CN214031145U - Full-automatic die cutting and sheet breaking machine - Google Patents

Abstract

The utility model discloses a full-automatic cross cutting machine of splitting, its technical scheme main points are including: frame and feeding part, the locating component tests the speed, the cross cutting part, the waste material rolling part, the PLC control component, receive the material part, feeding part and receipts material part set up respectively in the both sides of frame, the cross cutting part sets up between feeding part and receipts material part, the waste material rolling part sets up between cross cutting part and receipts material part, the locating component that tests the speed is used for detecting whether skew takes place for material moving speed and material position, the locating component that tests the speed is including first detecting element and second detecting element and third detecting element, the PLC control component still respectively with feeding part, the cross cutting part, the waste material rolling part, it is connected to receive the material part, it collects the part including receiving material roller and cutting collection part to receive the material part, this full-automatic cross cutting broken sheet machine can carry out accurate die cutting operation, and can carry out speed monitoring, position monitoring.

Description

Full-automatic die cutting and sheet breaking machine

Technical Field

The utility model relates to a cross cutting machine of breaking, more specifically say, it relates to a full-automatic cross cutting machine of breaking.

Background

The traditional die cutting is a cutting process for the post processing of printed matters, and the die cutting process can manufacture printed matters or other paper products into a die cutting knife plate according to a pre-designed pattern for cutting, so that the shapes of the printed matters are not limited to straight edges and right angles any more. The traditional die cutting production is a forming process that a die cutting cutter is combined into a die cutting plate according to patterns required by product design, and a printed matter or other platy blanks are rolled and cut into required shapes or cutting marks under the action of pressure. The indentation process is to press a line mark on the plate by using a line pressing knife or a line pressing die under the action of pressure or roll the line mark on the plate by using a line rolling wheel so that the plate can be bent and formed according to a preset position.

Traditional cross cutting is mainly artifical, not only wastes time and energy, often can appear cutting moreover accurate inadequately, causes the waste.

Therefore, the automatic die cutting machine needs to be developed and researched, is compact in structure, is suitable for being used in small factories, can monitor speed and position, and guarantees accuracy of a cutting process.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a full-automatic cross cutting machine of splitting absolutely, this full-automatic cross cutting machine of splitting compact structure can carry out accurate die cutting operation to can carry out speed control, position control.

In order to achieve the above purpose, the utility model provides a following technical scheme: a full-automatic die cutting and sheet breaking machine comprises: the device comprises a rack, and a feeding part, a speed measuring and positioning part, a die cutting part, a waste winding part, a PLC (programmable logic controller) control part and a material receiving part which are arranged on the rack;

the feeding component and the receiving component are respectively arranged on two sides of the length direction of the rack, and one side of the width direction of the rack is used for driving the deviation rectifying mechanism of the feeding component to move;

the die cutting component is arranged between the feeding component and the receiving component and is used for performing die cutting operation on the material to be processed;

the waste material winding part is arranged between the die cutting part and the material receiving part and is used for carrying out waste material stripping operation on the processed material;

the speed measuring and positioning component is used for detecting whether the moving speed and the position of a material deviate or not, the speed measuring and positioning component comprises a first detection component arranged at the outlet of the feeding component, a second detection component arranged at the inlet of the die cutting component and a third detection component arranged at the inlet of the receiving component, the first detection component, the second detection component and the third detection component are movably arranged on the rack and connected with the PLC control component and used for feeding detected speed information and position information back to the PLC control component, and the first detection component and the second detection component are respectively used for detecting two sides of the material in the width direction;

the PLC control part is also respectively connected with the feeding part, the die cutting part, the waste winding part and the material receiving part and used for regulating and controlling the running speed;

the material receiving component comprises a material receiving roller and a cutting and collecting component, and the PLC control component controls the material receiving roller and the cutting and collecting component to be selected and started.

The utility model discloses further set up to: the feeding part comprises a feeding roller, a smoothing roller group used for smoothing materials and a feeding servo motor used for driving the feeding roller to rotate, the smoothing roller group comprises a first smoothing roller arranged close to the feeding roller, a second smoothing roller arranged far away from the feeding roller, a third smoothing roller arranged between the first smoothing roller and the second smoothing roller and a driver used for driving the third smoothing roller to move, the first smoothing roller and the second smoothing roller are positioned on the same horizontal plane, the third smoothing roller is arranged at the position below the first smoothing roller and the second smoothing roller, and the driver is used for driving the third smoothing roller to move up and down;

the first detection part is arranged above the smoothing roller group and is used for detecting materials passing through the second smoothing roller.

The utility model discloses further set up to: first detection part including set up in the first mounting bracket of frame width direction both sides and set up first guide bar and the first threaded rod between two first mounting brackets and install the first detector on first guide bar and first threaded rod, first guide bar is provided with two tops and the below that are located first threaded rod respectively, first guide bar fixed mounting is on first mounting bracket, first threaded rod rotates and installs on first mounting bracket, be provided with on the first mounting bracket and be used for controlling first threaded rod pivoted first handle of rotating.

The utility model discloses further set up to: the frame is provided with the extension board that supplies the feeding roller installation, one side parallel arrangement that the feed roller was kept away from to the extension board has the expansion board that supplies the installation of feeding servo motor, leave the shock attenuation space between expansion board and the extension board, the mechanism of rectifying sets up between expansion board and extension board, the mechanism of rectifying is connected with PCL control unit, and the PCL control unit control mechanism of rectifying after the locating part that tests the speed detects out the material and takes place the skew operation of rectifying.

The utility model discloses further set up to: the feeding part and the die cutting part are provided with bearing parts used for being matched with the second detection part, the bearing parts comprise bearing rollers arranged at the outlet position of the feeding part and a first bearing table arranged at the inlet position of the die cutting part, the height dimension of the first bearing table is the same as that of the inlet of the die cutting part, and the second detection part is arranged above the first bearing table and used for detecting materials passing through the first bearing table.

The utility model discloses further set up to: the second detection part comprises a second mounting frame arranged on the first bearing table, a fixing device connected to the second mounting frame in a sliding mode, and a second detector arranged on the fixing device, the fixing device is connected to a fixing plate on the second mounting frame in a sliding mode, and a second guide rod and a second threaded rod are arranged along the height direction of the fixing plate, the second guide rod is provided with two guide rods and located above and below the second threaded rod respectively, the second guide rod and the second threaded rod are arranged in an extending mode along the length direction of the frame, and the second detector is connected with the second threaded rod and the second guide rod respectively.

The utility model discloses further set up to: the cutting collecting component is provided with a second bearing table in front, the third detector is arranged above the second bearing table and comprises a guide rail arranged on the rack, an installation rod arranged on the guide rail in a sliding mode and a third detector arranged on the installation rod in a sliding mode.

The utility model discloses further set up to: the material collecting device is characterized by further comprising two clamping components, wherein the clamping components are respectively arranged between the die cutting component and the waste material winding component and between the waste material winding component and the material collecting component, and each clamping component comprises a first clamping roller located below the material, a second clamping roller located above the material and a driving piece used for driving the second clamping roller to move.

The utility model discloses further set up to: the second clamping roller is provided with a plurality of limiting rings, and the limiting rings are abutted and limited with the first clamping roller when the driving piece drives the second clamping roller to move.

The utility model discloses further set up to: the cutting collecting component comprises a cutting plate, a cutting rod, a cutting motor and a collecting box, wherein the cutting motor is used for driving the cutting rod to move up and down, the collecting box is located below the cutting plate, a gap for materials to pass through is reserved between the cutting plate and the cutting rod which does not work, and the cutting motor is arranged below the cutting rod.

To sum up, the utility model discloses following beneficial effect has: the method comprises the steps of firstly installing materials to be processed on a feeding part, then gradually penetrating the materials through a die cutting part and a waste material winding part, and finally installing the materials on a material collecting roller or carrying out cutting operation and collecting operation through a cutting and collecting part.

The whole process is controlled by a servo motor and controlled by direct current, so that the transmission is stable in speed.

Secondly, detecting the material at the outlet position of the feeding part through the first detecting part, detecting the material to enter the die cutting part through the second detecting part, detecting the moving speed of the material through a two-point detecting method, detecting the two sides of the material to monitor the position of the material, detecting the speed information when the material enters the material receiving part through the third detecting part, and detecting the speed information of the section according to the comparison with the second detecting part.

Thereby when speed unusual, the position play department gives the PLC control unit feedback, the servo motor that the PCL control unit corresponds according to feedback information control carries out speed adjustment, position adjustment to guarantee the stability of cross cutting process, collect the firm transmission of part high strength cutting, feeding part through the cutting, make this cross cutting broken sheet machine work efficiency be greater than the manual efficiency far away.

Drawings

FIG. 1 is a schematic perspective view of a fully automatic die cutting and sheet cutting machine;

FIG. 2 is a perspective view of the infeed section and die cut section area;

FIG. 3 is an enlarged schematic view at A;

fig. 4 is a schematic perspective view of the receiving member.

Reference numerals: 1. a frame; 2. a feeding member; 21. a feed roll; 22. smoothing the roller group; 23. a feeding servo motor; 24. an extension plate; 25. an expansion board; 26. a shock absorbing void; 27. a deviation rectifying mechanism; 3. a speed measurement positioning part; 31. a first detection member; 311. a first mounting bracket; 312. a first guide bar; 313. a first threaded rod; 314. a first detector; 315. a first rotating handle; 32. a second detection part; 321. a second mounting bracket; 322. a fixing device; 3221. a fixing plate; 3222. a second guide bar; 3223. a second threaded rod; 323. a second detector; 33. a third detection section; 331. a guide rail; 332. mounting a rod; 333. a third detector; 34. a second carrier table; 4. a die cut component; 5. a waste take-up component; 6. a PLC control component; 7. a receiving member; 71. a material receiving roller; 72. cutting the collecting member; 721. a collection box; 722. cutting the rod; 8. a carrier member; 81. a carrier roller; 82. a first carrier stage; 9. a clamping member; 91. a first nip roller; 92. a second nip roller; 93. a drive member.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 4, in order to achieve the above object, the present invention provides the following technical solutions: a full-automatic die cutting and sheet breaking machine comprises: the device comprises a rack 1, and a feeding part 2, a speed measuring and positioning part 3, a die cutting part 4, a waste winding part 5, a PLC (programmable logic controller) control part 6 and a material receiving part 7 which are arranged on the rack 1;

the feeding component 2 and the receiving component 7 are respectively arranged at two sides of the length direction of the frame 1; one side of the frame 1 in the width direction is used for driving the deviation rectifying mechanism of the feeding component 2 to move;

the die cutting component 4 is arranged between the feeding component 2 and the receiving component 7 and is used for performing die cutting operation on the material to be processed;

the waste material winding part 5 is arranged between the die cutting part 4 and the material receiving part 7 and is used for carrying out waste material stripping operation on the processed material;

the speed measuring and positioning component 3 is used for detecting whether the moving speed and the position of a material deviate or not, the speed measuring and positioning component 3 comprises a first detection component 31 arranged at the outlet position of the feeding component 2, a second detection component 32 arranged at the inlet position of the die cutting component 4 and a third detection component 33 arranged at the inlet position of the receiving component 7, the first detection component 31, the second detection component 32 and the third detection component 33 are all connected with the PLC control component 6 and used for feeding detected speed information and position information back to the PLC control component 6, and the first detection component 31 and the second detection component 32 are respectively used for detecting two sides of the material in the width direction;

the PLC control part 6 is also respectively connected with the feeding part 2, the die cutting part 4, the waste winding part 5 and the material receiving part 7 and used for regulating and controlling the running speed;

the material receiving component 7 comprises a material receiving roller 71 and a cutting and collecting component 72, and the PLC control component 6 controls the material receiving roller 71 and the cutting and collecting component 72 to be alternatively started.

The utility model discloses a design, at first the material that will process is installed to feeding part 2 on, then progressively passes the material cross cutting part 4, waste material rolling part 5 on, install at last to receiving on the material roller 71 or cut off operation, collection operation through cutting collecting part 72.

The whole process is controlled by a servo motor and controlled by direct current, so that the transmission is stable in speed.

Secondly, the material at the outlet position of the feeding part 2 is detected by the first detecting part 31, the material to be fed into the die cutting part 4 is detected by the second detecting part 32, the moving speed of the material is detected by a two-point detecting method, the monitoring of the material position is realized by detecting two sides of the material, the speed information when the material is fed into the material receiving part 7 is detected by the third detecting part 33, and the speed information of the section is detected by comparing the speed information with the second detecting part 32.

Thereby when speed unusual, the position department of going out gives PLC control unit 6 feedback, and PCL control unit carries out speed adjustment according to the servo motor that feedback information control corresponds, through the position situation of the mechanism 27 adjustment feed end of rectifying to guarantee the stability of back stage cross cutting process, collect the firm transmission of part 72 high strength cutting, feed unit 2 through the cutting, make this cross cutting broken sheet machine work efficiency be greater than the manual efficiency far away.

The feeding part 2 comprises a feeding roller 21, a smoothing roller group 22 used for smoothing materials and a feeding servo motor 23 used for driving the feeding roller 21 to rotate, the smoothing roller group 22 comprises a first smoothing roller close to the feeding roller 21, a second smoothing roller far away from the feeding roller 21, a third smoothing roller arranged between the first smoothing roller and the second smoothing roller and a driver used for driving the third smoothing roller to move, the first smoothing roller and the second smoothing roller are located on the same horizontal plane, the third smoothing roller is arranged at the position below the first smoothing roller and the second smoothing roller, and the driver is used for driving the third smoothing roller to move up and down;

the first detection member 31 is disposed above the smoothing roller group 22 and is configured to detect a material passing through the second smoothing roller. The smoothing roller group 22 is set for smoothing materials wound on the feeding roller 21 for a long time, so that the materials entering the die cutting part 4 are smooth and not prone to error, the first detection part 31 detects the materials on the second smoothing roller to achieve the most effective detection in a limited space, the space is saved, the second smoothing roller is an outlet end, the materials at the outlet end are smooth, and therefore the data during detection are accurate.

First detection part 31 is including setting up in the first mounting bracket 311 of frame 1 width direction both sides, and set up first guide bar 312 and first threaded rod 313 between two first mounting brackets 311, and install first detector 314 on first guide bar 312 and first threaded rod 313, first guide bar 312 is provided with two tops and the below that are located first threaded rod 313 respectively, first guide bar 312 fixed mounting is on first mounting bracket 311, first threaded rod 313 rotates and installs on first mounting bracket 311, be provided with on first mounting bracket 311 and be used for controlling first threaded rod 313 pivoted first handle 315 that rotates.

By rotating the first rotating handle 315, the first threaded rod 313 is rotated, so that the first detector 314 can move along with the first guide rod 312 in the length direction, the left and right positions of the first detection member 31 can be adjusted, and the device can be applied to materials with different width dimensions. In addition, the adjustment method can be adjusted to an expected position more accurately by manually rotating the first rotating handle 315.

The frame 1 is provided with an extension plate 24 for mounting the feeding roller 21, one side of the extension plate 24, which is far away from the feeding roller 21, is provided with an extension plate 25 for mounting the feeding servo motor 23 in parallel, a damping gap 26 is reserved between the extension plate 25 and the extension plate 24, a deviation rectifying mechanism 27 is arranged between the extension plate 25 and the extension plate 24, the deviation rectifying mechanism 27 is connected with the PCL control component, and when the speed measuring and positioning component 3 detects that the material deviates, the PCL control component controls the deviation rectifying mechanism 27 to perform deviation rectifying operation. The deviation correcting mechanism 27 is arranged on one side of the frame 1, so that a larger gap is left between the extension plate 24 and the frame 1, and the deviation correcting mechanism is convenient for a user to carry. Compared with the method that the deviation rectifying mechanism 27 is arranged at the lower position of the rack 1, the method is more stable and convenient.

The feeding component 2 and the die cutting component 4 are provided with a bearing component 8 used for being matched with the second detection component 32, the bearing component 8 comprises a bearing roller 81 arranged at the outlet position of the feeding component 2 and a first bearing platform 82 arranged at the inlet position of the die cutting component 4, the height dimension of the first bearing platform 82 is the same as that of the inlet of the die cutting component 4, and the second detection component 32 is arranged above the first bearing platform 82 and used for detecting materials passing through the first bearing platform 82. The setting of the bearing part 8 can enable the material coming out of the second smoothing roller to be gradually pulled up to the height position of the first bearing table 82 through the bearing roller 81, a progressive process is formed, the problem of the material is avoided, in addition, the height dimension of the first bearing table 82 is the same as the height dimension of the inlet of the die cutting part 4, the material entering the die cutting part 4 can be guaranteed to be smooth, and the accuracy of die cutting is guaranteed.

The second detecting element 32 includes a second mounting frame 321 disposed on the first supporting platform 82, a fixing device 322 slidably connected to the second mounting frame 321, and a second detector 323 mounted on the fixing device 322, the fixing device 322 includes a fixing plate 3221 slidably connected to the second mounting frame 321, and a second guide rod 3222 and a second threaded rod 3223 disposed along a height direction of the fixing plate 3221, the second guide rod 3222 is disposed in two and is respectively located above and below the second threaded rod 3223, the second guide rod 3222 and the second threaded rod 3223 are both disposed to extend along a length direction of the rack 1, and the second detector 323 is connected to the second threaded rod 3223 and the second guide rod 3222, respectively. The second detector 323 moves forward and backward by rotating the second threaded rod 3223, and the second detector 323 moves left and right by adjusting the position of the fixing device 322, so that the second detector 323 can detect materials at various positions on the first bearing table 82, and the material detecting device is suitable for materials with various width sizes.

The second bearing table 34 is arranged in front of the cutting and collecting component 72, the third detector 333 is arranged above the second bearing table 34, and the third detector 333 comprises a guide rail 331 arranged on the frame 1, an installation rod 332 slidably installed on the guide rail 331, and a third detector 333 slidably installed on the installation rod 332. The third detector 333 is suitable for materials having various width dimensions, as with the second detector 323.

The device further comprises two clamping components 9, the two clamping components 9 are respectively arranged between the die cutting component 4 and the waste material winding component 5, between the waste material winding component 5 and between the material receiving components 7, and each clamping component 9 comprises a first clamping roller 91 positioned below the material, a second clamping roller 92 positioned above the material and a driving piece 93 used for driving the second clamping roller 92 to move. This first grip roll 91 and the design of the roll column structure of second grip roll 92, can be at the better integrality of assurance material of centre gripping in-process, cause the damage of material when being unlikely to the centre gripping, secondly the design of the hold assembly 9 between cross cutting part 4 and the waste material rolling part 5, can the person of facilitating the use install the material to the waste material rolling part 5, between the waste material rolling part 5 and receive the design of the hold assembly 9 between the material part 7, the person of facilitating the use installs the material to receiving on the roller 71.

The second clamping roller 92 is provided with a plurality of limiting rings, and the limiting rings are abutted and limited with the first clamping roller 91 when the driving piece 93 drives the second clamping roller 92 to move. Due to the design of the limiting ring, the second clamping roller 92 can achieve the clamping effect without using a roller with a larger diameter, so that the material cost is saved.

The cutting and collecting component 72 comprises a cutting plate, a cutting rod 722, a cutting motor for driving the cutting rod 722 to move up and down, and a collecting box 721 positioned below the cutting plate, wherein a gap for materials to pass through is reserved between the cutting plate and the cutting rod 722 which is not in operation, and the cutting motor is arranged below the cutting rod 722. The cutting and collecting part 72 is designed to automatically cut the material and make the material fall into the collecting box 721, and besides, the setting of the position of the cutting motor can save the space of the device, and the design can better control the force of the cutting rod 722 relative to other positions under the cutting rod 722.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic cross cutting broken sheet machine which characterized by including: the device comprises a rack (1), and a feeding part (2), a speed measuring and positioning part (3), a die cutting part (4), a waste winding part (5), a PLC (programmable logic controller) control part (6) and a material receiving part (7) which are arranged on the rack (1);

the feeding component (2) and the receiving component (7) are respectively arranged on two sides of the length direction of the rack (1), and one side of the width direction of the rack (1) is used for driving the deviation rectifying mechanism of the feeding component (2) to move;

the die cutting component (4) is arranged between the feeding component (2) and the receiving component (7) and is used for performing die cutting operation on the material to be processed;

the waste material winding part (5) is arranged between the die cutting part (4) and the material receiving part (7) and is used for carrying out waste material stripping operation on the processed material;

the speed measuring and positioning component (3) is used for detecting whether the moving speed and the position of a material deviate or not, the speed measuring and positioning component (3) comprises a first detection component (31) arranged at the outlet position of the feeding component (2), a second detection component (32) arranged at the inlet position of the die cutting component (4) and a third detection component (33) arranged at the inlet position of the receiving component (7), the first detection component (31), the second detection component (32) and the third detection component (33) are movably arranged on the rack (1) and connected with the PLC control component (6) and used for feeding back detected speed information and position information to the PLC control component (6), and the first detection component (31) and the second detection component (32) are respectively used for detecting two sides of the material in the width direction;

the PLC control part (6) is also respectively connected with the feeding part (2), the die cutting part (4), the waste winding part (5) and the material receiving part (7) and is used for regulating and controlling the running speed;

the material receiving component (7) comprises a material receiving roller (71) and a cutting and collecting component (72), and the PLC control component (6) controls the material receiving roller (71) and the cutting and collecting component (72) to be selected and started.

2. The full automatic die cutting and sheet breaking machine according to claim 1, wherein: the feeding part (2) comprises a feeding roller (21), a smoothing roller group (22) used for smoothing materials and a feeding servo motor (23) used for driving the feeding roller (21) to rotate, the smoothing roller group (22) comprises a first smoothing roller close to the feeding roller (21), a second smoothing roller far away from the feeding roller (21), a third smoothing roller arranged between the first smoothing roller and the second smoothing roller and a driver used for driving the third smoothing roller to move, the first smoothing roller and the second smoothing roller are located on the same horizontal plane, the third smoothing roller is arranged at the position below the first smoothing roller and the second smoothing roller, and the driver is used for driving the third smoothing roller to move up and down;

the first detection part (31) is arranged above the smoothing roller group (22) and is used for detecting materials passing through the second smoothing roller.

3. The full automatic die cutting and sheet breaking machine according to claim 2, wherein: first detection part (31) including set up in first mounting bracket (311) of frame (1) width direction both sides, and set up first guide bar (312) and first threaded rod (313) between two first mounting brackets (311) and install first detector (314) on first guide bar (312) and first threaded rod (313), first guide bar (312) are provided with two tops and the below that are located first threaded rod (313) respectively, first guide bar (312) fixed mounting is on first mounting bracket (311), first threaded rod (313) are rotated and are installed on first mounting bracket (311), be provided with on first mounting bracket (311) and be used for controlling first threaded rod (313) pivoted first handle (315) that rotates.

4. The full automatic die cutting and sheet breaking machine according to claim 1, wherein: be provided with extension board (24) that supplies feeding roller (21) installation on frame (1), one side parallel arrangement that feed roller (21) was kept away from in extension board (24) has expansion board (25) that supply feeding servo motor (23) to install, leave shock attenuation space (26) between expansion board (25) and extension board (24), mechanism (27) of rectifying sets up between expansion board (25) and extension board (24), mechanism (27) of rectifying is connected with PCL control part, detects out that the material takes place to deviate from back PCL control part control mechanism (27) when location part (3) that tests the speed and rectifies the operation of rectifying.

5. The full automatic die cutting and sheet breaking machine according to claim 1, wherein: be provided with between feeding part (2) and the cross cutting part (4) and be used for cooperating bearing part (8) that second detection part (32) used, bearing part (8) are including setting up bearing roller (81) and the first plummer (82) that sets up in cross cutting part (4) import position department in feeding part (2) exit position department, the height dimension of first plummer (82) is the same with the height dimension of cross cutting part (4) import, second detection part (32) set up in first plummer (82) top for detect the operation to the material through first plummer (82).

6. The full automatic die cutting and sheet breaking machine according to claim 5, wherein: the second detection component (32) comprises a second mounting rack (321) arranged on the first bearing platform (82), a fixing device (322) connected to the second mounting rack (321) in a sliding manner, and a second detector (323) arranged on the fixing device (322), the fixing device (322) comprises a fixing plate (3221) connected to the second mounting rack (321) in a sliding manner, a second guide rod (3222) and a second threaded rod (3223) arranged along the height direction of the fixing plate (3221), the second guide rod (3222) is provided with two and is respectively positioned above and below the second threaded rod (3223), the second guide rod (3222) and the second threaded rod (3223) are both arranged in an extending manner along the length direction of the rack (1), the second detector (323) is respectively connected with a second threaded rod (3223) and a second guide rod (3222).

7. The full automatic die cutting and sheet breaking machine according to claim 1, wherein: a second bearing table (34) is arranged in front of the cutting and collecting component (72), a third detector (333) is arranged above the second bearing table (34), and the third detector (333) comprises a guide rail (331) arranged on the rack (1), an installation rod (332) arranged on the guide rail (331) in a sliding manner, and a third detector (333) arranged on the installation rod (332) in a sliding manner.

8. The full automatic die cutting and sheet breaking machine according to claim 1, wherein: the automatic cutting and winding machine is characterized by further comprising two clamping components (9), wherein the two clamping components (9) are respectively arranged between the die cutting component (4) and the waste material winding component (5) and between the waste material winding component (5) and the material receiving component (7), and each clamping component (9) comprises a first clamping roller (91) located below the material, a second clamping roller (92) located above the material and a driving piece (93) used for driving the second clamping roller (92) to move.

9. The full automatic die cutting and sheet breaking machine according to claim 8, wherein: the second clamping roller (92) is provided with a plurality of limiting rings, and the limiting rings are abutted and limited with the first clamping roller (91) when the driving piece (93) drives the second clamping roller (92) to move.

10. The full automatic die cutting and sheet breaking machine according to claim 1, wherein: the cutting and collecting component (72) comprises a cutting plate, a cutting rod (722), a cutting motor for driving the cutting rod (722) to move up and down and a collecting box (721) positioned below the cutting plate, a gap for materials to pass through is reserved between the cutting plate and the non-working cutting rod (722), and the cutting motor is arranged below the cutting rod (722).

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