CN108454988B - Continuous packaging machine for tissue paper - Google Patents

Abstract

The invention discloses a continuous packaging machine for tissue paper, which comprises a rack, a packaging wheel part, a swing arm mechanism, a pull rod mechanism, a supporting plate mechanism and a package pushing mechanism, wherein the packaging wheel part is arranged on the rack; wherein the packaging wheel part and the swing arm mechanism are coaxially arranged through a mandrel, and the swing arm mechanism swings back and forth around the axis of the packaging wheel part; the pull rod mechanism is connected with the swing arm mechanism, and the swing arm mechanism drives the pull rod mechanism to do reciprocating linear motion relative to the swing arm mechanism; the supporting plate mechanism is positioned below the swing arm mechanism and swings along with the downward pressing of the swing arm mechanism; the bag pushing mechanism is connected with the pull rod mechanism and completes bag pushing action through the driving of the pull rod mechanism. The invention solves the packaging synchronism, makes the swinging arm and the packaging wheel groove relatively static in the packaging process, is beneficial to the package paper stack to be completely inserted into the packaging wheel groove, avoids the package clamping phenomenon and improves the packaging quality.

Description

Continuous packaging machine for tissue paper

Technical Field

The invention relates to the technical field of packaging of tissue paper, in particular to a continuous packaging machine for the tissue paper.

Background

With the continuous improvement of the living standard of people, the tissue paper becomes a necessary product in daily life due to the convenience of use and carrying. The later processing of the tissue generally needs to pass through two devices, namely a tissue folding machine and a tissue packaging machine, wherein the tissue folding machine finishes the processes of slitting, embossing, folding, laminating and the like, and the tissue packaging machine finishes the processes of enveloping, sealing, labeling and the like, wherein the enveloping process is carried out in a wheel groove of a packaging wheel of the tissue packaging machine, and the tissue folded by the tissue folding machine and then conveyed to a supporting plate needs to be synchronously pushed into the wheel groove of the packaging wheel along with the rotation of the packaging wheel before enveloping.

In the prior art, a synchronous control device for a packaging wheel and a swing arm of a tissue paper packaging machine comprises the packaging wheel rotating at a constant speed, the swing arm driven by a crank link mechanism, a push rod mechanism driven by the crank link mechanism and making reciprocating linear motion relative to a linear guide rail on the swing arm, and a supporting plate mechanism pushed downwards by the swing arm and reset upwards by a spring; the device is powered by the same power source and respectively transmitted to the packaging wheel, the swing arm mechanism and the push rod mechanism through a plurality of gear pairs, the swing arm driven by the crank connecting rod makes variable-speed reciprocating motion, the packaging wheel rotates at a constant speed, so that the instantaneous speeds of the swing arm and the packaging wheel are different in most time periods when the swing arm and the packaging wheel move in the same direction, the push rod which follows the swing arm and makes linear motion relative to the swing arm cannot be aligned with the wheel groove of the packaging wheel synchronously, a tissue paper stack pushed into the wheel groove of the packaging wheel by the push rod is easy to rub against the edge of the wheel groove to wrinkle, and even the package is stuck to have mechanical failure; when the package wheel and the swing arm are adjusted to be synchronous, the angle of the crank needs to be adjusted repeatedly, and the process is complicated. Meanwhile, because the driving force is distributed by the same power source through a plurality of gear pairs, accumulated errors of gear backlash easily occur, the movement precision of the mechanism is seriously influenced, the mechanical abrasion and vibration of the mechanism are increased, the moment variation of the driving torque is caused, and the transmission stability is seriously reduced. In addition, the spring is easy to fatigue damage, and the running speed of the mechanism is limited, so that the product quality and the running efficiency of the whole tissue packaging machine are influenced. Also, the prior art packaging machines are not capable of packaging paper packs that are too wide and thick.

Disclosure of Invention

In view of the above-mentioned shortcomings in the prior art, the present invention aims to provide a continuous packaging machine for tissue paper with a reasonable structural design.

In order to achieve the purpose, the invention adopts the technical scheme that: the continuous tissue packaging machine is characterized by comprising a rack, a packaging wheel part, a swing arm mechanism, a pull rod mechanism, a supporting plate mechanism and a packet pushing mechanism, wherein the packaging wheel part, the swing arm mechanism, the pull rod mechanism, the supporting plate mechanism and the packet pushing mechanism are fixed on the rack; wherein the packaging wheel part and the swing arm mechanism are coaxially arranged through a mandrel, and the swing arm mechanism swings back and forth around the axis of the packaging wheel part; the pull rod mechanism is connected with the swing arm mechanism, and the swing arm mechanism drives the pull rod mechanism to do reciprocating linear motion relative to the swing arm mechanism; the supporting plate mechanism is positioned below the swing arm mechanism and swings along with the swing arm mechanism in a reciprocating manner; the bag pushing mechanism is connected with the pull rod mechanism.

The packaging wheel part comprises a packaging wheel and a power driving mechanism, the hollow packaging wheel is coaxial with the mandrel and is positioned through the mandrel, a wheel groove is formed in the periphery of the packaging wheel, and an inner gear ring is fixed on the inner wall of the packaging wheel; the power driving mechanism comprises a synchronous belt wheel, a first gear, a second gear and a third gear, wherein the synchronous belt wheel is coaxially installed with the first gear, the first gear is meshed with the second gear through teeth, the second gear is coaxially installed with the third gear, and the third gear is meshed with the inner gear ring through teeth.

The packaging wheel is composed of a wheel body and a plurality of combined blocks detachably fixed on the wheel body in the circumferential direction, and a wheel groove is formed in each combined block.

The swing arm mechanism comprises two swing arms, a pressing plate and a first crank connecting rod mechanism, wherein the two swing arms are parallelly installed on the mandrel and are connected through a rod at the inner sides of one ends of the two swing arms, one ends of the two swing arms are respectively provided with a corresponding U-shaped groove, and an upper guide rail and a lower guide rail are respectively installed on each U-shaped groove; the pressure plate is fixed on the two swing arms and is positioned below the position between the two swing arm U-shaped grooves; a cross beam is fixed at the bottom of one side, close to the U-shaped groove, of the swing arm, the bottom of the cross beam is hinged with a connecting rod of a first crank-link mechanism, and a swing arm driving gear is coaxially fixed on a crank of the first crank-link mechanism.

The pull rod mechanism comprises a second crank connecting rod mechanism, a first rocker, a second rocker, a first pull rod, a cross rod and a push plate, wherein a pull rod driving gear is coaxially fixed on a crank of the second crank connecting rod mechanism, the other end of a connecting rod of the second crank connecting rod mechanism is hinged with one end of the first rocker, and the other end of the first rocker is fixed on the mandrel; the outer sides of the two swing arms are respectively provided with a second rocker, one end of each of the two second rockers is matched with the mandrel and fixed in position, the other end of each of the two second rockers is hinged with one end of a first pull rod, two ends of a cross rod respectively penetrate through the U-shaped grooves of the two swing arms and penetrate out of the two ends of the cross rod and are respectively hinged with the other end of the first pull rod, two pairs of rolling bearings are respectively fixed on the cross rod corresponding to the positions of the guide rails in the two U-shaped grooves, one pair of rolling bearings are used for carrying out surface positioning and guiding on the corresponding upper guide rail and the corresponding lower guide rail, and the other pair of rolling; the push plate is fixed in the middle of the cross rod.

The supporting plate mechanism comprises a first supporting seat, a second supporting seat, a third supporting seat, a baffle, a supporting plate and springs, wherein the first supporting seat and the second supporting seat are fixed on the rack; two ends of the supporting plate are respectively connected with a first swing rod, and the other end of each first swing rod is hinged on the first support; two opposite baffle plates are arranged on the upper surface of the supporting plate, and the two baffle plates form a paper stack supporting platform.

The bag pushing mechanism comprises a first bearing seat, a second bearing seat, a pushing block, a second swing rod and a third swing rod, wherein the first bearing seat is fixed on the rack, the second bearing seat is fixed on the wallboard, the first bearing seat and the second bearing seat are respectively connected with the second swing rod through a shaft, the other end of each second swing rod is connected with one end of the third swing rod through a pin shaft, and the other end of each third swing rod is connected with a second swing rod corresponding to the pull rod mechanism; and each second swing rod is fixed with a push block.

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

1. the package synchronism is solved, the swing arm and the package wheel groove are relatively static in the packaging process, the package paper stack is favorably and completely inserted into the package wheel groove, the package clamping phenomenon is avoided, and the package quality is improved;

2. the packaging wheel of the packaging machine is large in size, can package paper bags with the length of 100mm, the width of 70mm and the thickness of 40mm, and is much larger than the traditional packaging wheel (with the diameter of 600 mm) when the diameter of the packaging wheel body reaches 875 mm;

3. the internal tight power transmission of the mechanism driving mechanism is adopted to replace a plurality of gear pairs for power distribution, so that the influence on the movement precision of the mechanism due to the accumulated error of the gear backlash is avoided, the mechanical abrasion and vibration are reduced, and the transmission stability is higher.

Drawings

FIG. 1 is a schematic view of the structure of the present invention

FIG. 2 is a schematic view of the packing wheel part of the present invention

FIG. 3 is a schematic view of the swing arm mechanism of the present invention

FIG. 4 is a schematic view of the structure of the pull rod mechanism and the swing arm mechanism of the present invention

FIG. 5 is a schematic structural view of the pallet mechanism of the present invention

Fig. 6 is a schematic structural diagram of the packet pushing mechanism according to the present invention.

Detailed Description

The invention will now be further elucidated with reference to the drawing.

As shown in fig. 1, the continuous packaging machine for the tissue paper of the invention comprises a frame, and a packaging wheel part 1, a swing arm mechanism 2, a pull rod mechanism 3, a supporting plate mechanism 4 and a package pushing mechanism 5 which are fixed on the frame; wherein the packaging wheel part 1 and the swing arm mechanism 2 are coaxially arranged through a mandrel 103, and the swing arm mechanism 2 swings back and forth around the axis of the packaging wheel part 1; the pull rod mechanism 3 is connected with the swing arm mechanism 2, and the swing arm mechanism 2 drives the pull rod mechanism 3 to do reciprocating linear motion relative to the swing arm mechanism 2; the supporting plate mechanism 4 is positioned below the swing arm mechanism 2 and swings along with the swing arm mechanism 2 in a reciprocating manner; the bag pushing mechanism 5 is connected with the pull rod mechanism 3.

The packaging wheel part 1 rotates at a constant speed, the swing arm mechanism 2 swings around the axis of the packaging wheel part 1 in a reciprocating mode, every time the packaging wheel rotates for 1/n circle, n is the number of wheel grooves of the packaging wheel, the swing arm mechanism 2 swings in a reciprocating mode once, the pull rod mechanism 3 completes one reciprocating linear motion relative to the swing arm mechanism 2, meanwhile, the supporting plate mechanism 4 swings in a reciprocating mode along with the swinging of the swing arm mechanism 2, a piece of tissue paper stack conveyed to the supporting plate is compressed by the swing arm mechanism 2 and then pushed into the wheel grooves of the packaging wheel through the pull rod mechanism 3, and after a paper package is sealed on the side face, the paper package is pushed out of the packaging wheel grooves through the package pushing mechanism 5. The whole moving process is smooth, and the five parts are mutually matched to carry out reciprocating periodic movement to finish the continuous packaging of the strip-shaped paper stack.

The concrete structure is as follows:

as shown in fig. 2, the packing wheel part 1 comprises a packing wheel 110 and a power driving mechanism, wherein the hollow packing wheel 110 is coaxial with a mandrel 103 and is positioned by the mandrel 103, and the mandrel 103 is fixed on a machine frame through a bearing seat; a wheel groove is formed in the periphery of the packaging wheel 110, and an inner gear ring 101 is fixed on the inner wall of the packaging wheel 110; the power driving mechanism comprises a synchronous pulley 105, a first gear 106, a second gear 104 and a third gear 109, wherein the synchronous pulley 105 is coaxially installed with the first gear 106, the first gear 106 is meshed with the second gear 104 through teeth, the second gear 104 is coaxially installed with the third gear 109, and the third gear 109 is meshed with the inner gear ring 101 through teeth. External power is applied to the synchronous pulley 105 through a synchronous belt, the synchronous pulley 105 transmits driving force to a pair of first gear 106 and second gear 104 which are meshed with each other, and the third gear 109 which is coaxial with the second gear 104 transmits the driving force to the inner gear ring 101 fixed on the inner ring of the packing wheel 110, so that the packing wheel 110 rotates around the mandrel 103 at a constant speed. A plurality of push rods 112 capable of sliding along the radial direction are arranged between the inner side of the packing wheel 110 and the mandrel 103, the number of the push rods 112 is consistent with that of the wheel grooves of the packing wheel 110, and the pushing direction of the push rods 112 corresponds to that of the wheel grooves of the packing wheel 110.

The packing wheel 110 is composed of a wheel body and a plurality of combination blocks 111 detachably fixed on the wheel body in the circumferential direction, and a wheel groove is formed in the middle of each combination block. Through the design of combination formula, when the strip tissue of production different specifications, only need change the combination piece 111 on the wheel body, and need not dismantle whole packing wheel 110 gets off, practiced thrift labour time, improved the efficiency of production.

As shown in fig. 3, the swing arm mechanism 2 includes two swing arms 201, a pressing plate 209, and a first crank link mechanism, wherein the two swing arms 201 are mounted on the mandrel 103 in parallel and are connected by a rod 210 at the inner sides of one ends of the two swing arms 201, one end of each of the two swing arms 201 is provided with a corresponding U-shaped groove, and each of the U-shaped grooves is provided with an upper guide rail 211 and a lower guide rail 211; the pressing plate 209 is fixed on the two swing arms 201 and is positioned below the U-shaped grooves of the two swing arms 201; a cross beam 202 is fixed at the bottom of the swing arm 201 close to one side of the U-shaped groove, the bottom of the cross beam 202 is hinged with a connecting rod 203 of a first crank-link mechanism, a swing arm driving gear 207 is coaxially fixed on a crank 205 of the first crank-link mechanism, and the crank 205 of the first crank-link mechanism is hinged with the connecting rod 203. The pressing plate 209 of the swing arm mechanism 2 corresponds to the blade 404 of the blade mechanism 4 up and down. The swing arm drive gear 207 is powered by external power input, and the swing arm 201 of the swing arm mechanism 2 is driven by the swing arm drive gear 207 to swing back and forth around the spindle 103. Positioning blocks 212 are fixed on the left side and the right side below the pressure plate 209 on the swing arm mechanism 2 and used for being matched with cushion blocks 409 in the supporting plate mechanism 4 for limiting. A U-shaped paper slot 208 is further formed in the swing arm mechanism 2 below the pressing plate 209, the two positioning blocks 212 are respectively located on two sides of the U-shaped paper slot, and the U-shaped paper slot 208 is used for temporary storage of paper stacks; the U-shaped paper slot 208 corresponds to the slot position of the packing wheel 1.

As shown in fig. 4, the link mechanism 3 includes a second crank-link mechanism, a first rocker 305, a second rocker 306, a first pull rod 307, a cross rod 311, and a push plate 312, wherein a crank 303 of the second crank-link mechanism coaxially fixes the pull rod driving gear 302, the other end of a link 304 of the second crank-link mechanism is hinged to one end of the first rocker 305, the other end of the first rocker 305 is fixed on the mandrel 103, and the link 304 of the second crank-link mechanism is hinged to the crank 303; the outer sides of the two swing arms 201 are respectively provided with a second rocker 306, one end of each of the two second rockers 306 is matched with the mandrel 103 and fixed in position, the other end of each of the two second rockers 306 is hinged with one end of a first pull rod 307, two ends of a cross rod 311 respectively penetrate through U-shaped grooves of the two swing arms 201 and penetrate out of two ends of the cross rod 311 and are respectively hinged with the other end of the corresponding first pull rod 307, two pairs of rolling bearings 309 and 310 are respectively fixed on the cross rod 311 corresponding to the positions of the guide rails 211 in the two U-shaped grooves, one pair of rolling bearings 310 is used for carrying out surface positioning and guiding on the corresponding upper and lower guide rails 211, and the other pair of rolling bearings 309 is used for carrying out inner side positioning on; an L-shaped push plate 312 is fixed in the middle of the cross bar 311 and the position of the L-shaped push plate 312 corresponds to the U-shaped paper slot 208 in the swing arm mechanism 2.

The external power input is transmitted to the swing arm driving gear 207 of the swing arm mechanism 3 and the pull rod driving gear 302 of the pull rod mechanism 3 through a plurality of gear pairs, wherein the pull rod driving gear 302 transmits the power to the crank 303 of the second crank-link mechanism, the crank 303 is linked with the connecting rod 304, the first rocker 305, the mandrel 103 and the second rocker 306, so that the bearing 310 on the cross rod 311 dragged by the first pull rod 307 rolls along the surface of the guide rail 211 and the bearing 309 rolls along the inner side surface of the guide rail 211, and the L-shaped push plate 312 connected to the cross rod 311 performs the combined paper pushing action.

As shown in fig. 5, the supporting plate mechanism 4 includes a first supporting seat 408, a second supporting seat 405, a third supporting seat 401, a baffle 403, a supporting plate 404, and springs 406, wherein the first supporting seat 408 and the second supporting seat 405 are fixed on the rack, the third supporting seat 401 is fixed on the wall panel, vertically arranged supporting shafts 402 are fixed on the third supporting seat 401 and the second supporting seat 405, each supporting shaft 402 is sleeved with a spring 406, holes for the corresponding supporting shaft 402 to pass through are formed at two ends of the supporting plate 404, and two ends of the supporting plate 404 pass through the corresponding supporting shaft 402 and are fixed with the top end of the corresponding spring 406; two ends of the supporting plate 404 are respectively connected with a first swing rod 407, and the other end of each first swing rod 407 is hinged on the first support 408; two opposite baffles 403 are mounted on the upper surface of the supporting plate 404 in a bolt-on manner, and the two baffles 403 form a stack supporting platform. Wherein the spring 406 functions to help the pallet 404 return after the pressure plate 209 of the swing arm mechanism 2 presses the pallet 404. The tray mechanism 4 reciprocates up and down along with the pressing plate 209 of the swing arm mechanism 2, and functions to support the paper stack conveyed by the sprocket conveying device, and pushes the paper stack into the wheel groove of the packing wheel 110 in cooperation with the pushing plate 312 which performs a spatial combination motion. A cushion block 409 is fixed on the supporting plate mechanism 4 at a position corresponding to the positioning block 212 of the swing arm mechanism 2.

As shown in fig. 6, the bale pushing mechanism 5 includes a first bearing seat 501, a second bearing seat 502, a pushing block 503, a second swing link 504, and a third swing link 505, wherein the first bearing seat 501 is fixed on the rack, the second bearing seat 502 is fixed on the wall panel, the first bearing seat 501 and the second bearing seat 502 are respectively connected with one second swing link 504 through shafts 507 and 508, the other end of each second swing link 504 is connected with one end of the third swing link 505 through a pin 506, and the other end of each third swing link 505 is connected with the corresponding second swing link 306 of the drawbar mechanism 3; a push block 503 is fixed on each second swing link 504, and the position of the push block 503 is subject to the push rod 112 capable of pushing the packing wheel part 1. The second rocker 306 of the pull rod mechanism is a power source of the bag pushing mechanism 5, and is linked with the second swing link 504 through the third swing link 505, so as to drive the push block 503 on the second swing link 504 to complete the bag pushing action. The bag pushing mechanism 5 is used for pushing the paper bags out of the wheel grooves of the packaging wheels so that the paper bags enter the subsequent end face forming mechanism.

When the paper folding device is used, in the process that the paper stack after being transversely folded once and longitudinally folded twice is pushed to the supporting plate 404 by the chain wheel mechanism, the swing arm mechanism 2 rotates anticlockwise around the mandrel 103, the positioning block 212 gradually approaches the cushion block 409, when the positioning block 212 and the cushion block 409 are contacted with each other, the distance between the pressing plate 209 and the supporting plate 404 reaches the minimum value, and the paper stack in the middle is further compressed. The swing arm mechanism 2 is then rotated counterclockwise through a small angle so that the pallet 404 is pressed down a small distance. Then the swing arm mechanism 2 starts to move upwards clockwise, the supporting plate 404 returns to the initial position under the reset action of the spring 406, the L-shaped push plate 312 pushes the paper stack on the supporting plate 404 into the U-shaped paper slot 208, the positioning block 212 is separated from the cushion block 409, the L-shaped push plate 312 pushes the paper stack into the packaging wheel slot, in the process of pushing the paper package into the packaging wheel slot, the swing arm 201 and the packaging wheel 110 are relatively static, meanwhile, the push block 503 in the package pushing mechanism 5 pushes the push rod 112, so that the paper package rotated 180 degrees in the packaging wheel is pushed out and enters a subsequent end face forming mechanism.

Claims (2)

1. A continuous packing machine for a piece of tissue is characterized by comprising a frame, a packing wheel part, a swing arm mechanism, a pull rod mechanism, a supporting plate mechanism and a package pushing mechanism, wherein the packing wheel part, the swing arm mechanism, the pull rod mechanism, the supporting plate mechanism and the package pushing mechanism are fixed on the frame; wherein the packaging wheel part and the swing arm mechanism are coaxially arranged through a mandrel, and the swing arm mechanism swings back and forth around the axis of the packaging wheel part; the pull rod mechanism is connected with the swing arm mechanism, and the swing arm mechanism drives the pull rod mechanism to do reciprocating linear motion relative to the swing arm mechanism; the supporting plate mechanism is positioned below the swing arm mechanism and swings along with the downward pressing of the swing arm mechanism; the bag pushing mechanism is connected with the pull rod mechanism and is driven by the pull rod mechanism to complete bag pushing action;

the packaging wheel part comprises a packaging wheel and a power driving mechanism, the hollow packaging wheel is coaxial with the mandrel and is positioned through the mandrel, a wheel groove is formed in the periphery of the packaging wheel, and an inner gear ring is fixed on the inner wall of the packaging wheel; the power driving mechanism comprises a synchronous belt wheel, a first gear, a second gear and a third gear, wherein the synchronous belt wheel is coaxially installed with the first gear, the first gear is meshed with the second gear through teeth, the second gear is coaxially installed with the third gear, and the third gear is meshed with the inner gear ring through teeth; the packaging wheel consists of a wheel body and a plurality of combined blocks which are detachably fixed on the wheel body in the circumferential direction, and a wheel groove is formed in each combined block;

the swing arm mechanism comprises two swing arms, a pressing plate and a first crank connecting rod mechanism, wherein the two swing arms are parallelly installed on the mandrel and are connected through a rod at the inner sides of one ends of the two swing arms, one ends of the two swing arms are respectively provided with a corresponding U-shaped groove, and an upper guide rail and a lower guide rail are respectively installed on each U-shaped groove; the pressure plate is fixed on the two swing arms and is positioned below the position between the two swing arm U-shaped grooves; a cross beam is fixed at the bottom of one side, close to the U-shaped groove, of the swing arm, the bottom of the cross beam is hinged with a connecting rod of a first crank-link mechanism, and a swing arm driving gear is coaxially fixed on a crank of the first crank-link mechanism;

the pull rod mechanism comprises a second crank connecting rod mechanism, a first rocker, a second rocker, a first pull rod, a cross rod and a push plate, wherein a pull rod driving gear is coaxially fixed on a crank of the second crank connecting rod mechanism, the other end of a connecting rod of the second crank connecting rod mechanism is hinged with one end of the first rocker, and the other end of the first rocker is fixed on the mandrel; the outer sides of the two swing arms are respectively provided with a second rocker, one end of each of the two second rockers is matched with the mandrel and fixed in position, the other end of each of the two second rockers is hinged with one end of a first pull rod, two ends of a cross rod respectively penetrate through the U-shaped grooves of the two swing arms and penetrate out of the two ends of the cross rod and are respectively hinged with the other end of the first pull rod, two pairs of rolling bearings are respectively fixed on the cross rod corresponding to the positions of the guide rails in the two U-shaped grooves, one pair of rolling bearings are used for carrying out surface positioning and guiding on the corresponding upper guide rail and the corresponding lower guide rail, and the other pair of rolling; the push plate is fixed in the middle of the cross rod;

the supporting plate mechanism comprises a first supporting seat, a second supporting seat, a third supporting seat, a baffle, a supporting plate and springs, wherein vertically arranged supporting shafts are fixed on the third supporting seat and the second supporting seat, each supporting shaft is sleeved with a spring, holes for the corresponding supporting shafts to pass through are formed in the two ends of the supporting plate, and the two ends of the supporting plate are fixed with the top ends of the corresponding springs after passing through the corresponding supporting shafts; two ends of the supporting plate are respectively connected with a first swing rod, and the other end of each first swing rod is hinged on the first support; two opposite baffle plates are arranged on the upper surface of the supporting plate, and the two baffle plates form a paper stack supporting platform.

2. The continuous packaging machine for the tissue paper as claimed in claim 1, wherein the package pushing mechanism comprises a first bearing seat, a second bearing seat, a pushing block, a second swing rod and a third swing rod, wherein the first bearing seat and the second bearing seat are respectively connected with the second swing rod through a shaft, the other end of each second swing rod is connected with one end of the third swing rod through a pin shaft, and the other end of each third swing rod is connected with the corresponding second swing rod of the pull rod mechanism; and each second swing rod is fixed with a push block.

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