CN116002437A - Release film laminating device for new energy adhesive tape and laminating method thereof - Google Patents

Abstract

The invention discloses a release film laminating device for a new energy adhesive tape and a laminating method thereof, relates to the technical field of adhesive tape laminating, and aims to solve the problems that the flatness of a film body cannot be effectively ensured by the existing laminating device, and the alignment precision in the film body laminating process is required to be improved. From type membrane feeding mechanism is located sticky tape feeding mechanism's top, tensioning mechanism, first stop gear, automatic alignment mechanism, visual monitoring mechanism, laminating mechanism, second stop gear and winding mechanism arrange in proper order and set up, visual monitoring mechanism includes diaphragm and last diaphragm down, visual sensor is all installed to the upper end of diaphragm and the lower extreme of last diaphragm down, automatic alignment mechanism is including from type membrane governing shaft and sticky tape governing shaft, from the base all is installed to the one end of type membrane governing shaft and sticky tape governing shaft, first electronic jar is installed to the one end of base, first electronic jar includes the push rod, and push rod and base fixed connection.

Description

Release film laminating device for new energy adhesive tape and laminating method thereof

Technical Field

The invention relates to the technical field of adhesive tape lamination, in particular to a release film lamination device for a new energy adhesive tape and a lamination method thereof.

Background

The new energy vehicle represented by the electric vehicle has obvious market acceleration, the corresponding functional film and adhesive tape industry also become beneficial industries, the new energy adhesive tape is suitable for the new energy industry, the release film refers to a film with the surface energy of the film being different, the release film has no viscosity or slight viscosity after being contacted with a specific material under a limited condition, and the release film is attached and attached in the production and manufacturing process of the new energy adhesive tape;

for example, chinese issued patent (a release film-producing bonding mechanism) with publication number CN 212528984U: the device comprises a machine body, wherein a release film laminating roller device and a protective film laminating roller device are sequentially arranged on the machine body along the height direction of the machine body, and the release film laminating roller device comprises an upper driving roller, an upper transition roller, a first upper laminating roller and a second upper laminating roller which are sequentially arranged along the length direction of the machine body; the protective film laminating roller device comprises a lower driving roller, a lower transition roller, a first lower laminating roller and a second lower laminating roller which are sequentially arranged along the length direction of the machine body; the alignment device is arranged at the bottom of the machine body and comprises an alignment frame, and an alignment piece is arranged in the alignment frame. By arranging the alignment device, the alignment of the protective film and the release film in the width direction is realized in the process of conveying and laminating the protective film and the release film, thereby being beneficial to the deviation of the two films in the lamination process and improving the product quality of the finished release film;

the prior art lacks a tensioning mechanism for the film body, can not effectively ensure the flatness of the film body, and the alignment precision in the film body laminating process is required to be improved.

Disclosure of Invention

The invention aims to provide a release film laminating device for a new energy adhesive tape and a laminating method thereof, so as to solve the problem that the existing laminating device provided in the background art cannot effectively ensure the flatness of a film body and the alignment precision in the film body laminating process is required to be improved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a new forms of energy sticky tape is with from type membrane laminating device, includes sticky tape feeding mechanism, from type membrane feeding mechanism, straining device, first stop gear, automatic alignment mechanism, visual monitoring mechanism, laminating mechanism, second stop gear and winding mechanism, from type membrane feeding mechanism is located sticky tape feeding mechanism's top, straining device, first stop gear, automatic alignment mechanism, visual monitoring mechanism, laminating mechanism, second stop gear and winding mechanism arrange in proper order and set up.

In a further embodiment, the visual monitoring mechanism comprises a lower cross plate and an upper cross plate, wherein visual sensors are mounted at the upper end of the lower cross plate and the lower end of the upper cross plate.

In a further embodiment, the automatic alignment mechanism comprises a release film adjusting shaft and a tape adjusting shaft, wherein the release film adjusting shaft and one end of the tape adjusting shaft are respectively provided with a base, one end of the base is provided with a first electric cylinder, the first electric cylinder comprises a push rod, and the push rod is fixedly connected with the base.

In further embodiments, the laminating mechanism includes laminating subassembly and lower laminating subassembly, and goes up laminating subassembly and be located the top of laminating subassembly down, go up laminating subassembly and lower laminating subassembly and all include the electronic jar of second, laminating roller is installed to the one end of the electronic jar of second.

In a further embodiment, the tensioning mechanism comprises an upper tensioning assembly and a lower tensioning assembly, the upper tensioning assembly is located above the lower tensioning assembly, the upper tensioning assembly and the lower tensioning assembly comprise a third electric cylinder, a driving plate is installed at one end of the third electric cylinder, a force sensor is installed at one end of the driving plate, an elastic piece is installed at one end of the force sensor, and a tensioning roller is installed at one end of the elastic piece.

In a further embodiment, the first limiting mechanism comprises a tape guide box and a release film guide box, and the tape guide box is positioned below the release film guide box.

In a further embodiment, the second stop mechanism comprises a conformable film guide cartridge.

In a further embodiment, the tape guide cassette, the release film guide cassette, and the conformable film guide cassette each comprise a guide slot.

In a further embodiment, the release film feeding mechanism comprises a feeding roller and a feeding motor, and the winding mechanism comprises a winding roller and a winding motor.

A laminating method of a release film laminating device for a new energy adhesive tape comprises the following steps:

step one: the adhesive tape feeding mechanism feeds the adhesive tape, the release film feeding mechanism feeds the release film, the adhesive tape and the release film are tensioned by the tensioning mechanism and limited by the first limiting mechanism, the alignment position is automatically adjusted when the adhesive tape and the release film pass through the automatic alignment mechanism, the adhesive tape is attached by the attaching mechanism after the alignment position is adjusted, the attached film body is limited by the second limiting mechanism, and finally the film body is wound by the winding mechanism;

step two: the upper tensioning assembly and the lower tensioning assembly of the tensioning mechanism respectively tension the release film and the adhesive tape, a force sensor monitors the tensioning pressure in real time, controls the expansion and contraction of a third electric cylinder, adjusts the positions of the upper tensioning assembly and the lower tensioning assembly, and regulates and controls the tensioning force;

step three: the two visual sensors of the visual monitoring mechanism monitor the edge alignment positions of the release film and the adhesive tape, control the expansion and contraction of the first electric cylinder, automatically adjust the positions of the release film adjusting shaft and the adhesive tape adjusting shaft, realize the regulation and control of the release film position and the adhesive tape position, and ensure that the release film and the adhesive tape are always in an alignment state;

step four: the upper laminating component of the laminating mechanism drives the laminating roller to move downwards, the lower laminating component of the laminating mechanism drives the laminating roller to move upwards, and the two laminating rollers compress the release film and the adhesive tape to realize the lamination of the release film and the adhesive tape;

step five: the laminated film body passes through the guide groove, the position of the laminated film body is adjusted through the second limiting mechanism, and the winding motor works to drive the winding roller to intensively wind the laminated film body.

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

1. according to the visual monitoring mechanism, the two visual sensors monitor the alignment positions of the edges of the release film and the adhesive tape in real time, the expansion and contraction of the first electric cylinder are automatically controlled, the positions of the release film adjusting shaft and the adhesive tape adjusting shaft are automatically adjusted, the positions of the release film and the adhesive tape are regulated and controlled, the release film and the adhesive tape are ensured to be in an alignment state all the time, and therefore the attaching quality is improved;

2. the upper tensioning assembly and the lower tensioning assembly of the tensioning mechanism respectively tension the release film and the adhesive tape, the force sensor monitors the tensioning pressure in real time, controls the expansion and contraction of the third electric cylinder, adjusts the positions of the upper tensioning assembly and the lower tensioning assembly, regulates and controls the tensioning force, ensures the laminating flatness of the release film and the adhesive tape, and further improves the laminating quality.

Drawings

FIG. 1 is a schematic structural view of a release film laminating device for a new energy adhesive tape;

FIG. 2 is a three-dimensional perspective view of the front view of the first spacing mechanism, the automatic alignment mechanism, the visual inspection mechanism, the laminating mechanism and the second spacing mechanism of the present invention;

FIG. 3 is a rear three-dimensional perspective view of a first spacing mechanism, an automatic alignment mechanism, a visual monitoring mechanism, a laminating mechanism, and a second spacing mechanism of the present invention;

FIG. 4 is an enlarged partial view of area A of the present invention;

FIG. 5 is a schematic view of the automatic alignment mechanism of the present invention;

FIG. 6 is a schematic diagram of a visual monitoring mechanism according to the present invention;

fig. 7 is a schematic structural view of the upper and lower tensioning assemblies of the present invention.

In the figure: 1. a tape feeding mechanism; 2. a release film feeding mechanism; 3. a tensioning mechanism; 4. a first limiting mechanism; 5. an automatic alignment mechanism; 6. a visual monitoring mechanism; 7. a bonding mechanism; 8. a second limiting mechanism; 9. a winding mechanism; 10. a lower cross plate; 11. an upper cross plate; 12. a visual sensor; 13. a release film adjusting shaft; 14. an adhesive tape adjusting shaft; 15. a base; 16. a first electric cylinder; 17. a push rod; 18. an upper attaching assembly; 19. a lower laminating assembly; 20. a second electric cylinder; 21. a laminating roller; 22. an upper tensioning assembly; 23. a lower tensioning assembly; 24. a third electric cylinder; 25. a driving plate; 26. a force sensor; 27. an elastic member; 28. a tension roller; 29. an adhesive tape guide box; 30. a release film guide box; 31. a laminating film guide box; 32. a guide groove; 33. a feed roller; 34. a feeding motor; 35. a wind-up roll; 36. and (5) winding the motor.

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.

Referring to fig. 1-7, an embodiment of the present invention is provided: the utility model provides a new forms of energy sticky tape is with from type membrane laminating device, including tape feeding mechanism 1, from type membrane feeding mechanism 2, tensioning mechanism 3, first stop gear 4, automatic alignment mechanism 5, visual monitoring mechanism 6, laminating mechanism 7, second stop gear 8 and winding mechanism 9, from type membrane feeding mechanism 2 is located tape feeding mechanism 1's top, tensioning mechanism 3, first stop gear 4, automatic alignment mechanism 5, visual monitoring mechanism 6, laminating mechanism 7, second stop gear 8 and winding mechanism 9 arrange in proper order and set up, tape feeding mechanism 1 carries out the pay-off to the sticky tape, from type membrane feeding mechanism 2 to carry out the pay-off from type membrane, sticky tape and from type membrane by tensioning mechanism 3 tensioning, by first stop gear 4 spacing, automatic adjustment alignment position when passing through automatic alignment mechanism 5, after the alignment position adjustment is accomplished, laminated by laminating mechanism 7, the film body after the laminating is spacing by second stop gear 8, finally by winding mechanism 9.

Further, the visual monitoring mechanism 6 includes a lower diaphragm 10 and an upper diaphragm 11, and visual sensors 12 are mounted on the upper end of the lower diaphragm 10 and the lower end of the upper diaphragm 11, and the two visual sensors 12 of the visual monitoring mechanism 6 monitor the edge alignment positions of the release film and the adhesive tape.

Further, the automatic alignment mechanism 5 comprises a release film adjusting shaft 13 and a tape adjusting shaft 14, bases 15 are installed at one ends of the release film adjusting shaft 13 and the tape adjusting shaft 14, a first electric cylinder 16 is installed at one end of the bases 15, the first electric cylinder 16 comprises a push rod 17, the push rod 17 is fixedly connected with the bases 15, two visual sensors 12 of the visual monitoring mechanism 6 monitor edge alignment positions of the release film and the tape, the first electric cylinder 16 is controlled to stretch and retract, the positions of the release film adjusting shaft 13 and the tape adjusting shaft 14 are automatically adjusted, the adjustment and control of the release film position and the tape position are achieved, and the release film and the tape are guaranteed to be in an alignment state all the time.

Further, laminating mechanism 7 includes laminating subassembly 18 and laminating subassembly 19 down, and go up laminating subassembly 18 and be located the top of laminating subassembly 19 down, go up laminating subassembly 18 and laminating subassembly 19 down and all include second electronic jar 20, laminating roller 21 is installed to the one end of second electronic jar 20, laminating mechanism 7 go up laminating subassembly 18 drive laminating roller 21 downstream, laminating mechanism 7 down laminating subassembly 19 drive laminating roller 21 upstream, two laminating rollers 21 compress tightly release film and sticky tape, realize laminating from release film and sticky tape.

Further, the tensioning mechanism 3 comprises an upper tensioning assembly 22 and a lower tensioning assembly 23, the upper tensioning assembly 22 is located above the lower tensioning assembly 23, the upper tensioning assembly 22 and the lower tensioning assembly 23 comprise a third electric cylinder 24, a driving plate 25 is installed at one end of the third electric cylinder 24, a force sensor 26 is installed at one end of the driving plate 25, an elastic piece 27 is installed at one end of the force sensor 26, a tensioning roller 28 is installed at one end of the elastic piece 27, the force sensor 26 monitors tensioning pressure in real time, the expansion and contraction of the third electric cylinder 24 are controlled, the positions of the upper tensioning assembly 22 and the lower tensioning assembly 23 are adjusted, tensioning force is regulated and controlled, and the laminating flatness of a release film and an adhesive tape is always guaranteed.

Further, the first limiting mechanism 4 includes a tape guide box 29 and a release film guide box 30, the tape guide box 29 is located below the release film guide box 30, and the tape and the release film are tensioned by the tensioning mechanism 3 and limited by the first limiting mechanism 4.

Further, the second limiting mechanism 8 comprises a laminated film guide box 31, and the laminated film body is limited by the second limiting mechanism 8 and finally wound by the winding mechanism 9.

Further, the adhesive tape guide box 29, the release film guide box 30 and the attaching film guide box 31 all comprise guide grooves 32, the film body penetrates through the guide grooves 32, the guide grooves 32 play a role in guiding, the position accuracy of the film body is improved, and the attaching quality is guaranteed.

Further, the release film feeding mechanism 2 comprises a feeding roller 33 and a feeding motor 34, the winding mechanism 9 comprises a winding roller 35 and a winding motor 36, and the winding motor 36 works to drive the winding roller 35 to intensively wind the attached film body.

A laminating method of a release film laminating device for a new energy adhesive tape comprises the following steps:

step one: the adhesive tape feeding mechanism 1 feeds an adhesive tape, the release film feeding mechanism 2 feeds a release film, the adhesive tape and the release film are tensioned by the tensioning mechanism 3 and limited by the first limiting mechanism 4, the alignment position is automatically adjusted when the adhesive tape and the release film pass through the automatic alignment mechanism 5, the adhesive tape is attached by the attaching mechanism 7 after the alignment position is adjusted, the attached film body is limited by the second limiting mechanism 8, and finally the film body is wound by the winding mechanism 9;

step two: the upper tensioning assembly 22 and the lower tensioning assembly 23 of the tensioning mechanism 3 respectively tension the release film and the adhesive tape, a force sensor 26 monitors the tensioning pressure in real time, controls the extension and retraction of a third electric cylinder 24, adjusts the positions of the upper tensioning assembly 22 and the lower tensioning assembly 23, and regulates and controls the tensioning force;

step three: the two visual sensors 12 of the visual monitoring mechanism 6 monitor the edge alignment positions of the release film and the adhesive tape, control the expansion and contraction of the first electric cylinder 16, automatically adjust the positions of the release film adjusting shaft 13 and the adhesive tape adjusting shaft 14, realize the regulation and control of the release film position and the adhesive tape position, and ensure that the release film and the adhesive tape are always in an alignment state;

step four: the upper laminating component 18 of the laminating mechanism 7 drives the laminating roller 21 to move downwards, the lower laminating component 19 of the laminating mechanism 7 drives the laminating roller 21 to move upwards, and the two laminating rollers 21 compress the release film and the adhesive tape to realize the lamination of the release film and the adhesive tape;

step five: the laminated film passes through the guide groove 32, the position of the laminated film is adjusted by the second limiting mechanism 8, and the winding motor 36 works to drive the winding roller 35 to intensively wind the laminated film.

Working principle: when in use, the adhesive tape feeding mechanism 1 feeds the adhesive tape, the release film feeding mechanism 2 feeds the release film, the adhesive tape and the release film are tensioned by the tensioning mechanism 3, limited by the first limiting mechanism 4, the alignment position is automatically adjusted when the adhesive tape and the release film pass through the automatic alignment mechanism 5, after the alignment position is adjusted, the adhesive tape is attached by the attaching mechanism 7, the attached film body is limited by the second limiting mechanism 8 and finally wound by the winding mechanism 9, the upper tensioning assembly 22 and the lower tensioning assembly 23 of the tensioning mechanism 3 respectively tension the release film and the adhesive tape, the tension sensor 26 monitors the tension pressure in real time and controls the extension and retraction of the third electric cylinder 24, the positions of the upper tensioning assembly 22 and the lower tensioning assembly 23 are adjusted, the tension is regulated and controlled, the two vision sensors 12 of the vision monitoring mechanism 6 monitor the edge alignment positions of the release film and the adhesive tape, the first electric cylinder 16 is controlled to stretch and retract, the positions of the release film adjusting shaft 13 and the adhesive tape adjusting shaft 14 are automatically adjusted, the positions of the release film and the adhesive tape are adjusted and controlled, the release film and the adhesive tape are always in an alignment state, the upper laminating component 18 of the laminating mechanism 7 drives the laminating roller 21 to move downwards, the lower laminating component 19 of the laminating mechanism 7 drives the laminating roller 21 to move upwards, the two laminating rollers 21 compress the release film and the adhesive tape, the release film and the adhesive tape are laminated, the laminated film passes through the guide groove 32, the position is adjusted through the second limiting mechanism 8, the winding motor 36 works to drive the winding roller 35, and the laminated film is concentrated and wound.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a new forms of energy sticky tape is with from type membrane laminating device, includes sticky tape feeding mechanism (1), from type membrane feeding mechanism (2), straining device (3), first stop gear (4), automatic alignment mechanism (5), visual monitoring mechanism (6), laminating mechanism (7), second stop gear (8) and winding mechanism (9), its characterized in that: the automatic alignment device is characterized in that the release film feeding mechanism (2) is located above the adhesive tape feeding mechanism (1), and the tensioning mechanism (3), the first limiting mechanism (4), the automatic alignment mechanism (5), the visual monitoring mechanism (6), the attaching mechanism (7), the second limiting mechanism (8) and the winding mechanism (9) are sequentially arranged.

2. The release film laminating device for new energy adhesive tape according to claim 1, wherein: the visual monitoring mechanism (6) comprises a lower transverse plate (10) and an upper transverse plate (11), and visual sensors (12) are arranged at the upper end of the lower transverse plate (10) and the lower end of the upper transverse plate (11).

3. The release film laminating device for new energy adhesive tape according to claim 2, wherein: automatic alignment mechanism (5) are including from type membrane regulating spindle (13) and sticky tape regulating spindle (14), from type membrane regulating spindle (13) and sticky tape regulating spindle (14) one end all install base (15), first electronic jar (16) are installed to one end of base (15), first electronic jar (16) include push rod (17), and push rod (17) and base (15) fixed connection.

4. The release film laminating device for new energy adhesive tape according to claim 3, wherein: laminating mechanism (7) are including last laminating subassembly (18) and laminating subassembly (19) down, and go up laminating subassembly (18) and be located the top of laminating subassembly (19) down, go up laminating subassembly (18) and laminating subassembly (19) down and all include second electronic jar (20), laminating roller (21) are installed to the one end of second electronic jar (20).

5. The release film laminating device for new energy adhesive tape according to claim 4, wherein: the tensioning mechanism (3) comprises an upper tensioning assembly (22) and a lower tensioning assembly (23), the upper tensioning assembly (22) is located above the lower tensioning assembly (23), the upper tensioning assembly (22) and the lower tensioning assembly (23) comprise third electric cylinders (24), a driving plate (25) is arranged at one end of each third electric cylinder (24), a force sensor (26) is arranged at one end of each driving plate (25), an elastic piece (27) is arranged at one end of each force sensor (26), and a tensioning roller (28) is arranged at one end of each elastic piece (27).

6. The release film laminating device for new energy adhesive tapes according to claim 5, wherein: the first limiting mechanism (4) comprises an adhesive tape guide box (29) and a release film guide box (30), and the adhesive tape guide box (29) is located below the release film guide box (30).

7. The release film laminating device for new energy adhesive tapes according to claim 6, wherein: the second limiting mechanism (8) comprises a laminating film guide box (31).

8. The release film laminating device for new energy adhesive tapes according to claim 7, wherein: the adhesive tape guide box (29), the release film guide box (30) and the laminating film guide box (31) all comprise guide grooves (32).

9. The release film laminating device for new energy adhesive tapes according to claim 8, wherein: the release film feeding mechanism (2) comprises a feeding roller (33) and a feeding motor (34), and the winding mechanism (9) comprises a winding roller (35) and a winding motor (36).

10. A laminating method of a release film laminating device for a new energy adhesive tape, which is realized based on the release film laminating device for the new energy adhesive tape according to claim 9, and is characterized by comprising the following steps:

step one: the adhesive tape feeding mechanism (1) feeds an adhesive tape, the release film feeding mechanism (2) feeds a release film, the adhesive tape and the release film are tensioned by the tensioning mechanism (3), limited by the first limiting mechanism (4), the alignment position is automatically adjusted when the adhesive tape passes through the automatic alignment mechanism (5), after the alignment position is adjusted, the adhesive tape is attached by the attaching mechanism (7), the attached film body is limited by the second limiting mechanism (8), and finally the film body is wound by the winding mechanism (9);

step two: an upper tensioning assembly (22) and a lower tensioning assembly (23) of the tensioning mechanism (3) respectively tension the release film and the adhesive tape, a force sensor (26) monitors the tensioning pressure in real time, controls the expansion and contraction of a third electric cylinder (24), adjusts the positions of the upper tensioning assembly (22) and the lower tensioning assembly (23), and regulates the tensioning force;

step three: the two visual sensors (12) of the visual monitoring mechanism (6) monitor the alignment positions of the edges of the release film and the adhesive tape, control the expansion and contraction of the first electric cylinder (16), automatically adjust the positions of the release film adjusting shaft (13) and the adhesive tape adjusting shaft (14), realize the regulation and control of the release film position and the adhesive tape position, and ensure that the release film and the adhesive tape are always in an alignment state;

step four: an upper bonding assembly (18) of the bonding mechanism (7) drives a bonding roller (21) to move downwards, a lower bonding assembly (19) of the bonding mechanism (7) drives the bonding roller (21) to move upwards, and the two bonding rollers (21) compress the release film and the adhesive tape to realize bonding of the release film and the adhesive tape;

step five: the laminated film body passes through the guide groove (32), the position is adjusted through the second limiting mechanism (8), the winding motor (36) works to drive the winding roller (35), and the laminated film body is concentrated and wound.

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