CN220481907U - Cleaning device of die cutting machine - Google Patents

Abstract

The utility model provides a cleaning device of a die cutting machine, which comprises a main body frame, a scrap collecting part, a screening part, a compressing part, a storage part and a control part, wherein the main body frame is provided with a plurality of blades; the main body frame comprises a base, a collection seat, a screening seat, a compression seat and a storage seat; the debris collection part comprises an adjusting mechanism and a collection mechanism; the screening part comprises a conveyor belt device I, a protective groove pipe I, a servo motor I, an equipartition cylinder, a detection cylinder and a proximity sensor module; the compression part comprises a miniature hydraulic mechanism, a feed chute, a compression chute pipe and a push rod motor. The chip can be cleaned in all directions, and the chip comprises a fitting and a gap of a workbench of a die cutting machine; cleaning and collecting are carried out by utilizing suction force, scraps are not easy to scatter, and the cleaning efficiency is stable; the die cutting machine is not in physical direct contact with the die cutting machine, the service life of the accessory is greatly prolonged, and meanwhile, scraps are screened, so that the tiny loss of the accessory can be rapidly found; compressing the collected scraps, reducing the cleaning and transferring frequency, and improving the working efficiency.

Description

Cleaning device of die cutting machine

Technical Field

The utility model relates to the field of die cutting machines, in particular to a cleaning device of a die cutting machine.

Background

The die cutting machine uses die cutting knife, steel knife, hardware mould, steel wire and steel template to apply a certain pressure by the embossing plate to roll-cut the printed matter or paperboard into a certain shape. If the entire print is die cut into individual graphic products, it is called die cutting; if the steel wire is used for pressing trace on the printed matter or bending groove trace is left, the trace is called indentation; if a male template and a female template are utilized, the die is heated to a certain temperature, and patterns or fonts with three-dimensional effect are hot stamped on the surface of a printing product, namely gold stamping; if one substrate is laminated to another substrate, this is referred to as a laminate; collectively referred to above as die cutting techniques.

After the die cutting machine is used for die cutting, scraps and rim charge exist on a workbench of the die cutting machine, manual free hand cleaning is adopted in a traditional cleaning mode, and the cleaning mode has the following defects:

firstly, the piece is easy to attach to the platform or enter the gap, and cleaning is difficult.

Secondly, the dust is easy to scatter everywhere, so that a working area is polluted, and the cleaning efficiency is low.

Thirdly, external force friction type cleaning is carried out, in-process long-time contact with the die cutting machine is carried out, the service life of accessories is influenced, tiny accessories are damaged, detection is difficult, and the quality of a final finished product of die cutting is influenced.

Disclosure of Invention

The utility model provides a cleaning device of a die cutting machine, which solves the problems of difficult cleaning, low efficiency, influence on the service life of accessories and the like in the traditional cleaning mode of a workbench of the die cutting machine.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a cleaning device of a die cutting machine comprises a main body frame, a scrap collecting part, a screening part, a compressing part, a storing part and a control part.

The main body frame comprises a base, a collecting seat, a screening seat, a compression seat and a storage seat. The base comprises a cuboid hollow container I. The collecting seat comprises a rectangular supporting plate and a triangular reinforcing plate; the rectangular supporting plate is provided with a strip-shaped sliding hole and a rectangular through hole I. The screening seat comprises a cuboid hollow container II, a rectangular through hole II is arranged on the upper bottom plate of the cuboid hollow container II, and a U-shaped opening through groove I is arranged on the right side plate of the cuboid hollow container II. The compression seat comprises a first load bearing plate, is arranged on the base through a support column and is positioned above a second cuboid hollow container. The storage seat comprises a cuboid hollow container III, a rectangular through hole III is formed in an upper bottom plate of the storage seat, and a U-shaped opening through groove II is formed in a right side plate of the storage seat.

The debris collection portion includes an adjustment mechanism and a collection mechanism.

The adjusting mechanism comprises a movable carrier plate structure, a first screw motor, an auxiliary first slide rail, a second screw motor, an auxiliary second slide rail and a first push rod motor; the auxiliary sliding rails I are arranged on the left side surface and the right side surface of the rectangular supporting plate; the movable carrier plate structure is connected to the auxiliary first slide rail in a sliding manner and comprises a second load bearing plate, a first limiting plate, a connecting plate, a vertical plate and a limiting slide block; the second load bearing plate is connected with the connecting plate through a first limiting plate; the first limiting plate is in a shape like a Chinese character 'Hui', is connected in the strip-shaped sliding hole in a sliding way, is provided with a limiting sliding block, and is connected on the first auxiliary sliding rail in a sliding way; the first screw motor is arranged on the base, and the rotor of the first screw motor is connected with the first limiting plate; the second screw motor and the second auxiliary sliding rail are arranged on the movable carrier plate structure; a movable slide plate is arranged on a rotor of the screw rod motor II; the movable slide plate is connected to the second auxiliary slide rail in a sliding manner; the first push rod motor is arranged on the movable slide plate through the mounting frame.

The acquisition mechanism comprises an elastic telescopic rod, a compressor, an industrial dust collector device structure, a high-pressure spray head and a push rod motor II; the high-pressure spray head is arranged on the movable end of the first push rod motor through an elastic telescopic rod; the compressors and the high-pressure spray heads are connected through electromagnetic valves; the structure of the industrial dust collector device is arranged on the movable carrier plate structure and comprises an industrial dust collector, a dust collecting box, a movable plate, a movable sealing strip and an electromagnet; the industrial dust collector is positioned on the connecting plate, and the dust collection head is positioned on the movable slide plate; the lower bottom surface of the dust box is provided with a rectangular through hole IV and an electromagnet; the movable plate pin shaft is connected to the lower bottom surface of the dust collecting box; the movable sealing strip is arranged on the dust collecting box and the movable plate; the movable plate is provided with a magnetic block which is matched with the electromagnet; the second push rod motor is arranged on the movable carrier plate structure and is positioned below the structure of the industrial dust collector device, and the movable end of the second push rod motor is provided with a trapezoid push block.

The screening part comprises a conveyor belt device I, a protective groove pipe, a servo motor I, an equally-dividing cylinder, a detection cylinder and a proximity sensor module. The protective groove pipe is arranged on the screening seat, and a rectangular through hole V is formed in the protective groove pipe; the first conveyor belt device is arranged in the screening seat and is positioned below the second rectangular through hole; the first servo motor is arranged on the side plate of the screening seat; the uniform-dividing cylinder pin shaft is connected to the inner wall of the screening seat; the first servo motor is in transmission connection with the equipartition cylinder through a reduction gear box; the detection cylinder is a cylindrical container, and the pin shaft is connected to the inner wall of the side plate of the screening seat; the proximity sensor module is arranged on the inner wall of the side plate of the screening seat through a mounting frame and is positioned in the detection cylinder.

The compression part comprises a miniature hydraulic mechanism, a feed chute, a compression chute pipe and a push rod motor. The compression groove pipe is arranged on the base through the mounting frame. The feed chute is arranged on the side plate of the compression chute pipe. The miniature hydraulic mechanism is arranged on the base through the mounting frame; the two miniature hydraulic mechanisms are respectively positioned above and below the compression groove pipe, and the movable ends of the miniature hydraulic mechanisms are both in sliding connection with the compression groove pipe. The push rod motor III is arranged on the base through the mounting frame and is positioned on one side of the compression groove pipe.

The storage part comprises a second conveyor belt device, is arranged on the storage seat through a mounting frame and is positioned below the compression groove pipe.

The control part comprises a control mechanism, a feedback mechanism and a PLC controller. The control mechanism comprises a start switch, a cleaning switch, a reset switch and a pause switch. The feedback mechanism comprises a pyroelectric infrared sensor module, a first distance sensor module, a second distance sensor module and a buzzer.

Further, a dividing strip is additionally arranged on the equally dividing cylinder.

Further, a funnel is additionally arranged on the screening seat, and the funnel is positioned below the rectangular through hole IV; the lower end of the funnel is provided with a connecting pipe, and the lower end of the connecting pipe is positioned in the rectangular through hole III.

Compared with the prior art, the beneficial effects are that:

in the utility model, through the integral arrangement of the main body frame, the scrap collecting part, the screening part, the compressing part and the storage part, the following functions are realized:

firstly, the chips are cleaned in all directions, and the chips comprise accessories and gaps of a workbench of the die cutting machine.

Secondly, the piece collection part mainly utilizes the suction to clear up and gather, and the piece is difficult for scattering, and cleaning efficiency is stable.

Thirdly, the die cutting machine is not in physical and direct contact with the die cutting machine, and the service life of the accessory is greatly prolonged. At the same time, the scraps are screened, so that the tiny loss of the accessory can be quickly found.

Fourth, compress tightly the piece after gathering, reduce the clearance and transport frequency to improve work efficiency.

Drawings

FIG. 1 is a schematic view of a top view partially in section of the present utility model;

FIG. 2 is a schematic view of a front partial cross-sectional structure of the present utility model;

FIG. 3 is a schematic view of a front view of a partially enlarged cross-sectional structure of the present utility model;

FIG. 4 is a schematic diagram of a portion of the system architecture of the present utility model;

fig. 5 is a circuit wiring diagram of the present utility model.

In the figure: 101. base 102, rectangular support plate 103, triangular reinforcement plate 104, rectangular hollow vessel two, 105, load bearing plate one, 106, rectangular hollow vessel three, 201, lead screw motor one, 202, load bearing plate two, 203, stop plate one, 204, lead screw motor two, 205, movable slide plate, 206, high pressure nozzle, 207, push rod motor one, 208, industrial cleaner, 209, dust box, 210, push rod motor two, 301, conveyor apparatus one, 302, guard slot tube, 303, servo motor one, 304, uniformity barrel, 305, detection barrel, 401, micro hydraulic mechanism, 402, feed slot, 403, compression slot tube, 404, push rod motor three, 501, conveyor apparatus two.

Description of the embodiments

Embodiment 1 referring to fig. 1-5, a cleaning apparatus for a die cutting machine includes a main body frame, a chip collecting part, a screening part, a compressing part, a storing part, and a controlling part.

The main body frame comprises a base 101, a collection seat, a screening seat, a compression seat and a storage seat.

The base 101 includes a rectangular hollow container one.

The collection seat comprises a rectangular supporting plate 102 and a triangular reinforcing plate 103.

The rectangular support plate 102 is disposed on the base 101.

The rectangular support plate 102 is provided with a strip-shaped sliding hole and a rectangular through hole I.

The screening seat comprises a cuboid hollow container II 104.

And a second rectangular through hole is formed in the upper bottom plate of the second rectangular hollow container 104.

The right side plate of the second cuboid hollow container 104 is provided with a U-shaped opening through groove I.

The compression seat includes a load bearing plate one 105.

The first bearing carrier plate 105 is arranged on the base 101 through a pillar; above the second rectangular hollow vessel 104.

The storage seat comprises a cuboid hollow container III 106.

And a rectangular through hole III is formed in the upper bottom plate of the rectangular hollow container III 106.

And a U-shaped opening through groove II is arranged on the right side plate of the cuboid hollow container III 106.

The debris collection portion includes an adjustment mechanism and a collection mechanism.

The adjusting mechanism comprises a movable carrier plate structure, a first screw motor 201, an auxiliary first slide rail, a second screw motor 204, an auxiliary second slide rail and a first push rod motor 207.

The auxiliary sliding rails are arranged on the left side surface and the right side surface of the rectangular supporting plate 102.

The movable carrier plate structure is connected to the first auxiliary sliding rail in a sliding manner.

The movable carrier plate structure comprises a second load bearing plate 202, a first limiting plate 203, a connecting plate, a vertical plate and a limiting sliding block.

The second bearing carrier plate 202 is connected with the connecting plate through a first limiting plate 203, and the first limiting plate 203 is slidably connected in the strip-shaped sliding hole.

The first limiting plate 203 is in a shape of a Chinese character 'hui'.

And a first limiting plate 203 is provided with a limiting slide block which is in sliding connection with the first auxiliary slide rail.

The first screw motor 201 is disposed on the base 101.

The mover of the first screw motor 201 is connected with the first limiting plate 203, and is used for adjusting the vertical position of the movable carrier plate structure.

The second screw motor 204 and the second auxiliary sliding rail are arranged on the movable carrier plate structure.

A movable sliding plate 205 is arranged on the rotor of the screw motor II 204; the movable slide 205 is slidably connected to the second auxiliary rail.

The first push rod motor 207 is arranged on the movable slide plate 205 through a mounting frame, and the first push rod motor 207 forms an included angle of 60 degrees with the horizontal plane.

The collection mechanism includes an elastic telescopic rod, a compressor, an industrial cleaner device structure, a high-pressure nozzle 206 and a second push rod motor 210.

The compressor is disposed on the base 101.

The high-pressure spray head 206 is arranged on the movable end of the push rod motor 207 through an elastic telescopic rod.

The compressor and the high-pressure nozzle 206 are connected through an electromagnetic valve.

The industrial dust collector device structure is arranged on the movable carrier plate structure.

The industrial dust collector device structure comprises an industrial dust collector 208, a dust collecting box 209, a movable plate, a movable sealing strip and an electromagnet.

The industrial cleaner 208 is located on the connection plate and the cleaning head is located on the movable slide 205.

The bottom surface sets up rectangle through-hole IV and electro-magnet under the dust-collecting box.

The movable plate pin shaft is connected to the lower bottom surface of the dust collection box and is used for adapting to the rectangular through hole IV;

the movable sealing strip is arranged on the dust collecting box and the movable plate.

The movable plate is provided with a magnetic block, and the magnetic block is matched with the electromagnet.

The second push rod motor 210 is disposed on the movable carrier structure and located below the structure of the industrial vacuum cleaner device.

The movable end of the second push rod motor 210 is provided with a trapezoidal push block for assisting the movable plate to open and close the fourth rectangular through hole.

The screening part comprises a conveyor belt device I301, a protective groove pipe 302, a servo motor I303, an equally dividing cylinder 304, a detecting cylinder 305 and a proximity sensor module 306.

The protective groove pipe 302 is arranged on the screening seat; a rectangular through hole five is arranged on the protective slot tube 302.

The first conveyor belt device 301 is disposed in the screening seat and located below the second rectangular through hole.

The first servo motor 303 is arranged on the side plate of the screening seat.

The equipartition section of thick bamboo 304 round pin hub connection is examined on the seat inner wall.

The first servo motor 303 is in transmission connection with the equipartition cylinder 304 through a reduction gear box.

The detection cylinder 305 is in pin connection with the inner wall of the side plate of the screening seat, and the detection cylinder 305 is a cylindrical container.

The proximity sensor module 306 is arranged on the inner wall of the side plate of the screening seat through a mounting frame, and the proximity sensor module 306 is positioned in the detection cylinder 305.

The compression section includes a micro hydraulic mechanism 401, a feed chute 402, a compression chute tube 403, and a pushrod motor three 404.

The compression tank pipe 403 is mounted on the base 101 by a mounting bracket.

The feed chute 402 is provided on a side plate of the compression chute pipe 403.

The miniature hydraulic mechanism 401 is arranged on the base 101 through a mounting frame; two micro hydraulic mechanisms 401 are respectively located above and below the compression groove pipe 403, and the movable ends of the micro hydraulic mechanisms are slidably connected in the compression groove pipe 403.

The third push rod motor 404 is arranged on the base 101 through a mounting frame and is positioned on one side of the compression groove pipe 403.

The storage section includes a second conveyor belt arrangement 501.

The second conveyor device 501 is arranged on the storage seat through a mounting frame and is positioned below the compression groove pipe 403.

The control part comprises a control mechanism, a feedback mechanism and a PLC controller.

The control mechanism comprises a start switch, a cleaning switch, a reset switch and a pause switch.

The starting switch, the cleaning switch, the reset switch and the pause switch are arranged on the outer wall of the side plate of the storage seat.

The feedback mechanism comprises a pyroelectric infrared sensor module, a first distance sensor module, a second distance sensor module and a buzzer.

The first distance sensor module is arranged on the lower bottom surface of the second bearing plate 202.

The pyroelectric infrared sensor module is arranged on the second load bearing plate 202.

The second distance sensor module is arranged on the inner wall of the side plate of the storage seat and is positioned below the third rectangular through hole.

The buzzer is arranged on the outer wall of the side plate of the storage seat.

The PLC controller is arranged in the base 101.

The working principle and the using method are as follows:

first, presetting:

the starting switch is pressed to debug the power supply of the device.

The device is arranged on one side of the opening of the die cutting machine, and the second bearing carrier plate 202 is positioned above the opening of the die cutting machine.

Second, collecting scraps:

after the operator clicks the cleaning switch, the operator leaves the area where the die cutting machine and the second bearing plate 202 are located, the pyroelectric infrared sensor module and the first distance sensor module output collected signals to the PLC, and the PLC outputs signals to the first screw motor 201, the second screw motor 204, the first push rod motor 207, the compressor and the industrial dust collector device.

The screw motor I201 drives the load bearing plate II 202 to move down to a preset position in order (the distance sensor module I is combined with the PLC to determine); starting a compressor and an industrial dust collector device; the first push rod motor 207 drives the high-pressure spray nozzle 206 to move downwards; the screw motor II 204 drives the movable slide plate 205 to sequentially move, so that the high-pressure spray nozzle 206 and the industrial dust collector device respectively carry out dust removal and chip collection on the die cutting machine.

Third, compression of chips:

after the second step is completed, the relevant device is reset.

The PLC controller outputs signals to the electromagnet, push rod motor two 210, push rod motor three 404, and conveyor belt device one 301.

The second push rod motor 210 drives the trapezoid push block to reset, the electromagnet is closed, the movable plate is opened under the action of gravity, and scraps enter the first conveyor belt device 301; the first conveyor means 301 is activated to move the chips into the compression chute 403.

After an operator presses the cleaning switch for a long time, the PLC controller outputs a signal to the micro hydraulic mechanism 401; the micro hydraulic mechanism 401 compresses the chips, and then the upper micro hydraulic mechanism 401 pushes the chips out of the compression groove pipe 403, and the third push rod motor 404 delays to push the chips onto the second conveyor belt device 501. The second distance sensor module outputs the acquired signal to the PLC controller, and the PLC controller starts the second conveyor belt apparatus 501, so that the chip block moves by a unit distance, and a position is left for the next chip block.

Fourth, screening:

the first conveyor means 301 carries the debris past the screening portion as it moves toward the compression chute 403.

The fragments pass through the equipartition cylinder 304, and the servo motor 303 drives the equipartition cylinder 304 to orderly rotate, so that the fragments are evenly spread. Then through the detection cylinder 305, the proximity sensor module 306 detects the scraps, and when a metal object passes through, a signal is output to the PLC, and the PLC outputs a signal to the buzzer, and the buzzer sounds.

In example 2, a dividing strip was added to the equipartition cylinder 304 on the basis of example 1.

Embodiment 3, based on embodiment 1, adding a funnel on the screening seat, wherein the funnel is located below the rectangular through hole IV; the lower end of the funnel is provided with a connecting pipe, and the lower end of the connecting pipe is positioned in the rectangular through hole III.

Claims (10)

1. The utility model provides a cleaning device of cross cutting machine which characterized in that: comprises a main body frame, a scrap collecting part, a screening part, a compressing part, a storing part and a control part; the main body frame comprises a base, a collection seat, a screening seat, a compression seat and a storage seat; the debris collection part comprises an adjusting mechanism and a collection mechanism; the adjusting mechanism comprises a movable carrier plate structure, a first screw motor, an auxiliary sliding rail I, a second screw motor, an auxiliary sliding rail II and a first push rod motor I; the auxiliary sliding rails I are arranged on the left side surface and the right side surface of the rectangular supporting plate; the movable carrier plate structure is connected to the auxiliary first slide rail in a sliding manner and comprises a second load bearing plate, a first limiting plate, a connecting plate, a vertical plate and a limiting slide block; the first screw motor is arranged on the base, and the rotor of the first screw motor is connected with the first limiting plate; the second screw motor and the second auxiliary sliding rail are arranged on the movable carrier plate structure; a movable sliding plate is arranged on a rotor of the screw rod motor II; the movable slide plate is connected to the second auxiliary slide rail in a sliding manner; the first push rod motor is arranged on the movable slide plate; the acquisition mechanism comprises an elastic telescopic rod, a compressor, an industrial dust collector device structure, a high-pressure spray head and a push rod motor II.

2. The cleaning device of a die cutting machine of claim 1, wherein: the high-pressure spray head is arranged on the movable end of the first push rod motor through an elastic telescopic rod; the compressors and the high-pressure spray heads are connected through electromagnetic valves; the structure of the industrial dust collector device is arranged on the movable carrier plate structure and comprises an industrial dust collector, a dust collecting box, a movable plate, a movable sealing strip and an electromagnet; the industrial dust collector is positioned on the connecting plate, and the dust collection head is positioned on the movable slide plate; the lower bottom surface of the dust box is provided with a rectangular through hole IV and an electromagnet; the movable plate pin shaft is connected to the lower bottom surface of the dust collecting box; the movable sealing strip is arranged on the dust collecting box and the movable plate; the movable plate is provided with a magnetic block which is matched with the electromagnet; the second push rod motor is arranged on the movable carrier plate structure and is positioned below the structure of the industrial dust collector device, and the movable end of the second push rod motor is provided with a trapezoid push block.

3. The cleaning device of a die cutting machine of claim 1, wherein: the second bearing carrier plate is connected with the connecting plate through a first limiting plate; the first limiting plate is in a shape like a Chinese character 'Hui', is slidably connected in the strip-shaped sliding hole, is provided with a limiting sliding block, and is slidably connected on the first auxiliary sliding rail.

4. The cleaning device of a die cutting machine of claim 1, wherein: the screening part comprises a conveyor belt device I, a protective groove pipe, a servo motor I, an equipartition cylinder, a detection cylinder and a proximity sensor module; the protective groove pipe is arranged on the screening seat, and a rectangular through hole V is formed in the protective groove pipe; the first conveyor belt device is arranged in the screening seat and is positioned below the second rectangular through hole; the first servo motor is arranged on the side plate of the screening seat; the uniform-dividing cylinder pin shaft is connected to the inner wall of the screening seat; the first servo motor is in transmission connection with the equipartition cylinder through a reduction gear box; the detection cylinder is a cylindrical container, and the pin shaft is connected to the inner wall of the side plate of the screening seat; the proximity sensor module is arranged on the inner wall of the side plate of the screening seat through a mounting frame and is positioned in the detection cylinder.

5. The cleaning device of a die cutting machine of claim 1, wherein: the compression part comprises a miniature hydraulic mechanism, a feed chute, a compression chute pipe and a push rod motor III; the compression groove pipe and the miniature hydraulic mechanism are arranged on the base through the mounting frame; the feeding groove is arranged on a side plate of the compression groove pipe; the miniature hydraulic mechanism is positioned above and below the compression groove pipe, and the movable end of the miniature hydraulic mechanism is connected in the compression groove pipe in a sliding way; the push rod motor III is arranged on the base through the mounting frame and is positioned on one side of the compression groove pipe.

6. The cleaning device of a die cutting machine of claim 1, wherein: the storage part comprises a second conveyor belt device, and the second conveyor belt device is arranged on the storage seat through a mounting frame and is positioned below the compression groove pipe.

7. The cleaning device of a die cutting machine of claim 1, wherein: the first push rod motor forms an included angle of 60 degrees with the horizontal plane.

8. The cleaning device of a die cutting machine of claim 1, wherein: the base comprises a cuboid hollow container I; the collecting seat comprises a rectangular supporting plate and is arranged on the base; the screening seat comprises a cuboid hollow container II; the compression seat comprises a first load bearing plate, is arranged on the base through a support column and is positioned above a second cuboid hollow container; the storage seat comprises a cuboid hollow container III.

9. The cleaning device of a die cutting machine of claim 1, wherein: the funnel is additionally arranged on the screening seat, the funnel is arranged below the dust collecting box, the lower end of the funnel is provided with a connecting pipe, and the lower end of the connecting pipe is arranged in the screening seat.

10. The cleaning device of a die cutting machine of claim 4, wherein: a dividing strip is additionally arranged on the equipartition cylinder.