CN114955966A

CN114955966A - High-speed energy-saving full-automatic can seamer

Info

Publication number: CN114955966A
Application number: CN202210369892.7A
Authority: CN
Inventors: 邓家润; 叶祥宏
Original assignee: Anhui Xinmeige Packaging Development Co ltd
Current assignee: Anhui Xinmeige Packaging Development Co ltd
Priority date: 2022-04-08
Filing date: 2022-04-08
Publication date: 2022-08-30

Abstract

The invention discloses a high-speed energy-saving full-automatic can seamer, belonging to the technical field of can seamers, comprising a bottom plate and a supporting box, and also comprising: the tank sealing device comprises a storage assembly, a supporting disk, a tank sealing wheel, a tank sealing assembly, a power assembly, a turnover assembly and a clamping assembly; the material storage assembly comprises a clamping plate, a limiting plate and a supporting block; the tank sealing device is high in practicability and convenient to use, the power assembly drives the supporting disk to slide to drive the supporting block to move reversely, so that the tank cover at the bottommost side falls onto the supporting disk, the supporting block drives the clamping plate to clamp the rest tank covers through the clamping assembly, multiple tank covers can be prevented from falling at one time, the tank sealing assembly drives the tank covers to be pressed on the tank body firstly, then the tank sealing wheel is driven to seal the tank covers on the tank body, and the tank covers can be prevented from moving in the sealing process; the problem of the material loading subassembly in the current can seamer be difficult to guarantee that the cover number of whereabouts at every turn is one is solved.

Description

High-speed energy-saving full-automatic can seamer

Technical Field

The invention relates to the technical field of can seamers, in particular to a high-speed energy-saving full-automatic can seamer.

Background

Can bodies and bottle bodies for containing, storing or packaging generally need to be sealed, and can seamers are common devices used in the sealing and bottom sealing processes of container cans or bottle bodies. The upper cover or the bottom cover of the metal food can and the bottle cover of part of the medicine can are usually finished in a tooth-shaped can sealing mode. At present, need the manual work to deliver to the top of can body position one by one with the cover, then seal the jar, work efficiency is lower, and is more power consumption simultaneously, and the cover in the material loading subassembly among the current can seamer can fall automatically, but when the whereabouts, is difficult to guarantee that the cover number of whereabouts is one at every turn, and it is inconvenient to use.

Disclosure of Invention

The invention aims to provide a high-speed energy-saving full-automatic can seamer to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

high-speed energy-saving full-automatic can seamer, including bottom plate and supporting box, still include:

the storage assembly comprises two clamping plates, two limiting plates and two supporting blocks, the clamping plates, the two limiting plates and the two supporting blocks are symmetrically arranged at the upper end in the supporting box, the limiting plates are fixedly arranged on two sides of the upper end in the supporting box, the clamping plates and the supporting blocks are respectively arranged at the upper end and the lower end of the limiting plates in a sliding mode, a tank cover is arranged at the upper end of the supporting block, the thickness of each limiting plate is the same as that of one tank cover, the supporting blocks are supported in the supporting box through elastic supporting assemblies, and the bottom ends of the supporting blocks are obliquely arranged;

the middle part of one end of the supporting disc, which is far away from the material storage assembly, is fixedly provided with a sucker for sucking a tank cover;

the tank sealing wheels are distributed in a circumferential array, the tank sealing wheels are respectively connected with one ends of the protruding rods, the other ends of the protruding rods are fixedly connected with supporting shafts, the supporting shafts are rotatably arranged in the supporting disc, and the supporting shafts are distributed in a circumferential array;

the can sealing assembly is connected with the supporting disc and the supporting shaft and used for driving the can sealing wheel to tightly press and seal the can cover on the can body;

the power assembly is connected with the support box and the can sealing assembly and is used for driving the can sealing assembly and the support plate to move up and down;

the overturning assembly is connected with the power assembly and is used for driving the supporting disc to overturn in the upward or downward moving process;

the clamping assembly is connected with the supporting block and the clamping plate, so that when the supporting disc moves upwards to take materials, the supporting block is driven to move reversely, the tank cover at the bottommost side falls onto the supporting disc, the supporting block drives the clamping plate to clamp the rest tank covers through the clamping assembly, and when the supporting disc moves downwards, the supporting blocks move oppositely to reset;

the power assembly drives the supporting disc to move upwards, the turnover assembly drives the supporting disc to turn over during moving, so that one surface of the supporting disc with the sucker is aligned with one side of the storage assembly, then the supporting disk continues to move upwards, the supporting disk slides to drive the supporting block to move reversely, so that the bottommost tank cover falls onto the supporting disk, the supporting block drives the clamping plate to clamp the rest tank cover through the clamping assembly, when the supporting disk moves downwards, the supporting blocks move oppositely and reset, the supporting disk drives the tank cover adsorbed by the sucking disk to rotate downwards to keep stability, when the tank cover adsorbed by the supporting plate is contacted with the tank body, the power assembly further drives the tank sealing assembly to operate, and the tank sealing assembly drives the tank sealing wheel to tightly press and seal the tank cover on the tank body.

As a further scheme of the invention: the can seamer assembly comprises:

the first gear is fixedly sleeved on the support shaft;

the second gear is meshed with the first gear, and the second gear is supported and arranged on the inner side of the supporting plate;

the driving column is inserted in the supporting disc in a sliding mode and is connected with the supporting disc through an elastic piece I, and the other end of the driving column is connected with the power assembly;

the guide post is fixedly arranged in the supporting disk, and the driving post is sleeved on the guide post in a sliding manner;

and the first rack is fixedly arranged on the peripheral side of the driving column and meshed with the second gear.

As a further scheme of the invention: the power assembly includes:

the motor is fixedly arranged at the top outside the supporting box;

one end of the screw is rotatably connected with the output end of the motor;

the thread block is sleeved on the screw rod in a threaded manner;

the movable rod penetrates through the thread block in a sliding mode, and is connected with the driving column and the overturning assembly.

As a further scheme of the invention: the flip assembly includes:

the third gear is fixedly sleeved on the moving rod extending out of the support box;

and the second rack is arranged outside the support box and is fixedly connected with the support box, teeth are arranged in the middle of the second rack, and the second rack is meshed with the third gear when moving to the middle of the third gear.

As a further scheme of the invention: the flip assembly further comprises:

the guide frame is fixedly arranged outside the support box, and the positions of the guide frame and the teeth on the second rack are staggered up and down;

the guide block is fixedly arranged at two ends of the moving rod, bulges are arranged at two ends of the guide block, and the guide block is inserted into the guide frame in a sliding mode.

As a further scheme of the invention: the clamping assembly includes:

one end of the rotating rod I is rotatably connected with the supporting block;

the sliding block is arranged on the inner wall of the supporting box in a sliding mode, and the other end of the rotating rod I is rotatably connected with the sliding block;

one end of the rotating rod II is rotatably connected with the sliding block;

the moving plate is arranged in the support box in a guiding sliding mode, and the other end of the rotating rod II is rotatably connected with the moving plate;

and the moving plate is connected with the clamping plate through a second elastic piece.

As a further scheme of the invention: the elastic support assembly includes:

the two ends of the telescopic rod are respectively fixedly connected with the inner wall of the supporting box and the supporting block;

and the elastic piece III is sleeved on the telescopic rod, and two ends of the elastic piece III are fixedly connected with the inner wall of the supporting box and the supporting block respectively.

Compared with the prior art, the invention has the beneficial effects that: the tank sealing mechanism is high in practicability and convenient to use, the power assembly drives the supporting disk to slide to drive the supporting block to move reversely, so that a tank cover at the bottommost side falls onto the supporting disk, the supporting block drives the clamping plate to clamp the rest tank covers through the clamping assembly, multiple tank covers can be prevented from falling at one time, when the tank cover adsorbed by the supporting disk is in contact with a tank body, the power assembly further drives the tank sealing assembly to operate, the tank sealing assembly drives the tank cover to be pressed on the tank body firstly, then the tank sealing wheel is driven to seal the tank cover on the tank body, and the tank cover can be prevented from moving in the sealing process.

Drawings

Fig. 1 is a schematic structural diagram of a high-speed energy-saving full-automatic can seamer provided by the embodiment of the invention.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a perspective view of a support block in the high-speed energy-saving full-automatic can seamer provided by the embodiment of the invention.

Notations for reference numerals: 1-bottom plate, 2-supporting box, 3-power component, 311-motor, 312-screw, 313-thread block, 314-moving rod, 4-can sealing component, 411-gear I, 412-gear II, 413-rack I, 414-driving column, 415-guiding column, 416-elastic component I, 5-overturning component, 511-gear III, 512-rack II, 513-guiding block, 514-guiding frame, 6-clamping component, 611-rotating rod I, 612-sliding block, 613-rotating rod II, 614-moving plate, 615-elastic component II, 7-elastic supporting component, 711-elastic component III, 712-telescopic rod, 8-clamping plate, 9-supporting block, 10-can sealing wheel, 11-protruding rod, 12-supporting shaft, 13-sucking disc, 14-supporting disc and 15-limiting plate.

Detailed Description

As an embodiment of the present invention, please refer to fig. 1 to 3: high-speed energy-saving full-automatic can seamer, including bottom plate 1 and supporting box 2, both sides are equipped with the through-hole around supporting box 2, still include:

the storage assembly comprises two clamping plates 8, two limiting plates 15 and two supporting blocks 9, the clamping plates 8, the two limiting plates 15 and the two supporting blocks 9 are symmetrically arranged at the upper end in the supporting box 2, the limiting plates 15 are fixedly arranged on two sides of the upper end in the supporting box 2, the clamping plates 8 and the supporting blocks 9 are respectively arranged at the upper end and the lower end of the limiting plates 15 in a sliding mode, a tank cover is arranged at the upper end of the supporting blocks 9, the thickness of the limiting plates 15 is the same as that of one tank cover, the supporting blocks 9 are supported and arranged in the supporting box 2 through elastic supporting assemblies 7, and the bottom ends of the supporting blocks 9 are obliquely arranged;

a sucking disc 13 is fixedly arranged in the middle of one end, far away from the storage assembly, of the supporting disc 14 and used for sucking a tank cover;

the can sealing device comprises a plurality of can sealing wheels 10, wherein the number of the can sealing wheels 10 is a plurality, the can sealing wheels are distributed in a circumferential array, the can sealing wheels 10 are respectively connected with one end of a protruding rod 11, the other end of the protruding rod 11 is fixedly connected with a supporting shaft 12, the supporting shaft 12 is rotatably arranged in a supporting plate 14, and the supporting shafts 12 are distributed in a circumferential array;

the can sealing assembly 4 is connected with the supporting plate 14 and the supporting shaft 12 and is used for driving the can sealing wheel 10 to press and seal the can cover on the can body;

the power assembly 3 is connected with the support box 2 and the can sealing assembly 4 and is used for driving the can sealing assembly 4 and the support plate 14 to move up and down;

the overturning component 5 is connected with the power component 3 and is used for driving the supporting disk 14 to overturn in the upward or downward moving process;

the clamping assembly 6 is connected with the supporting block 9 and the clamping plate 8, so that when the supporting disc 14 moves upwards to take materials, the supporting block 9 is driven to move reversely, the bottommost tank cover falls onto the supporting disc 14, the supporting block 9 drives the clamping plate 8 to clamp the rest tank cover through the clamping assembly 6, and when the supporting disc 14 moves downwards, the supporting block 9 moves towards each other to reset;

the power assembly 3 drives the supporting disc 14 to move upwards, in the moving process, the turnover assembly 5 drives the supporting disc 14 to turn over, so that the side, with the sucking disc 13, of the supporting disc 14 is aligned with one side of the storage assembly, then the supporting disc 14 continues to move upwards, the supporting disc 14 slides to drive the supporting block 9 to move reversely, so that the bottommost tank cover falls onto the supporting disc 14, the supporting block 9 drives the clamping plate 8 to clamp the rest tank cover through the clamping assembly 6, when the supporting disc 14 moves downwards, the supporting block 9 moves towards each other to reset, the supporting disc 14 drives the tank cover adsorbed by the sucking disc 13 to rotate downwards to keep stable, and when the tank cover adsorbed by the supporting disc 14 is contacted with a tank body, the power assembly 3 further drives the tank sealing assembly 4 to operate, the can sealing component 4 drives the can sealing wheel 10 to press and seal the can cover on the can body.

As an embodiment of the present invention, please refer to fig. 1 to fig. 2: the can seamer assembly 4 comprises:

the first gear 411, the first gear 411 is fixedly sleeved on the support shaft 12;

a second gear 412, wherein the second gear 412 is meshed with the first gear 411, and the second gear 412 is supported and arranged on the inner side of the supporting plate 14;

the driving column 414 is slidably inserted into the supporting plate 14, and is connected to the supporting plate 14 through a first elastic member 416, the other end of the driving column 414 is connected to the power assembly 3, and the first elastic member 416 is one of a spring and an elastic rubber tube, in this embodiment, a spring is selected;

the guide post 415 is fixedly arranged in the support plate 14, and the driving post 414 is slidably sleeved on the guide post 415;

the periphery of the driving column 414 is fixedly provided with a plurality of first racks 413, and the first racks 413 are meshed with the second gears 412.

When the power assembly 3 drives the supporting disc 14 to move downwards, the can cover adsorbed by the supporting disc 14 is pressed against the upper end of the can body, then the driving column 414 is further driven to move downwards, the driving column 414 drives the gear II 412 to rotate through the gear I413, the gear II 412 further drives the gear I411 to rotate, the gear I411 drives the supporting shaft 12 and the protruding rod 11 to rotate, the protruding rod 11 further drives the can sealing wheel 10 to rotate downwards, and the can cover is pressed through the can sealing wheel 10 in a tooth form, so that the can cover is sealed on the can body; when the supporting disk 14 moves upwards to be in sliding contact with the supporting block 9, the can sealing wheel 10 does not rotate and keeps stable.

As an embodiment of the present invention, please refer to fig. 1 to fig. 2: the power assembly 3 includes:

the motor 311 is fixedly arranged at the top outside the supporting box 2;

one end of the screw 312 is rotatably connected with the output end of the motor 311;

the screw block 313 is sleeved on the screw 312 in a threaded manner;

a moving rod 314, the moving rod 314 slides through the thread block 313, and the moving rod 314 is connected with the driving post 414 and the turnover assembly 5.

The motor 311 drives the screw 312 to rotate, the screw 312 drives the screw block 313 to move downwards or upwards, the moving rod 314 further drives the moving rod 314 to move, and the moving rod 314 drives the support plate 14 to move.

As an embodiment of the present invention, please refer to fig. 1: the flip assembly 5 comprises:

a third gear 511, wherein the third gear 511 is fixedly sleeved on the movable rod 314 extending out of the support box 2;

the second rack 512 is arranged outside the support box 2 and fixedly connected with the support box 2, teeth are arranged in the middle of the second rack 512, and the second rack 512 is meshed with the third gear 511 when moving to the middle of the third gear 511.

When the moving rod 314 moves upwards to the middle of the second rack 512, the moving rod 314 drives the third gear 511 to be meshed with the second rack 512, so that the moving rod 314 rotates upwards and then continuously moves upwards; when the moving rod 314 moves downwards to the middle of the second rack 512, the moving rod 314 drives the third gear 511 to engage with the second rack 512, so that the moving rod 314 rotates downwards and then continuously moves downwards.

As an embodiment of the present invention, please refer to fig. 1: the flip assembly 5 further comprises:

the guide frame 514 is fixedly arranged outside the support box 2, and the positions of the guide frame 514 and the teeth on the second rack 512 are staggered up and down;

and the guide block 513 is fixedly arranged at two ends of the moving rod 314, the two ends of the guide block 513 are provided with protrusions, and the guide block 513 is inserted into the guide frame 514 in a sliding manner.

The guide block 513 may be guided by a guide frame 514, so that the movable rod 314 may be stably maintained after being turned downward and upward, and may be slidably inserted into the guide frame 514 by providing protrusions at both ends of the guide block 513.

As an embodiment of the present invention, please refer to fig. 1: the clamping assembly 6 comprises:

one end of the rotating rod 611 is rotatably connected with the supporting block 9;

the sliding block 612 is arranged on the inner wall of the support box 2 in a sliding manner, and the other end of the rotating rod I611 is rotatably connected with the sliding block 612;

a second rotating rod 613, wherein one end of the second rotating rod 613 is rotatably connected with the sliding block 612;

the moving plate 614 is arranged in the support box 2 in a guiding and sliding manner, and the other end of the rotating rod 613 is rotatably connected with the moving plate 614;

the moving plate 614 is connected with the clamping plate 8 through a second elastic element 615, the second elastic element 615 is one of a spring and an elastic rubber tube, and a spring is selected in the embodiment.

When the supporting disk 14 moves upwards to drive the supporting block 9 to move reversely, the supporting block 9 further drives the first rotating rod 611 to rotate, the first rotating rod 611 drives the slider 612 to slide upwards, the slider 612 drives the second rotating rod 613 to rotate, the second rotating rod 613 further drives the moving plate 614 to move in opposite directions, the moving plate 614 further drives the clamping plate 8 to move in opposite directions through the second elastic part 615, and the remaining tank covers can be clamped through the clamping plate 8, so that the plurality of tank covers can be prevented from dropping once.

As an embodiment of the present invention, please refer to fig. 1: the elastic support assembly 7 comprises:

the two ends of the telescopic rod 712 are respectively fixedly connected with the inner wall of the supporting box 2 and the supporting block 9;

the third elastic member 711 is sleeved on the telescopic rod 712, two ends of the third elastic member 711 are fixedly connected with the inner wall of the supporting box 2 and the supporting block 9 respectively, and the third elastic member 711 is one of a spring and an elastic rubber tube, and the spring is selected in the embodiment.

The supporting block 9 can be elastically buffered and supported by the elastic supporting component 7.

The working principle is as follows: starting the motor 311, the motor 311 drives the screw 312 to rotate, the screw 312 drives the thread block 313 to move downwards or upwards, the moving rod 314 further drives the moving rod 314 to move, the moving rod 314 drives the supporting disk 14 to move upwards, during the moving process, the overturning component 5 drives the supporting disk 14 to overturn, so that the side, provided with the suction cup 13, of the supporting disk 14 is aligned with one side of the storage component, then the supporting disk 14 continues to move upwards, the supporting disk 14 slides to drive the supporting block 9 to move reversely, so that the bottommost tank cover falls onto the supporting disk 14, the supporting block 9 drives the clamping plate 8 to clamp the remaining tank cover through the clamping component 6, then the power component 3 drives the supporting disk 14 to move downwards, the supporting blocks 9 move oppositely to reset, and the remaining tank cover falls onto the supporting block 9, the supporting disk 14 drives the tank cover adsorbed by the sucking disk 13 to rotate downwards and keep stable, when the tank cover adsorbed by the supporting disk 14 contacts with a tank body, the power assembly 3 further drives the tank sealing assembly 4 to operate, and the tank sealing assembly 4 drives the tank sealing wheel 10 to tightly press and seal the tank cover on the tank body.

Claims

1. High-speed energy-saving full-automatic can seamer, including bottom plate and supporting box, its characterized in that still includes:

the power assembly drives the supporting disc to move upwards, the turnover assembly drives the supporting disc to turn over during the moving process, so that one side of the supporting disc with the sucker is aligned with one side of the storage assembly, then the supporting disk continues to move upwards, the supporting disk slides to drive the supporting block to move reversely, so that the bottommost tank cover falls onto the supporting disk, the supporting block drives the clamping plate to clamp the rest tank cover through the clamping assembly, when the supporting disk moves downwards, the supporting blocks move oppositely and reset, the supporting disk drives the tank cover adsorbed by the sucking disk to rotate downwards to keep stability, when the tank cover adsorbed by the supporting plate is contacted with the tank body, the power assembly further drives the tank sealing assembly to operate, and the tank sealing assembly drives the tank sealing wheel to tightly press and seal the tank cover on the tank body.

2. The high-speed energy-saving full-automatic can seamer of claim 1, wherein the can seaming assembly comprises:

the first gear is fixedly sleeved on the support shaft;

the second gear is meshed with the first gear, and is supported and arranged on the inner side of the supporting disc;

3. The high-speed energy-saving full-automatic can seamer of claim 2, wherein the power assembly comprises:

the motor is fixedly arranged at the top outside the supporting box;

one end of the screw rod is rotationally connected with the output end of the motor;

the thread block is sleeved on the screw rod in a threaded manner;

4. The high-speed energy-saving full-automatic can seamer of claim 3, wherein the overturning component comprises:

5. The high-speed energy-saving full-automatic can seamer of claim 4, wherein the overturning component further comprises:

6. The high-speed energy-saving full-automatic can seamer of claim 1, wherein the clamping assembly comprises:

one end of the first rotating rod is rotatably connected with the supporting block;

one end of the rotating rod II is rotatably connected with the sliding block;

7. The high-speed energy-saving full-automatic can seamer of claim 1, wherein the elastic support assembly comprises:

and the elastic part III is sleeved on the telescopic rod, and two ends of the elastic part III are fixedly connected with the inner wall of the supporting box and the supporting block respectively.