CN117292635B - Conduction testing method, device and equipment for curved flexible screen and storage medium - Google Patents
Conduction testing method, device and equipment for curved flexible screen and storage medium Download PDFInfo
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- CN117292635B CN117292635B CN202311587507.7A CN202311587507A CN117292635B CN 117292635 B CN117292635 B CN 117292635B CN 202311587507 A CN202311587507 A CN 202311587507A CN 117292635 B CN117292635 B CN 117292635B
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- 238000012360 testing method Methods 0.000 title claims abstract description 92
- 238000000034 method Methods 0.000 claims abstract description 21
- 238000005452 bending Methods 0.000 claims description 77
- 230000007704 transition Effects 0.000 claims description 43
- 230000009471 action Effects 0.000 claims description 20
- 230000008859 change Effects 0.000 claims description 11
- 238000004590 computer program Methods 0.000 claims description 9
- 230000035945 sensitivity Effects 0.000 claims description 5
- 230000000694 effects Effects 0.000 description 3
- 230000003993 interaction Effects 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000006870 function Effects 0.000 description 2
- 238000011056 performance test Methods 0.000 description 2
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Classifications
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/006—Electronic inspection or testing of displays and display drivers, e.g. of LED or LCD displays
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/03—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes specially adapted for displays having non-planar surfaces, e.g. curved displays
- G09G3/035—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes specially adapted for displays having non-planar surfaces, e.g. curved displays for flexible display surfaces
Abstract
The invention relates to the technical field of curved surface screen testing and discloses a method for conducting test of a curved surface flexible screen.
Description
Technical Field
The invention relates to the technical field of curved surface screen testing, in particular to a conductive testing method, device and equipment for a curved surface flexible screen and a storage medium.
Background
The curved surface flexible screen is made of flexible materials, the existing curved surface screen mobile phone screen is the curved surface flexible screen, and the name of the curved surface flexible screen is easy to see.
The screen is usually realized through the principle of touch conduction and is interacted, in order to ensure the normal use of the screen, the conduction performance of the screen needs to be kept in a preset reasonable range, the phenomenon of insensitive touch or excessive sensitivity is prevented, when the curved flexible screen is actually arranged on the intelligent terminal, the middle part on the curved flexible screen can keep the plane effect, the edge part can keep the curved effect, for the curved flexible screen, the conduction performance of the plane part is required to be tested like the traditional plane screen, the conduction performance of the curved part is required to be tested, and if the step is absent, the problem that the curved flexible screen is not in accordance with the standard of the curved part and is insensitive touch or mistaken touch is easily caused.
Disclosure of Invention
The invention aims to provide a conductive testing method, device and equipment for a curved flexible screen and a storage medium, and aims to solve the problem that in the prior art, the conductive performance of a bending part of the curved flexible screen is lack to be tested, so that false touch phenomenon is easy to occur in actual setting.
The present invention is achieved in a first aspect by providing a method for conducting a conductive test of a curved flexible screen, comprising:
acquiring specification information of a curved flexible screen, and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen; the working scene is used for describing state information of the curved flexible screen in actual setting;
generating an area division scheme of the curved flexible screen corresponding to each working scene according to each working scene; the area division scheme is used for dividing the curved flexible screen in the working scene into a plane area, a transition area and a bending area;
acquiring conventional conductive performance of the curved flexible screen, and generating a preset conductive test scheme of the curved flexible screen in each working scene according to each regional division scheme and the conventional conductive performance; the preset conductive test scheme is used for conducting a conductive test on the curved flexible screen.
Preferably, the step of obtaining specification information of the curved flexible screen and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen includes:
acquiring specification information of the curved flexible screen; the specification information comprises the length, width and thickness of the curved flexible screen;
according to the specification information of the curved flexible screen, a determined working scene corresponding to the curved flexible screen is called in a preset database;
if the determined working scene corresponding to the curved flexible screen cannot be obtained in the preset database, a plurality of predicted working scenes corresponding to the curved flexible screen are called in the preset database according to the specification information of the curved flexible screen.
Preferably, the step of generating the region division scheme of the curved flexible screen corresponding to each working scene according to each working scene includes:
generating a plane area and a bending area of the curved flexible screen in each working scene according to each working scene;
the transition region is generated at the planar region location adjacent to the curved region according to a preset criteria.
Preferably, the step of obtaining the conventional conductive performance of the curved flexible screen and generating the preset conductive test scheme of the curved flexible screen in each working scene according to each region division scheme and the conventional conductive performance includes:
acquiring conventional conductive performance of the curved flexible screen, and acquiring first variable conductive performance of the transition area and second variable conductive performance of the bending area according to the conventional conductive performance and the area division scheme;
acquiring each working scene of the curved flexible screen, and acquiring expected action data of a corresponding working scene setting device according to each working scene; the working scene setting device is used for realizing the working scene of the curved flexible screen;
acquiring position state information of the curved flexible screen in each working scene, and combining a region division scheme of the curved flexible screen with the position state information to acquire position state information of a plane region, a transition region and a bending region of the curved flexible screen;
generating expected action data of a conductive test device according to the first variable conductive performance, the second variable conductive performance and the position state information; the conduction testing device is used for conducting conduction tests on all areas of the curved flexible screen in all working scenes respectively;
binding each working scene with the expected action data of the corresponding working scene setting device and the expected action data of the conductive testing device to generate a preset conductive testing scheme of the curved flexible screen.
Preferably, the step of obtaining the conventional conductive performance of the curved flexible screen, and obtaining the first variable conductive performance of the transition region and the second variable conductive performance of the bending region according to the conventional conductive performance and the region division scheme includes:
acquiring the conventional conductivity of the curved flexible screen; the conventional conductivity properties include conductivity sensitivity and conductivity range;
acquiring the range of the transition area and the bending parameter of the bending area of the curved flexible screen according to the area division scheme, and calculating the performance change parameter of the bending area according to the bending parameter of the bending area;
generating a second changed conductivity of the bending region according to the performance change parameter of the bending region and the conventional conductivity;
and generating the first variable conductivity of the transition region according to the second variable conductivity and the range of the transition region.
In a second aspect, the present invention provides an apparatus for conducting a conductive test of a curved flexible screen, comprising:
the scene acquisition module is used for acquiring specification information of the curved flexible screen and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen; the working scene is used for describing state information of the curved flexible screen in actual setting;
the area dividing module is used for generating an area dividing scheme of the curved flexible screen corresponding to each working scene according to each working scene; the area division scheme is used for dividing the curved flexible screen in the working scene into a plane area, a transition area and a bending area;
the scheme planning module is used for acquiring the conventional conductivity of the curved flexible screen and generating a preset conductivity test scheme of the curved flexible screen in each working scene according to each region division scheme and the conventional conductivity; the preset conductive test scheme is used for conducting a conductive test on the curved flexible screen.
In a third aspect, the present invention provides an apparatus for conducting a conductive test of a curved flexible screen, comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the steps of the method of any one of the first aspects when the computer program is executed.
In a fourth aspect, the present invention provides a storage medium having stored thereon computer program instructions for, when executed by a processor, causing the processor to perform the method according to any of the first aspects.
The invention provides a method for testing the conductivity of a curved flexible screen, which has the following beneficial effects:
according to the invention, the specification information of the curved flexible screen is acquired, a plurality of corresponding working scenes are acquired according to the specification information, the conductive performance of the bending part of the curved flexible screen in the working scene is calculated according to each working scene, the conventional conductive performance is adjusted, the adjusted index is combined with the corresponding working scene to generate a conductive test scheme of the curved flexible screen, the curved flexible screen meeting the requirements of the working scene is selected according to the conductive test scheme, and the problem that the false touch phenomenon is easy to occur in actual setting due to the lack of testing of the conductive performance of the bending part of the curved flexible screen in the prior art is solved.
Drawings
FIG. 1 is a schematic diagram of steps of a method for testing conductivity of a curved flexible screen according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of a device for testing conductivity of a curved flexible screen according to an embodiment of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.
The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limiting the present invention, and specific meanings of the terms described above may be understood by those of ordinary skill in the art according to specific circumstances.
The implementation of the present invention will be described in detail below with reference to specific embodiments.
Referring to fig. 1 and 2, a preferred embodiment of the present invention is provided.
In a first aspect, the present invention provides a method for testing conductivity of a curved flexible screen, including:
s1: acquiring specification information of a curved flexible screen, and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen; the working scene is used for describing state information of the curved flexible screen in actual setting;
s2: generating an area division scheme of the curved flexible screen corresponding to each working scene according to each working scene; the area division scheme is used for dividing the curved flexible screen in the working scene into a plane area, a transition area and a bending area;
s3: acquiring conventional conductive performance of the curved flexible screen, and generating a preset conductive test scheme of the curved flexible screen in each working scene according to each regional division scheme and the conventional conductive performance; the preset conductive test scheme is used for conducting a conductive test on the curved flexible screen.
In the step S1 provided by the invention, the specification information of the curved flexible screen is obtained, and a plurality of working scenes of the curved flexible screen are generated according to the specification information of the curved flexible screen.
It should be noted that, the working scenario is state information of the curved flexible screen when actually set up, that is, the curved flexible screen needs to be set up on the intelligent terminal to realize man-machine interaction, and according to the difference of the intelligent terminal of the setting of the curved flexible screen, the form that the curved flexible screen presents on the intelligent terminal is also different: specifically, the planar portion and the curved portion of the curved flexible screen are divided differently, and the curved state of the curved portion is different.
In the step S2 provided by the invention, the regional division scheme of the curved flexible screen corresponding to each working scene is generated according to each working scene.
It can be understood that when the curved flexible screen is in different working scenarios, the plane portion and the curved portion of the curved flexible screen are different, so that the requirements of different conductive properties brought to the curved flexible screen, that is, the curved flexible screen corresponding to different working scenarios, need to be analyzed respectively to generate corresponding conductive property test schemes.
Specifically, the area division scheme of the curved flexible screen is to divide the curved flexible screen into a plane area, a transition area and a bending area; the plane area is an area where the curved flexible screen keeps a plane when actually arranged, the bending area is an area where the curved flexible screen keeps bending when actually arranged, and the transition area is a part, adjacent to the bending area, of the plane area when actually arranged, of the curved flexible screen.
More specifically, the electrical conductivity of the planar area of the curved flexible screen may be consistent with that of a conventional planar screen, and the electrical conductivity of the transition area and the curved area of the curved flexible screen may need to be adjusted accordingly based on the electrical conductivity of the conventional planar.
The conductive performance of the screen is used for realizing intelligent interaction between the screen and the outside, and the conductive performance of the screen plays a role through the contact between the outside and the screen, so that the information of a certain position on the screen is determined to be clicked by the outside, the bending area of the curved flexible screen is in a bending state, the transition area is adjacent to the bending area in the bending state, and the phenomenon of false touch is easy if the conductive performance of the planar screen is still fully maintained due to the fact that the transition area relates to the bending part.
In the step S3 provided by the invention, the conventional conductivity of the curved flexible screen is obtained, and a preset conductivity test scheme of the curved flexible screen in each working scene is generated according to each region division scheme and the conventional conductivity.
Specifically, the conventional conductivity of the curved flexible screen refers to a test of the conductivity of the curved flexible screen generally received in the prior art, that is, a test of the conductivity of the curved flexible screen received in a planar state, when the curved flexible screen is actually set on the intelligent terminal, the curved flexible screen is not in a planar state, so that the test of the conductivity is performed in the planar state of the curved flexible screen, the obtained result cannot be directly used, and if the test result is directly adopted, there is a possibility that the test result is inconsistent with the conductivity required by the curved flexible screen: when the curved surface flexible screen is in a bending state on the intelligent terminal, the required electric conduction performance is inconsistent with the electric conduction performance in a plane state, otherwise, the problem that the area near the clicking curved surface does not react or the reaction is excessive can occur.
The invention provides a method for testing the conductivity of a curved flexible screen, which has the following beneficial effects:
according to the invention, the specification information of the curved flexible screen is acquired, a plurality of corresponding working scenes are acquired according to the specification information, the conductive performance of the bending part of the curved flexible screen in the working scene is calculated according to each working scene, the conventional conductive performance is adjusted, the adjusted index is combined with the corresponding working scene to generate a conductive test scheme of the curved flexible screen, the curved flexible screen meeting the requirements of the working scene is selected according to the conductive test scheme, and the problem that the false touch phenomenon is easy to occur in actual setting due to the lack of testing of the conductive performance of the bending part of the curved flexible screen in the prior art is solved.
Preferably, the step of obtaining specification information of the curved flexible screen and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen includes:
s11: acquiring specification information of the curved flexible screen; the specification information comprises the length, width and thickness of the curved flexible screen;
s12: according to the specification information of the curved flexible screen, a determined working scene corresponding to the curved flexible screen is called in a preset database;
s13: if the determined working scene corresponding to the curved flexible screen cannot be obtained in the preset database, a plurality of predicted working scenes corresponding to the curved flexible screen are called in the preset database according to the specification information of the curved flexible screen.
Specifically, the specification information of the curved flexible screen determines what working scene the curved flexible screen can be applied to, so that information acquisition is performed on the curved flexible screen, and corresponding working scenes are called in a preset database according to the acquired specification information of the curved flexible screen.
More specifically, curved flexible screens can be divided into two types, one that has been determined to be supplied to which vendor, and used in what job scenario, and one that has not been determined to be supplied to which vendor, with a variety of possible job scenarios.
Therefore, firstly, according to the specification information of the curved flexible screen, the corresponding fixed working scene of the curved flexible screen is called in the preset database, if the fixed working scene can be called, the curved flexible screen is specially supplied to a manufacturer for a certain fixed purpose, that is, the fixed working scene of the curved flexible screen is called, and the curved flexible screen is tested in the subsequent process.
More specifically, if the call fails to determine the working scenario, it is indicated that the curved flexible screen is not determined to which working scenario to supply, and therefore the curved flexible screen needs to perform a test of more possible working scenarios, which are called predicted working scenarios, that is, predicting possible working scenarios on the curved flexible screen of the specification information.
The method can be used for obtaining the determined working scene or the predicted working scene of the curved flexible screen, and the efficiency of the conductivity test can be effectively improved.
Preferably, the step of generating the region division scheme of the curved flexible screen corresponding to each working scene according to each working scene includes:
s21: generating a plane area and a bending area of the curved flexible screen in each working scene according to each working scene;
s22: the transition region is generated at the planar region location adjacent to the curved region according to a preset criteria.
Specifically, a planar area and a bending area of the curved flexible screen in each working scene are generated according to each working scene, wherein the planar area is a part of the curved flexible screen which keeps a plane in the working scene, and the bending area is a part of the curved flexible screen which presents a bending state in the working scene.
More specifically, after the planar area and the curved area are divided, a transition area is divided on the planar area adjacent to the curved area according to a preset criterion.
It should be noted that this preset criterion is a range of finger sizes for a typical user, which means that if the user clicks the curved flexible screen within this range, a portion of the finger may touch the curved area.
Preferably, the step of obtaining the conventional conductive performance of the curved flexible screen and generating the preset conductive test scheme of the curved flexible screen in each working scene according to each region division scheme and the conventional conductive performance includes:
s31: acquiring conventional conductive performance of the curved flexible screen, and acquiring first variable conductive performance of the transition area and second variable conductive performance of the bending area according to the conventional conductive performance and the area division scheme;
s32: acquiring each working scene of the curved flexible screen, and acquiring expected action data of a corresponding working scene setting device according to each working scene; the working scene setting device is used for realizing the working scene of the curved flexible screen;
s33: acquiring position state information of the curved flexible screen in each working scene, and combining a region division scheme of the curved flexible screen with the position state information to acquire position state information of a plane region, a transition region and a bending region of the curved flexible screen;
s34: generating expected action data of a conductive test device according to the first variable conductive performance, the second variable conductive performance and the position state information; the conduction testing device is used for conducting conduction tests on all areas of the curved flexible screen in all working scenes respectively;
s35: binding each working scene with the expected action data of the corresponding working scene setting device and the expected action data of the conductive testing device to generate a preset conductive testing scheme of the curved flexible screen.
Specifically, when the screen exhibits a curved state, in order to keep the touch interaction function of the screen consistent with that of the screen in a planar state, the conductive performance of the screen needs to be adjusted accordingly.
More specifically, the magnitude and direction of the adjustment are determined by specific bending parameters of the bending portion, so that a working scene of the curved flexible screen is obtained, and an adjustment effect of the working scene on the conventional conductive performance of the curved flexible screen is obtained according to a region division scheme in the working scene, that is, specific data of a transition region and a bending region, so as to generate a first change conductive performance of the curved flexible screen in the working scene corresponding to the transition region and a second change conductive performance of the curved flexible screen corresponding to the bending region.
More specifically, the testing of the curved flexible screen needs to be performed by means of a testing device, which is divided into a working scene setting device and a conductive testing device, wherein the working scene setting device is used for setting the curved flexible screen to a state when the working scene, and the conductive testing device is used for testing the conductive performance of the curved flexible screen in the working scene.
More specifically, the working scene setting device may include a plurality of mechanical arms that clamp and move the curved flexible screen to enable the curved flexible screen to be in each working scene.
More specifically, the conductive testing device may be composed of a mechanical arm and a conductive testing unit, where the conductive testing unit is a device for conducting performance test on a screen in a conventional manner, and the mechanical arm moves the device onto a curved flexible screen to conduct the conductive performance test in a working scene.
More specifically, the content of the working scene includes how the curved flexible screen is curved to obtain the corresponding state, so the working scene setting device needs to drive the curved flexible screen to the corresponding state, and the expected action data of the working scene setting device can be obtained according to the curved flexible screen.
More specifically, when the curved flexible screen is in a working scene, each position of the screen is at a corresponding position, and at this time, the conductive testing device needs to detect the conductive performance of each region on the curved flexible screen, so that the conductive testing device needs to be operated to the corresponding position to detect, and the operation is expected action data of the conductive testing device.
More specifically, binding each working scene with expected action data of the corresponding working scene setting device and expected action data of the conductive testing device to generate a preset conductive testing scheme of the curved flexible screen.
Preferably, the step of obtaining the conventional conductive performance of the curved flexible screen, and obtaining the first variable conductive performance of the transition region and the second variable conductive performance of the bending region according to the conventional conductive performance and the region division scheme includes:
s36: acquiring the conventional conductivity of the curved flexible screen; the conventional conductivity properties include conductivity sensitivity and conductivity range;
s37: acquiring the range of the transition area and the bending parameter of the bending area of the curved flexible screen according to the area division scheme, and calculating the performance change parameter of the bending area according to the bending parameter of the bending area;
s38: generating a second changed conductivity of the bending region according to the performance change parameter of the bending region and the conventional conductivity;
s39: and generating the first variable conductivity of the transition region according to the second variable conductivity and the range of the transition region.
In particular, the conventional conductivity of a curved flexible screen may be considered as a conductivity parameter of a planar region of the curved flexible screen, the conventional conductivity including conductivity sensitivity and conductivity range, it being understood that the conductivity of the transition region and the curved region is adjusted by the conventional conductivity.
More specifically, the range of the transition region and the bending parameter of the bending region of the curved flexible screen are obtained according to the region division scheme, the bending parameter of the bending region is used for describing the bending state of the bending region, that is, how the bending region is bent, and the variation degree of the conductive performance of the bending region, that is, the performance variation parameter, is determined by the difference between the bending state of the bending region and the plane region.
More specifically, a second varying electrical conductivity of the bending region is generated from the performance varying parameter of the bending region and the conventional electrical conductivity.
More specifically, the transition region is a region adjacent to the bending region, and thus the change in the electrical conductivity of the transition region is related to the bending state of the bending region, the first change in the electrical conductivity of the transition region being generated from the second change in the electrical conductivity and the extent of the transition region.
Referring to fig. 2, in a second aspect, the present invention provides an apparatus for conducting a conductive test of a curved flexible screen, including:
the scene acquisition module is used for acquiring specification information of the curved flexible screen and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen; the working scene is used for describing state information of the curved flexible screen in actual setting;
the area dividing module is used for generating an area dividing scheme of the curved flexible screen corresponding to each working scene according to each working scene; the area division scheme is used for dividing the curved flexible screen in the working scene into a plane area, a transition area and a bending area;
the scheme planning module is used for acquiring the conventional conductivity of the curved flexible screen and generating a preset conductivity test scheme of the curved flexible screen in each working scene according to each region division scheme and the conventional conductivity; the preset conductive test scheme is used for conducting a conductive test on the curved flexible screen.
The above modules are all used for implementing the method for testing the conductivity of the curved flexible screen provided in the first aspect, so the functions of the modules are not described herein.
In a third aspect, the present invention provides an apparatus comprising a memory having a computer program stored therein and a processor which when executing the computer program implements the steps of the method of any of the first aspects.
In a fourth aspect, the present invention provides a storage medium having stored thereon computer program instructions which, when executed by a processor, cause the processor to perform the method of any of the first aspects.
The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.
Claims (7)
1. A method for conducting a conductive test of a curved flexible screen, comprising:
acquiring specification information of a curved flexible screen, and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen; the working scene is used for describing state information of the curved flexible screen in actual setting;
generating an area division scheme of the curved flexible screen corresponding to each working scene according to each working scene; the area division scheme is used for dividing the curved flexible screen in the working scene into a plane area, a transition area and a bending area;
acquiring conventional conductive performance of the curved flexible screen, and generating a preset conductive test scheme of the curved flexible screen in each working scene according to each regional division scheme and the conventional conductive performance; the preset conductive test scheme is used for conducting a conductive test on the curved flexible screen;
the method for obtaining the conventional conductivity of the curved flexible screen and generating the preset conductivity test scheme of the curved flexible screen in each working scene according to each regional division scheme and the conventional conductivity comprises the following steps:
acquiring conventional conductive performance of the curved flexible screen, and acquiring first variable conductive performance of the transition area and second variable conductive performance of the bending area according to the conventional conductive performance and the area division scheme;
acquiring each working scene of the curved flexible screen, and acquiring expected action data of a corresponding working scene setting device according to each working scene; the working scene setting device is used for realizing the working scene of the curved flexible screen;
acquiring position state information of the curved flexible screen in each working scene, and combining a region division scheme of the curved flexible screen with the position state information to acquire position state information of a plane region, a transition region and a bending region of the curved flexible screen;
generating expected action data of a conductive test device according to the first variable conductive performance, the second variable conductive performance and the position state information; the conduction testing device is used for conducting conduction tests on all areas of the curved flexible screen in all working scenes respectively;
binding each working scene with the expected action data of the corresponding working scene setting device and the expected action data of the conductive testing device to generate a preset conductive testing scheme of the curved flexible screen.
2. The method for testing the conductivity of a curved flexible screen according to claim 1, wherein the step of obtaining the specification information of the curved flexible screen and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen comprises:
acquiring specification information of the curved flexible screen; the specification information comprises the length, width and thickness of the curved flexible screen;
according to the specification information of the curved flexible screen, a determined working scene corresponding to the curved flexible screen is called in a preset database;
if the determined working scene corresponding to the curved flexible screen cannot be obtained in the preset database, a plurality of predicted working scenes corresponding to the curved flexible screen are called in the preset database according to the specification information of the curved flexible screen.
3. The method of claim 1, wherein the step of generating a region division scheme of the curved flexible screen corresponding to each of the working scenes according to each of the working scenes comprises:
generating a plane area and a bending area of the curved flexible screen in each working scene according to each working scene;
the transition region is generated at the planar region location adjacent to the curved region according to a preset criteria.
4. The method of claim 1, wherein the step of obtaining the conventional conductivity of the curved flexible screen, obtaining the first varying conductivity of the transition region and the second varying conductivity of the curved region according to the conventional conductivity and the region division scheme comprises:
acquiring the conventional conductivity of the curved flexible screen; the conventional conductivity properties include conductivity sensitivity and conductivity range;
acquiring the range of the transition area and the bending parameter of the bending area of the curved flexible screen according to the area division scheme, and calculating the performance change parameter of the bending area according to the bending parameter of the bending area;
generating a second changed conductivity of the bending region according to the performance change parameter of the bending region and the conventional conductivity;
and generating the first variable conductivity of the transition region according to the second variable conductivity and the range of the transition region.
5. An apparatus for conducting a conductive test of a curved flexible screen, comprising:
the scene acquisition module is used for acquiring specification information of the curved flexible screen and generating a plurality of working scenes of the curved flexible screen according to the specification information of the curved flexible screen; the working scene is used for describing state information of the curved flexible screen in actual setting;
the area dividing module is used for generating an area dividing scheme of the curved flexible screen corresponding to each working scene according to each working scene; the area division scheme is used for dividing the curved flexible screen in the working scene into a plane area, a transition area and a bending area;
the scheme planning module is used for acquiring the conventional conductivity of the curved flexible screen and generating a preset conductivity test scheme of the curved flexible screen in each working scene according to each region division scheme and the conventional conductivity; the preset conductive test scheme is used for conducting a conductive test on the curved flexible screen;
the method for obtaining the conventional conductivity of the curved flexible screen and generating the preset conductivity test scheme of the curved flexible screen in each working scene according to each regional division scheme and the conventional conductivity comprises the following steps:
acquiring conventional conductive performance of the curved flexible screen, and acquiring first variable conductive performance of the transition area and second variable conductive performance of the bending area according to the conventional conductive performance and the area division scheme;
acquiring each working scene of the curved flexible screen, and acquiring expected action data of a corresponding working scene setting device according to each working scene; the working scene setting device is used for realizing the working scene of the curved flexible screen;
acquiring position state information of the curved flexible screen in each working scene, and combining a region division scheme of the curved flexible screen with the position state information to acquire position state information of a plane region, a transition region and a bending region of the curved flexible screen;
generating expected action data of a conductive test device according to the first variable conductive performance, the second variable conductive performance and the position state information; the conduction testing device is used for conducting conduction tests on all areas of the curved flexible screen in all working scenes respectively;
binding each working scene with the expected action data of the corresponding working scene setting device and the expected action data of the conductive testing device to generate a preset conductive testing scheme of the curved flexible screen.
6. An apparatus for conducting a conductive test of a curved flexible screen, comprising a memory and a processor, the memory having a computer program stored therein, wherein the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 4.
7. A storage medium for conductive testing of a curved flexible screen, characterized in that it has stored thereon computer program instructions which, when executed by a processor, cause the processor to perform the method according to any of claims 1-4.
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