CN210133338U - Paper handkerchief folder divides and folds device - Google Patents

Abstract

The utility model provides a paper handkerchief folder divides and folds device can satisfy the automatic requirement of dividing the folding of paper handkerchief after extraction formula face tissue is folding, can ensure to make every pile of paper handkerchief number and thick layer unanimous. Meanwhile, automatic sheet arranging and automatic stacking operation of the removable facial tissues are realized, and the removable facial tissues can be automatically matched with a front-end folding machine and a rear-end packaging machine for use, so that the automatic packaging of the removable facial tissues is realized in a real sense, intermediate links are reduced, the sanitary quality of products is improved, the labor cost is reduced, the production efficiency is improved, and the consistency of the quantity of each package of paper is ensured.

Description

Paper handkerchief folder divides and folds device

Technical Field

The utility model relates to a technical field that toilet paper wadded and carried especially indicates a paper handkerchief folder divides and folds device.

Background

The prior toilet paper separating process is usually operated by hands, firstly, the toilet paper to be separated and packaged is separated from the whole body by hands, and then the separated part of the toilet paper is conveyed to a conveying belt to enter the next process, however, the operation process has the following defects: 1. the paper separating speed operated by hands is slow and cannot keep up with the paper feeding speed of a machine; 2. the quantity and the thickness of the toilet paper which is manually separated are inconsistent, and the quality of the product is reduced.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a paper handkerchief folder divides and folds device, can promote production efficiency and improve product quality by a wide margin.

In order to achieve the above object, the utility model adopts the following technical scheme: a paper towel folding machine stacking device comprises a first paper stacking device and a second paper stacking device which are symmetrically arranged in parallel; a paper towel passage for paper towels to pass through is arranged between the first paper stacking device and the second paper stacking device; the first paper stacking device comprises a paper splicing assembly, a first transverse moving mechanism which is in driving connection with the paper splicing assembly and drives the paper splicing assembly to enter a paper towel passageway, and a first longitudinal moving mechanism which is in driving connection with the paper splicing assembly and drives the paper splicing assembly to longitudinally move;

the second paper stacking device comprises a paper separating assembly, a paper supporting assembly, a second transverse moving mechanism, a second longitudinal moving mechanism and a third longitudinal moving mechanism, wherein the paper separating assembly is arranged opposite to the paper splicing assembly and is positioned below the paper splicing assembly; the paper separating component and the paper supporting component are arranged opposite to the paper receiving component, and the paper supporting component is positioned below the paper separating component and arranged in the paper towel passageway.

Furthermore, the second paper stacking device further comprises a third transverse moving mechanism and a flat inserting component which is arranged on the same side with the paper separating component and is positioned above the paper separating component, wherein the third transverse moving mechanism is in driving connection with the flat inserting component and drives the flat inserting component to enter the paper towel passageway, and the flat inserting component is positioned below the paper receiving component.

Furthermore, the top of the first paper stacking device and the top of the second paper stacking device are provided with supporting beams extending along the length direction of the paper towel passageway, a plurality of paper protecting plates are distributed on each supporting beam along the length direction at equal intervals, and the paper protecting plates on each supporting beam are arranged oppositely and aligned with each other.

Further, connect the paper subassembly to include the fixed roof beam that connects paper that is parallel to each other with a supporting beam, and connect the paper that is equipped with a plurality of on the fixed roof beam of paper and insert along the paper that connects that fixed roof beam length direction equidistance distributes, just connect paper to insert towards the second and fold paper device.

Further, the first longitudinal moving mechanism comprises a first synchronous wheel, a first servo motor, a first transmission belt, a first guide rail extending along the vertical direction and a first sliding block arranged on the first guide rail in a sliding manner, one end of the first transmission belt is sleeved on the first synchronous wheel, the other end of the first transmission belt is sleeved on an output shaft of the first servo motor, and the first sliding block is fixedly connected with the first transmission belt and the paper receiving fixed beam respectively; wherein first servo motor drives first transmission belt and rotates for first slider removes along the direction of first guide rail, and then makes the paper splicing insert remove along first guide rail direction.

Further, the first transverse moving mechanism comprises a first pushing cylinder, a second guide rail which extends along the horizontal direction and is fixedly arranged on the first sliding block, and a second sliding block which is arranged on the second guide rail in a sliding manner; the movable end of the first pushing cylinder is fixedly connected to the second sliding block, the second sliding block is pushed to move along the direction of the second guide rail, and the paper receiving plug is made to move along the direction of the second guide rail.

Further, the subassembly of dividing includes the fixed roof beam of branch paper that is parallel to each other with a supporting beam, and divides to be equipped with on the fixed roof beam of branch paper that a plurality of distributes along the fixed roof beam length direction equidistance of branch paper and insert, just divide paper to insert towards the first device of folding paper.

Further, hold in the palm the paper subassembly and include the support paper fixed beam that is parallel to each other with a supporting beam, and hold in the palm the paper fixed beam and be equipped with a plurality of along holding in the palm the paper that fixed beam length direction equidistance distributed and insert that holds in the palm paper, just hold in the palm the paper and insert towards first pile of paper device.

In order to solve the technical problem, the utility model also provides a paper handkerchief folder divides specific work flow who folds device, wherein includes:

step 1: the first transverse moving mechanism drives the paper receiving mechanism to insert into the paper towel entering passage and supports the paper towels below the folding roller;

step 2: one paper towel at the bottom of the paper towel at the bottommost layer of the paper receiving plug is in a suspended state, so that the third transverse moving mechanism drives the flat plug below the paper receiving plug to be inserted into the paper towel passage, and then the last paper towel is shoveled back to the bottom;

and step 3: the first transverse moving mechanism drives the paper receiving, inserting and withdrawing paper towel passage; (at this time, the paper towel is temporarily held by the flat insert)

And 4, step 4: the first longitudinal movement mechanism drives the paper receiving plug to move downwards and move below the horizontal plug;

and 5: the first transverse moving mechanism drives the paper receiving to be inserted into the paper towel passage, and then the third transverse moving mechanism drives the horizontal insertion and paper towel withdrawing passage, so that the paper receiving insertion is realized to support the bottom of the paper towel, and the process of shoveling the bottom is completed;

step 6: the first longitudinal movement mechanism drives the paper receiving plug to move downwards, and the moving speed of the first longitudinal movement mechanism corresponds to the paper outlet speed of the folding roller;

and 7: the second longitudinal moving mechanism drives the paper separating insert to move upwards (at the moment, the paper separating insert does not enter a paper towel passage), and the third longitudinal moving mechanism drives the paper supporting insert to move upwards and enables the paper supporting insert to move to the position below the paper splicing insert and replace the paper splicing insert to support a paper towel; the paper receiving plug is withdrawn from the paper passageway through the first transverse moving mechanism and is moved upwards through the first longitudinal moving mechanism to realize resetting;

and 8: after the paper supporting insert supports the paper towel, the third longitudinal moving mechanism drives the paper supporting insert to move downwards slowly (the distance of downward movement is determined according to the number of paper towel stacks set by a user, such as 100 stacks or 80 stacks);

and step 9: when the number of the stacked tissues reaches the set number, the third longitudinal moving mechanism drives the paper supporting insert to move down quickly, meanwhile, the second transverse moving mechanism drives the paper separating insert to enter a passage of the tissues, the paper separating insert can be pressed above the tissues, and the second longitudinal moving mechanism drives the paper separating insert to move down along with the paper supporting insert; (when the number of the stacked tissues reaches a set value, the paper separating and inserting device is used for preventing subsequent tissues from entering the stacked tissues); and when the paper separating plug is inserted, the first transverse moving mechanism can drive the paper receiving plug (reset is realized in the step 7) to be inserted into the paper towel passage to receive the paper towel on the paper towel passage;

step 10: and the second longitudinal moving mechanism and the third longitudinal moving mechanism respectively drive the paper supporting plug and the paper separating plug to move downwards, when the paper supporting plug moves to the lower limit of the stroke, the paper towel positioned between the paper supporting plug and the paper separating plug is aligned with the assembly line platform arranged on one side of the stacking device, and the stacked paper towel is conveyed to the other assembly line through the assembly line platform to finish the next process.

The beneficial effects of the utility model reside in that: the automatic folding device can meet the requirement of automatic folding of the tissues after the removable tissues are folded, and can ensure that the number and the thick layer of each stack of tissues are consistent. Meanwhile, automatic sheet arranging and automatic stacking operation of the removable facial tissues are realized, and the removable facial tissues can be automatically matched with a front-end folding machine and a rear-end packaging machine for use, so that the automatic packaging of the removable facial tissues is realized in a real sense, intermediate links are reduced, the sanitary quality of products is improved, the labor cost is reduced, the production efficiency is improved, and the consistency of the quantity of each package of paper is ensured.

Drawings

Fig. 1 is a front view of the folding device of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the folding device of the present invention.

Fig. 3 is a schematic top view of the stacking apparatus of the present invention.

Fig. 4 is a front view schematically illustrating the first traverse mechanism and the second longitudinal movement mechanism of the present invention.

Fig. 5 is a schematic perspective view of the first traverse mechanism and the second longitudinal-movement mechanism of the present invention.

Fig. 6 is a schematic structural view of the assembly of the stacking device and the assembly line platform of the present invention.

The reference numbers illustrate: 11. paper receiving and inserting; 12. a support beam; 13. protecting the paper board; 21. flat insertion; paper separating and inserting; 23. paper supporting and inserting; 24. a paper connecting and fixing beam; 25. horizontally inserting the fixed beam; 26. a paper separating and fixing beam; 27. a paper supporting fixing beam; 31. a first servo motor; 32. a first transfer belt; 33. a first push cylinder; 34. a second guide rail; 35. a second slider; 36. a first slider; 37. a first guide rail; 38. a first synchronizing wheel; 4. a tissue aisle; 51. a first transmission mechanism; 52. a second transport mechanism; 53. and a third transmission mechanism.

Detailed Description

Referring to fig. 1-6, the present invention relates to a folding device of a tissue folding machine, which includes a paper folding device disposed below a paper folding roller, wherein the paper folding device includes a first paper folding device and a second paper folding device symmetrically disposed in a left-right direction in the present embodiment; a paper towel passageway 4 for paper towels to pass through is arranged between the first paper stacking device and the second paper stacking device;

the first paper stacking device comprises a paper splicing assembly, a first transverse moving mechanism which is in driving connection with the paper splicing assembly and drives the paper splicing assembly to enter the paper towel passageway 4, and a first longitudinal moving mechanism which is in driving connection with the paper splicing assembly and drives the paper splicing assembly to longitudinally move;

the second paper stacking device comprises a paper separating assembly, a paper supporting assembly, a second transverse moving mechanism, a second longitudinal moving mechanism and a third longitudinal moving mechanism, wherein the paper separating assembly is arranged opposite to the paper splicing assembly and is positioned below the paper splicing assembly; wherein the paper separating component and the paper supporting component are both arranged opposite to the paper receiving component, and the paper supporting component is positioned below the paper separating component and is arranged in the paper towel passageway 4.

The working process of the automatic stacking device is described in detail as follows:

step 1: the first transverse moving mechanism drives the paper receiving assembly to enter the paper towel passageway 4 and supports paper towels below the folding roller, the first longitudinal moving mechanism drives the paper receiving assembly to move downwards, and meanwhile the moving speed of the first longitudinal moving mechanism corresponds to the paper outlet speed of the folding roller;

step 2: the second longitudinal moving mechanism drives the paper separating assembly to move upwards (at the moment, the paper separating assembly does not enter the paper towel passageway 4), and the third longitudinal moving mechanism drives the paper supporting assembly to move upwards and enables the paper supporting assembly to move to the position below the paper receiving assembly and replace the paper receiving assembly to support the paper towel; the paper receiving assembly is connected with the paper receiving passage through a first transverse moving mechanism, and is moved upwards through a first longitudinal moving mechanism to realize resetting;

and step 3: after the paper towel is held by the paper towel holding component, the third longitudinal moving mechanism drives the paper towel holding component to move downwards slowly (the distance of the downward movement is determined according to the number of the paper towel stacks set by a user, such as 100 stacks or 80 stacks);

and 4, step 4: when the number of the stacked tissues reaches the set number, the third longitudinal moving mechanism drives the paper supporting component to move downwards quickly, meanwhile, the second transverse moving mechanism drives the paper separating component to enter the passage 4 of the tissues, the paper separating component is pressed above the tissues, and the second longitudinal moving mechanism drives the paper separating component to move downwards along with the paper supporting component; (when the number of the stacked tissues reaches a set value, the paper separating assembly is used for preventing subsequent tissues from entering the stacked tissues); and at the same time of inserting the paper separating assembly, the first transverse moving mechanism can also drive the paper receiving assembly (the paper receiving assembly is reset in the step 2) to be inserted into the paper towel passage 4 to receive the paper towel above;

and 5: and the second longitudinal moving mechanism and the third longitudinal moving mechanism respectively drive the paper supporting component and the paper separating component to move downwards, when the paper supporting component moves to the lower limit of the stroke, the paper towel positioned between the paper supporting component and the paper separating component is aligned with the assembly line platform arranged on one side of the stacking device, and the stacked paper towel is conveyed to the other assembly line through the assembly line platform to finish the next process.

The automatic folding device can meet the requirement of automatic folding of the tissues after the removable tissues are folded, and can ensure that the number and the thick layer of each stack of tissues are consistent. Meanwhile, automatic sheet arranging and automatic stacking operation of the removable facial tissues are realized, and the removable facial tissues can be automatically matched with a front-end folding machine and a rear-end packaging machine for use, so that the automatic packaging of the removable facial tissues is realized in a real sense, intermediate links are reduced, the sanitary quality of products is improved, the labor cost is reduced, the production efficiency is improved, and the consistency of the quantity of each package of paper is ensured.

Further, the second paper stacking device further comprises a third transverse moving mechanism and a flat inserting component which is arranged on the same side with the paper separating component and is positioned above the paper separating component, wherein the third transverse moving mechanism is in driving connection with the flat inserting component and drives the flat inserting component to enter the paper towel passageway 4, and the flat inserting component is positioned below the paper collecting component.

Because half unsettled in one side of connecing the paper subassembly (being the bottom of first paper not in the paper subassembly surface) all can appear in the first paper that general paper subassembly held in the palm, so in order to solve this problem, set for the flat subassembly of inserting, its specific working method is:

step 1: the first transverse moving mechanism drives the paper receiving assembly to enter the paper towel passageway 4 and supports paper towels below the folding rollers;

step 2: a piece of paper towel is in a suspended state at the bottom of the paper towel at the bottommost layer of the paper receiving assembly, so that the third transverse moving mechanism drives the flat plug assembly positioned below the paper receiving assembly to be inserted into the paper towel passageway 4, and then the last piece of paper is shoveled back to the bottom;

and step 3: the first transverse moving mechanism drives the paper receiving assembly to insert and withdraw the paper towel passageway 4; (at this time, the paper towel is temporarily held by the flat insert 21)

And 4, step 4: the first longitudinal movement mechanism drives the paper splicing assembly to move downwards and move below the horizontal insertion 21 assembly;

and 5: the first transverse moving mechanism drives the paper receiving component to be inserted into the paper towel passage 4, then the third transverse moving mechanism drives the horizontal insertion 21 component to be inserted into and withdrawn from the paper towel passage 4, namely the paper receiving insertion 11 supports the bottom of a paper towel, and the process of shoveling the bottom is finished;

further, the top of the first paper stacking device and the top of the second paper stacking device are provided with supporting beams 12 extending along the length direction of the paper towel passageway 4, a plurality of paper protecting plates 13 are equidistantly distributed on each supporting beam 12 along the length direction of the supporting beam, and the paper protecting plates 13 on each supporting beam 12 are oppositely arranged and aligned with each other.

In the embodiment, the paper protecting plates 13 which are oppositely arranged and aligned with each other are arranged, and the paper protecting plates 13 positioned on the first paper stacking device and the second paper stacking device can limit the cut tissues below the folding roller, so that the situation that the tissues deviate from the channel 4 of the tissues is avoided; and the user can adjust the distance between the paper protecting plates 13 of the first paper stacking device and the second paper stacking device according to the sizes of different tissues, so that the applicability of the whole equipment is improved.

Further, the paper splicing assembly comprises a paper splicing fixing beam 24 parallel to the supporting beam 12, a plurality of paper splicing insertion holes 11 are formed in the paper splicing fixing beam 24 and distributed along the length direction of the paper splicing fixing beam 24 at equal intervals, and the paper splicing insertion holes 11 face the second paper stacking device.

Referring to fig. 4-5, further, the specific structure of the first longitudinal moving mechanism and the first transverse moving mechanism is discussed in detail as follows:

the first longitudinal moving mechanism comprises a first synchronous wheel 38, a first servo motor 31, a first transmission belt 32, a first guide rail 37 extending along the vertical direction and a first sliding block 36 arranged on the first guide rail 37 in a sliding manner, one end of the first transmission belt 32 is sleeved on the first synchronous wheel 38, the other end of the first transmission belt 32 is sleeved on an output shaft of the first servo motor 31, and the first sliding block 36 is fixedly connected with the first transmission belt 32 and the paper receiving fixed beam 24 respectively; the first servo motor 31 drives the first transmission belt 32 to rotate, so that the first slider 36 moves along the first guide rail 37, and the paper receiving slot 11 moves along the first guide rail 37. Further, the first transverse moving mechanism comprises a first pushing cylinder 33, a second guide rail 34 extending along the horizontal direction and fixedly arranged on a first slide block 36, and a second slide block 35 arranged on the second guide rail 34 in a sliding manner; the movable end of the first pushing cylinder 33 is fixedly connected to the second slide block 35, and pushes the second slide block 35 to move along the second guide rail 34, so that the paper receiving insert 11 moves along the second guide rail 34.

In this embodiment, the second longitudinal moving mechanism and the third longitudinal moving mechanism are both the same as the first longitudinal moving mechanism, and the second transverse moving mechanism and the third transverse moving mechanism are both the same as the first transverse moving mechanism; therefore, the detailed structural description of the second transverse moving mechanism, the third transverse moving mechanism, the second longitudinal moving mechanism and the third longitudinal moving mechanism is not redundant; it should be noted that the specific structure of the first longitudinal moving mechanism, the second longitudinal moving mechanism, the third longitudinal moving mechanism, the first transverse moving mechanism, the second transverse moving mechanism and the third transverse moving mechanism is only described in the preferred embodiment of the present invention, and is not limited to the scope of the present invention.

Referring to fig. 1-6, further, the paper separating assembly includes a paper separating fixing beam 26 parallel to the supporting beam 12, and a plurality of paper separating inserts 22 are disposed on the paper separating fixing beam 26 and are distributed at equal intervals along the length direction of the paper separating fixing beam 26, and the paper separating inserts 22 face the first paper stacking device. Further, the paper supporting component comprises a paper supporting fixing beam 27 parallel to the supporting beam 12, a plurality of paper supporting plugs 23 are arranged on the paper supporting fixing beam 27 and distributed along the length direction of the paper supporting fixing beam 27 at equal intervals, and the paper supporting plugs 23 face the first paper stacking device.

Further, the flat inserting component comprises a flat inserting fixed beam 25 parallel to the supporting beam, a plurality of flat inserting devices are arranged on the flat inserting fixed beam 25 and distributed at equal intervals along the length direction of the flat inserting fixed beam 25, and the flat inserting devices 21 face the first paper stacking device.

Further, the assembly line platform arranged on one side of the stacking device comprises a first transmission mechanism 51, a second transmission mechanism 52 and a third transmission mechanism 53 which extends along the length direction of the paper towel passageway 4, the first transmission mechanism 51 and the second transmission mechanism 52 are arranged in sequence along the horizontal direction, the paper towels are conveyed to the second transmission mechanism 52 through the first transmission mechanism 51 when entering the assembly line platform, then conveyed to the third transmission mechanism 53 through the second transmission mechanism 52, and finally conveyed to the next preset device through the third transmission mechanism 53;

since the first transmission mechanisms 51 and the second transmission mechanisms 52 are distributed at intervals, and the first transmission mechanisms 51, the second transmission mechanisms 52 and the third transmission mechanisms 53 are all driven by independent driving devices, the second transmission mechanisms 52 can be stopped if the transportation needs to be stopped temporarily.

Referring to fig. 1-6, to solve the technical problem, a specific working process of a folding device of a tissue folding machine is discussed below, which includes:

step 1: the first transverse moving mechanism drives the paper receiving insert 11 to enter the paper towel passageway 4 and supports paper towels below the folding rollers;

step 2: a piece of paper towel is in a suspended state at the bottom of the paper towel at the bottommost layer of the paper receiving slot 11, so that the third transverse moving mechanism drives the flat slot 21 below the paper receiving slot 11 to be inserted into the paper towel passageway 4, and then the last piece of paper is shoveled back to the bottom;

and step 3: the first transverse moving mechanism drives the paper receiving slot 11 to withdraw the paper towel passage 4; (at this time, the paper towel is temporarily held by the flat insert 21)

And 4, step 4: the first longitudinal movement mechanism drives the paper receiving insert 11 to move downwards and move to the lower part of the horizontal insert 21;

and 5: the first transverse moving mechanism drives the paper receiving plug 11 to enter the paper towel passageway 4, then the third transverse moving mechanism drives the transverse plug 21 to insert the paper towel passageway 4, namely the paper receiving plug 11 supports the bottom of the paper towel, and the process of shoveling the bottom is finished;

step 6: the first longitudinal moving mechanism drives the paper receiving insert 11 to move downwards, and the moving speed of the first longitudinal moving mechanism corresponds to the paper discharging speed of the folding roller;

and 7: the second longitudinal moving mechanism drives the paper separating insert 22 to move upwards (at this time, the paper separating insert 22 does not enter the paper towel passageway 4), and the third longitudinal moving mechanism drives the paper supporting insert 23 to move upwards and enables the paper supporting insert 23 to move to the lower part of the paper receiving insert 11 and replace the paper receiving insert 11 to support the paper towel; the paper receiving plug 11 exits from the paper passageway through the first transverse moving mechanism and moves upwards through the first longitudinal moving mechanism to realize resetting;

and 8: after the paper holding insert 23 holds the paper towel, the third longitudinal moving mechanism drives the paper holding insert 23 to move downwards slowly (the distance of downward movement is determined according to the number of paper towel stacks set by the user, such as 100 paper towel stacks or 80 paper towel stacks);

and step 9: when the number of the stacked tissues reaches the set number, the third longitudinal moving mechanism drives the paper supporting insert 23 to move down rapidly, meanwhile, the second transverse moving mechanism drives the paper separating insert 22 to enter the tissue passageway 4, the paper separating insert 22 is pressed above the tissues, and the second longitudinal moving mechanism drives the paper separating insert 22 to move down along with the paper supporting insert 23; (when the number of stacked towels reaches a set value, the separating insert 22 is used to prevent subsequent towels from entering the stacked towels); and at the same time of inserting the paper separating plug 22, the first traversing mechanism will also drive the paper receiving plug 11 (the paper receiving plug 11 has been reset in step 7) to insert into the towel passage 4 to receive the towel thereon;

step 10: and the second longitudinal moving mechanism and the third longitudinal moving mechanism respectively drive the paper supporting insert 23 and the paper separating insert 22 to move downwards, when the paper supporting insert 23 moves to the lower limit of the stroke, namely, the paper towel between the paper supporting insert 23 and the paper separating insert 22 is aligned with the production line platform arranged on one side of the stacking device, and the stacked paper towel is conveyed to the other production line through the production line platform to finish the next process.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (8)

1. The utility model provides a paper handkerchief folder divides and folds device which characterized in that: comprises a first paper stacking device and a second paper stacking device which are symmetrically arranged in parallel; a paper towel passage for paper towels to pass through is arranged between the first paper stacking device and the second paper stacking device; the first paper stacking device comprises a paper splicing assembly, a first transverse moving mechanism which is in driving connection with the paper splicing assembly and drives the paper splicing assembly to enter a paper towel passageway, and a first longitudinal moving mechanism which is in driving connection with the paper splicing assembly and drives the paper splicing assembly to longitudinally move;

the second paper stacking device comprises a paper separating assembly, a paper supporting assembly, a second transverse moving mechanism, a second longitudinal moving mechanism and a third longitudinal moving mechanism, wherein the paper separating assembly is arranged opposite to the paper splicing assembly and is positioned below the paper splicing assembly; the paper separating component and the paper supporting component are arranged opposite to the paper receiving component, and the paper supporting component is positioned below the paper separating component and arranged in the paper towel passageway.

2. The folding device of claim 1, wherein: the second paper stacking device further comprises a third transverse moving mechanism and a flat inserting assembly which is arranged on the same side with the paper separating assembly and is positioned above the paper separating assembly, wherein the third transverse moving mechanism is in driving connection with the flat inserting assembly and drives the flat inserting assembly to enter a paper towel passageway, and the flat inserting assembly is positioned below the paper collecting assembly.

3. The folding device of claim 1, wherein: the top of the first paper stacking device and the top of the second paper stacking device are provided with supporting beams extending along the length direction of the paper towel passageway, each supporting beam is provided with a plurality of paper protecting plates at equal intervals along the length direction, and the paper protecting plates on each supporting beam are arranged oppositely and aligned with each other.

4. A folding device of a tissue folder as claimed in claim 3, wherein: the paper receiving assembly comprises a paper receiving fixed beam parallel to the supporting beam, a plurality of paper receiving insertion devices are arranged on the paper receiving fixed beam and distributed along the length direction of the paper receiving fixed beam at equal intervals, and the paper receiving insertion devices are arranged towards the second paper stacking device.

5. The folding device of claim 4, wherein: the first longitudinal moving mechanism comprises a first synchronous wheel, a first servo motor, a first transmission belt, a first guide rail extending along the vertical direction and a first sliding block arranged on the first guide rail in a sliding mode, one end of the first transmission belt is sleeved on the first synchronous wheel, the other end of the first transmission belt is sleeved on an output shaft of the first servo motor, and the first sliding block is fixedly connected with the first transmission belt and the paper receiving fixed beam respectively; wherein first servo motor drives first transmission belt and rotates for first slider removes along the direction of first guide rail, and then makes the paper splicing insert remove along first guide rail direction.

6. The folding device of claim 5, wherein: the first transverse moving mechanism comprises a first pushing cylinder, a second guide rail which extends along the horizontal direction and is fixedly arranged on the first sliding block, and a second sliding block which is arranged on the second guide rail in a sliding manner; the movable end of the first pushing cylinder is fixedly connected to the second sliding block, the second sliding block is pushed to move along the direction of the second guide rail, and the paper receiving plug is made to move along the direction of the second guide rail.

7. A folding device of a tissue folder as claimed in claim 3, wherein: the paper separating component comprises a paper separating fixed beam parallel to the supporting beam, a plurality of paper separating inserting devices are arranged on the paper separating fixed beam and distributed along the paper separating fixed beam in the length direction at equal intervals, and the paper separating inserting devices face towards the first paper stacking device.

8. A folding device of a tissue folder as claimed in claim 3, wherein: the paper supporting component comprises a paper supporting fixed beam parallel to the supporting beam, a plurality of paper supporting insertion devices are arranged on the paper supporting fixed beam and distributed along the length direction of the paper supporting fixed beam at equal intervals, and the paper supporting insertion devices face the first paper stacking device.

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