CN207773576U - TP processing procedure laminating machines - Google Patents

Abstract

The utility model proposes TP processing procedure laminating machines, be related to overlay film machinery equipment field, including rack and the charging and discharging mechanism in the rack and film-covering mechanism, the charging and discharging mechanism is set to the side of the film-covering mechanism；The charging and discharging mechanism includes material loading part and blanking part, the material loading part includes feeding conveyer belt, the first hoistable platform, feeding transplanting portal frame and feeding sucker, and the blanking part includes blanking transplanting portal frame, blanking sucker, the second hoistable platform and blanking conveyer belt；The film-covering mechanism includes collar plate shape turntable, dedusting mechanism, dyestripping component, pad pasting component.The features such as the utility model can realize the dyestripping and pad pasting of product, can realize full-automatic overlay film, and overlay film is efficient, overlay film effect is good, and device structure is compact, intensity is big, stability is good.

Description

TP processing film covering machine

Technical Field

The utility model belongs to the technical field of tectorial membrane mechanical equipment and specifically relates to a TP processing procedure laminating machine.

Background

TP is an abbreviation of touch plane, which is abbreviated as touch screen in chinese, and is mainly fixed in electronic products. In the current industrial production process, parts of an electronic product are not in the same place and are processed simultaneously at the same time. This results in that the electronic product is not immediately sent to the assembly line for assembly after the electronic product is finished. After the machining is finished, the parts need to be stored and transported, and when the parts need to be used, the parts are taken out for use and matched with other parts to finally form a product.

Because of the small volume and the dense distribution of the elements, the packaging-free packaging-. In order to prevent TP from being contaminated during storage and transportation, the current solution is to coat the processed TP with a film. In order to realize the film coating processing, at present, no processing device capable of realizing automation or semi-automation exists, manual operation can be only carried out, the efficiency is low, the cost is high, and the requirement of industrial mass production cannot be met.

SUMMERY OF THE UTILITY MODEL

In order to solve the not enough of existence among the above-mentioned prior art, the utility model provides a TP processing procedure laminating machine realizes full-automatic tectorial membrane, and the tectorial membrane is efficient moreover, the tectorial membrane is effectual.

The utility model provides a TP processing procedure film covering machine, which comprises a frame, a feeding and discharging mechanism and a film covering mechanism, wherein the feeding and discharging mechanism and the film covering mechanism are positioned in the frame; wherein,

the feeding and discharging mechanism comprises a feeding part and a discharging part, the feeding part comprises a feeding conveyor belt, a first lifting platform, a feeding transplanting portal frame and a feeding sucker, and the discharging part comprises a discharging transplanting portal frame, a discharging sucker, a second lifting platform and a discharging conveyor belt;

tectorial membrane mechanism includes disc type revolving stage, dust removal mechanism, dyestripping subassembly, pad pasting subassembly, revolving stage quartering position is equipped with four product tools, four the product tool corresponds material loading station, dyestripping station, pad pasting station and unloading station respectively, dust removal mechanism locates between material loading station and the dyestripping station, dyestripping subassembly and pad pasting subassembly are located respectively dyestripping station and pad pasting station top.

Preferably, the loading transplanting gantry is arranged above the loading conveyor belt, the unloading transplanting gantry is arranged above the unloading conveyor belt, and two rows of loading conveyor belts and two rows of unloading conveyor belts are arranged.

Preferably, the loading and transplanting portal frame comprises an X-axis slide rail, two Y-axis slide rails and a Z-axis slide rail, two ends of the Y-axis slide rail are fixed on the support, the X-axis slide rail is bridged on the Y-axis slide rail, the Z-axis slide rail is installed on the X-axis slide rail, and the loading sucker is installed on the Z-axis slide rail.

Preferably, the feeding sucker and the discharging sucker are respectively provided with three gas source connectors, and a spring is arranged between the sucker and the supporting plate.

Preferably, the feeding part and the discharging part respectively comprise a tray transplanting mechanism, the tray transplanting mechanism comprises a transverse sliding rail, two ends of the transverse sliding rail are fixed on the support, the transverse sliding rail is provided with a base, and the base is provided with two suction nozzles.

Preferably, the dust removing mechanism comprises a low-viscosity rubber roller and a high-viscosity rubber roller.

As preferred, the dyestripping subassembly is used for pasting the positive protection film of product through easily tearing the subsides to the upset removes easily to tear the subsides and removes the protection film, and it flies to reach and press from both sides the claw including easily tearing the subsides, press from both sides and get the claw and fix on the upset motor, the upset motor control press from both sides and get claw upset 180.

Preferably, the film sticking assembly comprises a film sticking flying device and a film sticking mechanism.

Preferably, the film sticking assembly is further provided with two cameras, and the two cameras shoot opposite corners of the product.

The utility model provides a pair of TP processing procedure laminating machine, its beneficial effect lies in, can realize the dyestripping and the pad pasting of product, can realize full-automatic tectorial membrane, and the tectorial membrane is efficient moreover, the tectorial membrane is effectual, characteristics such as equipment structure is compact, intensity is big, stability is good.

Drawings

FIG. 1 is a perspective view of the TP coating machine of the present invention;

FIG. 2 is a perspective view of the loading and unloading mechanism;

FIG. 3 is a perspective view of a transplanting gantry

Fig. 4 is a perspective view of the tray transplanting mechanism;

FIG. 5 is a perspective view of the film covering mechanism;

FIG. 6 is a perspective view of the turntable;

FIG. 7 is a perspective view of the tear film assembly;

FIG. 8 is a perspective view of an easy-tear tab fly;

FIG. 9 is a perspective view of the film application mechanism;

FIG. 10 is a perspective view of the film applicator;

FIG. 11 is a perspective view of the dust removal mechanism;

fig. 12 is a perspective view of the camera.

Detailed Description

To further illustrate the embodiments, the present invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references, one of ordinary skill in the art will appreciate other possible embodiments and advantages of the present invention. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

The present invention will now be further described with reference to the accompanying drawings and detailed description.

As shown in fig. 1, the TP process laminator provided in this embodiment includes a frame 1, and a feeding and discharging mechanism and a laminating mechanism located in the frame, wherein the feeding and discharging mechanism is disposed on one side of the laminating mechanism 4.

As shown in fig. 2-4, the loading and unloading mechanism includes a loading portion 2 and a unloading portion 3, the loading portion 2 includes a loading conveyor belt 21, a first lifting platform 22, a loading transplanting portal frame 23 and a loading suction cup 24, and the unloading portion 3 includes an unloading transplanting portal frame 31, an unloading suction cup 32, a second lifting platform 33 and an unloading conveyor belt 34.

The loading transplanting portal frame 23 is arranged above the loading conveyor belt 21, the unloading transplanting portal frame 31 is arranged above the unloading conveyor belt 34, in the embodiment, the loading conveyor belt 21 and the unloading conveyor belt 34 are both provided with two rows, the first lifting platform 22 is arranged below the loading conveyor belt 21, and the second lifting platform 33 is arranged below the unloading conveyor belt 34. The loading and transplanting gantry 23 frame comprises an X-axis slide rail 231, two Y-axis slide rails 232 and a Z-axis slide rail 233, wherein two ends of the Y-axis slide rail 232 are fixed on a support 234, the X-axis slide rail 231 is bridged on the Y-axis slide rail 232, the Z-axis slide rail 233 is installed on the X-axis slide rail 231, and a loading sucker 235 is installed on the Z-axis slide rail 233. The structure of the unloading transplanting portal frame 31 is the same as that of the loading transplanting portal frame 23, and description is not repeated, wherein the unloading transplanting portal frame 31 and the loading transplanting portal frame 23 share one Y-axis slide rail 232.

The feeding part 2 and the discharging part 3 respectively comprise a tray transplanting mechanism 35, the tray transplanting mechanism 35 comprises a transverse sliding rail 351, two ends of the transverse sliding rail 351 are fixed on the support 234, a base 352 is arranged on the transverse sliding rail 351, and two suction nozzles 353 are arranged on the base 352.

The feeding sucker 24 and the discharging sucker 32 are identical in structure and are provided with three air source connectors, and four springs are arranged between the suckers and the supporting plate, so that a buffering effect is achieved during material suction, and the pressure between the suckers and a product is not too high.

As shown in fig. 5 to 12, the film covering mechanism 4 includes a disk-shaped rotating table 41, a dust removing mechanism 42, a film tearing assembly 43, and a film pasting assembly 44, four product jigs 411 are disposed at four equal positions of the rotating table 41, a plurality of air suction holes (not shown) are disposed on the product jigs 411, the product jigs 411 fix products in an adsorption manner, and the four product jigs respectively correspond to the feeding station, the film tearing station, the film pasting station, and the discharging station. The rotating table is arranged in the middle of the feeding part 2 and the discharging part 3, and a connecting line of the two opposite product jigs 411 forms an included angle of 45 degrees with a boundary line between the feeding part 2 and the discharging part 3. The dust removal mechanism 42 is located between the feeding station and the film tearing station, the dust removal mechanism 42 comprises a low-viscosity rubber roller 421 and a high-viscosity rubber roller 422, the low-viscosity rubber roller 421 is used for preliminarily adhering dust on a product, and the high-viscosity rubber roller 422 is further adhered to the dust on the product.

The rotating table 41 is provided with a rotating motor 45 below, and the rotating motor 45 drives the rotating table 41 to rotate 90 degrees at each time. In the working process, the four product jigs 411 are over against the feeding sucker 24, the film tearing assembly 43, the film sticking assembly 44 and the discharging sucker 32 in sequence.

The film tearing assembly 43 is used for adhering a protective film on a product through the easy-to-tear paste, and the protective film is torn off through the easy-to-tear paste in an overturning and moving mode, the easy-to-tear paste flies to 431 and clamps the claw 432, the clamp claw 432 is fixed on the overturning motor 433, the overturning motor 433 controls the clamp claw 432 to overturn for 180 degrees, and the clamp claw 422 can move in the three-dimensional direction.

The film pasting component 44 is used for pasting a protective film on the front surface of a product, and comprises a film pasting flying object 441 and a film pasting mechanism 442, two cameras 443 are arranged above the product jig 411, the two cameras 443 shoot opposite angles of the product, the moving position of a film pasting roller of the film pasting mechanism 442 in the three-dimensional direction is determined, and accurate film pasting is achieved. The two cameras 443 shoot opposite corners of the product, a light source is arranged above the product, the light source moves to the position above the product jig 441 in the shooting process, and after the shooting is finished, the light source moves to the outer side of the rotating table.

The working process of the application is as follows: the film products to be pasted are placed on the material tray 5, the material tray 5 is conveyed to the position below the material loading and transplanting portal frame 23 through the two material loading conveying belts 21, the material tray 6 is lifted or descended through the first lifting platform 22, the material loading suction cups 24 perform three-dimensional motion along the X-axis slide rail 231, the Y-axis slide rail 232 and the Z-axis slide rail 233, so that the material loading suction cups 34 can adsorb the film products to be pasted on the material tray 5 and move the film products to the position above the product jig of the material loading station, the air source of the material loading suction cups 24 is cut off, and the products fall onto the product jig; the rotating motor 45 drives the rotating table 41 to rotate by 90 degrees, and in the rotating process, the product on the product jig 411 passes through the low-viscosity rubber roller 421 and the high-viscosity rubber roller 422 of the dust removing mechanism 42 in sequence to be adhered and removed with dust on the front surface of the product; then the product fixture 411 rotates to the lower part of the film tearing assembly 43, and the film tearing assembly 43 tears off the protective film attached to the product in the previous process; the rotating motor 45 drives the rotating platform 41 to rotate 90 degrees, and the film sticking assembly 44 sticks the protective film of the process on the product; the rotating motor 45 drives the rotating table 41 to rotate 90 degrees again, the product jig 411 adsorbed with the product rotates to the lower side of the blanking sucker, the blanking sucker 32 transplants the filmed product to the carrier 5 on the second lifting platform 33, and the filmed product is transmitted to the next procedure through the blanking conveying belt 34.

The TP processing procedure laminating machine of this application can realize the dyestripping and the pad pasting of product according to production technology's needs, can realize full-automatic tectorial membrane, and tectorial membrane is efficient moreover, tectorial membrane is effectual, characteristics such as equipment structure is compact, intensity is big, stability is good.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A TP process laminating machine is characterized by comprising a rack, a feeding and discharging mechanism and a laminating mechanism, wherein the feeding and discharging mechanism and the laminating mechanism are positioned in the rack; wherein,

the feeding and discharging mechanism comprises a feeding part and a discharging part, the feeding part comprises a feeding conveyor belt, a first lifting platform, a feeding transplanting portal frame and a feeding sucker, and the discharging part comprises a discharging transplanting portal frame, a discharging sucker, a second lifting platform and a discharging conveyor belt;

tectorial membrane mechanism includes disc type revolving stage, dust removal mechanism, dyestripping subassembly, pad pasting subassembly, revolving stage quartering position is equipped with four product tools, four the product tool corresponds material loading station, dyestripping station, pad pasting station and unloading station respectively, dust removal mechanism locates between material loading station and the dyestripping station, dyestripping subassembly and pad pasting subassembly are located respectively dyestripping station and pad pasting station top.

2. The TP-process laminator of claim 1, wherein: the loading transplanting gantry is erected above the loading conveyor belt, the unloading transplanting gantry is erected above the unloading conveyor belt, and the loading conveyor belt and the unloading conveyor belt are arranged in two rows.

3. A TP process laminator according to claim 2, wherein: the loading and transplanting portal frame comprises an X-axis slide rail, two Y-axis slide rails and a Z-axis slide rail, wherein two ends of the Y-axis slide rail are fixed on the support, the X-axis slide rail is bridged on the Y-axis slide rail, the Z-axis slide rail is installed on the X-axis slide rail, and the loading sucker is installed on the Z-axis slide rail.

4. A TP processing laminator according to claim 3, wherein: the feeding sucker and the discharging sucker are respectively provided with three gas source connectors, and a spring is arranged between the sucker and the supporting plate.

5. A TP processing laminator according to claim 4, wherein: the feeding part and the discharging part respectively comprise a material tray transplanting mechanism, the material tray transplanting mechanism comprises a transverse sliding rail, two ends of the transverse sliding rail are fixed on the support, the transverse sliding rail is provided with a base, and the base is provided with two suction nozzles.

6. The TP-process laminator of claim 1, wherein: the dust removal mechanism comprises a low-viscosity rubber roller and a high-viscosity rubber roller.

7. The TP manufacturing process laminating machine of claim 1, wherein the film tearing assembly is used for adhering a protective film on the front surface of a product through the easy-to-tear tape and tearing off the protective film through overturning and moving the easy-to-tear tape, and comprises an easy-to-tear tape flying and clamping claw, the clamping claw is fixed on an overturning motor, and the overturning motor controls the clamping claw to overturn for 180 degrees.

8. The TP-process laminator of claim 1, wherein: the film pasting component comprises a film pasting flying device and a film pasting mechanism.

9. The TP-process laminator of claim 8, wherein: the pad pasting subassembly still is equipped with two cameras, two the opposite angle of product is shot to the camera.