CN115285771B - Circulating folding equipment for manufacturing makeup removing wet tissues and folding method thereof - Google Patents

Abstract

The invention discloses circulating folding equipment for manufacturing makeup removing wet tissues and a folding method thereof, belonging to the technical field of wet tissue manufacturing, and comprising a first material conveying roll, a second material conveying roll, a cutting mechanism, a clamping mechanism, a folding mechanism and an external fixing mechanism, wherein the cutting mechanism is used for cutting the discharge materials of the first material conveying roll and the second material conveying roll in a staggered manner, the folding mechanism vertically folds the cut discharge materials of the first material conveying roll and the second material conveying roll, and the clamping mechanism clamps the wet tissues to be cut and folded into a stack; according to the invention, in the process of cutting, overlapping and folding the wet tissues, the positions of the wet tissues are controlled in a mechanical clamping mode, so that the positions of the wet tissues made of non-woven fabrics can be accurately controlled in the processing process, further, a coherent folding process is completed, the wet tissues are further processed into finished products, the complete extractable wet tissues can be obtained, and the processing process is more stable and efficient.

Description

Circulating folding equipment for manufacturing makeup removing wet tissues and folding method thereof

Technical Field

The invention relates to the technical field of wet towel manufacturing, in particular to circulating folding equipment for manufacturing a makeup removing wet towel and a folding method thereof.

Background

In the process of folding and manufacturing traditional wet tissues (wet tissues capable of being continuously extracted), as the wet tissues are relatively large in holes compared with sanitary tissues, when the vacuum adsorption mode of tissue is adopted for folding, the wet tissues are not easy to adsorb on a folding roller, when the tissue folding process is forcedly used, the wet tissues are easy to fall off from the folding roller, and even if the wet tissues can be processed, the working load of a vacuum machine is greatly increased, and the production cost is increased, so that a plurality of tissues are simultaneously fed in the prior art and then enter the same driving roller, in the process of entering the driving roller, the non-woven fabrics on each tissue are mutually folded to obtain independent folding blocks, and each folding block is accumulated into a complete wet tissue collecting block.

The mode firstly increases the quantity of the bobbin paper, so that the space occupation of the equipment is larger, the corresponding material conveying mechanism is increased, the machine adjusting difficulty and the machine adjusting workload are increased due to the increase of the material feeding sources, and secondly, the wet tissue collecting block is composed of a plurality of independent folding blocks, so that after a user finishes extracting the wet tissue in one folding block in the use process, the first wet tissue in the next folding block needs to be taken out again in the packaging bag, the wet tissue can be changed into a product which can be used continuously again, the continuity of the use process is reduced, and the use experience of the user is reduced.

Based on the above, the invention designs a circulating folding device for manufacturing the makeup removing wet tissues and a folding method thereof, so as to solve the problems.

Disclosure of Invention

The invention aims to provide circulating folding equipment for manufacturing makeup removing wet tissues and a folding method thereof, which are used for solving the problems that in the background technology, firstly, the quantity of bobbin paper is increased, the space occupation of the equipment is larger, and due to the fact that a material feeding source is increased, a corresponding material conveying mechanism is increased, the difficulty in regulating a machine and the workload of regulating the machine are increased, and secondly, because a wet tissue collecting block consists of a plurality of independent folding blocks, a user needs to take out a first wet tissue in a next folding block in a packaging bag again after drawing the wet tissue in one folding block, the wet tissue can be changed into a product which can be used continuously again, the continuity of the use process is reduced, and the use experience of the user is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a make-up removal wet tissue makes and uses circulation folding equipment, includes first defeated material book, second defeated material book, blank mechanism, fixture, folding mechanism and external fixed establishment, first defeated material book and second defeated material book up-and-down symmetry sets up, blank mechanism sets up on first defeated material book and second defeated material book right side, folding mechanism sets up on blank mechanism right side, fixture sets up on blank mechanism right side, blank mechanism is used for the ejection of compact of crisscross cutting first defeated material book and second defeated material book, folding mechanism overlaps the ejection of compact of first defeated material book and second defeated material book after will cutting from top to bottom, fixture is used for the wet tissue after the centre gripping coincide and folds into the buttress, first defeated material book, second defeated material book, blank mechanism, fixture and folding mechanism all set up on fixed establishment.

As a further scheme of the invention, the blanking mechanism comprises a partition plate, the upper side and the lower side of the partition plate are respectively provided with a first transfer belt, a plurality of cutter mechanisms which are equidistant along the track of the first transfer belt are arranged on the first transfer belt, and the positions of the upper cutter mechanism and the lower cutter mechanism relative to the first transfer belt are staggered.

As a further scheme of the invention, the cutter mechanism comprises a mounting seat, the mounting seat is longitudinally and slidably connected with the belt surface of the first transfer belt, the mounting seat is elastically and slidably connected with a cutter, the mounting seat is externally connected with a driving mechanism, and the driving mechanism can drive the mounting seat to longitudinally reciprocate after the cutter is extruded.

As a further scheme of the invention, the clamping mechanism consists of two symmetrically arranged half clamping mechanisms, each half clamping mechanism comprises a plurality of first concave blocks, a matched first convex block is arranged below each first concave block, a plurality of second convex blocks are arranged between each first concave block at intervals, each second concave block is arranged below each second convex block, each first concave block and each second convex block side wall are fixedly connected with a first connecting block, each first connecting block is fixedly connected with a first sliding rod at the upper end, each first sliding rod is vertically and slidingly connected with a first sliding block, each first convex block and each second concave block side wall are fixedly connected with a second connecting block, each second connecting block is vertically and slidingly connected with a second sliding rod, each second sliding rod is fixedly connected with a second sliding block, each first sliding block and each second sliding block side wall are fixedly connected with a first wedge block with a wedge face downwards, each second sliding block is fixedly connected with a first sliding block with a second wedge face upwards, each second sliding block is horizontally connected with a second sliding rail, each second sliding block is horizontally connected with a first sliding rail with a second sliding rail, each second sliding rail is horizontally connected with a second sliding rail, and each second sliding rail is horizontally connected with a second sliding rail with a sliding rail, and each second sliding rail is horizontally connected with a sliding rail; the side surfaces of the first sliding block and the second sliding block are provided with driving mechanisms, the driving mechanisms control the connecting rods to circularly move, and the driving mechanisms can enable the first concave block and the first convex block or the second convex block and the second concave block beside the baffle to be separated from the wet tissues.

As a further scheme of the invention, two second transfer belts which are arranged up and down symmetrically are arranged on the superposition mechanism, and a clearance groove is formed on the second transfer belts and is used for placing the first concave block, the first convex block, the second convex block and the second concave block.

As a further scheme of the invention, the driving mechanism comprises a third transfer belt which is vertically symmetrically arranged, a plurality of driving telescopic rods are arranged on the side wall of the third transfer belt at equal intervals along the track of the third transfer belt, the driving telescopic rods are elastically and slidably connected with the side wall of the third transfer belt, a clamp for clamping a connecting rod is fixedly connected with the end part of each driving telescopic rod, and a numerical control mechanism is externally connected with the driving mechanism and is used for controlling the stretching of the driving telescopic rods and the clamping of the clamp.

As a further scheme of the invention, the first transfer belt, the second transfer belt and the third transfer belt all move at the same speed through an externally connected transmission mechanism.

A cyclic folding method for manufacturing makeup removing wet tissues comprises the following steps:

s1, when the wet tissue cutting machine works, a first material conveying roll and a second material conveying roll are respectively conveyed into a material cutting mechanism from the upper position and the lower position, and a piece of wet tissue of Zhang Duli is obtained through cutting by the material cutting mechanism;

s2, overlapping the wet tissues obtained by cutting the first material conveying roll and the second material conveying roll up and down through an overlapping mechanism;

s3, respectively clamping the cutting positions in the overlapped wet tissues through a clamping mechanism, and folding to obtain the wet tissues which can be continuously extracted.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, in the process of cutting, overlapping and folding the wet tissues, the positions of the wet tissues are controlled in a mechanical clamping mode, so that the positions of the wet tissues made of non-woven fabrics can be accurately controlled in the processing process, further, a coherent folding process is completed, the wet tissues are further processed into finished products, the complete extractable wet tissues can be obtained, and the processing process is more stable and efficient.

2. According to the invention, wet tissues are simultaneously conveyed to the upper end and the lower end of the partition plate through the first material conveying roll and the second material conveying roll, and cut is carried out through the cutter mechanism on the first transfer belt, so that the wet tissues obtained by cutting the first material conveying roll and the second material conveying roll are relatively fixed in cut position, the staggered positions of the wet tissues of the upper layer and the lower layer are more stable, and the subsequent folding process is facilitated.

3. Through the elastic connection of the cutter and the driving of the driving mechanism, the traditional mode of directly cutting wet tissues through strong extrusion is changed into a sawing mode, the mode firstly improves the stability of cutting the wet tissues, and secondly, the cutter is not easy to receive strong extrusion force in the cutting process due to the elastic connection of the cutter, so that the cutter edge is protected.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the present invention with the feed rolls and cutting mechanism removed;

FIG. 3 is an enlarged schematic view of the structure shown in FIG. 2A;

FIG. 4 is an enlarged schematic view of the structure shown at B in FIG. 2;

FIG. 5 is an enlarged schematic view of the structure at C in FIG. 2;

FIG. 6 is a schematic front cross-sectional view of FIG. 2;

FIG. 7 is a schematic side cross-sectional view of FIG. 2;

FIG. 8 is an enlarged schematic view of the structure shown at D in FIG. 7;

FIG. 9 is a schematic diagram of the process flow of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

first feed roll 11, second feed roll 12, separator 21, first transfer belt 22, mount 31, cutter 32, first concave block 41, first convex block 42, second convex block 43, second concave block 44, first connecting block 45, first slide bar 46, first slide block 47, second connecting block 48, second slide bar 49, second slide block 410, connecting bar 411, first wedge block 412, second wedge block 413, first slide rail 414, second slide rail 415, baffle 416, second transfer belt 51, clearance groove 52, third transfer belt 61, drive telescoping bar 62, clamp 63.

Detailed Description

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a make-up removal wet tissue makes and uses circulation folding equipment, includes first defeated material book 11, second defeated material book 12, blank mechanism, fixture, folding mechanism and external fixed establishment, first defeated material book 11 and second defeated material book 12 bilateral symmetry sets up, blank mechanism sets up on first defeated material book 11 and second defeated material book 12 right side, folding mechanism sets up on blank mechanism right side, fixture sets up on blank mechanism right side, blank mechanism is used for crisscross ejection of compact of cutting first defeated material book 11 and second defeated material book 12, folding mechanism overlaps the ejection of compact of first defeated material book 11 and second defeated material book 12 after cutting from top to bottom, fixture is used for the wet tissue after the centre gripping coincide and folds into the buttress, first defeated material book 11, second defeated material book 12, blank mechanism, fixture and folding mechanism all set up on fixed establishment.

During operation, the first material conveying roll 11 and the second material conveying roll 12 are respectively conveyed into the material cutting mechanism from the upper position and the lower position, a piece of Zhang Duli wet tissues is obtained through cutting by the material cutting mechanism, the cutting positions of the wet tissues obtained through cutting by the first material conveying roll 11 and the second material conveying roll 12 are all positioned at the middle position of the wet tissues of the other material conveying roll, then the wet tissues obtained through cutting by the first material conveying roll 11 and the second material conveying roll 12 jointly enter the overlapping mechanism, the wet tissues obtained through cutting by the first material conveying roll 11 and the second material conveying roll 12 are overlapped up and down through the overlapping mechanism, then the cutting positions in the overlapped wet tissues are respectively clamped through the clamping mechanism, and the wet tissues are folded, so that the wet tissues which can be continuously extracted are obtained.

According to the invention, in the process of cutting, overlapping and folding the wet tissues, the positions of the wet tissues are controlled in a mechanical clamping mode, so that the positions of the wet tissues made of non-woven fabrics can be accurately controlled in the processing process, further, a coherent folding process is completed, the wet tissues are further processed into finished products, the complete extractable wet tissues can be obtained, and the processing process is more stable and efficient.

As a further scheme of the invention, the blanking mechanism comprises a partition plate 21, the upper side and the lower side of the partition plate 21 are respectively provided with a first transfer belt 22, a plurality of cutter mechanisms which are equidistant along the track of the first transfer belt 22 are arranged on the first transfer belt 22, and the positions of the upper cutter mechanism and the lower cutter mechanism relative to the first transfer belt 22 are staggered.

During operation, the output materials of the first material conveying roll 11 and the second material conveying roll 12 are respectively conveyed rightward by the corresponding first conveying belt 22 through the upper end and the lower end of the partition plate 21, and wet tissues where the cutter mechanism is located in the conveying process are cut off by the cutter mechanism, so that the wet tissues are cut.

According to the invention, wet tissues are simultaneously conveyed to the upper end and the lower end of the partition plate 21 through the first conveying roll 11 and the second conveying roll 12, and cut is carried out through the cutter mechanism on the first transfer belt 22, so that the wet tissues obtained by cutting the first conveying roll 11 and the second conveying roll 12 are relatively fixed in cut position, the staggered positions of the wet tissues of the upper layer and the lower layer are more stable, and the subsequent folding process is facilitated.

As a further scheme of the invention, the cutter mechanism comprises a mounting seat 31, the mounting seat 31 is longitudinally and slidably connected with the belt surface of the first transfer belt 22, the mounting seat 31 is elastically and slidably connected with a cutter 32, the mounting seat 31 is externally connected with a driving mechanism, and the driving mechanism can drive the mounting seat 31 to longitudinally reciprocate after the cutter 32 is extruded.

When the wet tissue cutting machine works, the cutter mechanism moves to the end face of the partition plate 21 along with the belt surface of the first transfer belt 22, the cutter 32 is extruded by the end face of the partition plate 21 and retracts into the mounting seat 31, the cutter 32 always keeps extrusion of the end face of the partition plate 21 under the action of the elastic piece, and the driving mechanism drives the mounting seat 31 to longitudinally reciprocate after the cutter 32 is extruded, so that the wet tissue is cut.

The traditional wet tissue cutting mode through strong extrusion is changed into a sawing mode through the elastic connection of the cutter 32 and the driving of the driving mechanism, so that the stability of cutting the wet tissue is improved firstly, and secondly, the cutter 32 is not easy to be subjected to strong extrusion force in the cutting process due to the elastic connection of the cutter 32, so that the cutter edge of the cutter 32 is protected.

As a further scheme of the invention, the clamping mechanism is composed of two symmetrically arranged half clamping mechanisms, each half clamping mechanism comprises a plurality of first concave blocks 41, a matched first convex block 42 is arranged below each first concave block 41, a second convex block 43 is arranged between each first concave block 41 at intervals, a second concave block 44 is arranged below each second convex block 43, first connecting blocks 45 are fixedly connected to the side walls of each first concave block 41 and each second convex block 43, a first sliding rod 46 is fixedly connected to the upper end of each first connecting block 45, a first sliding block 47 is vertically and slidably connected to each first sliding rod 46, a second connecting block 48 is fixedly connected to the side walls of each first concave block 42 and each second concave block 44, a second sliding rod 49 is vertically and slidably connected to each second connecting block 48, the upper end of the second sliding rod 49 is fixedly connected with a second sliding block 410, the side walls of the first sliding block 47 and the second sliding block 410 are fixedly connected with a connecting rod 411, the side walls of the first connecting block 45 are fixedly connected with a first wedge block 412 with a downward wedge surface, the side walls of the second connecting block 48 are fixedly connected with a second wedge block 413 with an upward wedge surface, the side surfaces of the first concave block 41 and the first convex block 42 are respectively provided with a first sliding rail 414, the side walls of the first sliding rail 414 are fixedly connected with a second sliding rail 415, the open ends of the first sliding rail 414 and the second sliding rail 415 are overlapped, the upper end and the lower end of the first sliding rail 414 are respectively provided with a chamfer, the first sliding rail 414 horizontally extends, the second sliding rail 415 obliquely extends downwards and then horizontally extends, the rightmost sides of the first concave block 41 and the second convex block 43 are respectively provided with a baffle 416, and the baffle 416 and the fixing mechanism are transversely elastically and slidably connected; the first slider 47 and the second slider 410 are provided with a driving mechanism on the side surface, and the driving mechanism controls the connecting rod 411 to perform a cyclic motion, and the driving mechanism can separate the first concave block 41 and the first convex block 42 or the second convex block 43 and the second concave block 44 beside the baffle 416 from the wet towel.

When the wet tissue cutting machine works, the driving mechanism drives the first concave block 41 and the second convex block 43 and the first convex block 42 and the second concave block 44 to circularly rotate, so that the first concave block 41, the first convex block 42, the second convex block 43 and the second concave block 44 are close to the cutting position of the wet tissue at the leftmost side to be clamped, separated at the rightmost side and circularly moved to the leftmost side through the driving mechanism; in this process, the first concave block 41 and the first convex block 42 (or the second convex block 43 and the second concave block 44) clamp the wet tissues and then pass through the ends of the first sliding rail 414 and the second sliding rail 415, and the first wedge-shaped block 412 on the side wall of the first concave block 41 and the first convex block 42 (or the second convex block 43 and the second concave block 44) is wedged downwards (the wedge-shaped wedge-up of the second wedge-shaped block 413) so that the ends of the first sliding rail 414 and the second sliding rail 415 generate upward (downward) extrusion force on the first concave block 41 and the first convex block 42 (or the second convex block 43 and the second concave block 44), the first concave block 41 and the first convex block 42 (or the second convex block 43 and the second concave block 44) are further horizontally moved (downward) along the first sliding rail 414, and then the first concave block 41 and the first convex block 42 and the second convex block 43 are respectively positioned at the upper and lower positions, so that adjacent wet cutting positions are staggered at the upper and lower sides, and then the second concave block 41 and the second concave block 44 are driven to move to the left side of the second concave block 416 and the second concave block 44 to be separated from the first concave block 41 and the second concave block 44 when the second concave block 43 and the second concave block 44 are driven to the second concave block 416 and the second concave block 416 are driven to move to the first and the second concave block 416, and the second concave block is separated from the first block and the second concave block 43 to the second concave block 43.

According to the invention, the wet tissues are folded by clamping the concave blocks and the convex blocks, so that the wet tissues are always supported and controlled in the folding process, the stability of the folding process is greatly improved, unexpected movement of the wet tissues in the folding process is avoided, and the final quality of the wet tissues is greatly improved.

As a further scheme of the invention, the folding mechanism comprises two vertically symmetrically arranged second transfer belts 51, the second transfer belts 51 are provided with a clearance groove 52, and the clearance groove 52 is used for placing the first concave block 41, the first convex block 42, the second convex block 43 and the second concave block 44.

During operation, the sheared wet tissues are transported between the upper second transporting belt 51 and the lower second transporting belt 51, the wet tissues are clamped and transported through the second transporting belt 51, meanwhile, the first concave block 41, the first convex block 42, the second convex block 43 and the second concave block 44 enter from the left end of the second transporting belt 51 through the driving mechanism and are embedded into the clearance groove 52, and then the wet tissues are gathered between the two second transporting belts 51 and clamped.

Through this kind of mode, make wet piece of cloth in the in-process of being held, have two upper and lower second to transport area 51 and carry out spacingly to wet piece of cloth to guarantee the degree of accuracy of concave piece and convex piece to wet piece of cloth centre gripping, prevent to add the in-process of holding, wet piece of cloth aversion leads to follow-up process to appear badly.

As a further scheme of the invention, the driving mechanism comprises a third transferring belt 61 which is vertically symmetrically arranged, a plurality of driving telescopic rods 62 are equidistantly arranged on the side wall of the third transferring belt 61 along the track of the third transferring belt 61, the driving telescopic rods 62 are elastically and slidingly connected with the side wall of the third transferring belt 61, a clamp 63 for clamping the connecting rod 411 is fixedly connected with the end part of each driving telescopic rod 62, and a numerical control mechanism is externally connected with the driving mechanism and used for controlling the stretching of the driving telescopic rods 62 and the clamping of the clamp 63.

During operation, the numerical control mechanism controls the clamp 63 to clamp the connecting rod 411 at the tail end positions of the first slide rail 414 and the second slide rail 415, the connecting rod 411 is loosened at the tail end positions of the first slide rail 414 and the second slide rail 415, the driving mechanism drives the concave block and the convex block to clamp the wet tissues and then enter the first slide rail 414 and the second slide rail 415, the clamp 63 loosens the concave block and the convex block, the subsequent concave block and the subsequent convex block enter the first slide rail 414 and the second slide rail 415 and then press the connecting rod 411 to the right, the numerical control mechanism controls the driving telescopic rod 62 to shrink after the tail end positions of the first slide rail 414 and the second slide rail 415, so that the concave block and the convex block are separated by the baffle 416, the concave block and the convex block cannot continue to move right along with the third transfer belt 61 and move left relative to the third transfer belt 61, and when the concave block and the convex block are completely separated by the wet tissues, the concave block and the convex block are staggered with the baffle 416, the concave block and the convex block reset under the action of the elastic piece and move circularly to the left end along with the third transfer belt 61.

As a further aspect of the present invention, the first transfer belt 22, the second transfer belt 51 and the third transfer belt 61 all move at the same speed through an external transmission mechanism.

A cyclic folding method for manufacturing makeup removing wet tissues comprises the following steps:

s1, during working, the first material conveying roll 11 and the second material conveying roll 12 are respectively conveyed into a material cutting mechanism from the upper position and the lower position, and a piece of Zhang Duli wet tissues is obtained through cutting by the material cutting mechanism;

s2, overlapping the wet tissues obtained by cutting the first material conveying roll 11 and the second material conveying roll 12 up and down through an overlapping mechanism;

s3, respectively clamping the cutting positions in the overlapped wet tissues through a clamping mechanism, and folding to obtain the wet tissues which can be continuously extracted.

Claims (5)

1. The utility model provides a make up removal wet piece of cloth makes with circulation folding equipment which characterized in that: the wet tissue folding machine comprises a first material conveying roll (11), a second material conveying roll (12), a cutting mechanism, a clamping mechanism, a folding mechanism and an external fixing mechanism, wherein the first material conveying roll (11) and the second material conveying roll (12) are arranged symmetrically up and down, the cutting mechanism is arranged on the right sides of the first material conveying roll (11) and the second material conveying roll (12), the folding mechanism is arranged on the right side of the cutting mechanism, the clamping mechanism is arranged on the right side of the cutting mechanism, the cutting mechanism is used for cutting the materials of the first material conveying roll (11) and the second material conveying roll (12) in a staggered manner, the folding mechanism folds the cut materials of the first material conveying roll (11) and the cut materials of the second material conveying roll (12) up and down, the clamping mechanism is used for clamping the cut wet tissue and folds the cut materials into a stack, and the first material conveying roll (11), the second material conveying roll (12), the cutting mechanism, the clamping mechanism and the folding mechanism are all arranged on the fixing mechanism;

the material cutting mechanism comprises a partition plate (21), wherein first transfer belts (22) are arranged on the upper side and the lower side of the partition plate (21), a plurality of cutter mechanisms which are equidistant along the track of the first transfer belts (22) are arranged on the first transfer belts (22), and the positions of the upper cutter mechanism and the lower cutter mechanism relative to the first transfer belts (22) are staggered;

the cutter mechanism comprises a mounting seat (31), the mounting seat (31) is longitudinally and slidably connected with a belt surface of the first transfer belt (22), the mounting seat (31) is elastically and slidably connected with a cutter (32), the mounting seat (31) is externally connected with a driving mechanism, and the driving mechanism can drive the mounting seat (31) to longitudinally reciprocate after the cutter (32) is extruded;

the clamping mechanism consists of two symmetrically arranged semi-clamping mechanisms, each semi-clamping mechanism comprises a plurality of first concave blocks (41), a plurality of matched first convex blocks (42) are arranged below each first concave block (41), second convex blocks (43) are arranged between each first concave block (41) at intervals, second concave blocks (44) are arranged below each second convex block (43), first connecting blocks (45) are fixedly connected to the side walls of each first concave block (41) and each second convex block (43), first sliding rods (46) are fixedly connected to the upper ends of the first connecting blocks (45), first sliding rods (46) are vertically and slidably connected with first sliding blocks (47), second connecting blocks (48) are fixedly connected to the side walls of each first convex block (42) and each second concave block (44), second sliding rods (49) are vertically and slidably connected with second sliding blocks (49), second sliding blocks (410) are fixedly connected to the upper ends of the second connecting blocks (49), wedge-shaped connecting blocks (410) are fixedly connected to the upper sides of the first sliding rods (45), wedge-shaped connecting blocks (411) are fixedly connected to the lower sides of the first sliding blocks (45), the side faces of the first concave block (41) and the first convex block (42) are respectively provided with a first sliding rail (414), the side walls of the first sliding rails (414) are respectively fixedly connected with a second sliding rail (415), the open ends of the first sliding rails (414) and the second sliding rails (415) are overlapped, the upper ends and the lower ends of the first sliding rails (415) are respectively provided with a chamfer angle, the first sliding rails (414) horizontally extend, the second sliding rails (415) obliquely downwards extend and then horizontally extend, a plurality of baffle plates (416) are arranged on the rightmost sides of the first concave block (41) and the second convex block (43), and the baffle plates (416) are transversely elastically and slidably connected with a fixing mechanism; the side surfaces of the first sliding block (47) and the second sliding block (410) are provided with driving mechanisms, the driving mechanisms control the connecting rod (411) to circularly move, and the driving mechanisms can enable the first concave block (41) and the first convex block (42) or the second convex block (43) and the second concave block (44) beside the baffle plate (416) to be separated from the wet tissues.

2. The cyclic folding device for manufacturing makeup removing wet tissues according to claim 1, characterized in that: the folding mechanism is characterized in that two second transfer belts (51) are arranged up and down symmetrically, a clearance groove (52) is formed in each second transfer belt (51), and the clearance groove (52) is used for placing a first concave block (41), a first convex block (42), a second convex block (43) and a second concave block (44).

3. The cyclic folding device for manufacturing makeup removing wet tissues according to claim 2, characterized in that: the driving mechanism comprises a third transferring belt (61) which is vertically symmetrically arranged, a plurality of driving telescopic rods (62) are arranged on the side wall of the third transferring belt (61) along the track equidistance of the third transferring belt (61), the driving telescopic rods (62) are elastically and slidably connected with the side wall of the third transferring belt (61), a clamp (63) used for clamping the connecting rod (411) is fixedly connected with the end part of each driving telescopic rod (62), and the driving mechanism is externally connected with a numerical control mechanism which is used for controlling the telescopic operation of the driving telescopic rods (62) and the clamping of the clamp (63).

4. A cyclically folding device for the manufacture of make-up removing wet tissues according to claim 3, characterized in that: the first transfer belt (22), the second transfer belt (51) and the third transfer belt (61) all move at the same speed through an externally connected transmission mechanism.

5. A cyclic folding method for manufacturing a makeup removing wet wipe, which is applicable to the cyclic folding device for manufacturing a makeup removing wet wipe as set forth in claim 4, and is characterized in that; the method comprises the following steps:

s1, during operation, a first material conveying roll (11) and a second material conveying roll (12) are respectively conveyed into a material cutting mechanism from the upper position and the lower position, and a piece of Zhang Duli wet tissues is obtained through cutting by the material cutting mechanism;

s2, overlapping the wet tissues obtained by cutting the first material conveying roll (11) and the second material conveying roll (12) up and down through an overlapping mechanism;

s3, respectively clamping the cutting positions in the overlapped wet tissues through a clamping mechanism, and folding to obtain the wet tissue stack capable of being continuously extracted.

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