CN213323897U - Automatic packing plant of carton - Google Patents

Abstract

The utility model relates to an automatic packing plant of carton relates to the field of carton processing, and it includes regular mechanism, packagine machine structure, fifth conveyer belt and sixth conveyer belt, and the feed end of sixth conveyer belt is connected to the discharge end of fifth conveyer belt, and regular mechanism is located fifth conveyer belt top, and packagine machine constructs and is located sixth conveyer belt top. The application has the effects of reducing the workload of workers, saving labor cost and being high in production efficiency.

Description

Automatic packing plant of carton

Technical Field

The application relates to the field of carton processing, in particular to an automatic carton packaging device.

Background

A carton is a widely used packaging article.

In the production process of the paper boxes, the piled and stacked paper boxes need to be packaged by using a strapping tape, so that the paper boxes are prevented from scattering in the carrying process. At present, a common packer packs stacked cartons, and the packer can automatically complete the bundling processes of tape gathering, heat sealing, cutting and tape discharging.

In view of the above-mentioned related technologies, the inventor thinks that the paper boxes need to be manually sorted, and the paper boxes are put into a packaging machine to be bundled and packaged after being tidied.

SUMMERY OF THE UTILITY MODEL

In order to reduce staff's work load, this application provides an automatic packing plant of carton.

The application provides a pair of automatic packing plant of carton adopts following technical scheme:

the utility model provides an automatic packing plant of carton, includes regular mechanism, packagine machine structure, fifth conveyer belt and sixth conveyer belt, the feed end of sixth conveyer belt is connected to the discharge end of fifth conveyer belt, regular mechanism is located fifth conveyer belt top, packagine machine constructs and is located sixth conveyer belt top.

Through adopting above-mentioned technical scheme, regular mechanism arranges the carton for the side of each carton all aligns in a pile of cartons, send into packing mechanism again after the alignment and tie up the packing, and whole process need not manual operation, has not only significantly reduced staff's work load, has practiced thrift the cost of labor, can improve production efficiency moreover greatly.

Optionally, regular mechanism includes preceding baffle, push pedal and two side shields, preceding baffle and push pedal parallel arrangement, and all perpendicular with the pay-off direction of fifth conveyer belt, two the side shield is parallel, and all parallel with the pay-off direction of fifth conveyer belt, preceding baffle, push pedal and two side shields enclose to close and form regular chamber, the outside in regular chamber is provided with and is used for driving the moving mechanism that push pedal, side shield and preceding baffle closed up towards regular chamber.

Through adopting above-mentioned technical scheme, when the carton was carried to the fifth conveyer belt, preceding baffle, push pedal and two side shields all moved to the carton under moving mechanism's drive to press from both sides tight carton, make the side of each carton on a pile of cartons align, realize the regular work of carton, the packing machine of being convenient for packs the pile of cartons, the regular work of carton is simple, rapid, production efficiency is high.

Optionally, moving mechanism includes running gear, third lifting unit, pushes away material subassembly and fourth lifting unit, the lower extreme of preceding baffle is connected on third lifting unit, third lifting unit is fixed in on the running gear, running gear promotes third lifting unit and preceding baffle and is close to or keeps away from regular chamber, it is provided with two to push away material subassembly, and is located two respectively the both sides of side shield, preceding baffle is fixed in on the fourth lifting unit.

By adopting the technical scheme, the third lifting component drives the push plate to lift up and down, when the push plate is positioned below the fifth conveying belt, the interference on the conveying process of the paper box is avoided, and when the push plate rises to be positioned above the fifth conveying belt, the walking component can conveniently drive the push plate to push the paper box to move towards the front baffle; the pushing assembly drives the two side baffles to clamp the two side surfaces of the paper box, so that the two side surfaces of the paper box are aligned;

the baffle oscilaltion before the fourth lifting unit drive, when the below of current baffle descending to fifth conveyer belt, can not cause the interference to the transportation process of carton, when the push pedal rises to lieing in the fifth conveyer belt top, conveniently press from both sides tight carton from the front and back both sides face of carton with the push pedal combined action for the front and back both sides face of carton aligns, whole regular process can align the operation to each side of carton, makes to tie up the pile of carton regularity height after the packing.

Optionally, the fifth conveyor belt is separated along a center line thereof, a placement cavity is formed at the center line of the fifth conveyor belt, the length direction of the placement cavity is consistent with the conveying direction of the fifth conveyor belt, one end of the placement cavity is communicated with the normalization cavity, and the walking assembly is located in the placement cavity.

Through adopting above-mentioned technical scheme, settle the chamber and can hold running gear, third elevating system and push pedal, can not cause the interference to the transportation process of carton when the arrangement intracavity is arranged in to the push pedal, guarantees the smooth and easy conveying of carton.

Optionally, the walking assembly includes supporting seat, guide screw, guide bar and mount pad, the supporting seat is provided with two, the both ends of guide screw and guide bar are fixed respectively on two supporting seats, the length direction of guide screw and guide bar all is parallel with the direction of delivery of fifth conveyer belt, mount pad threaded connection is on guide screw, and the other end of mount pad slides and connects on the guide bar, third lift assembly is fixed in on the mount pad.

Through adopting above-mentioned technical scheme, when the guide screw rotated, because the spacing and the guide effect of guide bar for sliding motion can only be done along the length direction of guide bar to the mount pad, drives third lifting unit and does sliding motion, and then drives the ejector pad and remove or keep away from preceding baffle towards the direction of baffle.

Optionally, a reinforcing rib is arranged between the push plate and the third lifting assembly.

Through adopting above-mentioned technical scheme, the strengthening rib has strengthened the joint strength between push pedal and the third lifting unit, avoids the push pedal to take place to buckle or break when pushing away the carton and removing.

Optionally, the front baffle is located between the fifth conveyor belt and the sixth conveyor belt, the fourth lifting assembly is fixed at the discharge end of the fifth conveyor belt, and the fourth lifting assembly is located below the fifth conveyor belt.

By adopting the technical scheme, the front baffle is positioned at the discharge end of the fifth conveyor belt, a specific groove for accommodating the front baffle is not required to be formed in the fifth conveyor belt, and when the fourth lifting assembly drives the front baffle to ascend above the fifth conveyor belt, the paper box can be blocked, so that the paper box can be prevented from being continuously conveyed to the sixth conveyor belt, and the smooth operation of the arranging work is ensured; but also can be used in conjunction with the push plate to align the front and rear sides of the carton.

Optionally, one side of the front baffle, which is far away from the push plate, is provided with a guide post in the vertical direction.

Through adopting above-mentioned technical scheme, the guide post plays direction and limiting action to the lift of preceding baffle, takes place to shift when avoiding preceding baffle to be oscilaltion subassembly, guarantees the regular work of preceding baffle to the carton.

Optionally, a fourth sensing device is arranged on the sixth conveying belt, and the fourth sensing device is located between the arranging mechanism and the packaging mechanism and is close to the packaging mechanism.

Through adopting above-mentioned technical scheme, fourth induction system can real-time detection whether have the carton to carry to the sixth conveyer belt on, make things convenient for the start-up and the closing of packing mechanism.

In summary, the present application includes at least one of the following beneficial technical effects:

the side edges of the stacked paper boxes can be aligned and regulated through the regulating mechanism, so that the uniformity of the side edges of the paper boxes entering the packing mechanism is high, manual operation is not needed in the whole process, the labor is greatly saved, and the production efficiency is improved;

the paper box can be driven to move towards the front baffle plate by the push plate, so that the front side and the rear side of the paper box are aligned, and the side edge of a single paper box is prevented from being arranged in a protruding manner;

the guide post plays a role in limiting and guiding the lifting of the front baffle.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a slicing mechanism in an embodiment of the present application;

FIG. 3 is a schematic structural view of a tow assembly in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a rotating platform in an embodiment of the present application;

FIG. 5 is a schematic structural view of a conveying mechanism in an embodiment of the present application;

FIG. 6 is a schematic structural view of a sixth conveyor belt in the embodiment of the present application;

FIG. 7 is a schematic structural diagram of a warping mechanism in an embodiment of the present application;

FIG. 8 is a schematic structural view of a walking assembly in an embodiment of the present application;

FIG. 9 is a schematic view of the position of the pusher assembly in an embodiment of the subject application;

FIG. 10 is a schematic view of the mechanism of the front bezel in the embodiment of the present application;

fig. 11 is a schematic structural view of a packaging mechanism in an embodiment of the present application.

Reference numerals: 1. die-cutting machine; 2. a slicing mechanism; 21. a first conveyor belt; 22. a second conveyor belt; 23. a sheet pressing table; 24. a traction assembly; 241. a lifting frame; 242. a cross bar; 243. a vertical rod; 244. a drive member; 25. a first lifting assembly; 26. a load-bearing platform; 3. rotating the platform; 31. a central rotating table; 32. a first universal ball conveyor; 33. an auxiliary plate; 34. an auxiliary conveyor belt; 4. a conveying mechanism; 41. a third conveyor belt; 411. a first sensing device; 412. a second sensing device; 42. a fourth conveyor belt; 421. a third sensing device; 43. a second universal ball conveyor; 44. a second lifting assembly; 5. a regulating mechanism; 51. a fifth conveyor belt; 52. a frame; 521. regulating the cavity; 53. a front baffle; 531. a guide post; 54. pushing the plate; 541. connecting blocks; 542. reinforcing ribs; 55. a side dam; 56. a placement cavity; 57. a material pushing assembly; 58. a third lifting assembly; 59. a fourth lifting assembly; 6. a packaging mechanism; 61. a sixth conveyor belt; 62. a fourth sensing device; 63. a support; 64. a strapping tape winding frame; 7. a walking assembly; 71. a supporting seat; 72. a guide bar; 73. a guide screw rod; 74. and (7) mounting a seat.

Detailed Description

The present application is described in further detail below with reference to figures 1-11.

In order to improve the working efficiency of the die cutting machine 1, the die cutting machine 1 usually performs die cutting operation on two or more stacks of cartons at the same time, after the single cutting operation is finished, the two or more stacks of cartons are output from the die cutting machine 1, and adjacent stacks of cartons are connected by virtue of connecting points. The embodiment of the application is directed to a structure capable of simultaneously slicing and packaging two bundles of paper boxes.

The embodiment of the application discloses automatic separator of carton, refers to fig. 1, including burst mechanism 2, rotary platform 3, conveying mechanism 4, regular mechanism 5 and baling mechanism 6.

Wherein the feed end of the slicing mechanism 2 is connected with the discharge end of the die-cutting machine 1, and the control system controls the starting and stopping of the slicing mechanism 2.

Referring to fig. 2, the slicing mechanism 2 comprises two sets of slicing units, each set of slicing unit comprises a first conveyor belt 21, a second conveyor belt 22, a slicing table 23, a traction assembly 24 and a first lifting assembly 25, and the two sets of slicing units are arranged at the discharge end of the die cutting machine 1 side by side. Two bundles of paper boxes which are simultaneously output from the die-cutting machine 1 respectively enter the two groups of paper splitting units, and the two bundles of paper boxes are separated.

The first conveyor belt 21 and the second conveyor belt 22 are provided with a plurality of pieces, the first conveyor belt 21 and the second conveyor belt 22 are alternately arranged below the pressing table 23, the upper end faces of the first conveyor belt 21 and the second conveyor belt 22 are flush, the conveying direction of each piece of the first conveyor belt 21 is consistent with the conveying direction of the die cutting machine 1, the conveying direction of each piece of the second conveyor belt 22 is perpendicular to the conveying direction of the die cutting machine 1, the length of the first conveyor belt 21 is larger than the width of the second conveyor belt 22, and specifically, the second conveyor belt 22 can be a strip-shaped conveyor belt.

The bearing platform 26 is arranged below the first conveyor belt 21, so that the paper box is placed more stably on the first conveyor belt 21 and the second conveyor belt 22, and the paper box can bear the pressure of the pressing piece table 23 on paper.

Referring to fig. 3, the drawing assembly 24 includes a crane 241, a cross bar 242, a vertical bar 243 and a driving member 244, the crane 241 is located above the first conveyor belt 21 and the second conveyor belt 22, two ends of the cross bar 242 are fixed on the crane 241, and the length direction of the cross bar 242 is identical to the conveying direction of the second conveyor belt 22. The first lifting component 25 is arranged as a driving mechanism such as an air cylinder or a hydraulic cylinder, one end of the first lifting component 25 is connected with the lifting frame 241, and the lifting frame 241 and the cross rod 242 are driven to lift up and down.

The vertical bar 243 is slidably connected to the cross bar 242 and can slide along the longitudinal direction of the cross bar 242. The driving member 244 is fixed to the lifting frame 241 and can be lifted and lowered along with the lifting frame 241, one end of the driving member 244 is connected to the upper end of the sheet pressing table 23 or the vertical rod 243, and the sheet pressing table 23 and the vertical rod 243 are driven to slide along the cross rod 242. The driving member 244 is provided as a transmission device such as a cylinder, a hydraulic cylinder, a lead screw transmission device, a sprocket chain transmission device, etc.

The two groups of sheet pressing tables 23 are driven by the two groups of first lifting components 25 to do vertical lifting movement, when the bottom surfaces of the two sheet pressing tables 23 respectively abut against the top surfaces of the two bundles of cartons, the two driving pieces 244 respectively drive the two sheet pressing tables 23 to move towards the direction away from each other, meanwhile, the second conveying belt 22 assists the two bundles of cartons to move towards the direction away from each other, the connection point between the two bundles of cartons is broken, and the two bundles of cartons are separated.

The two separated bundles of cartons are respectively conveyed to the rotary platform 3 by two groups of first conveyor belts 21.

Referring to fig. 4, the rotary platform 3 includes a central rotary table 31 and a first universal ball conveyor 32, the first universal ball conveyor 32 includes a plurality of rotary rollers, each of the rotary rollers is uniformly distributed on the central rotary table 31, and the rotary rollers are disposed to protrude from an upper end surface of the central rotary table 31. The central rotary table 31 is driven by a motor and can rotate around its central position by any angle.

Two bundles of separated cartons enter the central rotating platform 31 side by side and are driven by the central rotating platform 31 to rotate 90 degrees, so that the two bundles of cartons tend to move towards the conveying mechanism 4 in tandem. And the two stacks of cartons are driven by the rotating rollers on the first universal ball conveyor 32 to be respectively conveyed to the conveying mechanism 4.

The auxiliary plate 33 and the auxiliary conveyor belt 34 are arranged at the feeding end and the discharging end of the rotary platform 3, the auxiliary conveyor belt 34 enables the rotary platform 3 and the first conveyor belt 21 and the rotary platform 3 and the third conveyor belt 41 to be connected more tightly, and the paper boxes are prevented from falling or being clamped from the connecting positions; the upper surface of the auxiliary plate 33 is flush with the upper ends of the rotating rollers, the upper surface of the first conveyor belt 21 and the upper surface of the third conveyor belt 41, so that smooth transition of the cartons between adjacent conveyors is ensured, and the cartons are prevented from being clamped in the conveying process.

Referring to fig. 5, the conveying mechanism 4 includes a third conveyor belt 41 and a fourth conveyor belt 42. Wherein the feed end of the third conveyor belt 41 is connected with the rotary platform 3 and the discharge end of the third conveyor belt 41 is connected with the feed end of the fourth conveyor belt 42. The conveying speed of the third conveyor belt 41 is higher than that of the first universal ball conveyor 32, and a larger space is formed between two bundles of cartons which enter the third conveyor belt 41 from the rotary platform 3 in sequence.

A first sensing device 411, a second sensing device 412 and a third sensing device 421 are respectively arranged at the feeding end of the third conveyor belt 41, the discharging end of the third conveyor belt 41 and the feeding end of the fourth conveyor belt 42, and the first sensing device 411, the second sensing device 412 and the third sensing device 421 can be set as infrared sensors or weight sensors.

The first sensing device 411, the second sensing device 412 and the third sensing device 421 are all connected with the control system by signals. After the first sensing device 411 recognizes that a paper box enters the third conveyor belt 41, the control system controls the third conveyor belt 41 to start, and drives the paper box to move towards the fourth conveyor belt 42.

After the first stack of cartons is driven by the third conveyor belt 41 to move to the fourth conveyor belt 42, the third sensing device 421 recognizes that a carton enters, and the control system controls the fourth conveyor belt 42 to start; meanwhile, the second sensing device 412 recognizes that a carton enters the discharging end of the third conveyor belt 41, and the control system controls the third conveyor belt 41 to stop transmission, that is, the second carton pile is retained at the discharging end of the third conveyor belt 41.

The fourth conveyor belt 42 is a roller conveyor belt, a second universal ball conveyor 43 is arranged at the lower end of the fourth conveyor belt 42, and the universal balls in the second universal ball conveyor 43 are arranged in a row and are alternately distributed with the carrier rollers of the fourth conveyor belt 42.

Referring to fig. 6, a second lifting assembly 44 is arranged at the lower end of the second universal ball conveyor 43, and the second lifting assembly 44 may be an oil cylinder, a hydraulic cylinder, an air cylinder, a screw rod lifter, or the like, and drives the second universal ball conveyor 43 to lift up and down.

In a natural state, the universal balls of the second universal ball conveyor 43 are positioned below the carrier rollers, and when a paper box enters the upper part of the second universal ball conveyor 43, the second universal ball conveyor 43 rises to drive the paper box to rotate by any angle; when the paper box rotates 90 degrees, the second universal ball conveyor 43 descends, and the fourth conveyor belt 42 starts to drive the paper box to move towards the regulating mechanism 5.

Referring to fig. 7, the organizing mechanism 5 includes a frame 52, a front baffle 53, a push plate 54 and two side baffles 55, the frame 52 is located above the fifth conveyor belt 51, the feeding end of the fifth conveyor belt 51 is connected with the discharging end of the fourth conveyor belt 42, the fifth conveyor belt 51 is divided along the center line thereof and forms a placement chamber 56, and the length direction of the placement chamber 56 is consistent with the conveying direction of the fifth conveyor belt 51.

In a natural state, the push plate 54 is placed in the placing cavity 56, the two side baffles 55 are positioned on two sides of the placing cavity 56, the front baffle 53 is positioned at the discharge end of the fifth conveyor belt 51, and the front baffle 53 is positioned below the fifth conveyor belt 51. When a carton is on the fifth conveyor belt 51, the push plate 54 and the front baffle 53 are lifted, a regular cavity 521 is formed between the two side baffles 55, the front baffle 53 and the push plate 54, and the two side baffles 55 and the push plate 54 respectively move to the central position of the regular cavity 521.

The lower end of the push plate 54 is provided with a traveling component 7 and a third lifting component 58, which drive the push plate 54 to move towards one side of the front baffle plate 53, and further drive the paper box to move towards one side of the front baffle plate 53, so that the push plate 54 and the front baffle plate 53 clamp the front end and the rear end of the paper box, and the front end and the rear end of the paper box are aligned.

Referring to fig. 8, the traveling assembly 7 includes a supporting seat 71, a guide rod 72, a guide screw 73 and a mounting seat 74, two ends of the guide rod 72 and the guide screw 73 are respectively fixed on the supporting seat 71, the length directions of the guide rod 72 and the guide screw 73 are consistent with the conveying direction of the fifth conveyor belt 51, the mounting seat 74 is in threaded connection with the guide screw 73, and the mounting seat 74 is connected to the guide rod 72 in a sliding manner. When the motor drives the guide screw 73 to rotate, the mounting seat 74 can move along the length direction of the guide rod 72.

The third lifting assembly 58 is configured as an air cylinder, the air cylinder is fixed on the top of the mounting seat 74, and a piston rod of the air cylinder is connected to the lower end of the push plate 54. The third lift assembly 58 drives the push plate 54 up and down, and the push plate 54 can move with the movement of the mount 74, thereby pushing the cartons toward the position of the front closure 53.

The connecting block 541 is arranged between the push plate 54 and the cylinder, the two connecting blocks 541 are respectively connected with the upper part and the lower part of the push plate 54, and the reinforcing ribs 542 are arranged between the connecting blocks 541 and the push plate 54, so that the strength of the push plate 54 is improved, and the push plate 54 is prevented from being bent or broken.

Referring to fig. 9, two sides of the two side guards 55 are respectively provided with a pushing assembly 57, and the pushing assembly 57 may be configured as an air cylinder or a screw transmission device, and the like, to push the two push plates 54 to approach each other, and further push the paper boxes, so that two sides of each paper box stacked together are aligned.

Referring to fig. 10, a fourth lifting assembly 59 is provided at a lower end of the front barrier 53 to drive the front barrier 53 to lift up and down. The fourth lifting assembly 59 is provided with a cylinder, so that the structure is simple, and the installation is convenient. One side of the front baffle plate 53, which is far away from the push plate 54, is provided with a guide column 531, and the guide column 531 is vertically arranged to guide and limit the lifting of the front baffle plate 53. The fourth lifting assembly 59 drives the front baffle 53 to vertically lift up and down. That is, after the carton arranging work of the front baffle 53 is finished, the fourth lifting assembly 59 drives the front baffle 53 to descend, so that the carton can be driven by the fifth conveyor belt 51 to move towards the packing mechanism 6.

Referring to fig. 11, the discharge end of the fifth conveyor belt 51 is connected to a sixth conveyor belt 61, and the packing mechanism 6 is located above the sixth conveyor belt 61. A fourth sensing device 62 is arranged at the position, close to the packing mechanism 6, of the sixth conveyor belt 61, the fourth sensing device 62 is in signal connection with a control system, and the control system controls the starting of the packing machine.

The packing mechanism 6 is a common packing machine at present and comprises a support 63 and a binding band winding frame 64, wherein the binding band is wound on the winding frame, and the support 63 is provided with a core device responsible for ironing, adhering and shearing the packing band and a belt conveying guide rail responsible for drawing the binding band. The bundling process of gathering, heat sealing, cutting and discharging can be automatically completed by the packaging mechanism 6, after the piled paper boxes are bundled, the packaging mechanism 6 is automatically stopped, and the paper boxes are driven by the sixth conveyor belt 61 to move towards the collecting or transferring equipment.

The implementation principle of the automatic separating device for paper boxes in the embodiment of the application is as follows: the carton is delivered from the die cutting machine 1 and then enters the first conveyor belt 21, the first lifting assembly 25 above the first conveyor belt 21 drives the lifter to descend until the lower end of the sheet pressing table 23 abuts against the upper end of the carton, the two driving pieces 244 respectively drive the two sheet pressing tables 23 to move in opposite directions, and meanwhile, the two groups of second conveyor belts 22 are started to drive the carton to respectively convey in opposite directions, so that connection points between two bundles of cartons are broken and separated;

the two separated bundles of paper boxes enter the rotating platform 3 side by side, the central rotating platform 31 rotates by 90 degrees, so that the two bundles of paper boxes form a front-back conveying sequence, and the first universal ball conveyor 32 drives the two bundles of paper boxes to move to the third conveying belt 41 respectively;

the third conveyor belt 41 is faster than the first universal ball conveyor 32 so that the distance between the two bundles of cartons is increased and moves towards the fourth conveyor belt 42;

after the second universal ball conveyor 43 on the fourth conveyor belt 42 drives the paper box to rotate by 90 degrees, the second lifting assembly 44 drives the second universal ball conveyor 43 to descend, and then the fourth conveyor belt 42 drives the paper box to move to the fifth conveyor belt 51;

after the cartons are conveyed to the fifth conveyor belt 51, the fourth lifting assembly 59 drives the front baffle 53 to ascend to block the continuous conveying of the cartons, the third lifting assembly 58 drives the push plate 54 to ascend, meanwhile, the walking assembly 7 drives the push plate 54 to move towards the front baffle 53, the two pushing assemblies 57 push the two side baffles 55 to move towards the direction close to each other, the two side baffles 55, the front baffle 53 and the push plate 54 clamp the cartons to enable the side edges of the cartons on a stack of cartons to be aligned, the third lifting assembly 58 drives the front baffle 53 to move downwards, and the cartons move towards the sixth conveyor belt 61;

the binding belt is wound on the paper box by the packing mechanism 6, and is thermally sealed and cut off, and after the binding belt is bound, the paper box is driven by the sixth conveying belt 61 to move to the collecting or transferring equipment.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an automatic packing plant of carton which characterized in that: including regular mechanism (5), packagine machine construct, fifth conveyer belt (51) and sixth conveyer belt (61), the feed end of sixth conveyer belt (61) is connected to the discharge end of fifth conveyer belt (51), regular mechanism (5) are located fifth conveyer belt (51) top, packagine machine constructs and is located sixth conveyer belt (61) top.

2. An automated carton packaging apparatus as claimed in claim 1, wherein: regular mechanism (5) are including preceding baffle (53), push pedal (54) and two side shields (55), preceding baffle (53) and push pedal (54) parallel arrangement, and all perpendicular with the pay-off direction of fifth conveyer belt (51), two side shields (55) are parallel, and all are parallel with the pay-off direction of fifth conveyer belt (51), preceding baffle (53), push pedal (54) and two side shields (55) enclose and close and form regular chamber (521), the outside of regular chamber (521) is provided with and is used for driving push pedal (54), side shield (55) and preceding baffle (53) towards the moving mechanism that regular chamber (521) was closed.

3. An automated carton packaging device as claimed in claim 2, characterized in that: the moving mechanism comprises a traveling assembly (7), a third lifting assembly (58), a material pushing assembly (57) and a fourth lifting assembly (59), the lower end of the front baffle (53) is connected to the third lifting assembly (58), the third lifting assembly (58) is fixed to the traveling assembly (7), the traveling assembly (7) pushes the third lifting assembly (58) and the front baffle (53) to be close to or far away from the regulating cavity (521), the material pushing assembly (57) is provided with two parts which are respectively located on two sides of the side baffle (55), and the front baffle (53) is fixed to the fourth lifting assembly (59).

4. An automated carton packaging apparatus as claimed in claim 3, wherein: the fifth conveyor belt (51) is divided along the center line of the fifth conveyor belt, a setting cavity (56) is formed in the center line of the fifth conveyor belt (51), the length direction of the setting cavity (56) is consistent with the conveying direction of the fifth conveyor belt (51), one end of the setting cavity (56) is communicated with the regulating cavity (521), and the walking assembly (7) is located in the setting cavity (56).

5. An automated carton packaging device as claimed in claim 4, wherein: walking assembly (7) are including supporting seat (71), guide screw (73), guide bar (72) and mount pad (74), supporting seat (71) are provided with two, the both ends of guide screw (73) and guide bar (72) are fixed respectively on two supporting seat (71), the length direction of guide screw (73) and guide bar (72) all is parallel with the direction of delivery of fifth conveyer belt (51), mount pad (74) threaded connection is on guide screw (73), and the other end of mount pad (74) slides and connects on guide bar (72), third lifting unit (58) are fixed in on mount pad (74).

6. An automated carton packaging apparatus as claimed in claim 3, wherein: and a reinforcing rib (542) is arranged between the push plate (54) and the third lifting assembly (58).

7. An automated carton packaging apparatus as claimed in claim 3, wherein: the front baffle (53) is positioned between the fifth conveyor belt (51) and the sixth conveyor belt (61), the fourth lifting assembly (59) is fixed at the discharge end of the fifth conveyor belt (51), and the fourth lifting assembly (59) is positioned below the fifth conveyor belt (51).

8. An automated carton packaging apparatus as claimed in claim 7, wherein: and a guide column (531) in the vertical direction is arranged on one side, away from the push plate (54), of the front baffle plate (53).

9. An automated carton packaging apparatus as claimed in claim 1, wherein: and a fourth sensing device (62) is arranged on the sixth conveying belt (61), and the fourth sensing device (62) is positioned between the regulating mechanism (5) and the packaging mechanism (6) and is close to the packaging mechanism (6).

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