CN210803901U - Laminating device of laminating is shielded to many - Google Patents

Abstract

The utility model discloses a laminating device for multi-screen laminating, which comprises an upper cavity component, an upper supporting plate and an upper vacuum plate; the first screen photographing assembly is used for photographing and positioning the screen adsorbed by the upper vacuum plate at the first installation position; the lower cavity assembly is arranged below the first mounting position of the upper vacuum plate; at least two sets of calibration platform assemblies disposed within the lower cavity assembly, the calibration platform assemblies having a lower vacuum plate; at least two groups of lifting components, wherein each group of lifting components is respectively connected with one group of correction platform components; and the second screen photographing component is used for photographing and positioning the screen adsorbed by the lower vacuum plate at the second adsorption position. The utility model discloses in, through the cooperation of vacuum plate under an upper vacuum plate and two at least, can realize that two at least LCD screens are attached simultaneously on a touch-sensitive screen, the utility model discloses a laminating of shielding more, simple structure.

Description

Laminating device of laminating is shielded to many

Technical Field

The utility model relates to a screen laminating equipment technical field especially indicates a laminating device of laminating of shielding more.

Background

When the touch screen is produced, the touch screen module and the liquid crystal screen module need to be completely attached.

In the traditional full-lamination process, a single touch screen and a single liquid crystal display are fully laminated, and along with diversification and intellectualization of display information, the single screen display can not meet the requirements of people for better life experience. In order to realize multi-screen display, a plurality of touch screens are combined for use in the traditional method, but the defects of space occupation, unattractive combination and the like exist in the vehicle-mounted industry and the handicraft industry.

In order to overcome these problems, a full-lamination device is required, in which a single touch screen can be laminated corresponding to a plurality of liquid crystal screens.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a laminating device of laminating more than shielding can realize the laminating more than shielding.

Based on the above object the utility model provides a pair of laminating device of laminating is shielded to more, include

The vacuum device comprises an upper cavity assembly, a lower cavity assembly and a vacuum cavity assembly, wherein the upper cavity assembly is provided with an upper supporting plate and an upper vacuum plate fixedly installed on the upper supporting plate, and the upper vacuum plate is at least provided with a first adsorption position and a first installation position;

the first screen photographing assembly is used for photographing and positioning the screen adsorbed by the upper vacuum plate at the first installation position;

the lower cavity assembly is arranged below the first mounting position of the upper vacuum plate;

the lower cavity assembly is provided with a lower vacuum plate, the lower vacuum plate is at least provided with a second adsorption position and a second installation position, and the second installation position is matched with the first installation position;

at least two groups of lifting components, wherein each group of lifting components is respectively connected with one group of correction platform components;

and the second screen photographing component is used for photographing and positioning the screen adsorbed by the lower vacuum plate at the second adsorption position.

As an alternative embodiment, the upper chamber body assembly further comprises

The moving module is provided with a moving sliding block, and the upper vacuum plate is rotationally connected with the moving sliding block;

the overturning motor is arranged on the movable sliding block, and the output end of the overturning motor is connected to the upper vacuum plate;

the positioning cylinder is arranged on the movable sliding block;

a positioning bushing mounted to the upper vacuum plate;

a vacuum partition module connected to the upper vacuum plate.

As an optional implementation mode, the correcting platform assembly further comprises

The bottom plate is fixedly connected with the lower cavity assembly;

the UVW correction platform is installed on the bottom plate and is matched with the second adsorption position of the lower vacuum plate;

a first lifting rail fixedly arranged relative to the base plate;

the lifting slide block is connected with the first lifting guide rail in a sliding mode and fixedly connected with the lower vacuum plate;

the jacking screw is fixedly arranged on the lower vacuum plate;

and the buffer rubber is coated on the surface of the lower vacuum plate.

As an alternative embodiment, the lifting assembly comprises

The bracket is fixedly arranged at the bottom of the lower cavity component;

the lifting motor is fixedly arranged on the bracket;

the lifting screw pair is connected to the output end of the lifting motor;

the second lifting guide rail is fixedly arranged on the bracket;

the movable jacking plate is connected to the lifting screw pair and is in sliding connection with the bracket through the second lifting guide rail;

the lifting connecting rod is arranged on the movable jacking plate;

and the lifting jacking rod is fixedly arranged on the lifting connecting rod and is matched with the jacking screw.

As an optional implementation manner, the lifting assembly further includes a pressure maintaining cylinder, the pressure maintaining cylinder is installed on the support, and an output end of the pressure maintaining cylinder is connected to the movable jacking plate.

The utility model has the advantages that:

the utility model discloses in, through the cooperation of an upper vacuum plate and two at least lower vacuum plates, can realize that two at least LCD screens are attached simultaneously on a touch-sensitive screen, through the setting of first screen subassembly and second screen subassembly, can shoot the location to adsorbing the screen on upper vacuum plate and lower vacuum plate respectively to make two sets of screens accurate counterpoint, through lifting unit's setting, the drive is lower the vacuum plate and is risen, so that the screen of fixing respectively between upper vacuum plate and the lower vacuum plate can laminate, the utility model discloses a laminating of shielding more, simple structure.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a schematic perspective view of an upper chamber assembly according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a calibration platform assembly according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a lifting assembly according to an embodiment of the present invention.

In the figure, 100-a first screen shooting component, 200-an upper cavity component, 201-a positioning bush, 202-a moving module, 203-a positioning cylinder, 204-an upper supporting plate, 205-a vacuum partition module, 206-an upper vacuum plate, 207-a turnover motor, 300-a correction platform component, 301-a flatness adjusting screw, 302-a bottom plate, 303-a UVW correction platform, 304-a first lifting guide rail, 305-a lower vacuum plate, 306-a buffer rubber sheet, 307-a jacking screw, 400-a lifting component, 401-a lifting motor, 402-a second lifting guide rail, 403-a movable lifting plate, 404-a lifting connecting rod, 405-a lifting rod, 406-a pressure maintaining cylinder, 407-a support, 408-a lifting screw pair and 500-a lower cavity component, 600-second screen photographing component.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings.

As a specific embodiment of the present invention, as shown in FIGS. 1-4, there is provided a multi-screen laminating apparatus, comprising

An upper chamber assembly 200, the upper chamber assembly 200 having an upper support plate 204 and an upper vacuum plate 206 fixedly mounted on the upper support plate 204, the upper vacuum plate 206 having at least a first adsorption location and a first mounting location;

the first screen photographing assembly 100 is used for photographing and positioning the screen adsorbed by the upper vacuum plate 206 at the first installation position;

a lower chamber body assembly 500 disposed below the first mounting location of the upper vacuum plate 206;

at least two sets of calibration platform assemblies 300 disposed in the lower cavity assembly 500, wherein the calibration platform assemblies 300 have a lower vacuum plate 305, the lower vacuum plate 305 has at least a second adsorption position and a second installation position, and the second installation position is adapted to the first installation position;

at least two sets of lifting assemblies 400, wherein each set of lifting assemblies 400 is connected with one set of correction platform assembly 300;

and the second screen photographing component 600 is used for photographing and positioning the screen adsorbed by the lower vacuum plate 305 in the second adsorption position.

When the device works, the upper vacuum plate 206 is firstly positioned at a first adsorption position, the touch screen is placed on the upper vacuum plate 206, vacuum adsorption is carried out for fixation, then the upper vacuum plate 206 is moved from the first adsorption position to a photographing position (the photographing position can be set as required and can be a new position or can be superposed with a first installation position or the first adsorption position), the first screen photographing component 100 carries out photographing and positioning on the touch screen adsorbed on the upper vacuum plate 206, in addition, a liquid crystal screen is respectively placed on each lower vacuum plate 305, vacuum adsorption is carried out for fixation, the second screen photographing component 600 carries out photographing and positioning on the liquid crystal screen adsorbed on the lower vacuum plate 305, accurate alignment between the touch screen and the liquid crystal screen is realized through the first screen photographing component 100 and the second screen photographing component 600, after alignment is finished, the lower cavity component 500 is lifted, the upper cavity component 200 and the lower cavity component 500 are closed for vacuum pumping, after the vacuum value reaches the set value, the lifting assembly 400 starts to rise, and the touch screen is attached to the liquid crystal screen. After the laminating is completed, the platform lifting assembly 400 descends, the lower cavity assembly 500 descends after the cavity is broken, the upper cavity assembly 200 moves to the initial position, the product is taken out, and the laminating of the touch screen is completed.

The utility model discloses in, through the cooperation of vacuum plate 305 under an last vacuum plate 206 and at least two, can realize that two at least LCD screens are attached simultaneously on a touch-sensitive screen, through the setting of first screen subassembly and second screen subassembly, can shoot the location to adsorbing the screen on last vacuum plate 206 and lower vacuum plate 305 respectively to make two sets of accurate counterpoint of screen, through the setting of lifting unit 400, vacuum plate 305 rises under the drive, so that the screen of fixing respectively between last vacuum plate 206 and lower vacuum plate 305 can laminate, the utility model discloses a laminating of shielding more, simple structure.

The lifting assemblies 400 correspond to the calibration platform assemblies 300 one to one.

As an alternative embodiment, as shown in fig. 2, the upper chamber body assembly 200 further comprises

A moving module 202, wherein the moving module 202 has a moving slider, and the upper vacuum plate 206 is rotatably connected with the moving slider;

the overturning motor 207 is installed on the moving slide block, and the output end of the overturning motor 207 is connected to the upper vacuum plate 206;

a positioning cylinder 203 mounted on the movable slider;

a positioning bushing 201 mounted to the upper vacuum plate 206;

a vacuum partition module 205 connected to the upper vacuum plate 206.

So, in the implementation of concrete in-process, it is at first in first absorption position to go up vacuum plate 206, place the touch-sensitive screen on last vacuum plate 206, adjust vacuum subregion module 205 according to the size of touch-sensitive screen and make the product adsorb on last vacuum plate 206, it overturns 180 to go up backup pad 204 under the drive of upset motor 207, the upset back location cylinder 203 that targets in place stretches out, location cylinder 203 front end bolt stretches into in the location bush 201, realize the accurate positioning of backup pad 204, guarantee that it does not appear rocking at the laminating in-process, first screen subassembly 100 of shooing shoots the location back to the touch-sensitive screen, removal module 202 drives vacuum plate 206 and removes to first installation position.

As an alternative embodiment, as shown in FIG. 3, the calibration platform assembly 300 further comprises

A bottom plate 302 fixedly connected with the lower cavity assembly 500;

a UVW calibration platform 303 installed on the base plate 302, wherein the UVW calibration platform 303 is adapted to a second suction position of the lower vacuum plate 305;

a first lifting rail 304 fixedly disposed with respect to the base plate 302;

a lifting slider, which is slidably connected to the first lifting rail 304, and is fixedly connected to the lower vacuum plate 305;

a jacking screw 307 fixedly mounted on the lower vacuum plate 305;

and a buffer rubber sheet 306 coated on the surface of the lower vacuum plate 305.

Therefore, in the specific implementation process, the UVW correction platform 303 corrects the position of the liquid crystal screen according to the numerical value obtained by photographing twice, so as to ensure the fitting precision, after the correction is completed, the lifting assembly 400 ascends to contact with the jacking screw 307, the lower vacuum plate 305 is separated from the contact with the UVW correction platform 303 under the driving of the lifting assembly 400, the lower vacuum plate 305 moves to the second installation position from the second adsorption position, the ascending action is completed, the lower vacuum plate 305 is guided by the first lifting guide rail 304 in the lifting process, and the running precision is stable and reliable.

The liquid crystal screen is placed on the buffer rubber sheet 306, and is not directly in hard contact with the platform, so that the product is not broken in the laminating process.

Optionally, the calibration platform assembly 300 further includes a flatness adjusting screw 301, the flatness adjusting screw 301 is connected to the assembly mounting base plate 302, the middle of the flatness adjusting screw 301 is locked and fixed by an outer hexagon nut, and the middle of the flatness adjusting screw 301 is connected to the lower cavity assembly 500 by a hexagon screw. Thus, the flatness of the calibration platform assembly 300 is adjusted by adjusting the gap between the lower cavity assembly 500 and the bottom plate 302 through the tightness of the four outer hexagon nuts and the inner hexagon screws around the bottom plate 302.

As an alternative embodiment, as shown in fig. 4, the lifting assembly 400 includes a bracket 407 fixedly mounted on the bottom of the lower cavity assembly 500;

the lifting motor 401 is fixedly arranged on the bracket 407;

the lifting screw pair 408 is connected to the output end of the lifting motor 401;

a second lifting rail 402 fixedly mounted on the bracket 407;

a movable lifting plate 403 connected to the lifting screw pair 402, wherein the movable lifting plate 403 is slidably connected to the bracket 407 through the second lifting rail 402;

a lifting connecting rod 404 mounted on the movable jacking plate 403;

and the lifting jacking rod 405 is fixedly arranged on the lifting connecting rod 404, and the lifting jacking rod 405 is matched with the jacking screw 307.

In this way, in the implementation process, the lifting motor 401 drives the lifting screw pair 408 to move the movable lifting plate 403 along the direction defined by the second lifting rail 402, and the lifting plate is lifted to a certain height and then contacts with the lifting screw 307, so that the lower vacuum plate 305 is separated from the contact with the UVW calibration platform 303, and the lifting operation is completed. Adjusting the distance that the second lifting guide 402 rises can adjust the parameters of the pre-set gap and the press-in amount between the touch screen and the liquid crystal screen.

The second lifting guide rail 402 adopts a double-slider linkage mechanism, and the guide is performed through the second lifting guide rail 402, so that the operation precision is stable and reliable.

Optionally, the lifting assembly 400 further includes a pressure maintaining cylinder 406, the pressure maintaining cylinder 406 is mounted on the bracket 407, and an output end of the pressure maintaining cylinder 406 is connected to the movable lifting plate 403.

So, can provide the pressurize at two sets of screen attached in-process through the setting of pressurize cylinder 406, the gas pressure that pressurize cylinder 406 used is controlled by electric proportional valve, can set up different pressure sizes according to actual conditions.

The lifting assembly 400 is mainly used for driving the correction platform assembly 300 to lift, adjusting the pre-assembly gap between the touch screen and the liquid crystal display, adjusting the product bonding pressure and maintaining the pressure of the product in the bonding process.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it is understood that "first" and "second" are only used for convenience of expression and should not be understood as limitations to the embodiments of the present invention, and the following embodiments do not describe any more.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also combinations between technical features in the above embodiments or in different embodiments are possible, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity. Therefore, any omission, modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (5)

1. A laminating device for multi-screen laminating is characterized by comprising

The vacuum device comprises an upper cavity assembly, a lower cavity assembly and a vacuum cavity assembly, wherein the upper cavity assembly is provided with an upper supporting plate and an upper vacuum plate fixedly installed on the upper supporting plate, and the upper vacuum plate is at least provided with a first adsorption position and a first installation position;

the first screen photographing assembly is used for photographing and positioning the screen adsorbed by the upper vacuum plate at the first installation position;

the lower cavity assembly is arranged below the first mounting position of the upper vacuum plate;

the lower cavity assembly is provided with a lower vacuum plate, the lower vacuum plate is at least provided with a second adsorption position and a second installation position, and the second installation position is matched with the first installation position;

at least two groups of lifting components, wherein each group of lifting components is respectively connected with one group of correction platform components;

and the second screen photographing component is used for photographing and positioning the screen adsorbed by the lower vacuum plate at the second adsorption position.

2. A multi-panel bonded joint arrangement of claim 1, wherein the upper cavity assembly further comprises

The moving module is provided with a moving sliding block, and the upper vacuum plate is rotationally connected with the moving sliding block;

the overturning motor is arranged on the movable sliding block, and the output end of the overturning motor is connected to the upper vacuum plate;

the positioning cylinder is arranged on the movable sliding block;

a positioning bushing mounted to the upper vacuum plate;

a vacuum partition module connected to the upper vacuum plate.

3. A multi-panel bonded joint arrangement according to claim 1, wherein the calibration platform assembly further comprises

The bottom plate is fixedly connected with the lower cavity assembly;

the UVW correction platform is installed on the bottom plate and is matched with the second adsorption position of the lower vacuum plate;

a first lifting rail fixedly arranged relative to the base plate;

the lifting slide block is connected with the first lifting guide rail in a sliding mode and fixedly connected with the lower vacuum plate;

the jacking screw is fixedly arranged on the lower vacuum plate;

and the buffer rubber is coated on the surface of the lower vacuum plate.

4. A multi-panel bonded joint arrangement according to claim 3, wherein the lift assembly includes

The bracket is fixedly arranged at the bottom of the lower cavity component;

the lifting motor is fixedly arranged on the bracket;

the lifting screw pair is connected to the output end of the lifting motor;

the second lifting guide rail is fixedly arranged on the bracket;

the movable jacking plate is connected to the lifting screw pair and is in sliding connection with the bracket through the second lifting guide rail;

the lifting connecting rod is arranged on the movable jacking plate;

and the lifting jacking rod is fixedly arranged on the lifting connecting rod and is matched with the jacking screw.

5. A multi-screen laminating device according to claim 4, wherein the lifting assembly further comprises a pressure maintaining cylinder mounted on the support, an output of the pressure maintaining cylinder being connected to the movable jacking plate.

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