CN115179586B

CN115179586B - Automatic processing production line of wine box

Info

Publication number: CN115179586B
Application number: CN202210874107.3A
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: 2023-10-13
Anticipated expiration: 2042-07-25
Also published as: CN115179586A

Abstract

The invention discloses an automatic processing production line of wine boxes, which comprises an oven, a first conveying device, a turnover device, a second conveying device, a reversing device, a third conveying device and a forming device, wherein the turnover device is arranged on the oven; the first conveying device is arranged at the discharge end of the oven, and the turnover device is arranged between the first conveying device and the second conveying device; the reversing device is arranged at one end of the second conveying device, the third conveying device is positioned at one end of the reversing device, and the forming device is positioned at the other end of the third conveying device; the forming device comprises a frame, a material conveying mechanism, a material feeding mechanism, a core mold mechanism, a flanging mechanism, a bottom folding mechanism, a paper pasting mechanism and a material discharging mechanism. The invention integrates baking, turning, reversing, conveying and forming, replaces manual operation of transmission, saves time and labor considerably, improves working efficiency greatly, and reduces labor cost of enterprises.

Description

Automatic processing production line of wine box

Technical Field

The invention relates to the technical field of wine box production equipment, in particular to an automatic processing production line of wine boxes.

Background

As is well known, wine boxes are generally required to be packaged, the wine box packaging plays a very important role in selling wine, and particularly, the wine box packaging attracts consumers, increases the added value of products, meets the mental requirements of the consumers, consolidates the roles of brands and enterprise images, is more and more recognized by people, and has a harmonious and unified design and wine culture.

The wine box is various, wherein there is the paper wine box of cuboid shape, cuboid paper wine box manufacturing process is to glue the surface course that prints with open the hard board layer in groove and laminate and form the cardboard, then put it on the conveyer belt, the both sides of conveyer belt divide the row, have workman, every workman operates a process, does single work, gradually accomplishes wine box shaping through the manual work. The traditional wine box production mode mostly depends on manpower, is quite time-consuming and labor-consuming, greatly reduces the working efficiency, and increases the labor cost of enterprises.

Disclosure of Invention

The invention aims to provide an automatic processing production line of wine boxes, which integrates baking, overturning, reversing, conveying and forming into a whole, replaces manual operation of transmission, saves time and labor considerably, improves working efficiency greatly, and reduces labor cost of enterprises so as to solve the problems in the prior art.

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

an automatic processing production line of wine boxes comprises an oven, a first conveying device, a turnover device, a second conveying device, a reversing device, a third conveying device and a forming device; the first conveying device is arranged at the discharge end of the oven, and the turnover device is arranged between the first conveying device and the second conveying device; the reversing device is arranged at one end of the second conveying device, the third conveying device is positioned at one end of the reversing device, and the forming device is positioned at the other end of the third conveying device; the forming device comprises a frame, a material conveying mechanism, a material feeding mechanism, a core mold mechanism, a flanging mechanism, a bottom folding mechanism, a paper pasting mechanism and a material discharging mechanism; the material conveying mechanism is connected to one end of the frame, and is in butt joint with one end of the third conveying device; the bottom folding mechanism is connected to the upper side of the edge folding mechanism; the feeding mechanism is connected to the frame and is positioned above the material conveying mechanism or moves to the upper part of the core mold mechanism; the mandrel mechanism is connected to the frame, the top end of the mandrel mechanism is connected with two mandrels, and the mandrel mechanism can rotate and lift and has an upper station and a lower station; the paper pasting mechanism and the blanking mechanism are connected to the frame, and the blanking mechanism is positioned below one end of the paper pasting mechanism; when the core mould mechanism is positioned at the upper station, the two mould cores are positioned right above the middle part of the edge folding mechanism or at one end of the paper pasting mechanism; when the core mould mechanism is positioned at the lower station, one of the mould cores of the core mould mechanism is positioned above the blanking mechanism.

According to a further improvement scheme, the first conveying device and the second conveying device are both PVC belt conveyors, and share a mounting frame, and the first conveying device is level with a discharge hole of the oven; the turnover device comprises a first motor, a base and a tripod, wherein the first motor is connected to the side part of the mounting frame, the power output end of the first motor is connected with a turnover shaft, the turnover shaft is rotatably connected to the upper part of the mounting frame, and two rectangular block-shaped bases are connected to the turnover shaft; the triangular frame is in a right-angle triangular shape, one end of two right-angle sides of the triangular frame is connected with two sides adjacent to the base, and a clamping opening is formed between the right-angle sides of the two adjacent triangular frames; when the clamping opening is kept in a horizontal state, the clamping opening is flush with the first conveying device and the second conveying device.

The invention further improves the scheme that the reversing device comprises a reversing frame and a carrier roller; the reversing frame is U-shaped, the carrier rollers are rotatably connected between the tops of the reversing frame, the length direction of each carrier roller is horizontal to the running direction of the second conveying device, the second motor is in driving connection with one carrier roller, and two adjacent carrier rollers are in transmission connection through a chain; the bottom end of the mounting frame is connected with a first air cylinder, the reversing frame is connected with the power output end of the first air cylinder, and the reversing frame is connected with the mounting frame through a first optical axis sliding sleeve assembly; the third conveying device is an induced draft assembly line, and one end, close to the forming device, of the third conveying device is inclined upwards.

The invention further improves the scheme that the frame comprises a frame, a side door and a workbench; the side frames are surrounded to form a rectangular square frame, the side doors are connected between the side frames, the workbench is connected to the top ends of the side frames, and the bottom ends of the side frames are connected with the foot cups; the conveying mechanism is a PVC belt conveyor and is horizontally connected to the workbench; the feeding mechanism comprises a rear portal frame, an X-axis sliding table module, a Y-axis sliding table module and a vacuum chuck A, wherein the rear portal frame is connected to one end above the workbench, the X-axis sliding table module is connected to the top end of the rear portal frame, and the Y-axis sliding table module is connected to a sliding block of the X-axis sliding table module; the sliding block of the Y-axis sliding table module is connected with a transfer plate, and the front end of the transfer plate is connected with two groups of linear sliding rails A arranged in the Z direction; the sliding block of the linear sliding rail A is connected with a lifting plate, and the front end of the lifting plate is connected with two Y-direction arranged sectional materials; the number of the vacuum chucks A is four, and every two vacuum chucks A are connected to one section bar; and the transfer plate is connected with a second cylinder, and the lifting plate is connected with a power output end of the second cylinder.

The invention further improves the scheme that the two groups of core mould mechanisms are symmetrically connected to the workbench along the X direction; the mandrel mechanism further comprises a bottom plate, a central shaft, a rotating seat and a lifting table, wherein the bottom plate is connected to the lower part of the workbench, a second optical axis sliding sleeve assembly is connected between the bottom plate and the workbench, the lifting table is connected to the second optical axis sliding sleeve assembly, and a first screw rod lifter is connected between the bottom plate and the lifting table; the lifting platform is connected with a bearing seat, the bottom end of the central shaft is rotationally connected with a bearing shaft, the lifting platform is connected with a third motor, the third motor is connected with the central shaft through a synchronous belt in a driving way, and the central shaft is connected to the guide sleeve of the workbench in a sliding way; the rotating seat is connected to the top end of the central shaft, and the mold cores are connected to the two ends of the rotating seat.

The invention further improves the scheme that the two groups of edge folding mechanisms are provided, and one group of edge folding mechanisms corresponds to one group of core die mechanisms respectively; the edge folding mechanism comprises two vertical plates, the two vertical plates are distributed along the X direction, two groups of linear slide rails B are connected to the vertical plates, a left U-shaped plate and a right U-shaped plate are connected to the sliding blocks of the linear slide rails B, positive and negative tooth sliding table modules a are connected to the two ends of the vertical plates, and the left U-shaped plate and the right U-shaped plate are respectively connected to two nut blocks of the positive and negative tooth sliding table modules a; the inner walls of the left U-shaped plate and the right U-shaped plate are connected with a linear slide rail C and a linear slide rail D which are arranged in the Z direction, a left supporting plate and a right supporting plate are respectively connected to the sliding blocks of the linear slide rail C and the linear slide rail D, two ends of the vertical plate are connected with a left screw rod lifter and a right screw rod lifter, and the left screw rod lifter and the right screw rod lifter are respectively connected to the left supporting plate and the right supporting plate in a driving mode; the left supporting plate and the right supporting plate are respectively connected with a third cylinder and a fourth cylinder which are opposite along the X direction, the power output end of the third cylinder is connected with a left push plate, and the power output end of the fourth cylinder is connected with a right push plate; the inner side ends of the left U-shaped plate and the right U-shaped plate are connected with a cylinder five and a cylinder six along the Z direction, and the power output ends of the cylinder five and the cylinder six are connected with a left bottom push plate and a right bottom push plate.

The invention further adopts the improvement that the side part of the left U-shaped plate is hinged with a cylinder seven, the power output end of the cylinder seven is hinged with the middle part of a left connecting rod, one end of the left connecting rod is hinged with the left U-shaped plate, and the other end of the left connecting rod is hinged with a left adjusting rod; one end of the left adjusting rod is hinged to the left rocking plate, one end of the left rocking plate is hinged to the left rocking rod, the left rocking rod is rotatably connected to the left U-shaped plate, and the left rocking rod is connected with the left limiting plate; the side part of the right U-shaped plate is hinged with an air cylinder eight, the power output end of the air cylinder eight is hinged with the middle part of the right connecting rod, one end of the right connecting rod is hinged with the right U-shaped plate, and the other end of the right connecting rod is hinged with a right adjusting rod; one end of the right adjusting rod is hinged to the right rocking plate, one end of the right rocking plate is hinged to the right rocking rod, the right rocking rod is rotatably connected to the right U-shaped plate, and a plurality of right limiting plates are connected to the right rocking rod; the left support plate is connected with a linear slide rail E along the X direction, one end of the linear slide rail E, which is close to the right support plate, is inclined downwards, a slide block of the linear slide rail E is connected with a sloping plate, the sloping plate is connected with a plurality of pressing blocks, a cylinder nine is connected to the left support plate, and the sloping plate is hinged to a power output end of the cylinder nine; the side wall of the right supporting plate is connected with a linear sliding rail F along the X direction, a roller frame is connected to the sliding rail of the linear sliding rail F, and a compression roller is rotationally connected between the roller frames; the right supporting plate is connected with a tenth air cylinder, and the roller frame is connected to the power output end of the tenth air cylinder.

The invention further improves the scheme that the bottom folding mechanisms are divided into two groups, and one group of bottom folding mechanisms corresponds to one group of edge folding mechanisms respectively; the bottom folding mechanism comprises four bottom pressing plates, namely an upper bottom pressing plate, a lower bottom pressing plate, a left bottom pressing plate and a right bottom pressing plate, wherein the rear sides of the four bottom pressing plates are respectively connected to four bottom pushing cylinders, the bottom pushing cylinders are respectively connected to four adjusting seats, the adjusting seats are connected to four second screw rod lifters, namely an upper bottom pressing plate, a lower bottom pressing plate, a left bottom pressing plate and a right bottom pressing plate, and the second screw rod lifters are connected to a front portal frame; when the bottom pushing cylinder extends out to the limit position, the four bottom pressing plates are arranged in a rectangular shape.

The invention further improves the scheme that the paper pasting mechanisms are divided into two groups, and one group of paper pasting mechanisms corresponds to one group of core die mechanisms; the paper pasting mechanism comprises a supporting frame, wherein the supporting frame is connected to the workbench, the top of the supporting frame is connected with a platform, and two sides of the platform are connected with supporting plates; the positive and negative teeth sliding table module b is connected between the supporting plates, the sliding blocks of the positive and negative teeth sliding table module b are connected with two groups of positive and negative teeth sliding table modules c, the four sliding blocks of the positive and negative teeth sliding table module c are connected with L-shaped plates, the positive and negative teeth sliding table module b and the positive and negative teeth sliding table module c drive the four L-shaped plates to move in the front, back, left and right directions, and rectangular accommodating grooves are formed between the four L-shaped plates; the inner wall of the supporting plate is connected with a linear sliding rail G along the Y direction, a sliding block of the linear sliding rail G is connected with a feeding plate, and the feeding plate is connected with two vacuum suckers B; the outer wall of the supporting plate is rotationally connected with an air cylinder eleven, the power output end of the air cylinder eleven is hinged with a swing arm, the swing arm is hinged on a pivot, the pivot is rotationally connected between the supporting plates, a plugboard is connected on the pivot between the supporting plates, and one end of the plugboard is provided with a slot.

The invention further improves the scheme that the blanking mechanisms are divided into two groups, and one group of blanking mechanisms corresponds to one group of core die mechanisms; the blanking mechanism comprises a U-shaped blanking table, a rodless cylinder is connected to the blanking table, a sliding plate is connected to the cylinder body of the rodless cylinder, and the sliding plate is connected to the blanking table through a third optical axis sliding sleeve group; the sliding plate is connected with two rib plates, the rib plates are connected with twelve air cylinders distributed along the X direction, the two air cylinders are arranged in opposite directions, and the power output end of the twelve air cylinders is connected with two L-shaped scraping plates.

The invention has the beneficial effects that:

the automatic processing production line of the wine box integrates baking, overturning, reversing, conveying and forming, replaces manual operation of transmission, saves time and labor considerably, improves working efficiency greatly, and reduces labor cost of enterprises.

Secondly, according to the automatic processing production line of the wine box, the cardboard after being glued is baked by the baking oven, so that the viscosity of the adhesive is enhanced.

Thirdly, according to the automatic processing production line of the wine box, the turnover device can turn the paperboard 180 degrees, so that the wine box is ready for molding.

Fourth, the automatic processing production line of the wine box of the invention, the reversing device can change the moving direction of the paperboard, and is ready for molding.

Fifth, the automatic processing production line of the wine box of the invention has two groups of core mold mechanisms, edge folding mechanisms, bottom folding mechanisms, paper pasting mechanisms and blanking mechanisms, thereby further improving the working efficiency.

Sixth, the automatic processing production line of the wine box of the invention, two groups of core mould mechanisms can share a group of feeding mechanisms, thus saving the manufacturing cost of equipment.

Seventh, the automatic processing production line of the wine box of the invention has the advantages that each group of core mould mechanisms is provided with two mould cores, the core mould mechanisms can rotate and lift to have an upper station and a lower station, one mould core can be used for discharging when one mould core is formed, and the working efficiency is further improved.

Eighth, the automatic processing production line of the wine box of the invention, when the bottom pushing cylinder stretches out to the limit position, four bottom pressing plates are arranged in a rectangular shape, and the bottom ear plates can be effectively attached together.

Ninth, the automatic processing production line of the wine box of the invention, the paper pasting mechanism can realize the feeding, taking and pasting of the facial tissues at the bottom of the wine box, and is efficient and convenient.

Tenth, according to the automatic processing production line of the wine box, the blanking mechanism scrapes the formed wine box from the mold core through the two L-shaped scraping plates, so that convenience and trouble are saved.

Drawings

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

Fig. 2 is a schematic structural view of the turning device of the present invention.

Fig. 3 is a schematic view of the overall structure of the molding apparatus of the present invention.

Fig. 4 is a schematic view of the overall structure of the molding apparatus of the present invention.

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

Fig. 6 is a schematic view showing a partial structure of the molding apparatus of the present invention.

Fig. 7 is a schematic structural view of the hemming mechanism, the paper sticking mechanism and the blanking mechanism of the present invention.

Fig. 8 is a schematic structural view of the core mold mechanism of the present invention.

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

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

Fig. 11 is a schematic structural view of a bottom folding mechanism of the present invention.

Fig. 12 is a schematic structural view of a bottom folding mechanism of the present invention.

Fig. 13 is a schematic structural view of the sticker mechanism of the present invention.

Fig. 14 is a schematic structural view of the sticker mechanism of the present invention.

Fig. 15 is a schematic structural diagram of a blanking mechanism of the present invention.

Fig. 16 is a schematic structural view of a paperboard.

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 15, an automatic processing production line of wine boxes comprises an oven 1, a first conveying device 2, a turnover device 3, a second conveying device 4, a reversing device 5, a third conveying device 6 and a forming device 7; the first conveying device 2 is arranged at the discharge end of the oven 1, and the turnover device 3 is arranged between the first conveying device 2 and the second conveying device 4; the reversing device 5 is arranged at one end of the second conveying device 4, the third conveying device 6 is positioned at one end of the reversing device 5, and the forming device 7 is positioned at the other end of the third conveying device 6; the forming device 7 comprises a frame 71, a material conveying mechanism 72, a material feeding mechanism 73, a core mold mechanism 74, a flanging mechanism 75, a bottom folding mechanism 76, a paper pasting mechanism 77 and a material discharging mechanism 78; the material conveying mechanism 72 is connected to one end of the frame 71, and the material conveying mechanism 72 is in butt joint with one end of the third conveying device 6; the folding mechanism 75 is connected to the frame 71, and the bottom folding mechanism 76 is connected to the upper side of the folding mechanism 75; the feeding mechanism 73 is connected to the frame 71, and the feeding mechanism 73 is located above the feeding mechanism 72 or moves to above the core mold mechanism 74; the mandrel mechanism 74 is connected to the frame 71, the top end of the mandrel mechanism 74 is connected with two mandrels 741, and the mandrel mechanism 74 can rotate and lift to have an upper station and a lower station; the paper pasting mechanism 77 and the blanking mechanism 78 are connected to the frame 71, and the blanking mechanism 78 is positioned below one end of the paper pasting mechanism 77; when the core mould mechanism 74 is positioned at the upper station, the two mould cores 741 are positioned right above the middle of the edge folding mechanism 75 or at one end of the paper pasting mechanism 77; when the mandrel mechanism 74 is located at the lower station, one of the cores 741 of the mandrel mechanism 74 is located above the blanking mechanism 78.

The first conveying device 2 and the second conveying device 4 are both PVC belt conveyors, and the first conveying device 2 and the second conveying device 4 share a mounting frame 201, and the first conveying device 2 is level with a discharge hole of the oven 1; the turnover device 3 comprises a first motor 301, a base 302 and a tripod 303, wherein the first motor 301 is connected to the side part of the installation frame 201, a power output end of the first motor 301 is connected with a turnover shaft 304, the turnover shaft 304 is rotatably connected to the upper part of the installation frame 201, and two rectangular block-shaped bases 302 are connected to the turnover shaft 304; the triangular frame 303 is in a right-angle triangular shape, one end of two right-angle sides of the triangular frame 303 is connected with two sides adjacent to the base 302, and a clamping opening is formed between the right-angle sides of the two adjacent triangular frames 303; when the clamping opening is kept in a horizontal state, the clamping opening is flush with the first conveying device 2 and the second conveying device 4.

Wherein the reversing device 5 comprises a reversing frame 501 and a carrier roller 502; the reversing frame 501 is U-shaped, the carrier rollers 502 are rotatably connected between the tops of the reversing frame 501, the length direction of each carrier roller 502 is horizontal to the running direction of the second conveying device 4, the second motor 503 is in driving connection with one carrier roller 502, and two adjacent carrier rollers 502 are in transmission connection through a chain; the bottom end of the mounting frame 201 is connected with a first cylinder 504, the reversing frame 501 is connected with the power output end of the first cylinder 504, and the reversing frame 501 is connected with the mounting frame 201 through a first optical axis sliding sleeve assembly 505; the third conveying device 6 is an induced draft assembly line, and one end of the third conveying device 6 close to the forming device 7 is inclined upwards.

Wherein, the frame 71 comprises a frame 711, a side door 712, and a workbench 713; the frame 711 surrounds a rectangular square frame, the side doors 712 are connected between the frame 711, the workbench 713 is connected to the top end of the frame 711, and the bottom end of the frame 711 is connected with a foot cup 714; the material conveying mechanism 72 is a PVC belt conveyor, and the material conveying mechanism 72 is horizontally connected to the workbench 713; the feeding mechanism 73 comprises a rear portal frame 731, an X-axis sliding table module 732, a Y-axis sliding table module 733 and a vacuum chuck A734, wherein the rear portal frame 731 is connected to one end above the workbench 713, the X-axis sliding table module 732 is connected to the top end of the rear portal frame 731, and the Y-axis sliding table module 733 is connected to the sliding block of the X-axis sliding table module 732; a sliding block of the Y-axis sliding table module 733 is connected with a transfer plate 735, and the front end of the transfer plate 735 is connected with two groups of linear slide rails a736 arranged in the Z direction; the sliding block of the linear sliding rail A736 is connected with a lifting plate 737, and the front end of the lifting plate 737 is connected with two Y-direction arranged sectional materials 738; four vacuum chucks A734 are provided, and each two vacuum chucks A734 are connected with one section bar 738; the transfer plate 735 is connected to a second cylinder 739, and the lifter plate 737 is connected to a power output end of the second cylinder 739.

Wherein, the core mold mechanisms 74 are divided into two groups, and the two groups of core mold mechanisms 74 are symmetrically connected to the workbench 713 along the X direction; the mandrel mechanism 74 further comprises a bottom plate 742, a central shaft 748, a rotating seat 747 and a lifting table 749, wherein the bottom plate 742 is connected below the workbench 713, a second optical axis sliding sleeve assembly 743 is connected between the bottom plate 742 and the workbench 713, the lifting table 749 is connected to the second optical axis sliding sleeve assembly 743, and a first screw rod lifter is connected between the bottom plate 742 and the lifting table 749; the lifting table 749 is connected with a bearing pedestal 744, the bottom end of the central shaft 748 is rotatably connected with a bearing shaft, the lifting table 749 is connected with a third motor 745, the third motor 745 is connected with the central shaft 748 through a synchronous belt in a driving way, and the central shaft 748 is slidably connected with a guide sleeve 746 of the workbench 713; the rotating seat 747 is connected to the top end of the central shaft 748, and the mold cores 741 are connected to both ends of the rotating seat 747.

Wherein, the hemming mechanisms 75 have two groups, and one group of hemming mechanisms 75 corresponds to one group of core die mechanisms 74 respectively; the flanging mechanism 75 comprises two vertical plates 7501, the two vertical plates 7501 are distributed along the X direction, two groups of linear slide rails B7502 are connected to the vertical plates 7501, a left U-shaped plate 7503 and a right U-shaped plate 7504 are connected to the sliding blocks of the linear slide rails B7502, a positive and negative tooth sliding table module a7505 is connected to the two ends of the vertical plates 7501, and the left U-shaped plate 7503 and the right U-shaped plate 7504 are respectively connected to two nut blocks of the positive and negative tooth sliding table module a 7505; the inner walls of the left U-shaped plate 7503 and the right U-shaped plate 7504 are connected with a linear slide rail C7506 and a linear slide rail D7507 which are arranged in the Z direction, a left supporting plate 7508 and a right supporting plate 7509 are respectively connected to the slide blocks of the linear slide rail C7506 and the linear slide rail D7507, two ends of the vertical plate 7501 are connected with a left screw rod lifter and a right screw rod lifter, and the left screw rod lifter and the right screw rod lifter are respectively connected to the left supporting plate 7508 and the right supporting plate 7509 in a driving mode; the left supporting plate 7508 and the right supporting plate 7509 are respectively connected with a third cylinder and a fourth cylinder which are opposite along the X direction, the power output end of the third cylinder is connected with a left pushing plate 7512, and the power output end of the fourth cylinder is connected with a right pushing plate 7513; the inner side ends of the left U-shaped plate 7503 and the right U-shaped plate 7514 are connected with a fifth cylinder 7514 and a sixth cylinder 7515 along the Z direction, and the power output ends of the fifth cylinder 7514 and the sixth cylinder 7515 are connected with a left bottom push plate 7516 and a right bottom push plate 7517.

The side part of the left U-shaped plate 7503 is hinged with a cylinder seven 7518, the power output end of the cylinder seven 7518 is hinged with the middle part of a left connecting rod 7519, one end of the left connecting rod 7519 is hinged with the left U-shaped plate 7503, and the other end of the left connecting rod 7510 is hinged with a left adjusting rod 7510; one end of the left adjusting rod 7520 is hinged to a left rocking plate 7521, one end of the left rocking plate 7521 is hinged to a left rocking rod 7522, the left rocking rod 7522 is rotatably connected to a left U-shaped plate 7503, and a left limiting plate 7523 is connected to the left rocking rod 7522; the side part of the right U-shaped plate 7504 is hinged with an air cylinder eight 7524, the power output end of the air cylinder eight 7524 is hinged to the middle part of a right connecting rod 7525, one end of the right connecting rod 7525 is hinged to the right U-shaped plate 7504, and the other end of the right connecting rod 7525 is hinged with a right adjusting rod 7526; one end of the right adjusting rod 7526 is hinged to a right rocking plate 7527, one end of the right rocking plate 7527 is hinged to a right rocking rod 7538, the right rocking rod 7538 is rotatably connected to a right U-shaped plate 7504, and a plurality of right limiting plates 7528 are connected to the right rocking rod 7538; a linear slide rail E7529 is connected to the left supporting plate 7508 along the X direction, one end of the linear slide rail E7529 close to the right supporting plate 7509 is inclined downwards, an inclined plate 7530 is connected to a sliding block of the linear slide rail E7529, a plurality of pressing blocks 7531 are connected to the inclined plate 7530, a cylinder nine 7532 is connected to the left supporting plate 7508, and the inclined plate 7530 is hinged to a power output end of the cylinder nine 7532; the side wall of the right supporting plate 7509 is connected with a linear sliding rail F7534 along the X direction, a roller frame 7535 is connected to the sliding rail of the linear sliding rail F7534, and a compression roller 7536 is rotationally connected between the roller frames 7535; the right supporting plate 7509 is connected with a tenth air cylinder, and the roller frame 7535 is connected with the power output end of the tenth air cylinder.

Wherein, the bottom folding mechanisms 76 have two groups, and one group of bottom folding mechanisms 76 corresponds to one group of edge folding mechanisms 75 respectively; the bottom folding mechanism 76 comprises four bottom pressing plates 761, namely an upper bottom pressing plate 761, a lower bottom pressing plate 761, a left bottom pressing plate 761 and a right bottom pressing plate 761, wherein the rear sides of the four bottom pressing plates 761 are respectively connected to four bottom pushing air cylinders 762, the bottom pushing air cylinders 762 are respectively connected to four adjusting seats 763, the adjusting seats 763 are connected to four second screw lifters 764, namely an upper bottom pressing plate 764, a lower bottom pressing plate 764, a left bottom pressing plate 764 and a right bottom pressing plate 764, and the second screw lifters 764 are connected to a front portal frame 765; when the bottom pushing cylinder 762 extends to the limit position, the four bottom pressing plates 761 are arranged in a rectangular shape.

Wherein, the paper pasting mechanisms 77 are divided into two groups, and one group of paper pasting mechanisms 77 corresponds to one group of core die mechanisms 74; the paper pasting mechanism 77 comprises a supporting frame 7701, the supporting frame 7701 is connected to the workbench 713, the top of the supporting frame 7701 is connected with a platform 7702, and two sides of the platform 7702 are connected with supporting plates 7703; the positive and negative teeth sliding table module b7704 is connected between the supporting plates 7703, two groups of positive and negative teeth sliding table modules c7705 are connected to the sliding blocks of the positive and negative teeth sliding table module b7704, L-shaped plates 7706 are connected to the four sliding blocks of the positive and negative teeth sliding table module c7705, the positive and negative teeth sliding table module b7704 and the positive and negative teeth sliding table module c7705 drive the four L-shaped plates 7706 to move in the front, back, left and right directions, and rectangular accommodating grooves are formed among the four L-shaped plates 7706; the inner wall of the supporting plate 7703 is connected with a linear sliding rail G7707 along the Y direction, a feeding plate 7708 is connected to a sliding block of the linear sliding rail G7707, and two vacuum suckers B7709 are connected to the feeding plate 7708; an air cylinder eleven 7710 is rotatably connected to the outer wall of the supporting plate 7703, a swing arm 7711 is hinged to the power output end of the air cylinder eleven 7710, the swing arm 7711 is hinged to a pivot 7712, the pivot 7712 is rotatably connected between the supporting plates 7703, a plugboard 7713 is connected to the pivot 7712 between the supporting plates 7703, and a slot 7714 is formed in one end of the plugboard 7713.

Wherein, the blanking mechanisms 78 are divided into two groups, and one group of blanking mechanisms 78 corresponds to one group of core die mechanisms 74; the blanking mechanism 78 comprises a U-shaped blanking table 781, a rodless cylinder 782 is connected to the blanking table 781, a sliding plate 783 is connected to the cylinder body of the rodless cylinder 782, and the sliding plate 783 is connected to the blanking table 781 through a third optical axis sliding sleeve group; the sliding plate 783 is connected with two rib plates 784, the rib plates 784 are connected with twelve air cylinders 785 distributed along the X direction, the two twelve air cylinders 785 are arranged in opposite directions, and the power output end of each twelve air cylinders 785 is connected with two L-shaped scraping plates 786.

The specific working principle of this embodiment is as follows:

as shown in fig. 16, the cardboard 8 includes a side plate a81, a side plate b82, a side plate c83 and a side plate d84 connected in sequence, one end of the side plate a81 is connected with a side ear plate 85, and end parts of the side plate a81, the side plate b82, the side plate c83 and the side plate d84 are connected with four bottom ear plates 86, and before baking, the outer surface of the side ear plate 85 and the inner and outer surfaces of the bottom ear plates 86 are coated with adhesive by a gluing device.

S1, baking: the cardboard 8 coated with the adhesive is put into the oven 1 to be baked, the adhesiveness of the adhesive is improved, and the outer surface of the cardboard 8 faces upward in the oven 1.

S2, turning: the paper board 8 moves towards the end of the turnover device 3 through the first conveying device 2, the paper board 8 is inserted into the clamping opening, and after the base 302 is driven by the first motor 301 to rotate 180 degrees, the inner surface of the paper board 8 is overturned and falls onto the second conveying device 4.

S3, reversing: when the paper board 8 reaches one end of the second conveying device 4, the first cylinder 504 drives the reversing frame 501 to move upwards, after the carrier roller 502 is higher than the second conveying device 4, the paper board 8 falls on the carrier roller 502, and along with the rotation of the carrier roller 502, the paper board 8 falls on the third conveying device 6 and moves towards the end of the forming device 7.

S4, feeding: the paper board 8 moves onto the feeding mechanism 72, the X-axis sliding table module 732 and the Y-axis sliding table module 733 are matched to drive the vacuum chuck A734 to move above the paper board 8, the left bottom push plate 7516 and the right bottom push plate 7517 move upwards and are flush with the left limit plate 7513 and the right limit plate 7518, the side plate a81 of the paper board 8 falls on the left limit plate 7513 after the paper board 8 is put down by the vacuum chuck A734, the side plate b82 falls on the left bottom push plate 7516 and the right bottom push plate 7517, and the side plate c83 and the side plate d84 fall on the right limit plate 7518.

S5, edge folding: the mold core 741 positioned at the upper station moves downwards, and after the mold core 741, the left bottom pushing plate 7516 and the right bottom pushing plate 7517 clamp the side plate b82, the mold core continues to move downwards to the lower station; in the process that the mold core 741 presses the side plate b82 to move downwards, the left limit plate 7523 and the right limit plate 7528 are turned upwards by 90 degrees, so that the side plate a81 and the side plate b82 are kept in a vertical state; then the left push plate 7512 pushes the side ear plate 85 first, and the right push plate 7513 pushes the side plate d84, so that the two plates are turned over in opposite directions; then, the pressing block 7531 presses down the side plate d84, the pressing roller 7536 rolls again from the side plate d84, and the side plate d84 and the side lug plate 85 are bonded together.

S6, folding the bottom: the folded paper box is sleeved on the mold core 741, and as the mold core 741 moves to the upper station, the bottom pressing plate 761 sequentially pushes the bottom lug plate 86 to complete the folding and bonding of the bottom lug plate 86; after the bottom folding is completed, the swivel 747 is rotated 180 ° so that the bottom of the carton faces the decal mechanism 77.

S7, sticking paper: the facial tissues 87 are sequentially stacked in the accommodating groove, the vacuum sucker B7709 takes off one facial tissue 87 from the bottom of the accommodating groove, the vacuum sucker B7709 moves towards the end of the plugboard 7713, and the facial tissue 87 is slightly inserted into the slot 7714; after the insert 7713 is turned 90 degrees, the facestock 87 is attached to the bottom of the carton.

S8, blanking: as the carton moves to the lower station with the mould core 741, the cylinder twelve 785 extends out, the scraper 786 is flush with the open end of the carton, and the rodless cylinder 782 moves to pull the carton down from the mould core 741; in addition, the core 741 at the other end of the rotating base 747 repeats the hemming action while the core 741 with the paper cassette moves downward.

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. An automatic processing production line of wine box which characterized in that: comprises an oven (1), a first conveying device (2), a turnover device (3), a second conveying device (4), a reversing device (5), a third conveying device (6) and a forming device (7);

the first conveying device (2) is arranged at the discharge end of the oven (1), and the turnover device (3) is arranged between the first conveying device (2) and the second conveying device (4); the reversing device (5) is arranged at one end of the second conveying device (4), the third conveying device (6) is positioned at one end of the reversing device (5), and the forming device (7) is positioned at the other end of the third conveying device (6);

the forming device (7) comprises a frame (71), a material conveying mechanism (72), a material feeding mechanism (73), a core mold mechanism (74), a flanging mechanism (75), a bottom folding mechanism (76), a paper pasting mechanism (77) and a blanking mechanism (78);

the material conveying mechanism (72) is connected to one end of the frame (71), and the material conveying mechanism (72) is in butt joint with one end of the third conveying device (6);

the folding mechanism (75) is connected to the frame (71), and the bottom folding mechanism (76) is connected to the upper side of the folding mechanism (75);

the feeding mechanism (73) is connected to the frame (71), and the feeding mechanism (73) is positioned above the conveying mechanism (72) or moves to the upper part of the core mold mechanism (74);

the mandrel mechanism (74) is connected to the frame (71), the top end of the mandrel mechanism (74) is connected with two mandrels (741), and the mandrel mechanism (74) can rotate and lift to have an upper station and a lower station;

the paper pasting mechanism (77) and the blanking mechanism (78) are connected to the frame (71), and the blanking mechanism (78) is positioned below one end of the paper pasting mechanism (77);

when the core mould mechanism (74) is positioned at the upper station, the two mould cores (741) are positioned right above the middle of the edge folding mechanism (75) or at one end of the paper pasting mechanism (77); when the core mould mechanism (74) is positioned at a lower station, one mould core (741) of the core mould mechanism (74) is positioned above the blanking mechanism (78);

the two groups of edge folding mechanisms (75) are provided, and one group of edge folding mechanisms (75) corresponds to one group of core die mechanisms (74) respectively; the flanging mechanism (75) comprises two vertical plates (7501), the two vertical plates (7501) are distributed along the X direction, two groups of linear slide rails B (7502) are connected to the vertical plates (7501), a left U-shaped plate (7503) and a right U-shaped plate (7504) are connected to the sliding blocks of the linear slide rails B (7502), positive and negative tooth sliding table modules a (7505) are connected to the two ends of the vertical plates (7501), and the left U-shaped plate (7503) and the right U-shaped plate (7504) are respectively connected to the two nut blocks of the positive and negative tooth sliding table modules a (7505); the inner walls of the left U-shaped plate (7503) and the right U-shaped plate (7504) are connected with a linear slide rail C (7506) and a linear slide rail D (7507) which are arranged in the Z direction, a left supporting plate (7508) and a right supporting plate (7509) are respectively connected to the slide blocks of the linear slide rail C (7506) and the linear slide rail D (7507), two ends of a vertical plate (7501) are connected with a left screw rod lifter and a right screw rod lifter, and the left screw rod lifter and the right screw rod lifter are respectively connected to the left supporting plate (7508) and the right supporting plate (7509) in a driving mode; the left supporting plate (7508) and the right supporting plate (7509) are respectively connected with a third cylinder and a fourth cylinder which are opposite along the X direction, the power output end of the third cylinder is connected with a left side pushing plate (7512), and the power output end of the fourth cylinder is connected with a right side pushing plate (7513); the inner side ends of the left U-shaped plate (7503) and the right U-shaped plate (7504) are connected with a fifth cylinder (7514) and a sixth cylinder (7515) along the Z direction, and the power output ends of the fifth cylinder (7514) and the sixth cylinder (7515) are connected with a left bottom push plate (7516) and a right bottom push plate (7517);

the side part of the left U-shaped plate (7503) is hinged with a cylinder seven (7518), the power output end of the cylinder seven (7518) is hinged with the middle part of a left connecting rod (7519), one end of the left connecting rod (7519) is hinged with the left U-shaped plate (7503), and the other end of the left connecting rod is hinged with a left adjusting rod (7510); one end of the left adjusting rod (7520) is hinged to a left rocking plate (7521), one end of the left rocking plate (7521) is hinged to a left rocking rod (7522), the left rocking rod (7522) is rotatably connected to a left U-shaped plate (7503), and a left limiting plate (7523) is connected to the left rocking rod (7522); the side part of the right U-shaped plate (7504) is hinged with an air cylinder eight (7524), the power output end of the air cylinder eight (7524) is hinged with the middle part of a right connecting rod (7525), one end of the right connecting rod (7525) is hinged with the right U-shaped plate (7504), and the other end of the right connecting rod is hinged with a right adjusting rod (7526); one end of the right adjusting rod (7526) is hinged to a right rocking plate (7527), one end of the right rocking plate (7527) is hinged to a right rocking rod (7538), the right rocking rod (7538) is rotatably connected to the right U-shaped plate (7504), and a plurality of right limiting plates (7528) are connected to the right rocking rod (7538); a linear slide rail E (7529) is connected to the left supporting plate (7508) along the X direction, one end of the linear slide rail E (7529) close to the right supporting plate (7509) is inclined downwards, a slide block of the linear slide rail E (7529) is connected with a sloping plate (7530), a plurality of pressing blocks (7531) are connected to the sloping plate (7530), a cylinder nine (7532) is connected to the left supporting plate (7508), and the sloping plate (7530) is hinged to the power output end of the cylinder nine (7532); the side wall of the right supporting plate (7509) is connected with a linear sliding rail F (7534) along the X direction, a roller frame (7535) is connected to the sliding rail of the linear sliding rail F (7534), and a compression roller (7536) is rotationally connected between the roller frames (7535); a tenth air cylinder is connected to the right supporting plate (7509), and the roller frame (7535) is connected to the power output end of the tenth air cylinder;

the bottom folding mechanisms (76) are divided into two groups, and one group of bottom folding mechanisms (76) corresponds to one group of edge folding mechanisms (75) respectively; the bottom folding mechanism (76) comprises an upper bottom pressing plate (761), a lower bottom pressing plate, a left bottom pressing plate and a right bottom pressing plate, the rear sides of the four bottom pressing plates (761) are respectively connected to four bottom pushing air cylinders (762), the bottom pushing air cylinders (762) are respectively connected to four adjusting seats (763), the adjusting seats (763) are connected to an upper second screw rod lifter (764), a lower second screw rod lifter (764) and a right second screw rod lifter (764) which are connected to a front portal frame (765); when the bottom pushing cylinder (762) extends to a limit position, four bottom pressing plates (761) are arranged in a rectangular mode.

2. An automated wine box processing line according to claim 1, wherein: the first conveying device (2) and the second conveying device (4) are both PVC belt conveyors, the first conveying device (2) and the second conveying device (4) share a mounting frame (201), and the first conveying device (2) is flush with a discharge hole of the oven (1); the turnover device (3) comprises a first motor (301), a base (302) and a tripod (303), wherein the first motor (301) is connected to the side part of the installation frame (201), a power output end of the first motor (301) is connected with a turnover shaft (304), the turnover shaft (304) is rotatably connected to the upper part of the installation frame (201), and two rectangular block-shaped bases (302) are connected to the turnover shaft (304); the triangular frame (303) is in a right-angle triangular shape, one end of two right-angle sides of the triangular frame (303) is connected with two adjacent sides of the base (302), and a clamping opening is formed between the right-angle sides of the two adjacent triangular frames (303); when the clamping opening is kept in a horizontal state, the clamping opening is flush with the first conveying device (2) and the second conveying device (4).

3. An automated wine box processing line according to claim 2, wherein: the reversing device (5) comprises a reversing frame (501) and a carrier roller (502); the reversing frame (501) is U-shaped, the carrier rollers (502) are rotatably connected between the tops of the reversing frame (501), the length direction of each carrier roller (502) is horizontal to the running direction of the second conveying device (4), the second motor (503) is in driving connection with one carrier roller (502), and two adjacent carrier rollers (502) are in transmission connection through a chain; the bottom end of the mounting frame (201) is connected with a first cylinder (504), the reversing frame (501) is connected to the power output end of the first cylinder (504), and the reversing frame (501) is connected to the mounting frame (201) through a first optical axis sliding sleeve assembly (505); the third conveying device (6) is an induced draft assembly line, and one end, close to the forming device (7), of the third conveying device (6) is inclined upwards.

4. An automated wine box processing line according to claim 2 or 3, wherein: the frame (71) comprises a frame (711), a side door (712) and a workbench (713); the side frames (711) are surrounded to form a rectangular square frame, the side doors (712) are connected between the side frames (711), the workbench (713) is connected to the top ends of the side frames (711), and the bottom ends of the side frames (711) are connected with the foot cups (714); the conveying mechanism (72) is a PVC belt conveyor, and the conveying mechanism (72) is horizontally connected to the workbench (713); the feeding mechanism (73) comprises a rear portal frame (731), an X-axis sliding table module (732), a Y-axis sliding table module (733) and a vacuum chuck A (734), wherein the rear portal frame (731) is connected to one end above the workbench (713), the X-axis sliding table module (732) is connected to the top end of the rear portal frame (731), and the Y-axis sliding table module (733) is connected to a sliding block of the X-axis sliding table module (732); a sliding block of the Y-axis sliding table module (733) is connected with a transfer plate (735), and the front end of the transfer plate (735) is connected with two groups of linear slide rails A (736) arranged in the Z direction; the sliding block of the linear sliding rail A (736) is connected with a lifting plate (737), and the front end of the lifting plate (737) is connected with two Y-direction arranged sectional materials (738); four vacuum chucks A (734) are provided, and each two vacuum chucks A (734) are connected to one section bar (738); the transfer plate (735) is connected with a second cylinder (739), and the lifting plate (737) is connected to the power output end of the second cylinder (739).

5. An automated wine box processing line according to claim 4, wherein: the two groups of core mould mechanisms (74) are arranged in total, and the two groups of core mould mechanisms (74) are symmetrically connected to the workbench (713) along the X direction; the mandrel mechanism (74) further comprises a bottom plate (742), a central shaft (748), a rotating seat (747) and a lifting table (749), wherein the bottom plate (742) is connected below the workbench (713), a second optical axis sliding sleeve component (743) is connected between the bottom plate (742) and the workbench (713), the lifting table (749) is connected to the second optical axis sliding sleeve component (743), and a first screw rod lifter is connected between the bottom plate (742) and the lifting table (749); the lifting table (749) is connected with a bearing seat (744), the bottom end of the central shaft (748) is rotationally connected with a bearing shaft, the lifting table (749) is connected with a third motor (745), the third motor (745) is connected with the central shaft (748) through a synchronous belt in a driving way, and the central shaft (748) is connected with a guide sleeve (746) of the workbench (713) in a sliding way; the rotating seat (747) is connected to the top end of the central shaft (748), and the mold cores (741) are connected to the two ends of the rotating seat (747).

6. An automated wine box processing line according to claim 5, wherein: the paper pasting mechanisms (77) are divided into two groups, and one group of paper pasting mechanisms (77) corresponds to one group of core die mechanisms (74); the paper pasting mechanism (77) comprises a supporting frame (7701), the supporting frame (7701) is connected to the workbench (713), the top of the supporting frame (7701) is connected with a platform (7702), and two sides of the platform (7702) are connected with supporting plates (7703); the positive and negative teeth sliding table module b (7704) is connected between the supporting plates (7703), two groups of positive and negative teeth sliding table modules c (7705) are connected to the sliding blocks of the positive and negative teeth sliding table module b (7704), L-shaped plates (7706) are connected to the four sliding blocks of the positive and negative teeth sliding table module c (7705), the positive and negative teeth sliding table module b (7704) and the positive and negative teeth sliding table module c (7705) drive the four L-shaped plates (7706) to move in the front, back, left and right directions, and rectangular accommodating grooves are formed among the four L-shaped plates (7706); the inner wall of the supporting plate (7703) is connected with a linear sliding rail G (7707) along the Y direction, a feeding plate (7708) is connected to a sliding block of the linear sliding rail G (7707), and two vacuum suckers B (7709) are connected to the feeding plate (7708); the novel hydraulic lifting device is characterized in that an air cylinder eleven (7710) is rotatably connected to the outer wall of the supporting plate (7703), a swing arm (7711) is hinged to the power output end of the air cylinder eleven (7710), the swing arm (7711) is hinged to a pivot (7712), the pivot (7712) is rotatably connected between the supporting plates (7703), a plugboard (7713) is connected to the pivot (7712) between the supporting plates (7703), and a slot (7714) is formed in one end of the plugboard (7713).

7. An automated wine box processing line according to claim 6, wherein: the blanking mechanisms (78) are divided into two groups, and one group of blanking mechanisms (78) corresponds to one group of core die mechanisms (74); the blanking mechanism (78) comprises a U-shaped blanking table (781), a rodless cylinder (782) is connected to the blanking table (781), a sliding plate (783) is connected to a cylinder body of the rodless cylinder (782), and the sliding plate (783) is connected to the blanking table (781) through a third optical axis sliding sleeve group; the novel X-ray type air cylinder is characterized in that two rib plates (784) are connected to the sliding plate (783), twelve air cylinders (785) distributed along the X direction are connected to the rib plates (784), the two twelve air cylinders (785) are arranged in opposite directions, and two L-shaped scraping plates (786) are connected to the power output end of each twelve air cylinder (785).