CN112936983A - Automatic die cutting system - Google Patents

Abstract

The utility model relates to an automatic die cutting system, it includes cutting device and discharging device, discharging device includes base, conveying mechanism and position control mechanism, conveying mechanism is provided with two, two conveying mechanism install in cutting device discharge end, conveying mechanism includes conveying roller, first driving piece and conveyer belt, the conveying roller is provided with two and the two is parallel, the conveyer belt is around locating two the conveying roller periphery, first driving piece is used for the drive the conveying roller rotates, position control mechanism is used for adjusting two sets ofly conveying mechanism follows the axial distance of conveying roller. This application has the separation effect that improves packing carton and leftover bits to improve the effect of the collection efficiency of packing carton.

Description

Automatic die cutting system

Technical Field

The application relates to the field of packaging box production equipment, in particular to an automatic die cutting system.

Background

The plane unfolding structure of various paper boxes used in packaging is composed of contour cutting and crease lines. In the production and processing process of the folding carton, according to the product design requirements, arranging cutters at the product contour positions on a die-cutting plate, arranging steel wires at the required creasing line positions of the product, driving the die-cutting plate to move towards a bottom plate through a die press, carrying out contour cutting on a printed product after printing through the cutters to obtain a single graphic product, simultaneously rolling out traces or leaving groove traces for bending on the surface of the printed product by utilizing the steel wires, and finally pasting the single graphic product to complete the processing of the folding carton.

The Chinese patent with the application number of CN202010917798.1 discloses a high-efficiency flat pressing and flat die cutting machine, which comprises a machine table, wherein a pressure plate is arranged on the machine table, a placing plate is arranged on the machine table on one side of the pressure plate, a through hole is formed in the middle of the placing plate, the bottom of the placing plate is connected with a hydraulic device, the hydraulic device is partially arranged in the machine table, a first feeding roller is arranged on a security plate on one side of the pressure plate, a first receiving roller is arranged on the placing plate on the other side of the pressure plate, a second feeding roller is arranged on one side of the pressure plate, a second receiving roller is arranged on the second feeding roller relative to the pressure plate, a flat pressing cutting die is arranged above the pressure plate, and the top of the flat pressing cutting die is connected with a rotating motor. When carrying out two-way feed, carry out the feed to first material loading cylinder or second material loading cylinder through artifical or feedway, at the in-process of feed, first material loading cylinder staggers the time with second material loading cylinder and carries out the feed, when the material through first material loading cylinder and first material loading epaxial transmission to the pressure material bench, the concora crush mould carries out the cross cutting to the material under the drive of rotating electrical machines, after the cross cutting, receive the material through first material axle and first material receiving cylinder, second material loading cylinder and second material loading axle are with material transmission to the pressure material bench after that, the material is carried out the cross cutting by the concora crush mould, after the cross cutting, receive the material through second material receiving axle and second material receiving cylinder, constantly repeat above-mentioned operation, can incessantly carry out the cross cutting operation to the material.

To the correlation technique among the above-mentioned, when the inventor thinks the cross cutting back is received the material, packing carton and leftover bits get into simultaneously and receive the material position, need the later stage with leftover bits and packing carton separation, relatively poor to the collection efficiency of packing carton.

Disclosure of Invention

In order to improve the separation effect of packing carton and leftover bits to improve the collection efficiency of packing carton, this application provides an automatic die cutting system.

The application provides an automatic die cutting system adopts following technical scheme:

the utility model provides an automatic die cutting system, includes cutting device and discharging device, discharging device includes base, conveying mechanism and position control mechanism, conveying mechanism is provided with two, two conveying mechanism install in cutting device discharge end, conveying mechanism includes conveying roller, first driving piece and conveyer belt, the conveying roller is provided with two and the two is parallel, the conveyer belt is around locating two the conveying roller periphery, first driving piece is used for the drive the conveying roller rotates, position control mechanism is used for adjusting two sets ofly conveying mechanism follows the axial distance of conveying roller.

By adopting the technical scheme, the packaging box is cut through the die cutting device, then the packaging box and the leftover materials are simultaneously conveyed to the position of the conveying mechanism, and the conveying mechanism uses the conveying roller wound with the conveying belt, so that the contact area between the conveying mechanism and the leftover materials can be increased, and the stability in the transportation process is improved; conveying mechanism is provided with two, is provided with the position between two conveying mechanism of position control mechanism adjustment simultaneously for distance between two conveying mechanism is greater than the width of packing carton and is less than the width of leftover bits, thereby supports the leftover bits, and the packing carton after cutting device cutting drops from between two conveying mechanism, and the leftover bits are transported to other positions along with conveying mechanism, thereby realizes the separately collection of packing carton and leftover bits, improves collection efficiency.

Optionally, the position adjusting mechanism includes a support frame, a position adjusting screw, a guide rod and a first control assembly, the conveying mechanism is installed on the support frame, the position adjusting screw is axially parallel to the conveying roller, the position adjusting screw is connected with the base in a rotating mode, the position adjusting screw is connected with the first control assembly, the position adjusting screw is connected with the support frame in a perpendicular mode and in a threaded mode, the guide rod is installed on the base and is parallel to the position adjusting screw, and the guide rod is connected with the support frame in a sliding mode.

Through adopting above-mentioned technical scheme, position control mechanism uses first control assembly to drive position adjusting screw and rotates to drive the support frame and remove along guide bar axial direction, conveying mechanism installs on the support frame, and position adjusting screw and guide bar are parallel with the conveying roller axial simultaneously, thereby realize two conveying mechanism along the change of conveying roller axial distance, thereby adapt to the packing carton of different width.

Optionally, one side of the conveying mechanism, which is far away from the support frame, is provided with a limiting mechanism, the limiting mechanism and the conveying mechanism are arranged oppositely, a height adjusting mechanism is arranged between the limiting mechanism and the support frame, and the height adjusting mechanism is used for adjusting the distance between the limiting mechanism and the conveying mechanism.

Through adopting above-mentioned technical scheme, stop gear sets up with conveying mechanism relatively, stop gear passes through height adjusting mechanism and installs on the support frame simultaneously to realize along the change of support frame axial distance between stop gear and the conveying mechanism, the printed matter through cutting device passes between stop gear and the conveying mechanism, stop gear is spacing to it at the printed matter removal in-process, thereby improve the stability of printed matter on discharging device shift process, and then improve the separation effect between packing carton and the leftover bits.

Optionally, the height adjusting mechanism includes a moving block, a height adjusting screw and a second control assembly, the limiting mechanism is mounted on the moving block, the moving block is connected with the support frame in a sliding manner, the height adjusting screw is axially parallel to the support frame, the height adjusting screw is connected with the moving block in a threaded manner, and the second control assembly is used for controlling the height adjusting screw to rotate.

Through adopting above-mentioned technical scheme, height adjusting mechanism drives the rotation of height adjusting screw through second control assembly, drives movable block and support frame slip, and stop gear installs on the movable block to realize the change of distance between stop gear and the conveying mechanism.

Optionally, the discharging device further comprises a separating pressing plate, the separating pressing plate is mounted on the base and located between the two groups of conveying mechanisms and located on one side, far away from the base, of the conveying mechanism, the separating pressing plate is connected with a second driving mechanism, and the second driving mechanism is used for driving the separating pressing plate to reciprocate along the direction perpendicular to the upper surface of the conveying belt.

Through adopting above-mentioned technical scheme, packing carton and leftover bits do not have thorough separation under the cutting device cutting under the circumstances a bit, lead to the unable automatic whereabouts under the action of gravity of packing carton, influence the collection effect of packing carton, consequently set up the separation clamp plate to drive the separation clamp plate through second actuating mechanism and be reciprocating motion with conveyer belt upper surface direction of transportation vertically direction, through promoting the separation of packing carton with packing carton and leftover bits.

Optionally, a buffer plate is arranged on one side of the separation pressing plate close to the base, and a damping spring is arranged between the buffer plate and the separation pressing plate.

Through adopting above-mentioned technical scheme, the buffer board that the separation clamp plate passes through damping spring to be connected can slow down and divide the impact force that promotes the packing carton in-process to the packing carton to reduce the packing carton and take place damaged possibility with leftover bits disengaging process.

Optionally, a material collecting box is placed between the conveying mechanisms, a leveling plate is arranged in the material collecting box, the leveling plate is parallel to the supporting frame, and the leveling plate is connected with a fourth driving mechanism.

Through adopting above-mentioned technical scheme, the case that gathers materials is placed between conveying mechanism for collect the packing carton after the separation, place the flattening board parallel with the support frame in the case that gathers materials, fourth drive mechanism drive flattening board removes simultaneously, promotes the packing carton of piling up in the case that gathers materials, thereby makes the packing carton in the case that gathers materials neatly stack, strengthens the collection effect.

Optionally, a waste box is placed at one end, far away from the die cutting device, of the conveying mechanism, the supporting frame is connected with a material guide plate, and the material guide plate is close to one end, inclined and downward, of the waste box.

Through adopting above-mentioned technical scheme, the dump bin is placed in conveying mechanism's one end of keeping away from cutting device for to the collection of the leftover bits through conveyor transportation and with packing carton separation, the deflector that the slope set up simultaneously is favorable to leading to the leftover bits, improves the degree of accuracy that the leftover bits removed to the dump bin from conveying mechanism, improves the collection effect of dump bin to the leftover bits.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the printed matter is cut through the die cutting device to obtain a packaging box and leftover materials, the packaging box and the leftover materials are transported through the two conveying mechanisms, meanwhile, the position between the two conveying mechanisms is adjusted through the position adjusting mechanism to adapt to the printed matters with different sizes, the packaging box falls from a gap between the two conveying mechanisms, the leftover materials move to the other position under the action of the conveying mechanisms, and the packaging box and the leftover materials are separately collected;

2. the conveying mechanism is oppositely provided with a limiting mechanism, the printed matter passes through the limiting mechanism and the conveying mechanism, and the limiting mechanism is connected with a height adjusting assembly to realize distance adjustment between the limiting mechanism and the conveying mechanism, so that the stability of the leftover materials in the moving process is enhanced;

3. the setting of separation clamp plate and buffer board strengthens the separation effect of packing carton and leftover bits through promoting the packing carton.

Drawings

Fig. 1 is a schematic diagram of an overall structure of an automatic die-cutting system according to an embodiment of the present application.

Fig. 2 is a schematic diagram of an overall structure of a discharging device of an automatic die cutting system according to an embodiment of the present application.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

FIG. 4 is a cross-sectional view of an outfeed unit of an automatic die cutting system according to an embodiment of the present application.

Description of reference numerals: 1. a die cutting device; 11. a first drive mechanism; 12. die cutting the plate; 13. a base plate; 2. a discharging device; 21. a base; 22. a conveying mechanism; 221. a conveying roller; 222. a first driving member; 223. a conveyor belt; 23. a position adjustment mechanism; 231. a support frame; 232. a position adjusting screw; 233. a guide bar; 234. a first control assembly; 24. a limiting mechanism; 241. an upper compression roller; 242. uploading a conveyor belt; 243. a second driving member; 25. a height adjustment mechanism; 251. a moving block; 252. a height adjusting screw; 253. a second control assembly; 26. separating the pressing plate; 27. a third drive mechanism; 28. a buffer plate; 29. a damping spring; 3. a material collecting box; 4. a screed plate; 5. a fourth drive mechanism; 6. a waste bin; 7. a material guide plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an automatic die cutting system. Referring to fig. 1, the automatic die cutting system includes a die cutting device 1, and an outfeed device 2 installed at an outfeed side of the die cutting device 1.

Referring to fig. 1, the die cutting device 1 includes a driving assembly, a die cutting plate 12 and a bottom plate 13, the die cutting plate 12 is parallel to the bottom plate 13 and horizontally placed, cutters are arranged at product contour positions on the die cutting plate 12, steel wires are arranged at required creasing line positions of products, the bottom plate 13 is matched with the die cutting plate 12, rubber pads are correspondingly bonded at the steel wire arrangement positions, the driving assembly in the implementation adopts a hydraulic cylinder, a piston rod of the hydraulic cylinder and the die cutting plate 12 are driven to reciprocate towards the bottom plate 13, printed matters pass between the bottom plate 13 and the die cutting plate 12, and are cut through the die cutting plate 12.

Referring to fig. 1 and 2, the discharging device 2 includes a base 21, two conveying mechanisms 22, two position adjusting mechanisms 23, two limiting mechanisms 24 and two height adjusting mechanisms 25, and the two conveying mechanisms 22 are disposed at the discharging end of the die cutting device 1. The conveying mechanism 22 is mounted on the base 21 through a position adjusting assembly, and the limiting mechanism 24 is mounted on the base 21 through a height adjusting mechanism 25 and is located on one side of the conveying mechanism 22 away from the base 21.

Referring to fig. 2, the position adjusting mechanism 23 includes a supporting frame 231, a position adjusting screw 232, a guiding rod 233 and a first control assembly 234, the first control assembly 234 employs a servo motor, a housing of the first control assembly 234 is connected with the base 21 through a bolt, and an output shaft of the first control assembly 234 is coaxially connected with the position adjusting screw 232 through a flange. In this embodiment, the position adjusting screw 232 is a bidirectional screw, and the position adjusting screw 232 is rotatably connected to the base 21. The guide bar 233 is parallel to the position adjusting screw 232 and welded to the base 21. The supporting frames 231 are perpendicular to and in threaded connection with the position adjusting screw 232, the supporting frames 231 are in sliding connection with the guide rod 233, in the embodiment, one position adjusting screw 232 is in threaded connection with two supporting frames 231, and the two supporting frames 231 are in threaded connection with the position adjusting screw, and the position threads are opposite. In this embodiment, two position adjusting screws 232 and two guide rods 233 are provided.

Referring to fig. 2 and 3, the conveying mechanism 22 and the limiting mechanism 24 are both mounted on the support frame 231. Conveying mechanism 22 includes conveying roller 221, first driving piece 222 and conveyer belt 223, conveying roller 221 is provided with two, two conveying rollers 221 are parallel and parallel with position adjusting screw 232, conveying roller 221 is perpendicular and rotate with support frame 231 and is connected, conveyer belt 223 is around locating two conveying roller 221 peripheries, first driving piece 222 uses the motor and is provided with one, first driving piece 222 casing passes through bolt and support frame 231 fixed connection, first driving piece 222 output shaft passes support frame 231 and a conveying roller 221 coaxial coupling perpendicularly.

Referring to fig. 2 and 3, the height adjusting mechanism 25 includes a moving block 251, a height adjusting screw 252 and a second control assembly 253, the limiting mechanism 24 is installed on the moving block 251, a through groove is formed in the support frame 231, the moving block 251 and the support frame 231 are slidably connected through the through groove, the height adjusting screw 252 is placed in the through groove, the height adjusting screw 252 is axially parallel to the support frame 231, the height adjusting screw 252 is rotatably connected to the support frame 231, the height adjusting screw 252 is in threaded connection with the moving block 251, one end of the height adjusting screw 252, which is far away from the conveying mechanism 22, penetrates through the support frame 231 and is connected with the second control assembly 253, the second control assembly 253 adopts a servo motor, a housing of the second control assembly 253 is fixedly connected to the support frame 231 through a bolt, and an output.

Referring to fig. 3, the limiting mechanism 24 includes two upper pressing rollers 241, two upper conveying belts 242, and two second driving members 243, where the two upper pressing rollers 241 are parallel to the conveying roller 221 and rotatably connected to the moving block 251, the second driving member 243 is a motor, and the rotation directions of the second driving members 243 and the first driving member 222 are the same. The second driving member 243 is fixedly connected to the moving block 251 through a bolt, and the output shaft of the second driving member 243 passes through the moving block 251 and is coaxially connected to the upper pressing roller 241. The upper conveyor belt 242 is wound between the two upper press rollers 241, and a lower belt surface of the upper conveyor belt 242 is disposed opposite to an upper belt surface of the conveyor belt 223.

Referring to fig. 4, in order to enhance the separation effect between the packaging box and the leftover material, the discharging device 2 further includes a separation pressing plate 26, the separation pressing plate 26 is installed on the base 21 and located between the two sets of conveying mechanisms 22 and located on one side of the conveying mechanisms 22 away from the base 21, in this embodiment, the separation pressing plate 26 is parallel to the upper surface of the conveying belt 223, the separation pressing plate 26 is connected with a second driving mechanism, the second driving mechanism adopts a driving cylinder, a casing of the second driving mechanism is fixedly connected with the base 21 through a bolt, and an output shaft of the second driving mechanism is perpendicular to the separation pressing plate 26 and is fixedly connected with the separation pressing plate through. A buffer plate 28 is arranged on one side, close to the base 21, of the separation pressing plate 26, the buffer plate 28 is parallel to the separation pressing plate 26, a damping spring 29 is arranged between the buffer plate 28 and the separation pressing plate 26, one end of the damping spring 29 is welded with the buffer plate 28, the other end of the damping spring 29 is welded with the separation pressing plate 26, and the expansion direction of the damping spring 29 is perpendicular to the buffer plate 28. .

Referring to fig. 4, material collecting box 3 has been placed between conveying mechanism 22, be provided with screed 4 in the material collecting box 3, screed 4 is parallel with support frame 231, screed 4 is connected with fourth actuating mechanism 5, fourth actuating mechanism 5 adopts the cylinder and places in material collecting box 3 outside in this embodiment, fourth actuating mechanism 5 casing passes through bolt fixed connection with material collecting box 3, fourth actuating mechanism 5 output shaft passes material collecting box 3 lateral wall and screed 4 and passes through flange fixed connection. Waste bin 6 has been placed to conveying mechanism 22 one end of keeping away from cutting device 1, and support frame 231 welds has stock guide 7, and stock guide 7 is close to the slope of waste bin 6 one end and sets up downwards, and stock guide 7 is less than the one end that stock guide 7 and support frame 231 are connected near the one end of waste bin 6, and support frame 231 is provided with two.

The implementation principle of the automatic die cutting system in the embodiment of the application is as follows: when in use, according to the shape specification of the package box to be cut, the distance between the two supporting frames 231 and the distance between the limiting mechanism 24 and the conveying mechanism 22 are adjusted by using the corresponding die cutting plate 12 and the bottom plate 13. Placing the printed matter at the position of the die cutting device 1, and controlling the first driving mechanism 11 to drive the die cutting plate 12 to move towards the bottom plate 13, so as to cut the printed matter; the cut printed matter moves to the position of the discharging device 2, and the printed matter moves along with the conveying belt 223 and the upper conveying belt 242 through the combined action of the limiting mechanism 24 and the conveying mechanism 22. In the moving process, the conveyer belt 223 and the upper conveyer belt 242 clamp the edge position of the printed matter, at this time, the printed matter is subjected to die cutting to form a packaging box and leftover materials, the part clamped by the conveyer belt 223 and the upper conveyer belt 242 is the leftover materials, the packaging box falls into the material collecting box 3 under the action of gravity, and the leveling plate 4 is pushed by the fourth driving mechanism 5 to push the packaging box in the material collecting box 3, so that the packaging box is neatly stacked in the material collecting box 3; when the package box is adhered to the leftover materials, the third driving mechanism 27 pushes the leveling plate 4 and the buffer plate 28 to move towards the package box, so that the package box is pushed to be separated from the leftover materials; the leftover materials move along with the conveying mechanism 22 and move to the waste bin 6 through the material guide plate 7 to be collected, and the respective collection of the packing boxes and the leftover materials is completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An automatic die cutting system characterized by: including cutting device (1) and discharging device (2), discharging device (2) include base (21), conveying mechanism (22) and position control mechanism (23), conveying mechanism (22) are provided with two, two conveying mechanism (22) install in cutting device (1) discharge end, conveying mechanism (22) include conveying roller (221), first driving piece (222) and conveyer belt (223), conveying roller (221) are provided with two and the two is parallel, conveyer belt (223) are around locating two conveying roller (221) periphery, first driving piece (222) are used for the drive conveying roller (221) rotate, position control mechanism (23) are used for adjusting two sets ofly conveying mechanism (22) are followed conveying roller (221) axial distance.

2. The automatic die cutting system of claim 1, wherein: position adjustment mechanism (23) include support frame (231), position control screw (232), guide bar (233) and first control assembly (234), conveying mechanism (22) install in on support frame (231), position control screw (232) with conveying roller (221) axial direction is parallel, position control screw (232) with base (21) rotate to be connected, position control screw (232) with first control assembly (234) are connected, position control screw (232) with support frame (231) are perpendicular and threaded connection, guide bar (233) install in on base (21) and with position control screw (232) are parallel, guide bar (233) with support frame (231) sliding connection.

3. The automated die cutting system of claim 2, wherein: one side of the support frame (231) far away from the conveying mechanism (22) is provided with a limiting mechanism (24), the limiting mechanism (24) and the conveying mechanism (22) are arranged oppositely, a height adjusting mechanism (25) is arranged between the limiting mechanism (24) and the support frame (231), and the height adjusting mechanism (25) is used for adjusting the distance between the limiting mechanism (24) and the conveying mechanism (22).

4. The automatic die cutting system of claim 3, wherein: the height adjusting mechanism (25) comprises a moving block (251), a height adjusting screw rod (252) and a second control assembly (253), the limiting mechanism (24) is installed on the moving block (251), the moving block (251) is connected with the supporting frame (231) in a sliding mode, the height adjusting screw rod (252) is axially parallel to the supporting frame (231), the height adjusting screw rod (252) is connected with the moving block (251) in a threaded mode, and the second control assembly (253) is used for controlling the height adjusting screw rod (252) to rotate.

5. The automatic die cutting system of claim 1, wherein: discharging device (2) still include separation clamp plate (26), separation clamp plate (26) install in just be located two sets of on base (21) between conveying mechanism (22) and be located one side that conveying mechanism (22) kept away from base (21), separation clamp plate (26) are connected with second actuating mechanism, second actuating mechanism be used for the drive separation clamp plate (26) along with conveyer belt (223) upper surface vertical direction reciprocating motion.

6. The automatic die cutting system of claim 5, wherein: a buffer plate (28) is arranged on one side, close to the base (21), of the separation pressing plate (26), and a damping spring (29) is arranged between the buffer plate (28) and the separation pressing plate (26).

7. The automated die cutting system of claim 2, wherein: material collecting box (3) is placed between conveying mechanism (22), be provided with screed (4) in material collecting box (3), screed (4) with support frame (231) are parallel, screed (4) are connected with fourth actuating mechanism (5).

8. The automated die cutting system of claim 2, wherein: the waste bin (6) is placed at one end, far away from the die cutting device (1), of the conveying mechanism (22), the supporting frame (231) is connected with the material guide plate (7), and the material guide plate (7) is close to one end of the waste bin (6) and is arranged obliquely downwards.

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