CN112894915A

CN112894915A - Cutting device for printed matter production

Info

Publication number: CN112894915A
Application number: CN202110328888.1A
Authority: CN
Inventors: 龚长兰
Original assignee: Jiangxi Wanlilong Industrial Co ltd
Current assignee: Jiangxi Wanlilong Industrial Co ltd
Priority date: 2021-03-27
Filing date: 2021-03-27
Publication date: 2021-06-04
Anticipated expiration: 2041-03-27
Also published as: CN112894915B

Abstract

The invention discloses a cutting device for printed matter production, which comprises a left leveling device and a support plate, wherein a bearing structure is arranged on the right side of the left leveling device, a right leveling device is arranged on the right upper side of the bearing structure, a pressing device is arranged on the left upper side of the right leveling device, a transverse cutting structure is arranged on the right side of the pressing device, a servo motor is arranged on the right side of the transverse cutting structure, a printed matter structure is placed on the surface of the bearing structure, a support rod is arranged on a bottom plate of the support plate, a strip-shaped hole is formed in the support plate, and a first cam is arranged in a transmission structure. This a cutting device for printed matter production, first cam rotate and drive cutting structure downstream through transmission structure, and cutting structure downstream can cut the operation to the edge of printed matter structure, and the in-process of cutting, printed matter structure can not take place to walk the position, improves the cutting effect to the printed matter structure greatly.

Description

Cutting device for printed matter production

Technical Field

The invention relates to the field of cutting devices, in particular to a cutting device for printed matter production.

Background

Printed books, newspapers and pictures are various printed products and are general terms of various finished products produced by using a printing technology; in daily life, newspapers, books and magazines, maps, posters, advertisements, envelopes, letter papers, file bags, trademarks, labels, business cards, invitation cards, bank notes, greeting cards, desk calendars, wall calendars, picture albums, various certificate cards, packing boxes, gift boxes, circuit boards and the like which people contact are available and belong to the category of printed matters; the printed matter is almost filled in the fields of clothes, food, live and walk of people, and is very close to the life of people.

The image-text printing is still a relatively tedious work, especially, the work is time-consuming and labor-consuming when the printed matter is cut, the traditional printed matter cutting is mostly carried out by a manual hand-held cutting machine, in order to improve the effect of cutting the printed matter, the printed matter is mostly cut by machines, the product for cutting the printed matter is searched, the prior art discloses (application number: CN201920444142.5) an automatic printed matter cutting device, a pressing plate 10 is put against the printed matter, a PLC controller controls a hydraulic telescopic rod 7 to extrude a blade fixing frame 6, a cutting blade 5 and a cutting groove form sliding fit, after the cutting is finished, the PLC controller controls a first electric telescopic rod 9 to ascend, the PLC controller controls a second electric telescopic rod 15 to be matched with a support column 16, a connecting plate 14 and a sliding block to eject waste scraps on the inner wall of the cutting groove and controls a second electric sliding rail 4 to operate, the hairbrush 3 is driven to clean the surface of the placing plate 11, the waste scraps enter the waste scrap collecting frame 13, and when the waste scrap collecting frame 13 needs to be cleaned, the PLC controls the third electric slide rail 17 to drive the waste scrap accommodating basket 13 to extend out; "when the printed matter is cut by the cutting blade 5, the printed matter is not stacked up and cut, which degrades the product quality of the printed matter.

In view of the above, the present invention has been made in view of the above problems.

Disclosure of Invention

The invention provides a cutting device for printed matter production in order to make up for market vacancy.

The present invention is directed to a cutting device for printed matter production to solve the problems set forth in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a cutting device for printed matter production comprises a left leveling device and a support plate, wherein a bearing structure is installed on the right side of the left leveling device, a right leveling device is arranged on the upper right side of the bearing structure, a pressing device is arranged on the upper left side of the right leveling device, a transverse cutting structure is installed on the right side of the pressing device, a servo motor is installed on the right side of the transverse cutting structure, a printed matter structure is placed on the surface of the bearing structure, a support rod is installed on the bottom plate of the support plate, a strip-shaped hole is formed in the support plate, a first cam is installed in a transmission structure arranged on the transverse cutting structure, a second cam is installed on the left side of the first cam, the second cam and the first cam are coaxially arranged, a rotating wheel is arranged at the bottom of the second cam, the rotating wheel bottom is rotatably connected with a pressing mechanism, and one end, far away from the rotating, the outside of transmission structure is the transmission frame, and the transmission frame outside and slider welded fastening, transmission frame bottom and fixed knot construct fixed connection simultaneously to fixed knot constructs the bottom and installs the cutting structure, fixed knot constructs the tip and deflector fixed connection, and deflector internally mounted has the guide bar.

Furthermore, left side leveling device includes left flat board, lead screw, fixation nut, trace and handle, and left flat board bottom and three group lead screw fixed connection, and the distance between two adjacent groups of lead screws equals simultaneously, and the lead screw is kept away from the one end and the trace fixed connection of left flat board, and the one end and the handle fixed connection of lead screw are kept away from to the trace.

Furthermore, the left flat plate is consistent with the right leveling device in length, the lead screw at the bottom of the left flat plate penetrates through the strip-shaped hole, and meanwhile, the lower side of the lead screw is fixedly installed at the bottom of the carrier plate through the fixing nut.

Further, bearing structure includes bracing piece, bar hole and support plate, and the bar hole sets up to two groups in the inside of support plate, and the support plate is the vertical relation with the cutting structure, and the cutting structure includes crosscut blade, mounting hole and fixed plate, and the fixed plate is pegged graft inside the fixed slot, and hexagon socket head cap screw passes fixed orifices and mounting hole spiro union in proper order this moment and is fixed inside the frame.

Further, right leveling device includes that the right side is dull and stereotyped, first fixed block, handle and second fixed block, and on the dull and stereotyped right side wall of right side respectively fixed mounting have first fixed block, second fixed block, fixedly connected with handle between first fixed block, the second fixed block simultaneously.

Furthermore, the transverse cutting structure comprises a transmission structure, a first cam and a cutting structure, the transverse cutting structure is a lifting structure, the first cam is an oval structure made of metal materials, and a rotating shaft of the first cam is fixedly connected with an output shaft of the servo motor.

Further, the transmission structure comprises a sliding rail, a sliding block, a transmission frame, a fixing structure, an inner hexagon bolt, a guide rod, a guide plate and a reset spring, the sliding block is mounted at two ends of the upper portion of the transmission frame, the sliding block is matched with the sliding rail in size, and the sliding block is connected inside the sliding rail in a sliding mode.

Further, fixed knot constructs including fixed frame, fixed slot and fixed orifices, and the deflector is all installed at the both ends of fixed frame, and fixed frame inside has seted up the fixed slot, and the inside guiding hole of having seted up of deflector simultaneously, the size looks adaptation of guiding hole and guide bar, the guide bar is pegged graft inside the guiding hole, and reset spring has been cup jointed to the downside of guide bar, and reset spring sets up the downside at the deflector.

Furthermore, closing device includes second cam, runner, pressure mechanism and flattens the structure, and the second cam sets up with the runner is relative, and the second cam sets up with the runner contact simultaneously.

Further, the pressing mechanism comprises a pressing rod, a limiting plate, a return spring and a limiting rod, the flattening structure comprises a pressing plate and a cushion, the two ends of the pressing rod are fixedly connected with the limiting plates, a limiting hole is formed in the limiting plate, the limiting hole is matched with the limiting rod in size, the limiting rod is inserted into the limiting hole, the bottom of the pressing rod is fixedly connected with the pressing plate, and the cushion is bonded to the bottom of the pressing plate.

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

1. when the pressing device is lifted, the limiting plates at the two ends of the pressing device are internally inserted with limiting rods, so that the pressing plate which moves vertically can be limited and guided, the stability of the pressing plate during working is ensured, and the pressing plate cannot be inclined when lifted; the soft pad adhered to the bottom of the pressing plate can protect the printed matter;

2. the first cam rotates to drive the cutting structure to move downwards through the transmission structure, the cutting structure moves downwards, cutting operation can be carried out on the edge of the printed matter structure, the printed matter structure cannot move in the cutting process, and the cutting effect on the printed matter structure is greatly improved;

3. the handle is held by hand to drive the left flat plate to move transversely on the surface of the carrier plate, and when the position of the left flat plate is adjusted, the fixing nut is screwed down to complete the positioning work of the left flat plate so as to adapt to printed matters with different sizes;

4. the rotating wheel is stressed downwards and drives the flattening structure at the bottom of the rotating wheel to be compressed on the surface of the printed matter, and after the position, which is about to be cut, of the printed matter is compressed through the flattening structure, and then cutting is carried out, the cutting effect is better;

5. when the cross-cutting blade is used for a long time and passivation occurs, the hexagon socket head cap screw can be taken out by using a tool, the cross-cutting blade is replaced, and subsequent cutting work is facilitated.

Drawings

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

FIG. 2 is a schematic cross-sectional view A-A of FIG. 1 illustrating the structure of the present invention;

FIG. 3 is a top view of a carrier plate according to the structure of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line C-C of FIG. 1 of the structure of the present invention;

FIG. 5 is a schematic view of a first cam of the present invention;

FIG. 6 is a schematic view of a cutting structure of the present invention;

FIG. 7 is a schematic view of a right leveling device of the present invention;

FIG. 8 is a bottom view of the securing structure of the present invention;

FIG. 9 is a schematic cross-sectional view B-B of FIG. 1 illustrating the structure of the present invention;

fig. 10 is a second cam operation diagram of the structure of the present invention.

In the figure: 1. a left leveling device; 11. a left plate; 12. a screw rod; 13. fixing a nut; 14. a linkage rod; 15. a grip; 2. a load bearing structure; 21. a support bar; 22. a strip-shaped hole; 23. a carrier plate; 3. a right leveling device; 31. a right plate; 32. a first fixed block; 33. a handle; 34. a second fixed block; 4. a servo motor; 5. a transverse cutting structure; 51. a transmission structure; 511. a slide rail; 512. a slider; 513. a transmission frame; 514. a fixed structure; 5141. a fixing frame; 5142. fixing grooves; 5143. a fixing hole; 515. a hexagon socket head cap screw; 516. a guide bar; 517. a guide plate; 518. a return spring; 52. a first cam; 53. cutting the structure; 531. a cross cutting blade; 532. mounting holes; 533. a fixing plate; 6. a pressing device; 61. a second cam; 62. a rotating wheel; 63. a pressing mechanism; 631. pressing the rod; 632. a limiting plate; 633. a return spring; 634. a limiting rod; 64. a flattening structure; 641. pressing a plate; 642. a soft cushion; 7. and (5) printed matter structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows: referring to fig. 1-10, the present invention provides a technical solution: a cutting device for printed matter production comprises a left leveling device 1 and a carrier plate 23, wherein a bearing structure 2 is installed on the right side of the left leveling device 1, a right leveling device 3 is arranged on the right upper side of the bearing structure 2, a pressing device 6 is arranged on the left upper side of the right leveling device 3, a transverse cutting structure 5 is installed on the right side of the pressing device 6, a servo motor 4 is installed on the right side of the transverse cutting structure 5, a printed matter structure 7 is placed on the surface of the bearing structure 2, a support rod 21 is installed on the bottom plate of the carrier plate 23, a strip-shaped hole 22 is formed in the carrier plate 23, a first cam 52 is installed in a transmission structure 51 arranged on the transverse cutting structure 5, a second cam 61 is installed on the left side of the first cam 52, the second cam 61 and the first cam 52 are coaxially arranged, a rotating wheel 62 is arranged at the bottom of the second cam 61, the rotating wheel 62 is rotatably connected with a pressing mechanism 63, one end, far away, the outside of drive structure 51 is drive frame 513, and the outside of drive frame 513 and slider 512 welded fastening, and drive frame 513 bottom and fixed knot construct 514 fixed connection simultaneously to cutting structure 53 is installed to fixed knot construct 514 bottom, and the tip and the deflector 517 fixed connection of fixed knot construct 514, and deflector 517 internally mounted has guide bar 516.

The printed matter to be cut is placed on the carrier plate 23, the left side of the printed matter is aligned with the left leveling device 1, the right leveling device 3 is held by hands, the right leveling device 3 is aligned with the right side of the printed matter, so that the printed matter can be neatly placed on the carrier plate 23, after the printed matter is placed, an external switch of the servo motor 4 is started, an output shaft of the servo motor 4 drives the first cam 52 and the second cam 61 to rotate respectively, the second cam 61 rotates to drive the pressing mechanism 63 and the flattening structure 64 to move downwards through the rotating wheel 62, the second cam 61 is in contact with the rotating wheel 62 during rotation, the rotating wheel 62 rotates while moving downwards, the transmission is more smooth, the flattening structure 64 is pressed on the surface of the printed matter structure 7, meanwhile, the first cam 52 rotates to drive the cutting structure 53 to move downwards through the transmission structure 51, cutting structure 53 moves down, can cut the operation to the edge of printed matter structure 7, and the in-process of cutting, printed matter structure 7 can not take place to walk the position, improves the cutting effect to printed matter structure 7 greatly.

The second embodiment is as follows: as shown in fig. 1-2, the left leveling device 1 includes a left plate 11, screws 12, a fixing nut 13, a linkage 14 and a handle 15, the bottom of the left plate 11 is fixedly connected to three groups of screws 12, the distances between two adjacent groups of screws 12 are equal, one end of each screw 12, which is far away from the left plate 11, is fixedly connected to the linkage 14, and one end of each linkage 14, which is far away from the screw 12, is fixedly connected to the handle 15; the printed matter structure 7 is placed on the support plate 23 and pushed inwards with force, so that one end of the printed matter structure 7 is in contact with the left flat plate 11 in order, paper in the printed matter structure 7 is prevented from being uneven, and the cutting effect of the printed matter is improved.

The third concrete implementation mode: as shown in fig. 3, the left plate 11 and the right leveling device 3 have the same length, and the lead screw 12 at the bottom of the left plate 11 is disposed through the strip-shaped hole 22, and the lower side of the lead screw 12 is fixedly mounted at the bottom of the carrier plate 23 through the fixing nut 13; the position of the left flat plate 11 on the carrier plate 23 can be adjusted so as to adapt to printed matters with different sizes, when the position of the left flat plate 11 needs to be adjusted, the fixing screw cap 13 is loosened, the handle 15 is held by hand, the left flat plate 11 is driven to move transversely on the surface of the carrier plate 23, when the position of the left flat plate 11 is adjusted, the fixing screw cap 13 is screwed down, the positioning work of the left flat plate 11 is completed, and the printed matters with different sizes are adapted.

The fourth concrete implementation mode: as shown in fig. 1, 4, 6 and 8, the carrying structure 2 includes a support rod 21, strip-shaped holes 22 and a support plate 23, the strip-shaped holes 22 are arranged in two groups inside the support plate 23, the support plate 23 is in a perpendicular relationship with the cutting structure 53, the cutting structure 53 includes a cross-cutting blade 531, a mounting hole 532 and a fixing plate 533, the fixing plate 533 is inserted into the fixing groove 5142, and the hexagon socket head cap screw 515 is screwed inside the fixing frame 5141 sequentially passing through the fixing hole 5143 and the mounting hole 532; for detachable structure between crosscut blade 531 and the fixed frame 5141, when crosscut blade 531 live time is of a specified duration, take place the passivation in the time, can use the instrument to take out hexagon socket head cap screw 515, change work to crosscut blade 531, be convenient for going on of subsequent cutting work.

The fifth concrete implementation mode: as shown in fig. 1 and 7, the right leveling device 3 includes a right plate 31, a first fixing block 32, a handle 33, and a second fixing block 34, wherein the right side wall of the right plate 31 is fixedly provided with the first fixing block 32 and the second fixing block 34, and the handle 33 is fixedly connected between the first fixing block 32 and the second fixing block 34; when the printed matter is placed on the carrier plate 23, the right leveling device 3 can be estimated, the right leveling device 3 is leveled with one side of the printed matter, and when the right leveling device 3 is used, the handle 33 is held by the right hand, so that the hand is prevented from being accidentally injured by the cutting structure 53.

The sixth specific implementation mode: as shown in fig. 1, the transverse cutting structure 5 includes a transmission structure 51, a first cam 52 and a cutting structure 53, the transverse cutting structure 5 is a lifting structure, the first cam 52 is an oval structure made of metal material, and a rotating shaft of the first cam 52 is fixedly connected with an output shaft of the servo motor 4; the first cam 52 rotates to drive the transmission structure 51 to move up and down, the transmission structure 51 can drive the cutting structure 53 to move up and down, the cutting structure 53 moves downwards to cut the printed matter, and when the transverse cutting blade 531 cuts the printed matter, the lower end of the transverse cutting blade 531 extends into a groove formed in the surface of the support plate 23 to protect the transverse cutting blade 531.

The seventh embodiment: as shown in fig. 4, the transmission structure 51 includes a sliding rail 511, a sliding block 512, a transmission frame 513, a fixing structure 514, an inner hexagon bolt 515, a guide rod 516, a guide plate 517 and a return spring 518, the sliding block 512 is installed at both ends of the upper portion of the transmission frame 513, the sliding block 512 is adapted to the size of the sliding rail 511, and the sliding block 512 is slidably connected inside the sliding rail 511; when the transmission frame 513 is lifted, the sliding blocks 512 at two ends of the transmission frame are respectively connected in the sliding rails 511 in a sliding manner, so that the transmission frame 513 moving vertically can be limited and guided, the stability of the transmission frame 513 during working is ensured, and the transmission frame 513 is prevented from being inclined when lifted.

The specific implementation mode is eight: as shown in fig. 8, the fixing structure 514 includes a fixing frame 5141, a fixing groove 5142 and a fixing hole 5143, guide plates 517 are mounted at two ends of the fixing frame 5141, the fixing groove 5142 is formed inside the fixing frame 5141, a guide hole is formed inside the guide plate 517, the guide hole is matched with the guide rod 516 in size, the guide rod 516 is inserted into the guide hole, a return spring 518 is sleeved on the lower side of the guide rod 516, and the return spring 518 is disposed on the lower side of the guide plate 517; when the fixed structure 514 drives the cutting structure 53 to go up and down, the guide bars 516 are inserted into the guide plates 517 at the two ends of the fixed structure, so that the cutting structure 53 for the lifting operation can be limited and guided, and the cutting structure 53 is prevented from inclining when being cut.

The specific implementation method nine: as shown in fig. 1, 9 and 10, the pressing device 6 includes a second cam 61, a rotating wheel 62, a pressing mechanism 63 and a flattening structure 64, wherein the second cam 61 is disposed opposite to the rotating wheel 62, and the second cam 61 is disposed in contact with the rotating wheel 62; the second cam 61 acts on the rotating wheel 62 through a convex block on the second cam, the rotating wheel 62 is stressed downwards and drives the flattening structure 64 to be compressed on the surface of a printed matter, and after the printed matter is compressed through the flattening structure 64 near a position where cutting is to be performed, the cutting effect is better when the cutting is performed again.

The detailed implementation mode is ten: as shown in fig. 9 and 10, the pressing mechanism 63 includes a pressing rod 631, a limiting plate 632, a return spring 633 and a limiting rod 634, the pressing structure 64 includes a pressing plate 641 and a cushion 642, both ends of the pressing rod 631 are fixedly connected to the limiting plate 632, a limiting hole is formed in the limiting plate 632, the limiting hole is adapted to the size of the limiting rod 634, the limiting rod 634 is inserted into the limiting hole, the bottom of the pressing rod 631 is fixedly connected to the pressing plate 641, and the cushion 642 is bonded to the bottom of the pressing plate 641; when the pressing rod 631 goes up and down, the limiting rods 634 are inserted into the limiting plates 632 at the two ends of the pressing rod, so that the pressing plate 641 moving vertically can be limited and guided, the stability of the pressing plate 641 during working is ensured, and the pressing plate 641 cannot incline when going up and down; a soft pad 642 bonded to the bottom of the platen 641 protects the printed product. The both sides of pressing mechanism 63 all are provided with the mounting panel, and pressing mechanism 63 fixes the roof lower surface at device body frame through the mounting panel at its both ends simultaneously, and the distance between two sets of mounting panels is greater than the size of second cam 61 simultaneously for can not take place between two sets of mounting panels and the second cam 61 to move and interfere.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A cutting device for printed matter production, includes left leveling device (1) and support plate (23), its characterized in that: the printing machine is characterized in that a bearing structure (2) is installed on the right side of the left leveling device (1), a right leveling device (3) is arranged on the upper right side of the bearing structure (2), a pressing device (6) is arranged on the upper left side of the right leveling device (3), a transverse cutting structure (5) is installed on the right side of the pressing device (6), a servo motor (4) is installed on the right side of the transverse cutting structure (5), a printed matter structure (7) is placed on the surface of the bearing structure (2), a supporting rod (21) is installed on a bottom plate of the support plate (23), a strip-shaped hole (22) is formed in the support plate (23), a first cam (52) is installed in a transmission structure (51) arranged on the transverse cutting structure (5), a second cam (61) is installed on the left side of the first cam (52), the second cam (61) and the first cam (52) are coaxially arranged, and a rotating wheel (62), runner (62) and pressure actuating mechanism (63) rotate to be connected, and press actuating mechanism (63) to keep away from the one end of runner (62) and flatten structure (64) fixed connection, the outside of transmission structure (51) is transmission frame (513), and transmission frame (513) outside and slider (512) welded fastening, transmission frame (513) bottom and fixed knot structure (514) fixed connection simultaneously to cutting structure (53) are installed to fixed knot structure (514) bottom, the tip and deflector (517) fixed connection of fixed knot structure (514), and deflector (517) internally mounted has guide bar (516).

2. A cutting device for the production of printed products according to claim 1, characterized in that: the left leveling device (1) comprises a left flat plate (11), a screw rod (12), a fixing nut (13), a linkage rod (14) and a handle (15), the bottom of the left flat plate (11) is fixedly connected with three groups of screw rods (12), the distance between every two adjacent groups of screw rods (12) is equal, one end, far away from the left flat plate (11), of each screw rod (12) is fixedly connected with the linkage rod (14), and one end, far away from the screw rod (12), of each linkage rod (14) is fixedly connected with the handle (15).

3. A cutting device for the production of printed products according to claim 2, characterized in that: the length of the left flat plate (11) is consistent with that of the right leveling device (3), the lead screw (12) at the bottom of the left flat plate (11) penetrates through the strip-shaped hole (22), and meanwhile, the lower side of the lead screw (12) is fixedly installed at the bottom of the support plate (23) through the fixing nut (13).

4. A cutting device for the production of printed products according to claim 1, characterized in that: bearing structure (2) include bracing piece (21), bar hole (22) and support plate (23), bar hole (22) set up to two groups in the inside of support plate (23), support plate (23) are the vertical relation with cutting structure (53), cutting structure (53) are including crosscut blade (531), mounting hole (532) and fixed plate (533), and fixed plate (533) are pegged graft inside fixed slot (5142), hexagon socket head cap screw (515) pass fixed hole (5143) and mounting hole (532) spiro union inside fixed frame (5141) in proper order this moment.

5. A cutting device for the production of printed products according to claim 1, characterized in that: the right leveling device (3) comprises a right flat plate (31), a first fixing block (32), a handle (33) and a second fixing block (34), wherein the right side wall of the right flat plate (31) is fixedly provided with the first fixing block (32) and the second fixing block (34) respectively, and the handle (33) is fixedly connected between the first fixing block (32) and the second fixing block (34).

6. A cutting device for the production of printed products according to claim 1, characterized in that: the transverse cutting structure (5) comprises a transmission structure (51), a first cam (52) and a cutting structure (53), the transverse cutting structure (5) is a lifting structure, the first cam (52) is an oval structure made of metal materials, and a rotating shaft of the first cam (52) is fixedly connected with an output shaft of the servo motor (4).

7. Cutting device for the production of printed products according to claim 6, characterized in that: transmission structure (51) include slide rail (511), slider (512), transmission frame (513), fixed knot constructs (514), hexagon socket head cap screw (515), guide bar (516), deflector (517) and reset spring (518), and all install slider (512) at the upper portion both ends of transmission frame (513), slider (512) and the size looks adaptation of slide rail (511), and slider (512) sliding connection is in the inside of slide rail (511) simultaneously.

8. Cutting device for the production of printed products according to claim 6, characterized in that: fixed knot constructs (514) including fixed frame (5141), fixed slot (5142) and fixed orifices (5143), and deflector (517) are all installed at the both ends of fixed frame (5141), fixed slot (5142) have been seted up to fixed frame (5141) inside, the guiding hole has been seted up to deflector (517) inside simultaneously, the guiding hole and the size looks adaptation of guide bar (516), guide bar (516) are pegged graft inside the guiding hole, reset spring (518) have been cup jointed to the downside of guide bar (516), reset spring (518) set up the downside at deflector (517).

9. A cutting device for the production of printed products according to claim 1, characterized in that: the pressing device (6) comprises a second cam (61), a rotating wheel (62), a pressing mechanism (63) and a flattening structure (64), the second cam (61) and the rotating wheel (62) are arranged oppositely, and meanwhile the second cam (61) is arranged in contact with the rotating wheel (62).

10. A cutting device for the production of printed products according to claim 9, characterized in that: pressing mechanism (63) including pressure pole (631), limiting plate (632), return spring (633) and gag lever post (634), structure (64) that flattens includes clamp plate (641) and cushion (642), the equal fixedly connected with limiting plate (632) in both ends of pressure pole (631), and limiting plate (632) inside has seted up spacing hole, the size looks adaptation of spacing hole and gag lever post (634), gag lever post (634) are pegged graft in spacing downthehole portion simultaneously, pressure pole (631) bottom and clamp plate (641) fixed connection, the bottom of clamp plate (641) bonds there is cushion (642).