CN210414808U

CN210414808U - Die-cutting machine

Info

Publication number: CN210414808U
Application number: CN201921351589.4U
Authority: CN
Inventors: 黎胜华; 甘垄西
Original assignee: Shenzhen Jinshangjia Technology Co ltd
Current assignee: Shenzhen Jinshangjia Technology Co ltd
Priority date: 2019-08-19
Filing date: 2019-08-19
Publication date: 2020-04-28
Anticipated expiration: 2029-08-19

Abstract

The utility model relates to the field of automatic processing equipment, in particular to a die-cutting machine, which comprises a machine base, a workbench arranged on the machine base and a bracket arranged above the machine base; the bracket is sequentially provided with a first blanking device for conveying the first material belt to the workbench, a first receiving device for collecting first waste materials on the first material belt, a second blanking device for conveying the second material belt to the workbench and a second receiving device for collecting second waste materials on the second material belt; the workstation is equipped with the guide device that is used for conveying the auxiliary material of last process to the workstation along first discharging equipment to second receiving device's direction in proper order, is used for laminating the first laminating device in auxiliary material and first material area, is used for laminating the second material area and the second laminating device in the first material area after first laminating device handles, is used for carrying out the cross cutting device of cross cutting to the composite material area after the second laminating device handles, and it has the multilayer material of laminating and carries out the function of cross cutting.

Description

Die-cutting machine

Technical Field

The utility model relates to an automatic change processing equipment field, concretely relates to cross cutting machine.

Background

With the development of industry, the application industry of die cutting machines is very wide, wherein the industry of digital electronic accessories is the most common, and various electronic accessories are die-cut into products with corresponding shapes by the die cutting machines. The raw materials may need to be compounded with multiple layers of the same or different materials before and after die cutting, and in order to compound the multiple layers of materials, in the prior art, one or more laminating machines for laminating the multiple layers of materials are generally configured on a die cutting machine production line, so that the cost of equipment is increased, and the occupied space of the die cutting production line is greatly increased when a plurality of laminating machines are configured.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a die-cutting machine, it has laminating multilayer material and carries out the function of cross cutting.

The utility model provides a technical scheme that its technical problem adopted is:

a die-cutting machine comprises a machine base, a workbench arranged on the machine base and a bracket arranged above the machine base;

the bracket is sequentially provided with a first blanking device for conveying the first material belt to the workbench, a first receiving device for collecting first waste materials on the first material belt, a second blanking device for conveying the second material belt to the workbench and a second receiving device for collecting second waste materials on the second material belt;

the workstation is equipped with the guide device that is used for conveying the auxiliary material of last process to the workstation along first receiving device to second receiving device's direction in proper order, is used for laminating the first laminating device in auxiliary material and first material area, is used for laminating the second material area and the second laminating device in the first material area after first laminating device handles, is used for carrying out the cross cutting device of cross cutting and is used for driving the drawing device of the direction motion of the compound material area to keeping away from the guide device behind the cross cutting to the compound material area after the second laminating device handles.

First laminating device including rotate locate the workstation on first laminating roller and the first roller of laminating on, locate the first mount of workstation lateral part and be used for separating the first waste material of first material belt upper surface and lead the first direction subassembly that sends first material collecting device with first waste material, first laminating roller rotates on locating first mount, the mount is connected to first direction subassembly.

The first guide assembly comprises a first guide frame and a guide plate, the first guide frame is arranged on one side, close to the material guide assembly, of the first fixing frame, the guide plate is arranged on one side, close to the second laminating device, of the first fixing frame, the guide plate is downwards inclined at one end far away from the first fixing frame, and a plurality of first guide rollers are arranged on the first guide frame from top to bottom at intervals.

The second laminating device comprises a second lower laminating roller and a second upper laminating roller which are rotatably arranged on the workbench, a second fixing frame arranged on the side part of the workbench, and a second guide frame which is used for guiding a second material belt conveyed by the second blanking device to the second upper laminating roller and the second lower laminating roller, wherein the second guide frame is arranged on one side of the fixing frame close to the first laminating device.

And a plurality of second guide rollers are arranged on the second guide frame from top to bottom at intervals.

The material guide device comprises a material guide frame, a plurality of material guide rollers, a first material pressing assembly, a second material pressing assembly and a third guide assembly, wherein one end of the material guide frame is connected with the workbench, the plurality of material guide rollers are arranged at intervals along the direction close to the workbench and far away from the workbench, the first material pressing assembly is arranged on one side, far away from the workbench, of the material guide frame, the second material pressing assembly is arranged on one side, close to the material guide frame, of the workbench, the third guide assembly is arranged between the first material pressing assembly and the second material pressing assembly, the first material pressing assembly is used for abutting against the upper surface of an auxiliary material to enable the auxiliary material to be flat, the second material pressing assembly is used for abutting against the upper surface of the first material belt to enable the first material belt to be flat, and the third guide assembly is used.

The first material pressing assembly comprises a first supporting seat arranged on the material guide frame and a first material pressing plate arranged on the first supporting seat.

The second material pressing assembly comprises a second supporting seat arranged on the workbench and a second material pressing plate arranged on the second supporting seat.

The first blanking device comprises a first blanking roller and a first blanking driving piece, wherein the first blanking roller is rotatably arranged on the support, and the first blanking driving piece is used for driving the first blanking roller to rotate.

The first material receiving device comprises a first material receiving roller arranged on the support and a first material receiving driving piece used for driving the first material receiving roller to rotate.

The utility model has the advantages that:

the utility model discloses a set up first laminating device, second laminating device and cutting device on the workstation, make this cross cutting machine can laminate multilayer material to carrying out the cross cutting to the composite material area after the laminating, having laminating multilayer material area and cross cutting product function, reducible purchase to laminating equipment, and can reduce the shared space of cross cutting machine.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is an enlarged view of a portion a in fig. 1.

Description of reference numerals: 1. a machine base; 11. a work table; 12. a support; 2. a first discharging device; 21. a first blanking roller; 22. a first blanking drive member; 3. a first material receiving device; 31. a first receiving roller; 32. a first material receiving driving member; 4. a second blanking device; 5. a second material receiving device; 51. a second receiving roller; 52. a second material receiving driving member; 6. a material guiding device; 61. a material guide frame; 62. a material guide roller; 621. a first guide wheel; 63. a first swaging assembly; 631. a first support base; 632. a first pressure plate; 6321. a first sloping plate; 6322. a first stroking plate; 64. a second swaging assembly; 641. a second support seat; 642. a second pressure plate; 6421. a second swash plate; 6422. a second smoothing plate; 65. a third guide assembly; 651. a third guide frame; 652. a third guide roller; 7. a first attaching device; 71. a first lower laminating roller; 72. a first upper bonding roller; 73. a first fixing frame; 74. a first guide assembly; 741. a first guide frame; 742. a first guide roller; 743. a guide plate; 8. a second attaching device; 81. a second lower laminating roller; 82. a second upper laminating roller; 83. a second fixing frame; 84. a second guide frame; 85. a second guide roller; 9. a die cutting device; 91. a lower template; 92. mounting a template; 93. punching a cutting die; 94. a cylinder; 10. a material pulling device; 101. pulling a material roller; 102. a material pushing wheel.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The utility model discloses each technical feature in the creation can the interactive combination under the prerequisite that does not contradict conflict each other.

The utility model provides a die cutting machine, its includes frame 1, locate workstation 11 on frame 1 and fixed support 12 of locating frame 1 top, support 12 is higher than workstation 11 upper surface.

The support 12 is sequentially provided with a first discharging device 2 for conveying a first material belt to the workbench 11, a first receiving device 3 for collecting first waste materials on the first material belt, a second discharging device 4 for conveying a second material belt to the workbench 11 and a second receiving device 5 for collecting second waste materials on the second material belt.

The workbench 11 is provided with a material guide device 6 used for conveying the auxiliary materials of the previous process onto the workbench 11, a first laminating device 7 used for laminating the auxiliary materials and the first material belt, a second laminating device 8 used for laminating the second material belt and the first material belt processed by the first laminating device 7, a die cutting device 9 used for die cutting of the composite material belt processed by the second laminating device 8 and a material pulling device 10 used for driving the composite material belt subjected to die cutting to move in the direction away from the material guide device 6 in sequence along the direction from the first material discharging device 2 to the second material discharging device 5.

Specifically, in this embodiment, the auxiliary material is for releasing the type membrane, first material area is double-sided tape, first waste material is double-sided tape from type paper of taking, the second material area is the sponge area.

When the device works, the material guiding device 6 conveys the release film of the previous process to the workbench 11, the first discharging device 2 conveys the double-sided adhesive tape to the workbench 11, the adhesive surface of the double-sided adhesive tape is adhered to the upper surface of the release film under the action of the first adhering device 7, then the double-sided adhesive tape is separated from the release paper of the double-sided adhesive tape and is collected by the first material collecting device 3 under the action of the first material collecting device 3, the sponge tape is conveyed to the second adhering device 8 by the second discharging device 4 to be adhered to the adhesive surface of the upper surface of the double-sided adhesive tape, so that the composite material tape which sequentially comprises a sponge layer, a double-sided adhesive layer and a release film layer from top to bottom is prepared, further, the composite material tape is conveyed to the die cutting device 9 to carry out die cutting on the sponge layer on the upper layer, the sponge on the upper layer of the composite material tape is made into a required product shape, and waste materials on the periphery of the sponge product are collected by the second material collecting device 5 under the action of the second material collecting device 5 after the, the sponge products are separated from sponge waste materials on the periphery of the sponge products, the sponge products still adhered to the release film are pulled to the next processing device for processing under the driving action of the material pulling device 10, and the material pulling device 10 continuously pulls the material belt to move to the next procedure all the time when the material guiding device 6, the first adhering device 7, the second adhering device 8, the die cutting device 9, the first discharging device 2, the second discharging device 4, the first material receiving device 3 and the second material receiving device 5 work, so that the multiple devices continuously work under the pulling action of the material pulling device 10, the working efficiency is high, continuous automatic production can be realized, and the die cutting machine does not need to be frequently closed or started.

The utility model discloses a set up first laminating device 7 and second laminating device 8 on workstation 11, make this cross cutting machine can laminate multilayer material to carrying out the cross cutting to the composite material area after the laminating, having laminating multilayer material area and cross cutting product function, reducible purchase to laminating equipment, and can reduce the shared space of cross cutting machine.

The material guiding device 6 includes a material guiding frame 61 with one end connected to the working table 11, a plurality of material guiding rollers 62 arranged at intervals along a direction close to the working table 11 and far away from the working table 11, a first material pressing assembly 63 arranged on one side of the material guiding frame 61 far away from the working table 11, a second material pressing assembly 64 arranged on one side of the working table 11 close to the material guiding frame 61, and a third guiding assembly 65 arranged between the first material pressing assembly 63 and the second material pressing assembly 64, wherein the first material pressing assembly 63 is used for pressing the upper surface of the auxiliary material to keep the auxiliary material flat, the second material pressing assembly 64 is used for pressing the upper surface of the first material belt to keep the first material belt flat, and the third guiding assembly 65 is used for guiding and conveying the first material belt conveyed by the first material discharging device 2 to the second material pressing assembly 64.

Specifically, it is provided with two first leading wheels 621 to rotate on the guide roller 62, the circumferential surface of first leading wheel 621 is provided with many horizontally anti-skidding lines (not marking in the figure), is favorable to improving first leading wheel 621 and from the frictional force between the type membrane, makes and is difficult for taking place to skid from the type membrane on first leading wheel 621, and rotates the first leading wheel 621 that sets up and more is favorable to improving the transfer rate from the type membrane.

Specifically, first pressure material subassembly 63 is including locating first support seat 631 on the guide frame 61 and locating first pressure flitch 632 on first support seat 631, first pressure flitch 632 includes that one side is connected with first support seat 631 first swash plate 6321 and keeps away from first support seat 631 one side with first swash plate 6321 and is connected first smoothing board 6322, one side that first support seat 631 was kept away from to first swash plate 6321 inclines to the direction that is close to guide roller 62, the downward sloping promptly, the auxiliary material on the lower surface of first smoothing board 6322 is on a parallel with guide roller 62 is favorable to keeping conveying to the flattening of the auxiliary material surface on the guide frame 61, avoids appearing the fold from the type membrane surface, influences off-the-shelf qualification rate.

The second pressing assembly 64 includes a second supporting seat 641 disposed on the workbench 11 and a second pressing plate 642 disposed on the second supporting seat 641. Specifically, the second pressing plate 642 includes a second sloping plate 6421 connected to the second support seat 641 at one side and a second leveling plate 6422 connected to the side of the second sloping plate 6421 away from the second support seat 641, one side of the second sloping plate 6421 away from the second support seat 641 inclines towards the direction close to the material guiding roller 62, that is, inclines downwards, and the lower surface of the second leveling plate 6422 is parallel to the upper surface of the workbench 11, so as to be beneficial to maintaining the smoothness of the surface of the release film and the double-sided tape transferred to the workbench 11, and avoid the occurrence of wrinkles on the surface of the release film or the double-sided tape and influence on the qualified rate of finished products.

Specifically, the third guiding assembly 65 includes a third guiding frame 651 fixedly disposed on the guiding frame 61 and a plurality of third guiding rollers 652 disposed on the third guiding frame 651. The double-sided tape on the first blanking device 2 passes through the third guide roller 652 on the third guide frame 651, and then passes below the second nip plate 642.

The first blanking device 2 includes a first blanking roller 21 rotatably disposed on the bracket 12 and a first blanking driving member 22 for driving the first blanking roller 21 to rotate, and the first blanking driving member 22 is a first blanking motor. The first blanking driving member 22 drives the first blanking roller 21 to rotate so as to drive the double-sided tape wound on the first blanking roller 21 to move, and the double-sided tape is conveyed to the position below the second pressure plate 642 on the workbench 11 and attached to the release film.

First laminating device 7 is including rotating first laminating roller 71 and first laminating roller 72 on locating workstation 11, locating the first mount 73 of workstation 11 lateral part and being used for separating the first waste material of first material belt upper surface and leading first guide assembly 74 to first material collecting device 3, laminating roller 72 rotates on locating first mount 73 on the first, first guide assembly 74 connects first mount 73.

When double-sided tape and pass the gap between first last laminating roller 72 and the first laminating roller 71 down from the type membrane, receive first last laminating roller 72 and the first laminating roller 71 support the pressure effect and make double-sided tape's the face of glue with hug closely together from the type membrane, realize the complex in two-layer material area, and after double-sided tape and from the laminating of type membrane and the gap of being conveyed out between first last laminating roller 72 and the first laminating roller 71 down, double-sided tape upper surface from type paper in the direction limiting displacement of first direction subassembly 74 under by the guide to send to first material collecting device 3.

The first guiding assembly 74 includes a first guiding frame 741 disposed on one side of the first fixing frame 73 close to the material guiding assembly and a guiding plate 743 disposed on one side of the first fixing frame 73 close to the second attaching device 8, one end of the guiding plate 743 away from the first fixing frame 73 is inclined downward, and the first guiding frame 741 is provided with a plurality of first guiding rollers 742 at intervals from top to bottom.

The setting of deflector 743 does benefit to separating the type paper of double faced adhesive tape upper surface, and the setting of a plurality of first guide rolls 742 can supply to pass from the type paper is crisscross, is favorable to keeping from the type paper surfacing make things convenient for first material collecting device 3 to collect from the type paper, and the setting of a plurality of first guide rolls 742 can also avoid falling into first laminating roller 72 from the type paper on, influences first laminating roller 72 pressfitting double faced adhesive tape and leaves the type membrane.

The second blanking device 4 comprises a second blanking roller rotatably arranged on the support 12 and a second blanking driving piece for driving the second blanking roller to rotate, and the first blanking driving piece 22 is a second blanking motor.

Wherein, first material collecting device 3 is including locating first receipts material roller 31 on support 12 and being used for driving first receipts material driving piece 32 of first receipts material roller 31 pivoted, first receipts material driving piece 32 is first receipts material motor, and first receipts material driving piece 32 drives first receipts material roller 31 and rotates, and first receipts material roller 31 rotates pulling double faced adhesive tape upper surface from type paper and makes from type paper around locating first receipts material roller 31 and packed up.

The second attaching device 8 includes a second lower attaching roller 81 and a second upper attaching roller 82 rotatably disposed on the working table 11, a second fixing frame 83 disposed on a side portion of the working table 11, and a second guide frame 84 for guiding a second material belt conveyed by the second blanking device 4 to the second upper attaching roller 82 and between the second lower attaching roller 81, and the second guide frame 84 is disposed on one side of the fixing frame close to the first attaching device 7.

The release paper on the upper surface of the double-sided adhesive tape is collected by the first material collecting device 3 to enable the release paper to be separated from the adhesive surface of the double-sided adhesive tape, and is conveyed to the position between the second upper attaching roller 82 and the second lower attaching roller 81 together with the sponge tape, the sponge tape is attached to the adhesive surface on the upper surface of the double-sided adhesive tape, and is subjected to the abutting force of the second upper attaching roller 82 and the second lower attaching roller 81 when passing through the gap between the second upper attaching roller 82 and the second lower attaching roller 81, so that the sponge tape, the double-sided adhesive tape and the release film are tightly attached together, and further conveyed to the die cutting device 9 under the action of the material drawing device 10.

The second guide frame 84 is provided with a plurality of second guide rollers 85 at intervals from top to bottom.

The die cutting device 9 includes a lower template 91 arranged on the workbench 11, an upper template 92 arranged above the lower template 91 in a sliding manner, a punching cutting die 93 arranged on the lower side surface of the upper template 92, and an air cylinder 94 for driving the upper template 92 to move up and down. After the composite material tape pressed by the second laminating device 8 is conveyed to a gap between an upper template 92 and a lower template 91 of the die cutting device 9, the air cylinder 94 drives the upper template 92 to move downwards, so that a die cutting knife die 93 of the upper template 92 cuts a corresponding shape on the sponge tape, after the cutting is finished, the air cylinder 94 drives the upper template 92 to move upwards, the cut material tape is driven by the pulling device 10 to move forwards, and the uncut part of the composite material tape is conveyed to the die cutting device 9 to realize continuous cutting of the sponge tape.

The second material receiving device 5 comprises a second material receiving roller 51 rotatably arranged on the bracket 12 and a second material receiving driving member 52 for driving the second material receiving roller 51 to rotate. Because the periphery of the sponge area after the cross cutting of cutting device 9 die cutting can produce the waste material, the utility model discloses a set up second and receive material roller 51 and be used for collecting the peripheral waste material of sponge area, can save the artifical expense of collecting the production of the peripheral waste material of sponge area, and collect through second material collecting device 5 that collection efficiency is higher.

Wherein, the material pulling device 10 comprises a material pulling roller 101 rotatably arranged on one side of the workbench 11 far away from the material guiding device 6, a material pushing wheel 102 rotatably arranged on one side of the material pulling roller 101 far away from the workbench 11, and a power motor (not shown in the figure) for driving the material pushing wheel 102 to rotate, products subjected to die cutting by the die cutting device 9 are arranged between the material pulling roller 101 and the material pushing wheel 102, the pushing wheel 102 pushes the products to move to the next process when rotating, and sponge products subjected to die cutting are adhered to the release film, so that when the material pulling device 10 pushes the sponge products and the release film to move to the next process, the material belt positioned on the die cutting device 9 and the material belt positioned on the first laminating device 7 and the second laminating device 8 are simultaneously driven to move, thereby realizing continuous work, being beneficial to improving the working efficiency and realizing continuous automatic production.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims

1. The utility model provides a cross cutting machine which characterized in that: comprises a base, a workbench arranged on the base and a bracket arranged above the base;

2. The die cutting machine of claim 1, wherein: first laminating device including rotate locate the workstation on first laminating roller and the first roller of laminating on, locate the first mount of workstation lateral part and be used for separating the first waste material of first material belt upper surface and lead first waste material and send to first material collecting device's first direction subassembly, first laminating roller rotates on locating first mount, the mount is connected to first direction subassembly.

3. The die cutting machine of claim 2, wherein: first direction subassembly is including locating first mount and locating the deflector that first mount is close to guide subassembly one side, the one end downward sloping that first mount was kept away from to the deflector, first guide is from last to being provided with a plurality of first guide rolls down the interval.

4. The die cutting machine of claim 1, wherein: the second laminating device is including rotating laminating roller under the second of locating on the workstation and laminating roller on the second, locating the second mount of workstation lateral part and being used for the second material area of second unloader conveying to laminate roller and second guide frame between the roller under laminating on the second, the second guide frame is located the mount and is close to first laminating device one side.

5. The die cutting machine of claim 4, wherein: and a plurality of second guide rollers are arranged on the second guide frame from top to bottom at intervals.

6. The die cutting machine of claim 1, wherein: the guide device comprises a guide frame, a plurality of guide rollers, a first material pressing assembly, a second material pressing assembly and a third guide assembly, wherein one end of the guide frame is connected with the workbench, the plurality of guide rollers are arranged at intervals along the direction close to the workbench and far away from the workbench, the first material pressing assembly is arranged on one side, away from the workbench, of the guide frame, the second material pressing assembly is arranged on one side, close to the guide frame, of the workbench, the third guide assembly is arranged between the first material pressing assembly and the second material pressing assembly, the first material pressing assembly is used for abutting against the upper surface of an auxiliary material to enable the auxiliary material to be flat, the second material pressing assembly is used for abutting against the upper surface of the first material belt to enable the first material belt to be flat, and the third guide assembly is used for guiding and conveying the first.

7. The die cutting machine of claim 6, wherein: the first material pressing assembly comprises a first supporting seat arranged on the material guide frame and a first material pressing plate arranged on the first supporting seat.

8. The die cutting machine of claim 6, wherein: the second material pressing assembly comprises a second supporting seat arranged on the workbench and a second material pressing plate arranged on the second supporting seat.

9. The die cutting machine of claim 1, wherein: the first blanking device comprises a first blanking roller and a first blanking driving piece, wherein the first blanking roller is rotatably arranged on the support, and the first blanking driving piece is used for driving the first blanking roller to rotate.

10. The die cutting machine of claim 1, wherein: first material collecting device is including locating the first material roller of receiving on the support and being used for driving first material roller pivoted first receipts material driving piece of receiving.