CN116834110A - Die cutting tool control device convenient to adjust - Google Patents

Abstract

The invention belongs to the technical field of cutting devices, in particular to a die cutting tool control device convenient to adjust, which comprises a switching panel, wherein a interlink cutting groove is formed in one side of the surface of the switching panel, a friction rotating wheel set is rotatably connected to the inner wall of the interlink cutting groove, a rotating mechanism is connected to the top of the friction rotating wheel set in a meshed mode, and the rotating mechanism is an active rotating wheel. The device can control the cutting die equipment inserted at any position of the friction rotating wheel set to rotate through the friction rotating wheel set installed in the inner cavity of the switching panel, so that the adjustment work of the cutting die equipment at different positions is realized.

Description

Die cutting tool control device convenient to adjust

Technical Field

The invention belongs to the technical field of cutting devices, and particularly relates to a die-cutting tool control device convenient to adjust.

Background

The die cutting is a comprehensive and complex cutting mode, relates to the projects of human resources, industrial equipment, industrial processes, management and the like, each manufacturer needing the die cutting must pay high attention to, the good and bad of the die cutting directly relate to the technical production level of the domestic industry, the reasonable resource allocation and the new idea of trying new technology and equipment are the professional spirit of the needs, the huge industrial chain of the die cutting industry continuously promotes the continuous development of various industries, plays an important role for the national and national people, and the development of the die cutting is more scientific and more reasonable in the future.

At present, the patent document with the publication number of CN111113561A discloses a combined die-cutting tool, and the tool can be flexibly applied under different conditions through the reserved structural designs of a locking platform, a threaded hole and the like on a tool body, so that the overall efficiency is improved, the feedback period is reduced, and unnecessary cost waste is avoided; the combined die-cutting tool can realize the function of directly adjusting the size on die-cutting equipment, and the size adjustment can be completed without disassembling and assembling the tool, thereby being convenient and quick, saving time and improving efficiency.

However, in the process of carrying out die cutting processing on the plate, the tool bit of pressing needs to be pressed to a plurality of positions of plate to reach the higher utilization ratio to the plate, need carry out adjustment work to the position of tool bit this moment, but the tool bit can remove, compare with the tool bit at normal fixed point position, stability must be reduced, if carry out stronger fixed action, the tool bit can appear deformation problem even, so the tool bit still can appear not hard up problem because of stress and vibration effect that produces in the cutting process after normal fixed, so need improve.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the die cutting tool control device convenient to adjust comprises a switching panel, wherein a interlink cutting groove is formed in one side of the surface of the switching panel, a friction rotating wheel set is rotatably connected to the inner wall of the interlink cutting groove, a rotating mechanism is connected to the top of the friction rotating wheel set in a meshed mode, the rotating mechanism is an active rotating wheel, and a torque motor is fixedly connected to the axis of an inner cavity of the active rotating wheel; still include cutting die equipment, this cutting die equipment can mould and cut panel, and cutting die equipment has outer die sleeve, one side fixedly connected with eccentric subassembly of outer die sleeve inner chamber, outer die sleeve's inner wall sliding connection has grinds the cutting blade, grind the equal fixedly connected with of both sides that the cutting blade surface is close to eccentric subassembly and seal the tension band, grind the one end fixedly connected with that the cutting blade inner chamber is close to eccentric subassembly and adsorb the metal piece, the middle part on eccentric subassembly surface evenly is provided with fixed magnet, the both sides of switching panel surface all rotate and are connected with the joint swivel, one side fixedly connected with traction link that the joint swivel surface was kept away from the switching panel, traction link is kept away from the one end grafting that the joint swivel has docking facility, the surface fixedly connected with post-heat abstractor of torque motor, one side joint that the switching panel surface was kept away from post-heat abstractor has the protection apron. Before the device is used, the device needs to be assembled, after friction rotating wheel groups are installed in interlinked grooves on two sides of a switching panel, a protective cover plate is buckled on the surface of the switching panel, a torque motor on the other side controls an output shaft to rotate at the moment, then an active rotating wheel on the top controls the rotating wheel in each friction rotating wheel group to rotate through friction rotation, die cutting equipment is inserted into the rotating wheel on a certain position of the friction rotating wheel group at a given position, and then a plate needing die cutting is placed in butt joint equipment on the other side to finish preparation work. The traction connecting rods on two sides of the switching panel rotate around the joint rotating ball, so that the other ends of the traction connecting rods are inserted into the side of the butt joint device, the butt joint device and the switching panel are calibrated, then the traction connecting rods on two sides shrink, the switching panel and the butt joint device are pulled up simultaneously, at the moment, the die cutting device extrudes and inserts a plate to one side close to the solid stop groove through the shape of the die cutting device, then columnar bulges are formed, and the profiling work is completed. The device can control the cutting die equipment inserted at any position of the friction rotating wheel set to rotate through the friction rotating wheel set installed in the inner cavity of the switching panel, so that the adjustment work of the cutting die equipment at different positions is realized.

Preferably, one end of the friction rotating wheel set far away from the switching panel is rotationally connected with the surface of the protective cover plate, one end of the eccentric assembly far away from the outer die sleeve is spliced with the inner cavity of the friction rotating wheel set, the bottom of the butt joint device is in sliding connection with the ground, and the surface of the grinding and cutting blade is in sliding connection with the inner cavity of the outer die sleeve through a cutting groove. The switching panel of the device is connected with the butt joint equipment through the traction connecting rods on two sides so as to carry out the feeding and discharging process, and the traction connecting rods can seal the side opening of the device under the connection state, so that the problem that the high-speed rotating die cutting equipment damages external personnel is avoided, and further the safety production is realized.

Preferably, the eccentric assembly comprises a butt joint inserted bar, one side of the butt joint inserted bar inner cavity away from the friction rotating wheel group is fixedly connected with a built-in power supply, one end of the butt joint inserted bar away from the friction rotating wheel group is fixedly connected with a bending guide rod, one end of the bending guide rod away from the butt joint inserted bar is fixedly connected with an air extraction rotary drum, and one side of an inner cavity output shaft of the air extraction rotary drum is fixedly connected with an air extraction rotary rod. After the profiling is finished, the raised part is required to be separated from the plate, a torque motor is required to be started at the moment, the torque motor controls the eccentric assembly in the inner cavity of the outer die sleeve to rotate through the transmission action of the friction rotating wheel group, and then the eccentric assembly rotates in the rotating process, so that the outer die sleeve rotates by taking the axis of the eccentric assembly as the center of a circle, the raised part is torn and broken from the plate, and finally the falling male die is contained in the butt joint equipment.

Preferably, one side of the inner cavity of the air extraction rotary drum, which is close to the inner cavity of the outer mold sleeve, is uniformly provided with an air charging port, one end of the butt joint inserted bar, which is far away from the bending guide rod, extends to the outer portion of the outer mold sleeve, one end of the butt joint inserted bar, which is far away from the bending guide rod, is spliced with the inner cavity of the friction rotary wheel group, and one end of the air extraction rotary bar, which is far away from the air extraction rotary drum, extends to the outer portion of the outer mold sleeve. In the process of rotating the outer die sleeve, the eccentric assembly is electrified by the torque motor, so that the built-in power supply can supply power to the air suction rotary drum at the side of the bending guide rod, the air suction rotary drum is used for controlling the rotation of the air suction rotary rod in the air suction rotary drum to suck air from the outside, and the inner cavity part of the outer die sleeve is pressurized through the air holes at the side of the inner cavity of the eccentric assembly. Under normal conditions, the grinding blades shrink to the inside of the outer die sleeve due to the traction force of the sealing tension bands at the two sides, but after the eccentric assembly performs inflation work, the pressure of the inner cavity of the outer die sleeve is increased, at the moment, each grinding blade can slide outwards from the cutting groove of the outer die sleeve under the action of the pressure until the bottoms of the grinding blades are clamped with the inner cavity of the outer die sleeve, the sealing tension bands are stretched to a limit value, and then the tips of the grinding blades polish the inner wall of the male die along with the rotation of the outer die sleeve. The cutting die equipment of the device can scrape the inner wall of the male die through the grinding cutting blade of the outer surface in the process of producing the male die, so that the pressed inner wall of the male die is smooth, and because the grinding cutting blade stretches out from the inner part of the outer die sleeve, operators can be cut in the process of taking and replacing, after refitting the grinding cutting blade, the grinding cutting blade can shrink in the inner part of the outer die sleeve in a non-working state, and the problem is avoided.

Preferably, the butt joint equipment comprises a solid stop block, one side of the inner cavity of the solid stop block, which is close to the die cutting equipment, is slidably connected with a built-in push disc, a filling sleeve is slidably connected at the axis of the built-in push disc, a spring push rod is fixedly connected at the axis of the inner cavity of the built-in push disc, the surface of the filling sleeve is fixed in an opening of the solid stop block, the built-in push disc is in butt joint with the spring push rod, and the surface of the spring push rod is fixedly connected with one end, far away from the built-in push disc, of the filling sleeve through a self-contained spring, so that the spring push rod can compress or elongate in the process of pushing the built-in push disc, two sides of the surface of the solid stop block are slidably connected with clamping plates, and one end, far away from the switching panel, of the clamping plates is rotationally connected with a bundling rotating rod. The clamping plates on the two sides can clamp a preset plate through the clamping grooves at the end heads, then the pulled male die can be reserved in the inner cavity of the solid stop block, after the work is finished, the cut plate needs to be taken out, the traction connecting rod is rotated at the moment, then the clamping plates on the upper side and the lower side are reversely rotated around the surface of the bundling rotating rod, at the moment, the bottoms of the clamping plates can push the spring push rod to the side close to the switching panel due to deflection, and at the moment, the built-in push disc pushes out the male die reserved in the inner cavity of the solid stop block.

Preferably, the die cutting equipment extends to the inside of the solid stop block, the surface of the spring push rod is fixedly connected with one side, far away from the switching panel, of the solid stop block surface through a spring sleeve, and the middle part of the inner cavity of the bundling rotating rod is fixedly connected with the surface of the solid stop block. In the process of cutting the male die, the male die is integrally positioned in a groove where the solid stop block is positioned, so that fragments which are broken off after the plate is pulled by the tensile force can be blocked by the solid stop block, the male die is separated from the plate and can be temporarily left in the deep part of the inner cavity of the solid stop block, at the moment, the male die is difficult to directly take out, after the butt joint equipment is refitted, the male die is pushed out by the built-in pushing disc every time when the plate is discharged, and the effect of rapidly taking out the material is realized.

Preferably, the rear-mounted heat dissipating device comprises a limit collar, a temperature-sensing plugboard is slidably connected to the bottom of the inner cavity of the limit collar, an arc-shaped connecting plate is fixedly connected to the bottom of the temperature-sensing plugboard, a grooving heat dissipating frame is fixedly connected to the bottom of the surface of the limit collar, a limit guide rail is slidably connected to the bottom of the outer surface of the arc-shaped connecting plate, and a traction rod is fixedly connected to the bottom of the inner cavity of the arc-shaped connecting plate. When the torque motor continuously works, if the torque motor generates heat because of the large work load, the temperature sensing plugboard attached to the surface of the traction connecting rod controls the traction rod to push the arc-shaped connecting plate downwards, so that the temperature sensing plugboard and the arc-shaped connecting plate are pulled downwards, at the moment, the bottom of the inner cavity of the limiting sleeve ring is empty, outside air is filled into the inner part of the notch cooling frame through the notch of the side edge of the notch cooling frame, the surface of the traction connecting rod is cooled, and after the temperature sensing plugboard is cooled, the temperature sensing plugboard is reinserted into the inner part of the limiting sleeve ring to strengthen the torque motor.

Preferably, the surface of the arc-shaped connecting plate is in sliding connection with the middle part of the inner cavity of the grooving heat dissipation frame, the surface of the limiting guide rail is fixedly connected with the surface of the switching panel, the inner cavity of the limiting lantern ring is fixedly connected with the outer surface of the torque motor, and the surface of the traction rod is in sliding connection with the bottom of the inner cavity of the limiting guide rail. The torque motor is easy to generate heat in the continuous working process, the temperature sensing plugboard can automatically open the grooving heat dissipation frames on two sides because of temperature sensing, the torque motor is enabled to be subjected to heat dissipation under the action of the torque motor, after the temperature of the torque motor is reduced, the temperature sensing plugboard and the arc-shaped connecting plate can automatically support the torque motor, so that vibration generated by the torque motor during working is reduced, and the effect of buffering and sound absorption is achieved.

The beneficial effects of the invention are as follows:

1. the device can control the cutting die equipment inserted at any position of the friction rotating wheel set to rotate through the friction rotating wheel set installed in the inner cavity of the switching panel, so that the adjustment work of the cutting die equipment at different positions is realized.

2. The switching panel of the device is connected with the butt joint equipment through the traction connecting rods on two sides so as to carry out the feeding and discharging process, and the traction connecting rods can seal the side opening of the device under the connection state, so that the problem that the high-speed rotating die cutting equipment damages external personnel is avoided, and further the safety production is realized.

3. The cutting die equipment of the device can scrape the inner wall of the male die through the grinding cutting blade of the outer surface in the process of producing the male die, so that the pressed inner wall of the male die is smooth, and because the grinding cutting blade stretches out from the inner part of the outer die sleeve, operators can be cut in the process of taking and replacing, after refitting the grinding cutting blade, the grinding cutting blade can shrink in the inner part of the outer die sleeve in a non-working state, and the problem is avoided.

4. In the process of cutting the male die, the male die is integrally positioned in a groove where the solid stop block is positioned, so that fragments which are broken off after the plate is pulled by the tensile force can be blocked by the solid stop block, the male die is separated from the plate and can be temporarily left in the deep part of the inner cavity of the solid stop block, at the moment, the male die is difficult to directly take out, after the butt joint equipment is refitted, the male die is pushed out by the built-in pushing disc every time when the plate is discharged, and the effect of rapidly taking out the material is realized.

5. The torque motor is easy to generate heat in the continuous working process, the temperature sensing plugboard can automatically open the grooving heat dissipation frames on two sides because of temperature sensing, the torque motor is enabled to be subjected to heat dissipation under the action of the torque motor, after the temperature of the torque motor is reduced, the temperature sensing plugboard and the arc-shaped connecting plate can automatically support the torque motor, so that vibration generated by the torque motor during working is reduced, and the effect of buffering and sound absorption is achieved.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the traction link of the present invention after rotation;

FIG. 3 is a schematic diagram of a switching panel according to the present invention;

FIG. 4 is a cross-sectional view of a die cutting apparatus of the present invention;

FIG. 5 is a cross-sectional view of the eccentric assembly of the present invention;

FIG. 6 is a cross-sectional view of a docking device of the present invention;

fig. 7 is a schematic structural view of the post heat sink device of the present invention.

In the figure: 1. a switching panel; 11. a interlinked slot; 12. a friction pulley set; 13. a driving rotating wheel; 14. a joint ball; 15. a traction link; 16. a protective cover plate; 17. a torque motor; 2. cutting die equipment; 21. an outer mold sleeve; 22. grinding and cutting the blade; 23. adsorbing a metal block; 24. sealing and storing the tension belt; 25. fixing the magnetic block; 3. an eccentric assembly; 31. a butt joint inserted link; 32. a built-in power supply; 33. bending the guide rod; 34. an air extraction rotary drum; 35. an air extraction rotating rod; 4. a rear heat sink; 41. a limit collar; 42. grooving the heat dissipation frame; 43. a temperature sensing plugboard; 44. arc connecting plates; 45. a spacing guide rail; 46. a traction rod; 5. a docking device; 51. a solid stop; 52. clamping the clamping plate; 53. bundling a rotating rod; 54. a spring push rod; 55. filling the sleeve; 56. a push plate is arranged in the inner part.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

In embodiment 1, referring to fig. 1 to 5, the present invention provides a technical solution: the die cutting tool control device convenient to adjust comprises a switching panel 1, wherein a interlink cutting groove 11 is formed in one side of the surface of the switching panel 1, a friction rotating wheel set 12 is rotatably connected to the inner wall of the interlink cutting groove 11, a rotating mechanism is connected to the top of the friction rotating wheel set 12 in a meshed mode, the rotating mechanism is an active rotating wheel 13, and a torque motor 17 is fixedly connected to the axis of an inner cavity of the active rotating wheel 13; still include cutting die equipment 2, this cutting die equipment 2 can mould and cut panel, cutting die equipment 2 has outer die sleeve 21, one side fixedly connected with eccentric subassembly 3 of outer die sleeve 21 inner chamber, the inner wall sliding connection of outer die sleeve 21 has grinds cutter piece 22, grinds cutter piece 22 surface and is close to the equal fixedly connected with of both sides of eccentric subassembly 3 and seals up tension band 24, grinds cutter piece 22 inner chamber and is close to the one end fixedly connected with absorption metal piece 23 of eccentric subassembly 3, the middle part on eccentric subassembly 3 surface evenly is provided with fixed magnet 25.

The two sides of the outer surface of the switching panel 1 are both rotationally connected with a joint rotating ball 14, one side, far away from the switching panel 1, of the surface of the joint rotating ball 14 is fixedly connected with a traction connecting rod 15, one end, far away from the joint rotating ball 14, of the traction connecting rod 15 is spliced with a butt joint device 5, the surface of a torque motor 17 is fixedly connected with a rear heat radiation device 4, and one side, far away from the rear heat radiation device 4, of the surface of the switching panel 1 is clamped with a protection cover plate 16.

One end of the friction rotating wheel set 12 far away from the switching panel 1 is rotationally connected with the surface of the protective cover plate 16, one end of the eccentric assembly 3 far away from the outer die sleeve 21 is spliced with the inner cavity of the friction rotating wheel set 12, the bottom of the butting device 5 is slidingly connected with the ground, and the surface of the grinding blade 22 is slidingly connected with the inner cavity of the outer die sleeve 21 through a cutting groove.

The eccentric assembly 3 comprises a butt joint inserted link 31, one side of the inner cavity of the butt joint inserted link 31 away from the friction rotating wheel set 12 is fixedly connected with a built-in power supply 32, one end of the butt joint inserted link 31 away from the friction rotating wheel set 12 is fixedly connected with a bending guide rod 33, one end of the bending guide rod 33 away from the butt joint inserted link 31 is fixedly connected with an air extraction rotary drum 34, and one side of the inner cavity output shaft of the air extraction rotary drum 34 is fixedly connected with an air extraction rotary rod 35.

One side of the inner cavity of the air extraction rotary drum 34, which is close to the inner cavity of the outer die sleeve 21, is uniformly provided with an air charging port, one end of the butt joint inserted rod 31, which is far away from the bending guide rod 33, extends to the outer part of the outer die sleeve 21, one end of the butt joint inserted rod 31, which is far away from the bending guide rod 33, is spliced with the inner cavity of the friction rotary wheel set 12, and one end of the air extraction rotary drum 35, which is far away from the air extraction rotary drum 34, extends to the outer part of the outer die sleeve 21.

The traction connecting rods 15 on two sides of the switching panel 1 rotate around the joint rotating ball 14, so that the other ends of the traction connecting rods 15 are inserted into the side of the butt joint device 5, the butt joint device 5 and the switching panel 1 are calibrated at the moment, then the traction connecting rods 15 on two sides shrink, the switching panel 1 and the butt joint device 5 are pulled up simultaneously, at the moment, the die cutting device 2 extrudes and inserts a plate to one side close to the groove of the solid stop block 51 through the shape of the die cutting device, then columnar bulges are formed, and the profiling work is completed.

After the profiling is finished, the raised part is required to be separated from the plate, at the moment, the torque motor 17 is required to be started, the torque motor 17 controls the eccentric assembly 3 in the inner cavity of the outer die sleeve 21 to rotate through the transmission function of the friction rotating wheel group 12, then the eccentric assembly 3 rotates in the rotating process, the outer die sleeve 21 rotates by taking the axle center of the eccentric assembly 3 as the circle center, so that the raised part is torn and pulled off from the plate, and finally the dropped male die is contained in the butt joint equipment 5.

In the process of rotating the outer die sleeve 21, the eccentric assembly 3 is also electrified by the torque motor 17, so that the built-in power supply 32 supplies power to the air suction rotary drum 34 at the side of the bending guide rod 33, the air suction rotary drum 34 controls the rotation of the air suction rotary rod 35 inside to suck air from the outside, and the inner cavity part of the outer die sleeve 21 is pressurized through the air holes at the side of the inner cavity of the eccentric assembly 3.

Under normal conditions, the grinding blades 22 shrink into the outer mold sleeve 21 due to the traction force of the sealing tension bands 24 on both sides, but after the eccentric assembly 3 performs inflation operation, the pressure of the inner cavity of the outer mold sleeve 21 increases, at this time, each grinding blade 22 slides outwards from the cutting groove of the outer mold sleeve 21 under the action of the pressure until the bottom of the grinding blade 22 is clamped with the inner cavity of the outer mold sleeve 21, the sealing tension bands 24 are stretched to a limit value, and then the tips of the grinding blades 22 polish the inner wall of the male mold along with the rotation of the outer mold sleeve 21.

In embodiment 2, referring to fig. 1 to 7, the present invention provides a technical solution: on the basis of the first embodiment, the docking device 5 comprises a solid stop block 51, one side, close to the die cutting device 2, of an inner cavity of the solid stop block 51 is slidably connected with a built-in push disc 56, an axis of the built-in push disc 56 is slidably connected with a filling sleeve 55, an axis of the inner cavity of the built-in push disc 56 is fixedly connected with a spring push rod 54, the surface of the filling sleeve 55 is fixedly arranged in an opening of the solid stop block 51, the built-in push disc 56 is in butt joint with the spring push rod 54, the surface of the spring push rod 54 is fixedly connected with one end, far away from the built-in push disc 56, of the filling sleeve 55 through a self-contained spring, so that the spring push rod 54 can compress or elongate in the process of pushing the built-in push disc 56, two sides of the surface of the solid stop block 51 are slidably connected with a clamping plate 52, and one end, far away from the switching panel 1, of the clamping plate 52 is rotationally connected with a bundling rotary rod 53.

The die cutting equipment 2 extends to the inside of the solid stop block 51, the surface of the spring push rod 54 is fixedly connected with one side, far away from the switching panel 1, of the surface of the solid stop block 51 through a spring sleeve, and the middle part of the inner cavity of the bundling rotary rod 53 is fixedly connected with the surface of the solid stop block 51.

The rear-mounted heat dissipating device 4 comprises a limit collar 41, a temperature sensing plugboard 43 is slidably connected to the bottom of the inner cavity of the limit collar 41, an arc-shaped connecting plate 44 is fixedly connected to the bottom of the temperature sensing plugboard 43, a grooving heat dissipating frame 42 is fixedly connected to the bottom of the surface of the limit collar 41, a limit guide rail 45 is slidably connected to the bottom of the outer surface of the arc-shaped connecting plate 44, and a traction rod 46 is fixedly connected to the bottom of the inner cavity of the arc-shaped connecting plate 44.

The surface of the arc-shaped connecting plate 44 is in sliding connection with the middle part of the inner cavity of the grooving heat dissipation frame 42, the surface of the limiting guide rail 45 is fixedly connected with the surface of the switching panel 1, the inner cavity of the limiting collar 41 is fixedly connected with the outer surface of the torque motor 17, and the surface of the traction rod 46 is in sliding connection with the bottom of the inner cavity of the limiting guide rail 45.

The clamping plates 52 on the two sides can clamp a preset plate through the clamping grooves at the ends, then the pulled male die can remain in the inner cavity of the solid stop block 51, after the work is finished, the cut plate needs to be taken out, the traction connecting rod 15 is rotated at the moment, then the clamping plates 52 on the upper side and the lower side are reversely rotated around the surface of the bundling rotating rod 53, at the moment, the bottoms of the clamping plates 52 can push the spring push rod 54 to the side close to the switching panel 1 due to deflection, and at the moment, the built-in push disc 56 pushes the male die left in the inner cavity of the solid stop block 51 out.

When the torque motor 17 continuously works, if the torque motor 17 has a heating problem due to a large work load, the temperature sensing plugboard 43 attached to the surface of the traction connecting rod 15 controls the traction rod 46 to push the arc-shaped connecting plate 44 downwards, so that the temperature sensing plugboard 43 and the arc-shaped connecting plate 44 are pulled downwards, at the moment, the bottom of the inner cavity of the limit sleeve ring 41 is empty, external air is filled into the interior of the limit sleeve ring 42 through the slot on the side edge of the limit slot heat dissipation frame 42, the surface of the traction connecting rod 15 is cooled, and after the temperature sensing plugboard 43 is cooled, the temperature sensing plugboard 43 is reinserted into the interior of the limit sleeve ring 41 to strengthen the torque motor 17.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (9)

1. Die cutting tool controlling means convenient to adjust, its characterized in that: the automatic switching device comprises a switching panel (1), wherein a interlink slot (11) is formed in one side of the surface of the switching panel (1), a friction rotating wheel set (12) is rotatably connected to the inner wall of the interlink slot (11), a rotating mechanism is connected to the top of the friction rotating wheel set (12) in a meshed mode, the rotating mechanism is an active rotating wheel (13), and a torque motor (17) is fixedly connected to the axis of an inner cavity of the active rotating wheel (13); still include cutting die equipment (2), this cutting die equipment (2) can mould and cut panel, and cutting die equipment (2) have outer die sleeve (21), one side fixedly connected with eccentric subassembly (3) of outer die sleeve (21) inner chamber, the inner wall sliding connection of outer die sleeve (21) has grinds cutting blade (22), the equal fixedly connected with of both sides that grinds cutting blade (22) surface is close to eccentric subassembly (3) seals tensile tape (24), the one end fixedly connected with that grinds cutting blade (22) inner chamber is close to eccentric subassembly (3) adsorbs metal piece (23), the middle part on eccentric subassembly (3) surface evenly is provided with fixed magnet (25).

2. The die cutter control device for facilitating adjustment of claim 1, wherein: the utility model discloses a high-speed electric power switch, including switching panel (1), articulated ball (14) are all rotated in both sides of switching panel (1) surface, one side fixedly connected with traction link (15) that switching panel (1) was kept away from on articulated ball (14) surface, one end that joint ball (14) was kept away from to traction link (15) is pegged graft has docking equipment (5), the fixed surface of torque motor (17) is connected with post-heat-dissipating equipment (4), one side joint that post-heat-dissipating equipment (4) was kept away from on switching panel (1) surface has protection apron (16).

3. A die cutter control device for facilitating adjustment as defined in claim 2, wherein: one end of the friction rotating wheel group (12) far away from the switching panel (1) is rotationally connected with the surface of the protective cover plate (16), one end of the eccentric assembly (3) far away from the outer die sleeve (21) is spliced with the inner cavity of the friction rotating wheel group (12), the bottom of the butting device (5) is in sliding connection with the ground, and the surface of the grinding and cutting blade (22) is in sliding connection with the inner cavity of the outer die sleeve (21) through a cutting groove.

4. A die cutter control device for facilitating adjustment as defined in claim 3, wherein: the eccentric assembly (3) comprises a butt joint inserted bar (31), one side, away from the friction rotating wheel set (12), of the inner cavity of the butt joint inserted bar (31) is fixedly connected with a built-in power supply (32), one end, away from the friction rotating wheel set (12), of the butt joint inserted bar (31) is fixedly connected with a bending guide rod (33), one end, away from the butt joint inserted bar (31), of the bending guide rod (33) is fixedly connected with an air extraction rotary drum (34), and one side, away from the inner cavity output shaft, of the air extraction rotary drum (34), is fixedly connected with an air extraction rotary rod (35).

5. The die cutter control device for facilitating adjustment of claim 4, wherein: the inner cavity of the air suction rotary drum (34) is close to one side of the inner cavity of the outer mold sleeve (21) and is uniformly provided with an air charging port, one end, far away from the bending guide rod (33), of the butt joint inserting rod (31) extends to the outer portion of the outer mold sleeve (21), one end, far away from the bending guide rod (33), of the butt joint inserting rod (31) is spliced with the inner cavity of the friction rotary wheel set (12), and one end, far away from the air suction rotary drum (34), of the air suction rotary rod (35) extends to the outer portion of the outer mold sleeve (21).

6. A die cutter control device for facilitating adjustment as defined in claim 2, wherein: the butt joint equipment (5) comprises a solid stop block (51), one side of an inner cavity of the solid stop block (51) close to the die cutting equipment (2) is connected with a built-in push disc (56) in a sliding manner, a filling sleeve (55) is connected at the axis of the built-in push disc (56) in a sliding manner, a spring push rod (54) is fixedly connected at the axis of the inner cavity of the built-in push disc (56), the surface of the filling sleeve (55) is fixed in an opening of the solid stop block (51), the built-in push disc (56) is in butt joint with the spring push rod (54), the surface of the spring push rod (54) is fixedly connected with one end of the filling sleeve (55) far away from the built-in push disc (56) through a self-contained spring, so that the spring push rod (54) can be compressed or elongated in the process of pushing the built-in push disc (56), clamping plates (52) are connected to two sides of the surface of the solid stop block (51) in a sliding manner, and one end of the clamping plates (52) far away from the switching panel (1) is rotationally connected with a bundling rotating rod (53).

7. The die cutter control device for facilitating adjustment of claim 6, wherein: the die cutting equipment (2) extends to the inside of the solid stop block (51), the surface of the spring push rod (54) is fixedly connected with one side, far away from the switching panel (1), of the surface of the solid stop block (51) through a spring sleeve, and the middle part of the inner cavity of the bundling rotary rod (53) is fixedly connected with the surface of the solid stop block (51).

8. A die cutter control device for facilitating adjustment as defined in claim 2, wherein: the rear-mounted cooling device (4) comprises a limit collar (41), a temperature-sensing inserting plate (43) is slidably connected to the bottom of an inner cavity of the limit collar (41), an arc-shaped connecting plate (44) is fixedly connected to the bottom of the temperature-sensing inserting plate (43), a grooving cooling frame (42) is fixedly connected to the bottom of the surface of the limit collar (41), a limit guide rail (45) is slidably connected to the bottom of the outer surface of the arc-shaped connecting plate (44), and a traction rod (46) is fixedly connected to the bottom of the inner cavity of the arc-shaped connecting plate (44).

9. The die cutter control device for facilitating adjustment of claim 8, wherein: the surface of arc link (44) and the middle part sliding connection of grooving heat dissipation frame (42) inner chamber, the surface of spacing guide rail (45) and the fixed surface connection of switch panel (1), the inner chamber of spacing lantern ring (41) and the surface fixed connection of torque motor (17), the bottom sliding connection of the surface of traction lever (46) and spacing guide rail (45) inner chamber.