CN220596522U - Full-automatic feeding, die cutting, stripping and collecting machine - Google Patents

Abstract

The utility model discloses a full-automatic feeding, die cutting, stripping and receiving machine, which comprises a supporting mechanism, a feeding mechanism, a die cutting mechanism, a material coiling mechanism, a stripping mechanism and a receiving mechanism, wherein the supporting mechanism is horizontally arranged and comprises a horizontal supporting surface and a vertical supporting surface which are connected with each other; the feeding mechanism is arranged at one end of the vertical supporting surface of the supporting mechanism; the die cutting mechanism is arranged at one side of the material guiding belt of the feeding mechanism; the coil stock mechanism is arranged at one side of the die cutting mechanism material guiding belt; the material stripping mechanism is arranged at one side of the material guiding belt of the die cutting mechanism, after die cutting is completed, the material belt of the adhered die-cut material enters the material stripping mechanism, and the material stripping mechanism strips the material from the material belt; the receiving mechanism is arranged below the die cutting mechanism. The automatic feeding, die cutting, stripping and receiving are integrated, so that the conveying path of the material belt during die cutting is effectively reduced, the position deviation, clamping belt and surface wrinkling conditions of the material belt are reduced, and the die cutting efficiency and the die cutting quality are effectively improved.

Description

Full-automatic feeding, die cutting, stripping and collecting machine

Technical Field

The utility model relates to the field of automatic equipment, in particular to a full-automatic feeding, die cutting, stripping and receiving machine.

Background

In the field of industrial manufacturing, a strip-shaped material is in a state of using the common material, and the utilization rate of the material storage space can be greatly increased by winding the strip-shaped material into a circular strip shape. The material belt with the belt structure is also often used as a material carrying carrier, and various materials are fixed on the material belt for carrying at the bottom layer, so that the material belt is convenient for centralized storage and transportation.

For a particular material, it is also necessary to process the material web, such as label paper, which is cut from a continuous web structure into a sheet-like structure for subsequent use after the web is attached to a backing material web, and the cutting process typically employs a die cutting process to cut the label paper. The existing die cutting equipment adopts a single-machine mode, namely, a single working station only completes one working procedure, such as a feeding working station completes material belt supply, a die cutting working station completes tag paper die cutting, a coil working station completes winding and recycling of waste tag paper, a stripping working station completes stripping action of the die-cut tag paper from a material belt, and a material receiving working station completes winding and recycling of the stripped material belt. The mode leads to equipment production line elongation (5-8 m), and when improving manufacturing cost, makes equipment installation space demand big, and banded material area extremely easily produces the position offset in this kind of long production line continuous motion transmission in-process, leads to the clamping belt, surface fold, influences the cross cutting precision.

Disclosure of Invention

The utility model aims at solving at least one of the technical problems in the prior art, and provides the full-automatic feeding, die cutting, stripping and receiving machine which integrates automatic feeding, die cutting, stripping and receiving, effectively reduces the conveying path of a material belt during die cutting, reduces the position deviation, clamping belt and surface folds of the material belt during die cutting, and effectively improves the die cutting quality while improving the die cutting efficiency.

The technical scheme adopted by the utility model is as follows: a full-automatic feeding, die cutting, stripping and receiving machine comprises a supporting mechanism, a feeding mechanism, a die cutting mechanism, a material rolling mechanism, a stripping mechanism and a receiving mechanism, wherein,

the supporting mechanism is horizontally arranged and comprises a horizontal supporting surface and a vertical supporting surface which are connected with each other;

the feeding mechanism is arranged at one end of the vertical supporting surface of the supporting mechanism, and a material belt adhered with materials is wound on the feeding mechanism and is led out;

the die cutting mechanism is arranged at one side of the material guiding belt of the feeding mechanism, the material belt of the feeding mechanism passes through the die cutting mechanism, and the die cutting mechanism is used for die-cutting materials on the material belt;

the material coiling mechanism is arranged at one side of the material guiding belt of the die cutting mechanism, and the waste material belt after the material is die-cut by the die cutting mechanism is coiled by the material coiling mechanism;

the material stripping mechanism is arranged on one side of the material guiding belt of the die cutting mechanism, after die cutting is completed, the material belt of the material subjected to die cutting after adhesion enters the material stripping mechanism, and the material stripping mechanism strips the material from the material belt;

the material receiving mechanism is arranged below the die cutting mechanism and is used for collecting the material tape after the stripping is completed.

Preferably, the material is label paper; the material belt in the feeding mechanism comprises two layers, namely a material belt and a label paper layer attached to the material belt.

Preferably, the supporting mechanism comprises a base and a side plate, wherein the base is horizontally arranged; the side plate is vertically connected to one side of the base.

Preferably, the feeding mechanism comprises a feeding roll; the feed roll is rotatably arranged on the side wall of the side plate, a material belt attached with a label paper layer is wound on the feed roll, and the material belt is guided into the die cutting mechanism.

Preferably, the die cutting mechanism is used for die cutting the base, the guide post, the top plate and the die cutting assembly, wherein the die cutting base is horizontally fixed on the side plate; the guide posts comprise at least two guide posts, and the at least two guide posts are vertically arranged on the die-cutting base; the top plate is arranged above the die-cutting base in parallel and at intervals and is supported by at least two guide posts; the die-cutting assembly is arranged on the top plate, extends between the die-cutting base and the top plate, and enables a material strip to be die-cut to pass through the space between the die-cutting assembly and the die-cutting base, so that the die-cutting assembly can move up and down along the vertical direction to die-cut the label paper layer on the material strip.

Preferably, the die-cutting assembly comprises a die-cutting motor, a support, a transmission deflector rod, a lifting seat and a die-cutting block, wherein the die-cutting motor is arranged on one side of the upper part of the top plate; the two supports are vertically and parallelly arranged in the middle of the top plate at intervals, a rotating shaft is horizontally and rotatably arranged between the two supports, and the rotating shaft is connected with an output shaft of the die-cutting motor; the transmission deflector rod is vertically arranged; the lifting seat is horizontally arranged between the top plate and the die-cutting base and is guided and limited by the guide post; the upper end and the lower end of the transmission deflector rod are respectively and rotatably connected to the rotating shaft and the lifting seat, the die cutting motor drives the upper end of the transmission deflector rod to rotate through the rotating shaft, and the lifting seat is driven to move up and down through the transmission deflector rod; the die cutting block is arranged at the bottom of the lifting seat and moves along with the lifting seat in a lifting manner so as to die-cut the label paper layer on the material belt.

Preferably, the material rolling mechanism comprises a material rolling support plate, a material rolling motor and a material rolling shaft, wherein the material rolling support plate is vertically arranged on the side plate and positioned at the side part of the die cutting mechanism; the coil motor is arranged on the side wall of the coil support plate; the coil stock axle is rotatably arranged on the side wall of the coil stock support plate and is positioned above the coil stock motor, the coil stock axle is connected with the output shaft of the coil stock motor through a transmission belt, and the coil stock motor drives the coil stock axle to rotate so as to collect the waste material coil of the die-cut label paper layer.

Preferably, the stripping mechanism comprises a stripping base, a stripping driving assembly and a stripping assembly, wherein the stripping base is horizontally arranged on the base, an installation space is formed in the middle of the stripping base, and sliding rails are respectively arranged at the tops of two side walls of the stripping base; the stripping driving assembly comprises a driving motor, a driving screw rod and a screw rod seat, wherein the driving motor is arranged at the side part of the stripping base, and an output shaft is arranged towards the direction of the installation space; the driving screw rod is arranged in the installation space and is connected with an output shaft of the driving motor; the screw rod seat is sleeved on the driving screw rod and is in threaded connection with the driving screw rod, the power of the driving motor is output to the driving screw rod, so that the driving screw rod rotates, and the driving screw rod drives the screw rod seat to linearly move back and forth.

Preferably, the stripping assembly comprises a stripping sliding seat, a stripping plate, a side baffle and a limiting plate, wherein the stripping sliding seat is slidably embedded on the sliding rail and fixedly connected with the screw rod seat, and the screw rod seat drives the stripping sliding seat to linearly move back and forth; the stripping plate is horizontally arranged at the top of the stripping sliding seat; the side baffles are correspondingly arranged on two sides of the stripping plate, and a clearance space is reserved between the side baffles and the stripping plate; the limiting plates comprise two limiting plates which are respectively and rotatably connected to the two side baffles through hinges; the material belt to be stripped passes through the clearance space between the stripping plate and the side baffle plate and is wound back to the lower part of the stripping plate, and the label paper die-cut on the material belt is stripped by the stripping plate.

Preferably, the material receiving mechanism comprises a material receiving motor, a material receiving shaft, a material pressing shaft and a transmission gear, wherein the material receiving motor is arranged on the base, and an output shaft of the material receiving motor horizontally penetrates through the side plate and extends from one side of the side plate to the other side of the side plate; the material receiving shafts are horizontally arranged at the side parts of the material receiving motor at intervals, and one end of each material receiving shaft penetrates through the side plate and extends from one side of the side plate to the other side; the two transmission gears are respectively sleeved on an output shaft and a receiving shaft of the receiving motor at the other side of the side plate, and the two gears are meshed with each other, and the receiving motor drives the receiving shaft to rotate through the transmission gears so as to collect the stripped material belt; the material pressing shafts are arranged on the side parts of the material receiving shafts at intervals in parallel and are rotatably connected to the side walls of the side plates, and the material belt penetrates through the clearance space between the material receiving shafts and the material pressing shafts and is pressed by the material pressing shafts so as to maintain the open state of the material belt.

The utility model has the beneficial effects that:

the utility model designs the full-automatic feeding, die cutting, stripping and receiving machine which integrates automatic feeding, die cutting, stripping and receiving into a whole, effectively reduces the conveying path of the material belt during die cutting, reduces the position deviation, clamping belt and surface folds, improves the die cutting efficiency and effectively improves the die cutting quality.

The utility model aims to develop a full-automatic feeding, die cutting, stripping and collecting machine which integrates a traditional feeding machine, a die cutting machine, a stripping machine and a collecting machine, reduces the equipment size, reduces the equipment manufacturing cost, and simultaneously effectively reduces the conditions of belt position deviation, clamping, surface fold folding and the like caused by the process of a conveying path by reducing the mode of the conveying path, thereby effectively improving the die cutting quality. According to the utility model, the rack with the side cabinet vertically arranged at the rear side is used as a bearing platform, the structural design of a material belt double-layer transmission mode is adopted, the material belt to be die-cut is guided into the die-cutting mechanism from the upper feeding mechanism along the left-to-right direction (the direction shown in figure 1) for die-cutting, after the waste is coiled and collected by the coiling mechanism, the material belt with the die-cut label paper enters the stripping mechanism to the right, when the material belt passes through the stripping mechanism, the label paper is stripped from the material belt, the stripped material belt passes through the stripping mechanism from the right-to-left direction and is coiled and recycled by the receiving mechanism arranged below the feeding mechanism, and the material belt transmission path with the double-layer structure along the vertical direction effectively utilizes the space of the side cabinet, effectively reduces the length of the whole machine and improves the space utilization rate.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

FIG. 2 is a schematic diagram of a second perspective structure of the present utility model.

FIG. 3 is a third perspective view of the present utility model.

Fig. 4 is a schematic perspective view of a die-cutting mechanism according to the present utility model.

FIG. 5 is a second perspective view of the die cutting mechanism of the present utility model.

Fig. 6 is a schematic perspective view of a stripping mechanism according to the present utility model.

Fig. 7 is a schematic diagram of a second perspective structure of the stripping mechanism of the present utility model.

Detailed Description

The utility model will be further described with reference to the accompanying drawings in which:

as shown in fig. 1 to 7, the technical scheme adopted by the utility model is as follows: a full-automatic feeding, die cutting, stripping and receiving machine comprises a supporting mechanism, a feeding mechanism, a die cutting mechanism 4, a material rolling mechanism 5, a stripping mechanism 6 and a receiving mechanism, wherein,

the supporting mechanism is horizontally arranged and comprises a horizontal supporting surface and a vertical supporting surface which are connected with each other;

the feeding mechanism is arranged at one end of the vertical supporting surface of the supporting mechanism, and a material belt adhered with materials is wound on the feeding mechanism and is led out;

the die cutting mechanism 4 is arranged on one side of the material guiding belt of the feeding mechanism, the material belt of the feeding mechanism passes through the die cutting mechanism 4, and the die cutting mechanism 4 is used for die-cutting materials on the material belt;

the material coiling mechanism 5 is arranged on one side of the material guiding belt of the die cutting mechanism 4, and the waste material belt after the material is die-cut by the die cutting mechanism 4 is coiled by the material coiling mechanism 5;

the material stripping mechanism 6 is arranged on one side of the material guiding belt of the die cutting mechanism 4, after die cutting is completed, the material belt of the material subjected to die cutting after adhesion enters the material stripping mechanism 6, and the material stripping mechanism 6 strips the material from the material belt;

the material receiving mechanism is arranged below the die cutting mechanism 4 and is used for collecting the material tape after the stripping is completed.

The material is label paper; the material belt in the feeding mechanism comprises two layers, namely a material belt and a label paper layer attached to the material belt.

The supporting mechanism comprises a base 1 and a side plate 2, wherein the base 1 is horizontally arranged; the side plate 2 is vertically connected to one side of the base 1.

The feeding mechanism comprises a feeding roll 3; the feed roll 3 is rotatably arranged on the side wall of the side plate 2, the feed roll 3 is wound with a material belt attached with a label paper layer, and the material belt is guided into the die cutting mechanism 4.

The die cutting mechanism 4 is used for die cutting the base 41, the guide post 42, the top plate 43 and the die cutting assembly, wherein the die cutting base 41 is horizontally fixed on the side plate 2; the guide posts 42 comprise at least two guide posts 42, and the at least two guide posts 42 are vertically arranged on the die-cutting base 41; the top plate 43 is arranged above the die-cutting base 41 in parallel and at intervals, and is carried and supported by at least two guide posts 42; the die-cutting assembly is arranged on the top plate 43 and extends between the die-cutting base 41 and the top plate 43, a material strip to be die-cut passes through the space between the die-cutting assembly and the die-cutting base 41, and the die-cutting assembly moves up and down along the vertical direction so as to die-cut the label paper layer on the material strip.

The die-cutting assembly comprises a die-cutting motor 44, a support 45, a transmission deflector rod 46, a lifting seat 47 and a die-cutting block 48, wherein the die-cutting motor 44 is arranged on one side of the upper part of the top plate 43; the two supports 45 are vertically and parallelly arranged in the middle of the top plate 43 at intervals, a rotating shaft is horizontally and rotatably arranged between the two supports 45, and the rotating shaft is connected with an output shaft of the die-cutting motor 44; the transmission deflector rod 46 is vertically arranged; the lifting seat 47 is horizontally arranged between the top plate 43 and the die-cutting base 41 and is guided and limited by the guide post 42; the upper end and the lower end of the transmission deflector rod 46 are respectively and rotatably connected to the rotating shaft and the lifting seat 47, the die cutting motor 44 drives the upper end of the transmission deflector rod 46 to rotate through the rotating shaft, and the lifting seat 47 is driven to move up and down through the transmission deflector rod 46; the die cutting block 48 is arranged at the bottom of the lifting seat 47, and the die cutting block 48 moves along with the lifting seat 47 in a lifting manner so as to die-cut the label paper layer on the material belt.

The coil stock mechanism 5 comprises a coil stock supporting plate, a coil stock motor 51 and a coil stock shaft 52, wherein the coil stock supporting plate is vertically arranged on the side plate and is positioned at the side part of the die cutting mechanism 4; the coil motor 51 is arranged on the side wall of the coil support plate; the coil stock shaft 52 is rotatably arranged on the side wall of the coil stock support plate and is positioned above the coil stock motor 51, the coil stock shaft 52 is connected with the output shaft of the coil stock motor 51 through a transmission belt, and the coil stock motor 51 drives the coil stock shaft 52 to rotate so as to collect the waste coil of the die-cut label paper layer.

The stripping mechanism 6 comprises a stripping base 61, a stripping driving assembly and a stripping assembly, wherein the stripping base 61 is horizontally arranged on the base 1, an installation space is formed in the middle of the stripping base 61, and sliding rails 65 are respectively arranged at the tops of two side walls of the stripping base 61; the stripping driving assembly comprises a driving motor 62, a driving screw 63 and a screw seat 64, wherein the driving motor 62 is arranged at the side part of the stripping base 61, and an output shaft is arranged towards the direction of the installation space; the driving screw 63 is arranged in the installation space and is connected with an output shaft of the driving motor 62; the screw rod seat 64 is sleeved on the driving screw rod 63 and is in threaded connection with the driving screw rod 63, the power of the driving motor 62 is output to the driving screw rod 63, so that the driving screw rod 63 rotates, and the driving screw rod 63 drives the screw rod seat 64 to linearly move back and forth.

The stripping assembly comprises a stripping slide seat 66, a stripping plate 67, a side baffle 68 and a limiting plate 69, wherein the stripping slide seat 66 is slidably embedded on the sliding rail 65 and fixedly connected with the screw rod seat 64, and the screw rod seat 64 drives the stripping slide seat 66 to linearly move back and forth; the stripping plate 67 is horizontally arranged on the top of the stripping sliding seat 66; the two side baffles 68 are correspondingly arranged at two sides of the stripping plate 67, and a clearance space is reserved between the two side baffles 68 and the stripping plate 67; the limiting plates 69 comprise two limiting plates 69, and the two limiting plates 69 are respectively and rotatably connected to the two side baffle plates 68 through hinges; the material belt to be stripped passes through the clearance space between the stripping plate 67 and the side baffle 68 and is wound back to the lower part of the stripping plate 67, and the label paper die-cut on the material belt is stripped by the stripping plate 67.

The material receiving mechanism comprises a material receiving motor 7, a material receiving shaft 8, a material pressing shaft 9 and a transmission gear 10, wherein the material receiving motor 7 is arranged on the base 1, and an output shaft of the material receiving motor horizontally penetrates through the side plate 2 and extends from one side of the side plate 2 to the other side; the material receiving shafts 8 are horizontally arranged at intervals on the side parts of the material receiving motor 7, and one end of each material receiving shaft 8 penetrates through the side plate 2 and extends from one side of the side plate 2 to the other side; the two transmission gears 10 are respectively sleeved on an output shaft of the material receiving motor 7 and a material receiving shaft 8 at the other side of the side plate 2, the two gears 10 are meshed with each other, and the material receiving motor 7 drives the material receiving shaft 8 to rotate through the transmission gears 10 so as to collect the stripped material belt; the material pressing shafts 9 are arranged on the side parts of the material receiving shafts 8 at intervals in parallel and are rotatably connected to the side walls of the side plates 2, and the material belts penetrate through the clearance space between the material receiving shafts 8 and the material pressing shafts 9 and are pressed by the material pressing shafts 9 so as to maintain the open state of the material belts.

Furthermore, the utility model designs the full-automatic feeding, die cutting, stripping and collecting machine which integrates automatic feeding, die cutting, stripping and collecting, effectively reduces the conveying path of the material belt during die cutting, reduces the position deviation, clamping belt and surface folds, and effectively improves the die cutting quality while improving the die cutting efficiency. The utility model aims to develop a full-automatic feeding, die cutting, stripping and collecting machine which integrates a traditional feeding machine, a die cutting machine, a stripping machine and a collecting machine, reduces the equipment size, reduces the equipment manufacturing cost, and simultaneously effectively reduces the conditions of belt position deviation, clamping, surface fold folding and the like caused by the process of a conveying path by reducing the mode of the conveying path, thereby effectively improving the die cutting quality. According to the utility model, the rack with the side cabinet vertically arranged at the rear side is used as a bearing platform, the structural design of a material belt double-layer transmission mode is adopted, the material belt to be die-cut is guided into the die-cutting mechanism from the upper feeding mechanism along the left-to-right direction (the direction shown in figure 1) for die-cutting, after the waste is coiled and collected by the coiling mechanism, the material belt with the die-cut label paper enters the stripping mechanism to the right, when the material belt passes through the stripping mechanism, the label paper is stripped from the material belt, the stripped material belt passes through the stripping mechanism from the right-to-left direction and is coiled and recycled by the receiving mechanism arranged below the feeding mechanism, and the material belt transmission path with the double-layer structure along the vertical direction effectively utilizes the space of the side cabinet, effectively reduces the length of the whole machine and improves the space utilization rate.

The examples of the present utility model are presented only to describe specific embodiments thereof and are not intended to limit the scope of the utility model. Certain modifications may be made by those skilled in the art in light of the teachings of this embodiment, and all equivalent changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (10)

1. A full-automatic feeding, die cutting, stripping and receiving machine is characterized in that: comprises a supporting mechanism, a feeding mechanism, a die cutting mechanism (4), a material rolling mechanism (5), a material stripping mechanism (6) and a material receiving mechanism, wherein,

the supporting mechanism is horizontally arranged and comprises a horizontal supporting surface and a vertical supporting surface which are connected with each other;

the feeding mechanism is arranged at one end of the vertical supporting surface of the supporting mechanism, and a material belt adhered with materials is wound on the feeding mechanism and is led out;

the die cutting mechanism (4) is arranged on one side of the material guiding belt of the feeding mechanism, the material belt of the feeding mechanism passes through the die cutting mechanism (4), and the die cutting mechanism (4) is used for die-cutting materials on the material belt;

the material coiling mechanism (5) is arranged at one side of the material strip led out by the die cutting mechanism (4), and the waste material strip after the material is die-cut by the die cutting mechanism (4) is coiled by the material coiling mechanism (5);

the material stripping mechanism (6) is arranged at one side of the die cutting mechanism (4) from which the material belt is led out, after die cutting is completed, the material belt of the material subjected to die cutting after adhesion enters the material stripping mechanism (6), and the material stripping mechanism (6) strips the material from the material belt;

the material receiving mechanism is arranged below the die cutting mechanism (4) and is used for collecting the material tape after the material stripping is completed.

2. The full-automatic feeding, die cutting, stripping and receiving machine according to claim 1, wherein: the material is label paper; the material belt in the feeding mechanism comprises two layers, namely a material belt and a label paper layer attached to the material belt.

3. The full-automatic feeding, die cutting, stripping and receiving machine according to claim 2, wherein: the supporting mechanism comprises a base (1) and side plates (2), wherein the base (1) is horizontally arranged; the side plate (2) is vertically connected to one side of the base (1).

4. A fully automatic feed, die cutting, stripping and receiving machine as claimed in claim 3, wherein: the feeding mechanism comprises a feeding roll (3); the feeding roll (3) is rotatably arranged on the side wall of the side plate (2), a material belt attached with a label paper layer is wound on the feeding roll (3), and the material belt is guided into the die cutting mechanism (4).

5. The full-automatic feeding, die cutting, stripping and receiving machine according to claim 4, wherein: the die cutting mechanism (4) is used for die cutting the base (41), the guide post (42), the top plate (43) and the die cutting assembly, wherein the die cutting base (41) is horizontally fixed on the side plate (2); the guide posts (42) comprise at least two guide posts (42) which are vertically arranged on the die-cutting base (41); the top plates (43) are arranged above the die-cutting base (41) at intervals in parallel and are supported by at least two guide posts (42); the die-cutting assembly is arranged on the top plate (43) and extends between the die-cutting base (41) and the top plate (43), a material belt to be die-cut passes through the space between the die-cutting assembly and the die-cutting base (41), and the die-cutting assembly moves up and down along the vertical direction so as to die-cut the label paper layer on the material belt.

6. The full-automatic feeding, die cutting, stripping and receiving machine according to claim 5, wherein: the die-cutting assembly comprises a die-cutting motor (44), a support (45), a transmission deflector rod (46), a lifting seat (47) and a die-cutting block (48), wherein the die-cutting motor (44) is arranged on one side of the upper part of the top plate (43); the two supports (45) are vertically and parallelly arranged in the middle of the top plate (43) at intervals, a rotating shaft is horizontally and rotatably arranged between the two supports (45), and the rotating shaft is connected with an output shaft of the die-cutting motor (44); the transmission deflector rod (46) is vertically arranged; the lifting seat (47) is horizontally arranged between the top plate (43) and the die-cutting base (41) and is guided and limited by the guide post (42); the upper end and the lower end of the transmission deflector rod (46) are respectively and rotatably connected to the rotating shaft and the lifting seat (47), the die cutting motor (44) drives the upper end of the transmission deflector rod (46) to rotate through the rotating shaft, and the lifting seat (47) is driven to move up and down through the transmission deflector rod (46); the die cutting block (48) is arranged at the bottom of the lifting seat (47), and the die cutting block (48) moves along with the lifting seat (47) in a lifting manner so as to die-cut the label paper layer on the material belt.

7. The fully automatic feed, die cutting, stripping and receiving machine of claim 6, wherein: the coiling mechanism (5) comprises a coiling support plate, a coiling motor (51) and a coiling shaft (52), wherein the coiling support plate is vertically arranged on the side plate and is positioned at the side part of the die cutting mechanism (4); the coil motor (51) is arranged on the side wall of the coil support plate; the coil stock axle (52) is rotatably arranged on the side wall of the coil stock support plate and is positioned above the coil stock motor (51), the coil stock axle (52) is connected with the output shaft of the coil stock motor (51) through a transmission belt, and the coil stock motor (51) drives the coil stock axle (52) to rotate so as to collect the waste material coil of the die-cut label paper layer.

8. The fully automatic feed, die cutting, stripping and receiving machine of claim 6, wherein: the stripping mechanism (6) comprises a stripping base (61), a stripping driving assembly and a stripping assembly, wherein the stripping base (61) is horizontally arranged on the base (1), an installation space is formed in the middle of the stripping base (61), and sliding rails (65) are respectively arranged at the tops of two side walls of the stripping base (61); the stripping driving assembly comprises a driving motor (62), a driving screw rod (63) and a screw rod seat (64), wherein the driving motor (62) is arranged at the side part of the stripping base (61), and an output shaft is arranged towards the direction of the installation space; the driving screw rod (63) is arranged in the installation space and is connected with an output shaft of the driving motor (62); the screw rod seat (64) is sleeved on the driving screw rod (63) and is in threaded connection with the driving screw rod (63), the power of the driving motor (62) is output to the driving screw rod (63), the driving screw rod (63) is enabled to rotate, and the driving screw rod (63) drives the screw rod seat (64) to linearly move back and forth.

9. The full-automatic feeding, die cutting, stripping and receiving machine as claimed in claim 8, wherein: the stripping assembly comprises a stripping sliding seat (66), a stripping plate (67), a side baffle (68) and a limiting plate (69), wherein the stripping sliding seat (66) is slidably embedded on the sliding rail (65) and fixedly connected with the screw rod seat (64), and the screw rod seat (64) drives the stripping sliding seat (66) to linearly move back and forth; the stripping plate (67) is horizontally arranged at the top of the stripping sliding seat (66); the side baffles (68) comprise two side baffles (68), and the two side baffles (68) are correspondingly arranged on two sides of the stripping plate (67) and a clearance space is reserved between the side baffles and the stripping plate (67); the limiting plates (69) comprise two limiting plates (69), and the two limiting plates (69) are respectively and rotatably connected to the two side baffles (68) through hinges; the material belt to be stripped passes through the clearance space between the stripping plate (67) and the side baffle (68) and is wound back to the lower part of the stripping plate (67), and the label paper die-cut on the material belt is stripped by the stripping plate (67).

10. The full-automatic feeding, die cutting, stripping and receiving machine as claimed in claim 8, wherein: the material receiving mechanism comprises a material receiving motor (7), a material receiving shaft (8), a material pressing shaft (9) and a transmission gear (10), wherein the material receiving motor (7) is arranged on the base (1), and an output shaft of the material receiving motor horizontally penetrates through the side plate (2) and extends from one side of the side plate (2) to the other side; the material receiving shafts (8) are horizontally arranged at the side parts of the material receiving motor (7) at intervals, and one end of each material receiving shaft (8) penetrates through the side plate (2) and extends from one side of the side plate (2) to the other side; the two transmission gears (10) are respectively sleeved on an output shaft of a material receiving motor (7) and a material receiving shaft (8) at the other side of the side plate (2), the two gears (10) are meshed with each other, and the material receiving motor (7) drives the material receiving shaft (8) to rotate through the transmission gears (10) so as to collect stripped material bands; the material pressing shafts (9) are arranged on the side parts of the material receiving shafts (8) at intervals in parallel and are rotatably connected to the side walls of the side plates (2), and the material belt passes through a clearance space between the material receiving shafts (8) and the material pressing shafts (9) and is pressed by the material pressing shafts (9) so as to maintain the open state of the material belt.