CN218462951U - Automatic film laminating device for smart phone glass - Google Patents

Abstract

The utility model discloses an automatic tectorial membrane device of even piece of smart mobile phone glass, the on-line screen storage device comprises a base, base one side is equipped with the support frame, is equipped with conveying mechanism in the base, is equipped with moving mechanism on the support frame, is equipped with adsorption component in the moving mechanism, and the both ends that lie in conveying mechanism in the base are equipped with respectively and press from both sides membrane subassembly, and the ejection of compact one side that lies in conveying mechanism on the base is equipped with surely membrane control module group, and one side of base is equipped with the supporting seat, is equipped with the material loading tool on the supporting seat. The utility model discloses to the used glass of cell-phone screen or backplate, a tectorial membrane that goes on is handled, can set up even piece tectorial membrane quantity and carry out automatic membrane cutting, can effectual promotion processing procedure yield, improves the benefit of producing on the improvement, and effectual control is even piece quantity shipment.

Description

Automatic piece tectorial membrane device even of smart mobile phone glass

Technical Field

The utility model belongs to the technical field of the smart mobile phone glass processing and specifically relates to an automatic film coating device that links of smart mobile phone glass.

Background

The existing film covering device for the mobile phone glass and the intelligent wearable glass lens is used for semi-automatically conveying manual release materials and manual film cutting, the left film covering, the right film covering, the upper film covering, the lower film covering and the wrinkle bubbles of the glass are uneven during film covering, the manual film cutting easily scratches hands and damages a machine table and seriously influences efficiency, the left film covering, the right film covering, the upper film covering, the lower film covering, the bubble covering and the wrinkle covering reach 70%, customer standards do not allow the film covering, and the process yield and the production benefit are seriously influenced.

In order to improve the efficiency, some glass film coating devices are provided, for example, CN210788430U discloses a glass film coating device, which comprises a film coating panel, wherein a film coating mechanism is arranged on the film coating panel, side plates are arranged on two sides of the film coating panel, a U-shaped frame is arranged on the outer wall of the film coating panel, an opening of the U-shaped frame faces the film coating panel, positioning slats are arranged on the side plates on two sides of the film coating panel in a penetrating manner, an adjusting screw rod is arranged on one side of the U-shaped frame parallel to the side plates of the film coating panel in a penetrating manner, one end of the adjusting screw rod is fixedly connected with the positioning slats, and an adjusting knob is arranged on the other end of the adjusting screw rod; the film laminating mechanism is provided with a driving mechanism, an unreeling mechanism, a film scraping mechanism and a film pressing mechanism. It is mainly through glass on the tectorial membrane board, tectorial membrane mechanism is slowly at the uniform velocity by tectorial membrane panel one end to the other end removal, the workman pulls open web-like glass membrane and manual pressure in glass one end, at tectorial membrane mechanism's removal in-process, web-like glass membrane expandes gradually, soot blowing mechanism blows off the dust on with glass, then web-like glass membrane covers on glass, and realize preliminary bonding through the scraper blade, carry out the secondary compaction by the pinch roller after that, accomplish glass's tectorial membrane operation, it is directed against the glass of great piece, and cell-phone screen glass is less, the suitability has certain limitation.

Disclosure of Invention

In order to solve the technical problem, the invention provides an automatic film-connecting and laminating device for smart phone glass.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides an automatic tectorial membrane device that links of smart mobile phone glass, includes the base, base one side is equipped with the support frame, is equipped with conveying mechanism in the base, is equipped with moving mechanism on the support frame, is equipped with adsorption component in the moving mechanism, and the both ends that lie in conveying mechanism in the base are equipped with the clamp membrane subassembly respectively, and the ejection of compact one side that lies in conveying mechanism on the base is equipped with the film cutting control module group, and one side of base is equipped with the supporting seat, is equipped with material loading tool on the supporting seat.

As a further improvement, the conveying mechanism comprises a conveying belt and a motor driving assembly, the conveying belt is connected with the motor driving assembly, and the conveying belt is driven by the motor driving assembly to convey circularly.

As a further improvement, a human-computer interaction end is arranged in the feeding jig.

As a further improvement, the moving mechanism comprises an X-direction module, a Y-direction module and a Z-direction module, wherein the Y-direction module is arranged on the X-direction module, the Z-direction module is arranged on the Y-direction module, a connecting plate is arranged on the Y-direction module, and the adsorption component is arranged on the connecting plate.

As a further improvement, the suction assembly comprises a vacuum chuck connected with a vacuum generator or an air compressor through a pipeline.

As a further improvement, the film cutting control module comprises a film cutting stand column, a cutter and a cutter cylinder, wherein the cutter cylinder is arranged on the film cutting stand column, the cutter is connected with a driving rod of the cutter cylinder, a pressing shaft positioned on one side of the cutter is arranged on the film cutting stand column, and the pressing shaft is connected with the pressing cylinder.

As a further improvement, an abnormal alarm lamp is further arranged on the supporting frame and is connected with the film cutting control module and the moving mechanism.

As a further improvement, a groove cavity used for placing a feeding jig is formed in the supporting seat, groove positions are arranged on two sides of the supporting seat, and the groove positions are communicated with the groove cavity.

As a further improvement, the supporting seat is a single part and is connected with the base in an installing mode, or the supporting seat and the base are of an integrally formed structure.

As a further improvement, the height of the film clamping assembly arranged at the left side end of the base is higher than that of the film clamping assembly arranged at the right side end of the base.

Compared with the prior art, the utility model, following beneficial effect has:

utilize vacuum chuck to absorb glass to place on conveying mechanism, through tectorial membrane on glass, with the membrane tectorial membrane on the glass surface, the corner excision of rethread film cutting control module group with the membrane, accomplish glass's tectorial membrane and handle, automatic discharging.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the present invention;

FIG. 2 is a schematic structural view of a middle cut membrane control membrane module according to the present invention;

fig. 3 is a schematic structural view of the middle support seat of the present invention.

Reference numerals:

1-a base; 2-a support frame; 3-a conveying mechanism; 4-vacuum chuck; 6-cutting the membrane control module; 61-cutting the membrane column; 62-a cutter; 63-a cutter cylinder; 64-a press-fit shaft; 65-pressing a cylinder; 7-a support seat; 8, a human-computer interaction end; 9-an anomaly warning light; a 10-X direction module; an 11-Y direction module; a 12-Z-direction module; 13-a slot cavity; 14-slot position; 15-supporting seat.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that if the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. are referred to, they refer to the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first" and "second" may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. Either mechanically or electrically. They may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example one

As shown in fig. 1, the utility model discloses an automatic tectorial membrane device even of smart mobile phone glass, including base 1, base 1 one side is equipped with support frame 2, is equipped with conveying mechanism 3 in the base 1, is equipped with moving mechanism on the support frame 2, is equipped with adsorption component on the moving mechanism, and the both ends that lie in conveying mechanism in the base 1 are equipped with respectively and press from both sides membrane module 5, and the ejection of compact one side that lies in conveying mechanism on base 1 is equipped with film cutting control module group 6, and one side of base 1 is equipped with supporting seat 15, is equipped with material loading tool 7 on the supporting seat. The moving mechanism is a three-axis moving structure, can move in the X-axis direction, the Y-axis direction and the Z-axis direction, drives the adsorption assembly to take out glass from the feeding jig, then places the glass on the conveying mechanism, the conveying mechanism is used for conveying, the glass coated with the film is conveyed to the film cutting control module, the film on the periphery of the glass is cut by the film cutting control module, and then the conveying mechanism outputs the finished product outwards. For convenient collection, can set up receiving mechanism in conveying mechanism's ejection of compact one side, perhaps the manual work is got the material.

The glass can be manually placed into the feeding jig 7, then the adsorption component moves onto the feeding jig, and the glass in the feeding jig is adsorbed by utilizing the adsorption force. The material is taken in an adsorption mode, and the problem of scraping the glass surface is solved.

Be equipped with the vallecular cavity 13 that is used for placing feeding jig in the supporting seat 15, the both sides of supporting seat 15 all are equipped with trench 14, and this trench 14 and vallecular cavity 13 intercommunication, this vallecular cavity 13 are the partial formation of digging out downwards of supporting seat 15 upper end, can set up one in vallecular cavity 13 and support jack-up piece for feeding jig 7 can place steadily in vallecular cavity 13 in order to place feeding jig 7. The slot position 14 transversely corresponds to the slot cavity 13, so that the operation is convenient. Under general conditions, the area of slot 13 can be greater than the area of material loading tool 7, just so can ensure that the material loading tool can place in the slot comparatively conveniently, also is favorable to taking out the operation.

In addition, the supporting seat 15 is a single component and is installed and connected with the base 1, or the supporting seat 15 and the base 1 are an integrally formed structure. When the supporting seat is a single component, the supporting seat can be installed and connected with the base through a screw or a buckle structure.

Example two

As shown in fig. 1-3, the utility model discloses an automatic film covering device even of smart mobile phone glass, the on-line screen storage device comprises a base 1, 1 one side of base is equipped with support frame 2, is equipped with conveying mechanism 3 in the base 1, is equipped with moving mechanism on the support frame 2, is equipped with adsorption component on the moving mechanism, and the both ends that lie in conveying mechanism in the base 1 are equipped with respectively and press from both sides membrane module 5, and the ejection of compact one side that lies in conveying mechanism on base 1 is equipped with film cutting control module 6, and one side of base 1 is equipped with material loading tool 7, wherein, conveying mechanism 3 includes conveyer belt, motor drive subassembly, and the conveyer belt is connected with the motor drive subassembly, drives conveyer belt circulation conveying through the motor drive subassembly. The motor drive assembly can include motor, band pulley subassembly, and the motor is connected with the band pulley subassembly, and the conveyer belt is connected with the band pulley subassembly, drives the band pulley subassembly through the motor and rotates, and then drives the endless conveyor of conveyer belt.

A human-computer interaction end 8 can be arranged in the supporting seat 7, a corresponding operation interface is arranged, and parameters can be input for adjustment. The man-machine interaction end can control various mechanisms, such as the conveying speed of the conveying mechanism.

The moving mechanism comprises an X-direction module 10, a Y-direction module 11 and a Z-direction module 12, the Y-direction module 11 is arranged on the X-direction module 10, the Z-direction module 12 is arranged on the Y-direction module 11, a connecting plate is arranged on the Y-direction module, the adsorption component is arranged on the connecting plate, and the three-axis direction movement of the adsorption component can be realized by utilizing the X-direction module, the Y-direction module and the Z-direction module, so that the glass can be conveniently taken out of the feeding jig and then transferred to the conveying mechanism to be put down.

The adsorption component comprises a vacuum chuck 4, the vacuum chuck 4 is connected with a vacuum generator or an air compressor through a pipeline, the vacuum generator or the air compressor can be used for external devices and is connected with the vacuum chuck through the pipeline, the vacuum generator can be vacuumized, the vacuum chuck is enabled to form adsorption force, when glass is taken, the glass can be stably adsorbed, when the glass needs to be loosened, only the vacuumizing state needs to be relieved, the vacuum chuck is automatically loosened, and the glass is flatly placed on a conveying belt of the conveying mechanism.

EXAMPLE III

Referring to fig. 1-3, an automatic laminating device for smart phone glass sheets comprises a base 1, a support frame 2 is arranged on one side of the base 1, a conveying mechanism 3 is arranged in the base 1, a moving mechanism is arranged on the support frame 2, an adsorption assembly is arranged on the moving mechanism, film clamping assemblies 5 are respectively arranged at two ends of the conveying mechanism in the base 1, a film cutting control module 6 is arranged on one side of the base 1, which is used for discharging the conveying mechanism, a feeding jig 7 is arranged on one side of the base 1, wherein the film cutting control module 6 comprises a film cutting upright post 61, a cutter 62 and a cutter cylinder 63, the cutter cylinder 63 is arranged on the film cutting upright post 61, the cutter 62 is connected with a driving rod of the cutter cylinder 63, a pressing shaft 64 arranged on one side of the cutter 62 is arranged on the film cutting upright post 61, the pressing shaft 64 is connected with a pressing cylinder 65, the pressing cylinder is arranged on the film cutting upright post, the cylinder is arranged above the pressing shaft when driving the cutter to retract, and the cylinder drives the cutter to move up and down, so as to cut excess film outside the glass. The cutter stretches across the conveying mechanism, and the film cutting upright posts and the corresponding cylinders are arranged on two sides of the base respectively to drive the cutter to move up and down together.

The cutting cylinder and the pressing cylinder are cylinders with the same structure, and are respectively defined by different names only for distinguishing the description.

The cutter cylinder drives the cutter to retract to the shortest state, a fixed height can be usually set for the pressing shaft, and then the film is wound around the first film clamping assembly 15 and then wound around the pressing shaft, so that the film is basically attached to the surface of the conveying mechanism, and only a small gap exists between the film and the surface of the conveying mechanism. Through adsorbing the subassembly with glass from the material loading tool press from both sides out and place the membrane on, along with the constantly forward conveying of membrane, can place a plurality of glass in different positions, just so can realize that multi-disc glass's film cutting and tectorial membrane are handled. Then the pressing cylinder drives the pressing shaft to press downwards, so that the glass is tightly attached to the film. And then the pressing cylinder drives the pressing shaft to move upwards to the initial position, the cutter cylinder drives the cutter to press downwards, the film on the outer side of the glass is cut off, and finally the film is conveyed outwards.

In addition, still be equipped with unusual warning light 9 on the support frame 2, this unusual warning light 9 is connected with film cutting control module group, moving mechanism, and when at the tectorial membrane in-process, there is a certain mechanism, for example conveying mechanism breaks down, when not conveying according to the speed of setting for, unusual warning light will flash this moment, or other modes change, the staff's of being convenient for observation.

Example four

Referring to fig. 1-3, the utility model discloses an automatic tectorial membrane device of even piece of smart mobile phone glass, including base 1, base 1 one side is equipped with support frame 2, is equipped with conveying mechanism 3 in the base 1, is equipped with moving mechanism on the support frame 2, is equipped with adsorption component on the moving mechanism, and the both ends that lie in conveying mechanism in the base 1 are equipped with respectively and press from both sides membrane module 5, and the ejection of compact one side that lies in conveying mechanism on base 1 is equipped with film cutting control module 6, and one side of base 1 is equipped with material loading tool 7, and wherein, press from both sides membrane module, for a plurality of roller constitutions, the membrane is walked around the transport from a plurality of rollers. More specifically, for convenience of description, a film clamping assembly arranged at the left side end of the base 1 is defined as a first film clamping assembly 15, a film clamping assembly arranged at the right side end of the base 1 is defined as a second film clamping assembly 16, wherein the height of the first film clamping assembly 15 is higher than that of the second film clamping assembly 16, the first film clamping assembly 15 is arranged at the lower area of the conveying mechanism, and then the second film clamping assembly 16 is arranged at the upper area of the conveying mechanism, so that the conveyed film is conveyed in a conveying mode from a feeding direction to a discharging direction from low to high, namely in a mode from the right side of the base to low and from the left side of the base to high, and then is regulated to a proper height by a pressing shaft, and the film can be conveyed in a horizontal direction integrally. First press from both sides membrane module 15 and second and press from both sides membrane module 16 and constitute by two interval distribution's roller, the utility model discloses the device is connected with outside film feeding device, and the membrane is walked around from the pressfitting axle again after first pressing from both sides membrane module winding, upwards is connected to the second and presss from both sides membrane module, and at last to going out in the membrane device, utilize to cut membrane control module with glass and membrane laminating, then cut off, then along with conveying mechanism's transport, cut off unnecessary membrane according to the size of setting for by cutting membrane control module 6, just so realized once only covering multi-disc glass's purpose.

In addition, according to the structure mode of the laminating, the phenomenon of unevenness of the upper part, the lower part and the left part is avoided, and the effect of reducing wrinkle bubbles can be achieved.

The utility model discloses in, use with the cooperation of outside film feeding device and film collecting device, the membrane gets into from the first film clamping component 15 on base right side, walk around from many rollers in the first film clamping component 15, then in reconnection to the second film clamping component 16, walk around from many rollers in the second film clamping component 16, the membrane is from conveying mechanism 3's right side promptly feeding one side to conveying mechanism 3's left side ejection of compact one side promptly this moment, from low to high transport to walk around under cutting film control membrane module 6. The film can be continuously conveyed through the external film conveying device and the external film collecting device. Then the glass is sucked out from the discharging jig 7 in the supporting seat 15 through the vacuum chuck 4 in the adsorption assembly and is placed on the film, and a downward pressure is carried out to make the glass and the film tightly attached. In order to achieve the conveyance more favorably, the film feeding speed and the conveying speed of the conveying mechanism may be set to be the same, and the synchronous conveyance may be maintained. Multiple pieces of glass can be placed, then when the glass on the foremost side is conveyed to the area where the film cutting control film group 6 is located, the cutter cylinder 63 drives the cutter 62 to move downwards, redundant films on the outer side of the first glass are cut off, then the cutter cylinder 63 drives the cutter 62 to move upwards to reset, and when the second glass is in place, the cutter cylinder moves downwards again to perform film cutting operation, so that film coating and film cutting operation can be continuously performed, and the operation is circulated.

It should be noted that, although the present invention has been described in detail with reference to the embodiments, the technical solutions described in the foregoing embodiments or some of the technical features of the embodiments can be modified or replaced with equivalents by those skilled in the art, but any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic tectorial membrane device that links of smart mobile phone glass, includes the base, its characterized in that, base one side is equipped with the support frame, is equipped with conveying mechanism in the base, is equipped with moving mechanism on the support frame, is equipped with adsorption component in the moving mechanism, and the left side end and the right side end that lie in conveying mechanism in the base are equipped with respectively and press from both sides membrane subassembly, and the ejection of compact one side that lies in conveying mechanism on the base is equipped with the membrane cutting control module group, and one side supporting seat of base is equipped with material loading tool on the supporting seat.

2. The automatic film laminating device for smart phone glass sheets according to claim 1, wherein the conveying mechanism comprises a conveyor belt and a motor driving assembly, the conveyor belt is connected with the motor driving assembly, and the conveyor belt is driven by the motor driving assembly to convey the smart phone glass sheets in a circulating manner.

3. The automatic glass-sheet laminating device for the smart phone according to claim 2, wherein a human-computer interaction end is arranged on the supporting base, and the human-computer interaction end is provided with a touch interface.

4. The automatic film laminating device for smart phone glass sheets according to claim 3, wherein the moving mechanism comprises an X-direction module, a Y-direction module and a Z-direction module, the Y-direction module is mounted on the X-direction module, the Z-direction module is mounted on the Y-direction module, a connecting plate is mounted on the Y-direction module, and the adsorption component is mounted on the connecting plate.

5. The smartphone glass auto-lamination film coating device according to claim 4, wherein the suction assembly comprises a vacuum chuck connected to a vacuum generator or an air compressor through a pipeline.

6. The automatic smart phone glass sheet connecting and laminating device according to claim 5, wherein the film cutting control module comprises a film cutting column, a cutting knife and a cutting knife cylinder, the cutting knife cylinder is mounted on the film cutting column, the cutting knife is connected with a driving rod of the cutting knife cylinder, a pressing shaft is arranged on the film cutting column and located on one side of the cutting knife, and the pressing shaft is connected with the pressing cylinder.

7. The automatic smart phone glass sheet connecting and laminating device according to claim 6, wherein an abnormal alarm lamp is further arranged on the supporting frame and connected with the film cutting control module and the moving mechanism.

8. The automatic laminating device for smart phone glass sheets according to claim 7, wherein a cavity for placing a feeding jig is formed in the supporting base, and grooves are formed in both sides of the supporting base and communicated with the cavity.

9. The automatic laminating device for smart phone glass sheets according to claim 8, wherein the supporting base is a single component and is connected to the base, or the supporting base and the base are integrally formed.

10. The automatic glass connecting and laminating device for smart phones according to claim 9, wherein the height of the film clamping assembly arranged at the left side end of the base is higher than that of the film clamping assembly arranged at the right side end of the base.

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