CN209851100U - Module combined die cutting machine - Google Patents

Abstract

The utility model belongs to the technical field of die-cutting machines, in particular to a module combined die-cutting machine, which comprises a feeding module, a receiving module and a satellite die-cutting module arranged between the feeding module and the receiving module, wherein a plurality of front die-cutting modules are sequentially arranged between the feeding module and the satellite die-cutting module, and a plurality of rear die-cutting modules are sequentially arranged between the satellite die-cutting module and the receiving module; the satellite die cutting module comprises a satellite module support and a satellite die cutting device fixedly installed on the satellite module support, wherein the satellite die cutting device comprises a mounting seat, a mandrel rotatably installed on the mounting seat, and a plurality of die cutting cutters which are arranged at intervals in the circumferential direction of the mandrel and are respectively in transmission connection with the mandrel. The utility model discloses a module combination formula cross cutting machine can solve the current problem that cross cutting machine processing equipment difficulty, cross cutting precision are low and cross cutting speed is slow.

Description

Module combined die cutting machine

Technical Field

The utility model belongs to the technical field of the cross cutting machine, especially, relate to a module combination formula cross cutting machine.

Background

The die-cutting machine is mainly used for die-cutting products with various shapes, such as single-sided and double-sided adhesive stickers, protective films, gaskets, dust screens, copper foils, aluminum foils and the like, and particularly can be used for one-step forming of multi-layer composite products. At present, the cross cutting machine is an integral base, and installs frame and other mechanisms on the integral base, and the main disadvantages of existence are: the whole machine has a large appearance, so that the die cutting precision is influenced due to the difficulty in processing and assembling; the die cutting speed is relatively slow.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a module combination formula cross cutting machine aims at solving the current problem that cross cutting machine processing equipment difficulty, cross cutting precision are low and cross cutting speed is slow.

The utility model discloses a module combination type die-cutting machine, which comprises a feeding module, a receiving module and a satellite die-cutting module arranged between the feeding module and the receiving module, wherein a plurality of front die-cutting modules are arranged between the feeding module and the satellite die-cutting module in sequence, and a plurality of rear die-cutting modules are arranged between the satellite die-cutting module and the receiving module in sequence; the satellite die cutting module comprises a satellite module support and a satellite die cutting device fixedly installed on the satellite module support, wherein the satellite die cutting device comprises a mounting seat, a mandrel rotatably installed on the mounting seat, and a plurality of die cutting cutters which are arranged around the mandrel at intervals in the circumferential direction and are in transmission connection with the mandrel respectively.

As an improvement, the satellite die cutting device further comprises a driving gear fixed at one end of the mandrel and coaxially arranged with the mandrel, and a power device for driving the mandrel to rotate, wherein mounting plates fixedly connected with the mounting seats are respectively arranged at two ends of the mandrel, and the die cutting knives are respectively arranged between the two mounting plates and respectively driven by the driving gear.

As an improvement, a first mounting structure is arranged between the two mounting plates corresponding to each die-cutting rule.

As an improvement, the first mounting structure includes first mounting grooves respectively disposed on the two mounting plates and extending in the radial direction of the mandrel, and fastening structures respectively disposed at each of the first mounting grooves for fixing the die-cutting rule.

As an improvement, guide shafts are respectively arranged between the two mounting plates corresponding to the first mounting structures.

As an improvement, a guide shaft mounting structure is arranged between the two mounting plates corresponding to each group of guide shafts respectively.

As an improvement, the guide shaft mounting structure comprises shaft end clamping grooves which are respectively arranged on the adjacent side surfaces of the two mounting plates, and fastening holes are respectively arranged on the outer sides of the two mounting plates corresponding to the shaft end clamping grooves.

As an improvement, second mounting structures are respectively arranged between two groups of guide shaft mounting structures between two adjacent groups of first mounting structures.

As an improvement, the front die cutting module and the rear die cutting module respectively comprise a die cutting module support, a mounting platform fixedly connected to the die cutting module support, and a plurality of die cutting mechanisms slidably mounted on the mounting platform, and a control box is further mounted on the mounting platform.

As an improvement, a slide rail sliding block assembly is arranged between the control box and the mounting platform, a sliding block of the slide rail sliding block assembly is fixed on the mounting platform, and a slide rail of the slide rail sliding block assembly is fixed on the control box.

Due to the adoption of the technical scheme, the module combined die-cutting machine comprises a feeding module, a receiving module and a satellite die-cutting module arranged between the feeding module and the receiving module, wherein a plurality of front die-cutting modules are sequentially arranged between the feeding module and the satellite die-cutting module, and a plurality of rear die-cutting modules are sequentially arranged between the satellite die-cutting module and the receiving module; the satellite die cutting module comprises a satellite module support and a satellite die cutting device fixedly installed on the satellite module support, wherein the satellite die cutting device comprises a mounting seat, a mandrel rotatably installed on the mounting seat, and a plurality of die cutting cutters which are arranged at intervals in the circumferential direction of the mandrel and are respectively in transmission connection with the mandrel.

The feeding module, the front die cutting module, the satellite die cutting module, the rear die cutting module and the material receiving module can be respectively processed and installed, the modules are connected together to form a module combined type die cutting machine, the number of the front die cutting module and the number of the rear die cutting module can be selected according to products, and the processing and the assembly are very simple and convenient; the plurality of die-cutting cutters of the satellite die-cutting device are distributed at intervals along the circumferential direction, the plurality of die-cutting cutters are pressed on the mandrel at the same time for die-cutting, the outer diameter of the mandrel is larger, larger radial load can be borne, and the rotating speed of the mandrel can be greatly increased after being increased; the utility model discloses a module combination formula cross cutting machine can solve the current problem that cross cutting machine processing equipment difficulty, cross cutting precision are low and cross cutting speed is slow.

Drawings

Fig. 1 is a schematic front view of the modular combined die cutting machine of the present invention;

FIG. 2 is a schematic view of the module combination die cutting machine according to the present invention;

fig. 3 is a schematic perspective view of the satellite die cutting device of the modular combined die cutting machine of the present invention;

10, a feeding module, 11, a feeding module material shaft, 20, a satellite die cutting module, 21, a satellite module material shaft, 22, a satellite die cutting device, 221, a mounting seat, 222, a mandrel, 223, a driving gear, 224, a power device, 225a, a mounting plate, 225b, a mounting plate, 226a, a first mounting groove, 226b, a first mounting groove, 227a, a shaft end clamping groove, 227b, a shaft end clamping groove, 228, a guide shaft, 229a, a second mounting groove, 229b, a second mounting groove, 30, a material receiving module, 31, a material receiving module material shaft, 32, a whole machine control box, 40, a front die cutting module, 41, a die cutting module material shaft, 42, a die cutting mechanism, 43, a control box, 50, a rear die cutting module, 51, a die cutting module material shaft, 52, a die cutting mechanism, 53 and a control box.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 to fig. 3 are the structural schematic diagram of the module combination type die-cutting machine of the utility model, wherein, fig. 1 shows the utility model discloses the main structure schematic diagram of looking at of module combination type die-cutting machine, fig. 2 shows the utility model discloses decomposition structure schematic diagram of module combination type die-cutting machine, fig. 3 shows the utility model discloses the three-dimensional structure schematic diagram of the satellite cross cutting device of module combination type die-cutting machine, for the convenience of expression, only given in the picture with the embodiment of the utility model relates to a relevant part.

As shown in fig. 1 and 2, the module-combined die-cutting machine includes a feeding module 10, a satellite die-cutting module 20 and a receiving module 30, wherein a plurality of front die-cutting modules 40 are sequentially disposed between the feeding module 10 and the satellite die-cutting module 20, a plurality of rear die-cutting modules 50 are sequentially disposed between the satellite die-cutting module 20 and the receiving module 30, a fixed connection structure is respectively disposed between the feeding module 10 and the adjacent front die-cutting module 40, between two adjacent front die-cutting modules 40, between the satellite die-cutting module 20 and the adjacent front die-cutting module 40, between the satellite die-cutting module 50, between two adjacent rear die-cutting modules 50, between the receiving module 30 and the adjacent rear die-cutting module 50, and a feeding module material shaft 11, a die-cutting module material shaft 41, a die-cutting shaft, a receiving module material shaft 41, a receiving module 30, are respectively disposed on the feeding module 10, the front die-cutting modules 40, the satellite die, The satellite module material shaft 21, the die cutting module material shaft 51 and the material receiving module material shaft 31; the satellite die-cutting module 20 comprises a satellite module support and a satellite die-cutting device 22 fixedly mounted on the satellite module support, wherein the satellite die-cutting device comprises a mounting seat 221, a mandrel 222 rotatably mounted on the mounting seat 221, and a plurality of die-cutting knives arranged around the mandrel 222 at intervals in the circumferential direction and respectively in transmission connection with the mandrel 222.

The feeding module 10, the front die cutting module 40, the satellite die cutting module 20, the rear die cutting module 50 and the receiving module 30 can be respectively processed and installed, all the modules are connected together through a fixed connecting structure to form a module combined type die cutting machine, the number of the front die cutting module 40 and the number of the rear die cutting modules 50 can be selected according to products, the processing and the assembling are simple and convenient, the problem that the existing die cutting machine is difficult to process and assemble is solved, and the processing and the installing precision can be improved, so that the die cutting precision is effectively improved; the plurality of die-cutting cutters of the satellite die-cutting device 22 are distributed at intervals along the circumferential direction, the plurality of die-cutting cutters are pressed on the mandrel 222 for die-cutting, the outer diameter of the mandrel 222 is large, larger radial load can be borne, the rotating speed of the plurality of die-cutting cutters can be greatly increased after the rotating speed of the mandrel 222 is increased, and die-cutting efficiency and die-cutting precision can be improved.

In this embodiment, the satellite die cutting device 22 further includes a driving gear 223 fixed at one end of the mandrel 222 and disposed coaxially with the mandrel 222, and a power device 224 for driving the mandrel 222 to rotate, wherein a mounting plate 225a and a mounting plate 225b fixedly connected with the mounting seat 221 are respectively disposed at two ends of the mandrel 222, the plurality of die cutting blades are respectively disposed between the mounting plates 225a and 225b and respectively driven by the driving gear 223, and generally, the power device 224 is a motor and is in driving connection with the mandrel 222 through a coupling. Specifically, a first mounting structure is respectively arranged at the mounting plate 225a and the mounting plate 225b corresponding to each die-cutting rule, and a plurality of groups of the first mounting structures are arranged at intervals along the circumferential direction of the mandrel 222.

The die-cutting cutters can be respectively installed on the multiple groups of first installation structures, the multiple die-cutting cutters are distributed along the circumferential direction of the mandrel 222 at intervals by taking the mandrel 222 as an axis and are driven to rotate by the mandrel 222, during die cutting, the multiple die-cutting cutters are simultaneously pressed on the mandrel 222 for die cutting, the outer diameter of the mandrel 222 is large, larger radial load can be borne, the rotating speed of the multiple die-cutting cutters can be greatly improved after the rotating speed of the mandrel 222 is improved, and die cutting efficiency and die cutting precision can be improved.

In order to facilitate the rotation of the driving shaft 222, the shaft 222 is configured as a hollow structure, and specifically includes two end plates disposed at intervals and a cylinder fixedly connected with the two end plates, and the driving gear 223 is fixedly connected with the two end plates on one side.

In the present embodiment, the first mounting structure includes first mounting grooves 226a, 226b provided on the mounting plates 225a, 225b, respectively, and extending in a radial direction of the mandrel 222, and fastening structures provided at each of the first mounting grooves 226a, 226b, respectively, for fixing the cutting die.

Specifically, the fastening structure includes a pressing plate, and a die-cutting rule fastener arranged along the radial direction of the mandrel 222 and in threaded connection with the pressing plate, and plate end clamping grooves are respectively arranged at two side walls of the first mounting groove. During installation, the two ends of the die-cutting rule are respectively clamped in the first mounting groove 226a and the first mounting groove 226 b; then the two ends of the pressing plate of the fastening structure on each side are fixed in the clamping grooves at the end parts of the pressing plate, and the die-cutting rule fastening piece is screwed down, so that the die-cutting rule can be installed and fixed. Generally, the die-cutting rule fastener is a screw rod, a knob is arranged at the end part of the screw rod, so that the screw rod can be conveniently screwed and fixed, and a locknut is further arranged on the screw rod.

Generally, the width of the first mounting grooves 226a, 226b away from the portion of the core shaft 222 is greater than the width of the portion near the core shaft 222, and the plate end catching grooves are provided at positions where the widths vary.

In this embodiment, in order to guide the plurality of tapes and prevent the plurality of tapes from being affected, a guide shaft 228 is respectively disposed between the mounting plate 225a and the mounting plate 225b corresponding to each group of first mounting structures, specifically, a guide shaft mounting structure is respectively disposed between the mounting plate 225a and the mounting plate 225b corresponding to each group of first mounting structures, the guide shaft mounting structure includes a shaft end clamping groove 227a and a shaft end clamping groove 227b respectively disposed on the adjacent side of the mounting plate 225a and the mounting plate 225b, and fastening holes are respectively disposed on the mounting plate 225a and the outer side of the mounting plate 225b corresponding to the shaft end clamping groove 227a and the shaft end clamping groove 227 b. When mounting, the guide shaft 228 is inserted into the shaft end engaging grooves 227a and 227b from the fastening holes on the outer sides of the mounting plates 225a and 225b, respectively, and the guide shaft fasteners are inserted into the shaft end engaging grooves 227a and 227 b.

The guide shaft 228 includes a shaft body and a roller body that is sleeved on the shaft body and can rotate relative to the shaft body, threaded holes are respectively formed at two ends of the shaft body, and two ends of the shaft body are respectively clamped in the shaft end clamping groove 227a and the shaft end clamping groove 227 b; the guide shaft fastening member is a hexagon socket head cap screw, and the hexagon socket head cap screw is screwed into the threaded hole through the fastening hole from the outside, so that the guide shaft 228 is mounted and fixed.

Specifically, the two opposite sides of each group of first mounting structures are respectively provided with a guide shaft mounting structure.

In the present embodiment, between two sets of guide shaft mounting structures between two adjacent sets of first mounting structures, there are respectively provided second mounting structures, each set of second mounting structures includes a second mounting groove 229a and a second mounting groove 229b respectively provided on the mounting plates 225a and 225b and extending in the radial direction of the mandrel 222, and a fastening structure provided at each side of the second mounting groove 229a and the second mounting groove 229b, respectively, and a pressing plate of the fastening structure is fixed at a groove port of the second mounting groove by a bolt, in general.

In this embodiment, the loading module 10 includes a loading module support, and the satellite module material shaft 21 is rotatably mounted on the loading module support, and generally, the satellite module material shaft 21 is respectively disposed at upper, middle and lower positions of the loading module support.

Specifically, the feeding module bracket comprises a frame, a panel fixed on the front side surface of the frame and a door arranged on the rear side surface of the frame, and the satellite module material shaft 21 is rotatably arranged on the panel; since the loading module 10 is located at the end of the entire apparatus, a panel is also fixed on the outside of the frame.

In this embodiment, the front die-cutting module 40 includes a die-cutting module support, a mounting platform fixedly connected to the die-cutting module support, and a plurality of die-cutting mechanisms 42 slidably mounted on the mounting platform, a control box 43 is further mounted on the mounting platform, and a die-cutting module spindle 41 is rotatably mounted on the die-cutting module support. Specifically, the die cutting module support comprises a frame, a panel fixed on the front side face of the frame and a door installed on the rear side face of the frame, the installation platform is fixedly connected to the panel, and the die cutting module material shaft 41 is rotatably installed on the panel.

In order to increase the sliding range of the control box 43, the control box is convenient to operate and control, a sliding rail sliding block assembly is arranged between the control box 43 and the mounting platform, a sliding block of the sliding rail sliding block assembly is fixed on the mounting platform, a sliding rail of the sliding rail sliding block assembly is fixed on the control box 43, and the control box 43 can slide out of the range of the front die cutting module 40.

The rear die cutting module 50 comprises a die cutting module support, a mounting platform fixedly connected to the die cutting module support, and a plurality of die cutting mechanisms 52 slidably mounted on the mounting platform, wherein a control box 53 is further mounted on the mounting platform, and a die cutting module material shaft 51 is rotatably mounted on the die cutting module support. Specifically, the die-cutting module support comprises a frame, a panel fixed on the front side surface of the frame and a door installed on the rear side surface of the frame, wherein the installation platform is fixedly connected to the panel, and the die-cutting module material shaft 51 is rotatably installed on the panel.

In order to increase the sliding range of the control box 53, the control box is convenient to operate and control, a sliding rail sliding block assembly is arranged between the control box 53 and the mounting platform, a sliding block of the sliding rail sliding block assembly is fixed on the mounting platform, a sliding rail of the sliding rail sliding block assembly is fixed on the control box 53, and the control box 53 can slide out of the range of the rear die cutting module 50.

Specifically, the die-cutting mechanisms 42 and 52 respectively include a base, a die-cutting tool and a pressing roller rotatably mounted on the base, and a motor fixed on the base and in transmission connection with the die-cutting tool, and the motor is typically connected to the die-cutting tool through a coupling.

In this embodiment, the material receiving module 30 includes a material receiving module support and a complete machine control box 32 mounted on the material receiving module support, and the material receiving module material shaft 31 is rotatably mounted on the material receiving module support, and generally, the material receiving module material shaft 31 is respectively disposed at upper, middle and lower positions of the material receiving module support.

Specifically, the material receiving module bracket comprises a frame, a panel fixed on the front side surface of the frame and a door arranged on the rear side surface of the frame, and a material shaft 31 of the material receiving module is rotatably arranged on the panel; since the material collecting module 30 is located at the end of the entire apparatus, a panel is also fixed on the outside of the frame.

In this embodiment, a fixing connection structure, which is usually a bolt, is respectively disposed between the feeding module 10 and the adjacent front die-cutting module 40, between two adjacent front die-cutting modules 40, between the satellite die-cutting module 20 and the adjacent front die-cutting module 40, between the adjacent rear die-cutting modules 50, between two adjacent rear die-cutting modules 50, and between the receiving module 30 and the adjacent rear die-cutting module 50, and the fixing connection structure is used to connect adjacent frames in series and then fix the adjacent frames with nuts.

In this embodiment, the satellite module support includes a frame, a panel fixed on the front side of the frame, a door installed on the rear side of the frame, and a bearing seat provided at the bottom of the front side of the frame, the satellite module material shaft 21 is rotatably installed on the surface, and the satellite die cutting device 22 is fixed on the bearing seat.

Specifically, the mounting seat 221 includes two vertical plates arranged at intervals, the mandrel 222 is rotatably arranged between the upper portions of the two vertical plates, and a plurality of connecting rods are fixedly connected between the bottoms of the two vertical plates; the mounting plate 225a and the mounting plate 225b are respectively fixedly connected with a vertical plate. This can not only reduce the weight of the entire satellite die cutting device 22, but also reduce the difficulty of installing the satellite die cutting device 22.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The module combined type die-cutting machine comprises a feeding module and a receiving module, and is characterized by further comprising a satellite die-cutting module arranged between the feeding module and the receiving module, wherein a plurality of front die-cutting modules are sequentially arranged between the feeding module and the satellite die-cutting module, and a plurality of rear die-cutting modules are sequentially arranged between the satellite die-cutting module and the receiving module; the satellite die cutting module comprises a satellite module support and a satellite die cutting device fixedly installed on the satellite module support, wherein the satellite die cutting device comprises a mounting seat, a mandrel rotatably installed on the mounting seat, and a plurality of die cutting cutters which are arranged around the mandrel at intervals in the circumferential direction and are in transmission connection with the mandrel respectively.

2. The die cutting machine according to claim 1, wherein the satellite die cutting device further includes a driving gear fixed to one end of the core shaft and coaxially disposed with the core shaft, and a power device for driving the core shaft to rotate, mounting plates fixedly connected to the mounting seats are respectively disposed at two ends of the core shaft, and the plurality of die cutting tools are respectively disposed between the two mounting plates and respectively driven by the driving gear.

3. The die cutting machine of claim 2, wherein a first mounting structure is disposed between each of the mounting plates corresponding to each of the cutting dies.

4. The modular combined die cutting machine recited in claim 3, wherein said first mounting structure comprises first mounting slots respectively provided on both of said mounting plates and extending radially of said mandrel, and fastening structures respectively provided at each of said first mounting slots for securing said cutting die.

5. The modular combined die cutting machine as recited in claim 3, wherein guide shafts are provided between the two mounting plates corresponding to the first mounting structures, respectively.

6. The die cutting machine of claim 5, wherein guide shaft mounting structures are provided between the mounting plates corresponding to each set of guide shafts.

7. The die cutting machine of claim 6, wherein the guide shaft mounting structure includes shaft end slots respectively disposed on adjacent sides of the two mounting plates, and fastening holes are respectively disposed on outer sides of the two mounting plates corresponding to the shaft end slots.

8. The die cutting machine of claim 6, wherein a second mounting structure is disposed between each of the two sets of guide shaft mounting structures between adjacent sets of first mounting structures.

9. The die cutting machine of any one of claims 1 to 8, wherein the front die cutting module and the rear die cutting module respectively comprise a die cutting module support, a mounting platform fixedly connected to the die cutting module support, and a plurality of die cutting mechanisms slidably mounted on the mounting platform, and a control box is further mounted on the mounting platform.

10. The die cutting machine of claim 9, wherein a slide rail slider assembly is disposed between the control housing and the mounting platform, the slider of the slide rail slider assembly being secured to the mounting platform and the slide rail of the slide rail slider assembly being secured to the control housing.