CN113307066B - Conveying and winding device for printed products - Google Patents

Abstract

The invention relates to the technical field of printed products, in particular to a conveying and winding device for the printed products, which comprises a base, wherein one side of the upper surface of the base is fixedly connected with a first support, a conveying roller is rotatably connected in the first support, the other side of the upper surface of the base is fixedly connected with a second support, a winding drum is rotatably connected in the second support, two sides of the upper surface of a support frame are respectively fixedly connected with vertical plates, a leveling mechanism is arranged between the two vertical plates, one side of the upper surface of the base is fixedly connected with a third support, a first compression roller is rotatably connected in the third support, the other side of the upper surface of the base is fixedly connected with a fourth support, a second compression roller is rotatably connected in the fourth support, and the first compression roller and the second compression roller are positioned between the conveying roller and the winding drum. The conveying and winding device for the printed product can rapidly and fully flatten and level the printed cloth in the conveying process, and avoid the condition of wrinkling in the winding process.

Description

Conveying and winding device for printed products

Technical Field

The invention relates to the technical field of printed products, in particular to a conveying and winding device for printed products.

Background

Printing is a printing process in which printing is a process of producing printed matter, which is similar to a stamp, in that a stamp (plate) is engraved first, then the stamp (plate) is applied with a stamp ink, and then the stamp ink on the stamp (plate) is transferred to a printing substrate such as paper, fabric, leather, etc., to obtain a printed matter, and a computer-printed document is printed by a laser printer, an ink-jet printer or other computer printers. Printed cloth is also one of the most common printed products.

In the production and processing process of the printing cloth, after the printing cloth is processed, the printing cloth needs to be rolled up, wherein a conveying roller is required to be used for conveying the printing cloth, and a collecting drum is required to be used for rolling up the conveyed printing cloth, and in the actual conveying and rolling process, the printing cloth is easy to be wrinkled, so that the production quality of the printing cloth is seriously affected.

Disclosure of Invention

The invention aims to solve the defect that the production quality of printed cloth is seriously affected due to the fact that the printed cloth is easy to wrinkle in the conveying and winding process in the prior art, and provides a conveying and winding device for printed products.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a carry coiling mechanism of printed matter, includes the base, one side fixedly connected with first support of base upper surface, rotate among the first support and be connected with the conveying roller, the opposite side fixedly connected with second support of base upper surface, rotate among the second support and be connected with the receipts reel, the middle part position fixedly connected with bottom plate of base upper surface, fixedly connected with support frame on the bottom plate, the both sides of support frame upper surface all are fixedly connected with riser respectively, two be provided with leveling mechanism between the riser, just leveling mechanism is located directly over the bottom plate, one of them one side of riser is provided with drive mechanism, just leveling mechanism conveying roller with pass through between the rolling section of thick bamboo drive mechanism interconnect, one side fixedly connected with third support of base upper surface, rotate among the third support and be connected with first compression roller, the opposite side fixedly connected with fourth support of base upper surface, rotate among the fourth support and be connected with second compression roller, first and second compression roller with the second compression roller is located between the conveying roller and the second compression roller is located in between the second compression roller and the both sides.

Preferably, the leveling mechanism comprises four fixing rods, two rotating shafts, two transverse plates, two first through holes and a second through hole, wherein the four fixing rods are respectively and fixedly connected to two sides of the opposite sides of the two vertical plates, the two rotating shafts are respectively and rotatably connected between the two vertical plates through bearings, the two rotating shafts are positioned between the four fixing rods, the two transverse plates are respectively and fixedly connected to the top positions between the two vertical plates, the two first through holes are respectively arranged on two sides of the upper surface of the supporting frame, the second through holes are respectively arranged on the supporting frame, the two first through holes are mutually communicated with the second through holes, connecting posts are respectively arranged between the two fixing rods on the same side of the opposite sides of the two vertical plates through two sliding mechanisms, the two sliding mechanisms are respectively arranged at two sides of the connecting column, the upper ends of the two connecting columns are respectively connected with a second buffer mechanism, the upper ends of the two second buffer mechanisms are respectively connected with the lower surfaces of the two transverse plates, the two connecting columns respectively penetrate through the two first through holes, the lower ends of the two connecting columns are respectively connected with a first buffer mechanism, the lower ends of the two first buffer mechanisms are respectively fixedly connected with a pressing plate, the two pressing plates are positioned right above the bottom plate, the opposite sides of the two connecting columns are respectively fixedly connected with racks, the two racks are oppositely arranged, the middle part of one rotating shaft is fixedly connected with a first sector gear, the middle part of the other rotating shaft is fixedly connected with a second sector gear, the second sector gear is mutually meshed with one rack, the first sector gear and the second sector gear penetrate through the second port, the first gears are fixedly connected to the two rotating shafts respectively, the two first gears are meshed with each other, and one end of one rotating shaft is connected with the transmission mechanism.

Preferably, the sliding mechanism comprises a sliding block and a sliding groove, the sliding block is fixedly connected with one end of the fixing rod, the sliding groove is formed in one side of the connecting column, and the sliding block is arranged in the sliding groove in a sliding manner.

Preferably, the sliding groove is a T-shaped groove, the sliding block is a T-shaped structural member, and the sliding block and the sliding groove are mutually matched.

Preferably, the first buffer mechanism comprises a first slot and a first round rod, the first slot is formed in the lower end of the connecting column, the first round rod is fixedly connected to the upper surface of the pressing plate, the upper end of the first round rod is inserted into the first slot and fixedly connected with a first limiting block, a first spring is sleeved on the lower portion of the first round rod, the upper end of the first spring is fixedly connected to the lower end of the connecting column, and the lower end of the first spring is fixedly connected to the upper surface of the pressing plate.

Preferably, the second buffer mechanism comprises a second slot and a second round rod, the second slot is formed in the upper end of the connecting column, the second round rod is fixedly connected to the lower surface of the transverse plate, the lower end of the second round rod is inserted into the second slot and fixedly connected with a second limiting block, a second spring is sleeved on the upper portion of the second round rod, the upper end of the second spring is fixedly connected to the lower surface of the transverse plate, and the lower end of the second spring is fixedly connected to the upper end of the connecting column.

Preferably, the transmission mechanism comprises a mounting frame, a second belt pulley, a third belt pulley, a second gear and a third gear, wherein the mounting frame is fixedly connected to one side of the upper surface of the supporting frame, the second belt pulley is rotationally connected to one side of the conveying roller, the third belt pulley is rotationally connected to one side of the winding drum, the second gear is rotationally connected to one side of the vertical plate, the third gear is fixedly connected to one of the rotating shafts, the third gear is located under the second gear, the second gear is meshed with the third gear, a motor is fixedly connected to the mounting frame, one end of an output shaft of the motor is fixedly connected with a first belt pulley, the first belt pulley is fixedly connected to the second belt pulley and the third belt pulley, and the first belt pulley is fixedly connected to one side of the second gear.

The conveying and winding device for the printed products has the beneficial effects that: on one hand, the conveying and rolling device of the printed product is provided with the leveling mechanism, and through the design, the printed cloth in the conveying process can be flattened and leveled, so that the situation that wrinkles appear in the process of rolling the printed cloth can be avoided, wherein in the process that one rotating shaft continuously rotates, the two pressing plates can sequentially and alternately flatten and level the printed cloth in the conveying process, and the leveling effect on the printed cloth can be improved; on the other hand, the transmission mechanism is designed, through the design, the leveling mechanism, the conveying roller and the winding drum can be driven to operate simultaneously only by starting the motor, so that the equipment cost can be reduced, and the electric energy is saved.

Drawings

Fig. 1 is a schematic perspective view of a conveying and winding device for printed products.

Fig. 2 is a schematic perspective view of a conveying and winding device for printed products according to the present invention.

Fig. 3 is a schematic perspective view of the leveling mechanism of fig. 1-2.

Fig. 4 is a schematic perspective view of the leveling mechanism and the transmission mechanism of fig. 1-2.

Fig. 5 is a front view of the structure of fig. 1-2.

Fig. 6 is an enlarged schematic view of the a portion structure in fig. 3.

Fig. 7 is a cross-sectional view of the connection post, the first buffer mechanism, and the second buffer mechanism of fig. 3-4.

Fig. 8 is a top view of the slide mechanism of fig. 3-4.

In the figure: the base 1, the first bracket 2, the conveying roller 3, the second bracket 4, the winding drum 5, the bottom plate 6, the supporting frame 7, the vertical plate 8, the leveling mechanism 9, the fixed rod 901, the rotating shaft 902, the cross plate 903, the sliding block 904, the sliding groove 905, the connecting column 906, the first buffer mechanism 907, the first slot 9071, the first round bar 9072, the first limiting block 9073, the first spring 9074, the pressing plate 908, the rack 909, the second buffer mechanism 910, the second slot 9101, the second round bar 9102, the second limiting block 9103, the second spring 9104, the first gear 911, the first sector gear 912, the second sector gear 913, the first through hole 914, the second through hole 915, the transmission mechanism 10, the mounting frame 101, the motor 102, the first pulley 103, the second pulley 104, the third pulley 105, the belt 106, the second gear 107, the third gear 108, the third bracket 11, the first pressing roller 12, the fourth bracket 13, and the second pressing roller 14.

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.

Example 1

Referring to fig. 1-8, a conveying and winding device for printed products comprises a base 1, wherein one side of the upper surface of the base 1 is fixedly connected with a first bracket 2, a conveying roller 3 is rotatably connected in the first bracket 2, the conveying roller 3 is used for conveying printed cloth, the other side of the upper surface of the base 1 is fixedly connected with a second bracket 4, a winding cylinder 5 is rotatably connected in the second bracket 4, and the winding cylinder 5 is used for winding the conveyed printed cloth.

The middle part position fixedly connected with bottom plate 6 of base 1 upper surface, fixed surface is connected with support frame 7 on the bottom plate 6, the both sides of support frame 7 upper surface are respectively fixedly connected with riser 8, be provided with leveling mechanism 9 between two risers 8, and leveling mechanism 9 is located directly over bottom plate 6, one side of one of them riser 8 is provided with drive mechanism 10, and through drive mechanism 10 interconnect between leveling mechanism 9, carry roller 3 and the rolling section of thick bamboo 5, can drive leveling mechanism 9 simultaneously, carry roller 3 and the operation of rolling section of thick bamboo 5 through drive mechanism 10, at first, carry printing cloth in with carrying roller 3, then under leveling mechanism 9's effect, can carry out the flattening to the printing cloth of carrying the in-process, after the printing cloth flattening, the rethread rolling section of thick bamboo 5, can get up the printing cloth, the circumstances of fold appears in the in-process of rolling printing cloth can be avoided.

One side fixedly connected with third support 11 of base 1 upper surface, the rotation is connected with first compression roller 12 among the third support 11, the opposite side fixedly connected with fourth support 13 of base 1 upper surface, the rotation is connected with second compression roller 14 among the fourth support 13, first compression roller 12 and second compression roller 14 are located between conveying roller 3 and the rolling section of thick bamboo 5, and first compression roller 12 and second compression roller 14 are located the both sides of bottom plate 6 respectively, through the setting of first compression roller 12 and second compression roller 14, in the transportation process of printing cloth, first compression roller 12 and second compression roller 14 can compress tightly printing cloth, can make printing cloth be in the tensioning state, thereby can guarantee the stability in the transportation process of printing cloth.

Example 2

Referring to fig. 1 to 8, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the leveling mechanism 9 includes four fixing bars 901, two rotating shafts 902, two cross plates 903, two first through holes 914 and a second through hole 915, the four fixing bars 901 are respectively and fixedly connected to two sides of opposite sides of the two risers 8, the two rotating shafts 902 are respectively and rotatably connected between the two risers 8 through bearings, the two rotating shafts 902 are located between the four fixing bars 901, the two cross plates 903 are respectively and fixedly connected to top positions between the two risers 8, the two first through holes 914 are respectively opened to two sides of an upper surface of the supporting frame 7, the second through holes 915 are opened to the supporting frame 7, and the two fixing bars 901 located on the same side of the opposite sides of the two risers 8 are respectively provided with connecting posts 906 through two sliding mechanisms, the two sliding mechanisms are respectively arranged at two sides of the connecting column 906, the upper ends of the two connecting columns 906 are respectively connected with the second buffer mechanisms 910, the upper ends of the two second buffer mechanisms 910 are respectively connected with the lower surfaces of the two transverse plates 903, the two connecting columns 906 are respectively arranged in the two first through holes 914 in a penetrating way, the lower ends of the two connecting columns 906 are respectively connected with the first buffer mechanisms 907, the lower ends of the two first buffer mechanisms 907 are respectively fixedly connected with the pressing plates 908, the two pressing plates 908 are respectively arranged right above the bottom plate 6, the first buffer mechanisms 907 and the second buffer mechanisms 910 are respectively arranged, so that the pressing plates 908 have a certain buffer performance, when the pressing plates 908 are pressed to a printing cloth, the first buffer mechanisms 907 and the second buffer mechanisms 910 can buffer, damage to the printed cloth due to excessive pressure of the platen 908 can be avoided.

The opposite sides of the two connecting columns 906 are respectively and fixedly connected with racks 909, the two racks 909 are oppositely arranged, the middle part of one rotating shaft 902 is fixedly connected with a first sector gear 912, the middle part of the other rotating shaft 902 is fixedly connected with a second sector gear 913, the second sector gear 913 is meshed with one of the racks 909, the first sector gear 912 and the second sector gear 913 penetrate through the second through hole 915, the two rotating shafts 902 are respectively and fixedly connected with a first gear 911, the two first gears 911 are meshed with each other, and one end of one rotating shaft 902 is connected with the transmission mechanism 10.

One of the rotating shafts 902 can be driven to rotate through the transmission mechanism 10, the rotating shaft 902 drives one of the first gears 911 to rotate, and as the two first gears 911 are meshed, the first gear 911 drives the other first gear 911 to reversely rotate, one first gear 911 drives the first sector gear 912 to rotate, the other first gear 911 drives the second sector gear 913 to reversely rotate, when the second sector gear 913 rotates to a rack 909 at one side of an adjacent connecting column 906, the second sector gear 913 can press the rack 909 downwards, so that the connecting column 906 downwards moves, the connecting column 906 can drive a lower pressing plate 908 to downwards move, and therefore, the printed cloth in the conveying process can be flattened; meanwhile, when the second sector gear 913 rotates to the adjacent link 906 side, since the rotation directions of the two first sector gears 911 are opposite, the rotation directions of the first sector gear 912 and the second sector gear 913 are also opposite, and in the initial state, the first sector gear 912 and the second sector gear 913 are installed in the same direction, and when the second sector gear 913 rotates to the adjacent link 906 side, the first sector gear 912 is just far from the rack 909 on the other link 906 side, and at this time, the pressing plate 908 under this link 906 is suspended directly above the printing cloth and does not press the printing cloth; when the second sector gear 913 rotates toward the rack 909 at the side far away from the adjacent connecting post 906, it is similarly obtained that the first sector gear 912 rotates onto the rack 909 at the side of the adjacent connecting post 906, so that the connecting post 906 moves downward, and the pressing plate 908 is driven to move downward, so that the printed cloth can be flattened. Therefore, it can be derived that, in the process that one of the rotating shafts 902 continuously rotates, the two pressing plates 908 sequentially and alternately perform flattening and leveling treatment on the printed cloth in the conveying process, so that the leveling effect on the printed cloth can be improved.

Example 3

Referring to fig. 3 to 8, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the sliding mechanism includes a sliding block 904 and a sliding groove 905, the sliding block 904 is fixedly connected to one end of the fixing rod 901, the sliding groove 905 is opened at one side of the connecting post 906, the sliding block 904 is slidably disposed in the sliding groove 905, the sliding groove 905 is a T-shaped groove, the sliding block 904 is a T-shaped structure, and the sliding block 904 and the sliding groove 905 are mutually matched, and the sliding block 904 slides up and down in the sliding groove 905 and along the axial direction thereof during the up and down movement of the connecting post 906, so that not only can the limiting effect on the connecting post 906 be performed, but also the up and down movement stability of the connecting post 906 can be ensured.

Example 4

Referring to fig. 3 to 8, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the first buffer mechanism 907 includes a first slot 9071 and a first round bar 9072, the first slot 9071 is opened at the lower end of the connection post 906, the first round bar 9072 is fixedly connected to the upper surface of the pressing plate 908, the upper end of the first round bar 9072 is inserted into the first slot 9071 and is fixedly connected with a first limiting block 9073, the lower part of the first round bar 9072 is sleeved with a first spring 9074, the upper end of the first spring 9074 is fixedly connected to the lower end of the connection post 906, and the lower end of the first spring 9074 is fixedly connected to the upper surface of the pressing plate 908, and by the arrangement of the first slot 9071, the first round bar 9072, the first limiting block 9073 and the first spring 9074, on one hand, the buffer effect on the pressing plate 908 can be achieved, so that a certain buffer force can be generated when the pressing plate 908 presses the printing cloth, and damage caused by the excessive pressing force of the pressing plate 908 can be avoided; on the other hand, when the rack 909 on the side of the link 906 is separated from the first sector gear 912 or the second sector gear 913, the link 906 can be pulled up by the buffer force so that the pressing plate 908 can be lifted up away from the printed cloth, thereby realizing that the two pressing plates 908 can alternately press the printed cloth in turn.

Example 5

Referring to fig. 3 to 8, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the second buffer mechanism 910 includes a second slot 9101 and a second round bar 9102, the second slot 9101 is opened at an upper end of the connection post 906, the second round bar 9102 is fixedly connected to a lower surface of the diaphragm 903, and a lower end of the second round bar 9102 is inserted into the second slot 9101 and fixedly connected to a second stopper 9103, a second spring 9104 is sleeved on an upper portion of the second round bar 9102, and an upper end of the second spring 9104 is fixedly connected to a lower surface of the diaphragm 903, and a lower end of the second spring 9104 is fixedly connected to an upper end of the connection post 906, and the second buffer mechanism 910 in this embodiment has the same effect as the first buffer mechanism 907 in embodiment 4, and further enhances a buffer effect by the arrangement of the second buffer mechanism 910, thereby better playing an elastic buffer effect.

Example 6

Referring to fig. 1, 2 and 4, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the transmission mechanism 10 includes a mounting frame 101, a second pulley 104, a third pulley 105, a second gear 107 and a third gear 108, the mounting frame 101 is fixedly connected to one side of the upper surface of the supporting frame 7, the second pulley 104 is rotatably connected to one side of the conveying roller 3, the third pulley 105 is rotatably connected to one side of the winding drum 5, the second gear 107 is rotatably connected to one side of the riser 8, the third gear 108 is fixedly connected to one end of one of the rotating shafts 902, the third gear 108 is located under the second gear 107, the second gear 107 and the third gear 108 are engaged with each other, a motor 102 is fixedly connected to the mounting frame 101, the motor 102 is connected to an external power supply device through a wire, and a switch for controlling the operation of the motor 102 is fixedly connected to the wire.

One end of an output shaft of the motor 102 is fixedly connected with a first belt pulley 103, the first belt pulley 103, a second belt pulley 104 and a third belt pulley 105 are connected with a belt 106, the first belt pulley 103 is fixedly connected to one side of a second gear 107, the motor 102 drives the first belt pulley 103 to rotate by starting the motor 102, on one hand, the rotation of the first belt pulley 103 can drive the second gear 107 to rotate, the second gear 107 drives the third gear 108 to rotate, and the third gear 108 can drive one of the rotating shafts 902 to rotate, so that the whole leveling mechanism 9 operates; on the other hand, the rotation of the first belt pulley 103 can drive the second belt pulley 104 and the third belt pulley 105 to rotate simultaneously under the action of the belt 106, the second belt pulley 104 drives the conveying roller 3 to rotate so as to convey the printing cloth, and the third belt pulley 105 drives the winding drum 5 to rotate so as to wind the printing cloth. Therefore, through the design, the leveling mechanism 9, the conveying roller 3 and the winding drum 5 can be driven to operate simultaneously only by starting the motor 102, so that the equipment cost can be reduced, and the electric energy is saved.

The working flow is as follows:

s1: by starting the motor 102, the motor 102 drives the first belt pulley 103 to rotate;

s2: on the one hand, the rotation of the first belt pulley 103 can drive the second gear 107 to rotate, the second gear 107 drives the third gear 108 to rotate, and the third gear 108 can drive one of the rotating shafts 902 to rotate;

s3: the rotating shaft 902 drives one of the first gears 911 to rotate, and as the two first gears 911 are meshed, the first gears 911 can drive the other first gear 911 to reversely rotate, one first gear 911 drives the first sector gear 912 to reversely rotate, the other first gear 911 drives the second sector gear 913 to reversely rotate, when the second sector gear 913 rotates to the rack 909 at one side of the adjacent connecting column 906, the second sector gear 913 can press the rack 909 downwards, so that the connecting column 906 moves downwards, the connecting column 906 can drive the lower pressing plate 908 to move downwards, and accordingly, the printed cloth in the conveying process can be flattened;

s4: meanwhile, when the second sector gear 913 rotates to the adjacent link 906 side, since the rotation directions of the two first sector gears 911 are opposite, the rotation directions of the first sector gear 912 and the second sector gear 913 are also opposite, and in the initial state, the first sector gear 912 and the second sector gear 913 are installed in the same direction, and when the second sector gear 913 rotates to the adjacent link 906 side, the first sector gear 912 is just far from the rack 909 on the other link 906 side, and at this time, the pressing plate 908 under this link 906 is suspended directly above the printing cloth and does not press the printing cloth;

s5: when the second sector gear 913 rotates towards the rack 909 at the side far away from the adjacent connecting post 906, the first sector gear 912 rotates to the rack 909 at the side of the adjacent connecting post 906, so that the connecting post 906 moves downwards, and the pressing plate 908 is driven to move downwards, so that the printed cloth can be flattened;

s6: on the other hand, the rotation of the first belt pulley 103 can also drive the second belt pulley 104 and the third belt pulley 105 to rotate under the action of the belt 106, the second belt pulley 104 drives the conveying roller 3 to rotate so as to convey the printing cloth, and the third belt pulley 105 drives the winding drum 5 to rotate so as to wind the printing cloth.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a conveying coiling mechanism of printing products, includes base (1), its characterized in that, one side fixedly connected with first support (2) of base (1) upper surface, rotate among first support (2) and be connected with conveying roller (3), the opposite side fixedly connected with second support (4) of base (1) upper surface, rotate among second support (4) and be connected with rolling section of thick bamboo (5), the middle part position fixedly connected with bottom plate (6) of base (1) upper surface, bottom plate (6) upper surface fixedly connected with support frame (7), both sides of support frame (7) upper surface are fixedly connected with riser (8) respectively, two be provided with leveling mechanism (9) between riser (8), just leveling mechanism (9) are located just above bottom plate (6), one side of riser (8) is provided with drive mechanism (10), just leveling mechanism (9) conveying roller (3) and rolling section of thick bamboo (5) between pass through drive mechanism (10) interconnect, in the side (11) of being connected with one side of base (1) upper surface is connected with one side (12) in the third support (11), a second press roller (14) is rotationally connected in the fourth bracket (13), the first press roller (12) and the second press roller (14) are positioned between the conveying roller (3) and the winding drum (5), and the first press roller (12) and the second press roller (14) are respectively positioned at two sides of the bottom plate (6);

the leveling mechanism (9) comprises four fixing rods (901), two rotating shafts (902), two transverse plates (903), two first through holes (914) and a second through hole (915), wherein the four fixing rods (901) are respectively and fixedly connected to two sides of opposite sides of the vertical plates (8), the two rotating shafts (902) are respectively and rotatably connected between the two vertical plates (8) through bearings, the two rotating shafts (902) are positioned between the four fixing rods (901), the two transverse plates (903) are respectively and fixedly connected to top positions between the two vertical plates (8), the two first through holes (914) are respectively and fixedly arranged on two sides of the upper surface of the supporting frame (7), the second through holes (915) are respectively and fixedly connected to two sides of the upper surface of the supporting frame (7), the two first through holes (914) are respectively and mutually communicated with the second through bearings, the two sliding mechanisms (903) positioned on the same side of the two vertical plates (8) are respectively and fixedly connected to the two buffer posts (906) on two sides of the two sliding mechanisms (910) respectively, the two buffer posts (906) are respectively arranged on the two sides of the two buffer mechanisms (906) respectively, the two connecting columns (906) respectively penetrate through the two connecting columns (906) and are arranged in the first through holes (914), the lower ends of the two connecting columns (906) are respectively connected with a first buffer mechanism (907), the lower ends of the two first buffer mechanisms (907) are respectively fixedly connected with a pressing plate (908), the two pressing plates (908) are respectively located right above the bottom plate (6), the opposite sides of the two connecting columns (906) are respectively fixedly connected with racks (909), the two racks (909) are oppositely arranged, the middle part of one rotating shaft (902) is fixedly connected with a first sector gear (912), the other rotating shaft (902) is fixedly connected with a second sector gear (913), the second sector gear (913) is meshed with one of the racks (909), the first sector gear (912) and the second sector gear (913) are respectively penetrated through the second through holes (915), the two rotating shafts (902) are fixedly connected with one first sector gear (911), and the two rotating shafts (902) are respectively meshed with one another rotating shaft (902), and the two rotating shafts (902) are respectively connected with one another rotating shaft (902).

2. The conveying and winding device for printed products according to claim 1, wherein the sliding mechanism comprises a sliding block (904) and a sliding groove (905), the sliding block (904) is fixedly connected to one end of the fixing rod (901), the sliding groove (905) is formed on one side of the connecting column (906), and the sliding block (904) is slidably arranged in the sliding groove (905).

3. A printed product conveying and winding device according to claim 2, characterized in that the chute (905) is a T-shaped chute, the slider (904) is a T-shaped structure, and the slider (904) and the chute (905) are mutually adapted.

4. The conveying and winding device for printed products according to claim 1, wherein the first buffer mechanism (907) comprises a first slot (9071) and a first round rod (9072), the first slot (9071) is formed at the lower end of the connecting column (906), the first round rod (9072) is fixedly connected to the upper surface of the pressing plate (908), the upper end of the first round rod (9072) is inserted into the first slot (9071) and is fixedly connected with a first limiting block (9073), a first spring (9074) is sleeved at the lower part of the first round rod (9072), the upper end of the first spring (9074) is fixedly connected to the lower end of the connecting column (906), and the lower end of the first spring (9074) is fixedly connected to the upper surface of the pressing plate (908).

5. The conveying and winding device for the printed product according to claim 1, wherein the second buffer mechanism (910) comprises a second slot (9101) and a second round rod (9102), the second slot (9101) is formed at the upper end of the connecting column (906), the second round rod (9102) is fixedly connected to the lower surface of the transverse plate (903), the lower end of the second round rod (9102) is inserted into the second slot (9101) and is fixedly connected with a second limiting block (9103), a second spring (9104) is sleeved on the upper portion of the second round rod (9102), the upper end of the second spring (9104) is fixedly connected to the lower surface of the transverse plate (903), and the lower end of the second spring (9104) is fixedly connected to the upper end of the connecting column (906).

6. The conveying and winding device for printed products according to claim 1, wherein the transmission mechanism (10) comprises a mounting frame (101), a second belt pulley (104), a third belt pulley (105), a second gear (107) and a third gear (108), the mounting frame (101) is fixedly connected to one side of the upper surface of the supporting frame (7), the second belt pulley (104) is rotatably connected to one side of the conveying roller (3), the third belt pulley (105) is rotatably connected to one side of the winding drum (5), the second gear (107) is rotatably connected to one side of the vertical plate (8), the third gear (108) is fixedly connected to one end of one rotating shaft (902), the third gear (108) is located under the second gear (107), the second gear (107) is meshed with the third gear (108) mutually, a motor (102) is fixedly connected to the mounting frame (101), one end of a belt pulley (103) of the motor (102) is fixedly connected to one end of the belt pulley (103), and the first belt pulley (104) is fixedly connected to the first belt pulley (103) and the second belt pulley (106) is fixedly connected to one side of the belt pulley (106).