CN117103851A - Full-automatic efficient self-adhesive printing press and printing method thereof - Google Patents

Abstract

The invention discloses a full-automatic high-efficiency self-adhesive printing machine and a printing method thereof, and relates to the technical field of self-adhesive printing machines, wherein the full-automatic high-efficiency self-adhesive printing machine comprises a mounting plate, a self-adhesive printing mechanism and an ink drying treatment mechanism, an ink box is arranged in the middle of the front side of the mounting plate, an ink discharging amount regulating mechanism is arranged in the ink box, and a printing material conveying and feeding mechanism is arranged at the bottom of the right side of the mounting plate; the self-adhesive tape printing mechanism comprises a rotary roller, wherein the bottom of an arch-shaped sliding frame in the ink-discharging quantity regulating mechanism is connected with the middle parts of the two ends of the rotary roller through a printing buffer component; according to the full-automatic high-efficiency self-adhesive printing machine and the printing method thereof, chips or edge wires left when the self-adhesive tape is cut can be cleaned before printing, the influence on printing is avoided, the integrity of printed patterns is ensured, if the printed patterns are changed, the arc-shaped printing templates can be changed rapidly, the printed patterns are changed conveniently and rapidly, the self-adhesive printing machine is automatic and efficient in printing of the self-adhesive tape, and the printing efficiency is high.

Description

Full-automatic efficient self-adhesive printing press and printing method thereof

Technical Field

The invention relates to the technical field of self-adhesive printers, in particular to a full-automatic high-efficiency self-adhesive printer and a printing method thereof.

Background

The self-adhesive refers to a printed matter which is printed by taking paper, a film and other special materials as fabrics, the back of the self-adhesive is coated with an adhesive, and a composite material which takes silicon-coated protective paper as base paper is used as a material, marks or patterns are generally printed on the self-adhesive tape, the self-adhesive is relatively moist in the printing process, and if the self-adhesive is directly taken up from a printer after printing is finished, the printed area is easy to be stained, and the printing effect of the self-adhesive is affected;

in order to solve the problems, the patent with the authority bulletin number of 201720007152.3 in the prior art discloses a self-adhesive printing machine, which comprises a base, wherein two upright posts are fixedly arranged at the bottom of an inner cavity of the base, a driving wheel is fixedly arranged at the top of a left upright post, a first driving motor positioned on the rear surface of the left upright post is fixedly arranged at the axle center of the driving wheel, a conveying belt is fixedly arranged on the right side of the driving wheel, a driven wheel positioned at the top of the right upright post is fixedly arranged on the right side of the conveying belt, a frame is fixedly arranged at the top of two sides of the base, a transverse plate is fixedly arranged at the top of the frame, and a printing shell is fixedly arranged at the bottom of the transverse plate;

although it has solved the moist problem of making a flower easily of printing ink on the non-setting adhesive tape, still there are following defects: because the self-adhesive tape is cut out, the self-adhesive tape is easy to carry scraps or edge yarns generated during cutting, the integrity of the printed patterns is affected, if the printed patterns are changed, the printing roller is required to be replaced entirely in the prior art, the printed patterns are troublesome to switch, and the printing efficiency is low.

Disclosure of Invention

The invention aims to overcome the existing defects, and provides a full-automatic high-efficiency self-adhesive printing machine and a printing method thereof, which can clean scraps or edge wires left when the self-adhesive tape is cut before printing, avoid influencing printing, ensure the integrity of printed patterns, and can be switched conveniently and rapidly by changing an arc-shaped printing template if the printed patterns are changed, and automatically and efficiently print the self-adhesive tape with high printing efficiency, thereby effectively solving the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a fully automatic high efficiency self-adhesive printing press comprising:

the printing ink box is characterized by comprising a mounting plate, wherein an ink box is mounted in the middle of the front side, a printing ink outlet is formed in the bottom of the ink box, a lower ink quantity regulating mechanism is mounted in the ink box, and a printing material conveying and feeding mechanism is mounted at the bottom of the right side of the mounting plate;

the self-adhesive tape printing mechanism comprises a rotating roller, hollow grooves, anti-slip strips, a printing sleeve and a printing buffer assembly, wherein the bottoms of arch-shaped sliding frames in the ink discharging quantity regulating mechanism are connected with the middle parts of two ends of the rotating roller through the printing buffer assembly, the hollow grooves are uniformly formed in the peripheral side of the rotating roller, the printing sleeve is sleeved on the peripheral side of the rotating roller, the printing sleeve is a rubber sleeve, the anti-slip strips are arranged on the annular array of the peripheral side of the rotating roller, and are matched and clamped with the anti-slip grooves on the inner side of the printing sleeve;

the printing ink drying treatment mechanism is arranged at the left side of the bottom of the printing ink box.

The self-adhesive tape printing mechanism further comprises circular arc-shaped printing templates and separation baffle bars, annular grooves are longitudinally formed in the outer peripheral side of the printing sleeve at equal intervals, the separation baffle bars are arranged in the annular grooves at equal angles, the annular grooves are separated into template clamping grooves distributed in an annular array by the separation baffle bars, and the circular arc-shaped printing templates are respectively connected in an interference clamping mode in each template clamping groove.

The mounting panel is used as the installation main part of equipment, be used for holding printing ink in the ink tank, lower the height of the sticky tape printing mechanism of ink volume regulation and control mechanism, when sticky tape printing mechanism moves down, rubber's printing sleeve is by printing out the extruded tighter of ink mouth, then the printing sleeve rotates along with the commentaries on classics roller, the printing ink that leaves on circular-arc printing stencil is just less, when sticky tape printing mechanism moves up, the printing sleeve is by printing out the extruded more loose of ink mouth, then the printing ink on the circular-arc printing stencil just partially, thereby can adjust down the ink volume, the hollow tank can reduce the weight of commentaries on classics roller, make the commentaries on classics roller inertia lites on classics roller lites less, make things convenient for oneself to be driven and rotate, then by printing material transport feeding mechanism drive left side transport, then by the dry processing mechanism traction drying of printing ink, the sticky tape upside contacts with the printing sleeve bottom, the printing sleeve rotates with the friction force of sticky tape, through circular-arc printing stencil and the contact of the top side can print ink to the sticky tape, the printing strip is convenient for card to fix the printing stencil, simultaneously, to the circular-arc printing stencil is just changed to the printing stencil, if need change circular-arc printing stencil, can be had the printing tape and the printing roller is changed, and the printing effect is stable, can be realized with the relative displacement, and the printing tape can be guaranteed, and the printing effect is stable with the printing roller is just to the printing roller.

Further, printing buffer assembly includes and erects logical groove, erects slider, end shaft, flexible post and buffer spring, two perpendicular logical grooves have been seted up respectively to arch carriage's bottom both sides, and vertical sliding connection has erects the slider in every erects logical groove respectively, and the both ends middle part of commentaries on classics roller is fixedly connected with end shaft respectively, and two end shafts rotate with two corresponding perpendicular sliders respectively and are connected, and the upper and lower extreme of every perpendicular slider is respectively through flexible post fixed connection erects logical inslot upper and lower extreme, has cup jointed buffer spring on every flexible post respectively.

The middle part at the vertical through groove is installed with the aid of two buffer springs to the slider, and when the slider is gone up along the vertical through inslot gliding, the buffer spring of downside lets the slider reset, and when the slider is gone up along the vertical through inslot upward movement, then the buffer spring of upside lets the slider reset, and two end shafts let the roller rotate between two vertical sliders steadily, let printing cover and self-adhesive tape stable contact with the aid of buffer spring's cushioning effect, realize printing and overlap circular-arc printing template to the high-efficient printing of self-adhesive tape.

Further, the ink quantity regulating mechanism comprises a sliding groove, an arch sliding frame, regulating nuts, a fixed arch frame, a regulating motor and regulating studs, wherein the middle part of the front side and the rear side in the ink box is provided with the vertical sliding groove, the front side and the rear side of the arch sliding frame are respectively and vertically connected with the corresponding sliding groove in a sliding manner, the regulating nuts are embedded in the center of the top of the arch sliding frame, the left side and the right side of the top of the ink box are detachably connected with two ends of the fixed arch frame, the fixed arch frame is located above the arch sliding frame, the regulating motor is fixedly connected with the center of the top of the fixed arch frame, the bottom output shaft of the regulating motor is fixedly connected with the top end of the regulating studs, and the regulating studs are in threaded connection with the regulating nuts. The fixed arch frame is used for installing a regulating motor, the regulating motor works to drive the regulating stud to rotate, and the arch sliding frame can be driven to move up and down along the sliding groove through the threaded action of the regulating stud and the regulating nut, so that the self-adhesive tape printing mechanism is driven to move up and down in a small scale in the printing ink outlet, and the ink usage amount during printing is changed.

Further, printing ink stoving processing mechanism includes installation piece, telescopic link, compression spring, end block, stoving hollow cylinder, clearance arch, hot-blast stoving hole, backing roll and conveying motor, the bottom left side front and back end of printing ink case is fixedly connected with installation piece respectively, the bottom of every installation piece is fixedly connected with the top of telescopic link respectively, the bottom of every telescopic link is fixedly connected with end block respectively, compression spring has been cup jointed on the telescopic link, rotates between the corresponding end block around two, installs the stoving hollow cylinder, and the periphery side annular array of stoving hollow cylinder is provided with the clearance arch of not less than eight rows, the hot-blast stoving hole of not less than eight rows has been seted up to the periphery side annular array of stoving hollow cylinder, the front side of mounting panel is located the position rotation under the stoving hollow cylinder and connects the rear end of backing roll, the output shaft of backing roll is fixedly connected with conveying motor, and conveying motor passes through the equipment seat to be fixed at the rear side of mounting panel. The conveying motor works to drive the carrier roller to rotate, the printed self-adhesive tape can be pulled leftwards through the action of the carrier roller and the drying hollow cylinder, in order to prevent the drying hollow cylinder from patterning the printed pattern on the self-adhesive tape, the gap is kept between the drying hollow cylinder and the self-adhesive tape by using the gap bulge, the gap bulge corresponds to the gap of the pattern on the self-adhesive tape, the pattern cannot be propped against, the printed pattern cannot be scratched, hot air is fed into the drying hollow cylinder, the hot air in the drying hollow cylinder is blown out from the hot air drying hole, the printed pattern on the self-adhesive tape is rapidly dried, the drying hollow cylinder maintains a certain temperature, and the drying and solidification of the printed pattern on the self-adhesive tape can be promoted.

Further, the printing ink drying treatment mechanism further comprises a rotary joint and an air heater, wherein the rear end inlet of the drying hollow cylinder is connected with an air outlet of the air heater through the rotary joint, and the air heater is arranged at the top of the equipment seat. The hot air blower works to generate hot air, and then the hot air is sent into the drying hollow cylinder by means of the rotary joint, and the rotary joint is a closed rotary connector for 360-degree rotary conveying medium, so that the hot air can be sent into the drying hollow cylinder while the drying hollow cylinder rotates.

Further, still include non-setting adhesive tape printing face clearance mechanism, non-setting adhesive tape printing face clearance mechanism includes lift adjustment subassembly, clearance buffer assembly, spliced pole, dismantles the cover, dismantles bolt, printing face clearance board, and lift adjustment subassembly is installed on the right side of printing ink case, and the top of spliced pole is connected through clearance buffer assembly on the lift adjustment subassembly, the bottom of spliced pole has been cup jointed and has been dismantled the cover, and the screw female screw connection who dismantles the cover side has the dismantlement bolt, dismantles the bottom side of bolt butt tight spliced pole, the bottom fixedly connected with printing face clearance board of dismantlement cover. The lifting adjusting component can drive the cleaning buffer component to move up and down, so that the printing surface cleaning plate is close to the upper side of the self-adhesive tape, the cleaning buffer component enables the printing surface cleaning plate to have a buffer effect of moving up and down, the printing surface cleaning plate can keep a good cleaning effect on the self-adhesive tape, the connecting column and the dismounting sleeve can be dismounted through the dismounting bolt, and therefore the printing surface cleaning plate can be replaced conveniently or the angle of the printing surface cleaning plate can be adjusted.

Further, the self-adhesive tape printing surface cleaning mechanism further comprises a cleaning bearing component, and the front side of the mounting plate is fixedly connected with the rear end of the cleaning bearing component at a position below the printing surface cleaning plate. The cleaning and supporting component can be padded below the printing surface cleaning plate, so that the printing surface cleaning plate can be stably propped against the upper side of the self-adhesive tape, and the cleaning effect on the upper side of the self-adhesive tape is improved.

Further, the automatic cleaning device further comprises a cleaning debris collecting mechanism, the cleaning debris collecting mechanism is arranged at the end part of the printing surface cleaning plate, and sundries scraped from the upper side of the self-drying adhesive tape by the printing surface cleaning plate finally fall into the cleaning debris collecting mechanism to be collected.

A printing method of a full-automatic high-efficiency self-adhesive printing press comprises the following steps:

firstly, controlling a self-adhesive tape printing mechanism to descend by an ink quantity regulating mechanism, enabling a printing sleeve in the self-adhesive tape printing mechanism to descend to block a printing ink outlet, and then adding printing ink in an ink box;

step two, the self-adhesive tape passes through the printing material conveying and feeding mechanism, bypasses the bottom of the printing sleeve and passes through the space between the drying hollow cylinder and the supporting roller in the printing ink drying treatment mechanism;

step three, the printing material conveying and feeding mechanism works to drive the self-adhesive tape to move from right to left, the self-adhesive tape passes through the lower side of the self-adhesive tape printing surface cleaning mechanism, the lifting adjusting assembly drives the printing surface cleaning plate to descend through the cleaning buffer assembly, the printing surface cleaning plate scrapes and cleans scraps at the top of the self-adhesive tape, and the scraps at the top of the self-adhesive tape fall into the cleaning scraps collecting mechanism along the right side of the printing surface cleaning plate;

step four, the self-adhesive tape is contacted with the bottom of the printing sleeve, the printing sleeve and the rotary roller rotate in the printing ink outlet through friction force of the self-adhesive tape and the printing sleeve, printing ink in the ink box is adhered to the arc-shaped printing template, the ink at the top of the printing sleeve is scraped by the edge of the printing ink outlet along with the rotation of the rotary roller, and only the ink on the arc-shaped printing template is printed on the top of the self-adhesive tape;

and fifthly, when the printed self-adhesive tape passes through the space between the drying hollow cylinder and the supporting roller, the clearance between the drying hollow cylinder and the top of the self-adhesive tape is kept by means of the clearance bulge on the drying hollow cylinder, hot air blown by the hot air blower is sent into the drying hollow cylinder through the rotary joint, and then the hot air is blown to the ink on the top of the self-adhesive tape through the hot air drying hole, so that the ink on the top of the self-adhesive tape is dried.

Compared with the prior art, the invention has the beneficial effects that: the full-automatic high-efficiency self-adhesive printing press and the printing method thereof have the following advantages:

1. the mounting plate is used as a mounting main body of the device, the ink box is used for containing printing ink, the ink discharging amount regulating mechanism can regulate the height of the self-adhesive tape printing mechanism, when the self-adhesive tape printing mechanism moves downwards, the rubber printing sleeve is extruded by the printing ink outlet to be tighter, the ink left on the circular arc printing template is less when the printing sleeve rotates along with the rotating roller, when the self-adhesive tape printing mechanism moves upwards, the printing sleeve is extruded by the printing ink outlet to be looser, the ink on the circular arc printing template is more, so that the ink discharging amount can be regulated, the weight of the rotating roller can be reduced by the hollow groove, the inertia of the rotating roller is smaller, and the self-adhesive tape printing device is convenient to drive to rotate;

2. the self-adhesive tape is driven to the left by the printing material conveying and feeding mechanism, then is pulled and dried by the ink drying and processing mechanism, the upper side of the self-adhesive tape is contacted with the bottom of the printing sleeve, the friction force between the printing sleeve and the self-adhesive tape enables the self-adhesive tape to rotate, the ink can be printed on the self-adhesive tape through the contact between the circular arc-shaped printing template and the upper side of the self-adhesive tape, the circular arc-shaped printing template is conveniently clamped and fixed by the separation barrier strip, meanwhile, the circular arc-shaped printing template is positioned, if a printing pattern is replaced, only the circular arc-shaped printing template needs to be replaced, the printing sleeve and the rotary roller can be limited by the anti-slip strip, the relative sliding is prevented from being caused, the printing buffer component can enable the rotary roller and the printing sleeve to have a displacement buffer effect in the vertical direction, the self-adhesive tape is ensured to be stably contacted with the printing sleeve, and the rotary roller can be stably rotated by virtue of the friction force with the self-adhesive tape, and automatic efficient printing is realized;

3. the lifting adjusting component can drive the cleaning buffer component to move up and down, the printing surface cleaning plate is close to the upper side of the self-adhesive tape, the cleaning buffer component enables the printing surface cleaning plate to have a buffer effect of moving up and down, the printing surface cleaning plate can keep a good cleaning effect on the self-adhesive tape, the connecting column and the dismounting sleeve can be dismounted through the dismounting bolt, thereby the printing surface cleaning plate is convenient to replace or the angle of the printing surface cleaning plate is adjusted, during use, the printing surface cleaning plate is obliquely arranged, scraped sundries are led to fall forward, the chips or edge wires left when the self-adhesive tape is cut are cleaned before printing, the influence on printing is avoided, the integrity of a printing pattern is ensured, if the printing pattern is changed, the arc printing template in an interference joint in a template clamping groove can be dismounted, the printing pattern is switched rapidly through being mounted in a new arc printing template again, the printing of the self-adhesive tape is automatic and efficient, and the printing efficiency is high.

4. The conveying motor works to drive the carrier roller to rotate, the printed self-adhesive tape can be pulled leftwards through the action of the carrier roller and the drying hollow cylinder, in order to prevent the drying hollow cylinder from patterning the printed pattern on the self-adhesive tape, the gap is kept between the drying hollow cylinder and the self-adhesive tape by using the gap bulge, the gap bulge corresponds to the gap of the pattern on the self-adhesive tape, the pattern cannot be propped against, the printed pattern cannot be scratched, hot air is fed into the drying hollow cylinder, the hot air in the drying hollow cylinder is blown out from the hot air drying hole, the printed pattern on the self-adhesive tape is rapidly dried, the drying hollow cylinder maintains a certain temperature, and the drying and solidification of the printed pattern on the self-adhesive tape can be promoted.

Drawings

FIG. 1 is a schematic diagram of a fully automatic high-efficiency self-adhesive printing press;

FIG. 2 is a schematic view of a partially enlarged structure of the full-automatic high-efficiency adhesive sticker printing press of the invention at A in FIG. 1;

FIG. 3 is a schematic side view of the full automatic high efficiency self-adhesive printing press;

FIG. 4 is a schematic view of the partial structure of the cleaning mechanism and the cleaning debris collecting mechanism for the printing surface of the self-adhesive tape of the full-automatic high-efficiency self-adhesive printing machine;

FIG. 5 is a schematic view of the bottom structure of the full-automatic high-efficiency self-adhesive printing press of the invention;

FIG. 6 is a schematic view of the rear structure of the full-automatic high-efficiency self-adhesive printing press of the invention;

FIG. 7 is a schematic diagram of the adhesive tape printing mechanism of the full-automatic high-efficiency adhesive tape printing machine;

FIG. 8 is a schematic view of a partially enlarged structure of the full-automatic high-efficiency adhesive sticker printing press of the present invention at B in FIG. 7;

in the figure: 1 mounting plate, 2 ink box, 3 ink discharge amount regulating mechanism, 31 chute, 32 arch slide frame, 33 regulating nut, 34 fixing foot, 35 fixing screw, 36 fixing arch frame, 37 regulating motor, 38 regulating stud, 39 limit nut, 4 non-setting adhesive tape printing mechanism, 41 roller, 42 hollow groove, 43 antislip strip, 44 printing sleeve, 45 arc printing template, 46 separation baffle strip, 47 vertical through groove, 48 vertical slide block, 49 end shaft, 410 telescopic column, 411 buffer spring, 5 ink drying treatment mechanism, 51 mounting block, 52 telescopic rod, 53 compression spring, 54 end block, 55 drying hollow cylinder, 56 clearance bulge, 57 hot air drying hole, 58 bearing roller 59 rotary joints, 510 air heaters, 511 equipment seats, 512 conveying motors, 6 non-setting adhesive tape printing surface cleaning mechanisms, 61 fixing frames, 62 vertical sliding columns, 63 lifting plates, 64 vertical screws, 65 knobs, 66 mounting vertical rods, 67 anti-disengaging nuts, 68 springs, 69 connecting columns, 610 dismounting sleeves, 611 dismounting bolts, 612 printing surface cleaning plates, 613 scraping bearing brackets, 614 anti-wear roller shafts, 7 cleaning debris collecting mechanisms, 71 screws, 72 bent rods, 73 debris collecting boxes, 78 rubber conveying pipes, 8 printing material conveying and feeding mechanisms, 81 rotating shafts, 82 feeding rollers, 83 motor seats, 84 feeding motors, 85 transmission gears, 9 auxiliary trays and 10 observation windows.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 8, the present embodiment provides a technical solution: a full-automatic high-efficiency self-adhesive printing machine comprises a mounting plate 1, a self-adhesive tape printing mechanism 4 and an ink drying treatment mechanism 5;

the middle part of the front side of the mounting plate 1 is provided with an ink box 2, the bottom of the ink box 2 is provided with a printing ink outlet, the ink box 2 is internally provided with a lower ink quantity regulating and controlling mechanism 3, and the bottom of the right side of the mounting plate 1 is provided with a printing material conveying and feeding mechanism 8;

the printing material conveying and feeding mechanism 8 comprises a rotating shaft 81, feeding rollers 82, a motor seat 83, a feeding motor 84 and a transmission gear 85, the right bottom of the mounting plate 1 is rotationally connected with the rear ends of the two rotating shafts 81, the two rotating shafts 81 are correspondingly arranged up and down, the two rotating shafts 81 are respectively fixedly sleeved with the feeding rollers 82, the rear ends of the two feeding rollers 82 are respectively fixedly connected with the two transmission gears 85, the two transmission gears 85 are meshed with each other, the rear end of one rotating shaft 81 is fixedly connected with an output shaft of the feeding motor 84, the feeding motor 84 is fixed on the rear side of the mounting plate 1 through the motor seat 83, the feeding motor 84 works to drive one rotating shaft 81 to rotate, the two rotating shafts 81 can rotate in opposite directions by means of the meshing of the two transmission gears 85, the rotating shafts 81 at the top rotate clockwise, the rotating shafts 81 at the bottom rotate anticlockwise, so that the two feeding rollers 82 rotate in opposite directions, an adhesive tape passes through between the two feeding rollers 82, and the two feeding rollers 82 drive the adhesive tape to feed rightwards and leftwards.

The ink quantity regulating mechanism 3 comprises a chute 31, an arch-shaped sliding frame 32, regulating nuts 33, a fixed arch-shaped frame 36, a regulating motor 37 and regulating studs 38, wherein the middle of the front side and the rear side in the ink box 2 is provided with the vertical chute 31, the front side and the rear side of the arch-shaped sliding frame 32 are respectively and vertically connected with the corresponding chute 31 in a sliding manner, the regulating nuts 33 are embedded in the center of the top of the arch-shaped sliding frame 32, the left side and the right side of the top of the ink box 2 are detachably connected with two ends of the fixed arch-shaped frame 36, the fixed arch-shaped frame 36 is positioned above the arch-shaped sliding frame 32, the center of the top of the fixed arch-shaped frame 36 is fixedly connected with the regulating motor 37, the bottom output shaft of the regulating motor 37 is fixedly connected with the top end of the regulating studs 38, and the regulating studs 38 are in threaded connection with the regulating nuts 33. The fixed arch frame 36 is used for installing a regulating motor 37, the regulating motor 37 works to drive a regulating stud 38 to rotate, and the arch sliding frame 32 can be driven to move up and down along the sliding groove 31 through the threaded action of the regulating stud 38 and the regulating nut 33, so that the self-adhesive tape printing mechanism 4 is driven to move up and down in a small scale in a printing ink outlet, and the ink usage amount during printing is changed.

The bottoms of the two ends of the fixed arch frame 36 are respectively fixedly connected with fixed feet 34, each fixed foot 34 is respectively fixed on the top of the ink box 2 through at least two fixed screws 35, and the detachable installation of the fixed arch frame 36 is realized by means of the cooperation of the fixed feet 34 and the fixed screws 35.

The bottom end of the regulating stud 38 is in threaded connection with a limit nut 39, so that the regulating stud 38 and the regulating nut 33 can be prevented from being separated, and the regulating stud 38 can always act on the arched sliding frame 32 and the regulating nut 33.

The self-adhesive tape printing mechanism 4 comprises a rotary roller 41, hollow grooves 42, anti-slip strips 43, a printing sleeve 44 and a printing buffer assembly, wherein the bottoms of the arch-shaped sliding frames 32 in the ink-discharging quantity regulating mechanism 3 are connected with the middle parts of two ends of the rotary roller 41 through the printing buffer assembly, the hollow grooves 42 are uniformly formed in the outer peripheral side of the rotary roller 41, the printing sleeve 44 is sleeved on the outer peripheral side of the rotary roller 41, the printing sleeve 44 is a rubber sleeve, the anti-slip strips 43 are annularly arranged on the outer peripheral side of the rotary roller 41, and the anti-slip strips 43 are matched and clamped with the anti-slip grooves on the inner side of the printing sleeve 44;

the self-adhesive tape printing mechanism 4 further comprises an arc-shaped printing template 45 and separation baffle strips 46, annular grooves are longitudinally formed in the outer peripheral side of the printing sleeve 44 at equal intervals, the separation baffle strips 46 are arranged in the annular grooves at equal angles, the annular grooves are separated into template clamping grooves distributed in an annular array by the separation baffle strips 46, and the arc-shaped printing template 45 is respectively connected in an interference clamping mode in each template clamping groove.

The printing buffer assembly comprises a vertical through groove 47, vertical sliding blocks 48, end shafts 49, telescopic columns 410 and buffer springs 411, two vertical through grooves 47 are respectively formed in two sides of the bottom end of the arched sliding frame 32, the vertical sliding blocks 48 are respectively vertically and slidingly connected in each vertical through groove 47, the end shafts 49 are respectively and fixedly connected in the middle of two ends of the rotating roller 41, the two end shafts 49 are respectively and rotatably connected with the corresponding two vertical sliding blocks 48, the upper end and the lower end of each vertical sliding block 48 are respectively and fixedly connected with the upper end and the lower end in the vertical through groove 47 through the telescopic column 410, and the buffer springs 411 are respectively sleeved on each telescopic column 410.

The vertical sliding blocks 48 are installed in the middle of the vertical through grooves 47 by means of the two buffer springs 411, when the vertical sliding blocks 48 slide downwards along the vertical through grooves 47, the buffer springs 411 at the lower side enable the vertical sliding blocks 48 to reset, when the vertical sliding blocks 48 move upwards along the vertical through grooves 47, the buffer springs 411 at the upper side enable the vertical sliding blocks 48 to reset, the two end shafts 49 enable the rotary rollers 41 to stably rotate between the two vertical sliding blocks 48, the printing sleeve 44 is enabled to stably contact with the self-adhesive tape by means of the buffer function of the buffer springs 411, and efficient printing of the circular arc-shaped printing templates 45 on the printing sleeve 44 on the self-adhesive tape is achieved.

The ink drying treatment mechanism 5 is installed at the bottom left side of the ink tank 2.

The ink drying treatment mechanism 5 comprises mounting blocks 51, telescopic rods 52, compression springs 53, end blocks 54, drying hollow cylinders 55, gap protrusions 56, hot air drying holes 57, supporting rollers 58 and conveying motors 512, wherein the mounting blocks 51 are fixedly connected to the front and rear ends of the left side of the bottom of the ink box 2 respectively, the bottoms of the mounting blocks 51 are fixedly connected to the top ends of the telescopic rods 52 respectively, the bottom ends of the telescopic rods 52 are fixedly connected with the end blocks 54 respectively, the compression springs 53 are sleeved on the telescopic rods 52, the drying hollow cylinders 55 are rotatably mounted between the two front and rear corresponding end blocks 54, at least eight rows of gap protrusions 56 are arranged on the annular arrays on the outer circumference of the drying hollow cylinders 55, at least eight rows of hot air drying holes 57 are formed on the annular arrays on the outer circumference of the drying hollow cylinders 55, the front side of the mounting plate 1 is located right below the drying hollow cylinders 55, the rear end of the supporting rollers 58 is rotatably connected with the output shafts of the conveying motors 512, and the conveying motors 512 are fixedly connected to the rear side of the mounting plate 1 through device seats 511.

The conveying motor 512 works to drive the carrier roller 58 to rotate, the printed self-adhesive tape can be pulled leftwards through the action of the carrier roller 58 and the drying hollow cylinder 55, in order to prevent the drying hollow cylinder 55 from patterning the printed pattern on the self-adhesive tape, the gap protrusion 56 is used for keeping the gap between the drying hollow cylinder 55 and the self-adhesive tape, the gap protrusion 56 corresponds to the gap of the pattern on the self-adhesive tape, the pattern cannot be propped against, the printed pattern cannot be scratched, hot air is fed into the drying hollow cylinder 55, the hot air in the drying hollow cylinder 55 is blown out from the hot air drying hole 57, the printed pattern on the self-adhesive tape is rapidly air-dried, the drying hollow cylinder 55 maintains a certain temperature, and the drying and solidification of the printed pattern on the self-adhesive tape can be promoted.

The ink drying treatment mechanism 5 further comprises a rotary joint 59 and a hot air blower 510, wherein the rear end inlet of the drying hollow cylinder 55 is connected with the air outlet of the hot air blower 510 through the rotary joint 59, and the hot air blower 510 is arranged at the top of the equipment seat 511. The hot air blower 510 is operated to generate hot air, and then the hot air is fed into the drying hollow cylinder 55 by means of the rotary joint 59, and the rotary joint 59 is a closed rotary connector for 360-degree rotary conveying medium, so that the hot air can be fed into the drying hollow cylinder 55 while the drying hollow cylinder 55 rotates.

When in use, the mounting plate 1 is used as a mounting main body of the device, the ink box 2 is internally used for containing printing ink, the lower ink quantity regulating mechanism 3 can regulate the height of the self-adhesive tape printing mechanism 4, when the self-adhesive tape printing mechanism 4 moves downwards, the printing sleeve 44 made of rubber is pressed tightly by the printing ink outlet, the printing sleeve 44 rotates along with the rotating roller 41, the ink left on the arc-shaped printing template 45 is less, when the self-adhesive tape printing mechanism 4 moves upwards, the printing sleeve 44 is pressed loose by the printing ink outlet, the ink on the arc-shaped printing template 45 is more, thereby the lower ink quantity can be regulated, the hollow groove 42 can reduce the weight of the rotating roller 41, the inertia of the rotating roller 41 is smaller, the self-adhesive tape is conveniently driven to rotate, the self-adhesive tape is driven to leftwards by the printing material conveying feeding mechanism 8, then the self-adhesive tape is dried by the ink drying processing mechanism 5, the upper side of the self-adhesive tape contacts with the bottom of the printing sleeve 44, the friction force of the printing sleeve 44 rotates, the self-adhesive tape can change the self-adhesive tape through the contact between the arc-shaped printing template 45 and the self-adhesive tape, the printing sleeve 45 and the self-adhesive tape can be contacted with the self-adhesive tape, the printing sleeve 45 can be prevented from contacting the printing tape, the printing tape 45, the printing strip is contacted with the printing strip 45, and the printing strip is prevented from being contacted with the printing strip 45, the printing strip 45 is contacted with the printing strip 41, and the printing strip is more conveniently, the printing strip is contacted with the printing strip 45, and the printing strip is contacted with the printing strip 45, and has a stable position and has a high position and has a stable printing effect and can be contacted with the printing strip, and can be contacted with the printing strip and has a printing paper.

In a second embodiment, referring to fig. 1 to 8, the present embodiment provides a technical solution: the embodiment is similar to the first embodiment in structure, and the difference is that:

still include non-setting adhesive tape printing face clearance mechanism 6, non-setting adhesive tape printing face clearance mechanism 6 includes lift adjustment subassembly, clearance buffer assembly, spliced pole 69, dismantle cover 610, dismantle bolt 611, printing face clearance board 612, lift adjustment subassembly is installed on the right side of ink box 2, the top of spliced pole 69 is connected through clearance buffer assembly on the lift adjustment subassembly, dismantle cover 610 has been cup jointed to the bottom of spliced pole 69, dismantle the screw female screw connection of cover 610 side has dismantle bolt 611, dismantle the bottom side of bolt 611 butt spliced pole 69, dismantle the bottom fixedly connected with printing face clearance board 612 of cover 610.

The lifting adjusting component can drive the cleaning buffer component to move up and down, so that the printing surface cleaning plate 612 is close to the upper side of the self-adhesive tape, the cleaning buffer component enables the printing surface cleaning plate 612 to have a buffer effect of moving up and down, the printing surface cleaning plate 612 can keep a good cleaning effect on the self-adhesive tape, the connecting column 69 and the dismounting sleeve 610 can be dismounted through the dismounting bolt 611, and therefore the printing surface cleaning plate 612 can be replaced conveniently or the angle of the printing surface cleaning plate 612 can be adjusted.

The lifting adjustment assembly comprises a fixing frame 61, a vertical sliding column 62, a lifting plate 63, a vertical screw rod 64 and a knob 65, wherein the right side of the ink box 2 is fixedly connected with the fixing frame 61, the vertical sliding column 62 is fixedly connected in the fixing frame 61, the vertical screw rod 64 is rotationally connected with the fixing frame 61, the top end of the vertical screw rod 64 is fixedly connected with the knob 65, the vertical screw rod 64 is in threaded connection with a threaded hole on the lifting plate 63, the vertical sliding column 62 is vertically and slidably connected with a sliding hole on the lifting plate 63, the knob 65 can be twisted to drive the vertical screw rod 64 to rotate, the vertical screw rod 64 and the threaded action of the lifting plate 63 drive the lifting plate 63 to move up and down along the vertical sliding column 62, and when the vertical screw rod 64 is twisted clockwise, the lifting plate 63 rises;

the cleaning buffer assembly comprises an installation vertical rod 66, a drop-proof nut 67 and a spring 68, wherein the bottom of the right end of the lifting plate 63 is fixedly connected with the tops of the two installation vertical rods 66, the two installation vertical rods 66 are vertically and slidably connected with the buffer slide plate, the bottom of the buffer slide plate is fixedly connected with the top ends of the connecting columns 69, the bottom ends of the two installation vertical rods 66 are respectively connected with the drop-proof nut 67 in a threaded manner, the parts, located between the buffer slide plate and the lifting plate 63, of the installation vertical rods 66 are sleeved with the spring 68, the connecting columns 69 can have a vertical buffer effect by means of the spring 68, and the stable contact between the printing surface cleaning plate 612 at the bottom of the connecting columns 69 and the adhesive tape is ensured.

The self-adhesive tape print cleaning mechanism 6 further comprises a cleaning support member, and the front side of the mounting plate 1 is fixedly connected to the rear end of the cleaning support member at a position below the print cleaning plate 612. The cleaning support member may be padded under the printing surface cleaning plate 612 to allow the printing surface cleaning plate 612 to be stabilized against the upper side of the self-adhesive tape to enhance the cleaning effect on the upper side of the self-adhesive tape.

The cleaning and supporting assembly comprises a scraping bearing seat 613 and an anti-abrasion roll shaft 614, wherein the front side of the mounting plate 1 is positioned below the printing surface cleaning plate 612 and is fixedly connected with the rear end of the scraping bearing seat 613, a mounting groove is formed in the scraping bearing seat 613, the longitudinal anti-abrasion roll shaft 614 is rotationally connected in the mounting groove, the anti-abrasion roll shaft 614 supports the bottom of the self-adhesive tape, the printing surface cleaning plate 612 is promoted to effectively clean the self-adhesive tape, and meanwhile the rotating anti-abrasion roll shaft 614 can avoid wearing the bottom of the self-adhesive tape.

In a third embodiment, referring to fig. 1 to 8, the present embodiment provides a technical solution: the embodiment is similar to the second embodiment in structure, and the difference is that:

further comprises a cleaning debris collecting mechanism 7, the cleaning debris collecting mechanism 7 is arranged at the end part of the printing surface cleaning plate 612, and sundries scraped from the upper side of the self-drying adhesive tape of the printing surface cleaning plate 612 finally fall into the cleaning debris collecting mechanism 7 to be collected.

The cleaning and debris collecting mechanism 7 comprises screws 71, bent rods 72 and debris collecting boxes 73, the end parts of the printing surface cleaning plates 612 are fixedly connected with the tops of the bent rods 72 through at least two screws 71, the bottoms of the bent rods 72 are fixedly connected with the debris collecting boxes 73, the debris collecting boxes 73 are located below the end parts of the printing surface cleaning plates 612, sundries scraped from the upper sides of the self-drying adhesive tapes of the printing surface cleaning plates 612 fall from the end parts of the printing surface cleaning plates 612 and finally fall into the debris collecting boxes 73, and the scraps cannot fall into a factory building.

In other embodiments, the printing ink drying device further comprises an auxiliary tray 9, the front side of the mounting plate 1 is located below the printing ink outlet, and is fixedly connected with the rear end of the auxiliary tray 9, the self-adhesive tape can be temporarily supported by means of the auxiliary tray 9, and the self-adhesive tape can conveniently pass through the printing material conveying and feeding mechanism 8 and the printing ink drying treatment mechanism 5.

In other embodiments, the ink tank 2 further comprises a viewing window 10, wherein the viewing window 10 is embedded in the front vertical groove of the ink tank 2, and the amount of ink in the ink tank 2 can be checked by means of the viewing window 10.

Referring to fig. 1-8, a printing method of a full-automatic efficient self-adhesive printing press comprises the following steps:

firstly, the lower ink quantity regulating mechanism 3 controls the self-adhesive tape printing mechanism 4 to descend, a printing sleeve 44 in the self-adhesive tape printing mechanism 4 descends to block a printing ink outlet, and then printing ink is added into the ink box 2;

secondly, the self-adhesive tape passes through the printing material conveying and feeding mechanism 8, bypasses the bottom of the printing sleeve 44 and passes through the ink drying treatment mechanism 5 between the drying hollow cylinder 55 and the supporting roller 58;

then, the printing material conveying and feeding mechanism 8 works to drive the self-adhesive tape to move from right to left, the self-adhesive tape passes through the lower side of the self-adhesive tape printing surface cleaning mechanism 6, the lifting adjusting assembly drives the printing surface cleaning plate 612 to descend through the cleaning buffer assembly, the printing surface cleaning plate 612 scrapes and cleans scraps on the top of the self-adhesive tape, and the scraps on the top of the self-adhesive tape fall into the cleaning scraps collecting mechanism 7 along the right side of the printing surface cleaning plate 612;

the self-adhesive tape is contacted with the bottom of the printing sleeve 44, the printing sleeve 44 and the rotary roller 41 rotate in the printing ink outlet by the friction force of the self-adhesive tape and the printing sleeve 44, the printing ink in the ink box 2 is adhered to the arc-shaped printing template 45, the ink at the top of the printing sleeve 44 is scraped by the edge of the printing ink outlet along with the rotation of the rotary roller 41, and only the ink on the arc-shaped printing template 45 is printed on the top of the self-adhesive tape;

when the printed self-adhesive tape passes through the space between the drying hollow cylinder 55 and the supporting roller 58, the clearance between the drying hollow cylinder 55 and the top of the self-adhesive tape is kept by the clearance protrusions 56 on the drying hollow cylinder 55, hot air blown by the hot air blower 510 is sent into the drying hollow cylinder 55 through the rotary joint 59, and then the hot air is blown to the ink on the top of the self-adhesive tape through the hot air drying holes 57 to dry the ink on the top of the self-adhesive tape.

It should be noted that the feeding motor 84, the regulating motor 37, the conveying motor 512 and the air heater 510 disclosed in the above embodiments are all controlled to operate by an external PLC controller, and the feeding motor 84, the regulating motor 37 and the conveying motor 512 all adopt servo motors.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (10)

1. A full-automatic high-efficient non-setting offset press, characterized by, include:

the printing ink box comprises a mounting plate (1), wherein an ink box (2) is mounted in the middle of the front side of the mounting plate, a printing ink outlet is formed in the bottom of the ink box (2), a lower ink quantity regulating mechanism (3) is mounted in the ink box (2), and a printing material conveying and feeding mechanism (8) is mounted at the bottom of the right side of the mounting plate (1);

the self-adhesive tape printing mechanism (4) comprises a rotary roller (41), a hollowed-out groove (42), an anti-slip strip (43), a printing sleeve (44) and a printing buffer assembly, wherein the bottoms of arch-shaped sliding frames (32) in the ink-discharging quantity regulating mechanism (3) are connected with the middle parts of two ends of the rotary roller (41) through the printing buffer assembly, the hollowed-out groove (42) is uniformly formed in the peripheral side of the rotary roller (41), the printing sleeve (44) is sleeved on the peripheral side of the rotary roller (41), the anti-slip strip (43) is annularly arranged on the peripheral side of the rotary roller (41), and the anti-slip strip (43) is clamped with the anti-slip groove on the inner side of the printing sleeve (44) in a matched mode;

and the ink drying treatment mechanism (5) is arranged at the left side of the bottom of the ink box (2).

2. The fully automatic, high efficiency, self-adhesive printing press of claim 1, wherein: the self-adhesive tape printing mechanism (4) further comprises an arc-shaped printing template (45) and separation baffle strips (46), annular grooves are longitudinally formed in the outer circumferential side of the printing sleeve (44) at equal intervals, the separation baffle strips (46) are arranged in the annular grooves at equal angles, the separation baffle strips (46) divide the annular grooves into template clamping grooves distributed in an annular array, and each template clamping groove is respectively provided with the arc-shaped printing template (45) in an interference clamping mode.

3. The fully automatic, high efficiency, self-adhesive printing press of claim 1, wherein: the printing buffer assembly comprises vertical through grooves (47), vertical sliding blocks (48), end shafts (49), telescopic columns (410) and buffer springs (411), two vertical through grooves (47) are respectively formed in two sides of the bottom end of the arched sliding frame (32), the vertical sliding blocks (48) are respectively connected in the vertical through grooves (47) in a sliding mode, the end shafts (49) are respectively and fixedly connected in the middle of two ends of the rotating roller (41), the two end shafts (49) are respectively and rotatably connected with the two corresponding vertical sliding blocks (48), the upper end and the lower end of each vertical sliding block (48) are respectively and fixedly connected with the upper end and the lower end in the vertical through groove (47) through the telescopic column (410), and the buffer springs (411) are respectively sleeved on each telescopic column (410).

4. The fully automatic, high efficiency, self-adhesive printing press of claim 1, wherein: the ink discharge quantity regulating mechanism (3) comprises a sliding groove (31), an arch sliding frame (32), regulating nuts (33), a fixed arch frame (36), a regulating motor (37) and a regulating stud (38), wherein the middle part of the front side and the rear side in the ink box (2) is provided with the vertical sliding groove (31), the front side and the rear side of the arch sliding frame (32) are respectively in vertical sliding connection with the corresponding sliding groove (31), the regulating nuts (33) are inlaid in the center of the top of the arch sliding frame (32), the left side and the right side of the top of the ink box (2) are detachably connected with the two ends of the fixed arch frame (36), the fixed arch frame (36) is located above the arch sliding frame (32), the top center of the fixed arch frame (36) is fixedly connected with the regulating motor (37), the bottom output shaft of the regulating motor (37) is fixedly connected with the top end of the regulating stud (38), and the regulating stud (38) is in threaded connection with the regulating nuts (33).

5. The fully automatic, high efficiency, self-adhesive printing press of claim 1, wherein: the printing ink stoving processing mechanism (5) include installation piece (51), telescopic link (52), compression spring (53), endblock (54), stoving hollow cylinder (55), clearance arch (56), hot-blast dry hole (57), backing roll (58) and conveying motor (512), the bottom left side front and back end of printing ink case (2) is fixedly connected with installation piece (51) respectively, the top of telescopic link (52) is fixedly connected respectively to the bottom of every installation piece (51), the bottom of every telescopic link (52) is fixedly connected endblock (54) respectively, compression spring (53) have been cup jointed on telescopic link (52), rotate between two endblocks (54) that correspond around and install stoving hollow cylinder (55), the outside circumference side annular array of stoving hollow cylinder (55) is provided with not less than eight rows of clearance arch (56), the outside circumference side annular array of stoving hollow cylinder (55) is offered and is not less than eight rows of hot-blast dry hole (57), the front side of mounting panel (1) is located the position under stoving hollow cylinder (55) and rotates the back end (58) of connecting motor (512) at the back end of the fixed bearing roller (512), the fixed device (512) behind the conveying roller (1).

6. The fully automatic, high-efficiency, self-adhesive printing press as defined in claim 5, wherein: the printing ink drying treatment mechanism (5) further comprises a rotary joint (59) and an air heater (510), the rear end inlet of the drying hollow cylinder (55) is connected with an air outlet of the air heater (510) through the rotary joint (59), and the air heater (510) is arranged at the top of the equipment seat (511).

7. The fully automatic, high efficiency, self-adhesive printing press of claim 1, wherein: still include non-setting adhesive tape printing face clearance mechanism (6), non-setting adhesive tape printing face clearance mechanism (6) include lift adjustment subassembly, clearance buffer assembly, spliced pole (69), dismantle cover (610), dismantle bolt (611), printing face clearance board (612), lift adjustment subassembly is installed on the right side of printing ink case (2), the top through clearance buffer assembly connection spliced pole (69) on the lift adjustment subassembly, dismantle cover (610) have been cup jointed to the bottom of spliced pole (69), the screw female screw connection of dismantlement cover (610) side has dismantlement bolt (611), the bottom side of dismantling bolt (611) butt spliced pole (69), the bottom fixedly connected with printing face clearance board (612) of dismantlement cover (610).

8. The fully automatic, high efficiency, self-adhesive printing press as defined in claim 7, wherein: the self-adhesive tape printing surface cleaning mechanism (6) further comprises a cleaning bearing assembly, and the front side of the mounting plate (1) is fixedly connected with the rear end of the cleaning bearing assembly at a position below the printing surface cleaning plate (612).

9. The fully automatic, high efficiency, self-adhesive printing press as defined in claim 7, wherein: further comprises a cleaning debris collecting mechanism (7), and the cleaning debris collecting mechanism (7) is arranged at the end part of the printing surface cleaning plate (612).

10. A printing method of a full-automatic high-efficiency self-adhesive printing press as claimed in any one of claims 1 to 9, characterized in that: the method comprises the following steps:

firstly, a regulating motor (37) in an ink discharging quantity regulating mechanism (3) works to drive a regulating stud (38) to rotate clockwise, an arch sliding frame (32) is driven to descend along a sliding groove (31) through the threaded action of the regulating stud (38) and a regulating nut (33), so that a self-adhesive tape printing mechanism (4) is controlled to descend, a printing sleeve (44) in the self-adhesive tape printing mechanism (4) descends to block a printing ink outlet, and then printing ink is added into an ink box (2);

step two, the self-adhesive tape passes through the space between two feeding rollers (82) in the printing material conveying and feeding mechanism (8), bypasses the bottom of the printing sleeve (44), and passes through the space between a drying hollow cylinder (55) and a supporting roller (58) in the printing ink drying and processing mechanism (5);

step three, a feeding motor (84) in the printing material conveying and feeding mechanism (8) works to drive a rotating shaft 81 at the top to rotate clockwise, the rotating shaft (81) at the bottom rotates anticlockwise, so that two feeding rollers (82) rotate oppositely, the self-adhesive tape moves from right to left, the self-adhesive tape passes through the lower side of a self-adhesive tape printing surface cleaning mechanism (6), a vertical screw (64) in a lifting adjusting assembly is twisted anticlockwise, a lifting plate (63) descends, a printing surface cleaning plate (612) is driven to descend by a cleaning buffer assembly, the printing surface cleaning plate (612) scrapes and cleans scraps at the top of the self-adhesive tape, and the scraps at the top of the self-adhesive tape fall into a cleaning scraps collecting mechanism (7) along the right side of the printing surface cleaning plate (612);

fourthly, the self-adhesive tape is contacted with the bottom of the printing sleeve (44), the printing sleeve (44) and the rotary roller (41) rotate in the printing ink outlet through friction force of the self-adhesive tape and the printing sleeve (44), printing ink in the ink box (2) is adhered to the arc-shaped printing template (45), the ink at the top of the printing sleeve (44) is scraped by the edge of the printing ink outlet along with the rotation of the rotary roller (41), and only the ink on the arc-shaped printing template (45) is printed to the top of the self-adhesive tape;

step five, when the printed self-adhesive tape passes through the space between the drying hollow cylinder (55) and the supporting roller (58), the space between the drying hollow cylinder (55) and the top of the self-adhesive tape is kept by means of the space protrusions (56) on the drying hollow cylinder (55), hot air blown by the hot air blower (510) is sent into the drying hollow cylinder (55) through the rotary joint (59), and then the hot air is blown to ink on the top of the self-adhesive tape through the hot air drying hole (57), so that the ink on the top of the self-adhesive tape is dried.