CN112693665A - Touch screen laminating process - Google Patents

Abstract

The invention discloses a touch screen laminating process which comprises a rack, a bottom plate, a feeding process, a feeding auxiliary process, a material taking process, a film covering conveying process, a correcting and compressing process, a hot compress process, a longitudinal conveying process and a floating process, wherein the feeding process is used for upwards conveying a touch screen, the feeding auxiliary process is used for stably assisting the touch screen stored on the feeding process, the material taking process is used for sucking and transferring the touch screen positioned on the feeding process onto a film covering conveying mechanism, the film covering conveying mechanism is used for enabling a film covering roll to pass through the material taking process, the material taking process is used for placing the touch screen on a corresponding single film covering roll, and conveying the film covered touch screen onto the hot compress process; the invention can improve the film sticking efficiency, ensure the film sticking position, effectively avoid the film sticking position deviation, has good film sticking effect, greatly reduces the reject ratio, saves the material consumption, increases the production benefit and has good market application value.

Description

Touch screen laminating process

Technical Field

The invention relates to the technical field of touch screen assembly processes, in particular to a touch screen attaching process.

Background

Most intelligent electronic equipment has adopted touch display module assembly in the existing market, and the touch-sensitive screen is as one of touch display module assembly's key parts again, by wide application, and the touch-sensitive screen is in order to prevent its surface wear and dustproof needs in the equipment of later stage, the touch-sensitive screen need post the production completion on its surface pad pasting, be used for protecting the touch-sensitive screen can not produce wearing and tearing in the equipment process, generally through artifical single pad pasting on single touch-sensitive screen one by one among the prior art, but it is low through artifical attached obvious work efficiency, produce laminating size skew after the attachment finishes easily, finally lead to attached effect unstability, lead to the production of defective products.

Accordingly, the prior art is deficient and needs improvement.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a touch screen laminating process.

The invention provides a technical scheme, and a touch screen laminating process comprises a rack, a bottom plate, a feeding process, a feeding auxiliary process, a material taking process, a laminating conveying process, a correcting and compacting process, a hot compress process, a longitudinal conveying process and a floating process, wherein the bottom plate is arranged at the upper part of the rack, the laminating conveying mechanism of the laminating conveying process is arranged at the rear side of the right end of the bottom plate, the material taking mechanism of the material taking process is positioned at the top end of the laminating conveying mechanism, the feeding auxiliary component of the feeding auxiliary process is arranged at the front side of the right end of the bottom plate, the feeding mechanism of the feeding process is arranged at the back of the front side of the right end of the bottom plate and is positioned at the lower part of the feeding auxiliary component after upwards penetrating through the bottom plate, the longitudinal conveying mechanism of the longitudinal conveying process is longitudinally arranged at the left end of the bottom plate, the hot compress mechanism of the hot compress process is, the floating mechanism of the floating process is arranged on the right side of the upper part of the longitudinal conveying mechanism, the correcting and compressing mechanism of the correcting and compressing process is arranged at the right end of the bottom plate and stretches over the top of the longitudinal conveying mechanism, the feeding process is used for upwards conveying the touch screen, the feeding auxiliary process is used for stably assisting and storing the touch screen on the feeding process, the material taking process is used for absorbing and transferring the touch screen on the feeding process to the film covering conveying mechanism, the film covering conveying mechanism is used for enabling the film covering roll to pass through the material taking process, the material taking process places the touch screen on the film covering roll to form a corresponding single film, and conveys the touch screen with the finished film covering to the hot compress process, the longitudinal conveying process is used for driving the hot compress process and the floating process to sequentially move to the position under the correcting and compressing process, the correction compresses tightly the touch-sensitive screen that the process was used for finishing the pad pasting and carries out position correction and clamping action, the hot compress process is used for receiving and comes from the pad pasting touch-sensitive screen that the process was carried to the tectorial membrane, and will the correction compresses tightly the touch-sensitive screen behind the tight pad pasting of process and carries out the hot compress action, floating process is used for with the correction compresses tightly the tight pad pasting touch-sensitive screen of process hot compress of process and carries out the floating action once more.

Preferably, in the film conveying process, the film conveying mechanism is provided with a film discharging component, a vertical plate, a material receiving driving component, a demoulding plate, a film covering and rolling component, a film covering and pressing component and a plurality of rolling auxiliary wheels, the vertical plate is fixed on the bottom plate, the film discharging component is arranged on the front surface of the vertical plate, the film covering and rolling component is arranged on the lower part of the right side of the front surface of the vertical plate, the demoulding plate is transversely arranged at the middle position of the left side of the front surface of the vertical plate, the rolling auxiliary wheels are arranged on the front surface of the vertical plate, the rolling auxiliary wheels are uniformly distributed at positions among the film discharging component, the film covering and rolling component and the demoulding plate, the material receiving driving component is arranged on the back part of the vertical plate, and the output end of the film receiving driving component is connected with the film covering and rolling component, the laminating press-fit assembly is arranged on the upper portion of the front left side of the vertical plate, the working end faces the demoulding plate downwards, the laminating discharge assembly discharges materials, a laminating roll moves along the demoulding plate after passing through the rolling auxiliary wheel, finally the laminating is automatically separated through the demoulding plate, and an empty laminating belt after demoulding is recovered through the laminating rolling assembly.

Preferably, in the material taking process, the material taking mechanism is provided with a material taking transverse driving assembly, a material taking longitudinal driving assembly and a material taking suction assembly, the material taking transverse driving assembly controls the material taking longitudinal driving assembly to transversely move, the material taking longitudinal driving assembly controls the suction assembly to complete material taking action, the material taking suction assembly completes suction action, the material taking transverse driving assembly is a material taking transverse guide rod cylinder, the material taking longitudinal driving assembly is a material taking longitudinal double-rod cylinder, the material taking transverse guide rod cylinder and the material taking longitudinal double-rod cylinder control the transverse movement and the longitudinal movement of the suction assembly, the suction assembly is a suction mounting plate and two vacuum suction nozzles, the back surface of the suction mounting plate is fixed at the output end of the material taking longitudinal double-rod cylinder, and the two vacuum suction nozzles are arranged on the front surface of the suction mounting plate in parallel, the vacuum suction nozzle controls the suction action and the release action through a vacuum generator.

Preferably, in the correcting and compressing process, the correcting and compressing mechanism is provided with a lower frame, an upper compressing platform, a left clamping assembly, a right clamping assembly, a downward pushing assembly and a guiding assembly, the lower frame spans over the longitudinal conveying mechanism, the guiding assembly vertically penetrates through the top of the lower frame and is fixedly connected with the back of the upper compressing platform downward, the upper compressing platform is controlled by the downward pushing assembly, the left clamping assembly and the right clamping assembly are driven to move up and down along the guiding assembly, the guiding assembly is composed of a guiding fixing plate and four guiding shafts, and the guiding shaft is fixed on the upper compressing platform downward through the four guiding shafts.

Preferably, in the longitudinal conveying process, the longitudinal conveying mechanism is provided with a longitudinal conveying driving assembly, a conveying fixing seat, a conveying ball screw assembly, a left linear slide rail assembly, a right linear slide rail assembly and a platform sliding plate, the conveying fixing seat is longitudinally fixed on the bottom plate, the longitudinal conveying driving assembly controls the conveying ball screw assembly to finally longitudinally transfer the platform sliding plate, and the left linear slide rail assembly and the right linear slide rail assembly slide the platform sliding plate.

Preferably, in the hot compress process, hot compress mechanism is equipped with the blowing board, blows and pushes away the cylinder and blow the cylinder board, through the handle blow push away the cylinder vertical set up in the upper portion left side of platform slide, through the handle the cylinder board that blows set up in blow the top that pushes away the cylinder, set up the guide pillar through blowing the left and right sides that rises the cylinder board, and then make two guide pillars upwards be fixed in the bottom of blowing board pushes away the removal of cylinder control blowing board through blowing, the air inlet on the blowing board links to each other with outside air compressor, and all the winding has electric heating wire on air compressor's the exit pipeline.

Preferably, in the floating procedure, the floating mechanism is provided with a lifting pushing cylinder, a lower platform, a lower hinge support, an upper hinge support and a roller assembly, the lifting pushing cylinder controls the lower platform to be in a horizontal position or an inclined position along the lower hinge support and the upper hinge support, when the lower platform is in the horizontal position, the lower platform is used for completing a jacking action, and when the lower platform is in the inclined position, the lower platform is used for completing a floating action through the roller assembly.

Preferably, in the feeding process, the feeding mechanism is provided with a feeding driving assembly, a feeding ball screw assembly, a feeding base, a feeding mounting plate and a feeding plate, the feeding driving assembly drives the feeding ball screw assembly to further enable the feeding base to move up and down, the feeding plate moves up and down through the feeding ball screw assembly to finally achieve a feeding action, guide shafts are respectively arranged on the periphery of the feeding base to further assist in pushing the material plates to move.

Preferably, the feeding auxiliary assembly comprises a tray base and five positioning columns vertically fixed on the tray base, the tray base is fixed on the bottom plate, the five positioning columns are distributed on the tray base in a V shape, and the five positioning columns are used for moving the feeding plate in a space surrounded by the feeding plate.

Preferably, in the film covering and conveying process, the film covering and discharging assembly is a discharging shaft, the film covering and winding assembly is a receiving shaft, the receiving driving assembly is a receiving stepping motor, an output end of the receiving stepping motor is connected with the receiving shaft through a synchronous belt, the film covering and pressing assembly is provided with a pressing driving cylinder and a pressing roller assembly, the pressing driving cylinder is used for fixing the pressing roller assembly, the pressing roller assembly is composed of a pressing roller mounting seat and a pressing roller, and the film covering and pressing on the touch screen are completed through the pressing roller assembly.

Compared with the prior art, the beneficial effects are that: according to the invention, the automatic feeding action of the film is completed through the feeding auxiliary assembly, the material taking mechanism and the film covering conveying mechanism, and the film covering action of the touch screen is quickly completed through the correction pressing mechanism, the hot compress mechanism, the longitudinal conveying mechanism and the floating mechanism, so that the film covering efficiency is greatly improved, the film covering position is ensured, the film covering position deviation is effectively avoided, the film covering effect is good, the reject ratio is greatly reduced, the material consumption is saved, the production benefit is increased, and the film covering machine has good market application value.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a film-coating conveying mechanism according to the present invention;

FIG. 3 is a schematic structural diagram of a calibrating and pressing mechanism according to the present invention;

FIG. 4 is a schematic view of the longitudinal conveying mechanism of the present invention;

FIG. 5 is a schematic view of the combination of the fomentation mechanism and the longitudinal conveyor of the present invention;

FIG. 6 is a schematic view of the structure of the troweling mechanism and the longitudinal conveying mechanism according to the present invention;

FIG. 7 is a schematic view of the feeding mechanism and the feeding auxiliary assembly according to the present invention;

FIG. 8 is a schematic view of a material extracting mechanism according to the present invention;

FIG. 9 is a schematic view of a portion of the structure of the present invention;

reference numerals: a base plate 1; a feeding mechanism 2; a feeding auxiliary component 3; a material taking mechanism 4; a film coating conveying mechanism 5; the correcting and pressing mechanism 6; a hot compress mechanism 7; a longitudinal conveying mechanism 8; a troweling mechanism 9; a frame 10; a feed drive assembly 21; a feed ball screw assembly 22; a feeding base 23; a feeding mounting plate 24; a feed plate 25; a tray base 31; a positioning post 32; a take-off transverse drive assembly 41; a take-off longitudinal drive assembly 42; a suction mounting plate 43; a vacuum suction nozzle 44; a film covering and discharging assembly 51; a vertical plate 52; a material receiving drive assembly 53; a stripper plate 54; a film-coating take-up assembly 55; a laminating press-fit assembly 56; a pressing driving cylinder 561; a stitching roller assembly 562; a lower frame 61; an upper compaction platform 62; a left clamping assembly 63; a right clamp assembly 64; push-down assembly 65; a guide fixing plate 66; a blowing plate 71; a blowing pushing cylinder 72; a gas-blowing cylinder plate 73; a longitudinal conveyance drive assembly 81; a conveying fixed seat 82; a conveying ball screw assembly 83; a left linear slide assembly 84; a right linear slide rail assembly 85; a platform sled 86; a lifting pushing cylinder 91; a lower platform 92; a lower hinge support 93; an upper hinge support 94; a roller assembly 95.

Detailed Description

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 9, the overall structure of the present invention is: a touch screen laminating device comprises a frame 10, a bottom plate 1, a feeding mechanism 2, a feeding auxiliary assembly 3, a material taking mechanism 4, a film covering conveying mechanism 5, a correcting and pressing mechanism 6, a hot compress mechanism 7, a longitudinal conveying mechanism 8 and a floating mechanism 9, wherein the bottom plate 1 is arranged on the upper portion of the frame 10, the film covering conveying mechanism 5 is transversely arranged on the rear side of the right end of the bottom plate 1, the material taking mechanism 4 is longitudinally arranged on the top end of the film covering conveying mechanism 5, the feeding auxiliary assembly 3 is arranged on the front side of the right end of the bottom plate 1, the feeding mechanism 2 is arranged on the back of the front side of the right end of the bottom plate 1 and upwards penetrates through the lower portion of the feeding auxiliary assembly 3 behind the bottom plate 1, the longitudinal conveying mechanism 8 is longitudinally arranged at the left end of the bottom plate 1, the hot compress mechanism 7 is arranged on the left side of the, the floating mechanism 9 is arranged on the right side of the upper part of the longitudinal conveying mechanism 8, the correcting and pressing mechanism 6 is arranged on the right end of the bottom plate 1 and stretches over the vertical conveying mechanism 8, the feeding mechanism 2 is used for upwards conveying the touch screen, the feeding auxiliary component 3 is used for stably assisting the touch screen stored on the feeding mechanism 2, the material taking mechanism 4 is used for absorbing and transferring the touch screen on the feeding mechanism 2 to the film covering conveying mechanism 5, the film covering conveying mechanism 5 is used for passing the film covering roll through the material taking mechanism 4, the material taking mechanism 4 places the touch screen on the film covering roll to form a corresponding single film, and conveys the film covering touch screen to the film applying mechanism, the longitudinal conveying mechanism 8 is used for driving the hot compress mechanism 7 and the floating mechanism 9 to sequentially move to the position under the correcting and pressing mechanism 6, rectify hold-down mechanism 6 and be used for carrying out position correction and clamping action with the touch-sensitive screen that the pad pasting finishes, hot compress mechanism 7 is used for receiving and comes from the pad pasting touch-sensitive screen that tectorial membrane conveying mechanism 5 carried, and will rectify touch-sensitive screen behind the tight pad pasting of hold-down mechanism 6 and carry out the hot compress action, floating mechanism 9 be used for with rectify the tight pad pasting touch-sensitive screen through the hot compress of hold-down mechanism 6 and carry out the floating action once more.

Preferably, as shown in fig. 2, the film conveying mechanism 5 includes a film feeding assembly 51, a vertical plate 52, a receiving driving assembly 53, a demolding plate 54, a film rolling assembly 55, a film pressing assembly 56, and a plurality of rolling auxiliary wheels, the vertical plate 52 is transversely fixed on the bottom plate 1, the film feeding assembly 51 is disposed on the upper portion of the right side of the vertical plate 52, the film rolling assembly 55 is disposed on the lower portion of the right side of the vertical plate 52, the demolding plate 54 is transversely disposed at the middle position of the left side of the vertical plate 52, the plurality of rolling auxiliary wheels are disposed on the front side of the vertical plate 52, the plurality of rolling auxiliary wheels are uniformly distributed at positions among the film feeding assembly 51, the film rolling assembly 55, and the demolding plate 54, the receiving driving assembly 53 is disposed on the back of the vertical plate 52, and the output end of the receiving driving assembly 53 is connected to the film rolling assembly, the film laminating assembly 56 is arranged on the upper portion of the left side of the front surface of the vertical plate 52, and the working end faces downwards to the demoulding plate 54.

Preferably, as shown in fig. 8, the material taking mechanism 4 comprises a material taking transverse driving assembly 41, a material taking longitudinal driving assembly 42 and a material taking suction assembly, the material taking transverse driving assembly 41 is longitudinally arranged on the upper part of the vertical plate 52 in a penetrating way, the material taking longitudinal driving assembly 42 is vertically fixed at the output end of the transverse driving assembly, the material taking suction assembly is arranged at the lower output end of the material taking longitudinal driving assembly 42, the material taking transverse driving assembly 41 is a material taking transverse guide rod cylinder, the material taking longitudinal driving assembly 42 is a material taking longitudinal double-rod air cylinder, the suction assembly comprises a suction mounting plate 43 and two vacuum suction nozzles 44, the back of the suction mounting plate 43 is transversely fixed at the output end of the vertical double-rod cylinder for taking materials, the two vacuum suction nozzles 44 are arranged on the front of the suction mounting plate 43 in parallel, and the vacuum suction nozzles 44 control suction action and release action through a vacuum generator.

Preferably, as shown in fig. 3, the correcting press mechanism 6 comprises a lower frame 61, an upper press platform 62, a left clamp assembly 63, a right clamp assembly 64, a lower push assembly 65 and a guide assembly, the lower frame 61 crosses over the longitudinal conveying mechanism 8, the guide assembly vertically penetrates through the top of the lower frame 61, and is fixedly connected with the back of the upper pressing platform 62 downwards, the lower pressing pushing assembly 65 is vertically fixed at the middle position of the top of the lower frame 61, and is connected with the upper pressing platform 62 after passing through the top of the lower frame 61, the left clamping assembly 63 is arranged at the rear side of the upper pressing platform 62, the right clamping assembly 64 is disposed at the right side of the top of the lower frame 61, the guiding assembly includes a guiding fixing plate 66 and four guiding shafts, and the four guiding shafts penetrate the top of the lower frame 61 downwards and then are fixed on the upper pressing platform 62.

Preferably, as shown in fig. 4, the longitudinal conveying mechanism 8 includes a longitudinal conveying driving assembly 81, a conveying fixing seat 82, a conveying ball screw assembly 83, a left linear sliding rail assembly 84, a right linear sliding rail assembly 85, and a platform sliding plate 86, the conveying fixing seat 82 is longitudinally fixed on the bottom plate 1, the longitudinal conveying driving assembly 81 is disposed at the rear end portion of the conveying fixing seat 82, the conveying ball screw assembly 83 is longitudinally mounted on the conveying fixing seat 82, the left linear sliding rail assembly 84 and the right linear sliding rail assembly 85 are equally divided and respectively disposed at the left side and the right side of the conveying ball screw assembly 83 through guide rail cushion blocks, the guide rail cushion blocks are all disposed on the bottom plate 1, and the platform sliding plate 86 is disposed on the sliding blocks of the left linear sliding rail assembly 84 and the right linear sliding rail assembly 85.

Preferably, as shown in fig. 5, hot compress mechanism 7 includes air blowing plate 71, air blowing pushing cylinder 72 and air blowing cylinder plate 73, air blowing pushing cylinder 72 vertically set up in the upper left side of platform slide 86, air blowing cylinder plate 73 set up in air blowing pushing cylinder 72's top, air blowing pushing cylinder 72's output upwards passes air blowing cylinder plate 73 after-fixing in air blowing plate 71's bottom central point puts, air blowing cylinder plate 73's the left and right sides still runs through respectively and is provided with the guide pillar, and two guide pillars upwards are fixed in air blowing plate 71's the bottom left and right sides, air inlet on air blowing plate 71 links to each other with the air compressor of outside, and all the winding has electric heating wire on air compressor's the exit pipeline.

Preferably, as shown in fig. 6, the troweling mechanism 9 includes a lifting pushing cylinder 91, a lower platform 92, a lower hinge support 93, an upper hinge support 94 and a roller assembly 95, the lower hinge support 93 is fixed on the right side of the platform sliding plate 86, the lifting pushing cylinder 91 is vertically arranged on the platform sliding plate 86, and is located at the inner side position of the lower hinge support 93, the top of the upper hinge support 94 is fixed at the right side of the bottom of the lower platform 92, the output end of the lifting pushing cylinder 91 is fixed upwards at the left side of the bottom of the lower platform 92, the roller assembly 95 is disposed at the left end of the lower platform 92, the roller assembly 95 includes a left roller seat, a right roller seat and a floating roller, the left side roller seat and the right side roller seat are respectively arranged at two ends of the left side of the lower platform 92, and the floating rollers are arranged on the left side roller seat and the right side roller seat.

Preferably, as shown in fig. 7 and 9, the feeding mechanism 2 includes a feeding driving assembly 21, a feeding ball screw assembly 22, a feeding base 23, a feeding mounting plate 24 and a feeding plate 25, the feeding mounting plate 24 is disposed on the back of the bottom plate 1, the feeding driving assembly 21 is disposed at the lower end of the feeding mounting plate 24, the feeding ball screw assembly 22 is vertically disposed on the feeding mounting plate 24, the feeding base 23 is fixed on a screw nut seat of the feeding ball screw assembly 22, guide shafts are respectively disposed around the feeding base 23, two guide shafts located outside the feeding base 23 penetrate the bottom plate 1 in the axial direction and then are fixed on two sides of the bottom of the feeding plate 25, two guide shafts located inside the feeding base 23 are fixed on the bottom of the bottom plate 1 in the axial direction, the feeding driving assembly 21 is a feeding stepping motor, the output end of the feeding stepping motor is connected with one end of the feeding ball screw assembly 22.

Preferably, the feeding auxiliary assembly 3 is composed of a tray base 31 and five positioning columns 32 vertically fixed on the tray base 31, the tray base 31 is fixed on the bottom plate 1, the five positioning columns 32 are distributed on the tray base 31 in a V shape, and the five positioning columns 32 are used for the feeding plate 25 to move in a space surrounded by the feeding plate.

Preferably, the film covering and discharging assembly 51 is a discharging shaft, the film covering and winding assembly 55 is a receiving shaft, the receiving driving assembly 53 is a receiving stepping motor, an output end of the receiving stepping motor is connected with the receiving shaft through a synchronous belt, the film covering and pressing assembly 56 comprises a pressing driving cylinder 561 and a pressing roller assembly 562, the pressing driving cylinder 561 is arranged on the upper portion of the left side of the vertical plate 52, an output end of the pressing driving cylinder 561 is used for fixing the pressing roller assembly 562, and the pressing roller assembly is composed of a pressing roller mounting seat and a pressing roller.

A plurality of touch screens are stacked on a feeding base 23, then a film roll with a film is placed on a film discharging component 51, the film roll is wound on a film winding component 55 after passing through a winding auxiliary wheel, a stripping plate 54, a film laminating component 56 and a winding auxiliary wheel between the stripping plate 54 and the film winding component 55 in sequence by manpower, a material receiving driving component 53 works at the moment, a feeding driving component 21 drives a feeding ball screw component 22 to work at the same time, so that the feeding base 23 is transferred upwards, a material taking transverse driving component 41 drives a material taking longitudinal driving component 42 to move downwards, the material taking sucking component finishes sucking the touch screens placed on the feeding base 23 and transfers the touch screens to the film roll passing through the stripping plate 54, and the touch screens are placed on corresponding single film sticking films on the film roll, at this time, the material receiving driving assembly 53 operates to enable the film covering rolling assembly 55 to move around the demoulding plate 54, so as to drive the touch screen placed on the film to be conveyed to the left side of the demoulding plate 54, at this time, when the touch screen passes through the film covering pressing assembly 56, the pressing driving cylinder 561 drives the pressing roller to move downwards, a first pressing action is performed on the touch screen placed on the film covering, then when the touch screen is conveyed to the left end part of the demoulding plate 54, the film covering and the touch screen are simultaneously separated through the demoulding plate 54, the touch screen adhered with the film covering falls onto the air blowing plate 71 of the hot compress mechanism 7, at this time, the air blowing pushing cylinder 72 operates to drive the air blowing plate 71 to move upwards, when the touch screen is contacted with the upper pressing platform 62, at this time, the left clamping assembly 63 and the right clamping assembly 64 operate, and after the touch screen on the air blowing plate 71 is clamped, the air blowing pushing cylinder 72 moves downwards, meanwhile, an air compressor connected with the air blowing plate 71 supplies air to perform hot air blowing action on the touch screen with the adhesive film adhered thereon, after hot compress and air blowing are completed, the lifting pushing cylinder 91 works to enable the lower platform 92 and the bottom plate 1 to form an inclined included angle, then the longitudinal conveying mechanism 8 drives the floating mechanism 9 to slowly move to the lower side of the touch screen to perform floating action, the adhesive film is pressed on the touch screen again, after floating, the lifting pushing cylinder 91 stops being in a contraction state, the lower platform 92 and the bottom plate 1 are in a parallel state, at the moment, the left clamping assembly 63 and the right clamping assembly 64 simultaneously loosen the touch screen, the touch screen falls onto the lower platform 92, then the longitudinal conveying mechanism 8 drives the floating mechanism 9 to move rightwards, and the touch screen with the adhesive film completely attached is taken out.

The touch screen laminating process comprises the following steps:

including frame 10, bottom plate 1, pay-off process, pay-off auxiliary operation, get material process, tectorial membrane conveying process, correction and compress tightly process, hot compress process, vertical conveying process and floating process, bottom plate 1 set up in the upper portion of frame 10, tectorial membrane conveying mechanism 5 of tectorial membrane conveying process set up in the right-hand member rear side of bottom plate 1, the material taking mechanism 4 of getting the material process is located the top of tectorial membrane conveying mechanism 5, the pay-off auxiliary assembly 3 of pay-off auxiliary operation set up in the right-hand member front side of bottom plate 1, the feeding mechanism 2 of pay-off process set up in the right-hand member front side back of bottom plate 1, and upwards pass be located behind bottom plate 1 the lower part of pay-off auxiliary assembly 3, the vertical conveying mechanism 8 of vertical conveying process vertically set up in the left end of bottom plate 1, the hot compress mechanism 7 of hot compress process set up in the upper portion left side, the floating mechanism 9 of the floating process is arranged on the right side of the upper part of the longitudinal conveying mechanism 8, the correcting and compressing mechanism 6 of the correcting and compressing process is arranged on the right end of the bottom plate 1 and stretches over the upper part of the longitudinal conveying mechanism 8, the feeding process is used for upwards conveying the touch screen, the feeding auxiliary process is used for stably assisting and storing the touch screen on the feeding process, the material taking process is used for absorbing and transferring the touch screen on the feeding process to the laminating conveying mechanism 5, the laminating conveying mechanism 5 is used for passing the laminating roll through the material taking process, the material taking process places the touch screen on the laminating roll to form a corresponding single film, and conveys the touch screen on which the laminating is finished to the hot compress process, the longitudinal conveying process is used for driving the hot compress process and the floating process sequentially move to the position under the correcting and compressing process, the correction compresses tightly the touch-sensitive screen that the process was used for finishing the pad pasting and carries out position correction and clamping action, the hot compress process is used for receiving and comes from the pad pasting touch-sensitive screen that the process was carried to the tectorial membrane, and will the correction compresses tightly the touch-sensitive screen behind the tight pad pasting of process and carries out the hot compress action, floating process is used for with the correction compresses tightly the tight pad pasting touch-sensitive screen of process hot compress of process and carries out the floating action once more.

A film coating and conveying process: the film covering and conveying mechanism 5 is provided with a film covering and discharging component 51, a vertical plate 52, a material receiving driving component 53, a demoulding plate 54, a film covering and winding component 55, a film covering and pressing component 56 and a plurality of winding auxiliary wheels, the vertical plate 52 is fixed on the bottom plate 1, the film covering and discharging component 51 is arranged on the front surface of the vertical plate 52, the film covering and winding component 55 is arranged at the lower part of the right side of the front surface of the vertical plate 52, the demoulding plate 54 is transversely arranged at the middle position of the left side of the front surface of the vertical plate 52, the plurality of winding auxiliary wheels are arranged on the front surface of the vertical plate 52, the plurality of winding auxiliary wheels are uniformly distributed at positions among the film covering and discharging component 51, the film covering and winding component 55 and the demoulding plate 54, the material receiving driving component 53 is arranged at the back part of the vertical plate 52, and the output end of the material receiving driving component 53 is, the laminating pressing assembly 56 is arranged at the upper part of the left side of the front face of the vertical plate 52, the working end of the laminating pressing assembly faces the demoulding plate 54 downwards, the laminating discharging assembly 51 discharges materials, a laminating roll moves along the demoulding plate after passing through the rolling auxiliary wheel, finally the laminating is automatically separated through the demoulding plate 54, and an empty laminating belt after demoulding is recovered through the laminating rolling assembly 55.

Taking materials: the material taking mechanism 4 is provided with a material taking transverse driving component 41, a material taking longitudinal driving component 42 and a material taking suction component, the material taking transverse driving component 41 controls the material taking longitudinal driving component 42 to transversely move, the material taking longitudinal driving component 42 controls the suction component to complete material taking action, the material taking suction component completes suction action, the material taking transverse driving component 41 is a material taking transverse guide rod cylinder, the material taking longitudinal driving component 42 is a material taking longitudinal double-rod cylinder, the material taking transverse guide rod cylinder and the material taking longitudinal double-rod cylinder control the transverse movement and the longitudinal movement of the suction component, the suction component is a suction mounting plate 43 and two vacuum suction nozzles 44, the back surface of the suction mounting plate 43 is fixed at the output end of the material taking longitudinal double-rod cylinder, and the two vacuum suction nozzles 44 are arranged on the front surface of the suction mounting plate 43 in parallel, the vacuum suction nozzle 44 controls the suction action and the release action by the vacuum generator.

And (3) correcting and pressing: the correcting and pressing mechanism 6 is provided with a lower frame 61, an upper pressing platform 62, a left clamping assembly 63, a right clamping assembly 64, a downward pressing pushing assembly 65 and a guiding assembly, the lower frame 61 stretches across the longitudinal conveying mechanism 8, the guiding assembly vertically penetrates through the top of the lower frame 61 and is fixedly connected with the back of the upper pressing platform 62 downwards, the upper pressing platform 62 is controlled by the downward pressing pushing assembly 65, the left clamping assembly 63 and the right clamping assembly 64 are driven to move up and down along the guiding assembly, the guiding assembly is composed of a guiding fixing plate 66 and four guiding shafts, and the guiding shafts are fixed on the upper pressing platform 62 downwards through the four guiding shafts.

A longitudinal conveying procedure: the longitudinal conveying mechanism 8 is provided with a longitudinal conveying driving assembly 81, a conveying fixed seat 82, a conveying ball screw assembly 83, a left linear slide rail assembly 84, a right linear slide rail assembly 85 and a platform sliding plate 86, the conveying fixed seat 82 is longitudinally fixed on the bottom plate 1, the conveying ball screw assembly 83 is controlled by the longitudinal conveying driving assembly 81, the platform sliding plate 86 is finally longitudinally conveyed, and the platform sliding plate 86 slides through the left linear slide rail assembly 84 and the right linear slide rail assembly 85.

Hot compress process: hot compress mechanism 7 is equipped with air blowing plate 71, the top of blowing pushes away cylinder 72 and air blowing cylinder board 73, through the handle air blowing pushes away cylinder 72 vertical set up in the upper portion left side of platform slide 86, through the handle air blowing cylinder board 73 set up in air blowing pushes away the top of cylinder 72, sets up the guide pillar through the left and right sides blowing up the cylinder board, and then makes two guide pillars upwards be fixed in air blowing plate 71's bottom pushes away the removal of cylinder 72 control air blowing plate 71 through blowing, the air inlet on air blowing plate 71 links to each other with outside air compressor, and all the winding has electric heating wire on air compressor's the exit pipeline.

A floating procedure: the trowelling mechanism 9 is provided with a lifting pushing cylinder 91, a lower platform 92, a lower hinge support 93, an upper hinge support 94 and a roller assembly 95, the lifting pushing cylinder 91 controls the lower platform 92 to be in a horizontal position or an inclined position along the lower hinge support 93 and the upper hinge support 94, the lower platform 92 is in the horizontal position to finish a jacking action, and the lower platform 92 is in the inclined position to finish a trowelling action through the roller assembly 95.

A feeding process: the feeding mechanism 2 is provided with a feeding driving assembly 21, a feeding ball screw assembly 22, a feeding base 23, a feeding mounting plate 24 and a feeding plate 25, the feeding driving assembly 21 drives the feeding ball screw assembly 22, the feeding base 23 is made to move up and down, the feeding plate 25 is made to move up and down through the feeding ball screw assembly 22, feeding action is finally achieved, guide shafts are respectively arranged on the periphery of the feeding base 23, and the feeding plate is pushed to move in an auxiliary mode.

And (3) auxiliary feeding process: the feeding auxiliary assembly 3 is composed of a tray base 31 and five positioning columns 32 vertically fixed on the tray base 31, the five positioning columns 32 are distributed on the tray base 31 in a V shape, and the five positioning columns 32 are used for moving the feeding plate 25 in a space surrounded by the feeding plate.

A film coating and conveying process: the laminating discharging assembly 51 is a discharging shaft, the laminating winding assembly 55 is a receiving shaft, the receiving driving assembly 53 is a receiving stepping motor, the output end of the receiving stepping motor is connected with the receiving shaft through a synchronous belt, the laminating pressing assembly 56 is provided with a pressing driving cylinder 561 and a pressing roller assembly 562, the pressing driving cylinder 561 is used for fixing the pressing roller assembly 562, the pressing roller assembly is composed of a pressing roller mounting seat and a pressing roller, and laminating of the film on the touch screen is completed through the pressing roller assembly 562.

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a touch-sensitive screen laminating technology, its characterized in that includes frame, bottom plate, pay-off process, pay-off auxiliary process, gets material process, tectorial membrane conveying process, correction and compresses tightly process, hot compress process, vertical conveying process and floating process, the bottom plate set up in the upper portion of frame, the tectorial membrane conveying mechanism of tectorial membrane conveying process set up in the right-hand member rear side of bottom plate, the extracting mechanism of getting material process is located tectorial membrane conveying mechanism's top, the pay-off auxiliary assembly of pay-off auxiliary process set up in the right-hand member front side of bottom plate, the feeding mechanism of pay-off process set up in the right-hand member front side back of bottom plate, and upwards pass be located behind the bottom plate the lower part of pay-off auxiliary assembly, the vertical conveying mechanism of vertical conveying process vertically set up in the left end of bottom plate, the hot compress mechanism of hot compress process set up in, the floating mechanism of the floating process is arranged on the right side of the upper part of the longitudinal conveying mechanism, the correcting and compressing mechanism of the correcting and compressing process is arranged at the right end of the bottom plate and stretches over the top of the longitudinal conveying mechanism, the feeding process is used for upwards conveying the touch screen, the feeding auxiliary process is used for stably assisting and storing the touch screen on the feeding process, the material taking process is used for absorbing and transferring the touch screen on the feeding process to the film covering conveying mechanism, the film covering conveying mechanism is used for enabling the film covering roll to pass through the material taking process, the material taking process places the touch screen on the film covering roll to form a corresponding single film, and conveys the touch screen with the finished film covering to the hot compress process, the longitudinal conveying process is used for driving the hot compress process and the floating process to sequentially move to the position under the correcting and compressing process, the correction compresses tightly the touch-sensitive screen that the process was used for finishing the pad pasting and carries out position correction and clamping action, the hot compress process is used for receiving and comes from the pad pasting touch-sensitive screen that the process was carried to the tectorial membrane, and will the correction compresses tightly the touch-sensitive screen behind the tight pad pasting of process and carries out the hot compress action, floating process is used for with the correction compresses tightly the tight pad pasting touch-sensitive screen of process hot compress of process and carries out the floating action once more.

2. The touch screen laminating process according to claim 1, wherein in the film conveying process, the film conveying mechanism is provided with a film feeding assembly, a vertical plate, a material collecting driving assembly, a stripper plate, a film winding assembly, a film laminating assembly and a plurality of winding auxiliary wheels, the vertical plate is fixed on the bottom plate, the film feeding assembly is further arranged on the front surface of the vertical plate, the film winding assembly is arranged on the lower portion of the right side of the front surface of the vertical plate, the stripper plate is transversely arranged on the middle position of the left side of the front surface of the vertical plate, the plurality of winding auxiliary wheels are arranged on the front surface of the vertical plate, the plurality of winding auxiliary wheels are uniformly distributed at positions among the film feeding assembly, the film winding assembly and the stripper plate, the driving assembly is arranged on the back portion of the vertical plate, and the output end of the material receiving driving assembly is connected with the film covering and winding assembly, the film covering and pressing assembly is arranged on the upper portion of the front left side of the vertical plate, the working end of the film covering and pressing assembly faces the stripper plate downwards, the film covering and discharging assembly discharges materials, the film covering roll moves along the stripper plate after passing through the winding auxiliary wheel, the film covering is automatically separated through the stripper plate, and the empty film covering belt after demolding is recovered through the film covering and winding assembly.

3. The touch screen attaching process according to claim 2, wherein in the material taking process, the material taking mechanism is provided with a material taking transverse driving assembly, a material taking longitudinal driving assembly and a material taking suction assembly, the material taking transverse driving assembly controls the material taking longitudinal driving assembly to move transversely, the material taking longitudinal driving assembly controls the suction assembly to complete material taking action, the material taking suction assembly completes suction action, the material taking transverse driving assembly is a material taking transverse guide rod air cylinder, the material taking longitudinal driving assembly is a material taking longitudinal double-rod air cylinder, the transverse movement and the longitudinal movement of the suction assembly are controlled by the material taking transverse guide rod air cylinder and the material taking longitudinal double-rod air cylinder, the suction assembly is a suction mounting plate and two vacuum suction nozzles, and the back surface of the suction mounting plate is fixed at the output end of the material taking longitudinal double-rod air cylinder, the two vacuum suction nozzles are arranged on the front surface of the suction mounting plate in parallel, and the vacuum suction nozzles control suction action and loosening action through a vacuum generator.

4. The touch screen attaching process according to claim 2, wherein in the correcting and pressing process, the correcting and pressing mechanism is provided with a lower frame, an upper pressing platform, a left clamping assembly, a right clamping assembly, a downward pushing assembly and a guiding assembly, the lower frame is stretched over the longitudinal conveying mechanism, the guiding assembly vertically penetrates through the top of the lower frame and is fixedly connected with the back of the upper pressing platform downwards, the upper pressing platform is controlled by the downward pushing assembly, the left clamping assembly and the right clamping assembly are driven to move up and down along the guiding assembly, the guiding assembly is composed of a guiding fixing plate and four guiding shafts, and the guiding shaft is fixed on the upper pressing platform downwards through the four guiding shafts.

5. The touch screen laminating process according to claim 4, wherein in the longitudinal conveying process, the longitudinal conveying mechanism is provided with a longitudinal conveying driving assembly, a conveying fixing seat, a conveying ball screw assembly, a left linear slide rail assembly, a right linear slide rail assembly and a platform sliding plate, the conveying fixing seat is longitudinally fixed on the bottom plate, the longitudinal conveying driving assembly controls the conveying ball screw assembly to finally enable the platform sliding plate to be longitudinally conveyed, and the left linear slide rail assembly and the right linear slide rail assembly enable the platform sliding plate to slide.

6. The touch screen laminating process of claim 5, wherein in the hot compress process, the hot compress mechanism is provided with an air blowing plate, an air blowing pushing cylinder and an air blowing cylinder plate, the air blowing pushing cylinder is vertically arranged on the left side of the upper part of the platform sliding plate, the air blowing cylinder plate is arranged on the top of the air blowing pushing cylinder, guide columns are arranged on the left side and the right side of the air blowing cylinder plate, so that the two guide columns are upwards fixed on the bottom of the air blowing plate, the air blowing plate is controlled to move through the air blowing pushing cylinder, an air inlet on the air blowing plate is connected with an external air compressor, and electric heating wires are wound on inlet and outlet pipelines of the air compressor.

7. The touch screen attaching process according to claim 5, wherein in the floating process, the floating mechanism is provided with a lifting pushing cylinder, a lower platform, a lower hinge support, an upper hinge support and a roller assembly, the lifting pushing cylinder controls the lower platform to be in a horizontal position or an inclined position along the lower hinge support and the upper hinge support, the lower platform is used for completing a jacking action when in the horizontal position, and the lower platform is used for completing a floating action through the roller assembly when in the inclined position.

8. The touch screen laminating process according to claim 1, wherein in the feeding process, the feeding mechanism is provided with a feeding driving assembly, a feeding ball screw assembly, a feeding base, a feeding mounting plate and a feeding plate, the feeding driving assembly drives the feeding ball screw assembly to move the feeding base up and down, the feeding plate moves up and down through the feeding ball screw assembly to finally achieve a feeding action, and guide shafts are respectively arranged on the periphery of the feeding base to assist in pushing the material plates to move.

9. The touch screen attaching process according to claim 8, wherein in the feeding auxiliary process, the feeding auxiliary assembly comprises a tray base and five positioning columns vertically fixed on the tray base, the five positioning columns are distributed on the tray base in a V-shaped manner, and the five positioning columns are used for the feeding plate to move in a space surrounded by the feeding plate.

10. The touch screen laminating process according to claim 2, wherein in the coating conveying process, the coating discharging assembly is a discharging shaft, the coating winding assembly is a receiving shaft, the receiving driving assembly is a receiving stepping motor, an output end of the receiving stepping motor is connected with the receiving shaft through a synchronous belt, the coating laminating assembly is provided with a laminating driving cylinder and a laminating roller assembly, the laminating driving cylinder is used for fixing the laminating roller assembly, the laminating roller assembly is composed of a laminating roller mounting seat and a laminating roller, and laminating of the coating on the touch screen is completed through the laminating roller assembly.

Images