CN115195193B

CN115195193B - Automatic accurate perforating device of continuous type of drinks packing carton

Info

Publication number: CN115195193B
Application number: CN202210874095.4A
Authority: CN
Inventors: 徐大伟; 徐大宇; 庄兆耀
Original assignee: JIANGSU HUAYU PRINTING CO Ltd
Current assignee: JIANGSU HUAYU PRINTING CO Ltd
Priority date: 2022-07-25
Filing date: 2022-07-25
Publication date: 2023-08-25
Anticipated expiration: 2042-07-25
Also published as: CN115195193A

Abstract

The invention discloses a continuous automatic accurate hole cutting device for wine packaging boxes, which comprises a frame, a conveying device, a feeding mechanism, a pressing hole cutting mechanism and a discharging mechanism, wherein the feeding mechanism is arranged on the frame; the feeding device is connected above one end of the frame, a platform is connected above the other end of the frame, and the feeding device and the pressing hole cutting mechanism are connected above the frame; the feeding mechanism is connected to the frame and the platform, and one end of the feeding mechanism is positioned above the material conveying device; the pressing and hole cutting mechanism comprises a pressing assembly and a hole cutting assembly; the pressing assembly is connected to the platform, and the hole cutting assembly is connected to the side part of the pressing assembly; the blanking mechanism is connected to the platform, and is located right above the pressing hole cutting mechanism, and the blanking mechanism is connected with a pushing plate which is flush with the blanking mechanism. The invention integrates material conveying, material feeding, pressing, punching and blanking, does not need manual positioning, ensures the product quality, does not need manual feeding and blanking, and greatly improves the production efficiency.

Description

Automatic accurate perforating device of continuous type of drinks packing carton

Technical Field

The invention relates to the technical field of packaging box processing equipment, in particular to a continuous automatic accurate hole cutting device for wine packaging boxes.

Background

The wine box is a common packing box for packing bottled wine, and most of the existing wine boxes are a combination of a box body and a box cover, and are used for loading and containing wine bottles through the box body and sealing through the box cover. The traditional wine box has a single opening mode, and has no good display effect after being opened, so that the wine box cannot show high-grade level for higher-grade wine. Along with the improvement of the living standard of people, people put forward higher requirements on the wine box, and also put forward higher requirements on the packaging of wine bottles, how to design richer and more various wine bottle packages and open the wine box with more changes is the innovation focus and direction of the wine bottle packages and the wine box.

In recent years, split wine boxes have been popular in the market. The split wine box comprises a base and two box bodies shown in figure 11, wherein one end of each box body is provided with a through hole with two sizes for installing a lock catch. The existing punching equipment needs to rely on manual positioning, and the box body is easily deviated in the punching process due to uncertain factors of manual positioning, so that deviation occurs between the punching position and a preset position, and the product is damaged; in addition, the existing punching equipment mostly needs manual feeding and discharging, and production efficiency is greatly reduced.

Disclosure of Invention

The invention aims to provide a continuous automatic accurate hole cutting device for wine packaging boxes, which integrates material conveying, material feeding, pressing punching and material discharging, does not need manual positioning, ensures the product quality, does not need manual feeding and discharging, greatly improves the production efficiency and solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a continuous automatic accurate hole cutting device for wine packaging boxes comprises a frame, a material conveying device, a material feeding mechanism, a pressing hole cutting mechanism and a material discharging mechanism; the feeding device is connected above one end of the frame, a platform is connected above the other end of the frame, and the feeding device and the pressing hole cutting mechanism are connected above the frame; the feeding mechanism is connected to the frame and the platform, one end of the feeding mechanism is positioned above the material conveying device, and the other end of the feeding mechanism is positioned above the pressing and hole cutting mechanism; the pressing and hole cutting mechanism comprises a pressing assembly and a hole cutting assembly; the pressing assembly is connected to the platform, and the hole cutting assembly is connected to the side part of the pressing assembly; the blanking mechanism is connected to the platform, and is located right above the pressing hole cutting mechanism, and the blanking mechanism is connected with a pushing plate which is flush with the blanking mechanism.

The invention further adopts the improvement that a power cabinet and a control cabinet are connected in the stand, and a foot cup is connected at the bottom end of the stand; the conveying device is a PVC belt conveyor, the conveying device is arranged along the length direction of the top of the frame, and one end of the conveying device extends to the outer side of the frame.

The invention further improves the scheme that the feeding mechanism comprises a vertical plate, a bracket, a linear sliding table module A, a front supporting plate and a rear supporting plate; the vertical plates are connected to the frames on two sides of the material conveying device, the supports are symmetrically connected to the platform, the two linear sliding table modules A are respectively connected to one side of the vertical plates and the supports, the linear sliding table modules A are integrally distributed along the length direction of the frames, and the two linear sliding table modules A are parallel to each other; two ends of the front support plate and the rear support plate are respectively connected with the sliding blocks of the two linear sliding table modules A, and the front support plate and the rear support plate are connected with the linear sliding table modules B; the pushing plate is T-shaped, and the returning plate is connected to the front supporting plate.

According to a further improvement scheme, a first support is connected to the rear supporting plate, and a first cylinder is vertically connected to the first support; the power output end of the first cylinder is connected with a first material taking plate, and a plurality of first suckers are connected to the first material taking plate; the sliding block of the linear sliding table module B is connected with a second support, a second cylinder is vertically connected to the second support, a power output end of the second cylinder is connected with a second material taking plate, and a plurality of second suckers are connected to the second material taking plate.

The invention further improves the scheme that the pressing hole cutting mechanisms are two arranged along the length direction of the top of the frame; the pressing assembly comprises a module, a side pressing plate and a back pressing plate; the module is connected to the platform, the platforms on two sides of the module are connected with a third support, a third cylinder is transversely connected to the upper part of the third support, and the side pressure plate is connected to the power output end of the third cylinder; the platforms at two sides of the module are provided with notches, the bottoms of the platforms at two sides of the module are connected with fourth supports, and the fourth supports are transversely connected with fourth cylinders; the power output end of the fourth cylinder is connected with a back pressure plate, two sides of the fourth cylinder are connected with a linear guide rail A, and two ends of the U-shaped frame are connected to the sliding blocks of the linear guide rail A; the back pressure plate is connected to the U-shaped frame, passes through the notch and extends to the side part of the module, and the third cylinder, the fourth cylinder drive the side pressure plate and the back pressure plate to move in opposite directions or in opposite directions.

According to a further improvement scheme, a limiting plate perpendicular to the back pressure plate is connected to a platform at one end of the back pressure plate, when the back pressure plate moves to a limit position close to a module, the inner side surface of the side pressure plate is abutted to two ends of the limiting plate, and a guide sleeve is connected to the limiting plate; the chip removing device is characterized in that a position avoiding block is connected between the limiting plate and the module, a position avoiding hole is formed in the position avoiding block, and a notch for chip removal is formed in the position avoiding block.

According to a further improvement scheme, the hole cutting assembly comprises a fifth air cylinder, an end pressing plate and a cutter; a fifth support is connected to the platform at the end part of the module, and a fifth cylinder is connected to the fifth support; the power output end of the fifth air cylinder is connected with a transverse plate, the platforms at the two ends of the transverse plate are connected with a linear guide rail B, and the two ends of the transverse plate are connected to the sliding blocks of the linear guide rail B; the transverse plate is connected with a cutter seat, three cutters with large middle parts and small two sides are arranged on the transverse plate, and the cutters are detachably connected to the cutter seat; the end pressing plate is parallel to the transverse plate, sliding sleeves are connected to two ends of the transverse plate, sliding rods are connected to two ends of the end pressing plate, the sliding rods are connected to the sliding sleeves in a sliding mode, and springs are sleeved on the outer walls of the sliding rods between the end pressing plate and the transverse plate.

According to a further improvement scheme, the blanking mechanism comprises a sixth air cylinder and an upper pressing plate; the two sides of the platform are connected with upright posts, the top ends of the upright posts are connected with cross beams, a sixth air cylinder is vertically connected to the cross beams right above the two pressing hole cutting mechanisms, an upper pressing plate is connected to the power output end of the sixth air cylinder, and the bottom of the upper pressing plate is connected with a plurality of third suckers; when the upper pressing plate rises to the limit position, the upright posts at the two ends of the upper pressing plate are connected with T-shaped plates; a seventh support and an eighth support are connected to the T-shaped plate, a seventh air cylinder is connected to the seventh support, and an eighth air cylinder is connected to the eighth support; the power output end of the seventh cylinder is connected with an L-shaped first supporting plate, the power output end of the eighth cylinder is connected with an L-shaped second supporting plate, and the seventh cylinder and the eighth cylinder drive the first supporting plate and the second supporting plate to move oppositely or reversely.

According to a further improvement scheme, the blanking mechanism further comprises a blanking plate; the blanking plate is connected to one end of the frame through the vertical rod in an inclined mode, one end of the blanking plate is in butt joint with one ends of the first supporting plate and the second supporting plate, and a notch of the avoidance pushing plate is formed in the blanking plate.

According to a further improvement scheme, the material conveying device, the material feeding mechanism, the pressing hole cutting mechanism and the material discharging mechanism are two groups which are symmetrically arranged.

The invention has the beneficial effects that:

the continuous automatic accurate hole cutting device for the wine packaging box integrates material conveying, material feeding, pressing punching and discharging, does not need manual positioning, ensures the product quality, does not need manual feeding and discharging, and greatly improves the production efficiency.

Secondly, the continuous automatic accurate hole cutting device for the wine packaging box is characterized in that the conveying device is a PVC belt conveyor, and an operator only needs to place the box body on the conveying device, so that the box body can automatically move towards the feeding mechanism.

Third, the continuous automatic accurate hole cutting device of the wine packing box provided by the invention has the advantages that the feeding mechanism comprises the first material taking plate and the second material taking plate which are arranged front and back, the first type can grasp two box bodies to the pressing hole cutting mechanism, and the hole cutting efficiency is improved.

Fourth, the continuous automatic accurate hole cutting device for wine packaging boxes improves the fixing of the box body in multiple directions of the side pressing plate, the back pressing plate, the end pressing plate and the upper pressing plate during hole cutting, ensures that the position of the box body is not deviated, and improves the hole cutting precision.

Fifth, the continuous automatic accurate hole cutting device for wine packaging boxes of the invention has the advantages that the blanking mechanism places the box bodies after hole cutting on the first supporting plate and the second supporting plate, when the two box bodies are fed, the blanking plate is improved to realize the blanking of the first two box bodies, and the working efficiency is further improved.

Sixth, the continuous automatic accurate hole cutting device of the wine packaging box of the invention has two groups of material conveying devices, material feeding mechanisms, pressing hole cutting mechanisms and material discharging mechanisms which are symmetrically arranged left and right, so that the working efficiency is further improved.

Drawings

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

Fig. 2 is a schematic diagram of the overall structure of the present invention.

Fig. 3 is a front view of the present invention.

Fig. 4 is a schematic structural view of the feeding mechanism of the present invention.

Fig. 5 is a schematic structural view of the feeding mechanism of the present invention.

Fig. 6 is a schematic structural diagram of the press-fit hole cutting mechanism of the present invention.

Fig. 7 is a schematic structural diagram of the press-fit hole cutting mechanism of the present invention.

FIG. 8 is a schematic view of a hole cutting assembly according to the present invention.

Fig. 9 is a schematic structural view of the blanking mechanism of the present invention.

Fig. 10 is a schematic structural view of the blanking mechanism of the present invention.

Fig. 11 is a schematic diagram of the structure of the split wine box.

Detailed Description

The invention is further elucidated below in connection with the drawings and the specific embodiments.

Example 1: as shown in fig. 1 to 6, the continuous automatic accurate hole cutting device for wine packaging boxes comprises a frame 1, a material conveying device 2, a material feeding mechanism 3, a pressing hole cutting mechanism 4 and a material discharging mechanism 5; the material conveying device 2 is connected above one end of the frame 1, a platform 6 is connected above the other end of the frame 1, and the material conveying device and the pressing and hole cutting mechanism 4 are connected above the frame 1; the feeding mechanism 3 is connected to the frame 1 and the platform 6, one end of the feeding mechanism 3 is positioned above the material conveying device 2, and the other end of the feeding mechanism is positioned above the pressing and hole cutting mechanism 4; the pressing and hole cutting mechanism 4 comprises a pressing assembly 401 and a hole cutting assembly 403; the pressing assembly 401 is connected to the platform 6, and the hole cutting assembly 403 is connected to the side part of the pressing assembly 401; the blanking mechanism 5 is connected to the platform 6, the blanking mechanism 5 is located right above the pressing and hole cutting mechanism 4, and the feeding mechanism 3 is connected with a pushing plate 7 flush with the blanking mechanism 5.

Wherein, a power cabinet 101 and a control cabinet 102 are connected in the frame 1, and a foot cup 103 is connected at the bottom end of the frame 1; the conveying device 2 is a PVC belt conveyor, the conveying device 2 is arranged along the length direction of the top of the frame 1, and one end of the conveying device 2 extends to the outer side of the frame 1.

Wherein, the feeding mechanism 3 comprises a vertical plate 301, a bracket 302, a linear sliding table module A303, a front supporting plate 304 and a rear supporting plate 305; the vertical plate 301 is connected to the frame 1 at two sides of the material conveying device 2, the bracket 302 is symmetrically connected to the platform 6, the two linear sliding table modules A303 are respectively connected to the vertical plate 301 and the bracket 302 at one side, the linear sliding table modules A303 are integrally arranged along the length direction of the frame 1, and the two linear sliding table modules A303 are parallel to each other; two ends of the front support plate 304 and the rear support plate 305 are respectively connected with the sliding blocks of the two linear sliding table modules A303, and the front support plate 304 and the rear support plate 305 are connected with the linear sliding table module B306; the pushing plate 7 is T-shaped, and the returning plate is connected to the front supporting plate 304.

Wherein, the rear supporting plate 305 is connected with a first support, and the first support is vertically connected with a first cylinder 307; the power output end of the first air cylinder 307 is connected with a first material taking plate 308, and the first material taking plate 308 is connected with a plurality of first suckers 309; the sliding block of the linear sliding table module B306 is connected with a second support, a second cylinder 310 is vertically connected to the second support, a second material taking plate 311 is connected to the power output end of the second cylinder 310, and a plurality of second suckers 312 are connected to the second material taking plate 311.

Wherein, the pressing and hole cutting mechanisms 4 are two arranged along the length direction of the top of the frame 1; the pressing assembly 401 includes a module 4011, a side pressing plate 4012, and a back pressing plate 4013; the module 4011 is connected to the platform 6, the platforms 6 on two sides of the module 4011 are connected with a third support, a third cylinder 4014 is transversely connected to the upper part of the third support, and the side pressure plate 4012 is connected to the power output end of the third cylinder 4014; the platforms 6 on two sides of the module 4011 are provided with notches 601, the bottoms of the platforms 6 on two sides of the module 4011 are connected with fourth supports, and the fourth supports are transversely connected with fourth cylinders 4015; the power output end of the fourth cylinder 4015 is connected with a back pressure plate 4013, two sides of the fourth cylinder 4015 are connected with a linear guide rail A4017, and two ends of a U-shaped frame 4016 are connected to a sliding block of the linear guide rail A4017; the back pressure plate 4013 is connected to the U-shaped frame 4016, the back pressure plate 4013 extends to the side of the module 4011 through the notch 601, and the third cylinder 4014 and the fourth cylinder 4015 drive the side pressure plate 4012 and the back pressure plate 4013 to move in opposite directions or reverse directions.

Wherein, the platform 6 at one end of the back pressure plate 4013 is connected with a limiting plate 4018 perpendicular to the back pressure plate 4013, when the side pressure plate 4012 moves to a limit position close to the module 4011, the inner side surface of the side pressure plate 4012 is abutted to two ends of the limiting plate 4018, and the limiting plate 4018 is connected with a guide sleeve; a avoidance block 4020 is connected between the limiting plate 4018 and the module 4011, a avoidance hole 4021 is formed in the avoidance block 4020, and a notch 4022 for chip removal is formed in the avoidance block 4020.

Wherein, the hole cutting assembly 403 includes a fifth cylinder 4031, an end pressing plate 4032 and a cutter 4033; a fifth support is connected to the platform 6 at the end of the module 4011, and a fifth cylinder 4031 is connected to the fifth support; the power output end of the fifth air cylinder 4031 is connected with a transverse plate 4034, the platforms 6 at the two ends of the transverse plate 4034 are connected with a linear guide rail B4035, and the two ends of the transverse plate 4034 are connected with a sliding block of the linear guide rail B4035; the transverse plate 4034 is connected with a cutter holder 4036, the number of the cutters 4033 is three, the middle of the cutter is big, the two sides of the cutter are small, and the cutters 4033 are detachably connected to the cutter holder 4036; the end pressing plate 4032 is parallel to the transverse plate 4034, sliding sleeves are connected to the two ends of the transverse plate 4034, sliding rods 4037 are connected to the two ends of the end pressing plate 4032, the sliding rods 4037 are connected to the sliding sleeves in a sliding mode, and springs 4038 are sleeved on the outer walls of the sliding rods 4037 between the end pressing plate 4032 and the transverse plate 4034.

Wherein, the blanking mechanism 5 comprises a sixth cylinder 501 and an upper pressing plate 502; two sides of the platform 6 are connected with upright posts 503, top ends of the upright posts 503 are connected with cross beams 504, a sixth air cylinder 501 is vertically connected to the cross beams 504 right above the two pressing hole cutting mechanisms 4, an upper pressing plate 502 is connected to a power output end of the sixth air cylinder 501, and a plurality of third suckers 505 are connected to the bottom of the upper pressing plate 502; when the upper pressing plate 502 rises to the limit position, the upright posts 503 at the two ends of the upper pressing plate 502 are connected with T-shaped plates 506; a seventh support and an eighth support are connected to the T-shaped plate 506, a seventh air cylinder 507 is connected to the seventh support, and an eighth air cylinder 508 is connected to the eighth support; the power output end of the seventh air cylinder 507 is connected with a first L-shaped supporting plate 509, the power output end of the eighth air cylinder 507 is connected with a second L-shaped supporting plate 510, and the seventh air cylinder 507 and the eighth air cylinder 508 drive the first supporting plate 509 and the second supporting plate 510 to move in opposite directions or in opposite directions.

Wherein, the blanking mechanism 5 further comprises a blanking plate 511; the blanking plate 511 is connected to one end of the frame 1 through the vertical rod in an inclined mode, one end of the blanking plate 511 is in butt joint with one end of the first supporting plate 509 and one end of the second supporting plate 510, and the blanking plate 511 is provided with a notch 512 for avoiding the position pushing plate 7.

Wherein, the material conveying device 2, the feeding mechanism 3, the pressing hole cutting mechanism 4 and the discharging mechanism 5 are two groups which are symmetrically arranged left and right.

The specific working principle of this embodiment is as follows:

s1, conveying: the box body 8 of hole to be cut is orderly placed on a PVC belt conveyor by an operator, and the PVC belt conveyor conveys the box body 8 to the bottom of the feeding mechanism 3.

S2, feeding: the linear sliding table module B306 drives the second air cylinder 310 to move to the limit position close to the PVC belt conveyor end; the first air cylinder 307 and the second air cylinder 310 extend synchronously, the first suction cup 309 and the second suction cup 312 vacuumize, and after the two box bodies 8 are synchronously grabbed, the first air cylinder 307 and the second air cylinder 310 retract; the linear sliding table module B306 drives the second air cylinder 310 to move to a limit position far away from the PVC belt conveyor end, and at the moment, the distance between the first air cylinder 307 and the second air cylinder 310 is just equal to the distance between the two pressing hole cutting mechanisms 4; the linear sliding table module A303 drives the first air cylinder 307 and the second air cylinder 310 to integrally move towards the end of the pressing and hole cutting mechanism 4, and when the two box bodies 8 move to be right above the two pressing and hole cutting mechanisms 4, the linear sliding table module A303 stops working; the first air cylinder 307 and the second air cylinder 310 extend out, the box body 8 is clamped on the outer wall of the module 4011, air enters the first sucker 309 and the second sucker 312, and the first sucker 309 and the second sucker 312 are separated from the box body 8; the first air cylinder 307 and the second air cylinder 310 retract, and the linear sliding table module A303 drives the first air cylinder 307 and the second air cylinder 310 to return to the upper part of the PVC belt conveyor, so that two pieces of box bodies 8 are grabbed.

S3, pressing and cutting holes: the third cylinder 4014, the fifth cylinder 4031 and the sixth cylinder 501 extend, the fourth cylinder 4015 retracts, the side pressing plate 4012 and the back pressing plate 4013 fix the side part of the box body 8, the upper pressing plate 502 presses the upper part of the box body 8, and the end pressing plate 4032 presses the end part of the box body 8; the fifth cylinder 4031 continues to extend, the end pressing plate 4032 stops moving, the cutter 4033 continues to extend and pass through the box body 8 and the guide sleeve to enter the avoidance hole 4021, and the cut paper scraps are discharged from the notch 4022, so that the processing of the through hole 801 on the box body 8 is completed; the third cylinder 4014 and the fifth cylinder 4031 are retracted, and the fourth cylinder 4015 is extended.

S4, blanking: the third sucker 505 is vacuumized and absorbs the box body 8 with the cut holes, the sixth air cylinder 501 is retracted, the box body 8 is grabbed above the first supporting plate 509 and the second supporting plate 510, the seventh air cylinder 507 and the eighth air cylinder 508 are extended, the box body 8 is loosened by the third sucker 505, and the box body 8 falls onto the first supporting plate 509 and the second supporting plate 510; meanwhile, the linear sliding table module a303 drives the first air cylinder 307 and the second air cylinder 310 to integrally move towards the press fit hole cutting mechanism 4 after grabbing the box body 8, and the pushing plate 7 pushes the box body 8 after hole cutting to the blanking plate 511 to fall.

The foregoing embodiments are merely illustrative of the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and to implement the same, not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be included in the scope of the present invention.

Claims

1. Automatic accurate perforating device of continuous type of drinks packing carton, its characterized in that: comprises a frame (1), a material conveying device (2), a material feeding mechanism (3), a pressing and cutting Kong Jigou (4) and a material discharging mechanism (5);

the material conveying device (2) is connected above one end of the frame (1), a platform (6) is connected above the other end of the frame (1), and the material conveying device and the pressing cutter Kong Jigou (4) are connected above the frame (1);

the feeding mechanism (3) is connected to the frame (1) and the platform (6), one end of the feeding mechanism (3) is positioned above the feeding device (2), and the other end of the feeding mechanism is positioned above the pressing cutter Kong Jigou (4);

the pressing and cutting Kong Jigou (4) comprises a pressing component (401) and a cutting hole component (403); the pressing assembly (401) is connected to the platform (6), and the hole cutting assembly (403) is connected to the side part of the pressing assembly (401);

the blanking mechanism (5) is connected to the platform (6), the blanking mechanism (5) is positioned right above the pressing cut Kong Jigou (4), and the feeding mechanism (3) is connected with a pushing plate (7) which is flush with the blanking mechanism (5);

the pressing cuts Kong Jigou (4) are two arranged along the length direction of the top of the frame (1); the pressing assembly (401) comprises a module (4011), a side pressure plate (4012) and a back pressure plate (4013); the module (4011) is connected to the platform (6), the platforms (6) on two sides of the module (4011) are connected with a third support, a third cylinder (4014) is transversely connected to the upper part of the third support, and the side pressure plate (4012) is connected to the power output end of the third cylinder (4014); the platforms (6) on two sides of the module (4011) are provided with notches (601), the bottoms of the platforms (6) on two sides of the module (4011) are connected with fourth supports, and the fourth supports are transversely connected with fourth cylinders (4015); the power output end of the fourth air cylinder (4015) is connected with a back pressure plate (4013), two sides of the fourth air cylinder (4015) are connected with a linear guide rail A (4017), and two ends of the U-shaped frame (4016) are connected to sliding blocks of the linear guide rail A (4017); the back pressure plate (4013) is connected to the U-shaped frame (4016), the back pressure plate (4013) penetrates through the notch (601) and extends to the side part of the module (4011), and the third cylinder (4014) and the fourth cylinder (4015) drive the side pressure plate (4012) and the back pressure plate (4013) to move in opposite directions or in opposite directions;

a limiting plate (4018) perpendicular to the counter pressure plate (4013) is connected to a platform (6) at one end of the counter pressure plate (4013), when the side pressure plate (4012) moves to a limit position close to the module (4011), the inner side surface of the side pressure plate (4012) is abutted to two ends of the limiting plate (4018), and a guide sleeve is connected to the limiting plate (4018); a clearance block (4020) is connected between the limiting plate (4018) and the module (4011), a clearance hole (4021) is formed in the clearance block (4020), and a notch (4022) for chip removal is formed in the clearance block (4020).

2. The continuous automated precision hole cutting device for wine packaging box according to claim 1, wherein: a power cabinet (101) and a control cabinet (102) are connected in the frame (1), and a foot cup (103) is connected to the bottom end of the frame (1); the conveying device (2) is a PVC belt conveyor, the conveying device (2) is arranged along the length direction of the top of the frame (1), and one end of the conveying device (2) extends to the outer side of the frame (1).

3. The continuous automated precision hole cutting device for wine packaging box according to claim 1 or 2, wherein: the feeding mechanism (3) comprises a vertical plate (301), a bracket (302), a linear sliding table module A (303), a front supporting plate (304) and a rear supporting plate (305); the vertical plates (301) are connected to the frames (1) on two sides of the material conveying device (2), the supports (302) are symmetrically connected to the platform (6), the two linear sliding table modules A (303) are respectively connected to the vertical plates (301) on one side and the supports (302), the linear sliding table modules A (303) are integrally distributed along the length direction of the frames (1), and the two linear sliding table modules A (303) are parallel to each other; two ends of the front supporting plate (304) and the rear supporting plate (305) are respectively connected with sliding blocks of two linear sliding table modules A (303), and the front supporting plate (304) and the rear supporting plate (305) are connected with linear sliding table modules B (306); the pushing plate (7) is T-shaped, and the returning plate is connected to the front supporting plate (304).

4. The continuous automated precision hole cutting device for wine packaging box according to claim 3, wherein: the rear supporting plate (305) is connected with a first support, and the first support is vertically connected with a first air cylinder (307); the power output end of the first air cylinder (307) is connected with a first material taking plate (308), and the first material taking plate (308) is connected with a plurality of first suckers (309); the sliding block of the linear sliding table module B (306) is connected with a second support, a second cylinder (310) is vertically connected to the second support, a second material taking plate (311) is connected to the power output end of the second cylinder (310), and a plurality of second suckers (312) are connected to the second material taking plate (311).

5. The continuous automated precision hole cutting device for wine packaging box according to claim 4, wherein: the hole cutting assembly (403) comprises a fifth air cylinder (4031), an end pressing plate (4032) and a cutter (4033); a fifth support is connected to a platform (6) at the end part of the module (4011), and a fifth air cylinder (4031) is connected to the fifth support; the power output end of the fifth air cylinder (4031) is connected with a transverse plate (4034), the platforms (6) at the two ends of the transverse plate (4034) are connected with a linear guide rail B (4035), and the two ends of the transverse plate (4034) are connected to the sliding blocks of the linear guide rail B (4035); the transverse plate (4034) is connected with a cutter seat (4036), the number of the cutters (4033) is three, the middle of the cutter is large, the two sides of the cutter are small, and the cutters (4033) are detachably connected to the cutter seat (4036); the end pressing plate (4032) is parallel to the transverse plate (4034), two ends of the transverse plate (4034) are connected with sliding sleeves, two ends of the end pressing plate (4032) are connected with sliding rods (4037), the sliding rods (4037) are connected to the sliding sleeves in a sliding mode, and springs (4038) are sleeved on the outer walls of the sliding rods (4037) between the end pressing plate (4032) and the transverse plate (4034).

6. The continuous automated precision hole cutting device for wine packaging box according to claim 5, wherein: the blanking mechanism (5) comprises a sixth air cylinder (501) and an upper pressing plate (502); the two sides of the platform (6) are connected with the upright posts (503), the top ends of the upright posts (503) are connected with the cross beams (504), the sixth air cylinder (501) is vertically connected to the cross beams (504) right above the two pressing cuts Kong Jigou (4), the upper pressing plate (502) is connected to the power output end of the sixth air cylinder (501), and the bottom of the upper pressing plate (502) is connected with a plurality of third suckers (505); when the upper pressing plate (502) rises to the limit position, the upright posts (503) at the two ends of the upper pressing plate (502) are connected with T-shaped plates (506); a seventh support and an eighth support are connected to the T-shaped plate (506), a seventh air cylinder (507) is connected to the seventh support, and an eighth air cylinder (508) is connected to the eighth support; the power output end of the seventh air cylinder (507) is connected with an L-shaped first supporting plate (509), the eighth power output end is connected with an L-shaped second supporting plate (510), and the seventh air cylinder (507) and the eighth air cylinder (508) drive the first supporting plate (509) and the second supporting plate (510) to move in opposite directions or in opposite directions.

7. The continuous automated precision hole cutting device for wine packaging box according to claim 6, wherein: the blanking mechanism (5) further comprises a blanking plate (511); the blanking plate (511) is obliquely connected to one end of the frame (1) through a vertical rod, one end of the blanking plate (511) is in butt joint with one ends of the first supporting plate (509) and the second supporting plate (510), and a notch (512) of the avoidance pushing plate (7) is formed in the blanking plate (511).

8. The continuous automated precision hole cutting device for wine packaging box according to claim 7, wherein: the feeding device (2), the feeding mechanism (3), the pressing cutter Kong Jigou (4) and the discharging mechanism (5) are two groups which are symmetrically arranged left and right.