CN220825632U - Full-automatic curved surface screen equipment in a poor light - Google Patents

Abstract

The utility model discloses full-automatic curved surface screen backlight assembly equipment, wherein a conveying line on the equipment is used for conveying a panel; the feeding manipulator is arranged between the conveying line and the panel carrying platform and is used for transferring the panel between the conveying line and the panel carrying platform; the top surface of the panel carrying platform is used for carrying a panel, and the panel carrying platform linear driving mechanism is connected with and drives the panel carrying platform to horizontally slide; the backlight feeding assembly is provided with a backlight transplanting carrier, the top surface of the backlight transplanting carrier is used for bearing backlight and is driven by a backlight transplanting carrier driving mechanism in a connecting way so as to slide in and slide out of the lower part of the pressure maintaining carrier; the bottom surface of the holding platform is used for absorbing backlight and is positioned above the sliding path of the panel platform, and the pressure maintaining platform lifting driving mechanism is connected with and drives the holding platform to lift so as to press the panel platform after descending, and the backlight and the panel are buckled. The utility model realizes high-efficiency and high-quality assembly of backlight and panel.

Description

Full-automatic curved surface screen equipment in a poor light

Technical Field

The utility model relates to the technical field of screen assembly equipment, in particular to full-automatic curved screen backlight assembly equipment.

Background

The backlight and panel assembly process of the current display screen mostly need to be completed manually, the assembly efficiency is low, the assembly quality is unstable, the current lean production requirement is difficult to adapt to, and if equipment can be designed to realize the efficient and high-quality assembly of backlight and panel, the problem can be effectively solved.

Disclosure of utility model

The utility model aims to provide full-automatic curved screen backlight assembly equipment, which overcomes the defects and realizes the efficient and high-quality assembly of backlight and a panel.

To achieve the above object, the solution of the present utility model is: a full-automatic curved screen backlight assembly device comprises a conveying line, a feeding manipulator, a panel carrying platform linear driving mechanism, a pressure maintaining carrying platform lifting driving mechanism and a backlight feeding assembly;

the conveying line is used for conveying the panel;

the feeding manipulator is arranged between the conveying line and the panel carrying platform and is used for transferring the panel between the conveying line and the panel carrying platform;

The top surface of the panel carrying platform is used for carrying a panel, and the panel carrying platform linear driving mechanism is connected with and drives the panel carrying platform to horizontally slide;

The backlight feeding assembly is provided with a backlight transplanting carrier, the top surface of the backlight transplanting carrier is used for bearing backlight and is driven by a backlight transplanting carrier driving mechanism in a connecting way so as to slide in and slide out of the lower part of the pressure maintaining carrier;

The bottom surface of the holding platform is used for absorbing backlight and is positioned above the sliding path of the panel platform, and the pressure maintaining platform lifting driving mechanism is connected with and drives the holding platform to lift so as to press the panel platform after descending, and the backlight and the panel are buckled.

Further, above the sliding path of the panel carrying platform, a film tearing assembly and a panel cleaning ion air knife are further sequentially arranged from the feeding manipulator to the pressure maintaining carrying platform, the film tearing assembly is used for tearing off a protective film on the back of the panel, and the panel cleaning ion air knife is used for blowing and cleaning towards the back of the panel.

Further, still be provided with XXY alignment platform between panel carrier straight line actuating mechanism and the panel carrier, XXY alignment platform drive the panel carrier carries out back and forth horizontal displacement and horizontal rotation alignment, panel carrier's slip path top still is provided with the panel location camera for gather the position appearance of panel on the panel carrier downwards, pressurize carrier below still is provided with the location camera that is shaded, is used for upwards gathering the position appearance of being shaded on the ballast.

Further, the backlight feeding assembly further comprises a backlight feeding carrying platform, a backlight cleaning transfer carrying platform, a first backlight transferring manipulator, a backlight cleaning air knife and a second backlight transferring manipulator;

The top surfaces of the backlight feeding carrier and the backlight cleaning transfer carrier are used for bearing backlight;

The first backlight transferring manipulator is used for grabbing and placing the backlight on the backlight feeding carrier onto the backlight cleaning transfer carrier;

The backlight cleaning air knife is arranged between the backlight feeding carrier and the backlight cleaning transfer carrier and is used for blowing and cleaning the backlight grabbed by the first backlight transfer manipulator;

the second backlight transferring manipulator is used for placing the backlight claw on the backlight cleaning transferring platform on the backlight transferring platform.

Further, the top surfaces of the backlight transplanting carrying platform, the backlight feeding carrying platform and the backlight cleaning transfer carrying platform are all in a shape which is attached to the front surface of the backlight; the top surface of the panel carrying platform is shaped to be attached to the front surface of the panel.

Further, a first vacuum air hole for adsorbing the panel is formed in the top surface of the panel carrying platform, and a second vacuum air hole for adsorbing backlight is formed in the bottom surface of the pressure maintaining carrying platform.

Further, the device further comprises a panel pretreatment carrying platform and a panel pretreatment carrying platform linear driving mechanism, wherein the feeding manipulator is used for grabbing and placing the panel on the conveying line onto the panel pretreatment carrying platform, grabbing and placing the screen on the panel pretreatment carrying platform onto the panel carrying platform, and the panel pretreatment carrying platform linear driving mechanism is connected with and drives the panel pretreatment carrying platform to slide horizontally and linearly.

After the scheme is adopted, the beneficial effects of the utility model are as follows: placing the backlight on a backlight transplanting carrier, wherein the backlight transplanting carrier can bear the backlight to move below a pressure maintaining carrier, the bottom surface of the pressure maintaining carrier is used for absorbing the backlight, and after the pressure maintaining carrier lifting driving mechanism drives the pressure maintaining carrier to descend, the pressure maintaining carrier can suck the backlight on the backlight transplanting carrier; the panel on the transfer line can be grabbed and put on the panel carrier by the material loading manipulator, the panel carrier can slide to the pressurize carrier below, then after the guarantee carrier lifting driving mechanism drives the guarantee carrier to descend, the backlight and the panel are buckled, the assembly of backlight and the panel is efficiently and high-quality completed, then the panel carrier can bear the assembled panel and backlight and slide into the grabbing range of the material loading manipulator again, and the material loading manipulator returns the assembled panel and backlight to the transfer line to continue downstream transfer.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a partial cross-sectional view of the present utility model;

fig. 3 is a schematic perspective view of a loading manipulator;

FIG. 4 is a schematic perspective view of a front panel processing stage;

FIG. 5 is a schematic perspective view of a panel stage;

FIG. 6 is a schematic perspective view of a tear film assembly;

FIG. 7 is a schematic perspective view of a panel cleaning ion air knife and a panel positioning camera;

FIG. 8 is a schematic perspective view of a pressure maintaining stage;

FIG. 9 is a perspective view of the bottom surface of the pressure maintaining stage;

FIG. 10 is a schematic diagram of a three-dimensional structure of a backlight positioning camera;

FIG. 11 is a schematic perspective view of a backlight loading stage;

fig. 12 is a schematic perspective view of a first backlight transferring manipulator;

FIG. 13 is a schematic perspective view of a transfer table for cleaning backlight;

FIG. 14 is a schematic perspective view of a backlight cleaning air knife;

fig. 15 is a schematic perspective view of a backlight transplanting stage.

Description of the reference numerals: the device comprises a 1-conveying line, a 2-feeding manipulator, a 3-panel carrying platform, a 4-panel carrying platform linear driving mechanism, a 5-pressure maintaining carrying platform, a 6-pressure maintaining carrying platform lifting driving mechanism, an 8-backlight transplanting carrying platform, a 9-backlight transplanting carrying platform driving mechanism, a 10-dyestripping component, an 11-panel cleaning ion air knife, a 12-XXY alignment platform, a 13-panel positioning camera, a 14-backlight positioning camera, a 15-backlight feeding carrying platform, a 16-backlight cleaning transfer carrying platform, a 17-first backlight transferring manipulator, a 18-backlight cleaning air knife, a 19-second backlight transferring manipulator, a 20-first vacuum air hole, a 21-second vacuum air hole, a 22-panel pretreatment carrying platform, a 23-panel pretreatment carrying platform linear driving mechanism, a 24-frame, a 25-portal frame, a 26-panel positioning camera linear driving mechanism, a 27-backlight positioning camera linear driving mechanism, 28-dyestripping clamping jaws, a 29-dyestripping clamping jaw displacement driving mechanism and a 30-backlight cleaning air knife linear driving mechanism.

Detailed Description

The utility model will be described in detail with reference to the accompanying drawings and specific embodiments.

In the claims, specification and drawings hereof, unless explicitly defined otherwise, references to orientation terms such as "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise", etc., are used merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation or be constructed and operated in a particular orientation, nor should they be construed as limiting the scope of the invention in particular.

The utility model provides full-automatic curved surface screen backlight assembly equipment, as shown in figures 1-15, wherein the equipment is mainly combined with figures 1 and 2 and comprises a conveying line 1, a feeding manipulator 2, a panel carrying platform 3, a panel carrying platform linear driving mechanism 4, a pressure maintaining carrying platform 5, a pressure maintaining carrying platform lifting driving mechanism 6 and a backlight feeding assembly; in this embodiment, the feeding manipulator 2, the panel carrier 3, the panel carrier linear driving mechanism 4, the pressure maintaining carrier 5, the pressure maintaining carrier lifting driving mechanism 6 and the backlight feeding assembly are all disposed on a frame 24;

The conveying line 1 is used for conveying the panel of the display, and the conveying line 1 can be any existing conveying belt or double-speed chain suitable for conveying the panel, so long as the panel can be horizontally conveyed on the conveying belt; the frame 24 is located beside the conveyor line;

The feeding manipulator 2 is disposed at the edge of the frame 24 near one side of the conveying line 1, and is located between the conveying line 1 and the panel carrying platform 3, and is used for transferring the panel between the conveying line 1 and the panel carrying platform 3, which can be any existing industrial manipulator for transferring the panel, and the structure is not particularly limited, and particularly in the embodiment, the feeding manipulator can suck the panel by vacuum adsorbing the back of the panel, and carry the panel to lift and horizontally move along two axes after sucking, so that the specific structure is not expanded for the conventional design in the field;

the top surface of the panel carrier 3 is formed into a shape attached to the front surface of the panel, and is used for carrying the panel, the top surface of the panel carrier 3 is also provided with a first vacuum air hole 20 for adsorbing the panel so as to fix the panel, the panel carrier linear driving mechanism 4 can be any conventional linear driving mechanism such as a linear motor, and the panel carrier linear driving mechanism 4 is connected between the panel carrier 3 and the frame 24 and is used for driving the panel carrier 3 to horizontally slide, and in this embodiment, the sliding direction is perpendicular to the conveying line;

With particular reference to fig. 1 and 15, the backlight feeding assembly has a backlight transplanting stage 8 and a backlight transplanting stage driving mechanism 9, the top surface of the backlight transplanting stage 8 is formed into a shape that is fit with the front surface of the backlight, and is used for carrying the backlight, the backlight transplanting stage driving mechanism 9 is connected between the backlight transplanting stage 8 and the frame 24, and is used for driving the panel stage 3 to slide horizontally so as to slide in and slide out from the lower part of the pressure maintaining stage 5, specifically in this embodiment, the sliding route of the backlight transplanting stage 8 and the sliding route of the panel stage 3 are located on the same straight line, and are respectively located at two sides of the pressure maintaining stage 5, so that the backlight transplanting stage 8 and the panel stage 3 can slide below the pressure maintaining stage 5 respectively.

As shown in fig. 8 and 9, the bottom surface of the pressure maintaining carrier 5 is used for absorbing backlight, the bottom surface of the pressure maintaining carrier 5 is provided with a second vacuum air hole 21 for absorbing backlight, a gantry 25 is fixedly arranged on the frame 24, the pressure maintaining carrier lifting driving mechanism 6 is installed on the gantry 25, the pressure maintaining carrier lifting driving mechanism 6 is connected with and drives the pressure maintaining carrier 5 to lift, when the backlight transplanting carrier 8 slides below the pressure maintaining carrier 5, the pressure maintaining carrier lifting driving mechanism 6 drives the pressure maintaining carrier 5 to descend, then the backlight on the backlight transplanting carrier 8 can be absorbed through the second vacuum air hole 21, and subsequently when the panel carrier 3 slides below the pressure maintaining carrier 5, the pressure maintaining carrier lifting driving mechanism 6 drives the pressure maintaining carrier 5 to descend, and then the backlight absorbed by the bottom surface of the pressure maintaining carrier 5 can be buckled on the panel above the panel carrier 3, so that the buckling assembly of the backlight and the panel can be efficiently and automatically completed.

As shown in fig. 1 and fig. 7, in order to improve the assembly precision, in a preferred embodiment, a panel positioning camera 13 is further disposed above the sliding path of the panel carrier 3, and is used for downward collecting the pose of the panel on the panel carrier 3, specifically in this embodiment, a panel positioning camera linear driving mechanism 26 is further disposed, the panel positioning camera 13 is a line scanning camera, the panel positioning camera 13 is mounted on the frame 24 through the panel positioning camera linear driving mechanism 26, and the panel positioning camera linear driving mechanism 26 drives the panel positioning camera 13 to slide reciprocally along the length direction of the panel on the panel carrier 3; as shown in fig. 2 and 10, a backlight positioning camera 14 is further disposed below the pressure maintaining stage 5 and is used for collecting the pose of the backlight on the pressure maintaining stage 5 upwards, in this embodiment, a backlight positioning camera linear driving mechanism 27 is further disposed, the backlight positioning camera 14 is a line scanning camera, the backlight positioning camera 14 is mounted on the frame 24 through the backlight positioning camera linear driving mechanism 27, and the backlight positioning camera 14 is driven by the backlight positioning camera linear driving mechanism 27 to slide reciprocally along the length direction of the backlight on the pressure maintaining stage 5; as shown in fig. 5, an XXY alignment platform 12 is further disposed between the panel carrier straight driving mechanism 4 and the panel carrier 3, where the XXY platform 12 is in the prior art, and the specific structure of the XXY alignment platform 12 is not described in detail in this embodiment, and the XXY alignment platform 12 drives the panel carrier 3 to perform front-back, left-right displacement and horizontal rotation alignment, so as to drive the panel carrier 3 to carry a panel to perform position adjustment according to the position acquisition results of the panel positioning camera 13 and the backlight positioning camera 14, so as to implement high-precision fastening between the backlight and the panel.

As shown in fig. 1, fig. 6 and fig. 7, in order to automatically process the panel flowing down on the conveying line 1 into a state more suitable for assembly, in a preferred embodiment, above the sliding path of the panel carrying platform 3, a film tearing assembly 10 and a panel cleaning ion air knife 11 are further sequentially arranged from the feeding manipulator 2 to the pressure maintaining carrying platform 5, wherein the film tearing assembly 10 is provided with a film tearing clamping jaw 28 and a film tearing jaw displacement driving mechanism 29, the film tearing jaw displacement driving mechanism 29 drives the film tearing jaw 28 to lift and translate along the length direction of the panel on the panel carrying platform 3, and the film tearing jaw 28 is used for clamping a protective film on the back of the panel so as to tear the protective film on the back of the panel; the panel cleaning ion air knife 11 may be any existing ion air knife (also called an ion air gun in the field), and the panel cleaning ion air knife 11 is used for blowing air toward the back of the panel for cleaning, specifically in this embodiment, the panel cleaning ion air knife 11 is also mounted on the panel positioning camera linear driving mechanism 26, and further can slide back and forth along the length direction of the panel on the panel carrier 3, so as to ensure the cleaning effect on the panel everywhere.

As shown in fig. 1 and fig. 10-15, to clean the front of the backlight before assembly and facilitate the backlight to be fed, the backlight feeding assembly further includes a backlight feeding carrier 15, a backlight cleaning transfer carrier 16, a first backlight transferring manipulator 17, a backlight cleaning air knife 18 and a second backlight transferring manipulator 19; the backlight feeding carrier 15 and the backlight cleaning transfer carrier 16 are fixedly arranged on the frame 24, and the top surfaces of the backlight feeding carrier 15 and the backlight cleaning transfer carrier 16 are respectively formed into a shape which is fit with the front surface of the backlight so as to be used for bearing the backlight; the first backlight transferring manipulator 17 may be any existing industrial manipulator capable of gripping and transferring backlight, specifically in this embodiment, the first backlight transferring manipulator 17 is capable of sucking the backlight by vacuum adsorption, lifting the backlight and linearly displacing the backlight between the backlight loading platform 15 and the backlight cleaning transfer platform 16, and is used for gripping and placing the backlight on the backlight loading platform 15 onto the backlight cleaning transfer platform 16; the backlight cleaning air knife 18 is arranged between the backlight feeding carrier 15 and the backlight cleaning transfer carrier 16 and is used for blowing air upwards to clean the backlight blown by the first backlight transfer manipulator 17, and in the embodiment, a backlight cleaning air knife linear driving mechanism 30 is further arranged, the backlight cleaning air knife 18 is arranged on the frame 24 through the backlight cleaning air knife linear driving mechanism 30, and the backlight cleaning air knife linear driving mechanism 30 drives the backlight cleaning air knife 18 to slide back and forth along the length direction of the backlight on the first backlight transfer manipulator 17; the second backlight transferring manipulator 19 is used for placing the backlight claw on the backlight cleaning transferring stage 16 on the backlight transferring stage 8, and the second backlight transferring manipulator 19 may be any existing industrial manipulator capable of gripping and transferring the backlight, specifically in this embodiment, the second backlight transferring manipulator can absorb the backlight through vacuum absorption, and then bear the backlight lifting and the linear displacement above the sliding path of the backlight cleaning transferring stage 16 and the backlight transferring stage 8.

As shown in fig. 1 and fig. 4, the panel edges are all connected with flexible FPCs, so as to avoid the FPC from affecting the buckling assembly between the panel and the backlight, the full-automatic curved screen backlight assembly device further comprises a panel pretreatment carrier 22 and a panel pretreatment carrier linear driving mechanism 23, the feeding manipulator 2 is used for grabbing and placing the panel on the conveying line 1 onto the panel pretreatment carrier 22, then grabbing and placing the screen on the panel pretreatment carrier 22 onto the panel carrier 3, the panel pretreatment carrier linear driving mechanism 23 is connected with and drives the panel pretreatment carrier 22 to slide horizontally and linearly, and the panel pretreatment carrier 22 can be displaced to the edge of the frame 24 after sliding linearly, so that an operator can sort the panel on the panel pretreatment carrier 22.

The above embodiments are only preferred embodiments of the present utility model, and are not limited to the present utility model, and all equivalent changes made according to the design key of the present utility model fall within the protection scope of the present utility model.

Claims (7)

1. A full-automatic curved surface screen equipment in a poor light, its characterized in that: the device comprises a conveying line (1), a feeding manipulator (2), a panel carrying platform (3), a panel carrying platform linear driving mechanism (4), a pressure maintaining carrying platform (5), a pressure maintaining carrying platform lifting driving mechanism (6) and a backlight feeding assembly;

the conveying line (1) is used for conveying the panels;

the feeding manipulator (2) is arranged between the conveying line (1) and the panel carrying platform (3) and is used for transferring the panel between the conveying line (1) and the panel carrying platform (3);

The top surface of the panel carrying platform (3) is used for carrying a panel, and the panel carrying platform linear driving mechanism (4) is connected with and drives the panel carrying platform (3) to horizontally slide;

The backlight feeding assembly is provided with a backlight transplanting carrying platform (8), the top surface of the backlight transplanting carrying platform (8) is used for carrying backlight and is driven by a backlight transplanting carrying platform driving mechanism (9) in a connecting way so as to slide in and slide out of the lower part of the pressure maintaining carrying platform (5);

The bottom surface of the holding platform (5) is used for absorbing backlight, is positioned above the sliding path of the panel carrying platform (3), and the pressure-maintaining carrying platform lifting driving mechanism (6) is connected with and drives the holding platform (5) to lift so as to be capable of pressing the panel carrying platform (3) after descending, and is buckled with the panel.

2. The fully automatic curved screen backlight assembly device of claim 1, wherein: the automatic cleaning device is characterized in that a film tearing assembly (10) and a panel cleaning ion air knife (11) are further sequentially arranged above the sliding path of the panel carrying table (3) from the feeding manipulator (2) to the pressure maintaining carrying table (5), the film tearing assembly (10) is used for tearing off a protective film on the back of the panel, and the panel cleaning ion air knife (11) is used for blowing and cleaning towards the back of the panel.

3. The fully automatic curved screen backlight assembly device of claim 2, wherein: still be provided with XXY alignment platform (12) between panel carrier straight line actuating mechanism (4) and panel carrier (3), XXY alignment platform (12) drive panel carrier (3) carry out back and forth left and right displacement and horizontal rotation alignment, the slip path top of panel carrier (3) still is provided with panel location camera (13) for gather the position appearance of panel on panel carrier (3) downwards, pressurize carrier (5) below still is provided with backlight location camera (14) for upwards gather the position appearance on the assurance carrier (5) in a poor light.

4. The fully automatic curved screen backlight assembly device of claim 1, wherein: the backlight feeding assembly further comprises a backlight feeding carrying table (15), a backlight cleaning transfer carrying table (16), a first backlight transferring manipulator (17), a backlight cleaning air knife (18) and a second backlight transferring manipulator (19);

the top surfaces of the backlight feeding carrier (15) and the backlight cleaning transfer carrier (16) are used for bearing backlight;

The first backlight transferring manipulator (17) is used for grabbing and placing the backlight on the backlight feeding carrying platform (15) onto the backlight cleaning transferring platform (16);

The backlight cleaning air knife (18) is arranged between the backlight feeding carrier (15) and the backlight cleaning transfer carrier (16) and is used for cleaning backlight blowing grabbed by the first backlight transfer manipulator (17);

The second backlight transferring manipulator (19) is used for placing the backlight claw on the backlight cleaning transferring platform (16) on the backlight transferring platform (8).

5. The fully automatic curved screen backlight assembly device of claim 4, wherein: the top surfaces of the backlight transplanting carrying platform (8), the backlight feeding carrying platform (15) and the backlight cleaning transfer carrying platform (16) are all formed into shapes which are attached to the front surface of the backlight; the top surface of the panel carrying platform (3) is shaped to be attached to the front surface of the panel.

6. The fully automatic curved screen backlight assembly device of claim 1, wherein: the top surface of the panel carrying platform (3) is provided with a first vacuum air hole (20) for adsorbing the panel, and the bottom surface of the pressure maintaining carrying platform (5) is provided with a second vacuum air hole (21) for adsorbing backlight.

7. The fully automatic curved screen backlight assembly device of claim 1, wherein: the device further comprises a panel pretreatment carrying platform (22) and a panel pretreatment carrying platform linear driving mechanism (23), wherein the feeding manipulator (2) is used for grabbing and placing the panel on the conveying line (1) on the panel pretreatment carrying platform (22), grabbing and placing the screen on the panel pretreatment carrying platform (22) on the panel carrying platform (3), and the panel pretreatment carrying platform linear driving mechanism (23) is connected with and drives the panel pretreatment carrying platform (22) to slide horizontally and linearly.