阅读说明：本技术 一种易于操作的油墨印刷装置 (Ink printing device easy to operate ) 是由 宋曜滢 于 2021-09-16 设计创作，主要内容包括：本发明公开了一种易于操作的油墨印刷装置,涉及油墨印刷领域,包括清理加料框架、导向转盘、滑动孔板、V形孔板、凹形孔板、清理板、导向孔板、摆动导柱和加料板,所述清理加料框架的顶端固定连接有用于带动所述导向转盘水平旋转的工作电机,所述导向转盘的顶端边缘固定连接有用于带动所述滑动孔板水平滑动的导向柱,该一种易于操作的油墨印刷装置,通过设置V形孔板和凹形孔板,在清理加料框架中,导向柱转动通过滑动孔板带动V形孔板沿凹形孔板的外壁滑动,同时,V形孔板运动带动从动导柱沿凹形孔板的内壁滑动,从动导柱运动带动与支撑杆相连的清理板以凹形孔板的形状为轨迹滑动,实现印刷板的纵向表面清洁操作。(The invention discloses an easy-to-operate ink printing device, which relates to the field of ink printing and comprises a cleaning and feeding frame, a guide rotary table, a sliding pore plate, a V-shaped pore plate, a concave pore plate, a cleaning plate, a guide pore plate, a swinging guide pillar and a feeding plate, wherein the top end of the cleaning and feeding frame is fixedly connected with a working motor for driving the guide rotary table to horizontally rotate, the edge of the top end of the guide rotary table is fixedly connected with a guide pillar for driving the sliding pore plate to horizontally slide, the guide pillar is arranged in the cleaning and feeding frame, the guide pillar rotates to drive the V-shaped pore plate to slide along the outer wall of the concave pore plate through the sliding pore plate, meanwhile, the V-shaped pore plate drives a driven guide pillar to slide along the inner wall of the concave pore plate, the driven guide pillar drives the cleaning plate connected with a support rod to slide along the shape of the concave pore plate, a longitudinal surface cleaning operation of the printing plate is achieved.)

1. The utility model provides an ink printing device of easy operation, includes reinforced frame of clearance (1), direction carousel (3), slip orifice plate (5), V-arrangement orifice plate (6), spill orifice plate (7), clearance board (10), direction orifice plate (11), swing guide pillar (12) and reinforced board (13), its characterized in that: the top end of the cleaning feeding frame (1) is fixedly connected with a working motor (2) used for driving the guide turntable (3) to rotate horizontally, the top end edge of the guide turntable (3) is fixedly connected with a guide post (4) used for driving the sliding pore plate (5) to slide horizontally, so that the sliding pore plate (5) moves to drive the V-shaped pore plate (6) to slide horizontally along the concave pore plate (7), the connecting part of the V-shaped pore plate (6) and the concave pore plate (7) is movably connected with a driven guide post (8), the side wall of the driven guide post (8) is fixedly connected with a support rod (9) fixedly connected with the cleaning plate (10), so that the cleaning plate (10) moves to drive the swing guide post (12) to slide horizontally along the guide pore plate (11) through the feeding plate (13), and the connecting part of the feeding plate (13) and the cleaning plate (10) is provided with a spring abutting block (14) slidably connected with the cleaning plate (10) .

2. An easy to operate ink printing apparatus as defined in claim 1 wherein: the top fixedly connected with printing mechanism (15) of the reinforced frame of clearance (1), the bottom fixedly connected with base (16) of the reinforced frame of clearance (1), and the top of base (16) is located one side fixedly connected with shutdown mechanism (17) of the reinforced frame of clearance (1).

3. An easy to operate ink printing apparatus as defined in claim 1 wherein: printing mechanism (15) are provided with four groups, and the position relation equidistance of four groups of printing mechanism (15) distributes on base (16) top, the vertical height of V-arrangement orifice plate (6) equals with the vertical height of spill orifice plate (7), and the axis of spill orifice plate (7) parallels with direction orifice plate (11), the length of spill orifice plate (7) and the length difference of direction orifice plate (11) equal with the width of reinforced board (13).

4. An easy to operate ink printing apparatus as defined in claim 2 wherein: the printing mechanism (15) comprises a printing motor (1501), a threaded rod (1502), a threaded sliding block (1503), a movement abutting block (1504), a lifting abutting block (1505), a printing plate (1506), a toothed plate (1507), a working gear (1508), a rotating guide plate (1509), a rotating sleeve (1510), a working guide rail (1511), a movement sliding column (1512), a scraping plate (1513), a limiting plate (1514) and a limiting pore plate (1515), the top end of the printing mechanism (15) is fixedly connected with the printing motor (1501), the output end of the printing motor (1501) is provided with the threaded rod (1502), the outer wall of the threaded rod (1502) is in threaded connection with the threaded sliding block (1503), the bottom end of the threaded sliding block (1503) is fixedly connected with the movement abutting block (1504), the side wall of the movement abutting block (1504) is abutted with the lifting abutting block (1505) in sliding connection with the side wall of the printing mechanism (15), and the bottom end of the lifting abutting block (1505) is fixedly connected with a printing plate (1506) which is in sliding connection with the outer wall of the printing mechanism (15), the top end of the thread sliding block (1503) is fixedly connected with a toothed plate (1507), the meshing surface of the toothed plate (1507) is meshed with a working gear (1508), the side wall of the working gear (1508) is fixedly connected with a rotating guide plate (1509), the outer wall of the rotating guide plate (1509) is sleeved with a rotating sleeve (1510), the outer wall of the rotating sleeve (1510) is movably connected with a working guide rail (1511) which is fixedly connected with the outer wall of the printing mechanism (15), the connecting part of the working guide rail (1511) and the rotating sleeve (1510) is provided with a moving sliding column (1512), one end of the moving sliding column (1512), which is far away from the rotating sleeve (1510), is positioned above the printing plate (1506) and is rotatably connected with a scraping plate (1513), and the side wall of the scraping plate (1513) is in sliding connection with a limit plate (1514), the outer wall of the limiting plate (1514) is connected with a limiting hole plate (1515) fixedly connected with the bottom end of the working guide rail (1511) in a sliding mode.

5. An easy to operate ink printing apparatus as defined in claim 4 wherein: the lifting support block (1505) forms a lifting structure between the threaded sliding block (1503) and the movement support block (1504) and the printing mechanism (15), the lifting height of the lifting support block (1505) is equal to the distance between the printing plate (1506) and the printing mechanism (15), the toothed plates (1507) are provided with two groups, and the position relation of the two groups of toothed plates (1507) is centrosymmetric about the central axis of the threaded sliding block (1503).

6. An easy to operate ink printing apparatus as defined in claim 4 wherein: the motion sliding column (1512) forms a sliding structure through rotating between the guide plate (1509) and the rotating sleeve (1510) and the working guide rail (1511), the shape of the working guide rail (1511) is a parallelogram, the length of the bottom edge of the working guide rail (1511) is equal to the width of the printing plate (1506), and the vertical height of the working guide rail (1511) is equal to the length from the scraper (1513) to the printing plate (1506).

7. An easy to operate ink printing apparatus as defined in claim 4 wherein: the scraper blade (1513) constitutes elevation structure through between the hypotenuse of motion traveller (1512) and work guide rail (1511) and limiting plate (1514), and the vertical height of the lift height of scraper blade (1513) and work guide rail (1511) equals, limiting plate (1514) passes through and constitutes sliding structure between the upper and lower both sides of scraper blade (1513) and work guide rail (1511) and limiting orifice plate (1515), and the slip length of limiting plate (1514) equals with the length of limiting orifice plate (1515).

8. An easy to operate ink printing apparatus as defined in claim 2 wherein: the cutting mechanism (17) comprises a cutting motor (1701), a driving gear (1702), rolling rollers (1703), a connecting gear (1704), an electric push rod (1705), a transmission gear (1706), a driven gear (1707), a rotary turntable (1708), a rotary guide post (1709), a telescopic trough plate (1710), a working trough plate (1711), a support connecting rod (1712), a working connecting rod (1713) and a cutting knife (1714), wherein the side wall of the cutting mechanism (17) is fixedly connected with the cutting motor (1701), the driving gear (1702) is installed at the output end of the cutting motor (1701), the rolling rollers (1703) are fixedly connected with the side wall of the driving gear (1702), the meshing surface of the driving gear (1702) is meshed with the connecting gear (1704), the side wall of the connecting gear (1704) is abutted against the electric push rod (1705) fixedly connected with the side wall of the cutting mechanism (17), and the transmission gear (1706) is fixedly connected with the side wall of the connecting gear (1704), which is far away from the electric push rod 1705), and the meshing surface of drive gear (1706) meshes driven gear (1707), driven gear (1707)'s lateral wall fixedly connected with rotation carousel (1708), and the lateral wall edge fixedly connected with of rotation carousel (1708) rotates guide pillar (1709), the outer wall swing joint of rotation guide pillar (1709) has flexible frid (1710) with shutdown mechanism (17) lateral wall sliding connection, the lateral wall fixedly connected with work frid (1711) of flexible frid (1710), and the inner wall sliding connection of work frid (1711) has support link (1712) with shutdown mechanism (17) lateral wall fixed connection, support link (1712) have work link (1713) with the junction position of work frid (1711) soon, and the bottom of work link (1713) has connect with the cutting knife (1714) of shutdown mechanism (17) lateral wall sliding connection soon.

9. An easy to operate ink printing apparatus as defined in claim 8 wherein: the telescopic trough plate (1710) forms a telescopic structure between the rotary turntable (1708) and the rotary guide column (1709) and the cutting mechanism (17), the telescopic length of the telescopic trough plate (1710) is equal to the diameter of the rotary turntable (1708), the support connecting rod (1712) forms a rotary structure between the working trough plate (1711) and the cutting mechanism (17), the length of the support connecting rod (1712) is equal to that of the working connecting rod (1713), and the cutting knife (1714) forms a lifting structure between the support connecting rod (1712) and the working connecting rod (1713) and the cutting mechanism (17).

Technical Field

The invention relates to the field of ink printing, in particular to an ink printing device easy to operate.

Background

The ink printing is a technology of transferring ink to the surface of paper, textile, plastic, leather, PVC, PC and other materials through plate making, inking, pressing and other steps to copy the content of the original in batch, and the printing is a process of transferring the approved printing plate to the printing stock through printing machinery and special ink.

However, the existing ink printing device has the problem that the printed matter is deviated when in use, so that the printing effect of the printed matter is not ideal, unqualified products are improved, ink accumulation occurs when in use, the printed matter cannot be cleaned in time, the printed color deviates, and the problem that continuous cutting cannot be performed when in use is caused, so that the cutting efficiency is low, products are accumulated, and the requirements of people cannot be met.

Disclosure of Invention

The present invention is directed to provide an ink printing apparatus which is easy to handle, and solves the problems of printed matter deviation, ink accumulation, and inability to continuously cut, which have been suggested in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an ink printing device easy to operate comprises a cleaning and feeding frame, a guide turntable, a sliding orifice plate, a V-shaped orifice plate, a concave orifice plate, a cleaning plate, a guide orifice plate, a swing guide post and a feeding plate, the top end of the cleaning and feeding frame is fixedly connected with a working motor for driving the guide turntable to rotate horizontally, the top end edge of the guide turntable is fixedly connected with a guide post for driving the sliding pore plate to horizontally slide, so that the sliding pore plate moves to drive the V-shaped pore plate to horizontally slide along the concave pore plate, the connecting part of the V-shaped pore plate and the concave pore plate is movably connected with a driven guide post, the side wall of the driven guide post is fixedly connected with a support rod fixedly connected with the cleaning plate, so that the cleaning plate moves to drive the swinging guide post to horizontally slide along the guide hole plate through the feeding plate, the connecting part of the feeding plate and the cleaning plate is provided with a spring abutting block which is in sliding connection with the cleaning plate.

Preferably, the top fixedly connected with printing mechanism of the reinforced frame of clearance, the bottom fixedly connected with base of the reinforced frame of clearance, and the top of base is located the one side fixedly connected with shutdown mechanism of the reinforced frame of clearance.

Preferably, printing mechanism is provided with four groups, and four groups of printing mechanism's position relation equidistance distributes on the base top, the vertical height of V-arrangement orifice plate equals with the vertical height of spill orifice plate, and the axis of spill orifice plate parallels with the direction orifice plate, the length of spill orifice plate equals with the width of charging plate with the difference between the length of direction orifice plate.

Preferably, the printing mechanism comprises a printing motor, a threaded rod, a threaded slider, a movement abutting block, a lifting abutting block, a printing plate, a toothed plate, a working gear, a rotating guide plate, a rotating sleeve, a working guide rail, a movement sliding column, a scraper blade, a limiting plate and a limiting orifice plate, the top end of the printing mechanism is fixedly connected with the printing motor, the output end of the printing motor is provided with the threaded rod, the outer wall of the threaded rod is in threaded connection with the threaded slider, the bottom end of the threaded slider is fixedly connected with the movement abutting block, the side wall of the movement abutting block is abutted with the lifting abutting block which is in sliding connection with the side wall of the printing mechanism, the bottom end of the lifting abutting block is fixedly connected with the printing plate which is in sliding connection with the outer wall of the printing mechanism, the top end of the threaded slider is fixedly connected with the toothed plate, the meshing surface of the toothed plate is meshed with the working gear, and the side wall of the working gear is fixedly connected with the rotating guide plate, and the outer wall that rotates the baffle has cup jointed rotatory sleeve, rotatory sleeve's outer wall swing joint has the work guide rail with printing mechanism outer wall fixed connection, and the work guide rail is provided with the motion traveller with rotatory telescopic connection position, the top that the one end that the rotatory sleeve was kept away from to the motion traveller is located the printing plate has connect the scraper blade soon, and the lateral wall sliding connection of scraper blade has the limiting plate, the outer wall sliding connection of limiting plate has the spacing orifice plate with work guide rail bottom fixed connection.

Preferably, the lifting support block is connected with the printing mechanism through a threaded sliding block and a movement support block to form a lifting structure, the lifting height of the lifting support block is equal to the distance between the printing plate and the printing mechanism, the two groups of toothed plates are arranged, and the position relation of the two groups of toothed plates is centrosymmetric about the central axis of the threaded sliding block.

Preferably, the moving sliding column forms a sliding structure with the working guide rail through the rotating guide plate and the rotating sleeve, the appearance of the working guide rail is a parallelogram, the length of the bottom edge of the working guide rail is equal to the width of the printing plate, and the vertical height of the working guide rail is equal to the length from the scraper to the printing plate.

Preferably, the scraper blade passes through and constitutes elevation structure between the hypotenuse of motion traveller and work guide rail and the limiting plate, and the elevation height of scraper blade equals with the vertical height of work guide rail, the limiting plate passes through and constitutes sliding structure between the upper and lower both sides of scraper blade and work guide rail and the spacing orifice plate, and the slip length of limiting plate equals with the length of spacing orifice plate.

Preferably, the cutting mechanism comprises a cutting motor, a driving gear, a rolling roller, a connecting gear, an electric push rod, a transmission gear, a driven gear, a rotating turntable, a rotating guide pillar, a telescopic trough plate, a working trough plate, a supporting connecting rod, a working connecting rod and a cutting knife, the side wall of the cutting mechanism is fixedly connected with the cutting motor, the output end of the cutting motor is provided with the driving gear, the side wall of the driving gear is fixedly connected with the rolling roller, the meshing surface of the driving gear is meshed with the connecting gear, the side wall of the connecting gear is abutted with the electric push rod fixedly connected with the side wall of the cutting mechanism, the side wall of the connecting gear far away from the electric push rod is fixedly connected with the transmission gear, the meshing surface of the transmission gear is meshed with the driven gear, the side wall of the driven gear is fixedly connected with the rotating turntable, and the edge of the side wall of the rotating turntable is fixedly connected with the rotating guide pillar, the outer wall swing joint of rotatory guide pillar has the flexible frid with shutdown mechanism lateral wall sliding connection, the lateral wall fixedly connected with work frid of flexible frid, and the inner wall sliding connection of work frid have with shutdown mechanism lateral wall fixed connection's supporting rod, the connecting point of supporting rod and work frid has connect the work connecting rod soon, and the bottom of work connecting rod has connect soon with shutdown mechanism lateral wall sliding connection's cutting knife.

Preferably, the telescopic trough plate forms a telescopic structure through the rotary turntable and between the rotary guide pillar and the cutting mechanism, the telescopic length of the telescopic trough plate is equal to the diameter of the rotary turntable, the support connecting rod forms a rotary structure through the working trough plate and the cutting mechanism, the length of the support connecting rod is equal to that of the working connecting rod, and the cutting knife forms a lifting structure through the support connecting rod and between the working connecting rod and the cutting mechanism.

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

1. this printing ink printing device of easily operating supports the piece and supports with going up and down through setting up the motion, and in printing mechanism, the screw thread slider slides and supports the piece through the motion and drive the lift and support the piece and follow the vertical lift of printing mechanism, and the piece motion is supported in the lift and drives the printed matter and hug closely mutually with printing mechanism outer wall through driving the printing plate motion, realizes the laminating operation to the printed matter.

2. This ink printing device of easy operation, through setting up the work guide rail, in printing mechanism, the screw thread slider slides and drives two sets of work gear relative rotation through two sets of pinion racks, work gear motion drives and rotates the baffle rotation, so that it slides to rotate the baffle and drive the outer wall of motion traveller along the work guide rail through swivel sleeve, motion traveller motion drives the scraper blade and slides along limiting plate and spacing orifice plate simultaneously, drive two sets of scraper blade relative motion through two sets of work gear relative motion, the realization is to the printing operation of printed matter and the horizontal surface cleaning operation of printing plate.

3. This ink printing device of easily operating, through setting up supporting link and work connecting rod, in shutdown mechanism, rotatory carousel rotates and drives flexible frid horizontal slip through rotatory guide pillar to make flexible frid motion drive supporting link through the work frid and rotate, the supporting link rotates and drives the cutting knife through the work connecting rod and along the vertical slip of shutdown mechanism, realizes the operation of cutting off to the printed matter.

4. This ink printing device of easy operation, through setting up V-arrangement orifice plate and spill orifice plate, in the reinforced frame of clearance, the guide post rotates and drives the outer wall slip of V-arrangement orifice plate along the spill orifice plate through the slip orifice plate, and simultaneously, V-arrangement orifice plate motion drives the inner wall slip of driven guide pillar along the spill orifice plate, and the shape that the clearance board that the drive of driven guide pillar motion links to each other with the bracing piece uses the spill orifice plate slides as the orbit, realizes the vertical surface cleaning operation of printing plate.

5. This printing ink printing device of easy operation, through setting up, in the reinforced frame of clearance, in the time of bracing piece vertical motion, drive the synchronous vertical slip of guiding hole board and bracing piece to make the clearance board motion drive the swing guide pillar and slide along the inner wall of guiding hole board, when the swing guide pillar slides the both ends of guiding hole board, support the piece through the spring and drive the reinforced board and overturn, realize the reinforced operation of printing plate.

Drawings

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

FIG. 2 is a schematic view of a first perspective view of the cleaning frame, printing mechanism and cutting mechanism of the present invention;

FIG. 3 is a schematic view of a second perspective view of the cleaning frame, printing mechanism and cutting mechanism of the present invention;

FIG. 4 is a schematic view of a portion of the connection of the clean-up feeder frame and the printing mechanism of the present invention;

FIG. 5 is a schematic view of a cleaning and charging frame connection structure according to the present invention;

FIG. 6 is a schematic view of a printing mechanism connection structure according to the present invention;

FIG. 7 is a schematic view of a partial connection structure of a printing mechanism according to the present invention;

FIG. 8 is a schematic view of the connection structure of the cutting mechanism of the present invention.

In the figure: 1. cleaning the feeding frame; 2. a working motor; 3. a guide turntable; 4. a guide post; 5. sliding the orifice plate; 6. a V-shaped orifice plate; 7. a concave orifice plate; 8. a driven guide post; 9. a support bar; 10. cleaning the plate; 11. a guide orifice plate; 12. swinging the guide post; 13. a feed plate; 14. a spring resisting block; 15. a printing mechanism; 1501. printing a motor; 1502. a threaded rod; 1503. a threaded slider; 1504. a motion resisting block; 1505. lifting the resisting block; 1506. a printing plate; 1507. a toothed plate; 1508. a working gear; 1509. rotating the guide plate; 1510. a rotating sleeve; 1511. a working guide rail; 1512. a motion strut; 1513. a squeegee; 1514. a limiting plate; 1515. limiting the pore plate; 16. a base; 17. a cutting mechanism; 1701. cutting off the motor; 1702. a driving gear; 1703. a rolling roller; 1704. a connecting gear; 1705. an electric push rod; 1706. a transmission gear; 1707. a driven gear; 1708. rotating; 1709. rotating the guide post; 1710. a telescopic slot plate; 1711. a working channel plate; 1712. a support link; 1713. a working link; 1714. a cutting knife.

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.

Referring to fig. 1 to 8, in an embodiment of the present invention, an ink printing apparatus easy to operate includes a cleaning feeding frame 1, a guiding rotary table 3, a sliding hole plate 5, a V-shaped hole plate 6, a concave hole plate 7, a cleaning plate 10, a guiding hole plate 11, a swinging guide post 12 and a feeding plate 13, a working motor 2 for driving the guiding rotary table 3 to rotate horizontally is fixedly connected to a top end of the cleaning feeding frame 1, a guiding post 4 for driving the sliding hole plate 5 to slide horizontally is fixedly connected to a top end edge of the guiding rotary table 3, so that the sliding hole plate 5 moves to drive the V-shaped hole plate 6 to slide horizontally along the concave hole plate 7, a driven guide post 8 is movably connected to a connection portion of the V-shaped hole plate 6 and the concave hole plate 7, a support rod 9 fixedly connected to the cleaning plate 10 is fixedly connected to a side wall of the driven guide post 8, so that the cleaning plate 10 moves to drive the swinging guide post 12 to slide horizontally along the guiding hole plate 11 through the feeding plate 13, the connection part of the feeding plate 13 and the cleaning plate 10 is provided with a spring abutting block 14 which is connected with the cleaning plate 10 in a sliding way.

Further, the top fixedly connected with printing mechanism 15 of the reinforced frame 1 of clearance, the bottom fixedly connected with base 16 of the reinforced frame 1 of clearance, and one side fixedly connected with shutdown mechanism 17 that the top of base 16 is located the reinforced frame 1 of clearance, through setting up printing mechanism 15, be favorable to realizing the laminating printing operation to the printed matter and the horizontal surface cleaning operation to printing plate 1506, through setting up shutdown mechanism 17, be favorable to realizing the control operation to the cutting length of printed matter.

Further, printing mechanism 15 is provided with four groups, and four groups of printing mechanism 15's position relation equidistance distributes on the top of base 16, the vertical height of V-arrangement orifice plate 6 equals with the vertical height of spill orifice plate 7, and the axis of spill orifice plate 7 is parallel with direction orifice plate 11, the length difference of spill orifice plate 7 and the length of direction orifice plate 11 equals with the width of charge plate 13, through setting up four groups of printing mechanism 15, be favorable to carrying out four-color printing operation to the printed matter, be favorable to guide post 4 to rotate and drive V-arrangement orifice plate 6 and slide along the outer wall of spill orifice plate 7 through slip orifice plate 5, and simultaneously, V-arrangement orifice plate 6 moves and drives driven guide post 8 and slide along the inner wall of spill orifice plate 7, realize the control operation to driven guide post 8 motion path.

Further, the printing mechanism 15 comprises a printing motor 1501, a threaded rod 1502, a threaded slider 1503, a movement resisting block 1504, a lifting resisting block 1505, a printing plate 1506, a toothed plate 1507, a working gear 1508, a rotating guide plate 1509, a rotating sleeve 1510, a working guide rail 1511, a movement sliding column 1512, a scraping plate 1513, a limiting plate 1514 and a limiting orifice plate 1515, the top end of the printing mechanism 15 is fixedly connected with the printing motor 1501, the output end of the printing motor 1501 is provided with the threaded rod 1502, the outer wall of the threaded rod 1502 is in threaded connection with the threaded slider 1503, the bottom end of the threaded slider 1503 is fixedly connected with the movement resisting block 1504, the side wall of the movement resisting block 1504 is in contact with the lifting resisting block 1505 in sliding connection with the side wall of the printing mechanism 15, the bottom end of the lifting resisting block 1505 is fixedly connected with the printing plate 1505 in sliding connection with the outer wall of the printing mechanism 15, the top end of the threaded slider is fixedly connected with the toothed plate 1507, and the meshing surface of the toothed plate 1507 is meshed with the working gear 1508, the side wall of the working gear 1508 is fixedly connected with a rotary guide plate 1509, the outer wall of the rotary guide plate 1509 is sleeved with a rotary sleeve 1510, the outer wall of the rotary sleeve 1510 is movably connected with a working guide rail 1511 fixedly connected with the outer wall of the printing mechanism 15, the connecting part of the working guide rail 1511 and the rotary sleeve 1510 is provided with a moving sliding column 1512, one end of the moving sliding column 1512, which is far away from the rotary sleeve 1510, is positioned above the printing plate 1506 and is rotatably connected with a scraping plate 1513, the side wall of the scraping plate 1513 is slidably connected with a limit plate 1514, the outer wall of the limit plate 1514 is slidably connected with a limit orifice plate 1515 fixedly connected with the bottom end of the working guide rail 1511, through the arrangement of the printing mechanism 15, the threaded sliding block 1503 is facilitated to slide, the lifting resisting block 1505 is driven by the moving resisting block 1504 to vertically lift along the printing mechanism 15, the lifting resisting block 1505 moves to drive the printing matter to cling to the outer wall of the printing mechanism 15 by driving the printing plate 1506, so as to realize the pasting operation of the printing matter, and the threaded sliding block 1503 slides to drive the two groups of working gears 1508 to rotate relatively through the two groups of toothed plates 1507, the working gears 1508 move to drive the rotary guide plate 1509 to rotate, so that the rotary guide plate 1509 rotates to drive the moving sliding column 1512 to slide along the outer wall of the working guide rail 1511 through the rotary sleeve 1510, the moving sliding column 1512 moves to drive the scraping plates 1513 to simultaneously slide along the limiting plates 1514 and the limiting orifice plates 1515, and the two groups of scraping plates 1513 are driven to move relatively through the relative movement of the two groups of working gears 1508, so that the printing operation on the printed matters and the transverse surface cleaning operation on the printing plate 1506 are realized.

Further, the lifting support block 1505 is supported through the screw slider 1503 and the movement and is supported between the block 1504 and the printing mechanism 15 to form a lifting structure, the lifting height of the lifting support block 1505 is equal to the distance between the printing plate 1506 and the printing mechanism 15, the toothed plates 1507 are provided with two sets, the position relationship of the two sets of toothed plates 1507 is centrosymmetric about the central axis of the screw slider 1503, the sliding of the screw slider 1503 is facilitated to drive the lifting support block 1505 to vertically lift along the printing mechanism 15 through the movement support block 1504, a control operator for the movement of the printing plate 1506 is realized, the sliding of the screw slider 1503 is facilitated to drive the two sets of working gears 1508 to relatively rotate through the two sets of toothed plates 1507, the working gears 1508 are driven to rotate the rotary guide plates 1509, and the control operation for the relative rotation of the two sets of rotary guide plates 1509 is realized.

Further, the motion traveller 1512 constitutes sliding construction through rotating between baffle 1509 and rotating sleeve 1510 and work guide 1511, and the appearance of work guide 1511 is parallelogram, the base length of work guide 1511 equals the width of printing plate 1506, the vertical height of work guide 1511 equals the length from scratch board 1513 to printing plate 1506, be favorable to rotating baffle 1509 and rotate and drive motion traveller 1512 through rotating sleeve 1510 and slide along the outer wall of work guide 1511, the appearance through setting up work guide 1511 is parallelogram, realize the control operation to motion traveller 1512 motion trail.

Furthermore, the scraping plate 1513 forms a lifting structure between the inclined edge of the moving sliding column 1512 and the working guide rail 1511 and the limiting plate 1514, the lifting height of the scraping plate 1513 is equal to the vertical height of the working guide rail 1511, the limiting plate 1514 forms a sliding structure between the upper edge and the lower edge of the scraping plate 1513 and the working guide rail 1511 and the limiting orifice plate 1515 through the scraping plate 1513 and the limiting orifice plate 1515, the sliding length of the limiting plate 1514 is equal to the length of the limiting orifice plate 1515, which is beneficial to the moving sliding column 1512 to move and drive the scraping plate 1513 to slide along the limiting plate 1514 and the limiting orifice plate 1515, and the two groups of scraping plates 1513 are driven to move relatively through the relative movement of the two groups of working gears 1508, so that the printing operation on the printed matters and the transverse surface cleaning operation on the printing plate 1506 are realized.

Further, the cutting mechanism 17 comprises a cutting motor 1701, a driving gear 1702, a rolling roller 1703, a connecting gear 1704, an electric push rod 1705, a transmission gear 1706, a driven gear 1707, a rotating turntable 1708, a rotating guide post 1709, a telescopic trough plate 1710, a working trough plate 1711, a support link 1712, a working link 1713 and a cutting knife 1714, wherein the side wall of the cutting mechanism 17 is fixedly connected with the cutting motor 1701, the output end of the cutting motor 1701 is provided with the driving gear 1702, the side wall of the driving gear 1702 is fixedly connected with the rolling roller 1703, the meshing surface of the driving gear 1702 is meshed with the connecting gear 1704, the side wall of the connecting gear 1704 is abutted with the electric push rod 1705 fixedly connected with the side wall of the cutting mechanism 17, the side wall of the connecting gear 1704 far away from the electric push rod 1705 is fixedly connected with the transmission gear 1706, the meshing surface of the transmission gear 1706 is meshed with the driven gear 1707, the side wall of the driven gear 1707 is fixedly connected with the rotating turntable 1708, and the edge of the side wall of the rotary turntable 1708 is fixedly connected with a rotary guide column 1709, the outer wall of the rotary guide column 1709 is movably connected with a telescopic trough plate 1710 which is in sliding connection with the side wall of the cutting mechanism 17, the side wall of the telescopic trough plate 1710 is fixedly connected with a working trough plate 1711, the inner wall of the working trough plate 1711 is in sliding connection with a supporting connecting rod 1712 which is in sliding connection with the side wall of the cutting mechanism 17, the connecting part of the supporting connecting rod 1712 and the working trough plate 1711 is in rotating connection with a working connecting rod 1713, the bottom end of the working connecting rod 1713 is in rotating connection with a cutting knife 1714 which is in sliding connection with the side wall of the cutting mechanism 17, so that the connecting gear 1704 rotates to drive the transmission gear 1706 to rotate, then the electric push rod 1705 works to drive the transmission gear to be engaged with the driven gear 1707, the driven gear 1707 rotates to drive the rotary turntable 1708 to rotate, the rotary turntable 1708 rotates to drive the telescopic trough plate 1710 to horizontally slide through the rotary guide column 1709, so that the telescopic trough plate 1710 moves to drive the supporting connecting rod 1712 to rotate through the working trough plate 1706 1, the support link 1712 rotates to drive the cutting knife 1714 to vertically slide along the cutting mechanism 17 through the working link 1713, so that the printed matter is cut off.

Further, flexible frid 1710 passes through and constitutes extending structure between rotatory guide pillar 1709 and the shutdown mechanism 17 with the carousel 1708, and the flexible length of flexible frid 1710 equals with the diameter of carousel 1708, support link 1712 passes through and constitutes rotating structure between working channel 1711 and the shutdown mechanism 17, and the length of support link 1712 equals with the length of working link 1713, cutting knife 1714 passes through and constitutes elevation structure between support link 1712 and working link 1713 and the shutdown mechanism 17, be favorable to the carousel 1708 to rotate and drive flexible frid 1710 horizontal slip through rotatory guide pillar 1709, so that flexible frid 1710 motion drives support link 1712 through working channel 1711 and rotates, support link 1712 rotates and drives the vertical slip of 1714 through working link 1713, realize the control operation of the vertical slip of cutting knife 1714.

The working principle of the invention is as follows: this ink printing device of easy operation, when using, at first, pass printing mechanism 15 and roll roller 1703 with the printed matter, then, in shutdown mechanism 17, the work of cutting off motor 1701 drives roll roller 1703 and rolls, roll roller 1703 rolls and drives the printed matter motion, then laminate the operation to the printed matter, in printing mechanism 15, the work of printing motor 1501 drives screw slider horizontal slip through threaded rod 1502, so that screw slider 1503 slides and drives lift and support block 1503 vertical lift along printing mechanism 15 through motion and support block 1504, lift and support block 1505 motion drives the printed matter and hugs closely mutually with printing mechanism 15 outer wall through driving printing plate 1506 motion, realize the laminating operation to the printed matter.

Then, the printed matter is printed, in the printing mechanism 15, the threaded slider 1503 slides to drive the two sets of working gears 1508 to rotate relatively through the two sets of toothed plates 1507, the working gears 1508 move to drive the rotating guide plate 1509 to rotate, so that the rotating guide plate 1509 rotates to drive the moving sliding column 1512 to slide along the outer wall of the working guide rail 1511 through the rotating sleeve 1510, the moving sliding column 1512 moves to drive the scraping plates 1513 to simultaneously slide along the limiting plates 1514 and the limiting orifice plates 1515, and the two sets of scraping plates 1513 are driven to move relatively through the relative movement of the two sets of working gears 1508, so that the printing operation on the printed matter and the transverse surface cleaning operation on the printing plate 1506 are realized.

Next, the other three groups of printing mechanisms 15 sequentially perform printing operation on the printed matter, then perform cutting operation on the printed matter, in the cutting mechanism 17, the cutting motor 1701 drives the connecting gear 1704 to rotate through the driving gear 1702, the connecting gear 1704 drives the transmission gear 1706 to rotate, then the electric push rod 1705 drives the transmission gear 1706 to mesh with the driven gear 1707, the driven gear 1707 rotates to drive the rotating turntable 1708 to rotate, the rotating turntable 1708 rotates to drive the telescopic slot plate 1710 to horizontally slide through the rotating guide pillar 1709, so that the telescopic slot plate 1710 moves to drive the support link 1712 to rotate through the working slot plate 1711, the support link 1712 rotates to drive the cutting knife 1714 to vertically slide along the cutting mechanism 17 through the working link 1713, and thus cutting operation on the printed matter is realized.

Finally, feeding operation and longitudinal surface cleaning operation of the printing plate 1506 are carried out on the printing plate 1506, in the cleaning feeding frame 1, the working motor 2 works to drive the guide post 4 to rotate through the guide turntable 3, so that the guide post 4 rotates to drive the V-shaped pore plate 6 to slide along the outer wall of the concave pore plate 7 through the sliding pore plate 5, meanwhile, the V-shaped pore plate 6 drives the driven guide post 8 to slide along the inner wall of the concave pore plate 7, the driven guide post 8 drives the cleaning plate 10 connected with the support rod 9 to slide along the shape of the concave pore plate 7 as a track, thereby realizing the longitudinal surface cleaning operation of the printing plate 1506, when the support rod 9 vertically moves, the guide pore plate 11 and the support rod 9 are driven to synchronously vertically slide, so that the cleaning plate 10 drives the swinging pore plate 12 to slide along the inner wall of the guide pore plate 11, when the swinging guide post 12 slides to two ends of the guide pore plate 11, the spring abutting block 14 drives the feeding plate 13 to turn over, so that the feeding operation of the printing plate 1506 is realized.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.