CN107122559A - Module group assembling flow designing method and device - Google Patents
Module group assembling flow designing method and device Download PDFInfo
- Publication number
- CN107122559A CN107122559A CN201710310069.8A CN201710310069A CN107122559A CN 107122559 A CN107122559 A CN 107122559A CN 201710310069 A CN201710310069 A CN 201710310069A CN 107122559 A CN107122559 A CN 107122559A
- Authority
- CN
- China
- Prior art keywords
- assembled
- display panel
- back light
- parameter
- module
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F30/00—Computer-aided design [CAD]
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2113/00—Details relating to the application field
- G06F2113/20—Packaging, e.g. boxes or containers
Abstract
The invention discloses a kind of module group assembling flow designing method, methods described includes:Display panel to be assembled and back light are obtained, and measures the first parameter, the second parameter and the 3rd parameter of back light to be assembled and the 4th parameter of display panel to be assembled;The qualified display panel to be assembled of measurement and back light are subjected to virtual portfolio according to preset rules, data splitting is obtained;By the display panel to be assembled and back light progress module group assembling of data splitting within a preset range.The invention also discloses a kind of module group assembling flow scheme design device.The present invention can improve module qualification rate, it is ensured that the image quality of the indicating template after combination, improve Consumer's Experience.
Description
Technical field
The present invention relates to module group assembling field, more particularly to a kind of module group assembling flow designing method and device.
Background technology
As terminal market competes more and more fierce, and understanding and demand of the consumer for end product are more and more special
Industry, also more and more higher is required to the picture chromenence of terminal screen.
Wherein, it, by display panel and backlight module assembling, is by backlight module in actual assembled that the screen of terminal, which is,
With display panel random combine into module, and the module of random combine is it is possible that the standard value such as module colourity, brightness, size
Deviation is excessive, and is eliminated, and reduces module qualification rate.And because the colourity of display panel and backlight module in itself has necessarily
Colourity and luminance difference between the colourity and luminance difference of degree so that in same production batch, different screen individual is larger,
The screen for example having is partially yellow, and has screen partially blue so that the quality of product is uneven, influences Consumer's Experience.
The content of the invention
It is a primary object of the present invention to propose a kind of module group assembling flow designing method and device, it is intended to solve random groups
The module qualification rate of conjunction is low, and the quality of product is uneven, influences the technical problem of Consumer's Experience.
To achieve the above object, the present invention provides a kind of module group assembling flow designing method, and methods described includes following step
Suddenly:
Display panel to be assembled and back light are obtained, and measures the first parameter of display panel to be assembled, the second parameter
And the 3rd parameter of back light to be assembled and the 4th parameter;
The qualified display panel to be assembled of measurement and back light are subjected to virtual portfolio according to preset rules, combined
Data;
By the display panel to be assembled and back light progress module group assembling of data splitting within a preset range.
Alternatively, the display panel to be assembled that measurement is qualified and back light carry out virtual group according to preset rules
Close, also include after the step of obtaining data splitting:
Whether within a preset range to judge the data splitting of the display panel to be assembled and back light got;
If the display panel to be assembled and the data splitting of back light that get are within a preset range, described incite somebody to action is performed
The step of data splitting display panel to be assembled within a preset range and back light carry out module group assembling;
If the data splitting of the display panel to be assembled got and back light within a preset range, will not obtained
The display panel to be assembled and back light got are changed;
By the display panel of the data splitting of the display panel to be assembled got and back light not within a preset range
And back light is preserved, and group is re-started when the display panel and back light quantity of preservation reach predetermined number
Close.
Alternatively, the first parameter of the display panel to be assembled is penetrance, and the second parameter is virtual chromaticity coordinates, described
3rd parameter of back light to be assembled is brightness, and the 4th parameter is colourity.
Alternatively, it is described that data splitting display panel to be assembled within a preset range and back light are subjected to module group
The step of dress, includes:
The convergent convergence grade of module brightness convergence, colourity and utilization of materials are set according to module group assembling target, and set
Put the priority of convergence grade and utilization of materials;
Data splitting is ranked up according to the priority of convergence grade and utilization of materials;
Module group assembling is carried out to display panel to be assembled and back light according to the ranking results of data splitting.
Alternatively, it is described to be assembled data splitting display panel to be assembled within a preset range and back light
Also include after step:
Parameter testing is carried out to the module after assembling, and the parameter obtained according to test sets up database;
Reference of the database that foundation is obtained as the preset rules for carrying out virtual portfolio.
In addition, to achieve the above object, the present invention also provides a kind of module group assembling flow scheme design device, described device bag
Include:
Acquisition module, for obtaining display panel to be assembled and back light, and measures the first of display panel to be assembled
Parameter, the second parameter and the 3rd parameter of back light to be assembled and the 4th parameter;
Composite module, it is virtual for the qualified display panel to be assembled of measurement and back light to be carried out according to preset rules
Combination, obtains data splitting;
Module is assembled, for the display panel to be assembled and back light progress module by data splitting within a preset range
Assembling.
Alternatively, described device also includes:
Whether judge module, display panel to be assembled and the data splitting of back light for judging to get are being preset
In the range of;If the display panel to be assembled and the data splitting of back light that get are within a preset range, described incite somebody to action is performed
The step of data splitting display panel to be assembled within a preset range and back light carry out module group assembling;If described get
Display panel to be assembled and back light data splitting not within a preset range, then by the display panel to be assembled got
Changed with back light;
Preserving module, for by the data splitting of the display panel to be assembled got and back light not in preset range
Interior display panel and back light is preserved, and when the display panel and back light quantity of preservation reach predetermined number
Re-start combination.
Alternatively, the first parameter of the display panel to be assembled is penetrance, and the second parameter is virtual chromaticity coordinates, described
3rd parameter of back light to be assembled is brightness, and the 4th parameter is colourity.
Alternatively, the assembling module includes:
Setting unit, for setting the convergent convergence grade of module brightness convergence, colourity and thing according to module group assembling target
Expect utilization rate, and the priority of convergence grade and utilization of materials is set;
Sequencing unit, for being ranked up according to the priority of convergence grade and utilization of materials to data splitting;
Module units, module is carried out for the ranking results according to data splitting to display panel to be assembled and back light
Assembling.
Alternatively, described device also includes:
Test module, for carrying out parameter testing to the module after assembling, and the parameter obtained according to test sets up data
Storehouse;Reference of the database that foundation is obtained as the preset rules for carrying out virtual portfolio.
Module group assembling flow designing method and device proposed by the present invention, by obtaining display panel to be assembled and backlight light
Source, and measure the first parameter, the second parameter and the 3rd parameter of back light to be assembled and the 4th ginseng of display panel to be assembled
Number;Then the qualified display panel to be assembled of measurement and back light are subjected to pseudorandom combination according to preset rules, so that
Obtain data splitting;Data splitting display panel to be assembled within a preset range and back light are subjected to module group afterwards
Dress, is achieved in improving the qualification rate of module, it is to avoid because the colourity of display panel and back light in itself has to a certain degree
Colourity difference, and luminance difference caused by the brightness of itself causes the colourity and luminance difference between different screen individual
It is larger, for example cause the screen having partially yellow, and have the problem of screen is partially blue, improve Consumer's Experience.
Brief description of the drawings
Fig. 1 is the schematic flow sheet of module group assembling flow designing method first embodiment of the present invention;
Fig. 2 is the schematic flow sheet of module group assembling flow designing method second embodiment of the present invention;
Fig. 3 be in module group assembling flow designing method fourth embodiment of the present invention by data splitting treating within a preset range
The refinement schematic flow sheet for the step of assembling display panel and back light progress module group assembling;
Fig. 4 is the schematic flow sheet of the embodiment of module group assembling flow designing method the 5th of the present invention;
Fig. 5 is the high-level schematic functional block diagram of module group assembling flow scheme design device first embodiment of the present invention;
Fig. 6 is the high-level schematic functional block diagram of module group assembling flow scheme design device second embodiment of the present invention;
Fig. 7 is the refinement functional module signal of assembling module in module group assembling flow scheme design device fourth embodiment of the present invention
Figure;
Fig. 8 is the high-level schematic functional block diagram of the embodiment of module group assembling flow scheme design device the 5th of the present invention.
The realization, functional characteristics and advantage of the object of the invention will be described further referring to the drawings in conjunction with the embodiments.
Embodiment
It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.
The main thought of scheme of the embodiment of the present invention is:Display panel to be assembled and back light are obtained first, and are measured
First parameter of display panel to be assembled, the second parameter and the 3rd parameter of back light to be assembled and the 4th parameter;Then will
The qualified display panel to be assembled of measurement and back light carry out pseudorandom combination according to preset rules, so as to obtain number of combinations
According to;The display panel to be assembled and back light progress module group assembling by data splitting within a preset range, are achieved in afterwards
Improve the qualification rate of module, it is to avoid because the colourity of display panel and back light in itself has a certain degree of colourity difference,
And luminance difference caused by the brightness of itself, cause colourity and luminance difference between different screen individual larger, for example, draw
Act the screen having partially yellow, and have the problem of screen is partially blue, improve Consumer's Experience.
The embodiment of the present invention is it is considered that existing module group assembling is to be combined at random, and the shortcoming of the program is:And with
The module of machine combination reduces die combination it is possible that the standard value deviation such as module colourity, brightness, size is excessive, and is eliminated
Lattice rate.And because display panel and back light colourity in itself and brightness have a certain degree of colourity and luminance difference,
So that in same production batch, the colourity and luminance difference between different screen individual are larger, such as the screen having is partially yellow, and has
Screen is partially blue so that the quality of product is uneven, influences Consumer's Experience.
Therefore, the embodiment of the present invention proposes a kind of module group assembling flow designing method, by obtaining display panel to be assembled
And back light, and measure the 3rd parameter of the first parameter, the second parameter and back light to be assembled of display panel to be assembled
With the 4th parameter;Then the qualified display panel to be assembled of measurement and back light are subjected to pseudorandom group according to preset rules
Close, so as to obtain data splitting;Data splitting display panel to be assembled within a preset range and back light are carried out afterwards
Module group assembling, is achieved in improving the qualification rate of module, it is to avoid because the colourity of display panel and back light in itself has one
Determine the colourity difference of degree, and luminance difference caused by the brightness of itself, cause the colourity and bright between different screen individual
Degree differs greatly, for example, cause the screen having partially yellow, and has the problem of screen is partially blue, improves Consumer's Experience.
Reference picture 1, Fig. 1 is the schematic flow sheet of module group assembling flow designing method first embodiment of the present invention.
In the present embodiment, this method includes:
Step S10, obtains display panel to be assembled and back light, and measure display panel to be assembled the first parameter,
Second parameter and the 3rd parameter of back light to be assembled and the 4th parameter;
In the present embodiment, in order to improve the qualification rate of module group assembling, assembled by display panel and back light
Before, it is necessary to obtain display panel to be assembled and back light first, then measure display panel to be assembled the first parameter,
Two parameters and the 3rd parameter of back light to be assembled and the 4th parameter.
Further, the first parameter of the display panel to be assembled is penetrance, and the second parameter is virtual chromaticity coordinates, institute
The 3rd parameter for stating back light to be assembled is brightness, and the 4th parameter is colourity.
Wherein, the brightness of back light and colourity can include brightness and chromaticity coordinate, further, can also treat group
The size and frequency spectrum for filling back light are measured, and the brightness of display panel can be penetrance, and colourity can be false color degree
Coordinate, further, can equally be measured to the size and frequency spectrum of display panel to be assembled.So as to subsequently according to be assembled
The penetrance of display panel, the brightness of virtual chromaticity coordinates and back light to be assembled and chromaticity coordinate are assembled, and reduce display
Panel and back light colourity in itself and luminance difference.The display panel to be assembled and the back of the body of measurement can be determined whether simultaneously
Whether the size and frequency spectrum of radiant are consistent, or within a preset range whether difference.It is possible to further judge that what is measured treats group
Fill whether the quality of display panel and back light in itself is qualified, if the display panel to be assembled and back light of measurement are closed
Lattice, then carry out next step operation, the display panel to be assembled and back light of measurement be unqualified then carry out changing display panel and
Back light.
Step S20, virtual portfolio is carried out by the qualified display panel to be assembled of measurement and back light according to preset rules,
Obtain data splitting;
After the display panel to be assembled and back light that get are measured, it can will measure and qualified treat group
Fill display panel and back light and carry out virtual portfolio according to preset rules, obtain data splitting.In the present embodiment, rule are preset
Can be then:First, random combine;2nd, obtained display panel data will be measured and back light data carries out subregion, according to right
The region answered is combined, such as the relatively low backlight of brightness and chromaticity coordinate is divided into a areas, by penetrance, virtual chromaticity coordinates
Relatively low display panel is divided to b areas, when being combined, and a areas are combined with b areas;3rd, obtained display surface will be measured
Plate data and back light data are ranked up respectively, the display panel data and back light data then obtained according to sequence
It is combined, such as is combined one by one according to sequence number successively.
Step S30, by the display panel to be assembled and back light progress module group assembling of data splitting within a preset range.
It is defeated after the qualified display panel to be assembled of measurement and back light to be carried out to virtual portfolio according to preset rules
Enter the standard values such as module brightness and colourity, and the data splitting of display panel and back light and standard value are compared, and
Whether within a preset range data splitting is judged, if data splitting not within a preset range, rejects the combination, if data splitting
In scope of design, then the combination is assembled, and export the combination after assembling.
The module group assembling flow designing method that the present embodiment is proposed, by obtaining display panel to be assembled and back light,
And measure the first parameter, the second parameter and the 3rd parameter of back light to be assembled and the 4th parameter of display panel to be assembled;
Then the qualified display panel to be assembled of measurement and back light are subjected to pseudorandom combination according to preset rules, so as to obtain
Data splitting;Data splitting display panel to be assembled within a preset range and back light are subjected to module group assembling afterwards, by
This realizes the qualification rate for improving module, it is to avoid because the colourity of display panel and back light in itself has a certain degree of colourity
Difference, and luminance difference caused by the brightness of itself, cause colourity and luminance difference between different screen individual larger, example
Such as cause the screen having partially yellow, and have the problem of screen is partially blue, improve Consumer's Experience.
Further, reference picture 2, mould of the present invention is proposed based on module group assembling flow designing method first embodiment of the present invention
Group assembling flow path design method second embodiment.
In the present embodiment, after the step S20 the step of, also includes:
Whether step S40, judge the data splitting of the display panel to be assembled and back light got in preset range
It is interior;
If the display panel to be assembled and the data splitting of back light that get are within a preset range, step is performed
S20;
Step S50, if the data splitting of the display panel to be assembled got and back light is not in preset range
It is interior, then the display panel to be assembled and back light that get are changed;
Step S60, by the data splitting of the display panel to be assembled got and back light not within a preset range
Display panel and back light are preserved, and when the display panel and back light quantity of preservation reach predetermined number again
It is combined.
In the present embodiment, the qualified display panel to be assembled of measurement and back light are being subjected to void according to preset rules
Intend after combination, can further input the standard values such as module brightness and colourity, and by the combination of display panel and back light
Data are compared with standard value, and whether within a preset range to judge data splitting, if data splitting is not within a preset range,
The combination is then rejected, if data splitting is in scope of design, the combination is assembled, then the combination after output assembling,
To improve assembling quality.
Further, when penetrance, virtual chromaticity coordinates and back light to be assembled that measurement display panel to be assembled occur
Brightness and chromaticity coordinate it is qualified, but data splitting after back light and display panel are combined is not default
In the range of when, the back light and display panel of data splitting not within a preset range can be preserved, while can enter
One-step recording colourity rank.And when the back light and display panel quantity of preservation reach predetermined number, by the backlight of preservation
Light source and display panel are reconfigured, to improve the utilization rate of display panel and back light, it is to avoid the wasting of resources.
The present embodiment propose module group assembling flow designing method, by according to data splitting judge get it is to be assembled
Within a preset range whether the combination of display panel and back light;If the display panel to be assembled that gets and back light
Data splitting display panel to be assembled within a preset range and back light within a preset range, are then carried out module group by combination
Dress;If the combination of the display panel to be assembled and back light got is not within a preset range, by treating for getting
Assembling display panel and back light are changed, and by the display panel to be assembled got and the data splitting of back light
Display panel and back light within a preset range is not preserved, and is reached in the display panel and back light quantity of preservation
Combination is re-started during to predetermined number, so as to improve assembling quality, lowers the wasting of resources.
Further, reference picture 3, mould of the present invention is proposed based on module group assembling flow designing method first embodiment of the present invention
Group assembling flow path design method 3rd embodiment.
In the present embodiment, the step S30 includes:
Step S31, sets the convergent convergence grade of module brightness convergence, colourity and material to utilize according to module group assembling target
Rate, and the priority of convergence grade and utilization of materials is set;
Step S32, is ranked up according to the priority of convergence grade and utilization of materials to data splitting;
Step S33, module group assembling is carried out according to the ranking results of data splitting to display panel to be assembled and back light.
In the present embodiment, in order to avoid material waste, module brightness convergence, color can be set according to module group assembling target
The convergent convergence grade of degree and utilization of materials, then set the priority of convergence grade and utilization of materials, such as set bright
Convergent highest priority is spent, then is restrained brightness in sequence before higher ranked combination comes.In actual operation process
In, computing for convenience can according to the actual requirements, centered on actually measuring the central value drawn (or other setting values)
Value, brightness, x chromaticity coordinates, y chromaticity coordinate convergence ranges are divided into r rank, wherein, interval convergence scope from 1 to r by
Flaring is big, and r is the integer more than 1, and the off-center smaller priority of value is higher.Further, in order to realize that material is maximum
Change utilize, by material assembling area holdup time also into r rank, wherein r grades of time is most long.Now, 1 grade of receipts can be set
The priority for holding back scope is low, r grades of highests, that is, the time for being trapped in assembling area is longer, more needs preferentially to be assembled.
After the synthesis priority of each data splitting is calculated, the priority of each data splitting is ranked up, and
Module group assembling is carried out to display panel to be assembled and back light according to the ranking results of data splitting, with preferentially to assembling data
Preferably combine, while avoiding holdup time of the material in assembling area long, so as to improve utilization of materials.
Further, reference picture 4, are carried based on any embodiment of module group assembling flow designing method first to fourth of the present invention
Go out module group assembling flow designing method fourth embodiment of the present invention.
In the present embodiment, after the step S30 the step of, also includes:
Step S70, parameter testing is carried out to the module after assembling, and the parameter obtained according to test sets up database;
Step S80, reference of the database that foundation is obtained as the preset rules for carrying out virtual portfolio.
In the present embodiment, by data splitting display panel to be assembled within a preset range and back light carry out group
After dress, parameter testing can be carried out to the module after assembling, and the parameter obtained according to test sets up database, then will build
Vertical obtained database as the preset rules for carrying out virtual portfolio reference so that the setting of preset rules is more reasonable so that
Improve the colourity rank of assembling module.
The present invention further provides a kind of module group assembling flow scheme design device.
Reference picture 5, Fig. 5 is the high-level schematic functional block diagram of module group assembling flow scheme design device first embodiment of the present invention.
In the present embodiment, the device includes:
Acquisition module 10, for obtaining display panel to be assembled and back light, and measures the of display panel to be assembled
One parameter, the second parameter and the 3rd parameter of back light to be assembled and the 4th parameter;
In the present embodiment, in order to improve the qualification rate of module group assembling, assembled by display panel and back light
Before, it is necessary to obtain display panel to be assembled and back light first, then measure display panel to be assembled the first parameter,
Two parameters and the 3rd parameter of back light to be assembled and the 4th parameter.
Further, the first parameter of the display panel to be assembled is penetrance, and the second parameter is virtual chromaticity coordinates, institute
The 3rd parameter for stating back light to be assembled is brightness, and the 4th parameter is colourity.
Wherein, the brightness of back light and colourity can include brightness and chromaticity coordinate, further, can also treat group
The size and frequency spectrum for filling back light are measured, and the brightness of display panel can be penetrance, and colourity can be false color degree
Coordinate, further, can equally be measured to the size and frequency spectrum of display panel to be assembled.So as to subsequently according to be assembled
The penetrance of display panel, the brightness of virtual chromaticity coordinates and back light to be assembled and chromaticity coordinate are assembled, and reduce display
Panel and back light colourity in itself and luminance difference.The display panel to be assembled and the back of the body of measurement can be determined whether simultaneously
Whether the size and frequency spectrum of radiant are consistent, or within a preset range whether difference.It is possible to further judge that what is measured treats group
Fill whether the quality of display panel and back light in itself is qualified, if the display panel to be assembled and back light of measurement are closed
Lattice, then carry out next step operation, the display panel to be assembled and back light of measurement be unqualified then carry out changing display panel and
Back light.
Composite module 20, it is empty for the qualified display panel to be assembled of measurement and back light to be carried out according to preset rules
Intend combination, obtain data splitting;
After the display panel to be assembled and back light that get are measured, it can will measure and qualified treat group
Fill display panel and back light and carry out virtual portfolio according to preset rules, obtain data splitting.In the present embodiment, rule are preset
Can be then:First, random combine;2nd, obtained display panel data will be measured and back light data carries out subregion, according to right
The region answered is combined, such as the relatively low backlight of brightness and chromaticity coordinate is divided into a areas, by penetrance, virtual chromaticity coordinates
Relatively low display panel is divided to b areas, when being combined, and a areas are combined with b areas;3rd, obtained display surface will be measured
Plate data and back light data are ranked up respectively, the display panel data and back light data then obtained according to sequence
It is combined, such as is combined one by one according to sequence number successively.
Module 30 is assembled, for the display panel to be assembled and back light progress mould by data splitting within a preset range
Group assembling.
It is defeated after the qualified display panel to be assembled of measurement and back light to be carried out to virtual portfolio according to preset rules
Enter the standard values such as module brightness and colourity, and the data splitting of display panel and back light and standard value are compared, and
Whether within a preset range data splitting is judged, if data splitting not within a preset range, rejects the combination, if data splitting
In scope of design, then the combination is assembled, and export the combination after assembling.
The module group assembling flow scheme design device that the present embodiment is proposed, by obtaining display panel to be assembled and back light,
And measure the first parameter, the second parameter and the 3rd parameter of back light to be assembled and the 4th parameter of display panel to be assembled;
Then the qualified display panel to be assembled of measurement and back light are subjected to pseudorandom combination according to preset rules, so as to obtain
Data splitting;Data splitting display panel to be assembled within a preset range and back light are subjected to module group assembling afterwards, by
This realizes the qualification rate for improving module, it is to avoid because the colourity of display panel and back light in itself has a certain degree of colourity
Difference, and luminance difference caused by the brightness of itself, cause colourity and luminance difference between different screen individual larger, example
Such as cause the screen having partially yellow, and have the problem of screen is partially blue, improve Consumer's Experience.
Further, reference picture 6, mould of the present invention is proposed based on module group assembling flow scheme design device first embodiment of the present invention
Group assembling flow path design device second embodiment.
In the present embodiment, described device also includes:
Judge module 40, whether the display panel to be assembled and the data splitting of back light got for judgement be pre-
If in scope;If the display panel to be assembled and the data splitting of back light that get are within a preset range, by number of combinations
Module group assembling is carried out according to display panel to be assembled within a preset range and back light;If the display to be assembled got
The data splitting of panel and back light within a preset range, does not then enter the display panel to be assembled and back light that get
Row is changed;
Preserving module 50, for by the data splitting of the display panel to be assembled got and back light not in default model
Display panel and back light in enclosing are preserved, and reach predetermined number in the display panel and back light quantity of preservation
When re-start combination.
Further, when penetrance, virtual chromaticity coordinates and back light to be assembled that measurement display panel to be assembled occur
Brightness and chromaticity coordinate it is qualified, but data splitting after back light and display panel are combined is not default
In the range of when, the back light and display panel of data splitting not within a preset range can be preserved, while can enter
One-step recording colourity rank.And when the back light and display panel quantity of preservation reach predetermined number, by the backlight of preservation
Light source and display panel are reconfigured, to improve the utilization rate of display panel and back light, it is to avoid the wasting of resources.
The present embodiment propose module group assembling flow scheme design device, by according to data splitting judge get it is to be assembled
Within a preset range whether the combination of display panel and back light;If the display panel to be assembled that gets and back light
Data splitting display panel to be assembled within a preset range and back light within a preset range, are then carried out module group by combination
Dress;If the combination of the display panel to be assembled and back light got is not within a preset range, by treating for getting
Assembling display panel and back light are changed, and by the display panel to be assembled got and the data splitting of back light
Display panel and back light within a preset range is not preserved, and is reached in the display panel and back light quantity of preservation
Combination is re-started during to predetermined number, so as to improve assembling quality, lowers the wasting of resources.
Further, reference picture 7, mould of the present invention is proposed based on module group assembling flow scheme design device first embodiment of the present invention
Group assembling flow path design device 3rd embodiment.
In the present embodiment, the assembling module 30 includes:
Setting unit 31, for according to module group assembling target set the convergent convergence grade of module brightness convergence, colourity and
Utilization of materials, and the priority of convergence grade and utilization of materials is set;
Sequencing unit 32, for being ranked up according to the priority of convergence grade and utilization of materials to data splitting;
Module units 33, mould is carried out for the ranking results according to data splitting to display panel to be assembled and back light
Group assembling.
In the present embodiment, in order to avoid material waste, module brightness convergence, color can be set according to module group assembling target
The convergent convergence grade of degree and utilization of materials, then set the priority of convergence grade and utilization of materials, such as set bright
Convergent highest priority is spent, then is restrained brightness in sequence before higher ranked combination comes.In actual operation process
In, computing for convenience can according to the actual requirements, centered on actually measuring the central value drawn (or other setting values)
Value, brightness, x chromaticity coordinates, y chromaticity coordinate convergence ranges are divided into r rank, wherein, interval convergence scope from 1 to r by
Flaring is big, and r is the integer more than 1, and the off-center smaller priority of value is higher.Further, in order to realize that material is maximum
Change utilize, by material assembling area holdup time also into r rank, wherein r grades of time is most long.Now, 1 grade of receipts can be set
The priority for holding back scope is low, r grades of highests, that is, the time for being trapped in assembling area is longer, more needs preferentially to be assembled.
After the synthesis priority of each data splitting is calculated, the priority of each data splitting is ranked up, and
Module group assembling is carried out to display panel to be assembled and back light according to the ranking results of data splitting, with preferentially to assembling data
Preferably combine, while avoiding holdup time of the material in assembling area long, so as to improve utilization of materials.
Further, reference picture 8, are carried based on any embodiment of module group assembling flow scheme design device first to fourth of the present invention
Go out module group assembling flow scheme design device fourth embodiment of the present invention.
In the present embodiment, described device also includes:
Test module 60, for carrying out parameter testing to the module after assembling, and the parameter obtained according to test sets up number
According to storehouse;Reference of the database that foundation is obtained as the preset rules for carrying out virtual portfolio.
In the present embodiment, by data splitting display panel to be assembled within a preset range and back light carry out group
After dress, parameter testing can be carried out to the module after assembling, and the parameter obtained according to test sets up database, then will build
Vertical obtained database as the preset rules for carrying out virtual portfolio reference so that the setting of preset rules is more reasonable so that
Improve the colourity rank of assembling module.
The preferred embodiments of the present invention are these are only, are not intended to limit the scope of the invention, it is every to utilize this hair
Equivalent structure or equivalent flow conversion that bright specification and accompanying drawing content are made, or directly or indirectly it is used in other related skills
Art field, is included within the scope of the present invention.
Claims (10)
1. a kind of module group assembling flow designing method, it is characterised in that the described method comprises the following steps:
Obtain display panel to be assembled and back light, and measure the first parameter of display panel to be assembled, the second parameter and treat
Assemble the 3rd parameter and the 4th parameter of back light;
The qualified display panel to be assembled of measurement and back light are subjected to virtual portfolio according to preset rules, number of combinations is obtained
According to;
By the display panel to be assembled and back light progress module group assembling of data splitting within a preset range.
2. module group assembling flow designing method as claimed in claim 1, it is characterised in that described to measure qualified to be assembled
Display panel and back light carry out virtual portfolio according to preset rules, also include after the step of obtaining data splitting:
Whether within a preset range to judge the data splitting of the display panel to be assembled and back light got;
If the display panel to be assembled and the data splitting of back light that get are within a preset range, perform described by combination
The step of data display panel to be assembled within a preset range and back light carry out module group assembling;
If the data splitting of the display panel to be assembled got and back light within a preset range, will not got
Display panel to be assembled and back light changed;
By the display panel and the back of the body of the data splitting of the display panel to be assembled got and back light not within a preset range
Radiant is preserved, and re-starts combination when the display panel and back light quantity of preservation reach predetermined number.
3. module group assembling flow designing method as claimed in claim 1, it is characterised in that the of the display panel to be assembled
One parameter is penetrance, and the second parameter is virtual chromaticity coordinates, and the 3rd parameter of the back light to be assembled is brightness, the 4th ginseng
Number is colourity.
4. module group assembling flow designing method as claimed in claim 1, it is characterised in that it is described by data splitting in default model
The step of display panel to be assembled and back light in enclosing carry out module group assembling includes:
The convergent convergence grade of module brightness convergence, colourity and utilization of materials are set according to module group assembling target, and receipts are set
Hold back the priority of grade and utilization of materials;
Data splitting is ranked up according to the priority of convergence grade and utilization of materials;
Module group assembling is carried out to display panel to be assembled and back light according to the ranking results of data splitting.
5. the module group assembling flow designing method as described in claim any one of 1-4, it is characterised in that described by data splitting
Also include after the step of display panel to be assembled and back light within a preset range is assembled:
Parameter testing is carried out to the module after assembling, and the parameter obtained according to test sets up database;
Reference of the database that foundation is obtained as the preset rules for carrying out virtual portfolio.
6. a kind of module group assembling flow scheme design device, it is characterised in that described device includes:
Acquisition module, for obtaining display panel to be assembled and back light, and measure display panel to be assembled the first parameter,
Second parameter and the 3rd parameter of back light to be assembled and the 4th parameter;
Composite module, for the qualified display panel to be assembled of measurement and back light to be carried out into virtual group according to preset rules
Close, obtain data splitting;
Module is assembled, for data splitting display panel to be assembled within a preset range and back light to be carried out into module group
Dress.
7. module group assembling flow scheme design device as claimed in claim 6, it is characterised in that described device also includes:
Judge module, whether the display panel to be assembled and the data splitting of back light got for judgement be in preset range
It is interior;If the display panel to be assembled and the data splitting of back light that get are within a preset range, by data splitting pre-
If the display panel to be assembled and back light in scope carry out module group assembling;If the display panel to be assembled got and
The data splitting of back light within a preset range, is not then carried out the display panel to be assembled and back light that get more
Change;
Preserving module, for by by the data splitting of the display panel to be assembled got and back light not within a preset range
Display panel and back light preserved, and when the display panel and back light quantity of preservation reach predetermined number weight
Newly it is combined.
8. module group assembling flow scheme design device as claimed in claim 6, it is characterised in that the of the display panel to be assembled
One parameter is penetrance, and the second parameter is virtual chromaticity coordinates, and the 3rd parameter of the back light to be assembled is brightness, the 4th ginseng
Number is colourity.
9. module group assembling flow scheme design device as claimed in claim 6, it is characterised in that the assembling module includes:
Setting unit, for setting the convergent convergence grade of module brightness convergence, colourity and material profit according to module group assembling target
With rate, and the priority of convergence grade and utilization of materials is set;
Sequencing unit, for being ranked up according to the priority of convergence grade and utilization of materials to data splitting;
Module units, module group is carried out for the ranking results according to data splitting to display panel to be assembled and back light
Dress.
10. the module group assembling flow scheme design device as described in claim any one of 6-9, it is characterised in that described device is also wrapped
Include:
Test module, for carrying out parameter testing to the module after assembling, and the parameter obtained according to test sets up database;Will
Obtained database is set up as the reference for the preset rules for carrying out virtual portfolio.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710310069.8A CN107122559A (en) | 2017-05-03 | 2017-05-03 | Module group assembling flow designing method and device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710310069.8A CN107122559A (en) | 2017-05-03 | 2017-05-03 | Module group assembling flow designing method and device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN107122559A true CN107122559A (en) | 2017-09-01 |
Family
ID=59726827
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710310069.8A Pending CN107122559A (en) | 2017-05-03 | 2017-05-03 | Module group assembling flow designing method and device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN107122559A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113903306A (en) * | 2021-10-13 | 2022-01-07 | 昆山国显光电有限公司 | Compensation method and compensation device of display panel |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1955797A (en) * | 2005-10-25 | 2007-05-02 | 比亚迪股份有限公司 | Manufacturing method of liquid crystal display |
CN105929574A (en) * | 2016-06-30 | 2016-09-07 | Tcl显示科技(惠州)有限公司 | Production method of display module |
CN105954893A (en) * | 2016-05-30 | 2016-09-21 | 康佳集团股份有限公司 | Configuration method and detection device for liquid crystal optical module |
CN106292011A (en) * | 2016-10-24 | 2017-01-04 | 京东方科技集团股份有限公司 | A kind of assembling equipment and assemble method |
-
2017
- 2017-05-03 CN CN201710310069.8A patent/CN107122559A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1955797A (en) * | 2005-10-25 | 2007-05-02 | 比亚迪股份有限公司 | Manufacturing method of liquid crystal display |
CN105954893A (en) * | 2016-05-30 | 2016-09-21 | 康佳集团股份有限公司 | Configuration method and detection device for liquid crystal optical module |
CN105929574A (en) * | 2016-06-30 | 2016-09-07 | Tcl显示科技(惠州)有限公司 | Production method of display module |
CN106292011A (en) * | 2016-10-24 | 2017-01-04 | 京东方科技集团股份有限公司 | A kind of assembling equipment and assemble method |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113903306A (en) * | 2021-10-13 | 2022-01-07 | 昆山国显光电有限公司 | Compensation method and compensation device of display panel |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN103985333B (en) | A kind of method of the gamma value measurement of display device | |
CN104715731B (en) | Screen brightness adjustment method and device and liquid crystal display device | |
CN111161691B (en) | Compensation method and compensation device for display screen and display device | |
CN104655403B (en) | Luminance uniformity test method of dot-matrix light source | |
CN103050074B (en) | A kind of rating afterimage device and method of display | |
US20150348467A1 (en) | Image processing method and apparatus | |
CN107369430A (en) | Module group assembling flow designing method, equipment and readable storage medium storing program for executing | |
CN108039143A (en) | A kind of method and device of gamma circuit adjustment | |
CN106443221A (en) | Reliability appraisal method used for electronic product | |
CN1877251A (en) | Printing solder detecting device | |
WO2011065428A1 (en) | Analysis display method of defective factors and analysis display device of defective factors | |
CN109115383A (en) | The Prediction method for fatigue life of cold extrusion Strengthening Hole | |
CN107342041A (en) | A kind of OLED shows the ameliorative way of non-uniform phenomenon | |
CN107221272B (en) | Display screen parameter setting method | |
CN107724111A (en) | Textile dyeing formula acquisition methods, device, storage medium and computer equipment | |
CN110490858A (en) | A kind of fabric defect Pixel-level classification method based on deep learning | |
CN107122559A (en) | Module group assembling flow designing method and device | |
CN104297161B (en) | Method and system for evaluating product color used for reconstituted tobacco production by papermaking method | |
CN104931005B (en) | More BIN LED lamp panel uniformity detection method and device | |
CN101583050A (en) | Method and system for rapidly and automatically adjusting color temperature | |
CN109920381A (en) | A kind of method and apparatus adjusting backlight value | |
CN105427757A (en) | Splicing method and device of LED lamp panels | |
CN103983429A (en) | Luminous surface brightness uniformity analyzing method | |
US10254594B2 (en) | Liquid crystal drop filling system and control method | |
CN106326281A (en) | A picture display method and device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20170901 |
|
RJ01 | Rejection of invention patent application after publication |