CN106142659B - World lid carton make-up machine - Google Patents

Abstract

The invention relates to a top and bottom cover paper box forming machine with high production efficiency. This world lid carton make-up machine is including the shaping platform to and give the facial tissue mechanism that send of shaping platform facial tissue, its characterized in that: a rotary die holder is arranged above the forming platform and is in transmission connection with a rotary power source for driving the rotary die holder to rotate intermittently, four lifting driving sources are arranged on the rotary die holder in equal intervals along the rotating center, each lifting driving source is in transmission connection with a negative suction die, and negative suction holes connected with an air source are formed in four side surfaces of each negative suction die; the four negative suction molds respectively correspond to a panel forming station, a panel and facial tissue attaching station, a front side paper edge wrapping station, a rear side paper edge wrapping station and a left side paper edge wrapping station and a right side paper edge wrapping station. According to the forming machine for the paper box with the top cover and the bottom cover, the four negative suction die bases rotate in a clearance mode and work simultaneously, and therefore production efficiency is greatly improved.

Description

World lid carton make-up machine

Technical Field

The present invention relates to a machine for making carton lids (i.e. lids for heaven and earth) or cartons.

Background

The top and bottom cover is a cover of a paper box, and the cover is adopted in packaging paper boxes such as wine boxes, mobile phone boxes, shoe boxes and the like. At present, all machines for manufacturing the top and bottom covers or the paper boxes adopt a production line type structure. For example, patent publication No. CN103057162A discloses an automatic carton making machine (the top and bottom covers have the same structure as the carton), which includes a conveying line, one end of which is provided with a facial tissue gluing part, the other end of which is provided with a facial tissue packaging part, the middle of the conveying line is provided with an automatic positioning part, and a carton forming part is arranged at a position corresponding to the automatic positioning part. Sticking four corners of the paper board by adopting a paper box forming part to enable the paper board to form the shape of the paper box; the facial tissue gluing part is adopted, the facial tissue is automatically glued, and the glued facial tissue is conveyed to the automatic positioning part through a conveying line; positioning and sticking the formed paper box and the glued facial tissue by adopting an automatic positioning part; and the operation is finished by adopting a facial tissue packaging part, folding and pressing the box by the facial tissue packaging part after the facial tissue is adhered to the formed paper box. Although the manufacturing process of the box making machine is full-automatic, the production efficiency is low, and the box making machine cannot meet the requirements of modern production.

Disclosure of Invention

In view of the defects in the prior art, the invention innovatively provides the top and bottom cover paper box forming machine with high production efficiency.

This world lid carton make-up machine is including the shaping platform to and give the facial tissue mechanism that send of shaping platform facial tissue, its characterized in that: a rotary die holder is arranged above the forming platform and is in transmission connection with a rotary power source for driving the rotary die holder to rotate intermittently, four lifting driving sources are arranged on the rotary die holder in equal intervals along the rotating center, each lifting driving source is in transmission connection with a negative suction die, and negative suction holes connected with an air source are formed in four side surfaces of each negative suction die; the four negative suction molds respectively correspond to a panel forming station, a panel and facial tissue attaching station, a front side paper edge wrapping station, a rear side paper edge wrapping station and a left side paper edge wrapping station and a right side paper edge wrapping station; a panel forming mechanism is arranged at a panel forming station; the panel and the facial tissue attaching station are adjacent to the facial tissue feeding mechanism; a first forming slot hole through which a negative suction mold can pass is formed in the forming platform of the front and rear side paper edge wrapping stations, and a front and rear side paper edge wrapping mechanism is arranged below the first forming slot hole; and a second forming groove hole through which a negative suction mold can pass is formed in the forming platform of the left and right side paper edge wrapping stations, and a left and right side paper edge wrapping mechanism is arranged below the second forming groove hole.

The panel forming mechanism comprises four forming plates, wherein the four forming plates are oppositely arranged in pairs, and the four forming plates are driven by a forming plate power source to move oppositely in pairs.

And a panel conveying mechanism for conveying the panel to the four forming plates is also arranged at the panel forming station.

The front and rear side paper edge wrapping mechanism comprises a front brush roller and a rear brush roller which are arranged in front and rear, a front plug-in unit and a rear plug-in unit which are arranged in front and rear, a side lug plug-in unit and a first supporting plate which can be lifted up and down; the front brush roll is positioned above the front plug-in unit, the rear brush roll is positioned above the rear plug-in unit, and the front plug-in unit and the rear plug-in unit are in transmission connection with a power source to realize front and rear movement; the four side ear plug-ins are arranged, two of the four side ear plug-ins are positioned at the left side and the right side of the front plug-in, the other two side ear plug-ins are positioned at the left side and the right side of the rear plug-in, and the four side ear plug-ins are in transmission connection with a power source to realize front and back movement; the first supporting plate is located under the first forming slotted hole and connected with a lockable gas spring.

The left and right side paper edge wrapping mechanism comprises a left brush roller and a right brush roller which are arranged left and right, a left plug-in unit and a right plug-in unit which are arranged left and right, and a second supporting plate which can be lifted up and down; the left brush roll is positioned above the left plug-in unit, the right brush roll is positioned above the right plug-in unit, and the left plug-in unit and the right plug-in unit are in transmission connection with a power source to realize left and right movement; the second support plate is located under the second forming groove hole and connected with a lockable second gas spring.

And a through hole penetrates through each negative suction mould from top to bottom, an ejector rod is arranged in each through hole, and the ejector rod is in transmission connection with an ejector rod power source for driving the ejector rod to move up and down.

The facial tissue deviation correcting mechanism is arranged at a facial tissue laminating station and comprises a negative pressure sucker connected with an air source, a transverse deviation correcting assembly and a longitudinal deviation correcting assembly, the transverse deviation correcting assembly comprises two transverse driving sources arranged side by side, the two transverse driving sources are in transmission connection with a mounting plate, and the negative pressure sucker is mounted on the mounting plate; the longitudinal deviation rectifying assembly comprises a longitudinal driving source, the longitudinal driving source is in transmission connection with a deviation rectifying plate, and the transverse deviation rectifying assembly is installed on the deviation rectifying plate; and a deviation rectifying groove hole is formed in the forming platform where the negative pressure sucker is located, and the negative pressure sucker is located in the deviation rectifying groove hole.

Lining devices are arranged at positions adjacent to the paper edge wrapping stations on the left side and the right side; a conveying mechanism is arranged between the lining placing device and the paper edge wrapping stations on the left side and the right side, and a baffle is arranged in front of the conveying mechanism; and the left and right side paper edge wrapping stations are provided with material pushing mechanisms for pushing the top and bottom covers to the conveying mechanism, and the lining placing device can place the lining in the top and bottom covers blocked at the baffle.

The lining placing device comprises a lining bin and a negative suction module connected with an air source, a suction hole of the negative suction module is positioned at the bottom of the negative suction module, a rotary die carrier is arranged above the forming platform and is in transmission connection with a rotary driving source for driving the rotary die carrier to rotate intermittently, four lifting power sources are arranged on the rotary die carrier in equal intervals along the center of rotation, and each lifting power source is in transmission connection with one negative suction module; the four negative suction modules correspond to a lining suction station, a lining gluing station, a lining placing station and a finished product placing station respectively; the lining bin is positioned at the lining suction station; a gluing mechanism for gluing the surface paper adsorbed at the bottom of the negative suction module is arranged on the platform of the lining gluing station; the lining placing station is adjacent to the left side paper edge wrapping station and the right side paper edge wrapping station, and the conveying mechanism is located between the lining placing station and the left side paper edge wrapping station and the right side paper edge wrapping station.

Rubberizing mechanism is including removing seat, glue groove, being stained with the rubber roll and going up the rubber roll, the glue groove, being stained with the rubber roll and going up the rubber roll and all installing on removing the seat, it slides and sets up on the shaping platform to remove the gliding sliding drive source transmission of seat with the drive and be connected, be stained with the rubber roll and partially or all be located the glue groove, be stained with the rubber roll and go up the rubber roll laminating.

According to the forming machine for the paper box with the top cover and the bottom cover, the four negative suction die bases rotate in a clearance mode and work simultaneously, and therefore production efficiency is greatly improved.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic structural view of a rotary die holder and a forming die;

FIG. 4 is a flow chart of the top and bottom cover molding;

FIG. 5 is a schematic structural view of a panel forming mechanism;

FIG. 6 is a schematic structural diagram of a deviation correcting mechanism;

FIG. 7 is a schematic diagram of facial tissue deviation correction;

FIG. 8 is a perspective view of the front and rear side paper hemming mechanisms;

FIG. 9 is a side view of the front and rear side paper hemming mechanisms;

FIG. 10 is a schematic view of a liner placement device;

fig. 11 is a schematic structural diagram of a gluing mechanism.

Detailed Description

As shown in fig. 1 and 2, the top and bottom cover carton forming machine of the present invention comprises a forming platform 1 and a facial tissue feeding mechanism F for feeding facial tissue to the forming platform 1. The facial tissue delivered by the facial tissue delivery mechanism F is glued, the facial tissue delivery mechanism F is the prior art, details are not described here, the innovation part of the invention is in the forming platform 1 part, and the forming work of the top and bottom cover is completed on the forming platform 1.

As shown in fig. 3, a rotary die holder 20 is disposed above the forming platform 1, the rotary die holder 20 is in transmission connection with a rotary power source (a combination structure of a servo motor and a divider) for driving the rotary die holder 20 to rotate intermittently, four lifting driving sources 21 (the lifting driving sources may be cylinders or motors) are equally disposed on the rotary die holder 20 along the center of rotation, each lifting driving source 21 is in transmission connection with one negative suction die 2, so that four negative suction dies 2 are equally disposed on one rotary die holder 20, the four negative suction dies 2 can be lifted up and down, in addition, negative suction holes 22 connected with an air source are disposed on four side surfaces of each negative suction die 2, and after the panel wraps the negative suction dies 2, the negative suction holes 22 can suck four side surfaces of the panel.

As shown in fig. 2, four negative suction molds 2 correspond to a panel forming station 4, a panel and face paper attaching station 5, a front and rear side paper hemming station 6, and a left and right side paper hemming station 7, respectively. Finishing the forming work of the panel at a panel forming station 4; the bonding work of the paperboard and the facial tissue is finished at a panel and facial tissue bonding station 5; the front and back paper edge covering stations 6 finish the edge covering work of the front and back side paper and the side lugs; and the edge covering work of the left and right side surface paper is finished at the left and right side surface paper edge covering station 7. Four negative suction mould 2 rotate along the preparation process intermittent type through rotary power source's drive, rotate 90 at every turn, a negative suction mould 2 just goes to next station after the work that a station accomplished the correspondence promptly, other three negative suction mould is also so, like this, a negative suction mould 2 just accomplishes the shaping work of a world lid through four stations, and this negative suction mould 2 is at fashioned in-process, and other three negative suction mould is also all working, therefore the preparation efficiency improves greatly.

The following structural drawings specifically illustrate the structure and the working principle of each station.

Firstly, a panel forming station 4, also called as an ash board, is a paperboard with hard texture, as shown in fig. 4, the panel is provided with a groove and has four side surfaces in a flat state, and the work to be finished by the panel forming station is to erect the four side surfaces of the panel and make the four side surfaces of the panel wrap the negative suction mold 2 so as to enable the negative suction holes on the four side surfaces of the negative suction mold 2 to suck. A panel forming mechanism 41 is arranged at the panel forming station 4, as shown in fig. 5, the panel forming mechanism 41 includes four forming plates 410 enclosing into a square frame and a forming plate power source 411 for driving the forming plates 410 to move, after the panel is placed on the square frame (which can be placed manually or by the panel feeding mechanism 40), the negative suction mold 2 at this station moves down to press the main plate surface of the panel into the frame, and the four side surfaces of the panel are folded up by the four forming plates 410, so that the four side surfaces of the panel are respectively attached to the four side surfaces of the negative suction mold 2, and then the panel is absorbed on the negative suction mold 2 through the negative suction of the negative suction holes on the four side surfaces to form the prototype of the top and bottom cover, then the forming plate power source 411 drives the forming plates 410 to move back to form an enough space, and then the negative suction mold 2 forms the panel to lift, and transferred to the next station, panel to tissue laminating station 5.

The panel and facial tissue laminating station 5 finishes the laminating work of the panel and the facial tissue, and as shown in fig. 2, the facial tissue which is glued is conveyed to the forming platform 1 of the station through a facial tissue conveying mechanism F. As shown in fig. 4, the face paper also has four side faces, and the side faces of the face paper are wrapped around the side faces of the paper board (i.e. wrapped edges), so that the width of the side faces of the face paper is wider than that of the side faces of the paper board, and the middle of the face paper also has a crease, and the side faces of the face paper can wrap around the side faces of the panel through the crease; when the forming machine works, the negative suction mould 2 drives the forming panel to move downwards, the bottom of the forming panel is adhered to the main surface of the facial tissue, then the negative suction mould 2 ascends, the panel and the facial tissue also ascend, and the panel and the facial tissue rotate to the next station along with the negative suction mould 2.

It is worth mentioning here that after the facial tissue is conveyed to the forming platform, there may be angular deviation, which affects the accurate alignment of the main surface of the facial tissue and the main surface of the panel. Therefore, the facial tissue deviation rectifying mechanism is arranged at the station, as shown in fig. 6, the facial tissue deviation rectifying mechanism comprises a negative pressure suction cup 52 connected with an air source, a transverse deviation rectifying assembly and a longitudinal deviation rectifying assembly, a deviation rectifying slot hole is formed in the forming platform 1 of the station, and the negative pressure suction cup 52 is located in the deviation rectifying slot hole. The transverse deviation rectifying assembly comprises two transverse driving sources 56 which are arranged side by side, the two transverse driving sources 56 are in transmission connection with the mounting plate 53, and the negative pressure suction cup 52 is mounted on the mounting plate 53; the longitudinal deviation rectifying assembly comprises a longitudinal driving source, the longitudinal driving source is in transmission connection with the deviation rectifying plate, and the transverse deviation rectifying assembly is arranged on the deviation rectifying plate 54; the negative pressure sucker 52 can suck the facial tissue to carry out deviation rectification by the transverse deviation rectification component and the longitudinal deviation rectification component which drive the negative pressure sucker 52 to move.

The concrete principle of rectifying is as follows: as shown in fig. 7, three photo-eyes, which may be referred to as a first photo-eye a, a second photo-eye b, and a third photo-eye c, are disposed above the negative pressure cup 52. When the first photoelectric eye a and the second photoelectric eye b face one edge of the facial tissue at the same time, and the third photoelectric eye c faces the other adjacent edge of the facial tissue, the facial tissue is in an accurate position; when the position of the facial tissue is deviated (the facial tissue feeding mechanism F is adjusted to ensure that the facial tissue feeding mechanism F conveys the facial tissue at a certain angular deviation, so that the deviation correction modes of all the facial tissue are the same), firstly, the two transverse driving sources 56 drive the negative pressure suction cups 52 to transversely move, so that one edge of the facial tissue is close to the first photoelectric eye a and the second photoelectric eye b, when the first photoelectric eye a irradiates the edge of the facial tissue, the transverse driving source 56 positioned below the first photoelectric eye a stops driving, the transverse driving source positioned below the second photoelectric eye b continues driving until the second photoelectric eye b irradiates the edge of the facial tissue, and at the moment, the transverse driving source positioned below the second photoelectric eye b also stops driving, so that the transverse deviation correction of the facial tissue is finished; after the transverse deviation correction is finished, the longitudinal driving source drives the third photoelectric eye c, when the third photoelectric eye c irradiates the other adjacent edge of the facial tissue, the longitudinal driving source stops driving, and thus the facial tissue finishes the longitudinal deviation correction; the facial tissue is completely in an accurate position through transverse deviation correction and longitudinal deviation correction.

After the panel and the face paper are accurately attached, the front and back side paper hemming stations 6 are switched to, wherein the front and back side face paper hemming refers to hemming the two sides of the side ears of the face paper belt to the corresponding two sides of the paper board, and therefore the front and back sides of the face paper are not described for special positions. The front and back side surface paper covering edges not only comprise the covering edges of the front and back side surfaces of the surface paper, but also comprise the covering edges of the side ears. The front and rear side paper covering is completed by a front and rear side paper covering mechanism, as shown in fig. 8 and 9, the front and rear side paper covering mechanism comprises a front brush roller 61 and a rear brush roller 62 which are arranged in front and rear, a front plug-in unit 63 and a rear plug-in unit 64 which are arranged in front and rear, a side lug plug-in unit 66 and a first supporting plate 65 which can be lifted up and down; the front brush roller 61 is positioned above the front insert 63, the rear brush roller 62 is positioned above the rear insert 64, the front insert 63 and the rear insert 64 are both moved forward and backward by being in transmission connection with a power source, the first support plate 65 is positioned right below the first forming groove hole 60, and the first support plate 65 is connected with the lockable first air spring 67.

When the station works, the negative suction mould 2 drives the panel and the facial tissue to move downwards and penetrate through the first forming slotted hole 60, the front brush rolls 61 and the rear brush rolls 62 at two sides below the first forming slotted hole 60 respectively brush the front side and the rear side of the facial tissue onto two side surfaces of the panel in the process of penetrating through the first forming slotted hole 60, the first supporting plate 67 always supports the bottom of the top and bottom cover under the action of the air spring in the downward moving process, when the negative suction mould 2 drives the top and bottom cover to continuously descend and reach the lower parts of the front plug-in part 63 and the rear plug-in part 64, the negative suction mould 2 stops moving the air spring downwards, the air spring 67 is locked (the air spring 67 is locked by the air cylinder driving the clamp), the negative suction hole of the negative suction mould 2 does not suck again, so that the negative suction mould 2 moves upwards, the top and bottom cover is separated from the negative suction mould 2 and is placed on the first supporting plate 65, and in order that the top and bottom cover can be smoothly separated from the negative suction mould 2, according to the invention, a through hole penetrates through each negative suction mould 2 from top to bottom, a mandril 23 is arranged in the through hole, the mandril 23 is in transmission connection with a mandril power source for driving the mandril to move up and down, when the negative suction mould 2 is about to ascend, the mandril is downwards propped against a first supporting plate 65, and when the negative suction mould 2 ascends, a top and bottom cover is separated from the negative suction mould 2; after the top and bottom cover is separated from the negative suction mould 2 and is arranged on the first supporting plate 65, the front insert 63 and the rear insert 64 work, the two side faces of the front side and the rear side which are erected by the action of the front brush roll 61 and the rear brush roll 62 of the facial tissue are inserted to the inner side, after the front insert 63 and the rear insert 64 are reset, the negative suction mould 2 moves downwards again and enters the top and bottom cover, and meanwhile, the two side edges of the front side and the rear side of the facial tissue folded to the inner side are pressed downwards, so that the two side edges of the front side and the rear side of the facial tissue are respectively attached to the two side edges of the front side and the rear side of the paper board along the crease lines; meanwhile, the four side ear plug-in units 66 stick the side ears on the front and back sides of the facial tissue to the left and right sides of the panel, and the side ears of the facial tissue are stuck on the panel, thereby completing the edge covering work of the front and back facial tissue. After that, the gas spring 67 is unlocked, the negative suction hole 22 of the negative suction mould 2 is sucked again and moves upwards with the top and bottom cover, and then the paper covering station on the left side and the right side is turned.

The working principle of the left and right side paper edge wrapping stations is the same as that of the front and rear side paper edge wrapping stations, but the edge wrapping mechanism with fewer side lugs is adopted. The same structure is as follows: the left and right side paper edge wrapping mechanisms are arranged at the left and right side paper edge wrapping stations and comprise left brush rollers and right brush rollers which are arranged left and right, left plug-in units and right plug-in units which are arranged left and right, and second supporting plates which can be lifted up and down; the left brush roll is positioned above the left inserting plate, the right brush roll is positioned above the right inserting plate, and the left inserting piece and the right inserting piece are in transmission connection with a power source to realize left and right movement; the second supporting plate is located under the second forming groove hole and connected with a lockable second gas spring. The principle of the left and right side paper covering edges is the same as that of the front and rear side paper covering edges, and the description is omitted here.

After the edges of the left and right side paper are covered, the whole forming work of the top and bottom cover is finished, and the top and bottom cover can be normally used. However, in order to seek an aesthetic appearance, some manufacturers also require that a liner (also a piece of facial tissue) be attached to the bottom of the top and bottom cover to make the entire cover look more beautiful. Therefore, the lining placing device is also arranged at the position adjacent to the paper edge wrapping stations on the left side and the right side.

The lining releasing device comprises a lining storage bin 90 and a negative suction module 3 connected with an air source, wherein a suction hole of the negative suction module 3 is positioned at the bottom of the negative suction module 3, a rotary die carrier 30 is arranged above a forming platform, the rotary die carrier 30 is in transmission connection with a rotary driving source (a combined structure of an electric driving source and a divider) for driving the rotary die carrier 30 to rotate intermittently, four lifting power sources (the lifting driving source can also be an air cylinder) are arranged on the rotary die carrier 30 at equal intervals along the rotating center, and each lifting power source is in transmission connection with one negative suction module 3; as shown in fig. 2, the four negative suction modules 3 correspond to a liner suction station 9, a liner gluing station 10, a liner placing station 11 and a finished product placing station 12 respectively.

The four negative suction modules 3 rotate in the same way as the four negative suction modules, and the rhythm of intermittent rotation is consistent, namely, one negative suction module 2 rotates by 90 degrees, and the other negative suction module 3 simultaneously rotates by 90 degrees, so that the forming process of the top and bottom cover and the lining placing process can be connected.

The structure and operation of the lining device will be described in detail below.

As shown in fig. 10, a lining silo 90 is arranged on the platform at the lining station 9, and the negative suction module 3 moves downwards to suck the lining through a suction hole at the bottom of the negative suction module.

The negative suction module 3 sucks up the liner and then transfers to a liner gluing station 10, and a gluing mechanism for gluing the surface paper adsorbed at the bottom of the negative suction module is arranged on a forming platform at the liner gluing station 10; as shown in fig. 11, the glue applying mechanism includes a moving base 100, a glue tank 102, a glue dipping roller 103 and a glue applying roller 104, the glue tank 102, the glue dipping roller 103 and the glue applying roller 104 are all installed on the moving base 100, the moving base 100 is slidably installed on the forming platform 1 and is in transmission connection with a sliding driving source for driving the moving base to slide, the glue dipping roller 103 is partially or completely located in the glue tank 102, and the glue dipping roller 103 is attached to the glue applying roller 104. During gluing, the glue dipping roller 103 rotates in the glue tank to dip glue, the glue dipping roller 103 dips the glue onto the glue applying roller 104, and the glue applying roller 104 dips the glue onto the lining due to the movement of the glue applying roller 104 driven by the movable base 100.

The lining is adhered with glue and then transferred to a lining placing station 11, the lining placing station 11 is adjacent to a left side paper edge wrapping station 7 and a right side paper edge wrapping station 7, in order to connect the left side paper edge wrapping station 7 and the right side paper edge wrapping station 11, a conveying mechanism 8 is arranged on a forming platform between the lining placing station 11 and the left side paper edge wrapping station 7, a baffle is arranged in front of the conveying mechanism 8, the top and bottom cover is conveyed by the conveying mechanism 8 and then is blocked at the baffle, and the negative suction module 3 moves downwards to place the lining into the top and bottom cover; in addition, in order to push the top and bottom covers to the conveying mechanism 8, the left and right side paper edge wrapping stations are provided with a material pushing mechanism for pushing the top and bottom covers to the conveying mechanism 8, and the material pushing mechanism can push the top and bottom covers to the conveying mechanism.

And after the inner liner is pasted in the top and bottom cover, the inner liner is transferred to a lower finished product station 12, the finished product is placed down at the lower finished product station 12, and finally the top and bottom cover paper box pasted with the inner liner is manufactured.

Claims (9)

1. The utility model provides a world lid carton make-up machine, is including forming platform (1) to and give forming platform (1) carry the facial tissue send facial tissue mechanism (F) of facial tissue, its characterized in that: a rotary die holder (20) is arranged above the forming platform (1), the rotary die holder (20) is in transmission connection with a rotary power source for driving the rotary die holder (20) to rotate intermittently, four lifting driving sources (21) are arranged on the rotary die holder (20) in equal parts along the rotating center, each lifting driving source (21) is in transmission connection with one negative suction die (2), and negative suction holes (22) connected with an air source are formed in four side surfaces of each negative suction die (2); the four negative suction molds (2) respectively correspond to a panel forming station (4), a panel and facial tissue laminating station (5), a front and back side facial tissue edge covering station (6) and a left and right side facial tissue edge covering station (7); a panel forming mechanism (41) is arranged at the panel forming station (4); the panel is close to the facial tissue attaching station (5) and the facial tissue feeding mechanism (F); a first forming slotted hole (60) through which the negative suction mold (2) can pass is formed in the forming platform (1) of the front and rear side paper hemming stations (6), and a front and rear side paper hemming mechanism is arranged below the first forming slotted hole (60); a second forming slotted hole (70) through which the negative suction mold (2) can pass is arranged on the forming platform (1) of the left and right side paper edge wrapping stations (7), and a left and right side paper edge wrapping mechanism is arranged below the second forming slotted hole (70); the front and rear side paper edge wrapping mechanism comprises a front brush roller (61) and a rear brush roller (62) which are arranged in front and rear, a front plug-in unit (63) and a rear plug-in unit (64) which are arranged in front and rear, a side lug plug-in unit (66) and a first supporting plate (65) which can be lifted up and down; the front brush roll (61) is positioned above the front plug-in unit (63), the rear brush roll (62) is positioned above the rear plug-in unit (64), and the front plug-in unit (63) and the rear plug-in unit (64) are in transmission connection with a power source to realize front and rear movement; the four side ear plug-in components (66) are arranged, two of the four side ear plug-in components are positioned at the left side and the right side of the front plug-in component (63), the other two side ear plug-in components are positioned at the left side and the right side of the rear plug-in component (64), and the four side ear plug-in components (66) are in transmission connection with a power source to realize front and back movement; first backup pad (65) are located first shaping slotted hole (60) under, first backup pad (65) are connected with lockable gas spring (67).

2. The top and bottom cover carton forming machine of claim 1, wherein: the panel forming mechanism (41) comprises four forming plates (410), wherein the four forming plates (410) are arranged oppositely in pairs, and the four forming plates (410) are driven by a forming plate power source (411) to move oppositely in pairs.

3. The top and bottom cover carton forming machine of claim 2, wherein: the panel forming station (4) is also provided with a panel conveying mechanism (40) for conveying the panel to the four forming plates (410).

4. The top and bottom cover carton forming machine of claim 1, wherein: the left and right side paper edge wrapping mechanism comprises a left brush roller and a right brush roller which are arranged left and right, a left plug-in unit and a right plug-in unit which are arranged left and right, and a second supporting plate which can be lifted up and down; the left brush roll is positioned above the left plug-in unit, the right brush roll is positioned above the right plug-in unit, and the left plug-in unit and the right plug-in unit are in transmission connection with a power source to realize left and right movement; the second support plate is located under the second forming groove hole and connected with a lockable second gas spring.

5. The top and bottom cover carton forming machine of claim 4, wherein: a through hole penetrates through each negative suction mould (2) from top to bottom, an ejector rod (23) is arranged in each through hole, and the ejector rod (23) is in transmission connection with an ejector rod power source for driving the ejector rod to move up and down.

6. A lid box forming machine according to claim 1, 2 or 3, wherein: the facial tissue deviation rectifying mechanism is arranged at a panel and facial tissue laminating station (5), and comprises a negative pressure sucker (52) connected with an air source, a transverse deviation rectifying assembly and a longitudinal deviation rectifying assembly, wherein the transverse deviation rectifying assembly comprises two transverse driving sources (56) arranged side by side, the two transverse driving sources (56) are in transmission connection with a mounting plate (53), and the negative pressure sucker (52) is mounted on the mounting plate (53); the longitudinal deviation rectifying assembly comprises a longitudinal driving source (57), the longitudinal driving source (57) is in transmission connection with a deviation rectifying plate (54), and the transverse deviation rectifying assembly is installed on the deviation rectifying plate (54); a deviation rectifying groove hole is formed in the forming platform (1) where the negative pressure sucker (52) is located, and the negative pressure sucker (52) is located in the deviation rectifying groove hole.

7. A lid box forming machine according to claim 1, 2 or 3, wherein: a lining placing device is also arranged at the position adjacent to the paper edge wrapping stations (7) on the left side and the right side; a conveying mechanism (8) is arranged between the lining placing device and the left and right side paper edge wrapping stations (7), and a baffle is arranged in front of the conveying mechanism (8); and a material pushing mechanism (70) for pushing the top and bottom covers to the conveying mechanism is arranged at the left and right side paper edge wrapping stations (7), and the lining placing device can place the lining in the top and bottom covers blocked at the baffle.

8. The top and bottom cover carton forming machine of claim 7, wherein: the lining placing device comprises a lining storage bin (90) and a negative suction module (3) connected with an air source, suction holes of the negative suction module (3) are positioned at the bottom of the negative suction module (3), a rotary die carrier (30) is arranged above a forming platform, the rotary die carrier (30) is in transmission connection with a rotary driving source for driving the rotary die carrier to rotate intermittently, four lifting power sources are arranged on the rotary die carrier (30) in equal intervals along the center of rotation, and each lifting power source is in transmission connection with one negative suction module (30); the four negative suction modules (3) respectively correspond to a lining suction station (9), a lining gluing station (10), a lining placing station (10) and a finished product discharging station (12); the lining bin (90) is positioned at the lining suction station (9); a gluing mechanism for gluing the surface paper adsorbed at the bottom of the negative suction module (3) is arranged on a platform of the lining gluing station (10); the lining placing station (11) is adjacent to the left side paper edge wrapping station and the right side paper edge wrapping station (7), and the conveying mechanism (8) is located between the lining placing station (11) and the left side paper edge wrapping station and the right side paper edge wrapping station (7).

9. The top and bottom cover carton forming machine of claim 8, wherein: rubberizing mechanism is including removing seat (100), glue groove (102), being stained with rubber roll (103) and rubber roll (104) on moving seat (100), glue groove (102), being stained with rubber roll (103) and rubber roll (104) are all installed on moving seat (100), it slides and sets up on shaping platform (1) to remove seat (100) gliding sliding drive source transmission with the drive and be connected, be stained with rubber roll (103) local or all be located glue groove (102), be stained with rubber roll (103) and laminate with rubber roll (104).

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