CN113211861A - Packaging corrugated carton manufacturing integrated die cutting machine - Google Patents

Abstract

The invention relates to the field of corrugated paper processing equipment, in particular to an integrated die cutting machine for manufacturing a packaging corrugated case. Comprises the following steps of; a frame; the feeding device is arranged on the rack and fixedly connected with the rack; the die cutting device is arranged beside the feeding device and fixedly connected with the rack, and the input end of the die cutting device is opposite to the output end of the feeding device; the waste collecting box is arranged right below the die cutting device; the guide device is arranged at the action end of the die cutting device and is fixedly connected with the rack; the demolding device is arranged below the die cutting device and fixedly connected with the die cutting device, and the action end of the demolding device penetrates through the bottom of the die cutting device and extends upwards; and the blanking device is arranged beside the output end of the die cutting device and fixedly connected with the rack, and the output end of the blanking device is opposite to the input end of the blanking device. The invention effectively improves the production efficiency and simultaneously ensures the personnel safety.

Description

Packaging corrugated carton manufacturing integrated die cutting machine

Technical Field

The invention relates to the field of corrugated paper processing equipment, in particular to an integrated die cutting machine for manufacturing a packaging corrugated case.

Background

Corrugated paper is a common material for paper packing cases, is lighter than a wood case, has hardness, is easy to cut in size, protects other packaged products from being damaged, is a packaging product with the widest application, and is always the first to use for various packaging products; the corrugated paper board is made into a corrugated paper box through die cutting, indentation, box nailing or box gluing. At present, when corrugated paper is processed in the process of processing corrugated paper boxes, a die cutting machine and an indentation machine are respectively used for carrying out operations on corrugated paper die cutting and indentation, and die cutting is carried out before or after the die cutting, so that the processing efficiency of the corrugated paper is very low; when the corrugated paper is processed, the corrugated paper needs to be manually placed on a mould bed, the mould bed is just positioned below a mould cutting rule, and the corrugated paper which is subjected to mould cutting or has good indentation is manually taken down from the mould bed, so that workers are in danger and labor force of the workers is increased, and the problem is solved by the integral mould cutting machine for manufacturing the corrugated paper box.

Disclosure of Invention

In order to solve the technical problem, the integrated die cutting machine for manufacturing the corrugated case for packaging is provided, the technical scheme effectively improves the production efficiency and simultaneously ensures the personnel safety.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

an integrated die cutting machine for manufacturing a packaging corrugated case comprises a die cutting machine body;

a frame;

the feeding device is arranged on the rack and fixedly connected with the rack;

the die cutting device is arranged beside the feeding device and fixedly connected with the rack, and the input end of the die cutting device is opposite to the output end of the feeding device;

the waste collecting box is arranged right below the die cutting device;

the guide device is arranged at the action end of the die cutting device and is fixedly connected with the rack;

the demolding device is arranged below the die cutting device and fixedly connected with the die cutting device, and the action end of the demolding device penetrates through the bottom of the die cutting device and extends upwards;

and the blanking device is arranged beside the output end of the die cutting device and fixedly connected with the rack, and the output end of the blanking device is opposite to the input end of the blanking device.

Preferably, the feeding device comprises;

the placing box is arranged on the rack and fixedly connected with the rack, and a discharge hole is formed in the side part of the placing box;

the mounting rail is horizontally arranged at the bottom of the placing box and is fixedly connected with the placing box;

the driving wheels are symmetrically arranged on the mounting rail and are rotationally connected with the mounting rail;

the conveying belt is sleeved on the upper outer side of the driving wheel, and the outer side of the conveying belt is not full of the anti-slip strips;

the first rotary driver is arranged on the outer side of the mounting rail and fixedly connected with the mounting rail, and the output end of the first rotary driver is fixedly connected with the driving wheel.

Preferably, the die cutting device comprises;

the lower die is horizontally arranged on the rack and fixedly connected with the rack;

the guide posts are symmetrically arranged on the rack and are vertically arranged, and the guide posts are fixedly connected with the rack;

the first mounting plate is horizontally arranged at one end of the guide post, which is far away from the rack, and is fixedly connected with the guide post;

the pressing die is sleeved right above the lower die and is in sliding connection with the guide post, and the working end of the pressing die is vertically arranged downwards;

the cutting die is sleeved right above the pressing die and is in sliding connection with the guide post, and the working end of the cutting die vertically penetrates through the pressing die downwards to be in sliding connection;

the first limiting column is provided with a plurality of symmetrical pressing dies and is vertically arranged, one end of the first limiting column is fixedly connected with the pressing dies, and one end of the first limiting column, far away from the pressing dies, penetrates through the cutting dies and is in sliding connection;

the first spring is provided with a plurality of symmetrical sleeves which are sleeved on the first limiting column, one end of the first spring is abutted against the cutting die, and one end of the first spring, which is far away from the cutting die, is abutted against the abutting die;

the first linear driver is arranged on the first mounting plate and fixedly connected with the first mounting plate, and the output end of the first linear driver penetrates through the first mounting plate and is fixedly connected with the cutting die.

Preferably, the lower die comprises;

the first template is horizontally arranged on the rack and fixedly connected with the rack;

the abutting groove is arranged at the upper end of the first template;

the first cutting openings are provided with a plurality of symmetrical cutting openings which are distributed on two sides of the first template;

the demoulding port is provided with a plurality of symmetrical demoulding ports arranged on the first template.

Preferably, the pressing die comprises;

the second template is horizontally arranged right above the lower die and is in sliding connection with the guide column;

the pressing convex block is arranged on the second template and fixedly connected with the second template, and the pressing convex block is matched with the pressing groove;

the second cutting opening is provided with a plurality of first cutting openings matched with the positions of the first cutting openings of the second cutting opening.

Preferably, the cutting die comprises;

the third template is horizontally arranged right above the second template and is in sliding connection with the guide column;

the first cutting knife is provided with a plurality of cutting edges which are symmetrically distributed on the third template, the first cutting knife is vertically arranged, one end of the first cutting knife is fixedly connected with the third template, and one end of the first cutting knife, which is far away from the third template, penetrates through the second cutting opening;

the second cutting knife is arranged on the side of the third template, the second cutting knife is vertically arranged, and the second cutting knife is fixedly connected with the third template.

Preferably, the guide means comprises;

the guide rail is horizontally arranged at the working end of the die cutting device and is fixedly connected with the rack;

the material blocking device is arranged below the rack and fixedly connected with the rack, and the working end of the material blocking device is vertically and upwards arranged.

Preferably, the material blocking device comprises;

the first mounting frame is arranged below the die cutting device and fixedly connected with the rack;

the second linear driver is arranged on the first mounting frame and is fixedly connected with the rack;

the striker plate is horizontally arranged at the output end of the second linear driver and is fixedly connected with the output end of the second linear driver.

Preferably, the demolding device comprises;

the second mounting frame is arranged right below the first template and fixedly connected with the first template;

the third linear driver is arranged on the second mounting frame and fixedly connected with the second mounting frame, and the output end of the third linear driver penetrates through the second mounting frame and extends upwards;

the pushing frame is horizontally arranged at the output end of the third linear driver and is fixedly connected with the third linear driver;

the ejection column is provided with a plurality of symmetrical pushing frames, one end of the ejection column is fixedly connected with the pushing frames, and the end, far away from the pushing frames, of the ejection column penetrates through the demolding opening and extends upwards.

Preferably, the blanking device comprises;

the third mounting rack is arranged on the rack and fixedly connected with the rack;

the fourth mounting frame is provided with a plurality of symmetrical mounting frames;

the second limiting columns are provided with a plurality of limiting columns which are uniformly distributed on the fourth mounting frame, one end of each second limiting column is fixedly connected with the fourth mounting frame, and one end, far away from the fourth mounting frame, of each second limiting column penetrates through the third mounting frame to be in sliding connection;

the second spring is provided with a plurality of second limiting columns which are uniformly sleeved on the second limiting columns, one end of the second spring is abutted with the fourth mounting frame, and one end of the second spring, which is far away from the fourth mounting frame, is abutted with the third mounting frame;

the conveying wheels are uniformly distributed on the fourth mounting frame and are rotatably connected with the fourth mounting frame;

the second rotary driver is provided with a plurality of evenly distributed parts on the fourth mounting frame, the second rotary driver is fixedly connected with the fourth mounting frame, and the output end of the second rotary driver is fixedly connected with the conveying wheel.

Compared with the prior art, the invention has the beneficial effects that:

the invention effectively improves the production efficiency and simultaneously ensures the personnel safety. The method comprises the following specific steps; the staff places the corrugated paper stack on loading attachment. The feeding device is matched with the guide device to convey the corrugated paper to the working end of the die cutting device. The die cutting device firstly carries out mark down to the corrugated paper of work end, carries out the punching press cutting to the unnecessary position of corrugated paper, and the waste material that cuts down falls into in the garbage collection box. After cutting, the working end of the die cutting device returns to the original position, and the working end of the demoulding device pushes upwards to separate the cut corrugated carton from the die cutting device. The loading attachment continues to carry the corrugated paper to cutting device's work end, and corrugated paper one end is contradicted with the corrugated box that cuts, promotes the corrugated box that cuts and removes, and guiding device's work end is removed and is put the restriction to the corrugated box, and the corrugated box that cuts is carried to unloader's input. The blanking device quickly conveys the cut corrugated case out to a region to be processed, and the working end of the guide device returns to the original position.

Drawings

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

FIG. 2 is a side view of the present invention;

FIG. 3 is a perspective view of the loading device of the present invention;

FIG. 4 is a perspective view of the die cutting device of the present invention;

FIG. 5 is a perspective view of the lower die of the present invention;

FIG. 6 is a perspective view of the pressing die of the present invention;

FIG. 7 is a perspective view of the cutting die of the present invention;

FIG. 8 is a perspective view of the demolding device of the present invention;

FIG. 9 is a perspective view of the guide device of the present invention;

FIG. 10 is a front view of the blanking device of the present invention;

fig. 11 is a perspective view of corrugated paper of the present invention.

The reference numbers in the figures are:

a01-corrugated paper; 1-a frame; 2-a feeding device; 2 a-a placing box; 2 b-mounting rails; 2 c-a transmission wheel; 2 d-a conveyor belt; 2 e-a first rotary drive; 3-a die cutting device; 3 a-a lower die; 3a1 — first template; 3a 2-pressing the groove; 3a3 — first cut opening; 3a 4-die release; 3 b-a guide post; 3 c-a first mounting plate; 3 d-pressing die; 3d1 — second template; 3d 2-pressing against the bump; 3d3 — second cut opening; 3 e-cutting the die; 3e1 — third template; 3e 2-first cutter; 3e 3-second cutter; 3 f-a first limit post; 3 g-a first spring; 3h — first linear driver; 4-a waste collection box; 5-a guiding device; 5 a-guide rail; 5b1 — first mount; 5b2 — second linear drive; 5b 3-striker plate; 6-a demoulding device; 6 a-a second mounting frame; 6 b-a third linear drive; 6 c-a pushing frame; 6 d-top column; 7-a blanking device; 7 a-a third mounting frame; 7 b-a fourth mounting frame; 7 c-a second limit post; 7 d-a second spring; 7 e-a delivery wheel; 7 f-second rotary drive.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 and 2, an integrated die-cutting machine for manufacturing a packaging corrugated case comprises;

a frame 1;

the feeding device 2 is arranged on the rack 1, and the feeding device 2 is fixedly connected with the rack 1;

the die cutting device 3 is arranged beside the feeding device 2, the die cutting device 3 is fixedly connected with the rack 1, and the input end of the die cutting device 3 is opposite to the output end of the feeding device 2;

the waste collecting box 4 is arranged right below the die cutting device 3;

the guide device 5 is arranged at the action end of the die cutting device 3, and the guide device 5 is fixedly connected with the rack 1;

the demolding device 6 is arranged below the die cutting device 3, the demolding device 6 is fixedly connected with the die cutting device 3, and the action end of the demolding device 6 penetrates through the bottom of the die cutting device 3 and extends upwards;

and the blanking device 7 is arranged at the side of the output end of the die cutting device 3, the blanking device 7 is fixedly connected with the rack 1, and the output end of the blanking device 7 is opposite to the input end of the blanking device 7.

The staff places the stack of corrugated paper on the loading attachment 2. The feeding device 2 is matched with the guide device for 5 times to convey the corrugated paper to the working end of the die cutting device 3. The die cutting device 3 firstly carries out mark down to the corrugated paper of work end, carries out the punching press cutting to the unnecessary position of corrugated paper, and the waste material that cuts down falls into in the garbage collection box 4. After cutting, the working end of the die cutting device 3 returns to the original position, and the working end of the demoulding device 6 pushes upwards to separate the cut corrugated carton from the die cutting device 3. The corrugated paper is continuously conveyed to the working end of the die cutting device 3 by the feeding device 2, one end of the corrugated paper is abutted to the cut corrugated case, the cut corrugated case is pushed to move, the working end of the guide device 5 relieves the position limitation on the corrugated case, and the cut corrugated case is conveyed to the input end of the blanking device 7. The material device 7 quickly conveys the cut corrugated case out to the area to be processed, and the working end of the guide device 5 returns to the original position. The invention effectively improves the production efficiency and simultaneously ensures the personnel safety.

Referring to fig. 3, the loading device 2 includes;

the placing box 2a is arranged on the rack 1, the placing box 2a is fixedly connected with the rack 1, and a discharge hole is formed in the side part of the placing box 2 a;

the mounting rail 2b is horizontally arranged at the bottom of the placing box 2a, and the mounting rail 2b is fixedly connected with the placing box 2 a;

the transmission wheels 2c are symmetrically arranged on the mounting rail 2b, and the transmission wheels 2c are rotatably connected with the mounting rail 2 b;

and the conveying belt 2d is sleeved on the upper outer side of the driving wheel 2c, and the outer side of the conveying belt 2d is not full of the anti-slip strips.

And the first rotary driver 2e is arranged on the outer side of the mounting rail 2b, the first rotary driver 2e is fixedly connected with the mounting rail 2b, and the output end of the first rotary driver 2e is fixedly connected with the transmission wheel 2 c.

The staff places the corrugated paper stack in proper order inside placing case 2a, and the corrugated paper of placing case 2a bottom is contradicted with conveyer belt 2d, and servo motor drives drive wheel 2c and rotates, and drive wheel 2c drives conveyer belt 2d and rotates, and conveyer belt 2d drives the corrugated paper of placing case 2a bottom and carries to cutting device 3's work end from the discharge gate of placing case 2 a.

Referring to fig. 4, the die cutting device 3 includes;

the lower die 3a is horizontally arranged on the rack 1, and the lower die 3a is fixedly connected with the rack 1;

the guide posts 3b are symmetrically arranged on the rack 1, the guide posts 3b are vertically arranged, and the guide posts 3b are fixedly connected with the rack 1;

the first mounting plate 3c is horizontally arranged at one end of the guide post 3b far away from the rack 1, and the first mounting plate 3c is fixedly connected with the guide post 3 b;

the pressing die 3d is sleeved right above the lower die 3a, the pressing die 3d is connected with the guide post 3b in a sliding mode, and the working end of the pressing die 3d is vertically arranged downwards;

the cutting die 3e is sleeved right above the pressing die 3d, the cutting die 3e is connected with the guide column 3b in a sliding mode, and the working end of the cutting die 3e vertically penetrates through the pressing die 3d downwards to be connected in a sliding mode;

the first limiting columns 3f are provided with a plurality of symmetrical limiting columns arranged on the pressing die 3d, the first limiting columns 3f are vertically arranged, one ends of the first limiting columns 3f are fixedly connected with the pressing die 3d, and one ends of the first limiting columns 3f far away from the pressing die 3d penetrate through the cutting die 3e to be connected in a sliding mode;

the first spring 3g is provided with a plurality of symmetrical sleeves which are sleeved on the first limiting column 3f, one end of the first spring 3g is abutted against the cutting die 3e, and one end of the first spring 3g, which is far away from the cutting die 3e, is abutted against the abutting die 3 d;

first linear actuator 3h sets up on first mounting panel 3c, first linear actuator 3h and first mounting panel 3c fixed connection, and first mounting panel 3c and cutting die 3e fixed connection are passed to first linear actuator 3 h's output.

The corrugated paper is conveyed to the lower die 3a by the aid of the feeding device 2 matched with the guide device for 5 times, the first linear driver 3h is a hydraulic pusher, the hydraulic pusher pushes the cutting die 3e to descend, the cutting die 3e descends and pushes the pressing die 3d to descend together through the matching of the first limiting column 3f and the first spring 3g, the working end of the pressing die 3d is abutted to the corrugated paper on the lower die 3a, the working end of the pressing die 3d is used for extruding and fixing the corrugated paper, the hydraulic pusher continues to push the cutting die 3e to descend, and the working end of the cutting die 3e penetrates through the pressing die 3d and the lower die 3a to accurately cut the corrugated paper on the lower die 3 a.

Referring to fig. 5, the lower mold 3a includes;

the first template 3a1 is horizontally arranged on the frame 1, and the first template 3a1 is fixedly connected with the frame 1;

a pressing groove 3a2 arranged at the upper end of the first template 3a 1;

the first cutting openings 3a3 are provided with a plurality of symmetrical distribution on two sides of the first template 3a 1;

the demolding holes 3a4 are symmetrically arranged on the first template 3a 1.

Referring to fig. 6, the pressing die 3d includes;

the second template 3d1 is horizontally arranged right above the lower die 3a, and the second template 3d1 is connected with the guide post 3b in a sliding way;

the abutting convex block 3d2 is arranged on the second template 3d1, the abutting convex block 3d2 is fixedly connected with the second template 3d1, and the abutting convex block 3d2 is matched with the abutting groove 3a 2;

the second cutting openings 3d3 are provided with a plurality of first cutting positions corresponding to the second cutting openings 3d 3.

Referring to fig. 7, the cutting die 3e includes;

the third template 3e1 is horizontally arranged right above the second template 3d1, and the third template 3e1 is connected with the guide post 3b in a sliding way;

the first cutting knife 3e2 is provided with a plurality of cutting knives symmetrically distributed on the third template 3e1, the first cutting knife 3e2 is vertically arranged, one end of each first cutting knife 3e2 is fixedly connected with the third template 3e1, and one end, far away from the third template 3e1, of each first cutting knife 3e2 penetrates through the second cutting opening;

the second cutting knife 3e3 is arranged at the side part of the third template 3e1, the second cutting knife 3e3 is vertically arranged, and the second cutting knife 3e3 is fixedly connected with the third template 3e 1.

The feeding device 2 is matched with the guide device for 5 times to convey the corrugated paper to the first template 3a1, the hydraulic pusher pushes the third template 3e1 to descend, the third template 3e1 simultaneously pushes the second template 3d1 to descend together through the matching of the first limiting column 3f and the first spring 3g, the abutting convex block 3d2 on the second template 3d1 abuts against the corrugated paper on the first template 3a1, the abutting convex block 3d2 is matched with the abutting groove 3a2 to indent the corrugated paper and simultaneously fix and move the corrugated paper, the hydraulic pusher continuously pushes the third template 3e1 to descend, the third template 3e1 descends while driving the first cutting knife 3e2 to descend, the first cutting knife 3e2 sequentially penetrates through the second cutting opening 3d3 and the first cutting opening 3a3 to cut the corrugated paper at the opening, the second cutting knife 3e3 uniformly cuts the edges of the fixed corrugated paper, and the cut waste material falls into the waste material collecting box 4.

Referring to fig. 9, the guide device 5 includes;

the guide rail 5a is horizontally arranged at the working end of the die cutting device 3, and the guide rail 5a is fixedly connected with the rack 1;

the material blocking device is arranged below the rack 1 and fixedly connected with the rack 1, and the working end of the material blocking device is vertically and upwards arranged.

The guide rail 5a is used for being matched with the loading device 2 to guide the corrugated paper to move to the working end of the die cutting device 3, and the stop device is used for stopping the moving position of the corrugated paper.

Referring to fig. 9, the material blocking device comprises;

the first mounting rack 5b1 is arranged below the die cutting device 3, and the first mounting rack 5b1 is fixedly connected with the rack 1;

the second linear driver 5b2 is arranged on the first mounting frame 5b1, and the second linear driver 5b2 is fixedly connected with the frame 1;

the striker plate 5b3 is horizontally arranged at the output end of the second linear driver 5b2, and the striker plate 5b3 is fixedly connected with the output end of the second linear driver 5b 2.

The second linear driver 5b2 is an electric push rod, and the electric push rod pushes the striker plate 5b3 to move up and down.

Referring to fig. 8, the ejector 6 includes;

the second mounting rack 6a is arranged right below the first template 3a1, and the second mounting rack 6a is fixedly connected with the first template 3a 1;

the third linear driver 6b is arranged on the second mounting frame 6a, the third linear driver 6b is fixedly connected with the second mounting frame 6a, and the output end of the third linear driver 6b penetrates through the second mounting frame 6a and extends upwards;

the pushing frame 6c is horizontally arranged at the output end of the third linear driver 6b, and the pushing frame 6c is fixedly connected with the third linear driver 6 b;

the ejection column 6d is provided with a plurality of symmetrical pushing frames 6c, one end of the ejection column 6d is fixedly connected with the pushing frames 6c, and one end of the ejection column 6d, which is far away from the pushing frames 6c, penetrates through the demoulding port 3a4 and extends upwards.

After the corrugated paper is cut, the third linear driver 6b is an electric push rod, the electric push rod pushes the pushing frame 6c to move upwards, the pushing frame 6c pushes the top column 6d to penetrate through the demolding opening 3a4 of the first template 3a1, and the top column 6d pushes the corrugated paper on the first template 3a1 by the corrugated paper so that the corrugated paper is separated from the first template 3a 1.

Referring to fig. 10, the blanking device 7 includes;

the third mounting rack 7a is arranged on the rack 1, and the third mounting rack 7a is fixedly connected with the rack 1;

the fourth mounting rack 7b is provided with a plurality of symmetrical mounting racks 7 b;

the second limiting columns 7c are provided with a plurality of limiting columns which are uniformly distributed on the fourth mounting rack 7b, one end of each second limiting column 7c is fixedly connected with the fourth mounting rack 7b, and one end, far away from the fourth mounting rack 7b, of each second limiting column 7c penetrates through the third mounting rack 7a to be in sliding connection;

the second spring 7d is provided with a plurality of second limiting columns 7c which are uniformly sleeved with the second limiting columns, one end of the second spring 7d is abutted against the fourth mounting rack 7b, and one end, far away from the fourth mounting rack 7b, of the second spring 7d is abutted against the third mounting rack 7 a;

the conveying wheels 7e are uniformly distributed on the fourth mounting rack 7b, and the conveying wheels 7e are rotatably connected with the fourth mounting rack 7 b;

the second rotary driver 7f is provided with a plurality of evenly distributed parts on the fourth mounting rack 7b, the second rotary driver 7f is fixedly connected with the fourth mounting rack 7b, and the output end of the second rotary driver 7f is fixedly connected with the conveying wheel 7 e.

The feeding device 2 continues to convey corrugated paper to the working end of the die cutting device 3, one end of the corrugated paper is abutted to the cut corrugated paper box, the cut corrugated paper box is pushed to move, the working end of the guide device 5 relieves the position limitation on the corrugated paper box, the cut corrugated paper box is conveyed to a position between two conveying wheels 7e, the conveying wheels 7e enable the conveying wheels 7e to be mutually extruded through the conveying wheels 7e and the second springs 7d in a matched mode, the second rotary driver 7f is a servo motor, the servo motor drives the conveying wheels 7e to rotate, and the conveying wheels 7e drive the corrugated paper to be quickly conveyed to a region to be processed.

The equipment realizes the functions of the invention through the following steps, thereby solving the technical problem provided by the invention;

step one, a worker places the corrugated paper stack on the feeding device 2.

And step two, the feeding device 2 is matched with the guide device for 5 times to convey the corrugated paper to the working end of the die cutting device 3.

And step three, the die cutting device 3 firstly carries out mark dropping on the corrugated paper at the working end, the redundant position of the corrugated paper is punched and cut, and the cut waste material falls into the waste material collecting box 4.

And step four, after the cutting is finished, the working end of the die cutting device 3 returns to the original position, and the working end of the demoulding device 6 pushes upwards to separate the cut corrugated carton from the die cutting device 3.

And step five, the feeding device 2 continues to convey the corrugated paper to the working end of the die cutting device 3, one end of the corrugated paper is abutted against the cut corrugated paper box to push the cut corrugated paper box to move, the working end of the guide device 5 releases the position limitation on the corrugated paper box, and the cut corrugated paper box is conveyed to the input end of the discharging device 7.

And step six, the cut corrugated case is quickly conveyed out to a region to be processed by the blanking device 7, and the working end of the guide device 5 returns to the original position.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An integrated die cutting machine for manufacturing a packaging corrugated case is characterized by comprising a die cutting machine; a frame (1); the feeding device (2) is arranged on the rack (1), and the feeding device (2) is fixedly connected with the rack (1); the die cutting device (3) is arranged beside the feeding device (2), the die cutting device (3) is fixedly connected with the rack (1), and the input end of the die cutting device (3) is opposite to the output end of the feeding device (2); the waste collecting box (4) is arranged right below the die cutting device (3); the guiding device (5) is arranged at the action end of the die cutting device (3), and the guiding device (5) is fixedly connected with the rack (1); the demolding device (6) is arranged below the die cutting device (3), the demolding device (6) is fixedly connected with the die cutting device (3), and the action end of the demolding device (6) penetrates through the bottom of the die cutting device (3) and extends upwards; the blanking device (7) is arranged beside the output end of the die cutting device (3), the blanking device (7) is fixedly connected with the rack (1), and the output end of the blanking device (7) is opposite to the input end of the blanking device (7).

2. An integrated die-cutting machine for making packaging corrugated boxes according to claim 1, wherein the feeding device (2) comprises; the placing box (2 a) is arranged on the rack (1), the placing box (2 a) is fixedly connected with the rack (1), and a discharge hole is formed in the side part of the placing box (2 a); the mounting rail (2 b) is horizontally arranged at the bottom of the placing box (2 a), and the mounting rail (2 b) is fixedly connected with the placing box (2 a); the transmission wheels (2 c) are symmetrically arranged on the mounting rail (2 b), and the transmission wheels (2 c) are rotationally connected with the mounting rail (2 b); the conveying belt (2 d) is sleeved on the upper outer side of the driving wheel (2 c), and the outer side of the conveying belt (2 d) is not full of the anti-slip strips; the first rotary driver (2 e) is arranged on the outer side of the mounting rail (2 b), the first rotary driver (2 e) is fixedly connected with the mounting rail (2 b), and the output end of the first rotary driver (2 e) is fixedly connected with the transmission wheel (2 c).

3. An integrated die-cutting machine for making packaging corrugated boxes according to claim 1, wherein the die-cutting means (3) comprises; the lower die (3 a) is horizontally arranged on the rack (1), and the lower die (3 a) is fixedly connected with the rack (1);

the guide posts (3 b) are symmetrically arranged on the rack (1), the guide posts (3 b) are vertically arranged, and the guide posts (3 b) are fixedly connected with the rack (1); the first mounting plate (3 c) is horizontally arranged at one end, far away from the rack (1), of the guide column (3 b), and the first mounting plate (3 c) is fixedly connected with the guide column (3 b); the pressing die (3 d) is sleeved right above the lower die (3 a), the pressing die (3 d) is connected with the guide post (3 b) in a sliding mode, and the working end of the pressing die (3 d) is arranged vertically downwards; the cutting die (3 e) is sleeved right above the pressing die (3 d), the cutting die (3 e) is in sliding connection with the guide column (3 b), and the working end of the cutting die (3 e) vertically penetrates through the pressing die (3 d) downwards to be in sliding connection; the first limiting column (3 f) is provided with a plurality of symmetrical parts which are arranged on the pressing die (3 d), the first limiting column (3 f) is vertically arranged, one end of the first limiting column (3 f) is fixedly connected with the pressing die (3 d), and one end, far away from the pressing die (3 d), of the first limiting column (3 f) penetrates through the cutting die (3 e) to be in sliding connection; the first spring (3 g) is provided with a symmetrical sleeve which is sleeved on the first limiting column (3 f), one end of the first spring (3 g) is abutted against the cutting die (3 e), and one end of the first spring (3 g) far away from the cutting die (3 e) is abutted against the abutting die (3 d); the first linear driver (3 h) is arranged on the first mounting plate (3 c), the first linear driver (3 h) is fixedly connected with the first mounting plate (3 c), and the output end of the first linear driver (3 h) penetrates through the first mounting plate (3 c) and is fixedly connected with the cutting die (3 e).

4. An integrated die-cutting machine for the manufacture of packaging corrugated boxes according to claim 3, wherein the lower die (3 a) comprises; the first template (3 a 1) is horizontally arranged on the rack (1), and the first template (3 a 1) is fixedly connected with the rack (1);

a pressing groove (3 a 2) arranged at the upper end of the first template (3 a 1); the first cutting opening (3 a 3) is provided with a plurality of symmetrical cutting openings which are distributed on two sides of the first template (3 a 1); the demoulding port (3 a 4) is provided with a plurality of symmetrical demoulding ports arranged on the first template (3 a 1).

5. An integrated die-cutting machine for making packaging corrugated boxes according to claim 4, wherein the pressing die (3 d) comprises; the second template (3 d 1) is horizontally arranged right above the lower die (3 a), and the second template (3 d 1) is connected with the guide post (3 b) in a sliding way; the pressing bump (3 d 2) is arranged on the second template (3 d 1), the pressing bump (3 d 2) is fixedly connected with the second template (3 d 1), and the pressing bump (3 d 2) is matched with the pressing groove (3 a 2);

the second cutting opening (3 d 3) is provided with a plurality of first cutting positions matched with the second cutting opening (3 d 3).

6. An integrated die-cutting machine for making packaging corrugated boxes according to claim 5, wherein the cutting die (3 e) comprises; the third template (3 e 1) is horizontally arranged right above the second template (3 d 1), and the third template (3 e 1) is connected with the guide post (3 b) in a sliding way; the first cutting knife (3 e 2) is provided with a plurality of symmetrical cutting knives which are distributed on the third template (3 e 1), the first cutting knife (3 e 2) is vertically arranged, one end of each first cutting knife (3 e 2) is fixedly connected with the third template (3 e 1), and one end, far away from the third template (3 e 1), of each first cutting knife (3 e 2) penetrates through the second cutting opening; second cutting knife (3 e 3), set up in third template (3 e 1) lateral part, vertical setting of second cutting knife (3 e 3), second cutting knife (3 e 3) and third template (3 e 1) fixed connection.

7. An integrated die-cutting machine for the manufacture of packaging corrugated boxes according to claim 1, characterized in that said guide means (5) comprise; the guide rail (5 a) is horizontally arranged at the working end of the die cutting device (3), and the guide rail (5 a) is fixedly connected with the rack (1); the material blocking device is arranged below the rack (1), the material blocking device is fixedly connected with the rack (1), and the working end of the material blocking device is vertically and upwards arranged.

8. The integrated die-cutting machine for making the packaging corrugated case as claimed in claim 7, wherein the material stopping device comprises; the first mounting rack (5 b 1) is arranged below the die cutting device (3), and the first mounting rack (5 b 1) is fixedly connected with the rack (1); the second linear driver (5 b 2) is arranged on the first mounting frame (5 b 1), and the second linear driver (5 b 2) is fixedly connected with the rack (1); the striker plate (5 b 3) is horizontally arranged at the output end of the second linear driver (5 b 2), and the striker plate (5 b 3) is fixedly connected with the output end of the second linear driver (5 b 2).

9. An integrated die-cutting machine for the manufacture of packaging corrugated boxes according to claim 4, wherein the demolding device (6) comprises; the second mounting frame (6 a) is arranged right below the first template (3 a 1), and the second mounting frame (6 a) is fixedly connected with the first template (3 a 1); the third linear driver (6 b) is arranged on the second mounting frame (6 a), the third linear driver (6 b) is fixedly connected with the second mounting frame (6 a), and the output end of the third linear driver (6 b) penetrates through the second mounting frame (6 a) to extend upwards; the pushing frame (6 c) is horizontally arranged at the output end of the third linear driver (6 b), and the pushing frame (6 c) is fixedly connected with the third linear driver (6 b); the ejection column (6 d) is provided with a plurality of symmetrical pushing frames (6 c), one end of the ejection column (6 d) is fixedly connected with the pushing frames (6 c), and one end, far away from the pushing frames (6 c), of the ejection column (6 d) penetrates through the demolding opening (3 a 4) to extend upwards.

10. An integrated die-cutting machine for making packaging corrugated boxes according to claim 1, characterized in that the blanking device (7) comprises; the third mounting rack (7 a) is arranged on the rack (1), and the third mounting rack (7 a) is fixedly connected with the rack (1); the fourth mounting rack (7 b) is provided with a plurality of symmetrical mounting racks (7 b); the second limiting columns (7 c) are provided with a plurality of limiting columns which are uniformly distributed on the fourth mounting rack (7 b), one end of each second limiting column (7 c) is fixedly connected with the fourth mounting rack (7 b), and one end, far away from the fourth mounting rack (7 b), of each second limiting column (7 c) penetrates through the third mounting rack (7 a) to be in sliding connection; the second spring (7 d) is provided with a plurality of second limiting columns (7 c) which are uniformly sleeved with each other, one end of the second spring (7 d) is abutted against the fourth mounting frame (7 b), and one end, far away from the fourth mounting frame (7 b), of the second spring (7 d) is abutted against the third mounting frame (7 a); the conveying wheels (7 e) are uniformly distributed on the fourth mounting rack (7 b), and the conveying wheels (7 e) are rotatably connected with the fourth mounting rack (7 b); the second rotary driver (7 f) is provided with a plurality of evenly distributed parts on the fourth mounting rack (7 b), the second rotary driver (7 f) is fixedly connected with the fourth mounting rack (7 b), and the output end of the second rotary driver (7 f) is fixedly connected with the conveying wheel (7 e).

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