CN112757763B

CN112757763B - High-efficient printing machine

Info

Publication number: CN112757763B
Application number: CN202110004000.9A
Authority: CN
Inventors: 刘颖璇; 卞敬培
Original assignee: Rizhao Zhide Printing Co ltd
Current assignee: Rizhao Zhide Printing Co ltd
Priority date: 2021-01-04
Filing date: 2021-01-04
Publication date: 2022-08-09
Anticipated expiration: 2041-01-04
Also published as: CN112757763A

Abstract

The invention relates to a high-efficiency printing machine, which relates to the technical field of packaging bag printing, and comprises a raw material roll to be printed, an auxiliary device for assisting printing, a printing device for printing the raw material roll and a cutting device for cutting the raw material roll; the auxiliary device comprises an installation block, a placing groove, a conveying channel, a first installation groove, a second installation groove, a pushing cylinder, a limiting block and an auxiliary assembly, the printing device comprises an installation plate, a printing cylinder, a printing plate and a printing groove, and the cutting device comprises a first auxiliary groove, a second auxiliary groove, a hot melting knife, a cutting cylinder and a cutting block; the automatic printing machine has the effects of automatically printing, reducing the labor amount of workers, improving the production efficiency and reducing the personal safety hidden danger of the workers.

Description

High-efficient printing machine

Technical Field

The invention relates to the technical field of printing machines, in particular to an efficient printing machine.

Background

The printing machine is frequently used in the production process, the printing is to transfer printing ink to the surfaces of paper, textiles, plastic products, leather, PVC, PC and other materials by the working procedures of plate making, ink applying, pressurizing and the like on original documents such as characters, pictures, photos, anti-counterfeiting and the like, and the packaging bag is a bag for packaging various articles, so that goods are convenient to transport and easy to store in the production process, and can be widely used in daily life and industrial production; along with the improvement of the living standard, various types of packaging bags are developed, the printing of the packaging bags in daily life is gradually promoted, and the packaging bags are popular with people in daily life in various ways through the printing technology;

the existing printing technology is that packing bags needing to be printed are often picked up by workers, the surfaces of the packing bags are flattened regularly by a specification plate manually below a printing machine, then the outer surfaces of the packing bags are printed by the printing machine, and when a large number of packing bags are required to be printed, a large number of workers need to be used and the workers work below the printing machine, so that certain potential safety hazards exist.

The above prior art solutions have the following drawbacks: when a large amount of printing wrapping bags are needed, a large amount of manpower is often needed, and in work, a worker is located below the printing machine for manual operation, certain potential safety hazards can be caused to personal safety of the worker, and therefore the space capable of being improved is reserved when the wrapping bags are printed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the efficient printing machine which has the effects of automatically printing, reducing the labor amount of workers, improving the production efficiency and reducing the personal safety hidden danger of the workers.

The above object of the present invention is achieved by the following technical solutions:

a high-efficiency printing machine comprises a raw material roll to be printed, an auxiliary device for assisting printing, a printing device for printing the raw material roll and a cutting device for cutting the raw material roll;

the auxiliary device comprises an installation block, a placing groove, a conveying channel, a first installation groove, a second installation groove, a pushing cylinder, a limiting block and an auxiliary assembly, wherein the placing groove is formed in the upper end face of the installation block to be used for rotatably installing a raw material roll, the conveying channel is of an L-shaped structure and is formed in the lower end face of the placing groove and penetrates through the right end face of the installation block, two groups of first installation grooves are formed in the first installation groove and are symmetrically formed in the two side walls of the conveying channel and are arranged in a mutually corresponding mode, the second installation groove is formed between the two groups of first installation grooves and is located in the right side wall of the conveying channel, the pushing cylinder is fixedly installed on the right side wall of the second installation groove, the limiting block is installed at the output end of the pushing cylinder and extends towards the opening of the second installation groove, and the auxiliary assembly is installed inside the first installation groove;

the printing device comprises an installation plate, a printing cylinder, a printing plate and a printing groove, wherein the installation plate is L-shaped and is fixedly installed at the lower end of the left side wall of an installation block, the printing cylinder is fixedly installed on the left side wall of the installation plate, the output end of the printing cylinder extends in the opposite direction of the installation block, the printing plate is fixedly installed on the output end of the printing cylinder and is positioned between the installation plate and the installation block, and the printing groove is formed in the left side wall of the installation block and is communicated with the conveying channel;

the cutting device comprises an auxiliary groove, a second auxiliary groove, a hot-melting knife, a cutting cylinder and a cutting block, wherein the first auxiliary groove is formed in the inner wall of the upper end of the conveying channel, the second auxiliary groove is formed in the inner wall of the lower end of the conveying channel, the hot-melting knife is fixedly installed on the inner wall of the upper end of the first auxiliary groove and extends to the second auxiliary groove, the cutting cylinder is fixedly installed on the inner wall of the lower end of the second auxiliary groove, the output end of the cutting cylinder extends to the direction of the hot-melting knife, and the cutting block is fixedly installed on the output end of the cutting cylinder.

As a preferred technical scheme of the invention, the first mounting groove is composed of a moving groove and a rotating groove, the moving groove is arranged on the left end face of the conveying way and is an arc-shaped groove, and the rotating groove is arranged on the right end face of the conveying way and is mutually corresponding to the moving groove.

As a preferred technical scheme of the invention, the auxiliary assembly comprises a first roller, a first shaft, a second roller, a second shaft, a limiting plate, a hollow helical gear, a mounting rod, a matched helical gear, a threaded rod, a movable block, a collision block and a rotating motor, wherein the first roller is arranged in a moving groove through the first shaft, the second roller is arranged in the rotating groove through the second shaft, one end of the limiting plate is fixedly arranged on the outer side wall of the second shaft and fixedly connected with the right side wall of the second roller, the other end of the limiting plate is sleeved on the outer side wall of the first roller and positioned at the right side of the first roller, the hollow helical gear is sleeved on the outer side wall of the first shaft through the mounting rod and is meshed with the hollow helical gear, the threaded rod is fixedly arranged on the upper end face of the matched helical gear, and the movable block is screwed on the outer side wall of the threaded rod and fixedly connected with the right end face of the second shaft, the contact block is fixedly arranged on the upper end face of the threaded rod, the rotating motor is arranged on the outer side wall of the mounting block, and the output end of the rotating motor is fixedly connected with the first shaft.

The pulling device comprises a pulling groove, a rotating block, a rotating shaft, a sliding groove, an ejector rod, an ejector block, a compression spring, a rubber block and a pulling motor, wherein the pulling groove is formed in an installation block, is communicated with a conveying channel and is positioned at the corner of the conveying channel, the rotating block is rotatably installed on two side walls of the pulling groove through the rotating shaft, the pulling motor is fixedly installed on the outer side wall of the installation block, the output end of the pulling motor is fixedly connected with the rotating shaft, the sliding groove is uniformly formed in the outer side wall of the rotating block in the circumferential direction, one end of the compression spring is fixedly installed on the inner wall of the lower end of the sliding groove, the ejector block is fixedly installed at the other end of the compression spring, the ejector rod is fixedly installed on the upper end face of the ejector block, and the rubber block is fixedly installed on the upper end face of the ejector rod.

As a preferred technical scheme, the device further comprises an auxiliary transportation assembly matched with the pulling device, the auxiliary transportation assembly comprises two sets of arrangement grooves, auxiliary motors and rotating rollers, one set of the auxiliary transportation assembly is positioned below the placing groove, the other set of the auxiliary transportation assembly is positioned on the right side of the dividing device, the arrangement grooves are symmetrically arranged on two side walls of the conveying channel, the rotating rollers are rotatably arranged in the arrangement grooves through the auxiliary motors, and the rotating rollers are driven by the rotation of the auxiliary motors.

As a preferred technical scheme, the device comprises a conveying device for conveying the raw material roll, the conveying device comprises a mounting groove, a conveying shaft, a conveying gear, a conveying belt and a conveying motor, the mounting groove is sequentially and uniformly formed in the inner wall of the lower end of the conveying channel, the conveying shaft is rotatably mounted in the mounting groove, the conveying gear is fixedly mounted on the right end face of the conveying shaft, the conveying belt is mounted on the outer side wall of the conveying gear, the conveying motor is fixedly mounted on the outer side wall of the mounting block, and the output end of the conveying motor is fixedly connected with the conveying shaft.

As a preferable technical scheme of the invention, the surface of the conveying belt, which is in contact with the conveying gear, is provided with gear teeth so as to be meshed with the conveying gear.

In summary, the invention includes at least one of the following beneficial technical effects:

1. through the mutual matching of the auxiliary device, the printing device and the cutting device, the raw material roll is fully-mechanized to be printed, manual intervention is not needed in the working process, the printing of the raw material roll can be completed, the printing efficiency is greatly improved, and in the invention, the devices are all arranged in the mounting block, so that the potential safety hazard problem caused by manual operation during printing is further reduced;

2. through the auxiliary assembly, the first roller and the second roller are driven to rotate by the rotating motor, and when the auxiliary assembly works, the second roller is close to the first roller to clamp a raw material to be printed and is tensioned towards two sides, so that the subsequent printing work can be conveniently completed;

3. through the pulling device, the rubber block drives the printed raw material to be wound to the cutting device for transportation, and the friction force between the rubber block and the raw material is increased, so that the raw material can be better transported during operation, the condition that a transportation channel is blocked is avoided, and the working efficiency of the device during operation is further improved.

Drawings

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

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a schematic structural diagram of the auxiliary assembly of the present invention;

FIG. 4 is a front cross-sectional view of the pulling device of the present invention;

FIG. 5 is a schematic view of the body construction of the pulling device of the present invention;

FIG. 6 is a top cross-sectional view of the auxiliary transport assembly of the present invention;

fig. 7 is a schematic structural diagram of the main body of the transportation device of the invention.

In the figure, 1, auxiliary devices; 2. a printing device; 3. a dividing device; 11. mounting blocks; 12. a placement groove; 13. a conveying path; 14. a first mounting groove; 15. mounting grooves II; 16. a push cylinder; 17. a limiting block; 4. an auxiliary component; 21. mounting a plate; 22. a printing cylinder; 23. a printing plate; 24. printing a slot; 31. an auxiliary tank I; 32. a second auxiliary tank; 33. a hot-melting knife; 34. dividing the cylinder; 35. dividing blocks; 141. a moving groove; 142. a rotating groove; 41. a first roller; 42. a first shaft; 43. a second roller; 44. a second shaft; 45. a limiting plate; 46. a hollow helical gear; 47. mounting a rod; 48. matching the bevel gear; 49. a threaded rod; 410. a moving block; 411. a contact block; 412. rotating the motor; 5. a pulling device; 51. pulling the groove; 52. rotating the block; 53. a rotating shaft; 54. a sliding groove; 55. ejecting the rod; 56. ejecting a block; 57. a compression spring; 58. a rubber block; 59. pulling the motor; 6. an auxiliary transport assembly; 61. arranging a groove; 62. an auxiliary motor; 63. rotating the roller; 7. a transportation device; 71. mounting grooves; 72. a transport shaft; 73. a transport gear; 74. a conveyor belt; 75. and (5) a transport motor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, a high efficiency printing press comprises a roll of stock to be printed, and further comprises auxiliary means 1 for assisting printing, printing means 2 for printing the roll of stock, and cutting means 3 for cutting the roll of stock.

Referring to fig. 1, 2 and 3, the auxiliary device 1 includes an installation block 11, a placement groove 12, a conveying channel 13, a first installation groove 14, a second installation groove 15, a pushing cylinder 16, a limiting block 17 and an auxiliary component 4, the placement groove 12 is arranged on the upper end surface of the installation block 11 for rotatably installing a raw material roll, the conveying channel 13 is of an L-shaped structure, the conveying channel 13 is arranged on the lower end surface of the placement groove 12 and penetrates through the right end surface of the installation block 11, two sets of the first installation grooves 14 are arranged, and symmetrically arranged on two side walls of the conveying channel 13 and arranged correspondingly to each other, a second mounting groove 15 is arranged between two first mounting grooves 14 and positioned on the right side wall of the conveying channel 13, a pushing cylinder 16 is fixedly arranged on the right side wall of the second mounting groove 15, and a limiting block 17 is arranged on the output end of the pushing cylinder, the auxiliary component 4 is arranged in the first mounting groove 14 in an extending mode; it should be noted that the first installation groove 14 is composed of a moving groove 141 and a rotating groove 142, the moving groove 141 is opened on the left end surface of the conveying path 13, the moving groove 141 is an arc-shaped groove, and the rotating groove 142 is opened on the right end surface of the conveying path 13 and is arranged corresponding to the moving groove 141; the auxiliary component 4 comprises a first roller 41, a first shaft 42, a second roller 43, a second shaft 44, a limiting plate 45, a hollow bevel gear 46, a mounting rod 47, a matching bevel gear 48, a threaded rod 49, a moving block 410, a collision block 411 and a rotating motor 412, wherein the first roller 41 is arranged in the moving groove 141 through the first shaft 42, the second roller 43 is arranged in the rotating groove 142 through the second shaft 44, one end of the limiting plate 45 is fixedly arranged on the outer side wall of the second shaft 44 and fixedly connected with the right side wall of the second roller 43, the other end of the limiting plate is sleeved on the outer side wall of the first roller 41 and positioned at the right side of the first roller 41, the hollow bevel gear 46 is sleeved on the outer side wall of the first shaft 42 through the mounting rod 47, the matching bevel gear 48 is meshed with the hollow bevel gear 46, the threaded rod 49 is fixedly arranged on the upper end face of the matching bevel gear 48, the moving block 410 is screwed on the outer side wall of the threaded rod 49 and fixedly connected with the right end face of the second shaft 44, the contact block 411 is fixedly arranged on the upper end surface of the threaded rod 49, the rotating motor 412 is arranged on the outer side wall of the mounting block 11, and the output end of the rotating motor is fixedly connected with the first shaft 42;

during specific work, a raw material roll to be printed is placed in the placing groove 12, the raw material is positioned between the two groups of auxiliary assemblies 4, the rotating motor 412 is started at the same time, the raw material is positioned between the first roller 41 and the second roller 43, the rotating motor 412 drives the first roller 41 to rotate, and at the moment, because the limiting plate 45 is connected with the second shaft 44 arranged on the second roller 43, so that the second roller 43 rotates at the same time as the first roller 41 rotates, and when the second roller 43 rotates, the hollow helical gear 46 installed at the periphery of the first shaft 42 engages with the mating helical gear 48, at which time the threaded rod 49 and the mating helical gear 48 start to rotate, so that the moving block 410 slides on the threaded rod 49, and the moving block 410 is fixedly connected with the second shaft 44 so that the second roller 43 slides to the first roller 41 along the middle position of the square-shaped limiting plate 45, while the other auxiliary element 4 rotates in the opposite direction to the auxiliary element 4 to straighten the material for the completion of the subsequent printing operation.

Referring to fig. 2, the printing device 2 includes an installation plate 21, a printing cylinder 22, a printing plate 23 and a printing slot 24, the installation plate 21 is L-shaped and is fixedly installed at the lower end of the left side wall of the installation block 11, the printing cylinder 22 is fixedly installed on the left side wall of the installation plate 21 and the output end thereof extends in the opposite direction of the installation block 11, the printing plate 23 is fixedly installed on the output end of the printing cylinder 22 and is located between the installation plate 21 and the installation block 11, and the printing slot 24 is opened on the left side wall of the installation block 11 and is communicated with the conveying channel 13; at specific during operation, printing device 2 installs between two auxiliary assembly 4, and after auxiliary assembly 4 will need the raw materials of printing to stretch out the back, push cylinder 16 outwards ejecting with stopper 17 this moment, further stretch out the raw materials, and meanwhile, printing cylinder 22 opens, and the promotion printing plate 23 is contradicted with stopper 17 each other, will be located the raw materials printing completion between printing plate 23 and stopper 17.

Referring to fig. 2, the dividing device 3 includes a first auxiliary groove 31, a second auxiliary groove 32, a hot-melting knife 33, a dividing cylinder 34 and a dividing block 35, the first auxiliary groove 31 is disposed on the inner wall of the upper end of the conveying passage 13, the second auxiliary groove 32 is disposed on the inner wall of the lower end of the conveying passage 13, the hot-melting knife 33 is fixedly mounted on the inner wall of the upper end of the first auxiliary groove 31 and extends towards the second auxiliary groove 32, the dividing cylinder 34 is fixedly mounted on the inner wall of the lower end of the second auxiliary groove 32, and the output end of the dividing cylinder extends towards the hot-melting knife 33, and the dividing block 35 is fixedly mounted on the output end of the dividing cylinder 34; during specific work, after the raw material enters between the hot melting knife 33 and the dividing block 35, the hot melting knife 33 is continuously heated, the dividing cylinder 34 is started, the dividing block 35 is pushed upwards, and the printed raw material is cut.

Referring to fig. 2, 4 and 5, the utility model further comprises a pulling device 5, wherein the pulling device 5 comprises a pulling groove 51, a rotating block 52, a rotating shaft 53 and a sliding groove 54, the ejection rod 55, the ejection block 56, the compression spring 57, the rubber block 58 and the pulling motor 59, the pulling groove 51 is formed in the installation block 11, communicated with the conveying channel 13 and located at the corner of the conveying channel 13, the rotation block 52 is rotatably installed on two side walls of the pulling groove 51 through the rotation shaft 53, the pulling motor 59 is fixedly installed on the outer side wall of the installation block 11, the output end of the pulling motor 59 is fixedly connected with the rotation shaft 53, the sliding groove 54 is uniformly formed in the outer side wall of the rotation block 52 in the circumferential direction, one end of the compression spring 57 is fixedly installed on the inner wall of the lower end of the sliding groove 54, the ejection block 56 is fixedly installed at the other end of the compression spring 57, the ejection rod 55 is fixedly installed on the upper end face of the ejection rod 56, and the rubber block 58 is fixedly installed on the upper end face of the ejection rod 55;

at specific during operation, pull motor 59 and open, drive turning block 52 and rotate in pulling groove 51, and the raw materials that the printing was accomplished are located the transportation way and pull between the device 5, increase the raw materials transportation that frictional force will print the completion through block rubber 58 and to cutting device 3 in, and block rubber 58 also has certain effect of smoothing in the pivoted.

Referring to fig. 2 and 6, the auxiliary transportation device 6 is further included, the auxiliary transportation device 6 is matched with the pulling device 5, the auxiliary transportation device 6 includes two sets of arrangement grooves 61, auxiliary motors 62 and rotating rollers 63, the auxiliary transportation device 6 is provided with two sets, one set is located below the placing groove 12, the other set is located at the right side of the dividing device 3, the arrangement grooves 61 are symmetrically arranged on two side walls of the conveying channel 13, the rotating rollers 63 are rotatably installed in the arrangement grooves 61 through the auxiliary motors 62, and the rotating rollers 63 are driven by the rotation of the auxiliary motors 62; at specific during operation, two auxiliary motor 62 start simultaneously, and two auxiliary motor 62 rotation direction are opposite, and meanwhile, the auxiliary transport subassembly 6 that is located the below of standing groove 12 carries out the flattening of first step and the transportation of printing device 2 below with the raw materials that need to print, and the auxiliary transport subassembly 6 that is located the right side of segmenting device 3 will cut apart the raw materials of accomplishing and transport to the exit, and also play the effect of certain flattening in the transportation.

Referring to fig. 2 and 7, the conveying device 7 for conveying the raw material roll is further included, the conveying device 7 includes a mounting groove 71, a conveying shaft 72, a conveying gear 73, a conveying belt 74 and a conveying motor 75, the mounting groove 71 is sequentially and uniformly arranged on the inner wall of the lower end of the conveying channel 13, the conveying shaft 72 is rotatably mounted in the mounting groove 71, the conveying gear 73 is fixedly mounted on the right end face of the conveying shaft 72, the conveying belt 74 is mounted on the outer side wall of the conveying gear 73, the conveying motor 75 is fixedly mounted on the outer side wall of the mounting block 11, and the output end of the conveying motor is fixedly connected with the conveying shaft 72; it should be noted that the side of the conveyor belt 74 contacting the conveyor gear 73 is provided with gear teeth to engage with the conveyor gear 73; in a specific operation, the transportation motor 75 is turned on, the transportation motor 75 drives the transportation shafts 72 to rotate, and the transportation shafts 72 are connected by the transportation belt 74, so that all the transportation shafts 72 rotate after the transportation motor 75 is turned on, thereby transporting the printed raw material.

The implementation principle of the embodiment is as follows:

(1) the material roll to be processed is placed in the placing tank 12.

(2) The raw materials to be printed are stretched through the two groups of auxiliary assemblies 4, and the printing motor drives the printing plate 23 to print the raw materials.

(3) The pulling device 5 and the transport device 7 transport the printed material to the subsequent dividing device 3.

(4) The dividing device 3 divides the printed material.

(5) The auxiliary transportation device 7 transports the divided raw materials to the tail end of the conveying channel 13, and printing work is completed.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: equivalent changes made according to the structure, shape and principle of the invention shall be covered by the protection scope of the invention.

Claims

1. An efficient printing machine, comprising a raw material roll needing printing, and is characterized in that: the device also comprises an auxiliary device (1) for assisting printing, a printing device (2) for printing the raw material roll and a cutting device (3) for cutting the raw material roll;

the auxiliary device (1) comprises an installation block (11), a placement groove (12), a conveying channel (13), a first installation groove (14), a second installation groove (15), a pushing cylinder (16), a limiting block (17) and an auxiliary assembly (4), wherein the placement groove (12) is arranged on the upper end face of the installation block (11) to rotatably install a raw material roll, the conveying channel (13) is of an L-shaped structure, the conveying channel (13) is arranged on the lower end face of the placement groove (12) and penetrates through the right end face of the installation block (11), the first installation grooves (14) are arranged in two groups and symmetrically arranged on two side walls of the conveying channel (13) and are mutually corresponding, the second installation groove (15) is arranged between the two groups of first installation grooves (14) and is positioned on the right side wall of the conveying channel (13), the pushing cylinder (16) is fixedly installed on the right side wall of the second installation groove (15) and is provided with the limiting block (17) at the output end thereof, the auxiliary component (4) is arranged in the first mounting groove (14) in an extending mode and extends towards the opening of the second mounting groove (15);

the first mounting groove (14) is composed of a moving groove (141) and a rotating groove (142), the moving groove (141) is arranged on the left end face of the conveying channel (13), the moving groove (141) is an arc-shaped groove, and the rotating groove (142) is arranged on the right end face of the conveying channel (13) and corresponds to the moving groove (141);

the auxiliary assembly (4) comprises a first roller (41), a first shaft (42), a second roller (43), a second shaft (44), a limiting plate (45), a hollow helical gear (46), a mounting rod (47), a matched helical gear (48), a threaded rod (49), a moving block (410), a collision block (411) and a rotating motor (412), wherein the first roller (41) is arranged in a moving groove (141) through the first shaft (42), the second roller (43) is arranged in a rotating groove (142) through the second shaft (44), the limiting plate (45) is of a square-shaped structure, one end of the limiting plate is fixedly arranged on the outer side wall of the second shaft (44) and is fixedly connected with the right side wall of the second roller (43), the other end of the limiting plate is sleeved on the outer side wall of the first roller (41) and is positioned on the right side of the first roller (41), the hollow helical gear (46) is sleeved on the outer side wall of the first shaft (42) through the mounting rod (47), the matched helical gear (48) is meshed with the hollow helical gear (46), the threaded rod (49) is fixedly mounted on the upper end face of the matched helical gear (48), the moving block (410) is in threaded connection with the outer side wall of the threaded rod (49) and is fixedly connected with the right end face of the second shaft (44), the contact block (411) is fixedly mounted on the upper end face of the threaded rod (49), the rotating motor (412) is mounted on the outer side wall of the mounting block (11), and the output end of the rotating motor is fixedly connected with the first shaft (42);

the printing device (2) comprises a mounting plate (21), a printing cylinder (22), a printing plate (23) and a printing groove (24), wherein the mounting plate (21) is L-shaped and is fixedly mounted at the lower end of the left side wall of the mounting block (11), the printing cylinder (22) is fixedly mounted on the left side wall of the mounting plate (21), the output end of the printing cylinder (22) extends in the opposite direction of the mounting block (11), the printing plate (23) is fixedly mounted on the output end of the printing cylinder (22) and is positioned between the mounting plate (21) and the mounting block (11), and the printing groove (24) is formed in the left side wall of the mounting block (11) and is communicated with the conveying channel (13);

cutting device (3) include auxiliary tank (31), No. two auxiliary tanks (32), hot melt sword (33), cut apart cylinder (34) and cut apart piece (35), the inner wall of conveyer way (13) upper end is seted up in auxiliary tank (31), No. two auxiliary tank (32) are seted up in conveyer way (13) lower extreme inner wall, hot melt sword (33) fixed mounting is in auxiliary tank (31) upper end inner wall and extends the setting to No. two auxiliary tanks (32), cut apart cylinder (34) fixed mounting and extend the setting in hot melt sword (33) direction in No. two auxiliary tank (32) lower extreme inner wall and its output, cut apart piece (35) fixed mounting in and cut apart cylinder (34) output.

2. A high efficiency printing press as claimed in claim 1, wherein: the device comprises a pulling device (5), the pulling device (5) comprises a pulling groove (51), a rotating block (52), a rotating shaft (53), a sliding groove (54), an ejector rod (55), an ejector block (56), a compression spring (57), a rubber block (58) and a pulling motor (59), the pulling groove (51) is arranged inside an installation block (11), communicated with a conveying channel (13) and positioned at the corner of the conveying channel (13), the rotating block (52) is rotatably arranged on two side walls of the pulling groove (51) through the rotating shaft (53), the pulling motor (59) is fixedly arranged on the outer side wall of the installation block (11), the output end of the pulling motor is fixedly connected with the rotating shaft (53), the sliding groove (54) is circumferentially and uniformly arranged on the outer side wall of the rotating block (52), one end of the compression spring (57) is fixedly arranged on the inner wall of the lower end of the sliding groove (54), the ejection block (56) is fixedly arranged at the other end of the compression spring (57), the ejection rod (55) is fixedly arranged on the upper end face of the ejection block (56), and the rubber block (58) is fixedly arranged on the upper end face of the ejection rod (55).

3. A high efficiency printing press as claimed in claim 2, wherein: still including and drag device (5) subsidiary transport subassembly (6) of mutually supporting, subsidiary transport subassembly (6) is including setting up groove (61), auxiliary motor (62) and rotating roller bearing (63), subsidiary transport subassembly (6) are provided with two sets ofly, and a set of standing groove (12) below that is located, and another set of position is right-hand in cutting device (3), set up groove (61) symmetry and set up on conveyer way (13) both sides wall, rotate roller bearing (63) and rotate through auxiliary motor (62) and install in setting up groove (61) and rotate roller bearing (63) and receive auxiliary motor (62) to rotate and order about.

4. A high efficiency printing press as claimed in claim 1, wherein: still including conveyer (7) that is used for transporting the raw materials book, conveyer (7) are including mounting groove (71), transportation axle (72), transportation gear (73), transportation area (74) and transportation motor (75), mounting groove (71) evenly set up in proper order on conveyer way (13) lower extreme inner wall, transportation axle (72) rotate to be installed in mounting groove (71), transportation gear (73) fixed mounting is in transportation axle (72) right-hand member face, transportation area (74) are installed on transportation gear (73) lateral wall, transportation motor (75) fixed mounting is on installation piece (11) lateral wall and its output and transportation axle (72) fixed connection.

5. A high efficiency printing press as claimed in claim 4, wherein: the conveying belt (74) is provided with gear teeth on the surface contacting with the conveying gear (73) and is meshed with the conveying gear (73).