CN220298867U - Transfer mechanism and packaging box production line - Google Patents

Abstract

The utility model discloses a transfer mechanism and a packaging box production line, which comprises a rack and a transfer device; the machine frame is provided with an input station, an output station and a discharge station, wherein the input station is provided with an input conveyor belt, and the output station is provided with an output conveyor belt; the transfer device comprises a rotating support and a lifting power source for driving the rotating support to lift, wherein at least three groups of sucker groups are arranged on the circumference of the rotating support, and the sucker groups on the rotating support are arranged above an input conveyor belt and an output conveyor belt. The input of transfer mechanism is connected with packagine machine, and the output is connected with the cartoning machine, and transfer mechanism is transported the material that packagine machine produced to the cartoning machine in, carries out the line with production, packing and cartoning, realizes automated production, improves production efficiency.

Description

Transfer mechanism and packaging box production line

Technical Field

The utility model relates to the field of packaging, in particular to a transfer mechanism and a packaging box production line.

Background

The packaging machine is a machine for packaging products into an outer package, can protect the products and can mark marks on the packaging bags, needs to be packaged after products such as wet tissues, medicine patches and bookmarks are packaged, is usually placed in a conveying bin of a packaging machine through manual counting, is sent to subsequent packaging, has high labor cost, and cannot improve production efficiency.

The packaging machine can be a Chinese patent with the bulletin number of CN106853880A, and discloses a four-side sealed wet tissue packaging machine which comprises a frame, wherein a feeding device for feeding a material to be packaged, a forming device for forming the material to be packaged, a first heat sealing device for heat sealing the material to be packaged, a folding device for folding and packaging the material to be packaged, a second heat sealing device for heat sealing the material to be packaged, a film feeding device for pulling the material to be packaged to advance and a cutting device for cutting the material to be packaged, the folding device comprises a material inserting assembly and a conveying assembly, and the material to be packaged which are arranged on the conveying assembly synchronously move along the advancing direction of the material to be packaged.

The boxing machine can be a Chinese patent with the bulletin number of CN112278426A, and discloses a box sleeving and boxing machine which comprises a material conveying device, an inner box feeding device, an outer box feeding device and an assembly conveying device, wherein the material conveying device comprises a material conveying belt and a material pushing mechanism; the inner box supply device comprises an inner box storing and taking mechanism, an inner box conveying belt and an inner box pushing mechanism; the outer box supply device comprises an outer box storing and taking mechanism, an outer box conveying belt and an outer box pushing mechanism; the assembly conveyor comprises an assembly conveyor belt.

In the prior art, the boxing machine and the packaging machine are independent machines, and if the packaged products need to be boxed, the products need to be manually transported to the boxing machine, the labor cost is high, and the products need to be manually transported to be boxed uniformly after the packaging is completed, so that the production efficiency is difficult to be improved.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides a transfer mechanism and a packaging and boxing production line which can reduce labor cost, link the packaging and boxing actions and improve production efficiency.

The technical problems are solved, and the utility model is solved by the following technical scheme: transfer mechanism, its characterized in that: comprises a frame and a transfer device; the machine frame is provided with an input station, an output station and a discharge station, wherein the input station is provided with an input conveyor belt, and the output station is provided with an output conveyor belt; the transfer device comprises a rotating support and a lifting power source for driving the rotating support to lift, wherein at least three groups of sucker groups are arranged on the circumference of the rotating support, and the sucker groups on the rotating support are arranged above an input conveyor belt and an output conveyor belt.

According to the utility model, the material is transported through the transfer mechanism, two machines of different types are connected in a connecting way, for example, the packaging machine and the boxing machine are connected through the transfer mechanism, so that manual transportation is omitted, the labor cost is reduced, and the automation of the production line is realized.

Preferably, the conveying direction of the input conveyor belt is a longitudinal conveying direction, and the conveying direction of the output conveyor belt is a transverse conveying direction. The machine layout is more reasonable, and the space utilization rate is improved.

Preferably, the input station is provided with a supporting plate, the supporting plate is arranged at the output end of the input conveyor belt, and the supporting plate is arranged on the input conveyor belt in an adjusting way; the supporting plate is provided with an inclined transition part, and the transition part is arranged between the input conveyor belt and the supporting plate; the front part of the conveying direction of the input conveying belt is provided with a grid baffle plate, and the grid baffle plate is arranged on the supporting plate. The sucking disc group absorbs the material on the layer board, can reduce the friction to the packing surface, avoid damaging the sign indicating number that spouts of extranal packing to the layer board enables sucking disc group and stably absorbs the material, and the layer board is adjusted and is set up on the input conveyer belt, can adapt to the material of more different specifications.

Preferably, the output conveyor belt includes a first conveyor belt and a second conveyor belt, the first conveyor belt having a conveyance speed that is less than a conveyance speed of the second conveyor belt; the output conveyor belt further comprises baffles, the baffles are arranged on the left side and the right side of the output conveyor belt, and the baffles are adjusted and arranged on the output conveyor belt. The first conveyor belt and the second conveyor belt form a speed difference, so that the distance between materials on the second conveyor belt is increased, and the follow-up action is convenient. The baffle is provided with a second clamping groove, and the distance between the baffles is adjusted through the second clamping groove so as to adapt to more materials with different specifications.

Preferably, the tail end of the output conveyor belt is provided with a bin, the bin comprises a first bin and a second bin, the first bin and the second bin are arranged up and down, the bottoms of the first bin and the second bin are respectively provided with a horizontally moving baffle plate, and the baffle plates are provided with a baffle power source for driving the baffle plates to horizontally move; and a photoelectric sensor is arranged on the storage bin. The first feed bin setting is in second feed bin top, and the material is accepted to the second feed bin, through photoelectric sensor count, and when the material clinker of feed bin up to standard, the striker plate of first feed bin bottom is closed, and the striker plate of second feed bin bottom is opened, and the material transfer of second feed bin moves down the process, and two feed bins receive the material, can avoid the material to pile up, improves production efficiency simultaneously.

Preferably, the discharging station is provided with a discharging pipeline, the discharging pipeline comprises an upper pipeline and a lower pipeline, the upper pipeline is wide in upper part and narrow in lower part, the upper pipeline and the lower pipeline form a discharging channel, and an inlet of the upper pipeline is arranged below the sucker group of the rotating bracket. The discharge pipeline can conveniently discharge redundant materials or waste materials. The extra material is discharged under the condition of excessive material in the bin, the extra material can be discharged to prevent the material on the bin from further piling up, so that the production line can not stop, the normal operation is continued, and the outwards inclined material discharging pipeline is provided with a collection device which is conveniently placed below the material discharging pipeline, so that the material is conveniently collected.

Preferably, the rack further comprises reserved stations, and the number of the sucking disc groups and the number of the station settings are 1:1 phase adaptation.

The utility model provides a packaging and boxing production line with a packaging machine and a boxing machine on the basis of the transfer mechanism; the output end of the packaging machine is provided with a cutting mechanism, the cutting mechanism comprises a cutting knife, and the cutting mechanism is connected with an input conveyor belt of the transfer mechanism; the boxing machine comprises an annular circulating material conveying belt, wherein a plurality of bins are arranged on the material conveying belt, and the feeding end of the material conveying belt is connected with the discharging end of the output conveying belt of the transfer mechanism.

The utility model is connected with the output end of the packaging machine through the transfer mechanism, the input end of the boxing machine is connected with the transfer mechanism, the lifting power source of the transfer mechanism drives the rotary support to move up and down, the rotary support intermittently rotates, the rotary support descends, the cut materials are adsorbed through the sucker group and are transferred to the output conveyor belt, and the cut materials are transferred to the boxing machine through the output conveyor belt. The transfer mechanism can carry out on-line production on production, packaging and boxing, realizes automatic production and improves production efficiency.

Preferably, the cutting mechanism further comprises a mounting frame, a cutting device and a cutting device; the mounting frame comprises a first mounting frame and a second mounting frame, and the first mounting frame and the second mounting frame are longitudinally arranged on the packaging machine; the slitting device comprises a slitting piece which is vertically arranged on a cross beam of the first mounting frame, and a first conveying roller is arranged below the slitting piece; the cutting device comprises a cutting roller, wherein the cutting roller is transversely arranged on a second mounting frame, the cutting knife is arranged on the cutting roller, and a second conveying roller is arranged below the cutting roller. The slitting device is used for slitting materials to be slit, the slitting piece is fixedly arranged on the first mounting frame, the slitting piece is stable, the slitting trace of the materials is ensured to be neat, and the slitting roller is used for transversely slitting the materials and conveying the materials to an input conveying belt of the transfer mechanism.

Preferably, the packaging machine is a wet tissue packaging machine. The production line is a connecting line of the wet tissue packaging machine and the packaged wet tissue boxing machine.

Drawings

Fig. 1 is a schematic view of the structure of the packing machine, transfer mechanism and boxing machine of the present utility model.

Fig. 2 is a schematic perspective view of the transfer mechanism of the present utility model.

Fig. 3 is a schematic view of the structure of the input conveyor belt of the present utility model.

FIG. 4 is a schematic view of the structure of the bin of the utility model

FIG. 5 is a left side view of FIG. 2

FIG. 6 is a schematic structural view of a cutting mechanism according to the present utility model

Fig. 7 is a rear view of the cutting mechanism of the present utility model.

The names of the parts indicated by the numerical reference numerals in the above drawings are as follows:

wherein, 1, the frame; 2. an input conveyor belt; 3. an output conveyor belt; 31. a first conveyor belt; 32. a second conveyor belt; 33. a baffle; 4. a transfer device; 41. a rotating bracket; 411. a suction cup group; 42. a lifting power source; 5. a supporting plate; 51. a transition section; 6. a grid baffle; 7. a storage bin; 71. a first bin; 72. a second bin; 73. a rear panel; 74. a striker plate; 8. a discharge pipe; 9. packaging machine; 91. a cutting mechanism; 911. a cutting knife; 92. a mounting frame; 921. a first mounting frame; 922. a second mounting frame; 93. cutting the piece; 94. a first conveying roller; 95. a cutting roller; 96. a second conveying roller; 10. boxing machine; 101. a material conveyor belt; 102. and a compartment.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings and examples. In the figure, the X axis is transverse and the Y axis is longitudinal.

The transfer mechanism comprises a frame 1 and a transfer device 4, wherein an input station, an output station and a discharge station are arranged on the frame 1, the input station is provided with an input conveyor belt 2, and the output station is provided with an output conveyor belt 3; the transfer device 4 comprises a rotary support 41 and a lifting power source 42 for driving the rotary support 41 to lift, wherein at least three groups of sucking disc groups 411 are arranged on the periphery of the rotary support 41, and the sucking disc groups 411 on the rotary support 41 are arranged above the input conveyor belt 2 and the output conveyor belt 3. The rotary support 41 is an indexing rotary support 41, the rotary support 41 is intermittently rotated, the lifting power source 42 drives the rotary support 41 to move up and down relative to each station, the rotary support 41 sucks materials on the input station through the sucker group 411, and the materials pass through the discharge station to reach the output station through intermittent rotation, and are released on the output conveyor belt 3 on the output station.

Further, the conveying direction of the input conveyor 2 is a longitudinal conveying, and the conveying direction of the output conveyor 3 is a lateral conveying. The layout is more reasonable, and the space utilization rate is improved.

Further, the pallet 5 is arranged on the input station, the pallet 5 is arranged at the output end of the input conveyor belt 2, and the pallet 5 is adjusted and arranged on the input conveyor belt 2. The adjustment mode of layer board 5 is that the first draw-in groove has been seted up for layer board 5 both sides, layer board 5 is through the relative back-and-forth movement of input conveyer belt 2 of first draw-in groove to adapt to more different specification materials, and the adjustment is accomplished the back and is fixed through fixing bolt. The material is sent to the pallet 5 by the input conveyor 2, the rotating bracket 41 descends, and the sucker group 411 on the rotating bracket 41 sucks the material on the pallet 5 and transfers the material to the next process.

Wherein, the layer board 5 is equipped with the transition portion 51 of slope, transition portion 51 sets up between input conveyer belt 2 and layer board 5, transition portion 51 is the panel of slope setting between input conveyer belt 2 and layer board 5, and transition portion 51 makes things convenient for the material to get into layer board 5 to reduce the friction of layer board 5 to the material surface when getting into layer board 5.

The front part of the conveying direction of the input conveying belt 2 is provided with a grid baffle 6, the grid baffle 6 is arranged on the supporting plate 5, the grid baffle 6 is vertically arranged at the end of the conveying direction of the input conveying belt 2, and the grid baffle 6 can carry out normalization on conveyed materials.

Further, the output conveyor 3 includes a first conveyor 31 and a second conveyor 32, the conveying speed of the first conveyor 31 being smaller than the conveying speed of the second conveyor 32; the output conveyor belt 3 further comprises a baffle plate 33, the baffle plate 33 is arranged on the left side and the right side of the output conveyor belt 3, and the baffle plate 33 is arranged on the output conveyor belt 3 in an adjusting mode. The baffle 33 is L-shaped, one surface of the baffle 33 is arranged on the frame 1 of the output conveyor belt 3, the other surface of the baffle 33 faces the output conveyor belt 3, and the baffle 33 can prevent materials on the output conveyor belt 3 from falling. The baffle 33 is adjusted in left and right positions by the second clamping groove, and is fixed by the fixing bolt after being adjusted.

The second conveyor belt 32 may be disposed obliquely upward with respect to the first conveyor belt 31, and because of the speed difference between the first conveyor belt 31 and the second conveyor belt 32, the upward inclination of the second conveyor belt 32 can increase the friction between the material and the second conveyor belt 32, so that the material can be conveyed more stably.

Further, a bin 7 is arranged at the tail end of the output conveyor belt 3, the bin 7 comprises a first bin 71 and a second bin 72, the first bin 71 and the second bin 72 are arranged up and down, a horizontally moving material blocking plate 74 is respectively arranged at the bottoms of the first bin 71 and the second bin 72, and a material blocking power source for driving the material blocking plate 74 to horizontally move is arranged on the material blocking plate 74; the feed bin 7 is provided with a photoelectric sensor, and the photoelectric sensor is arranged above a feed inlet of the feed bin 7. The feed bin 7 includes front panel, rear panel 73, left side board and right side board, has seted up 4 third draw-in grooves on the rear panel 73, left side board and right side board pass through third draw-in groove and rear panel 73 detachable connection, and left side board and right side board can be according to material specification adjustment position. The dam 74 includes a first dam and a second dam, the first dam penetrating the left and right side plates, dividing the bin 7 into a first bin 71 and a second bin 72. The first feed bin 71 is arranged above the second feed bin 72, the second striker plate is arranged at the bottom of the second feed bin 72, the material blocking power source is an air cylinder, and the air cylinder drives the striker plate 74 to open or close a discharge hole of the feed bin 7.

The working principle is that when the transfer device 4 starts to work, the material blocking power source drives the second material blocking plate to close the material storage cavity, and the first material blocking plate is in an open state. The material drops to first striker plate through output conveyer 3, and photoelectric sensor calculates the material quantity that drops, and after reaching standard quantity, photoelectric sensor sends the signal, makes first striker plate close the storage chamber, makes the material drop to first striker plate on, and the second striker plate opens, makes prescribed quantity material drop to the machine of next process, closes immediately, and the material in the second feed bin 72 is put in first feed bin 71, and above-mentioned action repetition cycle.

Further, the discharging station is provided with a discharging pipeline 8, the discharging pipeline 8 comprises an upper pipeline and a lower pipeline, the upper pipeline is wide at the upper part and narrow at the lower part, the upper pipeline and the lower pipeline form a discharging channel, and the inlet of the upper pipeline is arranged below the sucker group 411 of the rotating bracket 41. The lower pipeline can be vertically arranged and also can be inclined outwards, so that the collection and the discharge are convenient.

Further, the rack 1 further includes reserved stations, and the number of the suction cup groups 411 and the number of the station settings 1:1 phase adaptation.

The utility model provides a packaging box production line, which comprises a transfer mechanism, a packaging machine 9 and a box packing machine 10, wherein the specific structure of the transfer mechanism refers to the embodiment, the output end of the packaging machine 9 is provided with a cutting mechanism 91, the cutting mechanism 91 comprises a cutting knife 911, and the cutting mechanism 91 is connected with an input conveyor belt 2 of the transfer mechanism; the boxing machine 10 comprises an annular circulating material conveying belt 101, wherein a plurality of bins 102 are arranged on the material conveying belt 101, and a feeding end of the material conveying belt 101 is connected with a discharging end of an output conveying belt 3 of the transfer mechanism.

The cutting mode of the packaging machine 9 may be to cut the material by lifting the cutter 911, or may be to cut the material by rotating the cutter 911 by setting the cutter 911 on a guide roller. The engagement between the boxing machine 10 and the output conveyor belt 3 of the transfer mechanism may be that the output conveyor belt 3 directly delivers materials into the compartments 102 of the boxing machine 10, or in the above embodiment, the output end of the output conveyor belt 3 is provided with a countable compartment 7, the discharge port of the compartment 7 is opposite to the compartments 102 of the material conveyor belt 101, and the materials are delivered into the compartments 102 of the boxing machine 10 through the compartment 7.

Further, the cutting mechanism 91 further comprises a mounting frame 92, a slitting device and a cutting device; a mounting frame 92 including a first mounting frame 921 and a second mounting frame 922, the first mounting frame 921 and the second mounting frame 922 being arranged in a longitudinal direction on the packaging machine 9; the slitting device comprises a slitting member 93 vertically arranged on a cross beam of a first mounting frame 921, and a first conveying roller 94 is arranged below the slitting member 93; the slitting pieces 93 are provided with circular knives for slitting the materials, the number of the slitting pieces 93 corresponds to the cutting number of the materials, for example, 4 rows of materials need to be longitudinally slit, and 5 groups of slitting pieces 93 are arranged, wherein two groups at the outermost side are slitters for slitting the materials, and three groups in the middle longitudinally slit four rows of materials; or if the waste edges are not needed to be cut, 4 rows of materials need to be cut longitudinally, and 3 groups of cutting pieces 93 are required to be arranged. The material to be slit passes between the first conveying roller 94 and the slitting member 93, and the first conveying roller 94 cooperates with the slitting member 93 to perform a longitudinal cutting action.

The cutting device comprises a cutting roller 95, the cutting roller 95 is transversely arranged on a second mounting frame 922, the cutting knife 911 is arranged on the cutting roller 95, and a second conveying roller 96 is arranged below the cutting roller 95. The cutter 911 is transversely provided on the cutter roller 95, and the cutter 911 may be provided in two sets axially provided on the cutter roller 95. The material to be cut passes between the second conveying roller 96 and the cutting roller 95, and is transversely cut by the second conveying roller 96 in cooperation with the cutting roller 95.

Wherein the packaging machine 9 is a wet towel packaging machine 9 or other product packaging machine 9.

The working principle of the utility model is described below with reference to the accompanying drawings:

the position of the supporting plate 5, the baffle 33 and the left and right side plates of the stock bin 7 is adjusted according to the material specification. After the adjustment is completed, a plurality of rows of materials are sent to a position between the slitting member 93 and the first conveying roller 94 on the packaging machine 9, the slitting member 93 and the first conveying roller 94 cooperate to perform longitudinal cutting action, and the longitudinally cut materials are sent to a position between the second conveying roller 96 and the cutting roller 95 to perform transverse cutting.

The cut material is put on the input conveyor belt 2, the input conveyor belt 2 conveys the material to the supporting plate 5, and the grid baffle 6 of the supporting plate 5 stops the material from going forward continuously.

When the transfer mechanism is in a material transferring state, the lifting power source 42 drives the rotary support 41 to descend, the sucker group 411 on the rotary support 41 adsorbs the first group of materials, the rotary support 41 carries the materials to ascend and rotate to the material discharging station, and the next sucker group 411 is made to absorb the second group of materials by descending, and then ascends. When the first group of materials arrives at the output station, the suction cup group 411 is lowered to put the first group of materials on the first conveyor belt 31 of the output conveyor belt 3, the first group of materials is conveyed onto the second conveyor belt 32 by the first conveyor belt 31, and the second conveyor belt 32 is faster than the first conveyor belt 31, so that the distance between the materials is increased.

The material blocking power source on the bin 7 drives the second material blocking plate to close the material storage cavity, and the first material blocking plate is in an open state, so that materials fall onto the first material blocking plate through the output conveyor belt 3, the quantity of the materials is calculated through the photoelectric sensor, after the quantity reaches the standard quantity, the second material blocking plate closes the material storage cavity, so that the materials fall onto the second material blocking plate, and the first material blocking plate is opened to convey the materials with the specified quantity into the bin 102 of the boxing machine 10 for subsequent boxing actions.

If the photoelectric sensor calculates that the material exceeds the standard, a signal is sent to enable the transfer mechanism to enter a discharging state, when the rotary support 41 passes through the discharging station, the sucker group 411 on the discharging station releases the material, the material is discharged through the discharging pipeline 8 until the quantity of the material in the storage bin 7 is restored to be in the standard value, and the transfer mechanism is restored to the transferring state.

In the description of the present utility model, it should be understood that the terms "center," "length," "width," "thickness," "upper," "lower," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In summary, the foregoing description is only of the preferred embodiments of the present utility model, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the utility model.

Claims (10)

1. Transfer mechanism, its characterized in that: comprises a frame (1) and a transfer device (4);

the machine frame (1) is provided with an input station, an output station and a discharge station, wherein the input station is provided with an input conveyor belt (2), and the output station is provided with an output conveyor belt (3);

the transfer device (4) comprises a rotating support (41) and a lifting power source (42) for driving the rotating support (41) to lift, wherein at least three groups of sucking disc groups (411) are arranged on the circumference of the rotating support (41), and the sucking disc groups (411) on the rotating support (41) are arranged above the input conveyor belt (2) and the output conveyor belt (3).

2. The transfer mechanism of claim 1, wherein: the conveying direction of the input conveyor belt (2) is longitudinal conveying, and the conveying direction of the output conveyor belt (3) is transverse conveying.

3. The transfer mechanism of claim 1, wherein: the input station is provided with a supporting plate (5), the supporting plate (5) is arranged at the output end of the input conveyor belt (2), and the supporting plate (5) is arranged on the input conveyor belt (2) in an adjusting way;

the pallet (5) is provided with an inclined transition part (51), and the transition part (51) is arranged between the input conveyor belt (2) and the pallet (5);

the front part of the conveying direction of the input conveying belt (2) is provided with a grid baffle (6), and the grid baffle (6) is arranged on the supporting plate (5).

4. The transfer mechanism of claim 1, wherein: the output conveyor belt (3) includes a first conveyor belt (31) and a second conveyor belt (32), the conveying speed of the first conveyor belt (31) being smaller than the conveying speed of the second conveyor belt (32);

the output conveyor belt (3) further comprises baffles (33), the baffles (33) are arranged on the left side and the right side of the output conveyor belt (3), and the baffles (33) are arranged on the output conveyor belt (3) in an adjusting mode.

5. The transfer mechanism of claim 1, wherein: the tail end of the output conveyor belt (3) is provided with a bin (7), the bin (7) comprises a first bin (71) and a second bin (72), the first bin (71) and the second bin (72) are arranged up and down, the bottoms of the first bin (71) and the second bin (72) are respectively provided with a horizontally moving baffle plate (74), and the baffle plates (74) are provided with a material blocking power source for driving the baffle plates (74) to horizontally move;

and a photoelectric sensor is arranged on the storage bin (7).

6. The transfer mechanism of claim 1, wherein: the material discharging station is provided with a material discharging pipeline (8), the material discharging pipeline (8) comprises an upper pipeline and a lower pipeline, the upper pipeline is wide in upper part and narrow in lower part, the upper pipeline and the lower pipeline form a material discharging channel, and an inlet of the upper pipeline is arranged below a sucker group (411) of the rotating bracket (41).

7. The transfer mechanism of claim 1, wherein: the frame (1) further comprises reserved stations, and the number of the sucker groups (411) and the number of stations are 1:1 phase adaptation.

8. Packaging box production line, its characterized in that: comprising a transfer mechanism, a packaging machine (9) and a cartoning machine (10) according to any one of claims 1 to 7;

the packaging machine (9) is provided with a cutting mechanism (91) at the output end, the cutting mechanism (91) comprises a cutting knife (911), and the cutting mechanism (91) is connected with an input conveyor belt (2) of the transfer mechanism;

cartoning machine (10), including annular endless material conveyer belt (101), be equipped with a plurality of bin (102) on material conveyer belt (101), the pan feeding end of material conveyer belt (101) links up with the discharge end on transfer mechanism's the output conveyer belt (3).

9. A packaging box production line according to claim 8, characterized in that: the cutting mechanism (91) further comprises a mounting frame (92), a cutting device and a cutting device;

the mounting frame (92) comprises a first mounting frame (921) and a second mounting frame (922), and the first mounting frame (921) and the second mounting frame (922) are longitudinally arranged on the packaging machine (9);

the slitting device comprises a slitting member (93) vertically arranged on a cross beam of a first mounting frame (921), and a first conveying roller (94) is arranged below the slitting member (93);

the cutting device comprises a cutting roller (95), wherein the cutting roller is transversely arranged on a second mounting frame (922), a cutting knife (911) is arranged on the cutting roller (95), and a second conveying roller (96) is arranged below the cutting roller (95).

10. A packaging box production line according to claim 8, characterized in that: the packaging machine (9) is a wet tissue packaging machine.