WO2023246920A1

WO2023246920A1 - Method and apparatus for adjusting light transmittance of glass, and device and storage medium

Info

Publication number: WO2023246920A1
Application number: PCT/CN2023/101934
Authority: WO
Inventors: 吴陈青; 李国林; 王宁; 王焕霞; 孙留旗; 李丹; 徐云
Original assignee: 浙江极氪智能科技有限公司; 浙江吉利控股集团有限公司
Priority date: 2022-06-24
Filing date: 2023-06-21
Publication date: 2023-12-28
Also published as: CN115157978A

Abstract

The present application belongs to the technical field of vehicles. Disclosed are a method and apparatus for adjusting the light transmittance of glass, and a device and a storage medium. The method comprises: receiving a light transmittance adjustment instruction, wherein the light transmittance adjustment instruction comprises a first target light transmittance level; determining level correspondence information corresponding to the current moment, wherein the level correspondence information represents a capacitance amount of the current level that corresponds to each preset light transmittance level from among a plurality of preset light transmittance levels; and when the current light transmittance level does not match the first target light transmittance level, on the basis of the level correspondence information, adjusting a capacitance amount of the current level that corresponds to the current light transmittance level to a capacitance amount of the current level that corresponds to the first target light transmittance level.

Description

Adjustment methods, devices, equipment and storage media for glass transmittance

Related applications

This application claims priority to the Chinese patent application with application number 202210730006.9 filed on June 24, 2022, the entire content of which is incorporated into this application by reference.

Technical field

This application relates to the field of vehicle technology, specifically a method, device, equipment and storage medium for adjusting the light transmittance of glass.

Background technique

The internal structure of the car window glass includes a dimming film. In the absence of an electric field, the dimming film is in a light-transmitting and opaque state. When alternating current is supplied, the liquid crystal molecules are arranged in an orderly manner. At this time, the dimming film changes from transparent to transparent. When the light opaque state is converted to a transparent state, traditional car window glass can only set the light transmittance within a fixed range and cannot realize dimming and color changing functions, making it impossible for passengers to adjust the light transmittance of the ribbon area according to environmental factors.

Contents of the invention

In order to overcome the shortcomings and deficiencies of the existing technology, this application discloses a method for adjusting the light transmittance of glass, which can realize intelligent adjustment of the light transmittance of the glass, adjust the light transmittance of the glass to the first target light transmittance, and can Improve the accuracy of gear adjustment. The method includes:

Receive a light transmittance adjustment instruction; the light transmittance adjustment instruction includes a first target light transmittance gear, and the first target light transmittance gear matches the target light transmittance;

Determine the gear corresponding information corresponding to the current moment; the gear corresponding information represents the current gear capacitance corresponding to each of the multiple preset light transmittance gears;

In the case where the current light transmittance level does not match the first target light transmittance level, based on the Gear corresponding information: adjust the current gear capacitance corresponding to the current light transmittance gear to the current gear capacitance corresponding to the first target light transmittance gear, so that the light transmittance of the glass Adjust to the target transmittance.

Furthermore, before receiving the light transmittance adjustment instruction, the method further includes:

Determine multiple preset temperature intervals and multiple preset light intensity intervals;

Combine the plurality of preset temperature intervals and the plurality of preset light intensity intervals to obtain multiple temperature and light combinations;

Determine the preset light transmittance gear corresponding to each of the plurality of temperature illumination combinations;

Establish a corresponding relationship between the multiple temperature illumination combinations and their corresponding preset light transmittance levels.

Furthermore, in the case where the current light transmittance gear does not match the first target light transmittance gear, based on the gear corresponding information, the current light transmittance gear corresponding to the current light transmittance gear is The gear capacitance is adjusted to the current gear capacitance corresponding to the first target light transmittance gear, including:

At a target time that is after the current time and is separated by a preset time interval from the current time, obtain the target temperature information and target light intensity information corresponding to the target time;

Based on the target temperature information and target light intensity information corresponding to the target time, determine the second target transmittance level;

When the first target light transmittance level matches the second target light transmittance level, the current level capacitance corresponding to the current light transmittance level is adjusted to the first The current gear capacitance corresponding to the target transmittance gear.

Furthermore, the gear corresponding information is also used to characterize the current open circuit voltage corresponding to each of the multiple preset light transmittance gears;

Determining the gear corresponding information corresponding to the current moment includes:

Receive a gear position self-calibration instruction, which includes the current total glass capacitance;

Based on the current total glass capacitance, determine the current gear capacitance corresponding to each of the plurality of preset light transmittance gears;

Determine the current open circuit voltage corresponding to the current gear capacitance corresponding to each of the plurality of preset light transmittance gears;

Based on the current gear capacitance corresponding to each of the multiple preset light transmittance gears, and the current open circuit voltage corresponding to the current gear capacitance corresponding to each of the multiple preset light transmittance gears, the generated Describes the gear corresponding information corresponding to the current moment.

Furthermore, the method also includes:

Determine the current gear capacitance corresponding to the current open circuit voltage based on the current open circuit voltage;

The current light transmittance gear is determined based on the current gear capacitance corresponding to the current open circuit voltage.

Furthermore, before receiving the gear position self-calibration instruction, the method includes:

Get the total glass capacitance in the last calibration cycle;

The difference between the current total glass capacitance and the total glass capacitance in the previous calibration cycle is determined, and when the difference is greater than the preset difference, a gear self-calibration instruction is generated.

In the case where the current light transmittance gear does not match the first target light transmittance gear, determining the current gear capacitance based on the currently detected current open circuit voltage;

Determine the current gear capacitance corresponding to the first target light transmittance gear;

The current gear capacitance corresponding to the current open circuit voltage is adjusted to the current gear capacitance corresponding to the first target light transmittance gear, so that the glass is adjusted to the target dimming gear.

On the other hand, this application also provides a device for adjusting the light transmittance of glass, including:

a receiving module, configured to receive a light transmittance adjustment instruction; the light transmittance adjustment instruction includes a first target light transmittance gear, and the first target light transmittance gear matches the target light transmittance;

A determination module, used to determine the gear corresponding information corresponding to the current moment; the gear corresponding information represents the current gear capacitance corresponding to each of the multiple preset light transmittance gears;

An execution module, when the current light transmittance gear does not match the first target light transmittance gear, based on the gear corresponding information, converts the current gear corresponding to the current light transmittance gear to The capacity is adjusted to the current gear capacitance corresponding to the first target light transmittance gear, so that the light transmittance of the glass is adjusted to the target light transmittance.

In a third aspect, the present application also provides an electronic device. The device includes a processor and a memory. The memory stores at least one instruction, at least a program, a code set or an instruction set. The at least one instruction, the At least one program, the code set or the instruction set is loaded and executed by the processor to implement a method for adjusting the light transmittance of glass as described above.

In a fourth aspect, the present application also provides a computer-readable storage medium, which stores at least one instruction, at least a program, a code set or an instruction set, and the at least one instruction, at least A program, code set or instruction set is loaded by the processor and executes a method for adjusting the light transmittance of glass as described above.

Implementing this application will have the following beneficial effects:

This application adjusts the light transmittance gear of the glass by receiving the light transmittance adjustment instruction. The light transmittance adjustment instruction includes the first target light transmittance gear. When the current light transmittance gear is equal to the first target light transmittance gear, In the case of mismatch, the current gear capacitance corresponding to the light transmittance gear is adjusted to the first target light transmittance gear, so that the light transmittance of the glass is automatically adjusted to the target light transmittance, realizing intelligent glass The light transmittance adjustment; before performing the light transmittance gear adjustment, determine the gear corresponding information corresponding to the current moment. When the capacitance of the current gear corresponding to each of the multiple preset light transmittance gears is attenuated, Based on the current gear capacitance attenuation corresponding to the preset light transmittance gears, the target capacitance corresponding to the first target light transmittance gear is determined to improve the accuracy of gear adjustment.

Description of the drawings

In order to explain the technical solution of the present application more clearly, the drawings required to be used in the embodiments or description of the prior art will be briefly introduced below. Obviously, the drawings in the following description are only some embodiments of the present application. , for those of ordinary skill in the art, other drawings can also be obtained based on these drawings without exerting creative efforts.

Figure 1 is a schematic diagram of the internal structure of the vehicle window glass provided by the embodiment of the present application;

Figure 2 is a flow chart of a method for adjusting the light transmittance of glass provided by an embodiment of the present application;

Figure 3 is a flow chart of a method for determining gear corresponding information corresponding to the current moment provided by an embodiment of the present application;

Figure 4 is a flow chart of gear self-calibration provided by an embodiment of the present application;

Figure 5 is a structural block diagram of a device for adjusting the light transmittance of glass provided by an embodiment of the present application.

Detailed ways

In order to enable those in the technical field to better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described The embodiments are only some of the embodiments of this application, not all of them. Based on the embodiments in this application, those of ordinary skill in the art have obtained the results without any creative efforts. All other embodiments obtained should fall within the scope of protection of this application.

In this embodiment, referring to the car window glass structure shown in Figure 1, from top to bottom are glass, PVB (Polyvinyl Butyral, polyvinyl butyral), dimming film, PVB and glass. The dimming film Connect the positive and negative electrode lines. The distance between the electrode lines is greater than 15mm. The electrodes are connected to the controller. The upper edge of the dimming film is greater than 15mm from the upper edge of the glass. The left and right edges are greater than 15mm from the left and right edges of the glass. The lower edge is set according to the needs of the car model. . This embodiment can realize intelligent adjustment of the light transmittance of the glass, adjust the light transmittance of the glass to the first target light transmittance, and improve the accuracy of gear adjustment. Referring to Figure 2, the method includes:

S110: Receive the light transmittance adjustment instruction; the light transmittance adjustment instruction includes the first target light transmittance gear, and the first target light transmittance gear matches the target light transmittance;

The execution subject of this embodiment is the processor. When the environmental parameter information reaches the requirements for light transmittance adjustment, the controller automatically issues a light transmittance adjustment instruction. When the user is willing to adjust the light transmittance level, he or she can also adjust the light transmittance level on the vehicle-mounted terminal. Enter, and also enter the first target transmittance level or target transmittance.

S120: Determine the gear corresponding information corresponding to the current moment; the gear corresponding information represents the current gear capacitance corresponding to each of multiple preset light transmittance gears;

As the use time increases, the total amount of glass capacitance will decrease. In order to ensure that multiple preset light transmittance gears can be adjusted normally, before adjusting the light transmittance gear, it is necessary to determine the gear corresponding to the current moment. Information, the gear corresponding information represents the current gear capacitance corresponding to multiple preset light transmittance gears. Based on the reduction of the total amount of glass capacitance, the current gear capacitance corresponding to multiple preset light transmittance gears is Capacity recalibration; determine the update period of the gear corresponding information based on the attenuation of the total amount of glass capacitance, and the gear corresponding information can be updated at the end of each update cycle; determine the preset attenuation, and the update period is the last update After the end of the gear corresponding information, it is the period until the attenuation rate of the total glass capacitance reaches the preset attenuation amount. For example, the preset attenuation amount is 100. After the last update of the gear corresponding information, it is the period until the total amount of glass capacitance is detected. The time between the attenuation reaching 100 is 10 days, then 10 days is determined as the update cycle of the gear corresponding information, and the gear corresponding information is updated at the end of the 10th day; if the gear corresponding information is updated after the last update , the time between the detection of the attenuation of the total glass capacitance reaching 100 is 7 days, then 7 days is determined as the update cycle of the corresponding information of this gear, and the corresponding information of the gear is updated at the end of the 7th day; it is ok What we know is that the attenuation speed of the total amount of glass capacitance is not static, so the update cycle of the corresponding gear information is not a fixed cycle.

S130: When the current transmittance level does not match the first target transmittance level, based on the bit corresponding information, adjusting the current gear capacitance corresponding to the current light transmittance gear to the current gear capacitance corresponding to the first target light transmittance gear, so that the light transmittance of the glass is adjusted to the target light transmittance;

By receiving the light transmittance adjustment instruction, the light transmittance gear of the glass is adjusted. The light transmittance adjustment instruction can be automatically issued by the processor. The light transmittance adjustment instruction includes the first target light transmittance gear. At the current light transmittance When the gear does not match the first target light transmittance gear, the current gear capacitance corresponding to the light transmittance gear is adjusted to the first target light transmittance gear so that the light transmittance of the glass is automatically adjusted. is the target light transmittance. When the current light transmittance level matches the first target light transmittance level, the light transmittance of the glass is not adjusted. The light transmittance gear can be manually input according to the user's wishes, so that the light transmittance of the glass can be automatically adjusted to the target light transmittance of the user's wishes; automatic gear adjustment and manual adjustment can be combined to realize intelligent glass light transmittance adjustment. ; Before performing the light transmittance gear adjustment, determine the gear corresponding information corresponding to the current moment. The update period of the gear corresponding information can be determined based on the attenuation of the total glass capacitance. The gear corresponding information can accurately reflect the current moment. The current capacitance corresponding to each of the multiple preset light transmittance gears, the current capacitance corresponding to the first target light transmittance gear is determined in the gear corresponding information, and the current capacitance corresponding to the multiple preset light transmittance gears is determined. When the capacitance of the current gear is attenuated, ensure that each preset light transmittance gear is adjusted normally to improve the accuracy of gear adjustment.

In one implementation, before step S110, the method further includes:

S210: Determine multiple preset temperature intervals and multiple preset light intensity intervals;

The environmental parameter information includes temperature information and light intensity information, and multiple preset temperature intervals and multiple preset light intensity intervals are predetermined.

S220: Combine multiple preset temperature intervals and multiple preset light intensity intervals to obtain multiple temperature and light combinations;

S230: Determine the preset transmittance levels corresponding to multiple temperature light combinations;

S240: Establish a corresponding relationship between multiple temperature illumination combinations and their corresponding preset transmittance levels;

Specifically, the corresponding relationship between multiple temperature illumination combinations and their respective preset light transmittance levels is as shown in the following table:

Table (1) Correspondence table between temperature and lighting combinations and preset transmittance levels

Among them, T is the temperature, E is the light intensity, I to X in the table are the set gears, where I is the gear with the smallest transmittance, and X is the gear with the largest transmittance. It should be noted that the above table Only one specific implementation is described without limitation. The corresponding relationship between the temperature and illumination combination and the preset light transmittance gear can be set by oneself. Predetermining the corresponding relationship between the temperature and illumination combination and the preset light transmittance gear can improve the efficiency of determining the first target light transmittance gear, thereby improving the efficiency of adjusting the light transmittance gear.

In one embodiment, when the current light transmittance gear does not match the first target light transmittance gear, the current gear capacitance corresponding to the current light transmittance gear is adjusted based on the gear corresponding information. It is the current gear capacitance corresponding to the first target light transmittance gear, including:

S131: At the target time after the current time and at a preset time interval from the current time, obtain the target temperature information and target light intensity information corresponding to the target time;

At the current time, the temperature information and the light intensity information corresponding to the current time are obtained. At the target time that is a preset time interval from the current time, the target temperature information and the target light intensity information corresponding to the target time are obtained. It can be understood that, in advance It is assumed that the temperature information and light intensity information are only obtained once within a certain period of time. As an implementation method, the preset time is five minutes.

S132: Determine the second target transmittance level based on the target temperature information and target light intensity information corresponding to the target time;

S133: When the first target light transmittance level matches the second target light transmittance level, adjust the current level capacitance corresponding to the current light transmittance level to the first target light transmittance level. Corresponding current gear capacitance;

When the first target light transmittance level matches the second target light transmittance level, the current level capacitance corresponding to the current light transmittance level is adjusted to the current level corresponding to the first target light transmittance level. Current gear capacitance; when the first target light transmittance gear does not match the second target light transmittance gear, it means that the surrounding environment information of the vehicle changes frequently and there is no need to adjust the gear. For example, when the vehicle is driving When in a tunnel, the environmental parameters suddenly change, but the vehicle will soon drive out of the tunnel and restore the previous environmental parameters. There is no need to adjust the light transmittance gear while passing through the tunnel to prevent frequent adjustments of the light transmittance gear. Improve passenger comfort.

In another implementation, the current light transmittance level is determined as the reference light transmittance level. After the time and in the detection period adjacent to the current time, obtain the temperature parameters and light intensity around the vehicle, and determine the corresponding third target light transmittance level; between the reference light transmittance level and the third target light transmittance level When the gear difference between the light transmittance gears is greater than or equal to the preset gear difference, the reference light transmittance gear is adjusted to the third target light transmittance gear; when the reference light transmittance gear and the third target light transmittance gear are When the gear difference is smaller than the preset gear difference, the reference transmittance level is maintained.

When the gear difference between the reference transmittance gear and the third target transmittance gear is less than the preset gear difference and the reference transmittance gear is maintained, the temperature parameters and illumination around the vehicle are obtained in the next detection cycle. intensity to determine the corresponding fourth target light transmittance level. When the difference between the reference light transmittance level and the fourth target light transmittance level is greater than or equal to the preset level difference, the reference light transmittance level will be used. The gear is adjusted to the fourth target transmittance gear; when the gear difference between the reference transmittance gear and the fourth target transmittance gear is less than the preset gear difference, the reference transmittance gear is maintained ; and so on, so as to achieve automatic adjustment of the light transmittance gear.

For example, it includes 4 detection cycles, the preset gear difference is 3, and the reference transmittance gear is 2. In the first detection cycle, the current transmittance gear is the reference transmittance gear by default. The detection cycle should be adjusted to level 3 based on the detection of temperature and light intensity. At this time, compared with the reference transmittance level, the gear difference is 1, so the gear adjustment is not performed in the first detection cycle; the second detection cycle detects The gear should be adjusted to gear 6, and still compared with the reference transmittance gear. The gear difference is 4, so in the second detection cycle, adjust the gear to gear 6, and gear 6 is the reference gear. , it is detected in the third detection cycle that the gear should be adjusted to gear 2. At this time, it should be compared with the reference gear (6th gear). The gear difference is 4. In the third detection cycle, the gear should be adjusted to 2. gear, it is detected in the fourth detection cycle that the gear should be adjusted to gear 7. At this time, it should be compared with the reference gear (gear 2). The gear difference is 5, so in the fourth detection cycle, the gear should be adjusted to 7th gear, determine 7th gear as the reference gear, and repeat.

In one embodiment, referring to Figure 3, the gear corresponding information is also used to characterize the current open circuit voltage corresponding to each of multiple preset light transmittance gears;

Step S120 includes:

S121: Receive the gear self-calibration command, which includes the current total glass capacitance;

Receive gear self-calibration instructions. The gear self-calibration instructions can be automatically issued by the controller or input independently by the user.

S122: Based on the current total glass capacitance, determine the current gear capacitance corresponding to each of the multiple preset light transmittance gears;

Before the vehicle leaves the factory, the current gear capacitance corresponding to each of the multiple preset light transmittance gears is determined through calibration. During the use of the vehicle, the total glass capacitance attenuates, according to each preset light transmittance gear before the vehicle leaves the factory. The ratio of the corresponding current gear capacitance to the total glass capacitance is recalibrated to obtain the updated current gear capacitance corresponding to each preset light transmittance gear. For example, 10 light transmittance gears can be preset, the total amount of glass capacitance is A _n , the capacitance corresponding to the first gear is A ₁ , the capacitance corresponding to the second gear is A ₂ ,..., the tenth gear The corresponding capacitance is A ₁₀ , and the sum of A ₁ , A ₂ ...A ₁₀ is A _n . During the use of the vehicle, the total capacitance is attenuated. The total capacitance of the glass at the current moment is B _n , B _n <A _n . After the gear self-calibration process, the capacitance corresponding to the first gear is The capacitance corresponding to the second gear is ..., the capacitance corresponding to the tenth gear is

S123: Determine the current open circuit voltage corresponding to the current gear capacitance corresponding to each of the multiple preset light transmittance gears;

As usage time increases, the total amount of glass capacitance will decrease. In order to ensure normal adjustment between multiple preset light transmittance gears, it is necessary to determine the current gear corresponding to each of the multiple preset light transmittance gears. Capacitance, since it is difficult to quickly measure the capacitance corresponding to the current transmittance level, it is necessary to measure the capacitance corresponding to the current transmittance level through the open circuit voltage. Since the total amount of glass capacitance is decreasing, the recalibrated The capacitance of the current gear corresponding to each of the multiple preset light transmittance gears will also be reduced compared to the current gear capacitance corresponding to each preset light transmittance gear in the last calibration. At this time, each preset light transmittance level will be reduced. The current gear capacitance corresponding to each transmission gear does not match the current open circuit voltage corresponding to each preset transmittance gear. Therefore, it is necessary to base on the current gear capacitance corresponding to multiple preset transmittance gears. , to determine the current open circuit voltage corresponding to the current gear capacitance corresponding to each of the multiple preset light transmittance gears.

S124: Based on the current gear capacitance corresponding to the multiple preset light transmittance gears and the current open circuit voltage corresponding to the current gear capacitance corresponding to the multiple preset light transmittance gears, generate the current time corresponding to The gear corresponding information.

Recalibrating the current capacitance corresponding to each preset light transmittance gear and the current open circuit voltage corresponding to each preset light transmittance gear can avoid affecting the light transmittance level due to the attenuation of the total glass capacitance. The normal adjustment of the position improves the stability of the light transmittance gear adjustment.

In one embodiment, the method further includes:

S310: Determine the current gear capacitance corresponding to the current open circuit voltage;

S320: Determine the current transmittance level based on the current gear capacitance corresponding to the current open circuit voltage;

Since it is difficult to quickly measure the capacitance corresponding to the current light transmittance level, it is necessary to determine the capacitance corresponding to the current light transmittance level through the open circuit voltage, thereby determining the current light transmittance level and improving the current light transmittance. Gear determination efficiency.

In one implementation, before receiving the gear self-calibration instruction, the process includes:

S410: Obtain the total glass capacitance in the previous calibration cycle;

The calibration period is determined based on the attenuation of the total glass capacitance, and the total glass capacitance in the previous calibration period is obtained at the time interval of the calibration period. The calibration period is consistent with the gear corresponding information update period mentioned above in this embodiment.

S420: Determine the difference between the current total glass capacitance corresponding to the current open circuit voltage and the total glass capacitance in the previous calibration cycle. If the difference is greater than the preset difference, generate a gear self-calibration instruction;

When it is determined that the difference between the current total amount of glass and the total amount of glass capacitance in the previous calibration cycle is greater than the preset difference, the controller automatically issues a gear self-calibration instruction. In this process, it is determined whether the vehicle currently meets the gear level. The conditions for self-calibration are specifically to determine whether there are passengers in the car at this time. It may be possible to start the vehicle at any time while riding, so the conditions for self-calibration are not met when there are passengers in the car. In addition, the temperature and light intensity It will also interfere with the gear self-calibration. As an implementation method, the gear self-calibration is performed in the early morning when there is no one in the car. Before performing the gear self-calibration, fully consider the interference caused by environmental factors around the vehicle. , improve the accuracy of gear self-calibration; after determining the difference between the current total glass capacitance and the total glass capacitance in the previous calibration cycle, when the difference is greater than the preset difference, generate a gear self-calibration instruction , automatically performs self-calibration of the gear position, this process does not require human intervention, and realizes intelligent calibration of the gear position.

Specifically, referring to Figure 4, the gear self-calibration process is:

Step 1: Receive the gear position self-calibration command, detect the current total glass capacitance, and record the current total glass capacitance detection result; the process of detecting the current total glass capacity: detect the current light transmittance gear, if the current light transmittance gear When the bit is equal to 1, enter the target light transmittance level 10. If the current light transmittance level is not equal to 1, enter the target light transmittance level 1. When the gear reaches level 1, enter the target gear 10 again. Record the capacitance corresponding to each gear from gear 1 to gear 10 to obtain the current total glass capacitance.

Step 2: Determine the difference between the current total glass capacitance and the total glass capacitance in the previous calibration cycle; if the difference is not greater than the preset difference, proceed to step 3; if the difference is greater than the preset difference, proceed to step 4 .

Step 3: Set the processor to 0 and enter sleep mode.

Step 4: Set the processor to 1 and determine whether the current environment meets the gear self-calibration conditions; if the conditions are met, proceed to step 5.

Step 5: Determine the ratio of the current capacitance corresponding to each preset transmittance level to the total glass capacitance. For example, the current capacitance corresponding to each preset transmittance level is redistributed based on the ratio.

Step 6: Determine the current open circuit voltage corresponding to each preset light transmittance level based on the current capacitance corresponding to each preset light transmittance level;

Step 7: Update the gear corresponding information corresponding to the current moment and perform step 3.

S510: When the current light transmittance gear does not match the first target light transmittance gear, determine the current gear capacitance based on the currently detected current open circuit voltage;

S520: Determine the current gear capacitance corresponding to the first target light transmittance gear based on the gear corresponding information;

S530: Adjust the current gear capacitance to the current gear capacitance corresponding to the first target light transmittance gear, so that the glass is adjusted to the target light transmittance gear;

Determine the current gear capacitance based on the currently detected current open circuit voltage; refer to the current capacitance corresponding to the first target transmittance gear in the recalibrated gear corresponding information, and the gear corresponding information is predetermined information, It can be used directly during the light transmittance gear adjustment process, which can improve the efficiency of light transmittance gear adjustment.

It should be noted that this glass transmittance adjustment method can be used on any glass window of the vehicle.

This embodiment also provides a device for adjusting the light transmittance of glass, which can implement all the above method steps. Referring to Figure 5, the device includes:

The receiving module 610 is configured to receive a light transmittance adjustment instruction; the light transmittance adjustment instruction includes a first target light transmittance gear, and the first target light transmittance gear matches the target light transmittance;

The determination module 620 is used to determine the gear corresponding information corresponding to the current moment; the gear corresponding information represents the current gear capacitance corresponding to each of the multiple preset light transmittance gears;

Execution module 630: When the current light transmittance gear does not match the first target light transmittance gear, based on the gear corresponding information, adjust the current gear capacitance corresponding to the current light transmittance gear to the first target light transmittance gear. The current gear capacitance corresponding to the target light transmittance gear is used to adjust the light transmittance of the glass to the target light transmittance.

Implementing this embodiment has the following effects:

1. This application adjusts the light transmittance level of the glass by receiving the light transmittance adjustment instruction. The first target light transmittance level can be automatically detected by the processor, or can be actively input by the user. The light transmittance adjustment instruction Let include the first target light transmittance gear, and when the current light transmittance gear does not match the first target light transmittance gear, adjust the current gear capacitance corresponding to the light transmittance gear to the first The target light transmittance gear is to automatically adjust the light transmittance of the glass to the target light transmittance. Automatic adjustment and manual adjustment are combined to realize the light transmittance adjustment of intelligent glass; before performing the light transmittance gear adjustment, Determine the gear corresponding information corresponding to the current moment. When the current gear capacitance corresponding to each of the multiple preset light transmittance gears is attenuated, based on the current gear capacitance corresponding to the preset light transmittance gear. Attenuation, determine the target capacitance corresponding to the first target transmittance gear, and improve the accuracy of gear adjustment.

2. Within the preset time, the temperature information and light intensity information are only obtained once. When the first target light transmittance level does not match the second target light transmittance level, the current light transmittance level is corresponding to The current gear capacitance is adjusted to the current gear capacitance corresponding to the second target light transmittance gear. This prevents the light transmittance gear from being frequently adjusted due to frequent changes in environmental information around the vehicle, thereby improving passenger comfort and improving Processing efficiency of temperature information and light intensity information.

Embodiments of the present application also provide an electronic device. The electronic device includes a processor and a memory. The memory stores at least one instruction, at least a program, a code set, or an instruction set. At least one instruction, at least a program, a code set, or an instruction set. The instruction set is loaded and executed by the processor to implement a method for adjusting the light transmittance of glass as in the method embodiment.

Embodiments of the present application also provide a storage medium, which can be disposed in a server to store at least one instruction and at least one program for implementing a method for adjusting the light transmittance of glass in the method embodiment. The code set or instruction set, the at least one instruction, the at least one program, the code set or the instruction set are loaded and executed by the processor to implement the method for adjusting the light transmittance of glass provided by the above method embodiment.

In this embodiment, the above storage medium may be located in at least one network server among multiple network servers of the computer network. In this embodiment, the above-mentioned storage medium may include but is not limited to: U disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), mobile hard disk, magnetic disk or optical disk, etc. Various media that can store program code.

It should be noted that the terms "first", "second", etc. in the description and claims of this application and the above-mentioned drawings are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It is to be understood that the data so used are interchangeable under appropriate circumstances so that the embodiments of the application described herein can be practiced in sequences other than those illustrated or described herein. Furthermore, the terms "including" and "having" and any variations thereof are intended to cover non-exclusive inclusions, e.g. A series of steps or units of a process, method, system, product, or server need not be limited to those steps or units expressly listed, but may include other steps or units not expressly listed or inherent to such processes, methods, products, or devices. steps or units.

The above description has fully disclosed the specific implementation manner of the present application. Any changes made by those skilled in the art to the specific embodiments of the present application will not depart from the scope of the claims of the present application. Accordingly, the scope of the claims of this application is not limited only to the foregoing specific embodiments.

Claims

A method for adjusting the light transmittance of glass, which includes:

Receive a light transmittance adjustment instruction; the light transmittance adjustment instruction includes a first target light transmittance gear, and the first target light transmittance gear matches the target light transmittance;

Determine the gear corresponding information corresponding to the current moment; the gear corresponding information represents the current gear capacitance corresponding to each of the multiple preset light transmittance gears;

When the current light transmittance gear does not match the first target light transmittance gear, based on the gear corresponding information, the current gear capacitance corresponding to the current light transmittance gear is adjusted to The current gear capacitance corresponding to the first target light transmittance gear is used to adjust the light transmittance of the glass to the target light transmittance.
The method for adjusting the light transmittance of glass according to claim 1, wherein before receiving the light transmittance adjustment instruction, the method further includes:

Determine multiple preset temperature intervals and multiple preset light intensity intervals;

Combine the plurality of preset temperature intervals and the plurality of preset light intensity intervals to obtain multiple temperature and light combinations;

Determine the preset light transmittance gear corresponding to each of the plurality of temperature illumination combinations;

Establish a corresponding relationship between the multiple temperature illumination combinations and their corresponding preset light transmittance levels.
The method for adjusting the light transmittance of glass according to claim 1, wherein when the current light transmittance gear does not match the first target light transmittance gear, based on the gear corresponding information , adjusting the current gear capacitance corresponding to the current light transmittance gear to the current gear capacitance corresponding to the first target light transmittance gear, including:

At a target time that is after the current time and is separated by a preset time interval from the current time, obtain the target temperature information and target light intensity information corresponding to the target time;

Based on the target temperature information and target light intensity information corresponding to the target time, determine the second target transmittance level;

When the first target light transmittance level matches the second target light transmittance level, the current level capacitance corresponding to the current light transmittance level is adjusted to the first Target transmittance level Corresponding current gear capacitance.
The method for adjusting the light transmittance of glass according to claim 1, wherein the gear corresponding information is also used to characterize the current open circuit voltage corresponding to each of the plurality of preset light transmittance gears;

Determining the gear corresponding information corresponding to the current moment includes:

Receive a gear position self-calibration instruction, which includes the current total glass capacitance;

Based on the current total glass capacitance, determine the current gear capacitance corresponding to each of the plurality of preset light transmittance gears;

Determine the current open circuit voltage corresponding to the current gear capacitance corresponding to each of the plurality of preset light transmittance gears;

Based on the current gear capacitance corresponding to each of the multiple preset light transmittance gears, and the current open circuit voltage corresponding to the current gear capacitance corresponding to each of the multiple preset light transmittance gears, the generated Describes the gear corresponding information corresponding to the current moment.
The method for adjusting the light transmittance of glass according to claim 4, further comprising:

Determine the current gear capacitance corresponding to the current open circuit voltage;

The current light transmittance gear is determined based on the current gear capacitance corresponding to the current open circuit voltage.
The method for adjusting the light transmittance of glass according to claim 4, wherein before receiving the gear self-calibration instruction, the method includes:

Get the total glass capacitance in the last calibration cycle;

The difference between the current total glass capacitance and the total glass capacitance in the previous calibration cycle is determined, and when the difference is greater than the preset difference, a gear self-calibration instruction is generated.
The method for adjusting the light transmittance of glass according to claim 1, wherein when the current light transmittance gear does not match the first target light transmittance gear, based on the gear corresponding information , adjusting the current gear capacitance corresponding to the current light transmittance gear to the current gear capacitance corresponding to the first target light transmittance gear, including:

In the case where the current light transmittance gear does not match the first target light transmittance gear, determining the current gear capacitance based on the currently detected current open circuit voltage;

Determine the current gear capacitance corresponding to the first target light transmittance gear based on the gear corresponding information;

Adjust the current gear capacitance corresponding to the current open circuit voltage to the current gear capacitance corresponding to the first target light transmittance gear, so that the light transmittance gear of the glass is adjusted to the target Dimming gear.
A device for adjusting the light transmittance of glass, which includes:

a receiving module, configured to receive a light transmittance adjustment instruction; the light transmittance adjustment instruction includes a first target light transmittance gear, and the first target light transmittance gear matches the target light transmittance;

A determination module, used to determine the gear corresponding information corresponding to the current moment; the gear corresponding information represents the current gear capacitance corresponding to each of the multiple preset light transmittance gears;

An execution module, when the current light transmittance gear does not match the first target light transmittance gear, based on the gear corresponding information, converts the current gear corresponding to the current light transmittance gear to The capacity is adjusted to the current gear capacitance corresponding to the first target light transmittance gear, so that the light transmittance of the glass is adjusted to the target light transmittance.
An electronic device, wherein the device includes a processor and a memory, the memory stores at least one instruction, at least a program, a code set or an instruction set, the at least one instruction, the at least a program, the A code set or instruction set is loaded and executed by the processor to implement the method for adjusting the light transmittance of glass as described in any one of claims 1 to 7.
A computer-readable storage medium, wherein at least one instruction, at least a program, a code set or an instruction set is stored in the storage medium, and the at least one instruction, at least a program, code set or instruction set is loaded by a processor And perform a method for adjusting the light transmittance of glass as described in any one of claims 1 to 7.