CN215590048U - Numerical control quick positioning mechanism - Google Patents
Numerical control quick positioning mechanism Download PDFInfo
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- CN215590048U CN215590048U CN202121451506.6U CN202121451506U CN215590048U CN 215590048 U CN215590048 U CN 215590048U CN 202121451506 U CN202121451506 U CN 202121451506U CN 215590048 U CN215590048 U CN 215590048U
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Abstract
The utility model provides a numerical control quick positioning mechanism, comprising: the device comprises a rack, a driving motor, two conveying wheels, a conveying belt and a plurality of indentation cutting assemblies; the driving motor is arranged on the rack; the two transmission wheels are rotatably arranged on the rack, and one transmission wheel is connected with the output end of the driving motor; the conveying belt is wound on the two conveying wheels; the indentation cutting assemblies are arranged on the rack in a sliding mode and are movably connected with the conveying belt. The numerical control quick positioning mechanism drives the conveyor belt to rotate through the driving motor, drives the plurality of indentation cutting assemblies connected with the conveyor belt to quickly move to preset positions, realizes position adjustment of the indentation cutting assemblies, is compatible with indentation cutting processing of paper boards of various specifications and sizes, and greatly improves universality.
Description
Technical Field
The utility model relates to a numerical control quick positioning mechanism.
Background
The carton needs the cardboard to make through steps such as cutting and indentation, and every cardboard needs carry out the indentation in a plurality of positions, and the indentation device of current trimmer is mostly fixed the setting, that is to say, and the trimmer can only process same specification and dimension's cardboard, and the specification and dimension of cardboard has a plurality ofly, and consequently, current trimmer can't be compatible carry out the indentation to multiple specification and dimension's cardboard and cut the processing, and the commonality is poor.
SUMMERY OF THE UTILITY MODEL
In order to solve the above problems, the present invention provides a numerical control quick positioning mechanism, comprising: the device comprises a rack, a driving motor, two conveying wheels, a conveying belt and a plurality of indentation cutting assemblies; the driving motor is arranged on the rack; the two transmission wheels are rotatably arranged on the rack, and one transmission wheel is connected with the output end of the driving motor; the conveying belt is wound on the two conveying wheels; the indentation cutting assemblies are arranged on the rack in a sliding mode and are movably connected with the conveying belt.
In one or more embodiments, each of the indentation cutting assemblies comprises a mounting bracket, an indentation portion, a cutting portion, and a clamping portion; the mounting frame is arranged on the rack in a sliding mode, and the indentation part is arranged on the mounting frame; the cutting part is arranged on the indentation part and is connected with the guide rod on the mounting rack in a sliding manner; the clamping part is arranged on the rack and movably connected with the conveyor belt.
In one or more embodiments, each indentation cutting assembly further includes a fixing portion disposed on the mounting frame and movably connected to the frame.
In one or more embodiments, the clamping portion includes a clamping cylinder and a clamping plate; the clamping cylinder is arranged on the mounting frame; the clamping plate is connected with the output end of the clamping cylinder.
In one or more embodiments, the indentation comprises an indentation driving part, an indentation moving plate and an indentation wheel; the indentation driving piece is arranged on the mounting rack; the indentation moving plate is connected with the output end of the indentation driving piece; the indentation wheel is rotatably arranged on the indentation moving plate.
In one or more embodiments, the creasing wheel includes a first puck and a second puck; the first pressing wheel and the second pressing wheel are coaxially arranged on the indentation moving plate, and an interval is formed between the first pressing wheel and the second pressing wheel.
In one or more embodiments, the cutting portion comprises a cutting drive and a cutting saw; the cutting driving piece is arranged on the indentation moving plate; the cutting toothed saw is connected with the output end of the cutting driving piece.
In one or more embodiments, the cut portion further comprises three connecting wheels; one of the three connecting wheels is arranged on the connecting seat, and the connecting seat is arranged on the guide rod in a sliding manner; the other two connecting wheels of the three connecting wheels are arranged on a connecting plate, and the connecting plate is connected with the output end of the cutting driving piece; the cutting tooth is sleeved in the connecting grooves of the three connecting wheels.
In one or more embodiments, the cutting portion further includes a screw, one end of the screw is connected to the connecting seat, and the other end of the screw penetrates through the indentation moving plate and is connected to the connecting plate.
In one or more embodiments, both ends of the cutting saw are located within the guard plates of the mounting bracket.
The utility model has the beneficial effects that: the numerical control quick positioning mechanism drives the conveyor belt to rotate through the driving motor, drives the plurality of indentation cutting assemblies connected with the conveyor belt to quickly move to preset positions, realizes position adjustment of the indentation cutting assemblies, is compatible with indentation cutting processing of paper boards of various specifications and sizes, and greatly improves universality.
Drawings
FIG. 1 is a schematic structural diagram of a numerical control quick positioning mechanism according to an embodiment of the present invention;
FIG. 2 is a schematic view of a single indentation cutting assembly in an embodiment of the utility model;
FIG. 3 is another schematic diagram of a single indentation cutting assembly according to an embodiment of the utility model.
Detailed Description
The application scheme is further described below with reference to the accompanying drawings:
referring to fig. 1-3, the numerical control quick positioning mechanism of the present application includes a frame 1, a driving motor 2, two transmission wheels 3, a transmission belt 4 and a plurality of indentation cutting assemblies 5; the driving motor 2 is arranged on the frame 1; two transmission wheels 3 are rotatably arranged on the frame 1, wherein one transmission wheel 3 is connected with the output end of the driving motor 2; the conveying belt 4 is wound on the two conveying wheels 3; the indentation cutting components 5 are arranged on the frame 1 in a sliding mode and are movably connected with the conveying belt 4.
During the specific application, start driving motor 2 according to the specification and size of cardboard, driving motor 2 drive transfer gear 3 rotates, and transfer gear 3 drives conveyer belt 4 and rotates, and conveyer belt 4 drives a plurality of indentation cutting components 5 of being connected rather than and moves to preset position respectively to with the specification and size looks adaptation of cardboard.
In particular, each creasing and cutting assembly 5 comprises a mounting frame 51, a creasing portion 52, a cutting portion 53 and a clamping portion 54; a slide block is arranged on the mounting frame 51, the slide block is arranged on a slide rail of the rack 1 in a sliding manner, and the indentation part 52 is arranged on the mounting frame 51; the cutting part 53 is arranged on the indentation part 52 and is connected with the guide rod 511 on the mounting frame 51 in a sliding way; the clamping part 54 is arranged on the frame 1 and is movably connected with the conveyor belt 4.
Preferably, each creasing and cutting assembly 5 further comprises a fixing portion 55, the fixing portion 55 being disposed on the mounting frame 51 and being movably connected to the frame 1. The fixing portion 55 is a diaphragm type clamping cylinder 541, and after the conveyor belt 4 drives the indentation cutting assembly 5 to move in place, the fixing portion 55 realizes the connection and fixation of the mounting frame 51 and the rack 1.
Further, the indentation part 52 includes an indentation driving element 521, an indentation moving plate 522 and an indentation wheel 523; the indentation driving member 521 is arranged on the mounting frame 51, and the indentation driving member 521 is a cylinder; the indentation moving plate 522 is connected with the output end of the indentation driving element 521; the indentation wheel 523 is rotatably provided to the indentation moving plate 522. Specifically, creasing wheel 523 includes a first pressure wheel 5231 and a second pressure wheel 5232; first pressure wheel 5231 and second pressure wheel 5232 are coaxially disposed on indentation moving plate 522, with a gap between first pressure wheel 5231 and second pressure wheel 5232. In this embodiment, the number of the indentation drivers 521 is two, and of course, the number of the indentation drivers 521 can be adaptively adjusted according to actual requirements, which is only one embodiment of the present invention and should not be limited thereto.
In specific application, the indentation driving element 521 drives the indentation moving plate 522 to move towards the paper board, the indentation moving plate 522 drives the indentation wheel 523 to move, so that the first pressing wheel 5231 and the second pressing wheel 5232 press the paper board, and then the pulling mechanism connected with the mounting frame 51 pulls the mounting frame 51, thereby pressing two indentations on the paper board.
Further, the cutting portion 53 includes a cutting driving member 531 and a cutting saw blade 532; the cutting driving member 531 is arranged on the indentation moving plate 522, and the cutting driving member 531 is a cylinder; the cutting saw tooth 532 is connected to the output end of the cutting driving member 531, and the cutting saw tooth 532 is located in the space between the first pressing wheel 5231 and the second pressing wheel 5232. In this embodiment, the number of the cutting driving members 531 is two, and of course, the number of the cutting driving members 531 may be adaptively adjusted according to actual requirements, which is only one embodiment of the present invention and should not be limited thereto.
Further, the cut portion 53 further includes three connecting wheels 533; one of the three connecting wheels 533, is disposed on the connecting base 534, and the connecting base 534 is slidably disposed on the guide rod 511; the other two connecting wheels 533 of the three connecting wheels 533 are arranged on the connecting plate 535, and the connecting plate 535 is connected with the output end of the cutting driving member 531; the cutting toothed saw 532 is sleeved in the connecting grooves of the three connecting wheels 533.
Furthermore, the cutting portion 53 further includes a screw 536, one end of the screw 536 is connected to the connecting seat 534, the other end of the screw 536 penetrates through the indentation moving plate 522 and is connected to the connecting plate 535, and the screw 536 can adjust the distance between the connecting seat 534 and the connecting plate 535, so as to adjust the distance between the three connecting wheels 533, thereby adjusting the tightness of the cutting toothed saw 532.
During specific application, the cutting driving member 531 drives the connecting plate 535 to move towards the direction of the paperboard, the connecting plate 535 drives the connecting seat 534 to slide towards the direction of the paperboard along the guide rod 511 through the screw 536, the connecting plate 535 and the connecting seat 534 drive the three connecting wheels 533 to move, the three connecting wheels 533 drive the cutting toothed saw 532 sleeved on the connecting groove to cut the paperboard, and then the paperboard is completely cut off under the action of the pulling mechanism.
Further, the clamping portion 54 includes a clamping cylinder 541 and a clamping plate 542; the clamping cylinder 541 is disposed on the mounting frame 51; the clamp plate 542 is connected to the output end of the clamp cylinder 541. When the position of the indentation cutting assembly 5 needs to be adjusted, the clamping cylinder 541 drives the clamping plate 542 to move towards the mounting frame 51, and the clamping plate 542 and the mounting frame 51 are matched to clamp the conveyor belt 4, so that the indentation cutting assembly 5 is connected with the conveyor belt 4.
Preferably, both ends of the cutting saw tooth 532 are located in the guard plates of the mounting bracket 51 to prevent it from being exposed to the naked human.
The above preferred embodiments should be considered as examples of the embodiments of the present application, and technical deductions, substitutions, improvements and the like similar to, similar to or based on the embodiments of the present application should be considered as the protection scope of the present patent.
Claims (10)
1. A numerical control quick positioning mechanism is characterized by comprising: the device comprises a rack, a driving motor, two conveying wheels, a conveying belt and a plurality of indentation cutting assemblies; the driving motor is arranged on the rack; the two transmission wheels are rotatably arranged on the rack, and one transmission wheel is connected with the output end of the driving motor; the conveying belt is wound on the two conveying wheels; the indentation cutting assemblies are arranged on the rack in a sliding mode and are movably connected with the conveying belt.
2. The numerically controlled rapid positioning mechanism according to claim 1, wherein each of the indentation cutting assemblies comprises a mounting frame, an indentation portion, a cutting portion, and a clamping portion; the mounting frame is arranged on the rack in a sliding mode, and the indentation part is arranged on the mounting frame; the cutting part is arranged on the indentation part and is connected with the guide rod on the mounting rack in a sliding manner; the clamping part is arranged on the rack and movably connected with the conveyor belt.
3. The numerical control quick positioning mechanism according to claim 2, wherein each indentation cutting assembly further comprises a fixing portion, and the fixing portion is disposed on the mounting frame and movably connected to the frame.
4. The numerical control quick positioning mechanism according to claim 2, wherein the clamping portion comprises a clamping cylinder and a clamping plate; the clamping cylinder is arranged on the mounting frame; the clamping plate is connected with the output end of the clamping cylinder.
5. The numerical control quick positioning mechanism according to claim 2, wherein the indentation part comprises an indentation driving part, an indentation moving plate and an indentation wheel; the indentation driving piece is arranged on the mounting rack; the indentation moving plate is connected with the output end of the indentation driving piece; the indentation wheel is rotatably arranged on the indentation moving plate.
6. The numerically controlled rapid positioning mechanism according to claim 5, wherein the creasing wheel comprises a first pinch wheel and a second pinch wheel; the first pressing wheel and the second pressing wheel are coaxially arranged on the indentation moving plate, and an interval is formed between the first pressing wheel and the second pressing wheel.
7. The digitally controlled fast positioning mechanism of claim 2, wherein said cutting portion comprises a cutting drive and a cutting toothed saw; the cutting driving piece is arranged on the indentation moving plate; the cutting toothed saw is connected with the output end of the cutting driving piece.
8. The digitally controlled quick positioning mechanism of claim 7, wherein said cut portion further comprises three connecting wheels; one of the three connecting wheels is arranged on the connecting seat, and the connecting seat is arranged on the guide rod in a sliding manner; the other two connecting wheels of the three connecting wheels are arranged on a connecting plate, and the connecting plate is connected with the output end of the cutting driving piece; the cutting tooth is sleeved in the connecting grooves of the three connecting wheels.
9. The numerical control quick positioning mechanism according to claim 8, wherein the cutting portion further comprises a screw rod, one end of the screw rod is connected with the connecting seat, and the other end of the screw rod penetrates through the indentation moving plate and is connected with the connecting plate.
10. The digitally controlled quick positioning mechanism of claim 7, wherein both ends of the cutting saw are located within guard plates of the mounting bracket.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121451506.6U CN215590048U (en) | 2021-06-28 | 2021-06-28 | Numerical control quick positioning mechanism |
Applications Claiming Priority (1)
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CN202121451506.6U CN215590048U (en) | 2021-06-28 | 2021-06-28 | Numerical control quick positioning mechanism |
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CN215590048U true CN215590048U (en) | 2022-01-21 |
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CN202121451506.6U Active CN215590048U (en) | 2021-06-28 | 2021-06-28 | Numerical control quick positioning mechanism |
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2021
- 2021-06-28 CN CN202121451506.6U patent/CN215590048U/en active Active
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Effective date of registration: 20230907 Address after: Room 303, Office Building, No. 27 Yongya Road, Qihe County Economic Development Zone, Dezhou City, Shandong Province, 251100 Patentee after: Shandong Tongrui Intelligent Equipment Co.,Ltd. Address before: 321000 No.3 plant north of 1155 Zhenghan South Street, Xiaoshun Town, Jindong District, Jinhua City, Zhejiang Province (self declaration) Patentee before: Zhejiang Saili Precision Technology Co.,Ltd. |