CN216070741U - Automatic packaging equipment - Google Patents

Abstract

The utility model discloses automatic packaging equipment, and relates to the technical field of packaging. The automatic packaging equipment comprises a bending mechanism, a turnover mechanism, a box enclosing mechanism, a sealing edge mechanism and a transmission mechanism. The bending mechanism can bend the unfolded packing box to form an accommodating groove; the turnover mechanism can enable the to-be-packaged piece and the packaging box to rotate to be in a vertical state; the box enclosing mechanism can attach the fourth side surface of the packaging box to the to-be-packaged piece to complete box enclosing; the edge sealing mechanism can push the adhesive surface to be adhered with the first side surface, so that the packaging box can not be scattered, and packaging is finished. The conveying mechanism can convey the to-be-packaged piece and the packaging box to the bending mechanism, the turnover mechanism, the box enclosing mechanism and the edge sealing mechanism in sequence. This automatic packaging equipment can be automatically with the packing box cladding around the battery piece group of putting of erectting to the resource of using manpower sparingly greatly.

Description

Automatic packaging equipment

Technical Field

The utility model relates to the technical field of packaging, in particular to automatic packaging equipment.

Background

Solar energy is one of important energy sources for sustainable development of human society as a green energy source which is widely distributed, inexhaustible and inexhaustible. The solar cell can convert solar energy into electric energy, and is convenient to store and transport, so that the solar cell can be applied to various fields.

During transportation, the battery pieces are generally stacked to form a battery piece group. In order to improve the transportation efficiency, the cell groups have been changed from horizontal to vertical to save the occupied area. However, the battery piece group is vertically placed, so that the packaging is difficult, 3 operators are needed to cooperate when the packaging box is required to surround the battery piece group, and the labor cost is greatly increased.

To solve the above problems, an automatic packaging device needs to be developed to solve the problem of high labor cost when vertically placing a battery piece group for packaging.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide automatic packaging equipment which can automatically wrap a packaging box around a vertically placed battery piece group, so that the packaging is convenient, and the human resources are greatly saved.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an automatic packaging equipment for the packing box cladding that will expand is around treating the package, the packing box is including first crease, second crease and the third crease that sets gradually to fall into first side, second side, third side and fourth side with this packing box, the fourth side with the relative limit of third crease is provided with the adhesive surface, automatic packaging equipment includes:

the bending mechanism can lift the second side surface and bend along the first crease and the second crease so as to enable the first side surface, the second side surface and the third side surface to form accommodating grooves;

the turnover mechanism can stop at the opening on the side surface of the accommodating groove and rotate the packaging box from a horizontal position to a vertical position;

the box enclosing mechanism can push the fourth side face to bend along the third folding mark and face the side opening of the accommodating groove to complete box enclosing;

the edge sealing mechanism can push the bonding surface to be bonded with the first side surface; and

and the conveying mechanism can convey the to-be-packaged piece and the packaging box to the bending mechanism, the turnover mechanism, the box enclosing mechanism and the edge sealing mechanism in sequence.

Preferably, the bending mechanism comprises a lifting assembly and two bending pieces which are oppositely arranged on two sides of the lifting assembly at intervals, the lifting assembly can lift the second side face, and the two bending pieces can respectively abut against the first side face and the third side face.

Preferably, the lifting assembly comprises a lifting piece and a lifting piece, the lifting piece can slide along the vertical direction relative to the bending piece, and the lifting piece is provided with an adsorption hole.

Preferably, one side of the bottom end of each bent piece close to the other bent piece is inclined upwards to form a guide surface.

Preferably, the turnover mechanism comprises a rotatable rotating part and a baffle arranged on the rotating part, the baffle is stopped at an opening on the side surface of the accommodating groove, and when the rotating part rotates, the baffle and a bearing part of the rotating part can rotate the packaging box from the horizontal position to the vertical position.

Preferably, the support is provided with a cushion pad.

Preferably, the box enclosing mechanism comprises a first rotating disc and a box enclosing piece arranged on the first rotating disc in the vertical direction, and when the first rotating disc rotates, the box enclosing piece can push the fourth side to bend towards the side opening of the accommodating groove.

Preferably, the edge sealing mechanism comprises a second rotary disc and an edge sealing piece arranged on the second rotary disc in the vertical direction, and when the second rotary disc rotates, the edge sealing piece can push the adhesive surface to be adhered to the first side surface.

Preferably, the sealing member is provided with a pressing member rotating in a vertical direction, and when the sealing member pushes the adhesive surface, the pressing member presses the fourth side surface so that the fourth side surface fits the to-be-packaged member.

Preferably, the transfer mechanism comprises:

the first conveying assembly comprises a first base, a plurality of first sliding grooves are formed in the first base along a first direction, the first sliding grooves are arranged at intervals along a second direction, a plurality of first conveying pieces are arranged in each first sliding groove in a sliding mode, a roller is arranged at the top of each first conveying piece, the to-be-packaged pieces can move on the roller along the second direction, and the second direction is perpendicular to the first direction; and

the second transmission assembly comprises a second base, a second sliding groove is formed in the second base along the second direction, and a second transmission piece is arranged in the second sliding groove in a sliding mode;

the bending mechanism is arranged above the first transmission assembly, the box enclosing mechanism and the edge sealing mechanism are arranged above the second transmission assembly, the turnover mechanism is arranged between the first transmission assembly and the second transmission assembly, and the rotation axis of the turnover mechanism is parallel to the first direction.

The utility model has the beneficial effects that:

the utility model provides automatic packaging equipment. In the automatic packaging equipment, an operator folds the packaging box out of the accommodating groove by controlling the bending mechanism, places a battery piece group to be packaged in the accommodating groove, and then moves the battery piece group to the turnover mechanism. After the battery piece group and the packaging box are in a vertical state by the turnover mechanism, the fourth side surface is rotated to the position attached to the battery piece group by the box enclosing mechanism, and box enclosing operation is completed. And finally, pushing the adhesive surface to the first side surface through the edge sealing mechanism and adhering the adhesive surface, so that the packaging box can not be scattered and packaging is finished.

This automatic packaging equipment can be automatically with the packing box cladding around the battery piece group of putting of erectting to the resource of using manpower sparingly greatly.

Drawings

FIG. 1 is a schematic view of the unfolded package of the present invention;

FIG. 2 is a schematic view of the structure of the automatic packaging device of the present invention with the flap in a horizontal position;

FIG. 3 is a schematic view of the structure of the automatic packaging device provided by the present invention with the baffle in the vertical position;

FIG. 4 is a schematic structural view of a bending mechanism provided by the present invention;

FIG. 5 is a schematic structural diagram of the turnover mechanism provided by the present invention;

fig. 6 is a schematic structural diagram of the enclosure mechanism and the edge sealing mechanism provided by the utility model.

In the figure:

x, a first direction; y, a second direction;

100. a battery piece group;

1. packing cases; 2. a bending mechanism; 3. a turnover mechanism; 4. a box enclosing mechanism; 5. a sealing mechanism; 6. a transport mechanism; 7. a support;

11. a first fold; 12. a second fold; 13. a third fold; 14. a first side surface; 15. a second side surface; 16. a third side; 17. a fourth side; 18. an adhesive surface; 19. an accommodating recess; 21. a pull-up assembly; 22. bending a piece; 31. a rotating member; 32. a baffle plate; 33. a cushion pad; 41. a first turntable; 42. enclosing a box piece; 51. a second turntable; 52. a sealing member; 53. a pressing part; 61. a first transmission assembly; 62. a second transmission assembly;

211. a lifting member; 212. a pulling member; 221. a guide surface; 311. a bearing part; 321. a third chute; 611. a first base; 612. a first chute; 613. a first transmission member; 614. a notch; 621. a second base; 622. a second runner.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "secured" are to be construed broadly and encompass, for example, both fixed and removable connections; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may include the first feature being in direct contact with the second feature, or may include the first feature being in direct contact with the second feature but being in contact with the second feature by another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

The package to be packaged in this embodiment is described by taking the battery sheet set 100 as an example.

The embodiment provides an automatic packaging device. As shown in fig. 1, the packing box 1 includes a first fold 11, a second fold 12 and a third fold 13 sequentially arranged to divide the packing box 1 into a first side 14, a second side 15, a third side 16 and a fourth side 17, and an adhesive surface 18 is arranged on an edge of the fourth side 17 opposite to the third fold 13.

As shown in fig. 2 and 3, the automatic packaging device includes a bending mechanism 2, a turnover mechanism 3, a box enclosing mechanism 4, a sealing mechanism 5 and a conveying mechanism 6. The bending mechanism 2 can pull the second side surface 15 and bend along the first fold 11 and the second fold 12, so that the first side surface 14, the second side surface 15 and the third side surface 16 form a receiving groove 19. The tilting mechanism 3 can be stopped at the side opening of the receiving recess 19 and rotate the container 1 from the horizontal position to the vertical position. The box enclosing mechanism 4 can push the fourth side 17 to bend along the third folding mark 13 and face the side opening of the accommodating groove 19 to complete the box enclosing. The edge banding mechanism 5 can push the adhesive surface 18 to adhere to the first side 14. The conveying mechanism 6 can convey the to-be-packaged pieces and the packaging boxes 1 to the bending mechanism 2, the turnover mechanism 3, the box enclosing mechanism 4 and the edge sealing mechanism 5 in sequence.

In the automatic packaging equipment, after an operator folds the packaging box 1 out of the accommodating groove 19 by controlling the bending mechanism 2, the battery piece group 100 to be packaged is placed in the accommodating groove 19 and then is moved to the turnover mechanism 3. After the battery sheet group 100 and the packaging box 1 are in the vertical state by the turnover mechanism 3, the fourth side 17 is rotated to the position where the battery sheet group 100 is attached by the box enclosing mechanism 4, and the box enclosing operation is completed. Finally, the adhesive surface 18 is pushed to the first side surface 14 by the edge sealing mechanism 5 and is adhered, so that the packaging box 1 cannot be scattered, and the packaging is finished.

This automatic packaging equipment can be automatically with packing box 1 cladding around the battery piece group 100 of putting vertically to manpower resources are saved greatly. In order to prevent the fourth side 17 from being separated from the battery sheet group 100 in the edge sealing process, the enclosure mechanism 4 always presses the fourth side 17 to attach to the battery sheet group 100 in the process that the edge sealing mechanism 5 pushes the adhesive surface 18.

In order to keep the bending mechanism 2, the box enclosing mechanism 4 and the edge sealing mechanism 5 stable, the automatic box enclosing equipment further comprises a support 7. Bending mechanism 2, round box mechanism 4 and banding mechanism 5 all set up in support 7.

Preferably, as shown in fig. 4, the bending mechanism 2 includes a pulling assembly 21 and two bending pieces 22 disposed at opposite intervals on two sides of the pulling assembly 21, the pulling assembly 21 can pull the second side surface 15, and the two bending pieces 22 can abut against the first side surface 14 and the third side surface 16, respectively. The operator pulls the second side 15 of the packaging box 1 up by controlling the pulling member 212 of the bending mechanism 2, so that the first side 14 and the third side 16 are bent at the first fold 11 and the second fold 12 respectively to form the accommodating groove 19 under the action of the two bending members 22, and at this time, the fourth side 17 is bent reversely at the third fold 13. At this time, the operator places the battery pack 100 to be packaged in the accommodating groove 19, and then uses the transmission mechanism 6 to move the battery pack 100 and the packaging box 1 together to the turnover mechanism 3.

The lifting assembly 21 comprises a lifting piece 211 and a lifting piece 212, the lifting piece 211 can slide in the vertical direction relative to the bending piece 22, and the lifting piece 212 is provided with an adsorption hole. The pulling assembly 21 sucks the second side surface 15 through the suction hole to pull the second side surface 15.

As shown in fig. 4, the bottom end of one of the bending pieces 22 is inclined upward to form a guide surface 221 near the other bending piece 22. The pulling member 212 pulls the second side 15 upward, and the first side 14 and the third side 16 incline from horizontal to vertical and rub against the bending member 22. The guide surface 221 can greatly reduce the abrasion of the bent piece 22 to the first side surface 14 and the third side surface 16, and can prevent the first side surface 14 and the third side surface 16 from generating creases to affect the packaging effect.

Preferably, as shown in fig. 5, the turnover mechanism 3 includes a rotatable rotating member 31 and a blocking plate 32 disposed on the rotating member 31, the blocking plate 32 is blocked at the side opening of the receiving groove 19, and when the rotating member 31 rotates, the blocking plate 32 and the supporting portion 311 of the rotating member 31 can rotate the packing box 1 from the horizontal position to the vertical position.

When the baffle 32 of the turnover mechanism 3 rotates to the vertical position, the gravity center height of the battery piece group 100 and the packing case 1 changes. As shown in fig. 5, in order to protect the battery sheet assembly 100 and prevent the battery sheet assembly 100 from cracking due to vibration, the support portion 311 is provided with a cushion pad 33. Because the buffer pad 33 has certain elasticity, the friction force between the battery piece group 100 and the packing case 1 and the buffer pad 33 is large, the battery piece group 100 and the packing case 1 can be prevented from sliding, and the stability in the transmission process is improved.

Preferably, as shown in fig. 6, the box enclosing mechanism 4 includes a first rotating disc 41 and a box enclosing member 42 disposed on the first rotating disc 41 along the vertical direction, and when the first rotating disc 41 rotates, the box enclosing member 42 can push the fourth side 17 to bend towards the side opening of the accommodating recess 19. After the cell group 100 and the packaging box 1 are transmitted by the transmission mechanism 6, they reach the enclosure mechanism 4, and the operator rotates the first rotating disk 41, so that the enclosure component 42 rotates the fourth side 17 to the position where the cell group 100 is attached, using the third fold 13 as the axis, thereby completing the enclosure operation.

Preferably, when the box-enclosing piece 42 pushes the fourth side 17, the axis of rotation of the first rotating disk 41 coincides with the line on which the third fold 13 is located. When the operator rotates the first rotating disc 41, the rotation axis of the enclosing box 42 is the same as the rotation axis of the fourth side 17, so that the direction in which the enclosing box 42 pushes the fourth side 17 is always perpendicular to the fourth side 17, and the enclosing box 42 and the fourth side 17 do not slide relative to each other, thereby preventing the packing box 1 from being scratched.

Preferably, the edge banding mechanism 5 includes a second rotating disc 51 and an edge banding member 52 vertically disposed on the second rotating disc 51, and when the second rotating disc 51 rotates, the edge banding member 52 can push the adhesive surface 18 to adhere to the first side surface 14. After the box enclosing operation is finished, the operator rotates the second rotating disc 51, and uses the edge sealing piece 52 to push the adhesive surface 18, so that the adhesive surface 18 rotates to the first side surface 14 by taking the boundary line of the adhesive surface 18 and the fourth side surface 17 as an axis and is adhered, the packaging box 1 is prevented from being scattered, and the packaging is finished.

Similarly, when the sealing member 52 pushes the adhesive surface 18, the rotation axis of the second rotating disk 51 coincides with the straight line where the boundary between the fourth side surface 17 and the adhesive surface 18 is located. The direction in which the edge banding 52 pushes the adhesive surface 18 is always perpendicular to the adhesive surface 18, so that when the adhesive surface 18 is attached to the first side surface 14, the pressure provided by the edge banding 52 acts perpendicularly on the adhesive surface 18, so that the adhesive surface 18 is attached to the first side surface 14 more tightly.

Preferably, the sealing member 52 is provided with a pressing member 53 rotating in the vertical direction, and when the sealing member 52 pushes the adhesive surface 18, the pressing member 53 presses against the fourth side 17, so that the fourth side 17 fits the ready-to-package member, as shown in fig. 6. The pressing piece 53 can make the edges of the first side 14 and the fourth side 17 tightly fit, so that after the edge sealing is performed by the adhesive surface 18, the shape of the packing box 1 is a cuboid, which is beautiful and convenient to place.

Preferably, the transfer mechanism 6 comprises a first transfer assembly 61 and a second transfer assembly 62. As shown in fig. 2 and 3, the first conveying assembly 61 includes a first base 611, the first base 611 is provided with a plurality of first sliding grooves 612 along a first direction X, the plurality of first sliding grooves 612 are arranged at intervals along a second direction Y, each first sliding groove 612 is slidably provided with a plurality of first conveying members 613, a roller is arranged on the top of each first conveying member 613, the battery pack 100 can move on the roller along the second direction Y, and the second direction Y is perpendicular to the first direction X. The second transmission assembly 62 includes a second base 621, the second base 621 is provided with a second sliding slot 622 along the second direction Y, and a second transmission member is slidably disposed in the second sliding slot 622. Bending mechanism 2 sets up in first transmission assembly 61 top, encloses case mechanism 4 and banding mechanism 5 and sets up in second transmission assembly 62 top, and tilting mechanism 3 sets up between first transmission assembly 61 and second transmission assembly 62, and tilting mechanism 3's axis of rotation is parallel with first direction X.

After the bending mechanism 2 bends the packaging box 1 to form the accommodating groove 19, the battery pack 100 moves on the roller along the second direction Y to enter the accommodating groove 19, and then the pulling member 212 is separated from the packaging box 1 to drop the packaging box 1 onto the battery pack 100, so that the battery pack 100 and the packaging box 1 slide off the bending member through the roller, and are then conveyed to the baffle 32 by the first conveying member 613 along the first direction X. After the turnover mechanism 3 rotates the battery pack 100 and the packaging box 1 to the vertical state, the battery pack 100 and the packaging box 1 are moved to the box enclosing mechanism 4 by the second transmission member along the second direction Y. Through the operations of the box enclosing mechanism 4 and the edge sealing mechanism 5, the packaging box 1 completes the packaging of the battery piece group 100.

The battery pack 100 and the packaging box 1 can only move along the second direction Y to be separated from the bending mechanism 2, so that the size of the first transmission assembly 61 in the second direction Y cannot be too small. In order to reduce the length of the first transmission assembly 61 in the second direction Y, three first transmission assemblies 61 are provided, the three first transmission assemblies 61 are arranged at intervals in the second direction Y, and the first sliding grooves 612 extend in the first direction X. The battery pack 100 is located on the first conveying assembly 61 far away from the second conveying assembly 62, and after the bending mechanism 2 bends the packing box 1 to form the accommodating groove 19, the battery pack 100 moves on the roller along the second direction Y to enter the accommodating groove 19. After the lifting member 212 is separated from the packing box 1 to make the packing box 1 fall onto the battery pack 100, the battery pack 100 and the packing box 1 are transferred onto the first transferring assembly 61 close to the second transferring assembly 62 by the roller, and transferred onto the baffle 32 by the first transferring member 613.

Preferably, the base of the first transfer assembly 61 is provided with a notch 614, and the baffle 32 is positioned in the notch 614 when the baffle 32 is in the horizontal position, as shown in fig. 2. The baffle 32 is located at the notch 614, so that the battery sheet group 100 and the packaging box 1 can be stably conveyed to the baffle 32 without grabbing and other structures, and the design cost is reduced.

In order to facilitate the first transmission member 613 to transmit the battery pack 100 and the packing box 1 to the baffle 32, the baffle 32 is provided with a third chute 321 matched with the first chute 612, the first transmission member 613 can slide from the first chute 612 to the third chute 321, the battery pack 100 and the packing box 1 are placed on the baffle 32 and then leave the third chute 321, and then the baffle 32 starts to rotate to the vertical position.

It can be understood that when the enclosure mechanism 4 and the edge sealing mechanism 5 operate, the cell group 100 and the packaging box 1 are difficult to keep stable, and may fall down to cause the cell to break. To solve this problem, the second transmission member is slidably provided with three fixing members, and the three fixing members can respectively approach and push the first side 14, the second side 15, and the third side 16 to be attached to the battery sheet assembly 100.

The battery sheet set 100 and the packaging box 1 can be fixed from three directions by the three fixing members, so that the battery sheet set 100 and the packaging box 1 can be kept stable when the box enclosing mechanism 4 and the edge sealing mechanism 5 push the fourth side 17 and the adhesive surface 18.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (10)

1. The utility model provides an automatic packaging equipment for with packing box (1) cladding of expanding treat the package all around, packing box (1) is including first crease (11), second crease (12) and third crease (13) that set gradually to divide into first side (14), second side (15), third side (16) and fourth side (17) with this packing box (1), fourth side (17) with the limit that third crease (13) is relative is provided with adhesive surface (18), its characterized in that, automatic packaging equipment includes:

the bending mechanism (2) can lift the second side surface (15) and bend the second side surface along the first crease (11) and the second crease (12) so as to enable the first side surface (14), the second side surface (15) and the third side surface (16) to form an accommodating groove (19);

the turnover mechanism (3) can stop at the side opening of the accommodating groove (19) and rotate the packing box (1) from a horizontal position to a vertical position;

the box enclosing mechanism (4) can push the fourth side face (17) to bend along the third folding mark (13) and face the side opening of the accommodating groove (19) to complete box enclosing;

a sealing mechanism (5) capable of pushing the bonding surface (18) to bond with the first side surface (14); and

the conveying mechanism (6) can convey the to-be-packaged pieces and the packaging boxes (1) to the bending mechanism (2), the turnover mechanism (3), the box enclosing mechanism (4) and the edge sealing mechanism (5) in sequence.

2. The automatic packaging equipment according to claim 1, wherein the bending mechanism (2) comprises a lifting assembly (21) and two bending pieces (22) which are oppositely arranged at intervals on two sides of the lifting assembly (21), the lifting assembly (21) can lift the second side surface (15), and the two bending pieces (22) can respectively abut against the first side surface (14) and the third side surface (16).

3. The automatic packaging equipment of claim 2, wherein the lifting assembly (21) comprises a lifting piece (211) and a lifting piece (212), the lifting piece (211) can slide relative to the bending piece (22) along a vertical direction, and the lifting piece (212) is provided with a suction hole.

4. An automatic packaging machine according to claim 2, characterized in that the bottom end of the fold (22) is inclined upwards forming a guide surface (221) adjacent to one side of the other fold (22).

5. The automatic packaging apparatus according to claim 1, wherein the turnover mechanism (3) comprises a rotatable rotating member (31) and a blocking plate (32) disposed on the rotating member (31), the blocking plate (32) is stopped at the side opening of the receiving groove (19), and when the rotating member (31) rotates, the blocking plate (32) and a supporting portion (311) of the rotating member (31) can rotate the packaging box (1) from the horizontal position to the vertical position.

6. An automatic packaging device according to claim 5, characterized in that said support (311) is provided with a cushioning pad (33).

7. The automatic packaging apparatus according to claim 1, characterized in that said box enclosing mechanism (4) comprises a first rotating disk (41) and a box enclosing piece (42) arranged on said first rotating disk (41) along the vertical direction, when said first rotating disk (41) rotates, said box enclosing piece (42) can push said fourth side (17) to bend towards the side opening of said containing groove (19).

8. The automatic packaging device according to claim 1, characterized in that said sealing mechanism (5) comprises a second rotating disk (51) and a sealing element (52) vertically arranged on said second rotating disk (51), said sealing element (52) being capable of pushing said adhesive surface (18) to adhere to said first side surface (14) when said second rotating disk (51) rotates.

9. The automatic packaging equipment of claim 8, characterized in that the sealing member (52) is provided with a pressing member (53) rotating along the vertical direction, when the sealing member (52) pushes the adhesive surface (18), the pressing member (53) presses the fourth side surface (17) to make the fourth side surface (17) fit the to-be-packaged piece.

10. The automatic packaging apparatus according to claim 1, characterized in that said transfer mechanism (6) comprises:

the first conveying assembly (61) comprises a first base (611), the first base (611) is provided with a plurality of first sliding grooves (612) along a first direction, the first sliding grooves (612) are arranged at intervals along a second direction, a plurality of first conveying pieces (613) are arranged in each first sliding groove (612) in a sliding mode, the top of each first conveying piece (613) is provided with a roller, the to-be-packaged pieces can move on the roller along the second direction, and the second direction is perpendicular to the first direction; and

the second transmission assembly (62), the second transmission assembly (62) includes a second base (621), the second base (621) is provided with a second sliding groove (622) along the second direction, and a second transmission member is slidably arranged in the second sliding groove (622);

the bending mechanism (2) is arranged above the first transmission assembly (61), the enclosure mechanism (4) and the edge sealing mechanism (5) are arranged above the second transmission assembly (62), the turnover mechanism (3) is arranged between the first transmission assembly (61) and the second transmission assembly (62), and the rotation axis of the turnover mechanism (3) is parallel to the first direction.

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