CN211493211U - Inflatable transfer printing device - Google Patents

Abstract

The utility model relates to the technical field of pad printing, in particular to an inflatable pad printing device, which comprises a frame, a positioning mechanism, an ink coating mechanism and an inflatable pad printing mechanism, wherein a workpiece is positioned on the positioning mechanism, and the ink coating mechanism is used for coating ink materials on the inflatable pad printing mechanism; the inflatable transfer printing mechanism comprises an inflatable transfer printing head; the ink coating mechanism comprises an etching plate, an ink injecting structure and an ink scraping structure, the ink injecting structure is used for injecting ink into the etching plate, the ink scraping structure is used for scraping redundant ink materials from the etching plate after the ink is injected, and the inflatable transfer printing head is used for moving to the positioning mechanism after adhering the ink materials on the etching plate and printing patterns on a workpiece positioned on the positioning mechanism. The utility model provides an inflatable moves printer head can establish clear, complete pattern to the work piece seal, scrapes the black structure and can also strike off unnecessary china ink material to the sculpture board through annotating the china ink for inflatable moves printer head and glues the china ink evenly, further makes the pattern clear, and it is effectual to move the seal, improves the yields of moving the seal greatly.

Description

Inflatable transfer printing device

Technical Field

The utility model belongs to the technical field of the bat printing technique and specifically relates to indicate an inflatable bat printing device.

Background

The type pad printing process of the pad printing machine is a special printing technology which is just transferred to China in the last 80 th century, and the pad printing machine has very obvious advantages in printing on products with small areas and concave-convex surfaces, makes up the defects of a screen printing process, and is developed very quickly in recent years. In the early 90 s, a large number of foreign enterprises mainly using traditional industries such as automobiles, electronics, plastics, gifts, toys and the like enter the Chinese market one after another, and the pad printing technology and the screen printing technology are developed more frequently as main decoration modes. Pad printing is the application of the principle of intaglio printing to print various fine lines, characters and patterns, even multi-color screen images. The tool includes a silicone head, a patterned printing plate (steel or fabric) and ink. The ideal effect can be still achieved no matter whether the surface of the printed matter is concave or convex or irregular.

But traditional bat printing rubber head is made by solid silica gel, traditional silica gel bat printing rubber head's hardness is great (elasticity is little), when the pattern that needs to be printed on the work piece is great, traditional silica gel bat printing rubber head atress is inhomogeneous, the pattern is unclear or incomplete can appear in the in-process of bat printing, the bat printing effect is poor, lead to the yields lower, in addition, at the bat printing in-process, the china ink material can generally spill over the sculpture board, it is inhomogeneous to lead to the bat printing head to glue the china ink easily, the pattern that leads to printing out is unclear, the bat printing effect is poor, the yields is lower.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an inflatable bat printing device can strike off unnecessary china ink material to the sculpture board through annotating black, and inflatable bat printing head can establish clear, complete pattern to the work piece seal, improves the yields of bat printing.

In order to solve the technical problem, the utility model discloses a following technical scheme:

an inflatable transfer printing device comprises a rack, a positioning mechanism, a plurality of ink coating mechanisms and a plurality of inflatable transfer printing mechanisms, wherein the positioning mechanism is slidably mounted on the rack; the inflatable transfer printing mechanism comprises an inflatable transfer printing head movably arranged on the frame; scribble black mechanism including install in the sculpture board of frame, slide and set up in annotating black structure of sculpture board and install in annotating the black structure of scraping of black structure, annotate black structure and be used for annotating the china ink to the sculpture board, scrape black structure and be used for scraping unnecessary china ink material to the sculpture board through annotating the china ink, inflatable moves printer head and glues and removes to positioning mechanism department and establishes the pattern to the work piece seal of positioning mechanism after getting the china ink material on the sculpture board.

Further, the rack-mount has the transportation track, positioning mechanism sets up including sliding in transportation orbital location base, the concave positioning groove who locates the location base and installs in the location base and be used for the structure of blowing of clean workpiece surface, the structure of blowing is including installing in the trachea of location base and setting up in the tracheal air cock of giving vent to anger the end, the inlet end bore of air cock is greater than the air outlet end bore of air cock.

Furthermore, the etching plate is concavely provided with an etching groove, the etching groove is used for accommodating ink, the ink scraping structure comprises a scraper arranged on the ink injection structure and an ink removing part movably arranged on the frame, the scraper is used for scraping redundant ink overflowing from the etching groove, and the ink removing part is used for removing the ink adhered to the scraper; the depth of the etched groove is less than 30 mu m.

Furthermore, the etching plate is provided with a photosensitive layer and a film layer.

Furthermore, the inflatable pad printing device also comprises a carrying mechanism arranged on the rack, the carrying mechanism comprises a plurality of Y-axis tracks arranged on the rack and a plurality of Z-axis tracks arranged on the Y-axis tracks in a sliding manner, one Y-axis track corresponds to one Z-axis track, the Y-axis tracks and the Z-axis tracks are arranged in a crossed manner, and the inflatable pad printing head is arranged on the Z-axis track in a sliding manner; the Y-axis track is provided with a moving frame in a sliding mode, and the ink injection structure is installed on the moving frame.

Furthermore, the ink injection structure comprises an ink cup which is arranged on the frame and used for accommodating ink, an ink injection moving head which is arranged on the moving frame, and an ink stirring rod which is arranged on the ink injection moving head and communicated with the ink cup, wherein the ink injection moving head is positioned on the etching plate and slides.

Further, inflatable bat printing device still includes the clean mechanism of printer head that moves, the clean mechanism of printer head moves including installing in the clean bench of frame, rotate set up in frame one side and be used for unreeling the structure of unreeling of sticky tape, rotate set up in the frame opposite side and be used for carrying out the rolling structure of rolling to the sticky tape that unreels the structure, install in the frame and be used for adjusting the tension control structure of the rate of tension of sticky tape and rotate and install in a plurality of live-rollers of frame.

Furthermore, inflatable bat printing device still sets up in the frame and is located the multiple compression roller of clean work platform top including rotating, and the sticky tape is located between compression roller and the clean work platform, the compression roller is used for holding the sticky tape in the pressure.

Furthermore, the tension control structure includes a sliding rail mounted on the frame, a sliding base slidably mounted on the sliding rail, a regulating roller rotatably arranged on the sliding base, and two driving gears meshed with the sliding base, wherein the two sides of the sliding base are respectively provided with a meshing row of teeth, the two driving gears are respectively meshed with the meshing row of teeth on the two sides of the sliding base, and the driving gears are connected with a driver in a driving manner.

Further, unreel the structure including rotating the roller that unreels that sets up in frame one side, the rolling structure is including rotating the wind-up roll that sets up in the frame opposite side, unreels the roller and the wind-up roll is all protruding to be equipped with a plurality of positioning unit, and a plurality of positioning unit are along the outside annular array who unreels the roller, and a plurality of positioning unit are along the outside annular array of wind-up roll.

The utility model has the advantages that:

1. the utility model discloses an inflatable moves printer head is formed by hardening with the room temperature after silica gel, silicon oil, catalyst are mixed, has high elasticity, and is conical, and conical moves printer head can control the pattern deformation well, makes the pattern clearer, and the inflatable moves printer head practical range of this application is wider, as long as the pattern size all can normal use within the scope of predetermineeing, need not consider the degree of depth or the hardness of gluing the head, makes inflatable moves printer head can seal work piece clear, complete pattern, improves the yields of bat printing greatly;

2. the utility model discloses a scrape black structure and can also strike off unnecessary china ink material to the sculpture board through annotating black for the inflatable moves printer head and glues black even, further makes the pattern clear, and it is effectual to move the seal, improves the yields greatly.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of another view angle of the present invention.

Fig. 4 is a schematic structural diagram of another view angle of the present invention.

Fig. 5 is a schematic structural view of the etching plate, the photosensitive layer and the thin film layer according to the present invention.

Description of reference numerals:

1-a frame; 11-a transport track; 2-a positioning mechanism; 21-positioning the base; 22-a positioning groove; 23-a blowing structure; 231-the trachea; 232-air tap; 3-an inking mechanism; 31-etching the plate; 311-etching a groove; 312-a photosensitive layer; 313-a thin film layer; 32-ink-filling structure; 321-ink cup; 322-ink-injection moving head; 323-poking ink sticks; 33-a wiping structure; 331-a scraper; 332-an ink removal feature; 4-inflatable transfer printing mechanism; 41-inflatable transfer printing head; 5-a carrying mechanism; a 51-Y axis orbit; 511-a mobile rack; 52-Z axis orbit; 6-pad print head cleaning mechanism; 61-cleaning the working platform; 62-an unreeling structure; 621-unwinding roller; 63-a rolling structure; 631-wind-up roll; 64-a turning roll; 7-a tension control structure; 71-a sliding track; 72-a slide base; 721-meshing rows of teeth; 73-a drive gear; 74-a dancer roll; 8-pressing roller; 9-positioning unit.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 5, the present invention provides an inflatable pad printing apparatus, which includes a frame 1, a positioning mechanism 2 slidably mounted on the frame 1, a plurality of ink applying mechanisms 3 mounted on the frame 1, and a plurality of inflatable pad printing mechanisms 4 movably mounted on the frame 1, wherein a workpiece is positioned on the positioning mechanism 2, and the ink applying mechanisms 3 are used for applying ink to the inflatable pad printing mechanisms 4; the inflatable transfer printing mechanism 4 comprises an inflatable transfer printing head 41 movably arranged on the frame 1; the ink coating mechanism 3 comprises an etching plate 31 arranged on the frame 1, an ink injecting structure 32 arranged on the etching plate 31 in a sliding mode and an ink scraping structure 33 arranged on the ink injecting structure 32, wherein the ink injecting structure 32 is used for injecting ink to the etching plate 31, the ink scraping structure 33 is used for scraping redundant ink materials from the etching plate 31 after ink injection, and the inflatable transfer printing head 41 is used for moving to the positioning mechanism 2 after adhering the ink materials on the etching plate 311 and printing patterns on workpieces positioned on the positioning mechanism 2. Preferably, the etching plate 31 is made of steel plate or fiber plate.

In practical applications, the plurality of inflatable transfer printing mechanisms 4 are arranged above the positioning mechanism 2, the workpiece is positioned on the positioning mechanism 2, the positioning mechanism 2 sequentially slides to the lower side of each inflatable transfer printing head 41, and the plurality of inflatable transfer printing heads 41 respectively print patterns on the corresponding portions of the workpiece. The traditional pad printing rubber head is made of solid silica gel, the traditional silica gel pad printing rubber head has higher hardness (small elasticity), when a pattern to be printed on a workpiece is larger, the traditional silica gel pad printing rubber head is stressed unevenly, the pattern is unclear or incomplete in the pad printing process, the pad printing effect is poor, the yield is lower, and in the pad printing process, ink materials generally overflow an etching plate, so that the pad printing head is easy to stick ink unevenly, the printed pattern is unclear, the pad printing effect is poor, and the yield is lower; in order to solve the above problems, the inflatable transfer printing head 41 of the present application is formed by mixing silica gel, silicone oil and a catalyst and then hardening at room temperature, has high elasticity and is conical, and the conical transfer printing head can well control pattern deformation so that the pattern is clearer; the application scrape black structure 33 can also strike off unnecessary china ink material to the sculpture board 31 of annotating black for inflatable moves printer head 41 and glues black even, further makes the pattern clear, and it is effectual to move the seal, improves the yields greatly.

In this embodiment, transportation track 11 is installed to frame 1, positioning mechanism 2 sets up in the location base 21 of transportation track 11 including sliding, concavely locates the positioning groove 22 of location base 21 and installs in location base 21 and be used for the structure 23 of blowing of clean workpiece surface, the structure 23 of blowing is including installing in the trachea 231 of location base 21 and setting up in the air cock 232 of the end of giving vent to anger of trachea 231, the inlet end bore of air cock 232 is greater than the end bore of giving vent to anger of air cock 232. The shape of the positioning groove 22 is matched with the shape of the workpiece, so that the workpiece is stably positioned on the positioning groove 22. The workpiece is usually exposed to the air in a workshop before the pad printing treatment, dust or particles float in the air in the workshop, and when the dust or the particles are adhered to the surface of the workpiece, if the workpiece is not cleaned, the pattern of the workpiece after pad printing is incomplete, and the pad printing effect is poor; in order to solve the problem, the structure 23 of blowing of this application can effectively clean the work piece, gets rid of the adhesion at the dust or the particulate matter of workpiece surface, and air cock 232 communicates with external compressed air feeding device, the air inlet end cross section of air cock 232 is personally submitted circularly, and the air outlet end cross section of air cock 232 is personally submitted long and thin rectangle, and the air inlet end cross sectional area of air cock 232 is greater than the air outlet end cross sectional area of air cock 232 for the impact force of the 232 air that sprays of air cock strengthens greatly, improves the clean dynamics to workpiece surface.

In this embodiment, the etching plate 31 is concavely provided with an etching groove 311, the etching groove 311 is used for accommodating ink, the ink scraping structure 33 includes a scraper 331 installed on the ink filling structure 32 and an ink removing member 332 movably installed on the frame 1, the scraper 331 is used for scraping excess ink overflowing from the etching groove 311, and the ink removing member 332 is used for removing the ink adhered to the scraper 331; the depth of the etched recesses 311 is less than 30 μm, because a depth of the etched recesses 311 exceeding 30 μm may result in the gas filled imprint head 41 not adhering ink or lacking ink, and the depth of the etched recesses 311 of the present application is less than 30 μm, so that the gas filled imprint head 41 effectively adheres ink. After the scraper 331 finishes the action of scraping off the ink, the ink can adhere to the edge of the scraper 331, and the ink adhered to the edge is not removed in time, so that secondary pollution is easily caused to the etching plate 31, and the pattern of transfer printing is inaccurate and unclear; in order to solve the above problems, the ink removing component 332 of the present application may be a brush or a rag, and after the scraper 331 finishes the action of scraping off the ink, the ink removing component 332 acts to clean the scraper 331, thereby effectively avoiding the ink adhered to the blade edge from causing secondary pollution to the etching plate 31, and making the transfer printed pattern accurate and clear.

In this embodiment, the etching plate 31 is provided with a photosensitive layer 312 and a thin film layer 313. Preferably, the photosensitive layer 312 is made of photosensitive paste, which enables finer transfer printing patterns, and the thin film layer 313 serves to protect the photosensitive layer 312.

In this embodiment, the ink filling structure 32 includes an ink cup 321 installed on the frame 1 and used for holding ink, an ink filling moving head 322 installed on the moving frame, and an ink stirring rod 323 arranged on the ink filling moving head 322 and communicated with the ink cup 321, wherein the ink filling moving head 322 is located on the etching plate 31 and slides; the ink in the ink cup 321 comprises mucilage, toner, diluent and catalyst, wherein the diluent is slow dry water. The thinner is mainly used for controlling the concentration of the ink and regulating the drying speed of the ink, so that the ink has good fluidity and keeps strong viscosity.

In this embodiment, the inflatable pad printing device further includes a carrying mechanism 5 mounted on the frame 1, the carrying mechanism 5 includes a plurality of Y-axis rails 51 mounted on the frame 1 and a plurality of Z-axis rails 52 slidably mounted on the Y-axis rails 51, each of the Y-axis rails 51 and the Z-axis rails 52 is provided in a plurality, one Y-axis rail 51 corresponds to one Z-axis rail 52, the Y-axis rails 51 and the Z-axis rails 52 are arranged in a cross manner, and the inflatable pad printing head 41 is slidably mounted on the Z-axis rails 52; the Y-axis rail 51 is slidably provided with a moving frame 511, and the ink filling structure 32 is mounted on the moving frame 511. Specifically, the Y-axis track 51 is perpendicular to the Z-axis track 52, and during transfer printing, as shown in fig. 3 and 4, the Z-axis track 52 drives the inflatable transfer printing head 41 to move to the end of the Y-axis track 51 close to the B side, so that the inflatable transfer printing head 41 is located above the etching plate 31, the moving frame 511 is located on the Y-axis track 51 and slides, the moving frame 511 drives the ink injection moving head 322 of the ink injection structure 32 to slide to the end of the etching plate 31 close to the B side, the ink injection moving head 322 slides over the etching groove 311 on the etching plate 31 and injects ink into the etching groove 311, the scraper 331 scrapes off excess ink overflowing from the etching groove 311, the ink removing component 332 operates to clean the scraper 331, the inflatable transfer printing head 41 moves down and adheres to the ink in the etching groove 311, the Z-axis track 52 drives the inflatable transfer printing head 41 to move to the end of the Y-axis track 51 close to the a side, so that the inflatable transfer printing head 41 is located above the positioning base 21, the inflatable transfer printing head 41 moves downwards to abut against the workpiece and transfer printing ink to the surface of the workpiece, meanwhile, the moving frame 511 drives the ink injection moving head 322 of the ink injection structure 32 to slide to one end, close to the side A, of the etching plate 31, so that the ink injection moving head 322 is located above the etching groove 311, the ink stirring rod 323 of the ink injection structure 32 injects ink into the etching groove 311, then the inflatable transfer printing head 41 resets to the upper side of the etching plate 31, and the ink injection moving head 322 resets to one end, close to the side B, of the etching plate 31, and the process is repeated. The conventional transfer printing equipment usually has a moving frame 511 directly and fixedly mounted on the inflatable transfer printing head 41, so that the inflatable transfer printing head 41 and the ink injection moving head 322 move synchronously, and the mechanical structure is simple and firm, but the inflatable transfer printing head 41 and the ink injection moving head 322 are driven by a Z-axis rail and generate impact during sliding, the vibration of the inflatable transfer printing head 41 and the ink injection moving head 322 cannot be avoided, the inflatable transfer printing head 41 and the ink injection moving head 322 are easily damaged, the inflatable transfer printing head 41 and the ink injection moving head 322 do not interfere with each other and move independently, the inflatable transfer printing head 41 and the ink injection moving head 322 are protected, and the service life is prolonged.

In this embodiment, inflatable bat printing device 4 still includes the clean mechanism 6 of bat printing head, the clean mechanism 6 of bat printing head is including installing in the clean workstation 61 of frame 1, rotating set up in frame 1 one side and be used for unreeling the structure 62 of unreeling of sticky tape, rotate set up in frame 1 opposite side and be used for carrying out the rolling structure 63 of rolling to the sticky tape that unreels structure 62, install in frame 1 and be used for adjusting the tension control structure 7 of the rate of tension of sticky tape and rotate and install in a plurality of live-rollers 64 of frame 1. The cleaning workbench 61 is located between the transportation rail 11 and the etching plate 31, before the inflatable transfer printing head 41 adheres the ink material of the etching groove 311, the inflatable transfer printing head moves to the upper side of the cleaning workbench 61, and the adhesive tape adheres the dry oil and the dust and the flocks adhered to the outer surface of the inflatable transfer printing head 41, so that the outer surface of the inflatable transfer printing head 41 is kept clean and clean.

In this embodiment, the inflatable pad printing device further includes a plurality of pressing rollers 8 rotatably disposed on the frame 1 and located above the cleaning table 61, the adhesive tape is located between the pressing rollers 8 and the cleaning table 61, and the pressing rollers 8 are used for pressing and holding the adhesive tape. The inflatable transfer printing head 41 is bonded with the adhesive tape, then the inflatable transfer printing head 41 moves upwards, the adhesive tape is easily taken up in the process that the inflatable transfer printing head 41 moves upwards, the adhesive tape cannot be separated from the inflatable transfer printing head 41, and therefore the cleaning effect of the inflatable transfer printing head 41 cannot be achieved by the adhesive tape, the press roller 8 is used for pressing and holding the adhesive tape, the adhesive tape is separated from the inflatable transfer printing head 41 in the process that the inflatable transfer printing head 41 moves upwards, the adhesive tape can stick dry oil and dust and flock adhered to the outer surface of the inflatable transfer printing head 41, and the outer surface of the inflatable transfer printing head 41 is kept clean and clean.

In this embodiment, the tension control structure 7 includes a sliding rail 71 installed on the frame 1, a sliding base 72 slidably installed on the sliding rail 71, a regulating roller 74 rotatably installed on the sliding base 72, and two driving gears 73 engaged with the sliding base 72, wherein two sides of the sliding base 72 are respectively provided with a meshing row of teeth 721, the two driving gears 73 are respectively engaged with the meshing row of teeth 721 on two sides of the sliding base 72, and the driving gears 73 are drivingly connected with a driver (not shown in the figure). When the adhesive tape becomes loose, the two driving gears 73 rotate synchronously to drive the sliding base 72 to slide on the sliding track 71, and the adjusting roller 74 moves to drive the adhesive tape to move, so that the adhesive tape keeps a preset tension degree; preferably, the driver may be a servo motor.

In this embodiment, unreel structure 62 including rotate set up in the unreeling roller 621 of frame 1 one side, rolling structure 63 is including rotating set up in the wind-up roller 631 of frame 1 opposite side, unreel roller 621 and wind-up roller 631 and all protruding being equipped with a plurality of positioning unit 9, a plurality of positioning unit 9 are along the outside annular array of unreeling roller 621, a plurality of positioning unit 9 are along the outside annular array of wind-up roller 631. Roll up the sticky tape that has of sticky tape including the reel and around locating the reel outside usually, unreel roller 621, wind-up roll 631 and wear to locate the reel respectively, the reel is equipped with the dogtooth that uses with the 9 cooperations of positioning unit, can effectively avoid the reel and unreel taking place to skid between roller 621 or the wind-up roll 631, improves reliability and stability.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (10)

1. The utility model provides an inflatable bat printing device, its includes the frame, its characterized in that: the automatic ink-applying device comprises a rack, a workpiece, an ink-applying mechanism and a positioning mechanism, wherein the positioning mechanism is arranged on the rack in a sliding manner;

the inflatable transfer printing mechanism comprises an inflatable transfer printing head movably arranged on the frame;

scribble black mechanism including install in the sculpture board of frame, slide and set up in annotating black structure of sculpture board and install in annotating the black structure of scraping of black structure, annotate black structure and be used for annotating the china ink to the sculpture board, scrape black structure and be used for scraping unnecessary china ink material to the sculpture board through annotating the china ink, inflatable moves printer head and glues and removes to positioning mechanism department and establishes the pattern to the work piece seal of positioning mechanism after getting the china ink material on the sculpture board.

2. The inflatable pad printing device of claim 1, wherein: the frame mounting has the transportation track, positioning mechanism sets up in the orbital positioning base of transportation, concavely locates the positioning groove of positioning base and installs in the positioning base and be used for the structure of blowing of clean workpiece surface including sliding, the structure of blowing is including installing in the trachea of positioning base and setting up in the tracheal air cock of the end of giving vent to anger, the air inlet end bore of air cock is greater than the end bore of giving vent to anger of air cock.

3. The inflatable pad printing device of claim 1, wherein: the ink filling device comprises an etching plate, an ink filling structure, an ink scraping structure and an ink removing structure, wherein the etching plate is concavely provided with an etching groove, the etching groove is used for accommodating ink, the ink scraping structure comprises a scraper arranged on the ink filling structure and an ink removing part movably arranged on a rack, the scraper is used for scraping redundant ink overflowing from the etching groove, and the ink removing part is used for removing the ink adhered to the scraper; the depth of the etched groove is less than 30 mu m.

4. The inflatable pad printing device of claim 1, wherein: the etching plate is provided with a photosensitive layer and a thin film layer.

5. The inflatable pad printing device of claim 1, wherein: the inflatable pad printing device further comprises a carrying mechanism arranged on the rack, the carrying mechanism comprises a plurality of Y-axis rails arranged on the rack and a plurality of Z-axis rails arranged on the Y-axis rails in a sliding manner, one Y-axis rail corresponds to one Z-axis rail, the Y-axis rails and the Z-axis rails are arranged in a crossed manner, and the inflatable pad printing head is arranged on the Z-axis rails in a sliding manner; the Y-axis track is provided with a moving frame in a sliding mode, and the ink injection structure is installed on the moving frame.

6. The inflatable pad printing device of claim 5, wherein: the ink injection structure comprises an ink cup which is arranged on the frame and used for installing ink, an ink injection moving head which is arranged on the moving frame, and an ink stirring rod which is arranged on the ink injection moving head and communicated with the ink cup, wherein the ink injection moving head is positioned on the etching plate and slides.

7. The inflatable pad printing device of claim 1, wherein: inflatable bat printing device still includes the clean mechanism of printer head that moves, move the clean mechanism of printer head including install in the clean workstation of frame, rotate set up in frame one side and be used for unreeling the structure of unreeling of sticky tape, rotate set up in the frame opposite side and be used for carrying out the winding structure of rolling to the sticky tape that unreels the structure, install in the frame and be used for adjusting the tension control structure of the rate of tension of sticky tape and rotate and install in a plurality of live-rollers of frame.

8. The inflatable pad printing device of claim 7, wherein: the inflatable transfer printing device further comprises a plurality of compression rollers which are rotatably arranged on the rack and positioned above the cleaning workbench, the adhesive tape is positioned between the compression rollers and the cleaning workbench, and the compression rollers are used for pressing and holding the adhesive tape.

9. The inflatable pad printing device of claim 7, wherein: the tension control structure comprises a sliding track arranged on the rack, a sliding base arranged on the sliding track in a sliding mode, a regulating roller arranged on the sliding base in a rotating mode and two driving gears meshed with the sliding base, wherein the two sides of the sliding base are respectively provided with a meshing row of teeth, the two driving gears are respectively meshed with the meshing row of teeth on the two sides of the sliding base, and the driving gears are connected with a driver in a driving mode.

10. The inflatable pad printing device of claim 7, wherein: unreel the structure including rotating the winding up roller that sets up in frame one side, the winding structure is including rotating the winding up roller that sets up in the frame opposite side, and it all is equipped with a plurality of positioning unit to unreel roller and winding up roller, and a plurality of positioning unit are along the outside annular array who unreels the roller, and a plurality of positioning unit are along the outside annular array of winding up roller.

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