CN116461154B

CN116461154B - Device for strengthening force line between corrugated paper and facial tissue

Info

Publication number: CN116461154B
Application number: CN202310392979.0A
Authority: CN
Inventors: 金石
Original assignee: Huai'an Jinfulong Packaging Co ltd
Current assignee: Huai'an Jinfulong Packaging Co ltd
Priority date: 2023-04-13
Filing date: 2023-04-13
Publication date: 2023-11-03
Anticipated expiration: 2043-04-13
Also published as: CN116461154A

Abstract

The invention relates to the technical field of corrugated paper processing, and discloses a device for reinforcing a force line between corrugated paper and facial tissue, which comprises a base, a base and a base, wherein the base is used for providing a bottom surface contact support of integral equipment; the conveying belt is used for conveying corrugated boards; the winding mechanism is used for controlling the strong line to be laid between the corrugated paper and the facial tissue; the alignment mechanism is used for controlling the alignment of the corrugated boards in the middle of the corrugated boards; and the cover plate mechanism is used for paving the facial tissues on the corrugated paper. This a device of strengthening power line in middle of corrugated paper and facial tissue can wind the contact surface between corrugated paper and facial tissue through the wire winding mechanism that sets up and be equipped with the power line, so whole corrugated paper can play certain effect of pulling at crooked twisted in-process to improve the anti-tearing effect of whole corrugated paper, and set up the power line, when carrying out external force effect, can be very big atress and resistance to external force, avoid the whole deformation rate of carton to improve the intensity of carton.

Description

Device for strengthening force line between corrugated paper and facial tissue

Technical Field

The invention relates to the technical field of corrugated paper processing, in particular to a device for reinforcing a force line between corrugated paper and facial tissue.

Background

The corrugated case is an ideal packaging container, has the characteristics of portability, firmness, vibration reduction and suitability for mechanized production, and has been used for transportation packaging and sales packaging for many years. Corrugated cartons gain market for their elegant appearance and inherently good quality. It not only protects commodity, is convenient for storage, transportation, but also plays the role of beautifying commodity and propaganda commodity. Especially under the condition that all countries in the world very much consider environmental protection at present, the corrugated case has the advantage of recycling, and it does benefit to the environmental protection, does benefit to loading and unloading transportation, does benefit to the corrugated paper such as saving timber and is used for various packing mostly, and the corrugated paper that is used for making the packing box mainly comprises corrugated paper core, facial tissue and lining paper, and the corrugated paper that is used in the market generally sets up 2 layers or 3 layers, separates with the core paper in the middle, forms the 5 plywood or the 7 plywood that people said after connecting through the gluing. However, the existing corrugated paper structure is unreasonable, and when the existing corrugated paper is used for packaging heavy objects, the problem that the carton is easy to deform and damage after being stressed is often caused by insufficient structural strength, so that a device for reinforcing the force lines between the corrugated paper and the facial tissue is provided to solve the problem.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a device for reinforcing a force line between corrugated paper and facial tissue, which solves the problem that the paper box with a traditional structure is easy to damage due to insufficient structural strength in the using process of the corrugated paper with the traditional structure in the prior art.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: an apparatus for reinforcing a force line between corrugated paper and facial tissue includes a base for providing a bottom contact support for an integral device; the conveying belt is used for conveying corrugated boards; the winding mechanism is used for controlling the strong line to be laid between the corrugated paper and the facial tissue; the alignment mechanism is used for controlling the alignment of the corrugated boards in the middle of the corrugated boards; and the cover plate mechanism is used for paving the facial tissues on the corrugated paper.

Preferably, the winding mechanism comprises a wire inlet mechanism and a wire laying mechanism, the wire inlet mechanism comprises a driving motor, the output end of the driving motor is fixedly connected with a rolling shaft, one end of the rolling shaft is connected with a belt pulley I, the surface of the belt pulley I is connected with a belt pulley II through belt transmission, a screw shaft is fixedly connected to the belt pulley II, and a wire guide seat is arranged on the screw shaft.

Preferably, the surface of the roller is connected with a rolling frame, a strong line is wound on the rolling frame, the strong line is pulled to the upper surface of corrugated paper through a lead seat, a limit frame is connected to the lead seat in a sliding manner, and the limit frame is arranged on the base.

Preferably, the lead wire seat is including the lantern ring, one side rotation of lantern ring is connected with the line wheel, the last wire casing of having seted up of line wheel, install the link on the lantern ring, it is connected with two line wheels to rotate on the link, the surface of lantern ring is connected with the stopper through the axostylus axostyle, the spacing inslot has been seted up to the stopper sliding connection in the spacing inslot, the helicla flute has been seted up on the surface of screw axis, the lantern ring internal connection has the sliding pin, sliding pin sliding connection is on the helicla flute.

Preferably, the wire laying mechanism comprises a swinging frame, the bottom of swinging frame is rotationally connected on the base, the top of swinging frame is rotationally connected with a connecting rod II, one end of connecting rod II is rotationally connected with a connecting rod I, the middle part of connecting rod I is rotationally on the mount, there is a support connecting rod through axostylus axostyle sliding connection in the swinging frame, the one end of support connecting rod is connected with the movable frame, the bottom of movable frame is rotationally connected on the base, it is connected with promotion ratchet card and check card to rotate on the movable frame, be provided with the ratchet on promotion ratchet card and the check card, one side of swinging frame is connected with extension spring, extension spring's one end is connected on the mount.

Preferably, the axle center department fixedly connected with conveying axle of ratchet, conveying axle's surface passes through the conveyer belt and is connected with the driving roller transmission, be connected with the square on the support connecting rod, square sliding connection is on the movable frame, threaded connection has the lock bolt on the square.

Preferably, the alignment mechanism comprises a rotating plate, two supporting rods are rotatably connected to the bottom of the rotating plate, one ends of the supporting rods are movably connected with a connecting rod through a shaft rod, pushing rods are connected to the supporting rods, clamping plates are contacted with the surfaces of the pushing rods, sliding connecting rods are connected to the clamping plates, contraction springs are sleeved on the surfaces of the sliding connecting rods, the surfaces of the sliding connecting rods are slidably connected to a fixing frame, and the contraction springs are located between the clamping plates and the fixing frame.

Preferably, the cover plate mechanism comprises a box body, a plurality of facial tissues are placed in the box body, a box frame is arranged on one side of the box body, an open slot is formed in the bottom of the box body, a supporting frame is connected to the bottom of the box body in a sliding mode, a contact piece is connected to the supporting frame in a sliding mode, a movable spring is connected to the contact piece, and the top of the movable spring is connected to the supporting frame.

Preferably, the right side of support frame is connected with the end piece, one side of contact piece is connected with reset spring, reset spring's one end is connected with the locating plate, the locating plate is installed in the side of box.

(III) beneficial effects

Compared with the prior art, the invention provides a device for reinforcing the force lines between corrugated paper and facial tissue, which has the following beneficial effects:

1. this a device of strengthening power line in middle of corrugated paper and facial tissue can be around being equipped with the power line at the contact surface between corrugated paper and facial tissue through the wire winding mechanism that sets up for facial tissue and corrugated paper utilize the power line to alternate in the middle of the bonding process and attach, so whole corrugated paper is crooked in the in-process of twisting, the power line can play certain pulling effect, thereby improve the tearing-proof effect of whole corrugated paper, and set up the power line, when carrying out the external force effect, can be very big carry out atress and resistance to the external force, avoid the whole deformation rate of carton to improve the intensity of carton

2. According to the device for reinforcing the force lines in the middle of the corrugated paper and the facial tissues, the set wire laying mechanism can be used for carrying out strong wire arrangement at different intervals in comparison with different types of corrugated paper boards, so that the strength of the paper box is ensured, and meanwhile, excessive consumption of the strong force lines is avoided.

3. This a device of strengthening power line in middle of corrugated paper and facial tissue can realize evenly spreading the line under corrugated container board's length through the hob that sets up, guarantees the even degree of spreading the line and can maximize the holistic tensile degree of consistency of improvement carton, improves holistic carton structural strength.

Drawings

FIG. 1 is a schematic view of the overall structure of a device for reinforcing the force lines between corrugated paper and facial tissue according to the present invention;

FIG. 2 is a schematic view of a line feeding mechanism of a device for reinforcing lines of force between corrugated paper and facial tissue according to the present invention;

FIG. 3 is a schematic view of a wire holder of a device for reinforcing a force line between corrugated paper and facial tissue according to the present invention;

FIG. 4 is a schematic view of a line laying mechanism of a device for reinforcing lines of force between corrugated paper and facial tissue according to the present invention;

FIG. 5 is a schematic view of an alignment mechanism of a device for reinforcing the force lines between corrugated paper and facial tissue in accordance with the present invention;

FIG. 6 is a schematic diagram of a cover mechanism of an apparatus for reinforcing the force lines between corrugated paper and facial tissue according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6A;

fig. 8 is a schematic view of a strong line laying path of a device for reinforcing the line of force between corrugated paper and facial tissue according to the present invention.

In the figure: 1. a base; 2. a conveyor belt; 3. a wire inlet mechanism; 301. a driving motor; 302. a rolling frame; 303. a roller; 304. a first belt pulley; 305. a belt pulley II; 306. a screw shaft; 307. a limiting frame; 308. a limit groove; 309. a lead holder; 3091. a collar; 3092. a thread rolling wheel; 3093. a limiting block; 3094. a connecting frame; 3095. a wire wheel; 310. a spiral groove; 311. a sliding pin; 4. a wire laying mechanism; 401. a first connecting rod; 402. a second connecting rod; 403. a swing frame; 404. a tension spring; 405. a support link; 406. a movable frame; 407. pushing the ratchet card; 408. a locking bolt; 409. a square block; 410. a check card; 411. a ratchet wheel; 412. a conveying shaft; 413. a fixing frame; 414. a driving roller; 5. an alignment mechanism; 501. a rotating plate; 502. a support rod; 503. a push rod; 504. a sliding connecting rod; 505. a clamping plate; 506. a retraction spring; 6. a cover plate mechanism; 601. a case; 602. an open slot; 603. a positioning plate; 604. a return spring; 605. a support frame; 606. a box frame; 607. a contact piece; 608. a movable spring; 609. stopping pressing the tablet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, an apparatus for reinforcing a force line between corrugated paper and facial tissue, referring to fig. 1, includes a base 1 for providing a bottom contact support for an overall device; the whole equipment can be placed on the bottom surface or on a rack, and is arranged according to actual application scenes, and the conveyor belt 2 is used for conveying corrugated boards; the main function of the conveyor belt 2 is to automatically convey the whole corrugated paper, so that the laid corrugated paper board is conveyed to the next process.

In this embodiment, referring to fig. 2-4, a winding mechanism is used to control the strength line to be laid between the corrugated paper and the facial tissue; the winding mechanism comprises a wire inlet mechanism 3 and a wire laying mechanism 4. The wire inlet mechanism 3 comprises a driving motor 301, the output end of the driving motor 301 is fixedly connected with a roller 303, one end of the roller 303 is connected with a first belt pulley 304, the surface of the first belt pulley 304 is connected with a second belt pulley 305 through belt transmission, driving force can be transmitted to a screw shaft 306 in a belt transmission mode, the second belt pulley 305 is fixedly connected with the screw shaft 306, and a wire guide seat 309 is arranged on the screw shaft 306. The wire laying process is achieved by driving the screw shaft 306 to rotate by power generated by rotation of the driving motor 301, and further driving the wire guide seat 309 to repeatedly and transversely move, so that a wire laying process path is formed, the surface of the rolling shaft 303 is connected with the rolling frame 302, a strong force line is wound on the rolling frame 302, the strong force line is pulled to the upper surface of corrugated paper through the wire guide seat 309, the wire guide seat 309 is connected with the limiting frame 307 in a sliding mode, and the limiting frame 307 is arranged on the base 1. Through driving motor 301 rotation, drive the rotation of roller bearing 303, and roller bearing 303 will drive the frame 302 that rolls of its surface to rotate, and then pay off the strong line for the strong line pulls the in-process, can not lead to the fact the condition of pulling to the strong line, improves equipment overall operation smoothness.

Further, referring to fig. 3, the wire holder 309 includes a collar 3091, one side of the collar 3091 is rotatably connected with a wire rolling wheel 3092, a wire groove is formed in the wire rolling wheel 3092, the wire groove is configured to provide traction of a strong wire, a connecting frame 3094 is mounted on the collar 3091, two wire wheels 3095 are rotatably connected to the connecting frame 3094, when the strong wire passes through the two wire wheels 3095, no pulling action is generated on the strong wire no matter what is laid in the left-right direction, smoothness of the strong wire in the laying process is ensured, the surface of the collar 3091 is connected with a limiting block 3093 through a shaft rod, a limiting groove 308 is formed in the limiting frame 307, the limiting block 3093 is slidably connected in the limiting groove 308, a spiral groove 310 is formed in the surface of the spiral shaft 306, a sliding pin 311 is connected in the collar 3091, and the sliding pin 311 is slidably connected to the spiral groove 310. The stopper 3093 slides in the limiting groove 308, so that the entire lead holder 309 can be restricted from moving laterally in the spiral groove 310, and the strong wire can be laid on the corrugated paper step by step according to the lateral movement.

Still further, referring to fig. 4, the line laying mechanism 4 includes a swing frame 403, a bottom of the swing frame 403 is rotatably connected to the base 1, a top of the swing frame 403 is rotatably connected to a second link 402, one end of the second link 402 is rotatably connected to a first link 401, and a middle of the first link 401 is rotatably connected to a fixing frame 413, so that, in consideration of the circularity in each line laying process, pushing of corrugated boards is required to implement S-shaped cyclic laying when the line is laid to the most extreme position, see fig. 8. The swing frame 403 is internally connected with a support connecting rod 405 in a sliding way through a shaft rod, one end of the support connecting rod 405 is connected with a movable frame 406, the bottom of the movable frame 406 is rotationally connected to the base 1, the movable frame 406 is rotationally connected with a pushing ratchet card 407 and a check card 410, and the check card 410 is clamped at the lower right side of the ratchet 411, so that the ratchet 411 can be prevented from rotating when stopping. The ratchet 411 is arranged on the pushing ratchet card 407 and the check card 410, one side of the swinging frame 403 is connected with the extension spring 404, and one end of the extension spring 404 is connected to the fixing frame 413. When the lead seat 309 moves to the limit of the left side or the right side, the lead seat will contact the first connecting rod 401 and squeeze the first connecting rod 401 to drive the first connecting rod 401 to rotate, the first connecting rod 401 rotates to drive the swinging frame 403 to rotate left through the connection of the second connecting rod 402, the swinging frame 403 then drives the movable frame 406 to swing left synchronously through the connection of the supporting connecting rod 405, the ratchet wheel 411 is pushed by the pushing ratchet card 407 on the movable frame 406 to rotate, the ratchet wheel 411 rotates to drive the conveying shaft 412 to rotate so as to drive the conveying belt to convey intermittently, and the conveying progress of each conveying is the distance between each laying wire.

In addition, the axis of the ratchet 411 is fixedly connected with a conveying shaft 412, the surface of the conveying shaft 412 is in transmission connection with a transmission roller 414 through a transmission belt, and a plurality of long strips are arranged on the transmission belt, so that the whole conveying process is not carried out by means of friction force of the transmission belt, but is carried out by pushing through the long strips, so that the conveying slipping process can not occur, a square 409 is connected to a support connecting rod 405, the square 409 is slidably connected to a movable frame 406, a locking bolt 408 is connected to the square 409 in a threaded manner, the swing amplitude of the movable frame 406 can be controlled, when the swing amplitude is required, that is, when the interval between intermittent conveying is adjusted, the distance between the square 409 and the upper and lower positions of the movable frame 406 is required to be adjusted, the square 409 is locked and fixed through the locking bolt 408, and the closer the square 409 is to the center point of rotation, the swing amplitude is larger, and the closer the square 409 is to the center point of rotation is, the swing amplitude is smaller.

In addition, referring to fig. 5, an alignment mechanism 5 is used for controlling the alignment of the corrugated board in the middle;

the alignment mechanism 5 comprises a rotating plate 501, two supporting rods 502 are rotatably connected to the bottom of the rotating plate 501, one end of each supporting rod 502 is movably connected with a first connecting rod 401 through a shaft rod, a push rod 503 is connected to each supporting rod 502, a clamping plate 505 is contacted with the surface of each push rod 503, after the push rod 503 is subjected to relative extrusion, the clamping plates 505 are driven to transversely move, so that corrugated boards are horizontally aligned in a bisecting manner, a sliding connecting rod 504 is connected to the clamping plates 505, a contraction spring 506 is sleeved on the surface of each sliding connecting rod 504, the surface of each sliding connecting rod 504 is slidably connected to a fixed frame 413, and the contraction spring 506 is located between the clamping plate 505 and the fixed frame 413. When the first connecting rod 401 rotates in a contact manner, the two supporting rods 502 are driven to be pulled relatively through the lever principle, and referring to fig. 5, the supporting rods 502 move at the moment to drive the rotating plate 501 to rotate so as to drive the two supporting rods 502 to move relatively, and then the push rod 503 drives the clamping plate 505 to move relatively, so that corrugated boards are aligned relatively, and wire laying uniformity is guaranteed. Because the uniformity of the laying lines directly leads to the uniformity of stress, if corrugated boards are skewed during conveying, the laying of the strength lines directly leads to the deviation of the laying, leads to the later processing, and is easy to reduce the stress resistance.

It should be noted that referring to fig. 6, the cover mechanism 6 is used for laying the facial tissues on the corrugated paper.

The cover plate mechanism 6 comprises a box body 601, a plurality of facial tissues are placed in the box body 601, a box frame 606 is installed on one side of the box body 601, an open groove 602 is formed in the bottom of the box body 601, a support frame 605 is connected to the bottom of the box body 601 in a sliding mode, a contact piece 607 is connected to the support frame 605 in a sliding mode, a movable spring 608 is connected to the contact piece 607, and the top of the movable spring 608 is connected to the support frame 605. Because consider the contact of facial tissue and corrugated paper to merge, so when corrugated container board carries, will carry out the contact with contact 607 and block, corrugated container board will drive contact 607 and support frame 605 and slide in the bottom of box 601, simultaneously support frame 605 will drive the facial tissue of bottommost and carry out the propelling movement, release from the position of open slot 602, until release to contact with box frame 606 and block, can't promote the back at this moment, corrugated container board transverse conveying force will drive contact 607 and shift up, break away from with corrugated container board, along with going on in the transportation, the facial tissue of box 601 inside is finally carried in place, drop to the corrugated container board of spreading the line completion, merge.

It should be noted that, the right side of the support 605 is connected with a stop sheet 609, one side of the contact sheet 607 is connected with a return spring 604, one end of the return spring 604 is connected with a positioning plate 603, the positioning plate 603 is installed on the side surface of the box 601, because the upper layer of facial tissue can not drop to the bottommost layer after being pushed out by the facial tissue in consideration of the lowest layer, so that the support 605 is interfered by return, the set stop sheet 609, after the support 605 moves to the limit position, the upper layer of facial tissue is blocked by the stop sheet 609, will not move downwards, only after the stop sheet 609 moves to the right limit position, a space is provided for enabling the facial tissue to slide to the bottom layer discharging space, and the set return spring 604 can push the support 605 to reset by the elasticity after being stretched, so that the elastic force reset is realized.

The electrical components are all connected with an external main controller and 220V mains supply, and the main controller can be conventional known equipment for controlling a computer and the like.

In the working principle, the bonded corrugated paper and paper board of lining paper are placed on a conveyor belt, a driving motor 301 rotates to drive a roller 303 to rotate, the roller 303 drives a rolling frame 302 on the surface of the roller 303 to rotate, a powerful wire is paid out, at the moment, along with the rotation of the roller 303, a spiral shaft 306 is driven to rotate through transmission among pulleys, a spiral groove 310 at a crossing position is arranged on the surface of the spiral shaft 306, a sliding pin 311 is positioned in the spiral groove 310, so along with the rotation of the spiral shaft 306, the sliding pin 311 is driven to circularly reciprocate left and right in the spiral groove 310, the sliding pin 311 is arranged on a lantern ring 3091, the whole lead seat 309 moves left and right along with the sliding pin, the limiting block 3093 slides in the limiting groove 308, the whole lead seat 309 can be limited to stably move transversely in the spiral groove 310, the strong line is gradually laid on the corrugated paper according to the left-right lateral movement, when the lead seat 309 moves to the limit of the left side or the right side, the lead seat 309 contacts the first connecting rod 401 and extrudes the lead seat to drive the first connecting rod 401 to rotate, the first connecting rod 401 rotates to drive the swinging frame 403 to rotate left through the connection of the second connecting rod 402, the swinging frame 403 then drives the movable frame 406 to swing left synchronously through the connection of the supporting connecting rod 405, the ratchet 411 is pushed by the pushing ratchet card 407 on the movable frame 406 to rotate, the ratchet 411 rotates to drive the conveying shaft 412 to rotate to drive the conveying belt to convey, intermittent conveying is realized, the conveying progress of each conveying is realized, and meanwhile, the whole structure is that the lead seat 309 moves laterally to spread the line, if the lead seat moves to the limit position, the conveyor belt will be pushed to travel a distance and then back to the laying line, thus reciprocating. And when the first connecting rod 401 rotates in a contact way, the two supporting rods 502 are driven to be pulled relatively through the lever principle, please refer to fig. 5, at this time, the supporting rods 502 move to drive the rotating plate 501 to rotate and further drive the two supporting rods 502 to move relatively, then the push rod 503 drives the clamping plate 505 to move relatively, so that the corrugated boards are aligned relatively, the wire laying uniformity is ensured, the wire holder 309 moves back, and when the first connecting rod 401 is not pressed in a contact way, the swing frame 403 is stretched and reset by the elasticity of the stretching spring 404, so that the first connecting rod 401 is reset to an extended state and waits for the next contact and extrusion of the wire holder 309. When the line laying is completed, corrugated board will be carried out along with the conveyer belt at this moment, when corrugated board carries, will carry out the contact with contact 607 and block, at this moment along with the removal of conveyer belt, corrugated board will drive contact 607 and support frame 605 and slide in the bottom of box 601, simultaneously support frame 605 will drive the facial tissue of bottommost and carry out the propelling movement, release from the position of open slot 602, until release to contact with box 606 and block, can't promote the back at this moment, corrugated board transverse conveying force will drive contact 607 and shift up, break away from with corrugated board, carry out along with conveying process, the final transport of facial tissue of box 601 is put in place, after contact 607 is not contacted the atress with corrugated board, receive reset spring 604's elasticity tensile, will direct extension support frame 605 resets, realize elasticity reset, and the arrival of next operation flow, and the facial tissue of release will drop on the corrugated board after the wire winding along with gravity, realize covering, until get into next process, thereby realized the automatic line laying to corrugated board, whole process is convenient and fast.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Claims

1. A device for reinforcing a line of force between corrugated paper and facial tissue, characterized in that: comprising

A base (1) for providing a bottom contact support of the overall apparatus;

a conveyor belt (2) for conveying corrugated board;

the winding mechanism is used for controlling the strong line to be laid between the corrugated paper and the facial tissue;

an alignment mechanism (5) for controlling the alignment of the corrugated board in the middle;

the cover plate mechanism (6) is used for paving facial tissues on the corrugated paper;

the winding mechanism comprises a wire inlet mechanism (3) and a wire laying mechanism (4),

the wire inlet mechanism (3) comprises a driving motor (301), the output end of the driving motor (301) is fixedly connected with a roller (303), one end of the roller (303) is connected with a first belt pulley (304), the surface of the first belt pulley (304) is connected with a second belt pulley (305) through belt transmission, a screw shaft (306) is fixedly connected to the second belt pulley (305), and a wire guide seat (309) is arranged on the screw shaft (306);

the surface of the roller (303) is connected with a rolling frame (302), a strong line is wound on the rolling frame (302), the strong line is pulled to the upper surface of corrugated paper through a lead seat (309), a limit frame (307) is connected to the lead seat (309) in a sliding manner, and the limit frame (307) is arranged on the base (1);

the wire guide seat (309) comprises a collar (3091), one side of the collar (3091) is rotationally connected with a wire rolling wheel (3092), a wire groove is formed in the wire rolling wheel (3092), a connecting frame (3094) is installed on the collar (3091), two wire rolling wheels (3095) are rotationally connected on the connecting frame (3094), a limiting block (3093) is connected to the surface of the collar (3091) through a shaft rod, a limiting groove (308) is formed in the limiting block (307), the limiting block (3093) is slidably connected in the limiting groove (308), a spiral groove (310) is formed in the surface of the spiral shaft (306), a sliding pin (311) is connected in the collar (3091), and the sliding pin (311) is slidably connected to the spiral groove (310).

The wire laying mechanism (4) comprises a swinging frame (403), the bottom of the swinging frame (403) is rotationally connected to the base (1), the top of the swinging frame (403) is rotationally connected with a second connecting rod (402), one end of the second connecting rod (402) is rotationally connected with a first connecting rod (401), the middle part of the first connecting rod (401) is rotationally connected to a fixed frame (413), a supporting connecting rod (405) is slidingly connected in the swinging frame (403) through a shaft rod, one end of the supporting connecting rod (405) is connected with a movable frame (406), the bottom of the movable frame (406) is rotationally connected to the base (1), the movable frame (406) is rotationally connected with a pushing ratchet clip (407) and a check clip (410), one side of the swinging frame (403) is connected with a tension spring (404), and one end of the tension spring (404) is connected to the fixed frame (413);

the ratchet wheel (411) is characterized in that a conveying shaft (412) is fixedly connected to the axis of the ratchet wheel (411), the surface of the conveying shaft (412) is in transmission connection with a transmission roller (414) through a transmission belt, a square block (409) is connected to the support connecting rod (405), the square block (409) is slidably connected to the movable frame (406), and a locking bolt (408) is connected to the square block (409) in a threaded mode.

2. A device for reinforcing a line of force between corrugated paper and facial tissue as set forth in claim 1, wherein: the alignment mechanism (5) comprises a rotating plate (501), two supporting rods (502) are rotatably connected to the bottom of the rotating plate (501), one end of each supporting rod (502) is movably connected with a first connecting rod (401) through a shaft rod, a pushing rod (503) is connected to each supporting rod (502), a clamping plate (505) is in contact with the surface of each pushing rod (503), a sliding connecting rod (504) is connected to each clamping plate (505), a contraction spring (506) is sleeved on the surface of each sliding connecting rod (504), the surfaces of the sliding connecting rods (504) are slidably connected to a fixing frame (413), and the contraction springs (506) are located between the clamping plates (505) and the fixing frame (413).

3. A device for reinforcing a line of force between corrugated paper and facial tissue as set forth in claim 1, wherein: the cover plate mechanism (6) comprises a box body (601), a plurality of facial tissues are placed in the box body (601), a box frame (606) is installed on one side of the box body (601), an open slot (602) is formed in the bottom of the box body (601), a supporting frame (605) is connected to the bottom of the box body (601) in a sliding mode, a contact piece (607) is connected to the supporting frame (605) in a sliding mode, a movable spring (608) is connected to the contact piece (607), and the top of the movable spring (608) is connected to the supporting frame (605).

4. A device for reinforcing a line of force between corrugated paper and facial tissue as set forth in claim 3, wherein: the right side of support frame (605) is connected with end preforming (609), one side of contact piece (607) is connected with reset spring (604), one end of reset spring (604) is connected with locating plate (603), locating plate (603) are installed in the side of box (601).