CN205441105U - Film tearing mechanism - Google Patents

Abstract

The utility model relates to a film tearing mechanism, including first driving source, support frame, sticky tape, belt conveyor device, suction table, second driving source, angle platform, sticky tape recovery unit and adsorption component, belt conveyor device, suction table, second driving source, sticky tape recovery unit locate the support frame, the drive of second driving source is connected play the angle platform, the sticky tape is located the belt conveyor device, and follow rise the angle platform sticky tape recovery unit is docile and obedient the preface setting, suction table with it sets up with common supporting work piece side by side to play the angle platform, the drive of first driving source is connected the support frame is in order to drive suction table presses close to and deviates adsorption component, adsorption component is used for absorption to be in suction table's work piece, so that the sticky tape tears the protection film except that the work piece at the removal in -process. The utility model discloses the protection film except that the work piece can be automatic torn, production efficiency is improved.

Description

Dyestripping mechanism

Technical field

This utility model relates to dyestripping mechanism, particularly relates to a kind of very effective dyestripping mechanism of the protecting film to removing the film.

Background technology

Generally, touch screen can use some workpiece, the such as film, need the protecting film peeling off on the film in the process producing touch screen.All using manual mode to peel off the protecting film on the film in industry at present, this manual work mode efficiency is low, is unfavorable for the development of industry.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of dyestripping mechanism, and energy automatization removes the protecting film of workpiece, improves production efficiency.

Above-mentioned technical problem is solved by below scheme:

A kind of dyestripping mechanism, including the first driving source, bracing frame, adhesive tape, adhesive belt transferring device, absorption platform, the second driving source, plays angle platform, adhesive tape retracting device and absorbent module；Support frame as described above is located at by described adhesive belt transferring device, absorption platform, the second driving source, adhesive tape retracting device；Angle platform is played described in described second driving source drive connection；Described adhesive belt transferring device is located at by described adhesive tape, and arranges in order along described angle platform, described adhesive tape retracting device；Described absorption platform and described angle platform are arranged side by side jointly to support workpiece；Described first drives source drive connection support frame as described above to drive described absorption platform press close to and deviate described absorbent module；Described absorbent module is in the workpiece of described absorption platform for absorption, so that described adhesive tape removes the protecting film of workpiece in moving process.

Wherein in an embodiment, described dyestripping mechanism also includes compression cylinder；Described compression cylinder is pressed under the workpiece being pointed to absorption platform and is jointly clamped workpiece and adhesive tape to be formed with described angle platform.

Wherein in an embodiment, described dyestripping mechanism also includes that the first vacuum pump, described first vacuum pump are provided with suction nozzle, and the adsorption plane of described absorption platform is provided with air entry, and the air entry of described absorption platform communicates with the suction nozzle of described first vacuum pump.

Wherein in an embodiment, described absorbent module includes adsorbing template and the second vacuum pump, described second vacuum pump is provided with suction nozzle, and the adsorption plane of described absorption template is provided with air entry, and the air entry of described absorption template communicates with the suction nozzle of described second vacuum pump.

Wherein in an embodiment, described adhesive belt transferring device includes the first driving motor and conveying roller, and described first drives motor to be located at conveying roller described in support frame as described above drive connection.

Wherein in an embodiment, described adhesive tape retracting device includes the second driving motor and reclaims roller, and described second drives motor to be located at recovery roller described in support frame as described above drive connection.

Wherein in an embodiment, described second driving source is a cylinder.

Wherein in an embodiment, described first driving source includes horizontal drive structure and zigzag tread patterns structure, zigzag tread patterns structure described in described horizontal drive structure drive connection, described zigzag tread patterns structure drive connection support frame as described above.

Wherein in an embodiment, described horizontal drive structure includes the first installing plate, the first motor, the first screw rod, the first guide rail and first bracer；Described first installing plate is located at by described first motor and described first guide rail；First screw rod described in described first motor drive connection；Described first bracer is movably disposed in described first guide rail, and is connected with described first screw rod；Described first motor drives described first screw rod to rotate, and described first screw rod rotates and drives described first bracer to move；Described zigzag tread patterns structure is located at described first bracer.

Wherein in an embodiment, described zigzag tread patterns structure includes the second installing plate, the second motor, the second screw rod, the second cross slide way, inclined plane slide block, longitudinal rail and second bracer；Described second installing plate is connected with described horizontal drive structure；Described second motor, the second cross slide way, longitudinal rail are located at described second installing plate；Second screw rod described in described second motor drive connection；Described inclined plane slide block is movably disposed in described second cross slide way, and is connected with described second screw rod；Described second bracer is movably disposed on described longitudinal rail, and described second bracer is positioned at the top of described inclined plane slide block and is equipped with described inclined plane slide block；Described second motor drives described second screw rod to rotate, and described second screw rod rotates and drives described inclined plane slide block to move along described second cross slide way, and described inclined plane slide block is used for promoting described second bracer to move up along described longitudinal rail；Support frame as described above is located at described second bracer.

The concrete application of above-mentioned dyestripping mechanism is: by with protecting film work-piece in be in be arranged side by side absorption platform, on the platform of angle, owing to adhesive tape is arranged along playing an angle platform, the protecting film of workpiece is bonded together with adhesive tape at the platform of angle rising；Second driving source has driven angle platform to move down so that adhesive tape moves down and protecting film pulls open from workpiece an angle；First driving source drives bracing frame and drives bonding platform to press close to absorbent module; absorption platform release workpiece, absorbent module works and adsorbs workpiece, and then the first driving source drives bracing frame and drives absorption platform to deviate absorbent module; scrolling made by adhesive tape simultaneously, is removed by the protecting film of workpiece from workpiece.

Visible, this utility model dyestripping mechanism energy automatization removes the protecting film of workpiece, improves production efficiency.

Through the checking of reality application, this utility model dyestripping mechanism is highly effective to the protecting film removing the film, is hardly damaged the film.

Accompanying drawing explanation

Fig. 1 is the structural representation of dyestripping mechanism；

Fig. 2 is that dyestripping mechanism is in the bracing frame schematic diagram to the state of absorption template movement；

Fig. 3 is the schematic diagram that dyestripping mechanism is in that absorption template adsorbs the state of workpiece.

Detailed description of the invention

At this it is to be appreciated that be referred to as " being located at " another element when element, it can be directly on another element or can also there is element placed in the middle.

As shown in Figure 1 to Figure 3, a kind of dyestripping mechanism, including the first driving source 1, bracing frame 2, adhesive tape 3, adhesive belt transferring device 4, absorption platform the 5, second driving source 6, plays angle platform 7, adhesive tape retracting device 8 and absorbent module；Bracing frame 2 is located at by adhesive belt transferring device 4, absorption platform the 5, second driving source 6, adhesive tape retracting device 8；Second driving source 6 drive connection plays angle platform 7；Adhesive belt transferring device 4 is located at by adhesive tape 3, and arranges in order along an angle platform 7, adhesive tape retracting device 8；Absorption platform 5 is arranged side by side with playing angle platform 7 with common supporting workpiece 10；First driving source 1 drive connection bracing frame 2 is pressed close to drive absorption platform 5 and deviates absorbent module；Absorbent module is in the workpiece 10 of absorption platform 5 for absorption, so that adhesive tape 3 removes the protecting film of workpiece 10 in moving process.

The concrete application of above-mentioned dyestripping mechanism is: the workpiece 10 with protecting film is placed in be in be arranged side by side absorption platform 5, rise on angle platform 7, workpiece 10 have the side of protecting film towards absorption platform 5, play angle platform 7；Owing to adhesive tape is arranged along playing angle platform 7, the protecting film of workpiece 10 is bonded together with adhesive tape 3 at an angle platform 7；Second driving source 6 has driven angle platform 7 to move down so that adhesive tape 3 moves down and protecting film pulls open from workpiece 10 angle；First driving source 1 drives bracing frame 2 and drives bonding platform to press close to absorbent module; absorption platform 5 discharges workpiece; absorbent module works and adsorbs workpiece 10; then the first driving source 1 drives bracing frame 2 and drives absorption platform 5 to deviate absorbent module; scrolling made by adhesive tape 3 simultaneously, is removed by the protecting film of workpiece 10 from workpiece 10.Visible, above-mentioned dyestripping mechanism energy automatization removes the protecting film of workpiece 10, improves production efficiency.

" moving process " in above-mentioned " adhesive tape 3 is in moving process ", can be that scrolling made by adhesive tape 3, or is adhesive tape 3 along with bracing frame 2 moves, or includes that adhesive tape 3 is made scrolling, adhesive tape 3 and moved along with bracing frame 2.

Above-mentioned dyestripping mechanism also includes the first vacuum pump (not shown), and the adsorption plane of the first vacuum pump is provided with suction nozzle, and absorption platform 5 is provided with air entry 51, and the air entry 51 of absorption platform 5 communicates with the suction nozzle of the first vacuum pump.

Above-mentioned absorbent module includes adsorbing template 91 and the second vacuum pump (not shown), and the second vacuum pump is provided with suction nozzle, and the adsorption plane of absorption template 91 is provided with air entry, the air entry of absorption template 91 and the suction nozzle of the second vacuum pump and communicates.

Above-mentioned adhesive belt transferring device 4 includes the first driving motor 41 and conveying roller 42, and first drives motor 41 to be located at bracing frame 2 drive connection conveying roller 42.

Above-mentioned adhesive tape retracting device 8 includes the second driving motor 81 and reclaims roller 82, and second drives motor 81 to be located at bracing frame 2 drive connection recovery roller 82.

In the application, adhesive tape 3 is installed in conveying roller 42, then through playing angle platform 7 and directive wheel, is finally connected in recovery roller 82.

Above-mentioned first driving source 1 includes horizontal drive structure 11 and zigzag tread patterns structure 12, horizontal drive structure 11 drive connection zigzag tread patterns structure 12, zigzag tread patterns structure 12 drive connection bracing frame 2.

Above-mentioned horizontal drive structure 11 includes the first installing plate the 111, first motor the 112, first screw rod the 113, first guide rail 114 and first bracer 115；The first installing plate 111 is located at by first motor 112 and the first guide rail 114；First motor 112 drive connection the first screw rod 113；First bracer 115 is movably disposed in the first guide rail 114, and is connected with the first screw rod 113；First motor 112 drives the first screw rod 113 to rotate, and the first screw rod 113 rotates and drives first bracer 115 to move；Zigzag tread patterns structure 12 is located at first bracer 115.

Above-mentioned zigzag tread patterns structure 12 includes second installing plate the 121, second motor the 122, second screw rod the 123, second cross slide way 124, inclined plane slide block 125, longitudinal rail 126 and second bracer 127；Second installing plate 121 is located at first bracer 115 of horizontal drive structure 11；Second motor the 122, second cross slide way 124, longitudinal rail 126 are located at the second installing plate 121；Second motor 122 drive connection the second screw rod 123；Inclined plane slide block 125 is movably disposed in the second cross slide way 124, and is connected with the second screw rod 123；Second bracer 127 is movably disposed on longitudinal rail 126, and second bracer 127 is positioned at the top of inclined plane slide block 125 and is equipped with inclined plane slide block 125；Second motor 122 drives the second screw rod 123 to rotate, and the second screw rod 123 rotates and drives inclined plane slide block 125 to move along the second cross slide way 124, and inclined plane slide block 125 moves up along longitudinal rail 126 for promoting second bracer 127；Second bracer 127 be located at by bracing frame 2.

Above-mentioned second driving source 6 is a cylinder.

So that dyestripping is more effective, the design people has also done further improvement.Above-mentioned dyestripping mechanism also includes compression cylinder 92；Compression cylinder 92 is pressed for 10 times for the workpiece being pointed to absorption platform 5, jointly clamps workpiece 10 and adhesive tape 3 to be formed with an angle platform 7, so that the protecting film of workpiece 10 tightly bonds with adhesive tape 3 at an angle platform 7.The program is by arranging compression cylinder 92; the workpiece being placed in absorption platform 5, rise on angle platform 7 can be pressed for 10 times; make the protecting film of workpiece 10 rise at angle platform 7 well-bonded with adhesive tape 3 together with, in order to protecting film is torn from workpiece 10 one jiao and removes completely.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed several embodiments of the present utility model, and it describes more concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (10)

1. a dyestripping mechanism, it is characterised in that include the first driving source, bracing frame, adhesive tape, adhesive belt transferring device, absorption platform, the second driving source, play angle platform, adhesive tape retracting device and absorbent module；Support frame as described above is located at by described adhesive belt transferring device, absorption platform, the second driving source, adhesive tape retracting device；Angle platform is played described in described second driving source drive connection；Described adhesive belt transferring device is located at by described adhesive tape, and arranges in order along described angle platform, described adhesive tape retracting device；Described absorption platform and described angle platform are arranged side by side jointly to support workpiece；Described first drives source drive connection support frame as described above to drive described absorption platform press close to and deviate described absorbent module；Described absorbent module is in the workpiece of described absorption platform for absorption, so that described adhesive tape removes the protecting film of workpiece in moving process.

Dyestripping mechanism the most according to claim 1, it is characterised in that described dyestripping mechanism also includes compression cylinder；Described compression cylinder is pressed under the workpiece being pointed to absorption platform and is jointly clamped workpiece and adhesive tape to be formed with described angle platform.

Dyestripping mechanism the most according to claim 1, it is characterized in that, described dyestripping mechanism also includes that the first vacuum pump, described first vacuum pump are provided with suction nozzle, the adsorption plane of described absorption platform is provided with air entry, and the air entry of described absorption platform communicates with the suction nozzle of described first vacuum pump.

Dyestripping mechanism the most according to claim 1, it is characterized in that, described absorbent module includes adsorbing template and the second vacuum pump, described second vacuum pump is provided with suction nozzle, the adsorption plane of described absorption template is provided with air entry, and the air entry of described absorption template communicates with the suction nozzle of described second vacuum pump.

Dyestripping mechanism the most according to claim 1, it is characterised in that described adhesive belt transferring device includes the first driving motor and conveying roller, and described first drives motor to be located at conveying roller described in support frame as described above drive connection.

Dyestripping mechanism the most according to claim 1, it is characterised in that described adhesive tape retracting device includes the second driving motor and reclaims roller, described second drives motor to be located at recovery roller described in support frame as described above drive connection.

Dyestripping mechanism the most according to claim 1, it is characterised in that described second driving source is a cylinder.

8. according to the dyestripping mechanism described in claim 1 to 7 any one, it is characterized in that, described first driving source includes horizontal drive structure and zigzag tread patterns structure, zigzag tread patterns structure described in described horizontal drive structure drive connection, described zigzag tread patterns structure drive connection support frame as described above.

Dyestripping mechanism the most according to claim 8, it is characterised in that described horizontal drive structure includes the first installing plate, the first motor, the first screw rod, the first guide rail and first bracer；Described first installing plate is located at by described first motor and described first guide rail；First screw rod described in described first motor drive connection；Described first bracer is movably disposed in described first guide rail, and is connected with described first screw rod；Described first motor drives described first screw rod to rotate, and described first screw rod rotates and drives described first bracer to move；Described zigzag tread patterns structure is located at described first bracer.

Dyestripping mechanism the most according to claim 8, it is characterised in that described zigzag tread patterns structure includes the second installing plate, the second motor, the second screw rod, the second cross slide way, inclined plane slide block, longitudinal rail and second bracer；Described second installing plate is connected with described horizontal drive structure；Described second motor, the second cross slide way, longitudinal rail are located at described second installing plate；Second screw rod described in described second motor drive connection；Described inclined plane slide block is movably disposed in described second cross slide way, and is connected with described second screw rod；Described second bracer is movably disposed on described longitudinal rail, and described second bracer is positioned at the top of described inclined plane slide block and is equipped with described inclined plane slide block；Described second motor drives described second screw rod to rotate, and described second screw rod rotates and drives described inclined plane slide block to move along described second cross slide way, and described inclined plane slide block is used for promoting described second bracer to move up along described longitudinal rail；Support frame as described above is located at described second bracer.