CN212953428U - Paper folding machine capable of automatically collecting paper for wiping - Google Patents

Abstract

The utility model relates to a paper folder for automatically receiving paper for wiping, which comprises a paper folding mechanism, a paper separating mechanism, a paper receiving mechanism and a paper conveying mechanism, wherein the paper folding mechanism is used for folding and transversely cutting body paper into strip paper; the paper conveying mechanism is used for conveying the folded long-strip paper to the next station. The paper stacking machine solves the technical problems that in the prior art, the number error of stacked paper is large, the dependence on manual labor is high, the production labor cost is high and the like due to the fact that manual stacking and paper transferring are depended on.

Description

Paper folding machine capable of automatically collecting paper for wiping

Technical Field

The utility model belongs to the technical field of the paper handkerchief production facility and specifically relates to a paper folder of automatic paper that connects of paper towel is related to.

Background

In the existing production process of the hand towel, the steps of paper folding, section cutting, packaging and the like are generally needed, and after the paper folding and stacking are completed, the existing hand towel production equipment needs to manually carry out quantitative folding and splitting on the stacked long-strip paper, then the long-strip paper is put into a large circle to be cut, and then the cut paper is packaged. Therefore, the prior hand towel has the following defects in the production process: 1. depending on a manual quantitative stacking mode, errors are easy to occur in the number of the paper sheets in the separated paper stacks, so that the number of the paper sheets of the produced paper bags is different; 2. the automation degree is low, the dependence on manual labor is high, and the production labor cost is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide a paper folder of automatic paper that connects of paper towel, it is big to rely on artifical branch to fold and shift the branch that the paper leads to fold paper quantity error among the solution prior art, and is higher to the manual labor degree of dependence, the higher scheduling technical problem of production human cost.

The purpose of the utility model is realized through the following technical scheme:

a paper folding machine for automatically splicing toilet paper comprises a paper folding mechanism, a paper splitting mechanism, a paper splicing mechanism and a paper conveying mechanism, wherein the paper folding mechanism is used for folding and transversely cutting body paper into long-strip paper; the paper conveying mechanism is used for conveying the folded long-strip paper to the next station.

As an implementation mode of the utility model, the paper conveying mechanism comprises a paper receiving conveying belt, paper blocking rods arranged at intervals are arranged at the left side and the right side of the paper receiving conveying belt, and strip paper produced by the paper folding mechanism is stacked right above the paper receiving conveying belt; the paper receiving mechanism and the paper separating mechanism are respectively arranged on the left side and the right side of the paper conveying mechanism;

the paper receiving mechanism comprises a paper receiving support, a first lifting assembly and a first translation assembly, wherein the paper receiving support is provided with receiving claws which are arranged at intervals, and the first lifting assembly is used for driving the paper receiving support to move up and down so that the receiving claws move up and down above the paper receiving conveying belt; the first translation assembly is used for driving the paper receiving support to move horizontally, so that the receiving claw penetrates through the paper blocking rod to enter the position right above the paper receiving conveying belt or to exit to the outer side of the paper blocking rod.

As an implementation mode of the present invention, the first lifting assembly includes a first lifting support, a first synchronous belt and a first vertical limiting rod, the first lifting support is connected to the paper receiving support, the first lifting support is slidably connected to the first vertical limiting rod, the first lifting support is connected to a first toothed plate engaged with the first synchronous belt, the first synchronous belt is driven by a first lifting motor to rotate, and the first lifting support is driven to move up and down when rotating, so as to drive the paper receiving support to move up and down;

the first translation assembly comprises a first horizontal limiting rod and a first translation cylinder, a first limiting sleeve horizontally arranged is fixed on the first lifting support, the first translation cylinder is fixedly connected with the first limiting sleeve, the first horizontal limiting rod is fixed on the paper collecting support, the first horizontal limiting rod is connected with the first limiting sleeve in a sliding mode, and the telescopic end of the first translation cylinder is connected with the paper collecting support; the first translation cylinder pushes the paper splicing support to move horizontally relative to the first limiting sleeve;

the front end and the rear end of the paper splicing support are respectively and symmetrically provided with a group of lifting components and a group of translation components.

As an implementation mode of the present invention, the paper separating mechanism includes a paper separating support, a second translation assembly and a deflection assembly, the paper separating support is provided with counting insertion claws arranged at intervals, and the second translation assembly is used for driving the paper separating support to move horizontally, so that the counting insertion claws are separated from or close to the long strip paper stacked on the paper receiving mechanism;

the deflection assembly is used for driving the counting insertion claw to be inserted above the long-strip paper stacked on the paper receiving mechanism in a forward rotation mode or reset in a reverse rotation mode.

As an embodiment of the utility model, divide paper mechanism still including second lifting unit, second lifting unit is used for driving divide the paper support to reciprocate.

As an embodiment of the present invention, the deflection assembly includes a deflection cylinder, and the deflection cylinder is hinged to the paper separating frame; the paper separating support is provided with a counting insertion claw installation roller, the counting insertion claw is fixedly installed on the counting insertion claw installation roller, the counting insertion claw installation roller is rotatably installed on the paper separating support, the counting insertion claw installation roller is fixedly connected with a swing lug, and a telescopic end of the deflection air cylinder is hinged to the swing lug.

As an implementation mode of the present invention, the second lifting assembly includes a second lifting support, a second synchronous belt and a second vertical limiting rod, the second lifting support is connected to the paper separating support, the second lifting support is slidably connected to the second vertical limiting rod, a second toothed plate engaged with the second synchronous belt is connected to the second lifting support, the second synchronous belt is driven by a second lifting motor to rotate, and the second synchronous belt drives the second lifting support to move up and down when rotating, so as to drive the paper separating support to move up and down;

the second translation assembly comprises a second horizontal limiting rod and a second translation cylinder, a second limiting sleeve horizontally arranged is fixed on the second lifting support, the second translation cylinder is fixedly connected with the second limiting sleeve, the second horizontal limiting rod is fixed on the paper separating support and is in sliding connection with the second limiting sleeve, and the telescopic end of the second translation cylinder is connected with the paper separating support; the second translation cylinder pushes the paper separation support to move horizontally relative to the second limiting sleeve;

the front end and the rear end of the paper separating support are respectively and symmetrically provided with a group of deflection assemblies, a group of lifting assemblies and a group of translation assemblies.

And a counting device is arranged in the paper folding mechanism and used for counting the number of the long-strip paper falling from the paper folding mechanism. The utility model discloses following beneficial effect has: the utility model provides an automatic paper folder that connects of toilet paper, wherein, paper folding mechanism can automatic paper folding and crosscut into long strip paper, rectangular paper can be accepted and automatically carried on paper feed mechanism by paper connecting mechanism is automatic, at the in-process that paper connecting mechanism connects paper, when the rectangular paper quantity that piles up in paper connecting mechanism reaches the setting value, paper separating mechanism can separate the rectangular paper that follow-up piles up, paper connecting mechanism carries a pile of rectangular paper to paper feed mechanism after, connect next pile of paper again, can realize automatic ration and fold the output rectangular paper from this. This scheme is for prior art's manual work branch is folded and is shifted the paper, and the paper quantity that the branch of this scheme was folded is more accurate, and is lower to the manual labor degree of dependence, has greatly reduced the human production cost.

Drawings

Fig. 1 is a schematic view of the overall structure of the automatic paper folding machine for collecting paper towel according to the present invention;

FIG. 2 is a schematic middle sectional view of the automatic toilet paper dispenser of the present invention;

fig. 3 is a schematic view of the internal structure of the automatic paper folding machine for collecting paper towel according to the present invention;

fig. 4 is a schematic structural view of the paper feeding mechanism of the present invention;

fig. 5 is a schematic structural view of the paper receiving mechanism of the present invention;

fig. 6 is a schematic structural view of the paper separating mechanism of the present invention.

The specific structure in the figure illustrates that: 11 paper folding mechanisms, 12 paper receiving mechanisms, 121 paper receiving brackets, 122 receiving claws, 123 first lifting components, 1231 first lifting supports, 1232 first vertical limiting rods, 1233 first synchronous belts, 1234 first toothed plates, 124 first translation components, 1241 first translation cylinders, 1242 first limiting sleeves, 1243 first horizontal limiting rods, 13 paper separating mechanisms, 131 paper separating supports, 1311 counting inserting claw mounting rollers, 1312 swing lugs, 132 counting inserting claws, 133 second lifting components, 1331 second lifting supports, 1332 second vertical limiting rods, 1333 second synchronous belts, 1334 second toothed plates, 134 second translation components, 1341 second translation cylinders, 1342 second limiting sleeves, 1343 second horizontal limiting rods, 135 deflection components, 1351 deflection cylinders, 14 paper conveying mechanisms, 141 paper receiving conveying belts, 142 paper rods and 15 long-strip paper.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments shown in the drawings.

Referring to fig. 1-3, a paper folding machine for automatically receiving paper for toilet paper comprises a paper folding mechanism 11, a paper separating mechanism 13, a paper receiving mechanism 12 and a paper conveying mechanism 14, wherein the paper folding mechanism 11 is used for folding and transversely cutting raw paper into long-strip paper, the paper receiving mechanism 12 is used for receiving the long-strip paper and conveying the long-strip paper to the paper conveying mechanism, and the paper separating mechanism 13 is used for separating the long-strip paper 15 stacked on the paper receiving mechanism 12 into an upper part and a lower part to realize stacking; the paper feeding mechanism 14 is used for feeding the folded long paper 15 to the next station.

As an embodiment of the present invention, referring to fig. 4, the paper feeding mechanism 14 includes a paper receiving conveying belt 141, paper blocking rods 142 arranged at intervals are installed at the left and right sides of the paper receiving conveying belt 141, and the long strip paper 15 produced by the paper folding mechanism 11 is stacked directly above the paper receiving conveying belt 141; the paper receiving mechanism 12 and the paper separating mechanism 13 are respectively arranged on the left side and the right side of the paper conveying mechanism 14;

referring to fig. 5, the paper receiving mechanism 12 includes a paper receiving bracket 121, a first lifting assembly 123 and a first translation assembly 124, receiving claws 122 arranged at intervals are mounted on the paper receiving bracket 121, and the first lifting assembly 124 is configured to drive the paper receiving bracket 121 to move up and down, so that the receiving claws 122 move up and down above the paper receiving conveying belt 141; the first translation assembly 124 is configured to drive the paper receiving frame 12 to move horizontally, so that the receiving claw 122 passes through the paper blocking rod 142 and enters directly above the paper receiving conveyer belt 141 or exits to the outside of the paper blocking rod 142.

In operation, the first translation component 124 pushes the paper receiving bracket 121 to enable the receiving claw 122 to penetrate through the paper blocking rod 142 and enter the inner side of the paper blocking rod 142, and in order to ensure that the paper dropped from the paper outlet end of the paper folding mechanism 11 can be flatly stacked on the receiving claw 122, it is necessary to ensure that the distance between the upper end of the receiving claw 122 and the paper outlet end of the paper folding mechanism 11 is close enough, so that the first lifting component 123 is required to drive the paper receiving bracket 121 to move upward and be located at a position close to the paper outlet end of the paper folding mechanism 11, the long strips of paper 15 folded by the paper folding mechanism 11 are continuously stacked on the receiving claw 122, the height of the paper stack is continuously increased in the process of stacking the long strips of paper 15, and at this time, in order to ensure that enough paper outlet space is reserved for the paper folding mechanism 11, in the process of receiving, another receiving claw 122 is required to slowly move downward to ensure that a certain distance is kept between the upper. After the number of long sheets received by the receiving claw 122 reaches a set value, the first lifting assembly 123 rapidly drives the sheet receiving bracket 121 to rapidly move down, when the receiving claw 122 approaches the sheet receiving conveyor belt 141, the first translating assembly 124 drives the sheet receiving bracket 121 to move, so that the receiving claw 122 exits from the sheet receiving conveyor belt 141, and in the process that the receiving claw 121 exits, the sheet blocking rods 142 at two sides of the sheet receiving conveyor belt 141 can block the long sheets on the column receiving claw 121, so that the long sheets 15 fall onto the sheet receiving conveyor belt 141, and the sheet receiving conveyor belt 141 then sends out the stack of sheets. In order to ensure accurate counting, a counting device is arranged in the paper folding mechanism 11 in the embodiment, and the counting device is used for counting the number of long sheets of paper dropped from the paper folding mechanism 1. Specifically, as an implementation manner, the counting device includes an angle origin sensor, and the counting device is installed on a certain folding roller (or other rotating rollers) on the paper folding mechanism 11, and counts the number of folded long sheets by counting the number of turns of the folding roller, thereby completing the counting. Further, the counting device is in linkage control with the paper receiving mechanism 12 and the paper separating mechanism 13, when the counting number reaches a set value, the paper separating mechanism 13 acts to separate paper, and the paper receiving mechanism 12 lowers long-strip paper and then receives the paper again. This embodiment drives through first lifting unit 123 and holds the claw 121 and reciprocate, and at the in-process that holds the claw 121 and meet paper, can make the distance of holding the claw 121 and paper folding mechanism 11 remain throughout and can let rectangular paper level and smooth the range of the distance of piling up, guarantees the regularity of the paper stack of piling up, when putting down rectangular paper 15, will hold the claw 121 and transport and be being withdrawing on being close to the conveyer belt 141 that meets paper, enable rectangular paper 15 and level and drop on the conveyer belt 141 that meets paper.

As an implementation manner of the present invention, referring to fig. 5, the first lifting assembly 123 includes a first lifting support 1231, a first synchronous belt 1233 and a first vertical limiting rod 1232, the first lifting support 1231 is connected to the paper receiving frame 121, the first lifting support 1231 is slidably connected to the first vertical limiting rod 1232, the first lifting support 1231 is connected to a first toothed plate 1234 engaged with the first synchronous belt 1233, the first synchronous belt 1233 is driven by a first lifting motor to rotate, and when the first synchronous belt 1233 rotates, the first lifting support 1231 is driven to move up and down, so as to drive the paper receiving frame 121 to move up and down; the moving stroke of the first lifting support 1231 can be limited by the first vertical limiting rod 1232, so that the first lifting support 1231 can only move up and down along the first vertical limiting rod 1232, and the stable and reliable performance of the mechanism operation is ensured; adopt first synchronous area 1233 to drive first lift support 1231 and reciprocate, first synchronous area 1233 operates steadily, and the speed and the accurate controllable of stroke that drive first lift support 1231 and remove, the running loss is little, can guarantee the accurate reliability of the operation of paper receiving mechanism 12.

As an embodiment of the present invention, the first translating assembly 124 includes a first horizontal limiting rod 1243 and a first translating cylinder 1241, a first limiting sleeve 1242 horizontally disposed is fixed on the first lifting support 1231, the first translating cylinder 1241 is connected and fixed with the first limiting sleeve 1242, the first horizontal limiting rod 1243 is fixed on the paper splicing support 121, the first horizontal limiting rod 1243 is slidably connected with the first limiting sleeve 1242, and a telescopic end of the first translating cylinder 1241 is connected with the paper splicing support 121; the first translation cylinder 1241 pushes the paper splicing support 121 to move horizontally relative to the first limit sleeve 1242; during operation, the first translation cylinder 1241 pushes the paper splicing support 121 to move horizontally relative to the first limit sleeve 1242, the first limit sleeve 1242 supports the paper splicing support 121 through the first horizontal limit rod 1243, and meanwhile, the horizontal displacement of the paper splicing support 121 can be limited to form, so that the paper splicing support 121 can only move horizontally relative to the first limit sleeve 1242.

As an embodiment of the present invention, the front and rear ends of the paper receiving frame 121 are respectively and symmetrically provided with a set of the lifting assembly 123 and a set of the translation assembly 124.

As an embodiment of the present invention, referring to fig. 6, the paper separating mechanism 13 includes a paper separating bracket 131, a second translating assembly 134 and a deflecting assembly 135, the paper separating bracket 131 is mounted with counting claws 132 arranged at intervals, and the second translating assembly 134 is configured to drive the paper separating bracket 131 to move horizontally, so that the counting claws 132 are separated from or close to the long sheets 15 stacked on the paper receiving mechanism 12;

the deflecting component 135 is used for driving the counting pawl 132 to insert in the forward direction or return in the reverse direction above the long paper 15 stacked on the paper receiving mechanism 12.

During operation, when the number of the long sheets 15 received by the sheet receiving mechanism 12 reaches a set value, the deflection assembly 135 drives the counting pawl 132 to rotate forward, so that the receiving portion of the counting pawl 132 is located above the sheet stack on the sheet receiving mechanism 12, thereby separating the sheet stack on the sheet receiving mechanism 12 from the sheet newly folded by the sheet folding mechanism 11, and stacking the sheet newly folded by the sheet folding mechanism 11 on the counting pawl 132; after the counting insertion claw 132 is inserted, the paper receiving mechanism 12 drives the paper stack to move downwards and downwards to the paper conveying mechanism 14, then the paper receiving mechanism 12 moves upwards to receive the long paper 15 stacked on the counting insertion claw 132, and after the paper receiving mechanism 12 receives the long paper, the second translation component 134 drives the counting insertion claw 132 to withdraw from the paper blocking rod 142; after the counting pawl 132 exits, the deflecting component 135 drives the counting pawl 132 to rotate reversely and reset, the second translating component 134 drives the counting pawl 132 to approach the paper blocking rod 142, and at this time, the deflecting mechanism 135 waits for the next forward rotation to insert the paper separating action. Use in this embodiment to make the count insert the mode that claw 132 rotatory inserted the paper stack to carry out the branch paper, it is fast to have an insertion speed, the accurate advantage of branch paper, in addition, for direct use translation insertion mode, rotatory male mode, insert the oblique rather than flat inserting when the claw 132 front end is inserted the paper stack in the count, thereby can avoid the count to insert claw 132 and directly beat rectangular paper and beat paper rotten or lead to the fact the backlog to paper when inserting the paper stack, thereby guaranteed the level and smooth and yields of piling up.

As an embodiment of the present invention, the paper separating mechanism 13 further includes a second lifting component 133, the second lifting component 133 is used for driving the paper separating bracket 131 to move up and down. In the process of descending long-strip paper and ascending paper in the descending direction of the paper receiving mechanism 12, newly folded paper in the paper folding mechanism 11 is stacked on the paper separating mechanism 13, the same principle as that of the paper receiving mechanism 12 in the paper receiving process is that a second lifting component 133 is arranged and can be used for driving the counting insertion claw 132 to move upwards, in order to ensure that the paper dropped from the paper outlet end of the paper folding mechanism 11 can be flatly stacked on the counting insertion claw 132, the distance between the upper end of the counting insertion claw 132 and the paper outlet end of the paper folding mechanism 11 needs to be ensured to be close enough, so that the second lifting component 133 is required to drive the counting insertion claw 132 to move upwards to be positioned at the position close to the paper outlet end of the paper folding mechanism 11, the long-strip paper 15 folded by the paper folding mechanism 11 is continuously stacked on the counting insertion claw 132, in the process of stacking the long-strip paper 15, the height of the paper stack is continuously increased, at this time, in order to ensure that enough paper outlet space is reserved, in the process of receiving paper, another counting pawl 132 needs to move downwards slowly to ensure that a certain distance is kept between the upper surface of the paper stack and the paper folding mechanism 11.

As an embodiment of the present invention, the deflecting assembly 15 includes a deflecting cylinder 1351, and the deflecting cylinder 1351 is hinged to the paper separating frame 131; a counting inserting claw mounting roller 1311 is arranged on the paper separating bracket 131, the counting inserting claw 132 is fixedly mounted on the counting inserting claw mounting roller 1311, the counting inserting claw mounting roller 1311 is rotatably mounted on the paper separating bracket 131, a swinging lug 1312 is fixedly connected to the counting inserting claw mounting roller 1311, and a telescopic end of the deflecting cylinder 1351 is hinged to the swinging lug 1312; when the deflecting cylinder 1351 extends and contracts, the swinging lug 1312 is driven to move, because the swinging lug 1312 is fixed on the counting inserting claw mounting roller 1311 and the counting inserting claw mounting roller 1311 is rotatably mounted on the paper separating bracket 131, the swinging lug 1312 can only rotate relative to the paper separating bracket 131, so when the deflecting cylinder 1351 extends and contracts, the swinging lug 1312 and the counting inserting claw mounting roller 1311 are driven to rotate, and at the moment, the counting inserting claw 132 rotates along with the swinging lug 1312.

The second lifting assembly 133 includes a second lifting support 1331, a second synchronous belt 1333 and a second vertical limiting rod 1332, the second lifting support 1331 is connected to the paper separating bracket 131, the second lifting support 1331 is slidably connected to the second vertical limiting rod 1332, a second toothed plate 1334 meshed with the second synchronous belt 1333 is connected to the second lifting support 1331, the second synchronous belt 1333 is driven by a second lifting motor to rotate, and the second synchronous belt 1333 drives the second lifting support 1331 to move up and down when rotating, so as to drive the paper separating bracket 131 to move up and down; the operation principle of the second elevation assembly 133 can be described with reference to the first elevation assembly 123.

The second translation assembly 134 comprises a second horizontal limiting rod 1343 and a second translation cylinder 1341, a second limiting sleeve 1342 which is horizontally arranged is fixed on the second lifting support 1331, the second translation cylinder 1341 is fixedly connected with the second limiting sleeve 1342, the second horizontal limiting rod 1343 is fixed on the paper separating support 131, the second horizontal limiting rod 1343 is slidably connected with the second limiting sleeve 1342, and the telescopic end of the second translation cylinder 1341 is connected with the paper separating support 131; the second translation cylinder 1341 pushes the paper separation bracket 131 to move horizontally relative to the second limiting sleeve 1342; the operation principle of the second translation assembly 134 can be described with reference to the operation principle of the first translation assembly 124.

A group of deflection assemblies 135, a group of lifting assemblies 133 and a group of translation assemblies 134 are symmetrically arranged at the front end and the rear end of the paper separating bracket 131 respectively.

The above mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention should not be limited thereby, that is, all the simple equivalent changes and modifications made according to the claims and the description of the present invention are still included in the scope of the present invention.

Claims (8)

1. A paper folding machine for automatically splicing toilet paper comprises a paper folding mechanism and is characterized by further comprising a paper splitting mechanism, a paper splicing mechanism and a paper conveying mechanism, wherein the paper folding mechanism is used for folding and transversely cutting body paper into long-strip paper; the paper conveying mechanism is used for conveying the folded long-strip paper to the next station.

2. The paper folder for automatically splicing toilet paper according to claim 1, wherein: the paper conveying mechanism comprises a paper receiving conveying belt, paper blocking rods arranged at intervals are mounted on the left side and the right side of the paper receiving conveying belt, and long-strip paper produced by the paper folding mechanism is stacked right above the paper receiving conveying belt; the paper receiving mechanism and the paper separating mechanism are respectively arranged on the left side and the right side of the paper conveying mechanism;

the paper receiving mechanism comprises a paper receiving support, a first lifting assembly and a first translation assembly, wherein the paper receiving support is provided with receiving claws which are arranged at intervals, and the first lifting assembly is used for driving the paper receiving support to move up and down so that the receiving claws move up and down above the paper receiving conveying belt; the first translation assembly is used for driving the paper receiving support to move horizontally, so that the receiving claw penetrates through the paper blocking rod to enter the position right above the paper receiving conveying belt or to exit to the outer side of the paper blocking rod.

3. The paper folder for automatically splicing toilet paper according to claim 2, wherein: the first lifting assembly comprises a first lifting support, a first synchronous belt and a first vertical limiting rod, the first lifting support is connected with the paper collecting support, the first lifting support is connected with the first vertical limiting rod in a sliding mode, a first toothed plate meshed with the first synchronous belt is connected onto the first lifting support, the first synchronous belt is driven to rotate by a first lifting motor, and the first lifting support is driven to lift and move when the first synchronous belt rotates, so that the paper collecting support is driven to lift and move;

the first translation assembly comprises a first horizontal limiting rod and a first translation cylinder, a first limiting sleeve horizontally arranged is fixed on the first lifting support, the first translation cylinder is fixedly connected with the first limiting sleeve, the first horizontal limiting rod is fixed on the paper collecting support, the first horizontal limiting rod is connected with the first limiting sleeve in a sliding mode, and the telescopic end of the first translation cylinder is connected with the paper collecting support; the first translation cylinder pushes the paper splicing support to move horizontally relative to the first limiting sleeve;

the front end and the rear end of the paper splicing support are respectively and symmetrically provided with a group of lifting components and a group of translation components.

4. The paper folder for automatically splicing toilet paper according to claim 1, wherein: the paper separating mechanism comprises a paper separating bracket, a second translation assembly and a deflection assembly, counting inserting claws arranged at intervals are installed on the paper separating bracket, and the second translation assembly is used for driving the paper separating bracket to move horizontally, so that the counting inserting claws are separated from or close to the long-strip paper stacked on the paper receiving mechanism;

the deflection assembly is used for driving the counting insertion claw to be inserted above the long-strip paper stacked on the paper receiving mechanism in a forward rotation mode or reset in a reverse rotation mode.

5. The paper folder for automatically splicing toilet paper according to claim 4, wherein: the paper separating mechanism further comprises a second lifting assembly, and the second lifting assembly is used for driving the paper separating support to move up and down.

6. The paper folder for automatically splicing toilet paper according to claim 5, wherein: the deflection assembly comprises a deflection cylinder, and the deflection cylinder is hinged with the paper separating rack; the paper separating support is provided with a counting insertion claw installation roller, the counting insertion claw is fixedly installed on the counting insertion claw installation roller, the counting insertion claw installation roller is rotatably installed on the paper separating support, the counting insertion claw installation roller is fixedly connected with a swing lug, and a telescopic end of the deflection air cylinder is hinged to the swing lug.

7. The paper folder for automatically splicing toilet paper according to claim 6, wherein: the second lifting assembly comprises a second lifting support, a second synchronous belt and a second vertical limiting rod, the second lifting support is connected with the paper separating support, the second lifting support is connected with the second vertical limiting rod in a sliding mode, a second toothed plate meshed with the second synchronous belt is connected onto the second lifting support, the second synchronous belt is driven to rotate by a second lifting motor, and the second lifting support is driven to move up and down when the second synchronous belt rotates, so that the paper separating support is driven to move up and down;

the second translation assembly comprises a second horizontal limiting rod and a second translation cylinder, a second limiting sleeve horizontally arranged is fixed on the second lifting support, the second translation cylinder is fixedly connected with the second limiting sleeve, the second horizontal limiting rod is fixed on the paper separating support and is in sliding connection with the second limiting sleeve, and the telescopic end of the second translation cylinder is connected with the paper separating support; the second translation cylinder pushes the paper separation support to move horizontally relative to the second limiting sleeve;

the front end and the rear end of the paper separating support are respectively and symmetrically provided with a group of deflection assemblies, a group of lifting assemblies and a group of translation assemblies.

8. The paper folder for automatically splicing toilet paper according to claim 1, wherein: and a counting device is arranged in the paper folding mechanism and used for counting the number of the long-strip paper falling from the paper folding mechanism.

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