is mounted on the upper top surface of the support plate unit 3, and left and right sides are respectively provided with one for jacking up the printing roller a, a plurality of printing rollers a can be mounted between the two rack units 4 to improve the transportation efficiency, the turntable unit 5 is also disposed at the side of the support plate unit 3, the distance between the two rack units 4 is adjusted by means of rotation, so as to be used for transporting the printing rolls A with different lengths.

The track unit 1 comprises a straight track 101, a vertical track 102 arranged on the straight track 101, an electromagnetic suspension track 103 and an electromagnetic power track 104 arranged on the vertical track 102, and a soft pad 105 arranged on the straight track 101 and used for supporting the power block unit 2; the power block unit 2 comprises a connecting block 201 arranged on the lower bottom surface of the supporting plate unit 3, a vertical plate 202 arranged on the connecting block 201, a transverse plate 203 arranged on the vertical plate 202, a power module 204 arranged on the vertical plate 202 and having an electromagnetic interaction with the electromagnetic power rail 104, and a suspension module 205 arranged on the transverse plate 203 and having an electromagnetic interaction with the electromagnetic suspension rail 103.

In this embodiment, the straight rail 101 is directly laid on the bottom surface, the upper surface of the straight rail 101 is kept horizontal for ensuring smooth forward movement of the transfer device, as shown in fig. 3, the straight rail 101 includes a partially curved rail for adjusting the forward direction of the transfer device, the vertical rail 102 is laid along the central portion of the upper top surface of the straight rail 101, as shown in fig. 5 and 6, the electromagnetic levitation rail 103 is disposed directly above the levitation module 205, the levitation module 205 is attracted and floated by the attraction of electromagnetic force, in another way, the electromagnetic levitation rail 103 can also be disposed directly below the levitation module 205, the levitation module 205 can also float by the repulsion of electromagnetic force, the power modules 204 are disposed on both sides of the electromagnetic power rail 104, by the magnetic attraction of the electromagnetic power rail 104 in the forward direction of the transfer device and the magnetic repulsion behind, the two power supplies advancing power for the transfer device together to drive the transfer device to advance.

In addition, after the roller A arrives at the transfer site, the suspension module 205 and the electromagnetic suspension rail 103 stop working, so that the electromagnetic acting force between the suspension module and the electromagnetic suspension rail slowly disappears, as shown in fig. 6, the power block unit 2 slowly falls onto the soft cushion 105, and the roller A is conveniently detached and transferred.

The supporting plate unit 3 comprises a supporting plate 301 arranged on the connecting block 201, a sliding groove 302 arranged on the supporting plate 301 and used for installing the commodity shelf unit 4, and a stop block 303 arranged on the sliding groove 302; the commodity shelf unit 4 comprises a sliding block 401 arranged on the sliding groove 302, a column 402 arranged on the sliding block 401, a commodity placing plate 403 arranged on the column 402, and an arc-shaped groove 404 arranged on the commodity placing plate 403 and used for placing a plate roller A.

In this embodiment, the sliding groove 302 is disposed at the middle position of the upper top surface of the supporting plate 301, the sliding block 401 is inserted into the sliding groove 302 and disposed at two ends of the sliding groove 302, and the sliding block 401 can move along the extending direction of the sliding groove 302 to adjust the position of the upright post 402 disposed thereon, so as to adjust the distance between the two object placing plates 403 to adapt to the actual length of the printing roller a to be transported.

In addition, the plate roller shafts on the two sides of the plate roller A are cylindrical, so that the arc-shaped grooves 404 with arc-shaped lower bottom surfaces are arranged for placing the plate roller shafts on the two sides of the plate roller A, and the plate roller A cannot roll easily in the transferring process.

In addition, as shown in fig. 7, the stoppers 303 are disposed on the inner side surface of the sliding groove 302 for limiting the sliding range of the sliding block 401, and the distance between the two stoppers 303 is not less than the shortest length of the roller a to be transported.

The supporting plate unit 3 further comprises a turntable post hole 304 and a crown gear groove 305 which are arranged on the supporting plate 301 and communicated with the sliding groove 302 and used for installing the turntable unit 5, a turntable post supporting cylinder 306 which is arranged on the inner side surface of the crown gear groove 305 and used for installing the turntable unit 5, and a thread post supporting cylinder 307 which is arranged on the inner side surface of the sliding groove 302 and used for installing the turntable unit 5; the shelf unit 4 further includes an internal threaded hole 405 provided on the slide block 401; the turntable unit 5 includes a turntable 501, a turntable post 502 provided on the turntable 501 and inserted into the turntable post hole 304 and mounted on the turntable post support cylinder 306, a crown gear 503 provided on the turntable post 502, a threaded post 504 mounted on the internally threaded hole 405, and a gear 505 provided on the threaded post 504 and engaging the crown gear 503.

In this embodiment, if it is desired to adjust the distance between two of the sliding blocks 401, it can be achieved by simply rotating the dial 501, when the rotary disc 501 is rotated, the rotary disc column 502 drives the crown gear 503 to rotate, and when the crown gear 503 rotates, the gear 505 is rotated, as shown in fig. 8, since two gears rotate clockwise one, counterclockwise one, thus, the rotation directions of the left and right threaded posts 504 are always opposite, so that the movement directions of the two sliding blocks 401 are also always opposite, thereby adjusting the sliding blocks 401 at two sides simultaneously, and the sliding blocks 401 can be simultaneously drawn close to the center and also can be simultaneously scattered to two sides, so that the printing roller A supported by the object placing plate 403 is always positioned at the center of the supporting plate 301, and the stress of the transfer device is kept balanced.

In addition, the threaded column 504 passes through the lower part of the stop block 303, and the stop block 303 does not influence the rotation process of the threaded column 504.

The supporting plate unit 3 further includes a limiting groove 308 disposed on a side surface of the turntable column hole 304, and the turntable unit 5 further includes a limiting column portion 506 disposed on the turntable column 502 and used for engaging with the limiting groove 308, and a movable column 507 disposed on the turntable 501 and used for pushing the limiting column portion 506 to disengage with the limiting groove 308.

In this embodiment, in order to make the sliding block 401 remain fixed when moving to a proper position, the limiting groove 308 is provided on the side surface of the rotating disc column hole 304, and the rotating disc column 502 is stopped by the way of the limiting column 506 being engaged, so that the crown gear 503, the gear 505 and the threaded column 504 are all stopped, and finally the sliding block 401 is fixed at a specific position under the action of the thread engagement.

In addition, in order to readjust the position of the sliding block 401, the limiting column 506 is pushed out of the limiting groove 308 through the movable column 507 by pushing the dial 501, so that the dial column 502 can be rotated again.

The turntable unit 5 further comprises a pushing column hole 508 arranged on the turntable column 502, and a limiting column hole 509 arranged on the turntable column 502 and communicated with the pushing column hole 508; the position-limiting pillar part 506 comprises a position-limiting pillar 506a arranged on the position-limiting pillar hole 509, and an inclined plane groove 506b arranged on the position-limiting pillar 506 a; a pushing post 506c provided on an end surface of the movable post 507 and inserted into the pushing post hole 508, and a slope block 506d provided on the pushing post 506c and inserted into the slope groove 506 b.

In this embodiment, when the rotary plate 501 is pushed, the pushing post 506c slides along the pushing post hole 508, so that the inclined plane block 506d jacks up the inclined plane groove 506b, as shown in fig. 10, the inclined plane groove 506b is inclined toward the direction of the limiting groove 308, so that the limiting post 506a moves inward along the limiting post hole 509 when the inclined plane block 506d jacks up the inclined plane groove 506b, thereby disengaging from the limiting groove 308.

In addition, the inclined plane groove 506b prevents the position-limiting post 506a from being disengaged from the position-limiting post hole 509 by the engaging action with the inclined plane block 506 d.

The turntable unit 5 further comprises a spring groove 510 disposed on the turntable post 502 and communicating with the push post hole 508, and a notch of the spring groove 506e communicates with an orifice of the limit post hole 509; the position-limiting post 506 further includes a return spring 506e disposed on the inner bottom surface of the spring groove 506e and used for jacking up the position-limiting post 506 a.

In this embodiment, in order to make the position-limiting post 506a reset when the rotating disc 501 is not pushed, the reset spring 506e is disposed on the other side of the position-limiting post 506a opposite to the position-limiting groove 308 and is installed in the spring groove 510, and when the inclined plane groove 506b loses the pushing force of the inclined plane block 506d, the reset spring 506e can push the position-limiting post 506a to return to the position-limiting groove 308 again.

In addition, after the return spring 506e pushes the position-limiting post 506a to return, the pushing post 506c is simultaneously returned by the force of the bevel groove 506b on the bevel block 506 d.

The turntable unit 5 further includes an auxiliary rotation groove 511 provided on the turntable post 502, and an auxiliary rotation post 512 provided on the movable post 507 and inserted into the auxiliary rotation groove 511.

In this embodiment, when the turntable 501 is rotated to rotate the turntable post 502, substantially all of the rotational force is applied between the inclined surface groove 506b and the inclined surface block 506d, which causes a large burden to the inclined surface block 506d, so that the auxiliary rotation post 512 is inserted into the auxiliary rotation groove 511 of the turntable post 502, so that the auxiliary rotation post 512 bears a part of the rotational force, and the auxiliary rotation post 512 does not affect the pushing process of the pushing post 506 c.

The turntable unit 5 further includes a closing block 513 provided on the auxiliary rotation groove 511, and a protruding block 514 provided on the auxiliary rotation post 512.

In this embodiment, in order to prevent the auxiliary rotation post 512 from being disengaged from the auxiliary rotation slot 511 during rotation, the closing block 513 is disposed on the inner side of the auxiliary rotation slot 511 near the slot, so as to achieve the technical effect of fixing the auxiliary rotation post 512 by lifting up the protruding block 514 disposed on the auxiliary rotation post 512, and not affecting the sliding process of the auxiliary rotation post 512 in the auxiliary rotation slot 511, and this engagement ensures that the pushing post 506c is not disengaged from the pushing post hole 508 during the movement process.

The supporting plate unit 3 further includes an auxiliary supporting cylinder 309 provided on the inner bottom surface of the sliding groove 302 and for mounting the screw column 504.

In this embodiment, in order to make the threaded column 504 more stable during operation, the auxiliary support cylinder 309 is disposed at the end of the threaded column 504, and supports the threaded column 504 in cooperation with the threaded column support cylinder 307.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.

Claims (10)

1. The utility model provides a version roller transfer device based on magnetic suspension technique, its characterized in that includes track unit (1), sets up through magnetic force power block unit (2) on track unit (1), sets up backup pad unit (3) on power block unit (2), set up and be in on backup pad unit (3) and be used for laying commodity shelf unit (4) of version roller (A), and set up and be in on backup pad unit (3) and be used for the adjustment commodity shelf unit (4) are in carousel unit (5) of backup pad unit (3) position.

2. The plate roller transfer device based on the magnetic levitation technology according to claim 1, wherein the track unit (1) comprises a straight rail (101), a vertical rail (102) arranged on the straight rail (101), an electromagnetic levitation rail (103) and an electromagnetic power rail (104) arranged on the vertical rail (102), and a soft pad (105) arranged on the straight rail (101) for supporting the power block unit (2); the power block unit (2) comprises a connecting block (201) arranged on the bottom surface of the supporting plate unit (3), a vertical plate (202) arranged on the connecting block (201), a transverse plate (203) arranged on the vertical plate (202), a power module (204) arranged on the vertical plate (202) and having electromagnetic interaction with the electromagnetic power rail (104), and a suspension module (205) arranged on the transverse plate (203) and having electromagnetic interaction with the electromagnetic suspension rail (103).

3. The plate roller transfer device based on magnetic levitation technology according to claim 2, characterized in that the support plate unit (3) comprises a support plate (301) arranged on the connecting block (201), a sliding groove (302) arranged on the support plate (301) and used for mounting the rack unit (4), and a stop block (303) arranged on the sliding groove (302); the commodity shelf unit (4) is including setting up sliding block (401) on sliding tray (302), set up stand (402) on sliding block (401) set up and be in put thing board (403) on stand (402), and set up and be in put thing board (403) and be used for laying arc wall (404) of version roller (A).

4. A plate roller transfer device based on magnetic levitation technology according to claim 3, characterized in that the support plate unit (3) further comprises a turntable post hole (304) and a crown gear groove (305) which are provided on the support plate (301) and communicate with the sliding groove (302) for mounting the turntable unit (5), a turntable post support barrel (306) which is provided on the inner side of the crown gear groove (305) and is used for mounting the turntable unit (5), and a threaded post support barrel (307) which is provided on the inner side of the sliding groove (302) and is used for mounting the turntable unit (5); the commodity shelf unit (4) further comprises an internal thread hole (405) arranged on the sliding block (401); the turntable unit (5) includes a turntable (501), a turntable column (502) provided on the turntable (501) and inserted into the turntable column hole (304) and mounted on the turntable column support cylinder (306), a crown gear (503) provided on the turntable column (502), a threaded column (504) mounted on the internally threaded hole (405), and a gear (505) provided on the threaded column (504) and engaging with the crown gear (503).

5. The plate roller transfer device based on the magnetic levitation technology as claimed in claim 4, wherein the support plate unit (3) further comprises a limiting groove (308) disposed on the side surface of the turntable column hole (304), the turntable unit (5) further comprises a limiting column portion (506) disposed on the turntable column (502) and used for clamping the limiting groove (308), and a movable column (507) disposed on the turntable (501) and used for pushing the limiting column portion (506) to be disengaged from the limiting groove (308).

6. The plate roller transfer device based on magnetic levitation technology according to claim 5, wherein the turntable unit (5) further comprises a push post hole (508) disposed on the turntable post (502), a limit post hole (509) disposed on the turntable post (502) and communicating with the push post hole (508); the limiting column part (506) comprises a limiting column (506 a) arranged on the limiting column hole (509), and an inclined plane groove (506 b) arranged on the limiting column (506 a) and arranged on the limiting column; a pushing post (506 c) disposed on an end surface of the movable post (507) and inserted into the pushing post hole (508), and a slope block (506 d) disposed on the pushing post (506 c) and inserted into the slope groove (506 b).

7. The plate roller transfer device based on magnetic levitation technology as claimed in claim 6, wherein the turntable unit (5) further comprises a spring groove (510) disposed on the turntable post (502) and communicating with the pushing post hole (508), and the notch of the spring groove (506 e) communicates with the opening of the limiting post hole (509); the limiting column part (506) further comprises a return spring (506 e) which is arranged on the bottom surface of the inner side of the spring groove (506 e) and used for jacking the limiting column (506 a).

8. Plate roller transfer device based on magnetic levitation technology according to claim 5, characterised in that the carousel unit (5) further comprises an auxiliary rotation slot (511) provided on the carousel column (502), and an auxiliary rotation post (512) provided on the mobile post (507) and intended to be inserted in the auxiliary rotation slot (511).

9. The plate roller transfer device based on magnetic levitation technology according to claim 8, wherein the carousel unit (5) further comprises a closing block (513) disposed on the auxiliary rotating tub (511) and a protruding block (514) disposed on the auxiliary rotating column (512).

10. Plate roller transfer device based on magnetic levitation technology according to claim 4, characterised in that the support plate unit (3) further comprises an auxiliary support cylinder (309) arranged on the inner bottom surface of the sliding groove (302) and used for mounting the threaded column (504).

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