CN212979615U - Ink solution roller coating flow film machine - Google Patents

Abstract

The utility model discloses a printing ink solution roller coating film machine, which comprises a transfer film support frame, a transfer film guide roller, a printing ink solution leaving groove, a printing ink solution driven wheel roller, a printing ink solution driven film pressing roller, a driving motor, a transfer film driving force roller, a conveying track and a transmission gear; wherein: the conveying track is connected with the transfer printing film main power roller and the transmission gear, and the driving motor is in driving connection with the transfer printing film main power roller; the ink dissolving liquid driven wheel roller extends into the ink dissolving liquid leaving groove, and the ink dissolving liquid driven film pressing roller is arranged above the ink dissolving liquid driven wheel roller; after the transfer printing film is unreeled from the transfer printing film support frame, the transfer printing film passes through a space between the ink solution driven film pressing roller and the ink solution driven wheel roller under the guidance of the transfer printing film guide roller, the ink solution is coated on the transfer printing film by the ink solution driven wheel roller, and then the transfer printing film is transmitted and output along with the transfer printing film on the conveying track.

Description

Ink solution roller coating flow film machine

Technical Field

The utility model belongs to the technical field of the flowing film machine and specifically relates to indicate a printing ink dissolves liquid and rolls and scribble flowing film machine.

Background

The water transfer printing is a printing for transferring the picture and text of the transfer printing paper/transfer printing film with the color pattern by using water as a dissolving medium. With the improvement of the requirements of people on product packaging and decoration, the water transfer printing has wider and wider application. The principle of indirect printing and perfect printing effect solve the problem of surface decoration of many products, and are mainly used for surface image-text transfer printing of various products with complicated shapes, and the application range of the products is wide, for example: the soil-improving agent can be used as automobile products, capsule-carrying electronic products, ⒊ living room products, ⒋ daily-use fine products, 5 indoor building materials and the like.

When water transfer printing is carried out, a film which is processed by special chemistry is printed with needed color lines, then the film is horizontally conveyed to the surface of water, ink dissolving liquid which can lead the coating film to be completely dissolved but not damage the lines on the film is sprayed on the film, and then the color lines and patterns are uniformly transferred on the surface of a product by the action of water pressure. In the traditional technology, some ink dissolving liquid is manually sprayed on the water transfer film, so that the use is inconvenient, time and labor are wasted, and the spraying is not uniform.

Later, some devices for automatically spraying ink solutions have been developed, which automatically spray the ink solutions onto the water transfer film, and some devices also automatically deliver the ink solutions to the overflow bar through a delivery hose, and finally spray the ink solutions onto the soft coating bar through the overflow bar, and coat the activating agent on the film paper while the soft coating bar rotates along with the film paper; compared with manual operation, the method has obvious progress, but is limited by nozzle operation, and is difficult to further improve in the aspect of spraying uniformity, so that the water transfer printing quality is limited, and the requirement of higher surface effect is difficult to meet.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a roller coating film machine for ink solution, which utilizes a passive film pressing roller for ink solution to adhere ink solution from a left groove for ink solution, and has a good uniformity on the rolling surface, and after the transfer film passes through the passive film pressing roller for ink solution and the passive wheel roller for ink solution, the ink solution is uniformly coated on the transfer film, thereby improving the water transfer quality and achieving a higher surface effect.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a roller coating film machine for ink dissolving liquid comprises a transfer film support frame, a transfer film guide roller, an ink dissolving liquid leaving groove, an ink dissolving liquid driven wheel roller, an ink dissolving liquid driven film pressing roller, a driving motor, a transfer film main power roller, a conveying track and a transmission gear;

wherein: the conveying track is connected with the transfer printing film main power roller and the transmission gear, and the driving motor is in driving connection with the transfer printing film main power roller; the ink dissolving liquid driven wheel roller extends into the ink dissolving liquid leaving groove, and the ink dissolving liquid driven film pressing roller is arranged above the ink dissolving liquid driven wheel roller;

after the transfer printing film is unreeled from the transfer printing film support frame, the transfer printing film passes through a space between the ink solution driven film pressing roller and the ink solution driven wheel roller under the guidance of the transfer printing film guide roller, the ink solution is coated on the transfer printing film by the ink solution driven wheel roller, and then the transfer printing film is transmitted and output along with the transfer printing film on the conveying track.

As a preferable scheme, the transfer printing film heating and guiding device is further provided with a directional heating device, and the transfer printing film passes through the transfer printing film heating and guiding roller after being unreeled from the transfer printing film supporting frame and before passing through a space between the ink solution passive film pressing roller and the ink solution passive wheel roller.

As a preferable scheme, a plurality of uniformly distributed concave points are arranged on the rolling surface of the ink solution driven wheel roller;

and an elastic scraper is arranged on the outer side of the rolling surface of the ink solution driven wheel roller, and the blade end of the elastic scraper is abutted against the rolling surface of the ink solution driven wheel roller.

Preferably, a film pressing wheel is arranged above the conveying track.

As a preferred scheme, the elasticity scraper is including printing ink solution scraper blade, scraper support frame, spring, regulation pole, the rotatable formula of installing of printing ink solution scraper blade is installed in the scraper support frame, the upper end of adjusting the pole acts on the lower extreme of spring, the upper end of spring acts on printing ink solution scraper blade, but adjust the setting of displacement formula from top to bottom in order to adjust the printing ink solution scraper blade to the rolling surface's of printing ink solution follower cylinder support pressure.

As a preferable scheme, the output side of the transfer printing film support frame is further provided with an automatic tension adjusting rod for a transfer printing film spring.

As a preferable mode, an ink solution liquid collecting tank, an ink solution input pipe, an ink solution loop pipe, and an ink solution circulating device are further provided, the ink solution circulating device is connected to the ink solution liquid collecting tank and the ink solution input pipe to send the ink solution from the ink solution liquid collecting tank to the ink solution input pipe, an output end of the ink solution input pipe is connected to the ink solution leaving tank, an input end of the ink solution loop pipe is connected to the ink solution leaving tank, an input end of the ink solution loop pipe is lower than an output end of the ink solution input pipe, an output end of the ink solution loop pipe is connected to the ink solution liquid collecting tank, and an oil return control valve is provided on the ink solution loop pipe.

As a preferable scheme, the ink solution passive squeeze film roller is connected with a driven wheel automatic lifting device, and the driven wheel automatic lifting device is provided with a lifting cylinder for controlling the lifting of the driven wheel automatic lifting device so as to control a gap between the ink solution passive squeeze film roller and the ink solution driven wheel roller.

As a preferable scheme, a cross flow fan is further provided, and the cross flow fan blows air towards the transfer printing film unreeled from the transfer printing film support frame.

As a preferable scheme, the ink solution roll coating flow film machine is connected with a transfer printing groove, when a transfer printing film enters the transfer printing groove and is drained, three-surface guide air ports are formed by a three-surface ink solution film blowing guide fan and are respectively blown forwards, leftwards and rightwards, and the transfer printing film is unfolded and leveled in three directions after being drained and then flows to a transfer printing area.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

firstly, after a transfer printing film is unreeled from a transfer printing film support frame, the transfer printing film passes through a space between an ink solution driven film pressing roller and an ink solution driven wheel roller under the guidance of a transfer printing film guide roller, the ink solution is coated on the transfer printing film by the ink solution driven wheel roller, and then the transfer printing film is transmitted and output along with the transfer printing film on a conveying track; compare traditional printing ink and dissolve liquid mode of spraying, the utility model discloses in, utilize printing ink to dissolve liquid passive press mold cylinder and leave over the groove from printing ink solution and be stained with and attach printing ink solution, its roll surface is stained with and attaches the degree of consistency well, and the rendition membrane dissolves liquid passive press mold cylinder through printing ink, printing ink and dissolves back between the liquid passive wheel cylinder, printing ink, and printing ink dissolves the liquid and is coated the rendition membrane uniformly on, is favorable to improving water transfer printing quality, realizes higher product surface effect.

Secondly, a plurality of uniformly distributed concave points are arranged on the rolling surface of the ink solution driven wheel roller, and the uniform ink solution is left on the ink solution driven wheel roller under the action of an elastic scraper.

And a transfer printing film spring tension automatic adjusting rod is arranged, so that the wrinkle of the film paper is relieved, the surface of the film is smooth, the solution is more uniform when being rolled and coated, and the thickness of the film is consistent.

Fourthly, under the work of film pressing wheel, the rendition membrane is synchronous with the transfer track, can not lead to membrane and transfer track to skid, and the flowing film is stable smooth and easy, and the good reliability.

And fifthly, in the launching process of the transfer printing film, the transfer printing film cannot wrinkle after being launched due to the action of the three-surface guide air opening, and the wrinkled films are naturally separated according to three directions, so that the smooth flowing of the transfer printing film in water is ensured.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic structural view of a roller coating film machine for an ink solution according to a first embodiment of the present invention;

FIG. 2 is a schematic structural view of an elastic blade (3) according to a first embodiment of the present invention;

fig. 3 is a schematic structural view of an automatic tension adjusting lever (9) for a transfer film spring according to a first embodiment of the present invention;

FIG. 4 is a partial structural view of a transfer printing tank (44) engaged with a roller coating machine for ink solution according to a first embodiment of the present invention;

fig. 5 is a schematic structural view of a three-sided guiding tuyere (a three-dimensional view of an air outlet cover) according to a first embodiment of the present invention;

fig. 6 is a front view of the air outlet cover according to the first embodiment of the present invention;

fig. 7 is a side view of the air outlet cover according to the first embodiment of the present invention;

FIG. 8 is a schematic view showing a structure of a roll coater for ink solutions according to a second embodiment of the present invention applied to a transfer bath;

FIG. 9 is a perspective view of a roller coating apparatus for ink solutions according to a second embodiment of the present invention;

fig. 10 is a left side view of an ink solution roll coating film machine according to a second embodiment of the present invention (the left cabinet is not shown);

fig. 11 is a right side view of an ink solution roll coating film machine according to a second embodiment of the present invention (the right cabinet is not shown).

The attached drawings indicate the following:

1 case 2 ink solution leaving tank

3 elastic scraper 4 ink solution loop pipe

5 ink dissolving liquid circulating device 6 ink dissolving liquid input pipe

7 ink dissolving liquid driven wheel roller 8 ink dissolving liquid driven film pressing roller

9 transfer printing film spring tension automatic adjusting rod 10 transfer printing film heating guide roller

11 transfer printing film guide roller 12 transfer printing film main power roller

13 passive unpowered cylinder 14 rendition membrane direction belt of rendition membrane

15 driving motor 16 driving belt

17 transmission gear 18 motor support frame

19 transfer printing film support frame 20 heating device

21 film pressing wheel 22 driven wheel automatic lifting device

23 lifting cylinder 24 ink solution collecting box

25 electric cabinet 26 electric leakage protection device

27 Circuit control System 28 display touch Screen

29 emergency stop switch 30 moving caster

31 three-side film blowing guide fan of cross flow fan 32

33 front side air blowing opening of air outlet cover B1

B2 left air outlet B3 right air outlet

Scraper blade for A transfer film 34 printing ink dissolving liquid

35 scraper support 36 spring

37 adjusting rod 38 film

39 automatic tension spring 40 bearing seat

41 arc tension bar 42 optical axis support

43 adjusting sleeve 431 adjusts the screw rod

44 transfer groove 45 transfer area

46 odor removing liquid box 47 odor removing fan

48 deodorizing filter screen 49 deodorizing air pipe

50 odor removing cover 51 safety door

The door is electrically controlled 52.

Detailed Description

Referring to fig. 1 to 11, specific structures of various embodiments of the present invention are shown.

First, please refer to fig. 1 to 7, which show a specific structure and a method for rolling a flow film by an ink solution according to a first embodiment of the present invention:

a roller coating film machine for ink solution comprises a case 1, a transfer film support frame 19 arranged on the case 1, a transfer film guide roller 11, an ink solution leaving groove 2, an ink solution driven wheel roller 7, an ink solution driven film pressing roller 8, a driving motor 15, a transfer film driving force roller 12, a transfer film guide belt 14 and a transmission gear 17; the case 1 can be made of stainless steel or a paint iron plate, and the bottom of the case 1 is provided with a movable caster 30. In the first embodiment, the transfer film guide belt 14 is used as the conveying rail, and a plurality of guide rollers may be used to form a drum-type conveying rail.

The ink solution roll coating machine is generally provided as an automated apparatus, and therefore, has an electric cabinet 25, an earth leakage protection device 26, a circuit control system 27, a display touch panel 28, an emergency stop switch 29, and the like. As can be seen from FIG. 1, these components can be disposed on the chassis 1, and the structure and arrangement are compact and reasonable, and the operation is convenient.

The transfer printing film guiding belt 14 is connected to the transfer printing film main power roller 12 and the transmission gear 17, and the driving motor 15 is in driving connection with the transfer printing film main power roller 12; the drive motor 15 here is a step-and-step speed-adjustable drive motor, for example of the 86 type, whose output gear is connected to the transfer film drive roller 12 via a drive belt 16. The driving motor 15 is mounted on the chassis 1 through a motor support frame 18. Due to the instability of the mains AC220V, it is preferable to supply the stepper motor with DC80V DC, and in operation, the drive motor 15 is kept at a constant speed at all times, keeping the speed matched to the transfer slot.

The ink dissolving liquid driven wheel cylinder 7 extends into the ink dissolving liquid leaving tank 2, and the ink dissolving liquid driven film pressing cylinder 8 is arranged above the ink dissolving liquid driven wheel cylinder 7; the ink dissolving liquid driven squeeze film roller 8 is connected with a driven wheel automatic lifting device 22, the driven wheel automatic lifting device 22 is provided with a lifting cylinder 23 for controlling the lifting of the driven wheel automatic lifting device 22 so as to control the gap between the ink dissolving liquid driven squeeze film roller 8 and the ink dissolving liquid driven wheel roller 7.

After being unreeled from the transfer film support frame 19, the transfer film passes through a space between the ink solution driven squeeze film roller 8 and the ink solution driven roller 7 by the guidance of the transfer film guide roller 11, the ink solution is coated on the transfer film a by the ink solution driven roller 7, and then the transfer film a is output by transmission on the transfer film guide belt 14. A film pressing wheel 21 is arranged above the film transfer guide belt 14 to position the transfer film a.

In the first embodiment, as shown in fig. 1, a crossflow fan 31 is further provided, and the crossflow fan 31 blows air toward the transfer film unreeled from the transfer film support frame 19.

As shown in fig. 1, it is preferable that a transfer film heating guide roller 10 is further provided, the transfer film heating guide roller 10 is provided with a direction heating device 20, and the transfer film is unwound from the transfer film support frame 19 and passes through the transfer film heating guide roller 10 before passing through between the ink solution passive lamination roller 8 and the ink solution passive pulley roller 7.

As shown in fig. 1 and fig. 2, in the first embodiment, the rolling surface of the ink solution driven wheel cylinder 7 is provided with a plurality of uniformly distributed concave points, such as: 120 grains/square centimeter. And an elastic scraper 3 is arranged on the outer side of the rolling surface of the ink solution driven wheel roller 7, and the blade end of the elastic scraper 3 is abutted against the rolling surface of the ink solution driven wheel roller 7. The elastic scraper 3 comprises an ink dissolving liquid scraper blade 34, a scraper supporting frame 35, a spring 36 and an adjusting rod 37, wherein the ink dissolving liquid scraper blade 34 can be rotatably arranged on the scraper supporting frame 35, the upper end of the adjusting rod 37 acts on the lower end of the spring 36, the upper end of the spring 36 acts on the ink dissolving liquid scraper blade 34, and the adjusting rod 37 can be adjusted up and down in a displacement mode to adjust the pressure of the ink dissolving liquid scraper blade 34 against the rolling surface of the ink dissolving liquid driven wheel roller 7. Typically, the ink dissolving doctor blade 34 is coated with a film or tape 38.

As shown in fig. 1 and 3, an automatic transfer film spring tension adjustment lever 9 is further provided on the output side of the transfer film support frame 19. The automatic tension adjusting rod 9 for the transfer printing film spring comprises an automatic tension spring 39, a bearing seat (40), an arc-shaped tension rod 41, an optical axis bracket 42, an adjusting sleeve 43 and an adjusting screw rod 431; specifically, the method comprises the following steps:

the bearing seats (40 are respectively arranged at two ends of the optical axis bracket 42 for installing and positioning the optical axis bracket 42, two adjusting sleeves 43 are also arranged, the two adjusting sleeves are arranged on the optical axis bracket 42 at a left-right interval, through holes which are larger than the left-right direction of the optical axis bracket 42 are arranged on the adjusting sleeves 43, the optical axis bracket 42 passes through the through holes, automatic tension springs 39 are arranged between the bearing seats (40) at two ends of the optical axis bracket 42 and the corresponding adjusting sleeves 43, the automatic tension springs 39 are used for keeping the pushing force on the adjusting sleeves 43, the arc-shaped tension rod 41 is arched upwards, the middle part of the arc-shaped tension rod is upwards arched, the two cross feet are arranged gradually downwards towards the left and the right, the two cross feet are arranged on the two adjusting sleeves 43, the lower ends of the adjusting sleeves 43 are connected with adjusting screw rods 431, the adjusting screw rods 431 are upwards matched in the internal thread holes of the adjusting sleeves 43, the upper ends, the adjusting sleeve 43 can be moved upwards or downwards correspondingly, so as to adjust the height of the top end of the arc-shaped tension rod 41, and thus, the transfer printing film A can be flexibly supported by the transfer printing film spring tension automatic adjusting rod 9.

As shown in fig. 1, an ink solution header tank 24, an ink solution input pipe 6, an ink solution loop pipe 4, and an ink solution circulation device 5 are further provided, the ink solution circulation device 5 being connected to the ink solution header tank 24 and the ink solution input pipe 6 to send the ink solution from the ink solution header tank 24 to the ink solution input pipe 6, an output end of the ink solution input pipe 6 being connected to the ink solution carry-over tank 2, an input end of the ink solution loop pipe 4 being lower than an output end of the ink solution input pipe 6, an output end of the ink solution loop pipe 4 being connected to the ink solution header tank 24, and an oil return control valve being provided on the ink solution loop pipe 4.

As shown in fig. 4 and fig. 5 to 7, the ink solution roll coating film machine is connected to a transfer printing tank 44, when a transfer printing film a enters the transfer printing tank 44 for dewatering, a three-surface film blowing guide fan 32 forms three-surface guide air ports for blowing air forwards, leftwards and rightwards respectively, the three-surface guide air ports comprise a front side air blowing port B1, a left side air blowing port B2 and a right side air blowing port B3, and after dewatering, the transfer printing film a is spread and leveled in three directions and then flows to a transfer printing area 45. The three-side blown film guiding fan 32 is movable and can change position in the front-back direction, where the front-back direction is the extending length direction of the transfer film a, and the left-right direction is the extending width direction of the transfer film a. In practice, the air outlet cover 32 can be implemented by a conical body, for example: the top surface of the transfer printing film A is square, the four sides of the lower side of the transfer printing film A are triangular, the triangular surface on the left side of the transfer printing film A is used for forming downward air blowing obliquely leftwards, the triangular surface on the right side of the transfer printing film A is used for forming downward air blowing obliquely rightwards, the triangular surface on the front side of the transfer printing film A is used for forming downward air blowing obliquely forwards, and thus when the three-side film blowing guide fan 32 works, the front side surface, the left side surface and the right side surface of the air outlet cover respectively form forward air blowing, left air blowing and right air blowing in three directions, so.

Next, a method for rolling a flow film by using an ink solution according to an embodiment of the present invention is described, including the steps of:

step 1, unwinding a transfer printing film from a transfer printing film support frame 19, wherein the reduction surface of the transfer printing film is upward; the output side of the transfer printing film support frame 19 is provided with a transfer printing film spring tension automatic adjusting rod 9 for adjusting the support force of the transfer printing film;

step 2, the transfer printing film is guided by a transfer printing film guide roller 11 and passes through a space between an ink solution passive film pressing roller 8 and an ink solution passive wheel roller 7, and the ink solution passive wheel roller 7 coats the ink solution on the transfer printing film; in the step 2, before the transfer film passes through the space between the ink solution passive lamination roller 8 and the ink solution passive wheel roller 7, the transfer film is heated by the transfer film heating guide roller 10;

and 3, the transfer printing film is output on the conveying track in a transmission way. In the step 3, the transfer film flows to the water surface of the transfer printing groove after being output, and the transfer film is blown forwards, leftwards and rightwards by the three-surface ink dissolving liquid film blowing guide fan 32, so that the transfer film is unfolded and leveled according to three directions after being drained and then flows to the transfer printing area 44; and deodorizing the ink dissolving solution before the transfer film flowing to the water surface of the transfer tank enters the transfer area 44.

Next, please refer to fig. 8 to 11, which show a specific structure of a second embodiment of the present invention. The basic structure is the same as that of the first embodiment, and the main difference of the second embodiment is that:

1. at rendition membrane support frame 19 unreel department, add the rolling machine, it is received the rendition membrane and is rolled up the volume and place for follow-up rendition membrane support frame 19 unreels.

2. The transfer film flowing to the water surface of the transfer tank is subjected to an ink dissolving solution deodorization treatment before entering the transfer area 44. The method specifically comprises the following steps: the deodorizing device is provided with a deodorizing liquid box 46, a deodorizing fan 47, a deodorizing filter screen 48, a deodorizing air pipe 49 and the like, wherein the deodorizing liquid box 46 can be arranged on the left side and/or the right side, a deodorizing cover 50 is arranged above the transfer printing groove 44, the deodorizing liquid box 46 is positioned below the right side of the deodorizing cover 50, a safety door 51 is arranged above the left side of the deodorizing cover 50, an electric control door 52 is arranged below the left side of the deodorizing cover 50, and a display touch screen 28 is arranged on the electric control door 52.

The utility model is mainly characterized in that after the transfer printing film is unreeled from the transfer printing film support frame, the transfer printing film passes through the space between the ink solution passive film pressing roller and the ink solution passive wheel roller under the guidance of the transfer printing film guide roller, the ink solution passive wheel roller coats the ink solution on the transfer printing film, and then the transfer printing film is output by transmission on the conveying track; compare traditional printing ink and dissolve liquid mode of spraying, the utility model discloses in, utilize printing ink to dissolve liquid passive press mold cylinder and leave over the groove from printing ink solution and be stained with and attach printing ink solution, its roll surface is stained with and attaches the degree of consistency well, and the rendition membrane dissolves liquid passive press mold cylinder through printing ink, printing ink and dissolves back between the liquid passive wheel cylinder, printing ink, and printing ink dissolves the liquid and is coated the rendition membrane uniformly on, is favorable to improving water transfer printing quality, realizes higher product surface effect.

Secondly, a plurality of uniformly distributed concave points are arranged on the rolling surface of the ink solution driven wheel roller, and the uniform ink solution is left on the ink solution driven wheel roller under the action of an elastic scraper; the transfer printing film spring tension automatic adjusting rod is arranged, so that the wrinkle of the film paper is relieved, the surface of the film is smooth, the solution is more uniform when being rolled and coated, and the thickness of the film is consistent; under the operation of the film pressing wheel, the transfer printing film is synchronous with the conveying track, so that the film and the conveying track cannot slip, the flow film is stable and smooth, and the reliability is good. And in the launching process of the transfer printing film, the transfer printing film cannot wrinkle after launching due to the action of the three-surface guiding air openings, and the wrinkled films are naturally separated according to three directions, so that the smooth flowing of the transfer printing film in water is ensured.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. A roller coating film machine for ink dissolving liquid is characterized in that: the transfer printing film transfer machine comprises a transfer printing film support frame (19), a transfer printing film guide roller (11), an ink solution leaving groove (2), an ink solution driven wheel roller (7), an ink solution driven film pressing roller (8), a driving motor (15), a transfer printing film driving force roller (12), a conveying track and a transmission gear (17);

wherein: the conveying track is connected with the transfer printing film main power roller (12) and the transmission gear (17), and the driving motor (15) is in driving connection with the transfer printing film main power roller (12); the ink dissolving liquid driven wheel roller (7) extends into the ink dissolving liquid remaining groove (2), and the ink dissolving liquid driven film pressing roller (8) is arranged above the ink dissolving liquid driven wheel roller (7).

2. The ink solution roll coating film machine according to claim 1, characterized in that: the transfer printing film heating and guiding device is further provided with a transfer printing film heating and guiding roller (10), the transfer printing film heating and guiding roller (10) is provided with a facing heating device (20), and the transfer printing film passes through the transfer printing film heating and guiding roller (10) after being unreeled from a transfer printing film supporting frame (19) and before passing through a space between the ink dissolving liquid driven film pressing roller (8) and the ink dissolving liquid driven wheel roller (7).

3. The ink solution roll coating film machine according to claim 1, characterized in that: the rolling surface of the ink solution driven wheel roller (7) is provided with a plurality of uniformly distributed concave points;

and an elastic scraper (3) is arranged on the outer side of the rolling surface of the ink solution driven wheel roller (7), and the blade end of the elastic scraper (3) is abutted against the rolling surface of the ink solution driven wheel roller (7).

4. The ink solution roll coating film machine according to claim 1, characterized in that: a film pressing wheel (21) is arranged above the conveying track.

5. The ink solution roll coating film machine according to claim 3, characterized in that: elastic scraper (3) are including printing ink solution scraper blade (34), scraper support frame (35), spring (36), regulation pole (37), printing ink solution scraper blade (34) can rotate formula install in scraper support frame (35), the upper end of adjusting pole (37) acts on the lower extreme of spring (36), the upper end of spring (36) acts on printing ink solution scraper blade (34), adjust pole (37) and can adjust the setting of displacement formula from top to bottom in order to adjust the pressure of supporting of the rolling surface of printing ink solution scraper blade (34) to printing ink solution passive wheel cylinder (7).

6. The ink solution roll coating film machine according to claim 1, characterized in that: the output side of the transfer printing film support frame (19) is also provided with an automatic transfer printing film spring tension adjusting rod (9).

7. The ink solution roll coating film machine according to claim 1, characterized in that: an ink dissolving liquid collecting box (24), an ink dissolving liquid input pipe (6), an ink dissolving liquid loop pipe (4) and an ink dissolving liquid circulating device (5) are further arranged, the ink dissolving liquid circulating device (5) is connected to the ink dissolving liquid collecting box (24) and the ink dissolving liquid input pipe (6) so as to send the ink dissolving liquid from the ink dissolving liquid collecting box (24) to the ink dissolving liquid input pipe (6), the output end of the ink dissolving liquid input pipe (6) is connected to the ink dissolving liquid legacy tank (2), the input end of the ink dissolving liquid loop pipe (4) is lower than the output end of the ink dissolving liquid input pipe (6), the output end of the ink dissolving liquid loop pipe (4) is connected to the ink dissolving liquid collecting box (24), and an oil return control valve is arranged on the ink solution loop pipe (4).

8. The ink solution roll coating film machine according to claim 2, characterized in that: ink dissolves liquid passive squeeze film cylinder (8) and is connected with driven wheel automatic lifting device (22), driven wheel automatic lifting device (22) are provided with lift cylinder (23) and are used for controlling the lift of driven wheel automatic lifting device (22) to control the ink dissolves liquid passive squeeze film cylinder (8) and the ink dissolves the clearance between liquid driven wheel cylinder (7).

9. The ink solution roll coating film machine according to claim 1, characterized in that: the transfer printing film unwinding device is further provided with a cross flow fan (31), and the cross flow fan (31) blows towards the transfer printing film unwound from the transfer printing film support frame (19).

10. The ink solution roll coating film machine according to claim 1, characterized in that: the printing ink solution roll coating film machine is connected with a transfer printing groove (44), when a transfer printing film enters the transfer printing groove (44) to be drained, three-surface guide air ports (33) are formed through a three-surface printing ink solution film blowing guide fan (32) and respectively blow air forwards, leftwards and rightwards, and the transfer printing film is unfolded and leveled in three directions after being drained and then flows to a transfer printing area (45).

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