CN221775424U

CN221775424U - Roller mounting structure of aluminum foil paper embossing machine

Info

Publication number: CN221775424U
Application number: CN202420119249.3U
Authority: CN
Inventors: 杨海华; 谢美峰
Original assignee: Zhangjiagang Auto Well Automation Equipment Co ltd
Current assignee: Zhangjiagang Auto Well Automation Equipment Co ltd
Priority date: 2024-01-18
Filing date: 2024-01-18
Publication date: 2024-09-27
Anticipated expiration: 2034-01-18

Abstract

The utility model relates to the technical field of embossing rollers, in particular to an aluminum foil embossing roller mounting structure which comprises a roller, wherein the roller comprises a roller shaft, locking mechanisms are arranged at two ends of the roller shaft in a matched mode, a driving mechanism is arranged above the roller, and the locking mechanisms comprise ring bodies. According to the utility model, the screw is driven to rotate by starting the driving motor, so that the screw drives the two ring bodies to synchronously move in opposite directions or move in opposite directions, the positions of the two ring bodies are regulated, the driving motor is started to drive the two gears to rotate, the two toothed rings and the adjacent threaded cylinders are driven to rotate by the two gears, the two screwed rings move on the adjacent threaded cylinders, and when the screwed rings move, the adjacent sliding frames are pulled to move in the adjacent guide grooves by the adjacent supporting rods, so that the plurality of abutting rollers on the same ring body move towards the centers of the adjacent ring bodies to abut against and fix the roller shafts, thus the fixation of the roller shafts can be automatically completed, and the roller shafts can be conveniently and quickly disassembled by users.

Description

Roller mounting structure of aluminum foil paper embossing machine

Technical Field

The utility model relates to the technical field of embossing machines, in particular to an aluminum foil paper embossing machine roller mounting structure.

Background

The embossing machine mainly comprises an embossing roller and a rubber roller, wherein the embossing roller is positioned above the rubber roller, various patterns formed by processing are arranged on the surface of the embossing roller, the aluminum foil paper is pressed out of the patterns by the embossing roller through the space between the embossing roller and the rubber roller, the inside of the embossing roller is hollow and is mainly used for injecting cold water, so that the patterns on the aluminum foil paper are shaped, but when the patterns to be printed are changed, the embossing roller needs to be changed, when a factory actually works, products with various different patterns may need to be printed every day, the embossing roller is likely to be changed frequently, and the common embossing machine roller is installed at a proper position through a plurality of groups of bolts.

Disclosure of utility model

In order to overcome the technical problems, the utility model aims to provide the roller mounting structure of the aluminum foil embossing machine, which is characterized in that a driving motor is started to drive a screw to rotate, so that the screw drives two ring bodies to synchronously move in opposite directions or move in opposite directions, the positions of the two ring bodies are regulated, a power motor is started to drive two gears to rotate, the two toothed rings and the adjacent threaded cylinders are driven to rotate by the two gears, the two screwed rings move on the adjacent threaded cylinders, and when the two screwed rings move, a plurality of adjacent sliding frames are pulled to move in adjacent guide grooves by a plurality of adjacent supporting rods, a plurality of abutting rollers on the same ring body move towards the centers of the adjacent ring bodies to abut against and fix the roller shafts, so that the fixation of the roller shafts can be automatically completed, and a user can conveniently and quickly disassemble the roller.

The aim of the utility model can be achieved by the following technical scheme:

The roller mounting structure of the aluminum foil paper embossing machine comprises a roller, wherein the roller comprises a roller shaft, locking mechanisms are arranged at two ends of the roller shaft in a matched mode, and a driving mechanism is arranged above the roller;

The locking mechanism comprises a ring body, a plurality of guide grooves are uniformly formed in the inner side wall of the ring body, a plurality of guide grooves are in sliding clamping connection with sliding frames, the sliding frames are U-shaped, and a plurality of abutting rollers are connected between two arms of the sliding frames in a rotating mode.

The method is further characterized in that: the utility model discloses a ring body, including ring body, a plurality of guide slots, a plurality of slide grooves, a plurality of support bars, a plurality of slide racks, a plurality of slide grooves, a plurality of guide slots, a plurality of slide grooves, a plurality of support bars, a plurality of slide racks one end is all run through adjacent slide groove and with corresponding support bar one end rotation connection, a plurality of rotation grooves are seted up to ring body one side, and ring body one side is provided with the screw barrel, screw barrel one end rotation joint in the rotation inslot portion, and screw barrel lateral wall is provided with the rotation and closes the ring, the rotation closes the ring with screw barrel lateral wall mutually, a plurality of slide grooves have evenly been seted up to ring body one side, and a plurality of slide grooves and a plurality of guide slots one-to-one end are all linked together with corresponding support bar one end rotation.

The method is further characterized in that: the driving mechanism comprises a sliding rail, two sliding plates are connected to the inner side of the sliding rail in a sliding and clamping mode, one ends of the sliding plates are fixedly connected with outer side walls of ring bodies on the two locking mechanisms respectively, a screw is connected between two ends of the inner side of the sliding rail in a rotating mode, threaded holes formed in the inner side walls and the outer side walls of the screw are formed in one side of the two sliding plates in a rotating mode, a driving motor is arranged at one end of the sliding rail, and one end of the screw (430) penetrates through one end of the sliding rail (410) and is fixedly connected with a motor shaft of the driving motor (450).

The method is further characterized in that: the two screw thread section of thick bamboo lateral wall other end on the locking mechanical system is all fixed to have cup jointed the ring gear, two connecting hole has all been seted up to sliding plate one side, and two connecting hole are inside all to rotate and to have cup jointed a rotation section of thick bamboo, two the rotation section of thick bamboo is opposite to each other from the equal fixedly connected with gear of one end, and two gears mesh with two ring gears respectively, two be provided with the actuating lever between the sliding plate, and two rotation section of thick bamboo inside wall all cup joints with the action of actuating lever lateral wall activity, two socket has all been seted up at gear one side center, and two socket inside walls are slided with the action of actuating lever lateral wall and cup joint, the actuating lever is supporting to be provided with motor, and motor shaft and actuating lever one end fixed connection of motor.

The method is further characterized in that: the driving rod is of a prismatic structure.

The method is further characterized in that: the roller shaft is characterized in that a plurality of clamping rings are fixedly connected to two ends of the roller shaft, a plurality of annular grooves are formed in the outer side walls of a plurality of abutting rollers on the same locking mechanism, and the clamping rings are rotationally clamped inside the adjacent annular grooves.

The method is further characterized in that: and a notch is formed in the outer side wall of the ring body.

The utility model has the beneficial effects that:

The screw is driven to rotate by starting the driving motor, so that the screw drives the two sliding plates and the adjacent ring bodies to synchronously move in opposite directions or move in opposite directions, the positions of the two ring bodies are adjusted, two ends of the roller shaft enter the two ring bodies, then the driving motor is started, the driving motor drives the two gears to rotate, the two gears drive the meshed toothed rings to rotate, the two toothed rings drive the adjacent threaded cylinders to rotate, the screwed rings on the two threaded cylinders move on the adjacent threaded cylinders, and when the screwed rings move, the adjacent sliding frames are pulled to move in the adjacent guide grooves through the adjacent supporting rods, the sliding frames on the same ring body move towards the centers of the adjacent ring bodies, and the roller shaft is fixed by the abutting rollers on the same ring body, so that the roller shaft can be automatically fixed, and the roller can be conveniently and quickly disassembled by a user.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of a roller and locking mechanism according to the present utility model;

FIG. 3 is an exploded view of the structure of the locking mechanism of the present utility model;

fig. 4 is an exploded view of the structure of the driving mechanism in the present utility model.

In the figure: 100. a roller; 200. a roll shaft; 210. a clasp; 300. a locking mechanism; 310. a ring body; 311. a guide groove; 312. a rotating groove; 313. a chute; 314. a notch; 320. a carriage; 321. a roller; 322. an annular groove; 330. a thread cylinder; 331. a toothed ring; 340. screwing the ring; 341. a support rod; 400. a driving mechanism; 410. a slide rail; 420. a sliding plate; 421. a connection hole; 422. a rotating cylinder; 430. a screw; 440. a driving rod; 441. a gear; 442. a socket; 450. a driving motor; 460. a power motor.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model discloses a roller mounting structure of an aluminum foil paper embossing machine, which is shown in fig. 1-4, and comprises a roller 100, wherein the roller 100 comprises a roller shaft 200, locking mechanisms 300 are arranged at two ends of the roller shaft 200 in a matched manner, and a driving mechanism 400 is arranged above the roller 100;

The locking mechanism 300 comprises ring bodies 310, a plurality of guide grooves 311 are uniformly formed in the inner side walls of the ring bodies 310, sliding brackets 320 are arranged in the guide grooves 311 in a sliding clamping manner, the sliding brackets 320 are U-shaped, abutting rollers 321 are rotatably connected between two arms of the sliding brackets 320, when the locking mechanism is used, through the fact that the roll shafts 200 are placed into the ring bodies 310 on the two locking mechanisms 300, then a user slides the sliding brackets 320 on each ring body 310, the sliding brackets 320 synchronously move towards the center of the ring bodies 310 along the adjacent guide grooves 311, a plurality of abutting rollers 321 in the same ring body 310 synchronously abut against the roll shafts 200 to fix the roll shafts 200, accordingly the roller shafts 100 can be quickly assembled and disassembled, notches 314 are formed in the outer side walls of the ring bodies 310, the two ring bodies 310 are all provided with notches 314, the two ring bodies 310 are C-shaped, the roll shafts 200 conveniently enter the inside the ring bodies 310 from the notches 314, the two ends of the roll shafts 200 are fixedly connected with a plurality of snap rings 210, a plurality of abutting rollers 321 on the same locking mechanism 300 are arranged on the outer side walls of the same ring bodies 322, the roll shafts 210 rotate and are synchronously moved towards the center of the ring bodies 310 along the adjacent guide grooves 311, and the adjacent ring grooves 322 can synchronously abut against the roll shafts 200 when the adjacent ring grooves 200 are located in the adjacent ring grooves 322, and the adjacent ring grooves 200 are synchronously pushed into the ring grooves 322, and the annular grooves 200 are synchronously slid by the annular grooves 322 when the adjacent ring bodies 200.

The rotating groove 312 is formed in one side of the ring body 310, the threaded cylinder 330 is arranged on one side of the ring body 310, one end of the threaded cylinder 330 is rotationally clamped in the rotating groove 312, the rotating grooves 340 are arranged on the outer side wall of the threaded cylinder 330, the inner side walls of the rotating rings 340 are rotationally matched with the outer side walls of the threaded cylinders 330, the sliding grooves 313 are uniformly formed in one side of the ring body 310, the sliding grooves 313 are in one-to-one correspondence with the corresponding guiding grooves 311, the inner parts of the sliding grooves 313 are communicated with the inner parts of the corresponding guiding grooves 311, the outer side walls of the rotating rings 340 are rotationally connected with the supporting rods 341, the supporting rods 341 are in one-to-one correspondence with the sliding frames 320, one ends of the sliding frames 320 penetrate through the adjacent sliding grooves 313 and are rotationally connected with one end of the corresponding supporting rod 341, the rotating grooves 312 on the two locking mechanisms 300 are of C-shaped, and when the two locking mechanisms 300 are used, the rotating rings 330 can rotate to drive the two rotating rings 340 to move, and the adjacent sliding frames 320 are pulled to slide in the adjacent guiding grooves 311 synchronously, so that the adjacent sliding frames 320 move in the adjacent guiding grooves 311, and the adjacent sliding frames 320 synchronously move towards the same center, or move away from the same center 310 synchronously.

The driving mechanism 400 comprises a sliding rail 410, two sliding plates 420 are fixedly connected with the outer side walls of ring bodies 310 on two locking mechanisms 300 by sliding and clamping the sliding rail 410, screws 430 are rotatably connected between the two ends of the sliding rail 410, threaded holes formed in the inner side walls of the two sliding plates 420 and the outer side walls of the screws 430 are formed in one side of the two sliding plates 420, a driving motor 450 is arranged at one end of the sliding rail 410, one end of each screw 430 penetrates through one end of the sliding rail 410 and is fixedly connected with a motor shaft of the driving motor 450, the sliding rail 410 is mounted on an embossing machine body, the driving motor 450 is mounted beside the embossing machine body through a bracket, then a user drives the screws 430 to rotate through the driving motor 450, the screws 430 are positive and negative tooth screws, the screws 430 can drive the two sliding plates 420 to move oppositely or move reversely when the screws 430 rotate, the user can adjust the distance between the two ring bodies 310 according to the lengths of different ring bodies 200, the two ring bodies 310 are limited by the adjacent sliding plates 420 and cannot rotate, the two threaded cylinders 330 are not easy to rotate through the rotating rings 340, and the two ring bodies 310 are not easy to rotate through the rotating rings 340, and the roller shafts 310 can be placed in the gap 322 through the position of the annular grooves 314 when the two ring bodies 200 are not to be placed in the gap positions of the embossing machine body, and the gap is not to be placed in the gap 322, and the gap is a position of the gap is a gap or a gap is formed between the gap between the person or a gap is not by using a gap.

The other end of the outer side wall of the threaded cylinder 330 on the two locking mechanisms 300 is fixedly sleeved with a toothed ring 331, one side of each of the two sliding plates 420 is provided with a connecting hole 421, the inside of each of the two connecting holes 421 is rotatably sleeved with a rotating cylinder 422, one end of each of the two rotating cylinders 422, which is opposite to the other end, is fixedly connected with a gear 441, the two gears 441 are respectively meshed with the two toothed rings 331, a driving rod 440 is arranged between the two sliding plates 420, the inner side wall of each of the two rotating cylinders 422 is movably sleeved with the outer side wall of the driving rod 440, a socket 442 is formed in the center of one side of each of the two gears 441, the inner side wall of each of the two sockets 442 is slidably sleeved with the outer side wall of the driving rod 440, a power motor 460 is arranged in a matched manner, a motor shaft of the power motor 460 is fixedly connected with one end of the driving rod 440, during use, the driving rod 440 is in a prismatic structure, the power motor 460 can drive the driving rod 440, the shape of the socket 442 is identical to the cross section of the driving rod 440, the driving rod 440 can drive the two gears 441 to synchronously rotate, the two gears 441 are synchronously, the two toothed rings 441 and the adjacent threaded cylinders 330 are synchronously driven by the two gears 441 and the rotating automatically, the roller shafts 200 are axially and the adjacent threaded cylinders 200 are axially driven by the two toothed rings 331, and the roller shafts 200 are axially and the two ring bodies 200 are axially and rotatably connected with the other end bodies 200, and are axially and rotatably connected with the end bodies 200, 200 and are respectively, and are rotatably connected with the end bodies 200 and are rotatably and rotatably 200 and one end of the other end bodies are respectively in the driving device is capable of the driving rod body is capable of and 200 and a piston rod is rotatably and a ring body is capable of a piston body is rotatably and a piston rod 440 and a piston structure. Thereby driving the roller shaft 200 to rotate the drum 100.

Working principle: when in use, the slide rail 410 is arranged on the embossing machine body, the driving motor 450 and the power motor 460 are arranged at two sides of the embossing machine body through the brackets, then the roll shaft 200 is placed in the ring body 310 on the two locking mechanisms 300, the driving motor 450 is started to drive the screw 430 to rotate, so that the screw 430 can drive the two sliding plates 420 to move oppositely or move reversely when rotating, and a user adjusts the positions of the two ring bodies 310 according to the lengths of the roll 100 and the roll shaft 200;

After the adjustment is finished, a user starts the power motor 460 to drive the driving rod 440 to rotate, so that the driving rod 440 drives the two gears 441 to synchronously rotate, and drives the two toothed rings 331 and the adjacent threaded cylinders 330 to synchronously rotate through the two gears 441, so that the two threaded cylinders 330 rotate to drive the two screwed rings 340 to move, when the two screwed rings 340 move, the adjacent plurality of sliding frames 320 are pulled to synchronously slide in the adjacent guide grooves 311 through the adjacent supporting rods 341, the plurality of sliding frames 320 in the same ring body 310 synchronously move towards the center of the adjacent ring body 310, a plurality of abutting rollers 321 in the same ring body 310 synchronously abut against the roller shafts 200 to fix the roller shafts 200, and the clamping rings 210 at two ends of the roller shafts 200 are clamped into the annular grooves 322 on the adjacent abutting rollers 321, so that the roller shafts 200 can be limited by clamping the annular grooves 322 through the clamping rings 210.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the utility model, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the utility model or exceeding the scope of the utility model as defined in the claims.

Claims

1. The roller mounting structure of the aluminum foil paper embossing machine comprises a roller (100), wherein the roller (100) comprises a roller shaft (200), and is characterized in that locking mechanisms (300) are arranged at two ends of the roller shaft (200) in a matched mode, and a driving mechanism (400) is arranged above the roller (100);

The locking mechanism (300) comprises a ring body (310), a plurality of guide grooves (311) are uniformly formed in the inner side wall of the ring body (310), a plurality of guide grooves (311) are internally and slidably clamped with a sliding frame (320), the sliding frames (320) are U-shaped, and a plurality of abutting rollers (321) are rotatably connected between two arms of the sliding frame (320).

2. The roller mounting structure of an aluminum foil embossing machine according to claim 1, wherein a rotating groove (312) is formed in one side of the ring body (310), a threaded cylinder (330) is arranged on one side of the ring body (310), one end of the threaded cylinder (330) is rotationally clamped inside the rotating groove (312), a screwing ring (340) is arranged on the outer side wall of the threaded cylinder (330), a plurality of sliding grooves (313) are uniformly formed in one side of the ring body (310), the sliding grooves (313) are in one-to-one correspondence with the guiding grooves (311), the inner parts of the sliding grooves (313) are communicated with the inner parts of the corresponding guiding grooves (311), a plurality of supporting rods (341) are rotationally connected to the outer side wall of the screwing ring (340), the supporting rods (341) are in one-to-one correspondence with a plurality of sliding frames (320), and one ends of the sliding frames (320) penetrate through the adjacent sliding grooves (313) and are rotationally connected with one ends of the corresponding supporting rods (341).

3. The roller mounting structure of an aluminum foil embossing machine according to claim 2, wherein the driving mechanism (400) comprises a sliding rail (410), two sliding plates (420) are clamped inside the sliding rail (410), one ends of the two sliding plates (420) are fixedly connected with the outer side walls of the ring bodies (310) on the two locking mechanisms (300) respectively, a screw (430) is rotationally connected between the two ends inside the sliding rail (410), threaded holes with inner side walls screwed with the outer side walls of the screw (430) are formed in one sides of the two sliding plates (420), a driving motor (450) is arranged at one end of the sliding rail (410), and one end of the screw (430) penetrates through one end of the sliding rail (410) and is fixedly connected with a motor shaft of the driving motor (450).

4. The roller mounting structure of an aluminum foil embossing machine according to claim 3, wherein the other ends of the outer side walls of the threaded cylinders (330) on the locking mechanisms (300) are fixedly sleeved with toothed rings (331), the connecting holes (421) are formed in one sides of the sliding plates (420), the rotating cylinders (422) are rotatably sleeved in the two connecting holes (421), gears (441) are fixedly connected to opposite ends of the rotating cylinders (422), the two gears (441) are respectively meshed with the two toothed rings (331), driving rods (440) are arranged between the two sliding plates (420), inner side walls of the two rotating cylinders (422) are movably sleeved with the outer side walls of the driving rods (440), inserting ports (442) are formed in one side centers of the two inserting ports (442), the inner side walls of the two inserting ports (442) are slidably sleeved with the outer side walls of the driving rods (440), and a motor shaft of the power motor (460) is fixedly connected with one end of each driving rod (440).

5. The roller mounting structure of an aluminum foil embossing machine as recited in claim 4, wherein said driving rod (440) is of prismatic configuration.

6. The roller mounting structure of the aluminum foil paper embossing machine according to claim 1, wherein a plurality of clamping rings (210) are fixedly connected to two ends of the roller shaft (200), a plurality of annular grooves (322) are formed in the outer side walls of a plurality of abutting rollers (321) on the same locking mechanism (300), and the clamping rings (210) are rotationally clamped inside the adjacent annular grooves (322).

7. The roller mounting structure of an aluminum foil embossing machine according to claim 1, wherein the outer side wall of the ring body (310) is provided with a notch (314).