CN211137417U - Novel die cutting equipment - Google Patents

Abstract

The utility model discloses a novel cross cutting equipment, it includes novel cross cutting equipment includes cross cutting equipment body, cross cutting equipment body includes workstation and cutting device, first cutting device and second cutting device all include roof, bottom plate, upper die base and die holder, the upper die base is equipped with the cope match-plate pattern, the die holder is equipped with the lower bolster, be equipped with magnetism between upper die base and the cope match-plate pattern and inhale buckle structure, the die holder with the quick clamping structure of lower bolster. The utility model discloses a set up first cutting device and second cutting device and can carry out the processing of two different products, improve the utilization ratio of material, reduce extravagantly, reduce cost, and first cutting device and second cutting device still can carry out the cross cutting processing demand of the compound product that the structure is complicated according to the demand, improve the suitability and the functionality of novel cross cutting equipment, realize integral type processing, improve production efficiency.

Description

Novel die cutting equipment

Technical Field

The utility model relates to a technical field of cross cutting equipment, concretely relates to novel cross cutting equipment.

Background

The die-cutting machine is mainly used for processing materials such as non-metal materials, non-setting adhesives, EVA (ethylene vinyl acetate copolymer), double-sided adhesive tapes and protective films, and utilizes a steel knife, a hardware die and a steel wire to apply certain pressure through an imprinting die so as to cut the protective films, adhesive films, printed products or paperboards into certain shapes and patterns. The existing die cutting equipment is generally large in size when being placed to a die assembly for processing parts during die cutting and processing, and materials with more areas are not utilized for waste treatment after being processed, so that more materials are needed for processing, the waste rate is high, and the production cost of products is increased. The existing die cutting equipment can only be used for die cutting of one type of product, the production efficiency is low, and the existing partial products can be finished only by carrying out secondary die cutting. The upper die plate and the lower die plate of the die cutting device are fixed on the upper die base and the lower die base respectively by adopting a screw fixing mode in the conventional die cutting equipment, when the die cutting equipment needs to be replaced, disassembled or installed, the screw fixing mode is long in assembling and disassembling time, the upper die plate and the lower die plate can be installed only by manually aligning hole positions, the time is long, the steps are complicated, the maintenance efficiency is influenced, the production efficiency is influenced, materials on the conventional die cutting machining part are not fixed, the materials are kept horizontally placed, and when the upper die plate and the lower die plate are closed, the materials are likely to deform and shrink, and the product quality is influenced. Along with the change of market demands, the requirements on the quality and the production efficiency of products are higher and higher, so that the technical requirements of people on die cutting operation are higher and higher, and the processing mode and the structure of the existing die cutting machine cannot meet the actual production requirements easily.

Disclosure of Invention

The utility model discloses a to present technique not enough, provide a novel cross cutting equipment.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

a novel die cutting device comprises a die cutting device body, wherein the die cutting device body comprises a workbench and a die cutting device, the workbench is provided with a rear fixing frame, a feeding roller group and a discharging roller group, the feeding roller group is arranged on the left side of the workbench, the blanking roller group is arranged on the right side of the workbench and comprises a first blanking roller group, a second blanking roller group and a waste collecting roller group, the die cutting device comprises a first die cutting device and a second die cutting device, the feeding roller group is arranged on the left side of the first die cutting device, the first blanking roller group is arranged above the right side of the first die cutting device, the second die cutting device is arranged on the right side of the first die cutting device, and the blanking roller group II is arranged below the right side of the second die cutting device, and the waste collecting roller group is arranged above the right side of the second die cutting device.

The improved die cutting device comprises a first die cutting device body, a second die cutting device body, a top plate, a bottom plate, an upper die base and a lower die base, wherein a plurality of supporting columns and a plurality of guide pillars are arranged between the top plate and the bottom plate, the upper die base is arranged below the top plate, the top plate is provided with a driving cylinder, the driving cylinder is provided with a driving rod, the driving rod is connected with the upper die base, the lower die base is arranged on the bottom plate, the upper die base is provided with an upper die plate, the lower die base is provided with a lower die plate, a magnetic suction buckle structure is arranged between the upper die base and the upper die plate, and the lower die base and the lower die plate are.

The improved die cutting machine is characterized in that a visual detection device is arranged between the first die cutting device and the second die cutting device and comprises a fixing frame and a conveying shaft, and a shooting camera is arranged on the fixing frame.

The improved structure comprises two buckle groups, a plurality of magnetic body groups and two buckle cavity groups, wherein the two buckle groups are arranged at the bottom of the upper die base in a mirror image manner, and the two buckle cavity groups are arranged on the upper surface of the upper die plate in a mirror image manner.

The improved structure comprises two buckle groups, wherein each buckle group consists of two buckles, each buckle cavity group consists of two buckle cavities, each magnetic attraction body group consists of two magnetic attraction bodies, and the magnetic attraction bodies are respectively arranged on the outer side of the buckle and the inner side of the buckle cavity.

The improved structure is characterized in that the rapid clamping structure comprises a placing groove, a plurality of fixed hole groups and a plurality of top block groups, the fixed hole groups are arranged on the side face of the lower template, the placing groove is arranged on the upper surface of the lower die holder, and the top block groups are arranged on the outer side face of the lower die holder.

The improved structure is characterized in that the fixed hole groups are formed by two fixed holes, and the ejector block groups are formed by two ejector blocks with springs.

The improved structure comprises an upper template, a lower template, a positioning structure and a positioning groove, wherein the upper template is provided with a positioning hole, the positioning hole is arranged on the lower template, the upper template is provided with a positioning lug, the positioning lug is arranged on the upper template, the positioning lug is arranged on the lower template, the positioning groove is arranged on the lower template, the positioning lug is arranged on the lower template, and the positioning groove is arranged on the upper template.

In a further improvement, the lower die base is also provided with a plurality of buffer springs which are sleeved outside the guide pillar.

The feeding roller group comprises a first roller, a second roller, a material placing roller and a pressure roller shaft, the pressure roller shaft is provided with a cylinder, the second roller is provided with a motor, the first blanking roller group and the second blanking roller group respectively comprise a third roller, a fourth roller, a first product placing roller and a first pressure roller shaft, the first pressure roller shaft is provided with a first cylinder, and the third roller is provided with a first motor.

The improved garbage collection device is characterized in that the rear fixing frame is further provided with two separating roller groups, the two separating roller groups are respectively arranged between the first die cutting device and the second die cutting device and between the second die cutting device and the garbage collection roller group, the garbage collection roller group comprises a pressing roller and a recovery roller, and the recovery roller is provided with a second motor.

The utility model has the advantages that: the utility model discloses a set up first cutting device and second cutting device and can carry out the processing of two different products, improve the utilization ratio of material, reduce extravagantly, reduce cost, and first cutting device and second cutting device still can carry out the cross cutting processing demand of the compound product that the structure is complicated according to the demand, improve the suitability and the functionality of novel cross cutting equipment, realize the integral type processing to improve production efficiency. Through setting up the position that vision detection device is used for shooting semi-manufactured goods or the remaining material after the cross cutting processing for the first time to control second cutting device and carry out the action processing, inhale buckle structure convenient to dismantle fast or install the cope match-plate pattern through setting up magnetism, inhale the magnetic body group of buckle structure and place the mounted position that the recess is convenient for fix a position cope match-plate pattern and upper die base, lower bolster and die holder fast through magnetism, save time, through quick installation and the dismantlement of the lower bolster of quick clamping structure convenient to, magnetism is inhaled buckle structure and quick clamping structure and is convenient for the change of cope match-plate pattern and lower bolster, reduces artifical intensity of labour, improves and dismantles the installation effectiveness, guarantees production efficiency. The position and the precision of the upper template and the lower template are ensured by arranging the positioning structure, and the materials to be processed are ensured to be positioned in the die cutting device, so that the situation that the materials deform, shrink and shift when the upper template and the lower template are subjected to die cutting is prevented, and the quality of die-cutting products is ensured.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

FIG. 1 is a schematic overall structure diagram of the novel die-cutting equipment of the embodiment;

FIG. 2 is a schematic structural diagram of a visual inspection apparatus according to the present embodiment;

FIG. 3 is a schematic structural diagram of a first die cutting device and a second die cutting device according to the present embodiment;

FIG. 4 is a schematic cross-sectional view of the first and second die-cutting devices of the present embodiment;

FIG. 5 is an enlarged view of A in the present embodiment;

fig. 6 is an enlarged schematic view B of the present embodiment.

In the figure: 1. the novel die cutting equipment comprises 2 parts of a die cutting equipment body, 3 parts of a workbench, 4 parts of a die cutting device, 30 parts of a rear fixing frame, 5 parts of a feeding roller group, 6 parts of a blanking roller group, 7 parts of a visual detection device, 8 parts of a magnetic clamping structure, 9 parts of a quick clamping structure, 10 parts of a positioning structure, 11 parts of a separating roller group, 40 parts of a first die cutting device, 41 parts of a second die cutting device, 60 parts of a blanking roller group I, 61 parts of a blanking roller group II, 62 parts of a waste roller group, 70 parts of a fixing frame, 71 parts of a conveying shaft, 400 parts of a top plate, 401 parts of a bottom plate, 402 parts of an upper die base, 403 parts of a lower die base, 404 parts of an upper die plate, 405 parts of a lower die plate, 81 parts of a magnetic suction body group, 80 parts of a clamping buckle, 82 parts of a buckling cavity, 90 parts of a placing groove, 91 parts of a fixing hole, 92 parts of a top block, 100 parts of a positioning lug, 101 parts of a positioning groove, 500 parts, 610. the third roller 611, the fourth roller 612, the first product placing roller 613, the first press roller 621, the pressing roller 622, the recovery roller 700, the shooting camera 4000, the driving cylinder 4030 and the buffer spring.

Detailed Description

The following description is only for the preferred embodiment of the present invention, and does not limit the scope of the present invention.

In the embodiment, referring to fig. 1 to 6, a novel die cutting device 1 includes a die cutting device body 2, the die cutting device body 2 includes a workbench 3 and a die cutting device 4, the workbench 3 is provided with a rear fixing frame 30, a feeding roller set 5 and a discharging roller set 6, the feeding roller set 5 is disposed at the left side of the workbench 3, the discharging roller set 6 is disposed at the right side of the workbench 3, the discharging roller set 6 includes a discharging roller set 60, a discharging roller set two 61 and a waste collecting roller set 62, the die cutting device 4 includes a first die cutting device 40 and a second die cutting device 41, the feeding roller set 5 is disposed at the left side of the first die cutting device 40, the discharging roller set 60 is disposed at the upper right side of the first die cutting device 40, the second die cutting device 41 is disposed at the right side of the first die cutting device 40, the discharging roller set two 61 is disposed at the lower right side of the second die cutting device 41, the waste collecting roller group 62 is arranged above the right side of the second die cutting device 41, the visual detection device 7 is arranged between the first die cutting device 40 and the second die cutting device 41, the visual detection device 7 comprises a fixing frame 70 and a conveying shaft 71, a shooting camera 700 is arranged on the fixing frame 70, the workbench 3 is further provided with a control box, the visual detection device 7 is used for shooting the position of a processed piece subjected to die cutting by the first die cutting device 40 and the position of redundant materials so as to feed back the control box, so that the die cutting action of the second die cutting device 41 is controlled, the first die cutting device 40 is used for carrying out the first die cutting of the materials or the die cutting of a first product, the second die cutting device 41 is used for carrying out the second die cutting or the die cutting of a second product, and the first die cutting device 40 and the second die cutting device 41 realize the die cutting of the product which needs to be processed twice or the die cutting of two different products, the utility model provides and makes the suitability, cross cutting equipment body 2 is equipped with a plurality of detection sensor, detection sensor is used for detecting material, product, cross cutting action and cylinder signal that targets in place.

The first die cutting device 40 and the second die cutting device 41 both comprise a top plate 400, a bottom plate 401, an upper die holder 402 and a lower die holder 403, a plurality of pillars and a plurality of guide pillars are arranged between the top plate 400 and the bottom plate 401, the upper die holder 402 is arranged below the top plate 400, the top plate 400 is provided with a driving cylinder 4000, the driving cylinder 4000 is provided with a driving rod, the driving rod is connected with the upper die holder 402, the lower die holder 403 is arranged on the bottom plate 401, the upper die holder 402 is provided with an upper die plate 404, the lower die holder 403 is provided with a lower die plate 405, a magnetic suction buckle structure 8 is arranged between the upper die holder 402 and the upper die plate 404, the lower die holder 402 and the lower die plate 403 are fast clamping structures 9, the magnetic suction buckle structure 8 is convenient for fast dismounting or mounting the upper die plate 404, the fast clamping structures 9 are convenient for fast mounting and dismounting the lower die plate 405, and convenient for replacing, the manual labor intensity is reduced, the disassembly and assembly efficiency is improved, the production efficiency is improved, the upper template 402 and the lower template 403 of the first die cutting device 40 are provided with the first forming surfaces, the upper template 402 and the lower template 403 of the second die cutting device 41 are provided with the second forming surfaces, and the structure of the first forming surfaces is different from that of the second forming surfaces.

The magnetic buckle structure 8 comprises two buckle sets, a plurality of magnetic attraction sets 81 and two buckle cavity sets, wherein the two buckle sets are arranged at the bottom of the upper die base 402 in a mirror image manner, the two buckle cavity sets are arranged on the upper surface of the upper die plate 404 in a mirror image manner, the two buckle sets are respectively composed of two buckles 80, each buckle 80 is composed of two buckles, each buckle cavity set is composed of two buckle cavities 82, the plurality of magnetic attraction sets 81 are composed of two magnetic attraction bodies, the magnetic attraction bodies are respectively arranged at the outer side of each buckle 80 and the inner side of each buckle cavity 82, the magnetic attraction sets 81 are convenient to realize quick alignment according to magnetic attraction force between the magnetic attraction bodies, so that the buckles 80 are aligned with the buckle cavities 82, the alignment time is reduced, the installation is convenient, the buckles 80 are provided with inclined planes, the magnetic attraction bodies arranged at the inner sides of the buckle cavities 82 are of circular ring structures, the magnetic attraction bodies of the circular ring structures are provided with inclined planes inclined towards the circle center, the ramp and ramp surfaces facilitate guiding the snap 80 into the snap cavity 82.

The quick clamping structure 9 comprises a placing groove 90, a plurality of fixing hole groups and a plurality of top block groups, the fixing hole groups are arranged on the side surface of the lower template 405, the placing groove 90 is arranged on the upper surface of the lower die holder 403, the top block groups are arranged on the outer side surface of the lower die holder 403, each fixing hole group consists of two fixing holes 91, each top block group consists of two top blocks 92 with springs, the placing groove 90 is used for placing and positioning the lower template 405, the top blocks with springs are connected with the fixing holes in a one-to-one correspondence manner, the top blocks with springs are convenient to insert into the fixing holes, so that the lower template 405 is fixed on the lower die holder 403, when the lower template 405 needs to be replaced, the top blocks with springs 92 are pulled outwards to be separated from the fixing holes 91, then the lower template 405 is taken up to be separated from the arranging groove 90, and the quick clamping structure 9 shortens the time and the step of installing or disassembling the lower template 405, the production efficiency of the die cutting equipment body 2 is ensured.

The positioning structure 10 is arranged between the upper template 404 and the lower template 405, the positioning structure 10 comprises two positioning bumps 100 and two positioning grooves 101, the two positioning bumps 100 are arranged at the bottom of the upper template 404 in a mirror image manner, the two positioning grooves 101 are arranged on the lower template 405 in a mirror image manner, the positioning bumps 100 are U-shaped bumps, the positioning grooves 101 are U-shaped grooves, the positioning structure 10 ensures the position and the precision of die assembly, and is convenient for positioning and clamping materials to be processed which enter the die cutting device 4, so that the displacement of the materials when the upper template 404 and the lower template 405 are subjected to die assembly and die cutting is prevented, and the quality of die-cut products is improved.

The lower die holder 403 is further provided with a plurality of buffer springs 4030, the buffer springs 4030 are respectively sleeved on the outer sides of the guide pillars, and the buffer springs 4030 are used for providing a certain buffer effect when the die is closed and die-cut, so that the problem that the material is crushed by large impact force when the upper die holder 402 is closed is solved.

The feeding roller group 5 comprises a first roller 500, a second roller 501, a material placing roller 502 and a press roller shaft 503, wherein the press roller shaft 503 is provided with a cylinder, the cylinder is used for controlling the press roller shaft 503 to move up and down, the second roller 501 is provided with a motor, the motor is used for driving the second roller 501 to roll to drive material transportation, so that feeding is achieved, the press roller shaft 503 is used for pressing the material from the top, and feeding action is achieved by matching the second roller 501.

The first feeding roller group 60 and the second feeding roller group 61 comprise three rollers 610, four rollers 611, a first roller 612 and a first pressure roller shaft 613, the first pressure roller shaft 613 is provided with a first cylinder, the first cylinder is used for controlling the first pressure roller shaft 613 to move up and down, the three rollers 610 are provided with a first motor, the first motor is used for driving the three rollers 610 to roll to drive the product to be transported and collected, the first pressure roller shaft 613 is used for pressing the material from the top, so that the material is collected by matching the three rollers 610, the first roller 612 is provided with a connecting motor, and the first roller 612 is used for collecting the product.

The rear fixing frame 30 is further provided with two separating roller sets 11, the two separating roller sets 11 are respectively arranged between the first die cutting device 40 and the second die cutting device 41 and between the second die cutting device 41 and the waste collecting roller set 62, the waste collecting roller set 62 comprises a pressing roller 621 and a recycling roller 622, the recycling roller 622 is provided with a second motor, and the recycling roller 622 is used for collecting waste materials.

The utility model discloses a theory of operation: the method comprises the following steps that at the beginning of work, upper templates of a first die cutting device and a second die cutting device are installed on upper die bases of the first die cutting device and the second die cutting device through a magnetic suction buckle structure, lower templates of the first die cutting device and the second die cutting device are installed on lower die bases of the first die cutting device and the second die cutting device through a quick clamping structure, when a composite structure product is subjected to die cutting, a material is conveyed to the first die cutting device by a feeding roller group to be subjected to first die cutting processing, a semi-finished product after the first die cutting processing is conveyed to a visual detection device to be subjected to positioning detection, then the semi-finished product enters the second die cutting device to be subjected to second die cutting processing, the product after the second die cutting processing is conveyed to a separation roller group to be subjected to waste material separation, the product is collected onto a product placing roller, and the waste materials are collected onto; when two products are subjected to simultaneous die cutting, the material is conveyed to the first die cutting device by the feeding roller group for primary die cutting, the finished products after primary die cutting are conveyed to the visual detection device for positioning detection, then the finished products are separated from redundant materials by the separation roller group, the finished products are collected by the first discharging roller group, the redundant materials are conveyed to the second die cutting device for secondary die cutting, the second finished products after secondary die cutting are conveyed to the separation roller group for waste material separation, the second finished products are collected by the first discharging roller group, and the waste materials are collected by the first recovering roller.

The utility model discloses a set up first cutting device and second cutting device and can carry out the processing of two different products, improve the utilization ratio of material, reduce extravagantly, reduce cost, and first cutting device and second cutting device still can carry out the cross cutting processing demand of the compound product that the structure is complicated according to the demand, improve the suitability and the functionality of novel cross cutting equipment, realize the integral type processing to improve production efficiency. Through setting up the position that vision detection device is used for shooting semi-manufactured goods or the remaining material after the cross cutting processing for the first time to control second cutting device and carry out the action processing, inhale buckle structure convenient to dismantle fast or install the cope match-plate pattern through setting up magnetism, inhale the magnetic body group of buckle structure and place the mounted position that the recess is convenient for fix a position cope match-plate pattern and upper die base, lower bolster and die holder fast through magnetism, save time, through quick installation and the dismantlement of the lower bolster of quick clamping structure convenient to, magnetism is inhaled buckle structure and quick clamping structure and is convenient for the change of cope match-plate pattern and lower bolster, reduces artifical intensity of labour, improves and dismantles the installation effectiveness, guarantees production efficiency. The position and the precision of the upper template and the lower template are ensured by arranging the positioning structure, and the materials to be processed are ensured to be positioned in the die cutting device, so that the situation that the materials deform, shrink and shift when the upper template and the lower template are subjected to die cutting is prevented, and the quality of die-cutting products is ensured.

The utility model discloses be not limited to above-mentioned embodiment, adopt with the same or similar structure or device of the above-mentioned embodiment of the utility model, and the other that obtain is used for novel cross cutting equipment, all is within the protection scope of the utility model.

Claims (10)

1. A novel die cutting equipment which characterized in that: the novel die cutting equipment comprises a die cutting equipment body, the die cutting equipment body comprises a workbench and a die cutting device, the workbench is provided with a rear fixing frame, a feeding roller group and a discharging roller group, the feeding roller group is arranged on the left side of the workbench, the blanking roller group is arranged on the right side of the workbench and comprises a first blanking roller group, a second blanking roller group and a waste collecting roller group, the die cutting device comprises a first die cutting device and a second die cutting device, the feeding roller group is arranged on the left side of the first die cutting device, the first blanking roller group is arranged above the right side of the first die cutting device, the second die cutting device is arranged on the right side of the first die cutting device, the blanking roller group II is arranged below the right side of the second die cutting device, and the waste collecting roller group is arranged above the right side of the second die cutting device; the first die cutting device and the second die cutting device respectively comprise a top plate, a bottom plate, an upper die holder and a lower die holder, a plurality of pillars and a plurality of guide pillars are arranged between the top plate and the bottom plate, the upper die holder is arranged below the top plate, the top plate is provided with a driving cylinder, the driving cylinder is provided with a driving rod, the driving rod is connected with the upper die holder, the lower die holder is arranged on the bottom plate, the upper die holder is provided with an upper die plate, the lower die holder is provided with a lower die plate, a magnetic buckle structure is arranged between the upper die holder and the upper die plate, and the lower die holder and the lower die plate are clamped quickly.

2. The novel die cutting apparatus of claim 1, wherein: and a visual detection device is arranged between the first die cutting device and the second die cutting device and comprises a fixing frame and a conveying shaft, and a shooting camera is arranged on the fixing frame.

3. The novel die cutting apparatus of claim 2, wherein: the magnetic suction buckle structure comprises two buckle groups, a plurality of magnetic suction body groups and two buckle cavity groups, wherein the two buckle groups are arranged at the bottom of the upper die base in a mirror image mode, and the two buckle cavity groups are arranged on the upper surface of the upper die plate in a mirror image mode.

4. The novel die cutting apparatus of claim 3, wherein: the two buckle groups are respectively composed of two buckles, each buckle is composed of two buckle hooks, each buckle cavity group is composed of two buckle cavities, the plurality of magnetic attraction body groups are respectively composed of two magnetic attraction bodies, and the magnetic attraction bodies are respectively arranged on the outer sides of the buckles and the inner sides of the buckle cavities.

5. The novel die cutting apparatus of claim 4 wherein: the quick clamping structure comprises a placing groove, a plurality of fixing hole groups and a plurality of top block groups, the fixing hole groups are arranged on the side face of the lower template, the placing groove is arranged on the upper surface of the lower die holder, and the top block groups are arranged on the outer side face of the lower die holder.

6. The novel die cutting apparatus of claim 5, wherein: the fixed hole group consists of two fixed holes, and the ejector block group consists of two ejector blocks with springs.

7. The novel die cutting apparatus of claim 6, wherein: the positioning structure is arranged between the upper template and the lower template and comprises two positioning lugs and two positioning grooves, the two positioning lugs are arranged at the bottom of the upper template in a mirror image mode, the two positioning grooves are arranged on the lower template in a mirror image mode, the positioning lugs are U-shaped lugs, and the positioning grooves are U-shaped grooves.

8. The novel die cutting apparatus of claim 7, wherein: the lower die base is further provided with a plurality of buffer springs, and the plurality of buffer springs are sleeved outside the guide pillars.

9. The novel die cutting apparatus of claim 8, wherein: the feeding roller group comprises a first roller, a second roller, a material placing roller and a first compression roller, the first compression roller is provided with a cylinder, the second roller is provided with a motor, the first blanking roller group and the second blanking roller group respectively comprise a third roller, a fourth roller, a first product placing roller and a first compression roller, the first compression roller is provided with a first cylinder, and the third roller is provided with a first motor.

10. The novel die cutting apparatus of claim 9 wherein: the rear fixing frame is further provided with two separating roller groups, the two separating roller groups are respectively arranged between the first die cutting device and the second die cutting device and between the second die cutting device and the waste collecting roller group, the waste collecting roller group comprises a pressing roller and a recycling roller, and the recycling roller is provided with a second motor.

Images