CN116033622A - Light emission control method, terminal and computer-readable storage medium - Google Patents

Abstract

The application provides a light emission control method, a terminal and a computer readable storage medium. The light-emitting control method is applied to a terminal, a lamp strip and a transparent rear cover are arranged on the back surface of the terminal, the back surface is a surface opposite to a display screen of the terminal, the transparent rear cover integrally covers the back surface of the terminal, the lamp strip is used for emitting light, and the transparent rear cover is used for transmitting the light emitted by the lamp strip; the light emission control method includes: acquiring environment information of the environment in which the terminal is positioned, wherein the environment information comprises at least one of temperature, humidity and environment brightness; determining luminous information of the lamp strip according to the environment information, wherein the luminous information of the lamp strip comprises luminous parameters of the lamp strip and/or a target area of the lamp strip; and controlling the light belt to emit light according to the light-emitting information. According to the light-emitting control method, the environment information can be indicated by the lamp belt arranged on the back of the terminal, and a screen does not need to be lightened, so that a user can conveniently acquire the environment information of the terminal.

Description

Light emission control method, terminal and computer-readable storage medium

Technical Field

The present disclosure relates to the field of terminal technologies, and in particular, to a light emission control method, a terminal, and a computer readable storage medium.

Background

Mobile terminals have become very popular electronic products, and when viewing environment information, a user needs to light up a screen to view the environment information of the current environment in which the mobile terminal is located, so that it is very inconvenient for the user to view the environment information.

Disclosure of Invention

In order to solve the technical problems, the application provides a lighting control method, a terminal and a computer readable storage medium, which can display environment information through a lamp belt arranged on the back of the terminal without lighting a screen, so that a user can conveniently acquire the environment information of the terminal.

The first aspect of the present application provides a light emission control method, which is applied to a terminal, wherein a light strip and a transparent rear cover are arranged on the back surface of the terminal, the transparent rear cover integrally covers the back surface of the terminal, the back surface is a surface opposite to a display screen of the terminal, the light strip is used for emitting light, and the transparent rear cover is used for transmitting the light emitted by the light strip; the light emission control method includes: acquiring environment information of the environment in which the terminal is positioned, wherein the environment information comprises at least one of temperature, humidity and environment brightness; determining the luminous information of the lamp strip according to the environment information, wherein the luminous information of the lamp strip comprises luminous parameters of the lamp strip and/or a target area of the lamp strip; and controlling the lamp strip to emit light according to the light-emitting information.

A second aspect of the present application provides a terminal comprising a light strip, a transparent back cover, an environmental sensor, a processor, and a memory. The lamp strip is arranged on the back surface of the terminal, and the back surface is the surface opposite to the display screen of the terminal. The transparent rear cover is used for integrally sealing the back surface of the terminal, provided with the lamp strip, and is used for transmitting light emitted by the lamp strip. The environment sensor is used for acquiring environment information of the environment where the terminal is located, and the environment information comprises at least one of temperature, humidity and environment brightness. The memory stores a computer program, and the processor executes the computer program to perform the light emission control method described above.

A third aspect of the present application provides a computer readable storage medium having stored therein a computer program for execution after being called by a processor to implement the foregoing light emission control method.

According to the lighting control method, the terminal and the computer readable storage medium, the environment information can be displayed through the lamp strip arranged on the back of the terminal without lighting a screen, so that a user can conveniently acquire the environment information of the terminal.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a light emission control method according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a back structure of a terminal according to an embodiment of the present application.

FIG. 3 is a schematic diagram of a target area indicating a temperature according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a target area indicating another temperature according to another embodiment of the present application.

Fig. 5 is a schematic diagram showing a humidity indication of a target area according to an embodiment of the present application.

Fig. 6 is a schematic diagram of a target area indicating another humidity according to another embodiment of the present application.

Fig. 7 is a block diagram of a structure of a terminal according to an embodiment of the present application.

Fig. 8 is a schematic diagram of a connection structure of a light strip, a controller and a power supply according to an embodiment of the present application.

Fig. 9 is a block diagram of a terminal according to another embodiment of the present application.

Description of main reference numerals:

terminal 100

Lamp strip 10

First region 11

Second region 12

Third region 13

First sub-region 111

Second subregion 121

Transparent rear cover 20

Environmental sensor 30

Controller 40

Memory cell 50

Detection unit 60

Processor 80

Memory 90

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without undue burden, are within the scope of the present application.

In the description of the present application, the terms "first," "second," "third," "fourth," "fifth," and the like are used for distinguishing between different objects and not for describing a particular sequence, and furthermore, the terms "upper," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the description of the present application, unless explicitly stated and limited otherwise, the term "coupled" is to be interpreted broadly, as for example, being either fixedly coupled, detachably coupled, or integrally coupled; can be directly connected, can also be indirectly connected through an intermediate medium, and can also be the communication between the two elements; may be a communication connection; may be an electrical connection. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

Referring to fig. 1 and fig. 2 together, fig. 1 is a flowchart of a light emission control method according to an embodiment of the present application, and fig. 2 is a schematic diagram of a back structure of a terminal 100. The light emission control method is applied to the terminal 100. As shown in fig. 2, the back surface of the terminal 100 is provided with a light strip 10 and a transparent back cover 20, the transparent back cover 20 integrally covers the back surface of the terminal 100, where the back surface is opposite to the display screen of the terminal 100, the light strip 10 is used for emitting light, and the transparent back cover 20 is used for transmitting the light emitted by the light strip 10. As shown in fig. 1, the light emission control method includes the steps of:

s101: environmental information of the environment in which the terminal 100 is located is acquired, where the environmental information includes at least one of temperature, humidity, and environmental brightness.

S102: and determining the light emitting information of the lamp strip 10 according to the environment information, wherein the light emitting information of the lamp strip 10 comprises the light emitting parameters of the lamp strip 10 and/or the target area of the lamp strip 10.

S103: the light strip 10 is controlled to emit light according to the light emission information.

According to the lighting control method provided by the embodiment of the invention, the environment information can be indicated through the lamp strip 10 arranged on the back surface of the terminal 100, and a screen does not need to be lightened, so that a user can conveniently acquire the environment information of the environment where the terminal 100 is positioned.

Wherein, in some embodiments, before the step S101, the step S102, or the step S103, the light emission control method further includes: the function of displaying the environmental information through the lamp strip 10 is turned on in response to the setting operation, so that the lamp strip 10 can be controlled to emit light according to the environmental information.

In some embodiments, in step S103, the controlling the light belt 10 to emit light according to the light emission information includes: controlling the light strip 10 to emit light with the light emission parameters, or controlling the target area to emit light with the light emission parameters; wherein the lighting parameters comprise brightness and/or color. Therefore, the user can intuitively know the current environment information.

In some embodiments, the light strip 10 comprises a first area 11, the environmental information comprises temperature, the lighting information of the light strip 10 comprises lighting parameters of the light strip 10, the lighting parameters comprising color, and/or a target area of the light strip 10. In step S102, the determining the lighting information of the light strip 10 according to the environmental information includes: determining a target color corresponding to the current temperature according to a first corresponding relation between the pre-stored temperature and the color; and/or determining a target area corresponding to the current temperature according to a second correspondence between the pre-stored temperature and the first area of the light strip 10.

Wherein when the light emission information includes a light emission parameter, the controlling the light emission of the light strip 10 according to the light emission information includes: the light strip 10 is controlled to emit light in the target color.

Wherein when the lighting information includes a target area, the controlling the lighting of the light strip 10 according to the lighting information includes: and controlling the target area to emit light.

Wherein when the lighting information includes a lighting parameter and a target area, and the lighting parameter includes a color, the controlling the lighting of the light strip 10 according to the lighting information includes: and controlling the target area to emit light in the target color.

According to the lighting control method provided by the embodiment of the invention, when the environment information includes the temperature, the target color and/or the target area corresponding to the current temperature are determined according to the preset first corresponding relation and/or the second corresponding relation, and the target area of the lamp strip 10 is controlled to emit light, or the lamp strip 10 emits light with the target color, or the target area emits light with the target color, so that a user can intuitively know the current environment temperature of the terminal 100 through the light emitting color and/or the light emitting area of the lamp strip 10.

In some embodiments, the first correspondence defines a relationship between a plurality of temperature intervals and a plurality of colors, each temperature interval corresponds to a color, and the second correspondence defines a relationship between a plurality of temperature intervals and a plurality of first sub-areas 111 of the first area 11, where each temperature interval corresponds to at least one first sub-area 111, and the areas corresponding to different temperature intervals include different numbers of first sub-areas 111.

Determining a target color corresponding to the current temperature according to a first corresponding relation between the pre-stored temperature and the color; and/or determining a target area corresponding to the current temperature according to a second correspondence between the pre-stored temperature and the first area of the light strip 10, including: determining a target temperature interval in which the current temperature is located; determining a target color corresponding to the target temperature interval according to the first corresponding relation; and/or determining an area formed by at least one first sub-area 111 corresponding to the target temperature interval as the target area according to the second corresponding relation.

Wherein, a plurality of temperature intervals can be preset, and at least one first sub-area 111 corresponding to each temperature interval is set. Wherein the interval range of each temperature interval may be the same or different.

In some embodiments, as shown in fig. 2, the first area 11 is elongated, and the plurality of first sub-areas 111 are arranged along an extending direction of the first area 11.

In some embodiments, each first sub-area 111 has the same length along the extending direction of the first area 11, and the areas corresponding to different temperature intervals include different numbers of first sub-areas 111.

The number of the first sub-areas 111 included in the area corresponding to the plurality of temperature intervals may increase as the interval value of the temperature interval increases, that is, the greater the interval value of the temperature interval is, the greater the number of the first sub-areas 111 included in the area corresponding to the temperature interval is. Obviously, the number of first sub-areas 111 included in the areas corresponding to the plurality of temperature intervals may also be set to different values at random.

In some embodiments, the region corresponding to the next temperature interval of the two adjacent temperature intervals includes the region corresponding to the previous temperature interval and the first sub-region 111 adjacent to the region corresponding to the previous temperature interval. Wherein the lower limit value of the latter temperature interval is larger than the upper limit value of the former temperature interval.

Referring to fig. 3 and fig. 4 together, fig. 3 is a schematic diagram of indicating a temperature of a target area according to an embodiment of the present application, and fig. 4 is a schematic diagram of indicating another temperature of the target area according to an embodiment of the present application. As shown in fig. 3, the plurality of temperature intervals are [10 ℃,20 ℃, (20 ℃,30 ℃, (30 ℃,35 ℃, ], (35 ℃,40 ℃, (40 ℃,50 ℃) respectively, the plurality of first sub-areas 111 include a first sub-area 111a, a first sub-area 111b, a first sub-area 111c, a first sub-area 111d and a first sub-area 111e which are sequentially arranged along the extending direction of the first area 11, the [10 ℃,20 ℃ ] corresponds to the first sub-area 111a, (20 ℃,30 ℃ ] corresponds to the first sub-area 111a and the first sub-area 111b, (30 ℃,35 ℃ ] corresponds to the first sub-area 111a, the first sub-area 111b and the first sub-area 111c, (35 ℃,40 ℃ ] corresponds to the first sub-area 111a, the first sub-area 111b, the first sub-area 111c and the first sub-area 111d, (40 ℃,50 ℃ ] corresponds to the first sub-area 111a, the first sub-area 111b, the first sub-area 111c, the first sub-area 111d and the first sub-area 111e when the current temperature is the target temperature is [10 ℃, the target temperature is 20 ℃ ], the first sub-area 111a, the first sub-area 111c is shown in the first sub-area 111c, and the first sub-area is shown in the target temperature zone (the first sub-area is shown as the first sub-area 111c, and the first sub-area is shown in the target area, and the first sub-area is shown in the first sub-area and the first sub-area is shown in the temperature zone 3 b and the first sub-area and the target area is shown in the temperature).

In some embodiments, the at least one first sub-region 111 included in the region corresponding to each temperature interval may be any at least one of the plurality of first sub-regions 111. For example, the region corresponding to the temperature interval [10 ℃,20 ℃ ] may be any one of the first sub-region 111a, the first sub-region 111b, the first sub-region 111c, the first sub-region 111d and the first sub-region 111e, and the region corresponding to the temperature interval (20 ℃,30 ℃ ] may be any two sub-regions of the first sub-region 111a, the first sub-region 111b, the first sub-region 111c, the first sub-region 111d and the first sub-region 111 e.

In other embodiments, each temperature interval may correspond to a first sub-area 111, the second correspondence defines a relationship between each temperature interval and a first sub-area 111, and the determining the target area corresponding to the current temperature according to the second correspondence between the pre-stored temperature and the first area 11 of the light strip 10 includes: and determining the first sub-region 111 corresponding to the target temperature interval as the target region according to the second corresponding relation.

Illustratively, the region corresponding to the temperature interval (20 ℃,30 ℃) is the first sub-region 111a, and the region corresponding to the temperature interval (40 ℃,50 ℃) is the first sub-region 111b.

Wherein, a plurality of temperature intervals can be preset, and the corresponding color of each temperature interval can be set. Wherein the interval range of each temperature interval may be the same or different.

For example, the temperature interval [ -10 ℃,0 ℃ corresponds to blue, the temperature interval (20 ℃,30 ℃) corresponds to green, the temperature interval (30 ℃,35 ℃) corresponds to yellow, the temperature interval (35 ℃,40 ℃) corresponds to orange, the temperature interval (40 ℃,50 ℃) corresponds to red when the target temperature interval where the current temperature is located is (40 ℃,50 ℃) the lamp strip 10 is controlled to emit red or the target area is controlled to emit red so as to inform a user that the temperature of the current environment where the terminal 100 is located is higher, the temperature should be reduced to prevent heatstroke and remind the user that the excessive temperature may cause damage to the terminal 100, and the lamp strip 10 is controlled to emit blue or the target area is controlled to emit blue when the target temperature interval where the current temperature is located is (-10 ℃,0 ℃) so as to remind the user that the temperature of the current environment where the terminal 100 is located is lower and the user should pay attention to keep warm.

The light-emitting control method can control the light bands 10 to emit light with different colors according to the current temperature, so that a user can directly obtain the temperature of the current environment of the terminal 100 through the sense color, and can control the target area corresponding to the current temperature to emit light with different colors according to the current temperature, so that the user can know the current temperature through the sense color, and can know the temperature interval in which the current temperature is located through the light-emitting area of the light bands 10, and can know the accurate temperature, wherein a plurality of colors corresponding to a plurality of temperature intervals can be set according to the color collocation mode, so that the aesthetic property of the terminal 100 can be improved.

As shown in fig. 2, the first area 11 of the light strip 10 may be disposed at an area near the bottom of the back surface of the terminal 100. The extending direction of the first region 11 may be parallel to the long side or the short side of the terminal 100. Obviously, the first area 11 may also be disposed at other positions on the back of the terminal 100.

Wherein the first area 11 may also have other shapes, such as a sector, triangle, ring, etc.

In some embodiments, as shown in fig. 2, the light strip 10 further includes a second region 12 spaced apart from the first region 11. The environmental information includes humidity and the lighting information of the light strip 10 includes a target area of the light strip 10. The determining the lighting information of the light strip 10 according to the environmental information includes: according to the third corresponding relation between the pre-stored humidity and the second area 12 of the lamp strip 10, the target area corresponding to the current humidity is determined.

Wherein the humidity may be relative humidity or absolute humidity.

Wherein said controlling the light emission of the light strip 10 according to the light emission information comprises: and controlling the target area to emit light.

According to the lighting control method provided by the embodiment of the invention, when the environment information includes humidity, the user can intuitively know the humidity of the environment where the terminal 100 is currently located through the lighting area of the lamp strip 10 by determining the target area corresponding to the current humidity according to the preset third corresponding relation and controlling the lighting of the target area of the lamp strip 10.

In some embodiments, the third correspondence defines a relationship between a plurality of humidity intervals and a plurality of second sub-areas 121 of the second area 12, where each humidity interval corresponds to at least one second sub-area 121, and the areas corresponding to different humidity intervals include different numbers of second sub-areas 121, and determining the target area corresponding to the current humidity according to the pre-stored third correspondence between the humidity and the second area 12 of the light band includes: determining a target humidity interval in which the current humidity is located; and determining an area formed by at least one second sub-area 121 corresponding to the target humidity interval as the target area according to the third corresponding relation.

Wherein the second region 12 is spaced apart from the first region 11.

In some embodiments, as shown in fig. 2, the second region 12 may be elongated. The plurality of second sub-regions 121 may be sequentially arranged along the extension direction of the second region 12.

Wherein, a plurality of humidity intervals can be preset, and at least one second sub-area 121 corresponding to each humidity interval is set. Wherein the interval range of each humidity interval may be the same or different.

In some embodiments, each second sub-area 121 has the same length along the extending direction of the second area 12, and the areas corresponding to different humidity ranges include different numbers of second sub-areas 121.

The number of the second sub-areas 121 included in the area corresponding to the plurality of humidity intervals may increase as the interval value of the humidity interval increases, that is, the greater the interval value of the humidity interval is, the greater the number of the second sub-areas 121 included in the area corresponding to the humidity interval is. Obviously, the number of second sub-areas 121 included in the area corresponding to the plurality of humidity intervals may also be set to different values at random.

In some embodiments, the region corresponding to the next humidity interval of the two adjacent humidity intervals includes a region corresponding to the previous humidity interval and a second sub-region 121 adjacent to the region corresponding to the previous humidity interval. Wherein the lower limit value of the latter humidity interval is greater than the upper limit value of the former humidity interval.

Referring to fig. 5 and fig. 6 together, fig. 5 is a schematic diagram of indicating a humidity of a target area provided in an embodiment of the present application, and fig. 6 is a schematic diagram of indicating another humidity of the target area provided in an embodiment of the present application. Illustratively, as shown in fig. 5, the plurality of humidity ranges are [30%,40% ], (40%, 50% ], (50%, 60% ], (60%, 75% ], and the plurality of second sub-areas 121 include second sub-areas 121a, 121b, 121c, and 121d [30%,40% ] corresponding to the second sub-areas 121a, (40%, 50% ] corresponding to the second sub-areas 121a and 121b, (50%, 60% ] corresponding to the second sub-areas 121a, 121b, and 121c, (60%, 75% ] corresponding to the second sub-areas 121a, 121b, 121c, and 121 d) when the target humidity range in which the current humidity is located is [30%,40% ], the target area is the second sub-areas 121a, as shown in gray fill areas in fig. 5, and when the target humidity range in which the current humidity is located is [30%,40% ], the target humidity range in which the current humidity is located is the second sub-areas 121a (60%, 75% ] corresponding to the second sub-areas 121b, 121c, and 121c, as shown in fig. 6 gray fill areas.

In some embodiments, the at least one second sub-region 121 included in the region corresponding to each humidity interval may be any at least one of the plurality of second sub-regions 121. For example, the region corresponding to the humidity interval [40%,50% ] may be any one of the second sub-region 121a, the second sub-region 121b, the second sub-region 121c, the second sub-region 121d and the second sub-region 121e, and the region corresponding to the humidity interval (60%, 75% ] may be any two sub-regions of the second sub-region 121a, the second sub-region 121b, the second sub-region 121c, the second sub-region 121d and the second sub-region 121 e.

In other embodiments, each humidity interval may correspond to a second sub-area 121, the second correspondence defining a relationship between each humidity interval and a second sub-area 121, and determining the target area corresponding to the current humidity according to the third correspondence between the pre-stored humidity and the second area 12 of the light strip 10 includes: and determining the second subarea 121 corresponding to the target humidity interval as the target area according to the third corresponding relation.

Illustratively, the region corresponding to the humidity interval [40%,50% ] is the second sub-region 121a, and the region corresponding to the humidity interval (60%, 75% ] is the second sub-region 121b.

In some embodiments, when the environmental information includes humidity, the lighting information may further include lighting parameters including color, and the determining the lighting information of the light strip 10 according to the environmental information includes: and determining the target color corresponding to the current humidity according to the corresponding relation between the pre-stored humidity and the color.

In some embodiments, when the environmental information includes humidity, the controlling the light of the light strip 10 according to the light emission information may include: the light strip 10 is controlled to emit light in the target color, or the target area corresponding to the current humidity is controlled to emit light in the target color.

Wherein, a plurality of humidity intervals can be preset, and the corresponding color of each humidity interval can be set. Wherein the interval range of each humidity interval may be the same or different.

For example, the humidity interval [30%,40% ] corresponds to red, the humidity interval (40%, 50% ] corresponds to orange, the humidity interval (50%, 60% ] corresponds to yellow, and the humidity interval (60%, 75% ] corresponds to green when the target humidity interval where the current humidity is located is [30%,40% ], the light band 10 is controlled to emit red light or the target area is controlled to emit red light so as to inform the user that the humidity of the environment where the terminal 100 is located is low, and care should be taken to keep moisture so as to prevent problems of nasal bleeding, itching throat, etc. caused by excessive dryness.

The light-emitting control method can control the light bands 10 to emit light with different colors according to the current humidity, so that a user can directly obtain the humidity of the current environment of the terminal 100 through the sensory color, and can control the target area corresponding to the current humidity to emit light with different colors according to the current humidity, so that the user can know the current humidity through the sensory color, and can know the temperature interval in which the current humidity is located through the area where the light bands 10 emit light, so that the accurate humidity can be known, wherein multiple colors corresponding to multiple humidity intervals can be set according to the color collocation mode, and the aesthetic property of the terminal 100 can be improved.

In some embodiments, as shown in fig. 2, the second region 12 may be disposed at an upper right corner of a rear surface of the terminal 100, and an extension direction of the second region 12 may be substantially parallel to a diagonal line of the rear surface. Obviously, the second area 12 may also be arranged at other positions on the back side of the terminal 100.

Wherein the second region 12 may also have other shapes, such as a sector, triangle, ring, etc.

In some embodiments, the environmental information includes environmental brightness, the lighting information of the light strip 10 includes lighting parameters of the light strip 10, the lighting parameters include brightness and color, and the determining the lighting information of the light strip 10 according to the environmental information includes: determining target brightness corresponding to the current ambient brightness according to a fourth corresponding relation between the pre-stored ambient brightness and brightness; and/or determining the target color corresponding to the current ambient brightness according to the fifth corresponding relation between the pre-stored ambient brightness and the color.

Wherein when the lighting parameter includes color, the controlling the lighting of the light strip 10 according to the lighting information includes: the light strip 10 is controlled to emit light in the target color.

Wherein when the lighting parameter includes brightness, the controlling the lighting of the lamp strip 10 according to the lighting information includes: the lamp strip 10 is controlled to emit light at the target brightness.

Wherein when the lighting parameters include color and brightness, the controlling the lighting of the light strip 10 according to the lighting information includes: the light strip 10 is controlled to emit light with the target color and the target luminance.

In some embodiments, the ambient brightness is inversely related to the brightness of the light emitted by the light strip 10, so that when the ambient brightness is low, the terminal 100 can provide illumination by controlling the light strip 10 to emit light, and can control the brightness of the light emitted by the light strip 10 according to the magnitude of the ambient brightness, for example, when the ambient brightness is low, the light strip 10 is controlled to emit light with higher brightness, when the ambient brightness is medium, the light strip 10 is controlled to emit light with lower brightness.

According to the lighting control method provided by the embodiment of the invention, when the environment information comprises brightness, the terminal 100 can provide lighting for a user when the user is in a darker environment or supplement light when the photographing brightness of the user is insufficient, and the terminal 100 can also adjust the lighting color according to the environment brightness, for example, when the environment is brighter, the terminal 100 can emit light with a colder color tone; when the environment is darker, the light with a warmer color tone is emitted, so that the user can intuitively know the brightness of the current environment through the light-emitting brightness and/or the light-emitting color of the light strip 10.

In some embodiments, the fourth correspondence defines a relationship of a plurality of ambient brightness intervals to a plurality of brightnesses, and the fifth correspondence defines a relationship of a plurality of ambient brightness intervals to a plurality of colors.

Determining target brightness corresponding to the current environment brightness according to a fourth corresponding relation between the pre-stored environment brightness and brightness; and/or determining a target color corresponding to the current ambient brightness according to a fifth corresponding relation between the pre-stored ambient brightness and the color, including: determining a target environment brightness interval in which the current environment brightness is located; determining target brightness corresponding to the target environment brightness interval according to the fourth corresponding relation; and/or determining the target color corresponding to the current ambient brightness according to the fifth corresponding relation between the pre-stored ambient brightness and the color.

Wherein, a plurality of ambient brightness intervals can be preset, and the brightness and/or the color corresponding to each ambient brightness interval can be set. Wherein, the interval range of each ambient brightness interval can be the same or different.

Illustratively, the plurality of ambient brightness intervals includes [0.1cd/m ² ,5cd/m ² ]、(5cd/m ² ,500cd/m ² ]、(500cd/m ² ,1000cd/m ² ]Ambient brightness interval [0.1cd/m ] ² ,5cd/m ² ]Corresponding to the first brightness and/or red, the ambient brightness interval (5 cd/m ² ,500cd/m ² ]Corresponding to the second brightness and/or orange, the ambient brightness interval (500 cd/m ² ,1000cd/m ² ]And corresponding to the third brightness and/or the blue color, wherein the first brightness is larger than the second brightness, and the second brightness is larger than the third brightness. When the target ambient brightness interval where the current brightness is located is (0.1 cd/m) ² ,5cd/m ² ]When the lamp strip 10 is controlled to emit light and/or red light at the first brightness so as to provide illumination; when the target ambient brightness interval where the current brightness is located is (500 cd/m) ² ,1000cd/m ² ]When the light strip 10 is controlled to emit light and/or blue light at the third brightness, the user is reminded that the current brightness is high, and the eyes are protected.

According to the light-emitting control method, the lamp strip 10 is controlled to emit light with different brightness and/or different colors according to the current brightness, so that not only can illumination be provided for a user, but also the user can directly obtain the brightness of the current environment through the sense color, wherein a plurality of colors corresponding to a plurality of ambient brightness intervals can be set according to a color collocation mode, and the attractiveness of the terminal 100 can be improved.

In some embodiments, as shown in fig. 2, the light strip 10 further includes a third region 13 that is annular in shape. When the environmental information includes environmental brightness, the controlling the light belt 10 to emit light according to the light emission information includes: the third region 13 is controlled to emit light according to the light emission information.

Wherein the third region 13 may be disposed at a middle portion of the rear surface of the terminal 100. It is obvious that the third area 13 may be disposed at other positions on the back of the terminal 100, for example, around the camera module of the terminal 100.

Wherein the third region 13 may have other shapes, such as an elongated shape, a polygonal shape, etc.

In some embodiments, prior to said controlling the lighting of the light strip 10 according to the lighting information, the method further comprises: and judging whether the environment information meets a preset condition and/or whether the current moment is in a preset period. The controlling the light emission of the light strip 10 according to the light emission information includes: and when the environment information meets the preset condition and/or the current moment is in a preset period, controlling the light belt 10 to emit light according to the light-emitting information.

In some embodiments, the preset conditions include: the temperature is outside a preset temperature range; and/or the humidity is outside a preset humidity range; and/or the ambient brightness is outside a preset brightness range. Thus, when the current temperature is too high or too low, the terminal 100 can inform the user that the current environment is at a high temperature or a low temperature by controlling the light belt 10 to emit light, so as to remind the user to take corresponding measures; and/or when the current humidity is too high or too low, informing the user that the current environment is wet or dry by controlling the light belt 10 to emit light so as to remind the user to take corresponding measures; and/or when the current brightness is too low or too high, the lighting of the lamp strip 10 is controlled to provide lighting for a user or remind the user of protecting eyes, and the like, and the temperature range and/or the humidity range and/or the brightness range are set, so that the lighting of the lamp strip 10 is controlled only when the current temperature exceeds the temperature range and/or the humidity exceeds the humidity range and/or the brightness exceeds the brightness range, thereby reducing the power consumption and prolonging the service time of the terminal 100.

Wherein, the preset temperature, the preset humidity and the preset brightness range can be specifically set by a user according to the needs.

In some embodiments, when the current time is in the preset period, the controlling the light belt 10 to emit light according to the light emission information includes: and when the current moment is at the whole moment or the current moment reaches the ringing moment set by the alarm, controlling the light belt 10 to emit light according to the light-emitting information. Therefore, the current environment information can be displayed for the user at all points or at the time point set by the user, so as to meet the viewing requirement of the user.

In some embodiments, prior to said controlling the lighting of the light strip 10 according to the lighting information, the method further comprises: it is determined whether the back of the terminal 100 is blocked and/or whether the back of the terminal 100 is facing upwards. The controlling the light emission of the light strip 10 according to the light emission information includes: when the back of the terminal 100 is not blocked and/or the back of the terminal 100 faces upward, the light belt 10 is controlled to emit light according to the light emission information.

Wherein when the area of the portion of the back surface of the terminal 100 that is blocked is less than or equal to a preset percentage of the area of the back surface, it is determined that the back surface of the terminal 100 is not blocked, for example, when the portion of the back surface of the terminal 100 that is blocked is 80% or less of the back surface, it is determined that the back surface of the terminal 100 is not blocked; when the portion of the rear surface of the terminal 100 that is blocked is 80% or more of the rear surface, it is determined that the rear surface of the terminal 100 is blocked. The preset percentage can be set by a user according to actual requirements.

According to the light-emitting control method provided by the embodiment of the invention, whether the back of the terminal 100 is shielded and/or whether the back is upward is judged, and when the back is not shielded and/or the back is upward, the light strip 10 is controlled to emit light according to the light-emitting information, so that the light strip 10 can be prevented from emitting light when the back is shielded and/or the back is downward, and the power consumption is reduced.

In some embodiments, the method further comprises: and when the back surface of the terminal 100 is shielded and the front surface of the terminal 100 is not shielded and/or the back surface of the terminal 100 faces downwards, controlling a display screen of the terminal 100 to lighten and display the environment information.

According to the light-emitting control method provided by the embodiment of the invention, whether the back of the terminal 100 is shielded, whether the front is shielded and/or whether the back is upward is judged, when the back is shielded, the front is not shielded and/or the back is downward, the display screen of the terminal 100 is controlled to be on the screen according to the light-emitting information and the environment information is displayed, so that the user can conveniently check the environment information when the back is shielded and/or the back is downward.

In some embodiments, the light emission control method further comprises: and after the light strip 10 or the target area emits light for a preset time, controlling the light strip 10 or the target area to stop emitting light. Therefore, the requirement of a user for checking the environment information is met, and the power consumption can be reduced.

In some embodiments, the light emission control method further comprises: and after the display screen is on and the environmental information is displayed for a preset time, controlling the display screen to be off so as to reduce power consumption.

The preset duration may be set according to a user requirement, which is not limited herein.

Referring to fig. 2 and fig. 7 together, fig. 7 is a block diagram of a terminal 100 according to an embodiment of the present application, where the terminal 100 includes the light strip 10, the transparent rear cover 20, and further includes an environmental sensor 30 and a controller 40. As described above, the light strip 10 is disposed on the back surface of the terminal 100, which is the surface opposite to the display screen of the terminal. The transparent rear cover 20 is used for integrally covering the rear surface of the terminal 100 where the lamp strip 10 is disposed, and for transmitting light emitted from the lamp strip 10.

The environmental sensor 30 is configured to obtain environmental information of an environment in which the terminal 100 is located, where the environmental information includes at least one of temperature, humidity, and environmental brightness. When the environmental information includes an environmental brightness, the environmental sensor 30 includes a light sensor for acquiring the environmental brightness; when the environmental information includes a temperature, the environmental sensor 30 includes a temperature sensor for acquiring a current temperature; when the environmental information includes an environmental humidity, the environmental sensor 30 includes a humidity sensor for acquiring a current humidity. The controller 40 is configured to determine light emission information of the light strip 10 according to the environmental information, where the light emission information of the light strip 10 includes a light emission parameter of the light strip 10 and/or a target area of the light strip 10, and control the light strip 10 to emit light according to the light emission information.

In other embodiments, the controller 40 may obtain the temperature and humidity of the environment in which the terminal 100 is currently located through networking.

The terminal 100 provided by the embodiment of the invention can indicate the environment information through the lamp strip 10 arranged on the back of the terminal without lighting a screen, so that a user can conveniently acquire the environment information of the environment where the terminal 100 is positioned.

The light strip 10 may include a plurality of LED light beads, for example, mini LED light beads, micro LED light beads, general LED light beads, and the like. The transparent rear cover 20 may be made of a transparent high molecular material, for example, PMMA (polymethyl methacrylate), PC (polycarbonate), transparent ABS (acrylonitrile butadiene styrene), etc.

In some embodiments, the controller 40 is configured to control the light strip 10 to emit light with the light emission parameter, or control the target area to emit light with the light emission parameter; wherein the lighting parameters comprise brightness and/or color.

In some embodiments, as previously described, the light strip 10 includes a first region 11, the environmental information includes temperature, the lighting information of the light strip 10 includes lighting parameters of the light strip 20 including color and/or a target region of the light strip 10. The controller 40 is configured to determine a target color corresponding to the current temperature according to a first correspondence between a pre-stored temperature and a color; and/or determining a target area corresponding to the current temperature according to a second corresponding relation between the pre-stored temperature and the first area of the lamp strip. As shown in fig. 5, the terminal 100 further includes a storage unit 50, and the first correspondence and the second correspondence may be stored in the storage unit 50.

The storage unit 50 may be a nonvolatile memory or the like.

In some embodiments, as described above, the first correspondence defines a relationship between a plurality of temperature intervals and a plurality of colors, each temperature interval corresponds to a color, and the second correspondence defines a relationship between a plurality of temperature intervals and a plurality of first sub-areas 111 of the first area 11, where each temperature interval corresponds to at least one first sub-area 111, and the areas corresponding to different temperature intervals include different numbers of first sub-areas 111.

The controller 40 is configured to determine a target temperature interval in which the current temperature is located, and determine a target color corresponding to the target temperature interval according to the first correspondence; and/or determining an area formed by at least one first sub-area 111 corresponding to the target temperature interval as the target area according to the second corresponding relation.

In some embodiments, as described above, as shown in fig. 2, the first area 11 is elongated, and the plurality of first sub-areas 111 are arranged along the extending direction of the first area 11.

In some embodiments, each first sub-area 111 has the same length along the extending direction of the first area 11, and the areas corresponding to different temperature intervals include different numbers of first sub-areas 111.

In some embodiments, the region corresponding to the next temperature interval of the two adjacent temperature intervals includes the region corresponding to the previous temperature interval and the first sub-region 111 adjacent to the region corresponding to the previous temperature interval. Wherein the lower limit value of the latter temperature interval is larger than the upper limit value of the former temperature interval.

In some embodiments, the at least one first sub-region 111 included in the region corresponding to each temperature interval may be any at least one of the plurality of first sub-regions 111.

In some embodiments, as previously described, the light strip 10 includes the second region 12, the environmental information includes humidity, and the lighting information of the light strip 10 includes the target region of the light strip 10. The controller 30 is configured to determine a target area corresponding to the current humidity according to a third correspondence between the pre-stored humidity and the second area 12 of the light strip 10. The third correspondence may be stored in the storage unit 50 in advance.

In some embodiments, as described above, the third correspondence defines a relationship between a plurality of humidity intervals and a plurality of second sub-areas 121 of the second area 12, where each humidity interval corresponds to at least one second sub-area 121, the areas corresponding to different humidity intervals include different numbers of second sub-areas 121, and the controller 40 is configured to determine a target humidity interval in which the current humidity is located, and determine, according to the third correspondence, that an area formed by at least one second sub-area 121 corresponding to the target humidity interval is the target area.

In some embodiments, as previously described, the second region 12 may be elongated. The plurality of second sub-regions 121 may be sequentially arranged along the extension direction of the second region 12.

In some embodiments, each second sub-area 121 has the same length along the extending direction of the second area 12, and the areas corresponding to different humidity ranges include different numbers of second sub-areas 121.

In some embodiments, the region corresponding to the next humidity interval of the two adjacent humidity intervals includes a region corresponding to the previous humidity interval and a second sub-region 121 adjacent to the region corresponding to the previous humidity interval. Wherein the lower limit value of the latter humidity interval is greater than the upper limit value of the former humidity interval.

In some embodiments, the at least one second sub-region 121 included in the region corresponding to each temperature interval may be any at least one of the plurality of second sub-regions 121.

In some embodiments, as described above, the environmental information includes an environmental brightness, the light emitting information of the light strip 10 includes a light emitting parameter of the light strip 10, the light emitting parameter includes brightness and color, and the controller 40 is configured to determine the target brightness corresponding to the current environmental brightness according to a fourth correspondence between the pre-stored environmental brightness and brightness; and/or determining the target color corresponding to the current ambient brightness according to the fifth corresponding relation between the pre-stored ambient brightness and the color. The fourth correspondence relationship and the fifth correspondence relationship may be stored in the storage unit 50 in advance.

In some embodiments, as described above, the fourth correspondence defines a relationship between a plurality of ambient brightness intervals and a plurality of brightness, and the fifth correspondence defines a relationship between a plurality of ambient brightness intervals and a plurality of colors. The controller 40 is configured to determine a target ambient brightness interval in which the current ambient brightness is located, determine a target brightness corresponding to the target ambient brightness interval according to the fourth corresponding relationship, and/or determine a target color corresponding to the current ambient brightness according to a fifth corresponding relationship between the pre-stored ambient brightness and the color.

Referring to fig. 8, fig. 8 is a schematic diagram of the connection structure of the light strip 10, the controller 40 and the power supply. In some embodiments, as shown in fig. 8, the terminal 100 further includes a power source, a plurality of first switches, a plurality of second switches, and at least one third switch, each first switch is connected between the positive electrode of the power source and the first sub-area 111, one end of each first sub-area 111 is connected to the positive electrode of the power source through the first switch connected thereto, and the other end is connected to the negative electrode of the power source, and by selectively controlling the on-state of the switch of the at least one first sub-area 111 corresponding to a target temperature interval, a voltage can be selectively applied to the at least one first sub-area 111 corresponding to the target temperature interval, so that the at least one first sub-area 111 corresponding to the target temperature interval emits light. Each second switch is connected between the positive electrode of the power supply and the second sub-area 121, one end of each second sub-area 121 is connected with the positive electrode of the power supply through the second switch connected with the second switch, the other end of each second sub-area 121 is connected with the negative electrode of the power supply, and the voltage can be selectively applied to at least one second sub-area 121 corresponding to a target humidity interval by selectively controlling the switch conduction of at least one second sub-area 121 corresponding to the target humidity interval, so that the at least one second sub-area 121 corresponding to the target humidity interval emits light. The third switch is connected between the positive electrode of the power supply and the third region 13, one end of the third region 13 is connected with the positive electrode of the power supply through the third switch connected with the third switch, the other end of the third region 13 is connected with the negative electrode of the power supply, and voltage can be applied to the third region 13 by controlling the third switch connected with the third region 13 to be conducted, so that the third region 13 emits light.

The first switch, the second switch and the third switch can be MOS transistors, BJT transistors and the like.

As shown in fig. 8, the controller 40 has a plurality of first pins, a plurality of second pins, and at least one third pin, each first pin is connected to a first switch, the second pins are connected to the second switch, each third pin is connected to a third switch, the controller 40 outputs a level signal to the first switch connected to the first pins through the first pins to control the first switch to be turned on or off, and controls the first sub-area 111 connected to the first switch to be turned on or off, and outputs a level signal to the second switch connected to the second pins through the second pins to control the second switch to be turned on or off, and controls the second sub-area 121 connected to the second switch to be turned on or off, and outputs a level signal to the third switch connected to the third pins through the third pins to control the third switch to be turned on or off, and controls the third area 13 connected to the third switch to be turned on or off.

In some embodiments, each first sub-region 111 includes a plurality of colored LED lamps, each colored LED lamp including a red LED chip, a green LED chip, and a blue LED chip. Each first switch comprises a plurality of first sub-switches, one end of each red light LED chip is connected with the positive electrode of the power supply through a first sub-switch, the other end of each red light LED chip is connected with the negative electrode of the power supply, one end of each green light LED chip is connected with the positive electrode of the power supply through a first sub-switch, the other end of each green light LED chip is connected with the negative electrode of the power supply, one end of each blue light LED chip is connected with the positive electrode of the power supply through a first sub-switch, and the other end of each blue light LED chip is connected with the negative electrode of the power supply. By controlling the on and off of the first sub-switch, at least one first sub-region 111 corresponding to the target temperature interval may be made to emit light of the target color. For example, the target color is yellow, and the first sub-switch connected with the red LED chip and the first sub-switch connected with the green LED chip of each color LED lamp of the target area can be controlled to be turned on, and the first sub-switch connected with the blue LED chip can be controlled to be turned off, so that the target area emits yellow light.

In some embodiments, the third region 13 may also include a plurality of color LED lamps, each including a red LED chip, a green LED chip, and a blue LED chip. Each third switch comprises a plurality of third sub-switches, one end of each red light LED chip is connected with the positive electrode of the power supply through a third sub-switch, the other end of each red light LED chip is connected with the negative electrode of the power supply, one end of each green light LED chip is connected with the positive electrode of the power supply through a third sub-switch, the other end of each green light LED chip is connected with the negative electrode of the power supply, one end of each blue light LED chip is connected with the positive electrode of the power supply through a third sub-switch, and the other end of each blue light LED chip is connected with the negative electrode of the power supply. By controlling the on and off of the third sub-switch, the third region 13 can be caused to emit light of the target color corresponding to the target luminance section. For example, the target color is red, and the third sub-switch connected to the red LED chip of the third region 13 may be controlled to be turned on, and the third sub-switch connected to the green LED chip may be controlled to be turned off, and the third sub-switch connected to the blue LED chip may be controlled to be turned off, so that the third region 13 emits red light.

In some embodiments, the controller 40 is further configured to determine whether the environmental information satisfies a preset condition and/or the current time is in a preset period before controlling the light strip 10 to emit light according to the light emission information, and control the light strip 10 to emit light according to the light emission information when the environmental information satisfies the preset condition and/or the current time is in the preset period.

In some embodiments, as previously described, the preset conditions include: the temperature is outside a preset temperature range; and/or the humidity is outside a preset humidity range; and/or the ambient brightness is outside a preset brightness range.

When the environmental sensor 30 obtains the environmental information, the environmental information is sent to the controller 40, and when the controller 40 receives the environmental information, the controller determines whether the environmental information meets the preset condition. Specifically, the environmental sensor 30 obtains the current temperature and/or the current humidity and/or the current environmental brightness, and sends the current temperature and/or the current humidity and/or the current environmental brightness to the controller 40, and when the controller 40 receives the current temperature and/or the current humidity and/or the current environmental brightness, the controller determines whether the current temperature is located outside the preset temperature range, and/or whether the current humidity is located outside the preset humidity range, and/or whether the current environmental continuous reading is located outside the preset brightness range.

The controller 40 may acquire the current time through networking, and determine whether the acquired current time is in a preset period.

In some embodiments, the controller 40 is configured to control the light band 10 to emit light according to the light emission information when the current time is at the full-time instant or when the current time reaches the alarm time instant set by the alarm.

In some embodiments, the controller 30 is further configured to determine whether the back surface of the terminal 100 is blocked and/or whether the back surface of the terminal 100 faces upward before controlling the light emission of the light strip 10 according to the light emission information, and to control the light strip 10 to emit light according to the light emission information when the back surface of the terminal 100 is not blocked and/or the back surface of the terminal 100 faces upward.

In some embodiments, as shown in fig. 7, the terminal 100 further includes a detecting unit 60, where the detecting unit 60 includes a first photosensitive element, and is disposed on a back surface of the terminal 100, and configured to detect a light intensity of the back surface, and send the detected light intensity of the back surface to the controller 40. The controller 40 is configured to receive the light intensity of the back surface, compare the received light intensity of the back surface with a first preset light intensity, and determine that the back surface is blocked when a ratio of an area of a portion of the light intensity of the back surface that is less than the first preset light intensity to an area of the back surface is greater than the first preset percentage, and determine that the back surface is not blocked when a ratio of an area of a portion of the light intensity of the back surface that is greater than or equal to the first preset light intensity to an area of the back surface is less than or equal to the first preset percentage.

In some embodiments, the detecting unit 60 may further include a gyroscope, through which the controller 40 may determine whether the back of the terminal 100 faces upward or downward, specifically, whether the back of the terminal 100 faces upward or downward according to the positive and negative of the Z-axis data of the gyroscope, and the controller 40 may control the light of the light strip 10 according to the light emitting information when the back of the terminal 100 faces upward. In some embodiments, when the controller 40 determines that the back of the terminal 100 faces downward through a gyroscope, it further determines whether the terminal 100 is horizontally placed through the gyroscope, and does not control the light belt 10 to emit light if the terminal 100 is horizontally placed. Wherein the controller 40 can determine whether the terminal 100 is horizontally placed through the X-axis and Y-axis data of the gyroscope.

In some embodiments, the controller 40 is further configured to control the display screen of the terminal 100 to light up and display the environmental information when the back of the terminal 100 is blocked and the front of the terminal 100 is not blocked and/or the back of the terminal 100 faces downward. The front face is the face where the display screen is located.

In some embodiments, the detecting unit 60 may further include a second photosensitive element disposed on the front surface of the terminal 100 for detecting the light intensity of the front surface, and transmitting the detected light intensity of the front surface to the controller 40. The controller 40 is configured to receive the light intensity of the front surface, compare the received light intensity of the front surface with a second preset light intensity, and determine that the front surface is blocked when a ratio of an area of a portion of the light intensity of the front surface smaller than the second preset light intensity to an area of the front surface is greater than the second preset percentage, and determine that the front surface is not blocked when a ratio of an area of a portion of the light intensity of the front surface greater than or equal to the second preset light intensity to an area of the front surface is less than or equal to the second preset percentage.

In some embodiments, the controller 40 may determine whether the back of the terminal 100 faces downward according to the gyroscope, and control the display screen of the terminal 100 to light up and display the environmental information when the back faces downward, i.e., the front face faces upward.

In some embodiments, the controller 40 is further configured to control the light strip 10 or the target area to stop emitting light after the light strip 10 or the target area emits light for a preset period of time.

Wherein, the controller 30 controls the first switch and/or the second switch and/or the third switch connected to the lamp strip 10 or the target area to be turned off after the lamp strip 10 or the target area emits light for a preset period of time, and disconnects the lamp strip 10 or the target area from the power source, thereby stopping the lamp strip 10 or the target area from emitting light.

The terminal 100 corresponds to the foregoing light emission control method, and a more detailed description will be made with reference to the content of each embodiment of the foregoing light emission control method, and the content of the terminal 100 and the content of the foregoing light emission control method may also be referred to each other, for example, the light emission of the light strip 10 in the step S103 and other steps may be specifically implemented by the structure and the control mechanism shown in fig. 8.

Referring to fig. 9, fig. 9 is a terminal 100 according to another embodiment of the present application. The back of the terminal 100 is provided with a lamp strip 10 and a transparent back cover 20, the transparent back cover 20 integrally covers the back of the terminal 100, which is provided with the lamp strip 10, the back is opposite to the display screen of the terminal 100, the lamp strip 10 is used for emitting light, and the transparent back cover 20 is used for transmitting the light emitted by the lamp strip 10; the terminal 100 further comprises an environment sensor 30, a processor 80 and a memory 90, wherein the environment sensor 30 is configured to obtain environment information of an environment in which the terminal 100 is located, the environment information includes at least one of temperature, humidity and environment brightness, the memory 90 stores a computer program, and the processor 80 runs the computer program to execute the light emission control method provided in any one of the foregoing embodiments.

The terminal 100 according to the embodiments of the present application may include mobile terminals such as a mobile phone, a tablet computer, a notebook computer, a palm top computer, a personal digital assistant (Personal Digital Assistant, PDA), a portable media player (Portable Media Player, PMP), a navigation device, a wearable device, a smart bracelet, a pedometer, and fixed terminals such as a digital TV, a desktop computer, and the like.

The embodiment of the application also provides a computer readable storage medium, and a computer program is stored in the computer readable storage medium and is executed after being called by a processor, so as to implement the light-emitting control display method provided by any one of the previous embodiments.

Those of ordinary skill in the art will appreciate that all or a portion of the steps in the various methods of the above embodiments may be implemented by a program that instructs associated hardware, and the program may be stored in a computer readable memory, which may include: flash disk, read-only memory, random access memory, magnetic or optical disk, etc.

It should be noted that, for simplicity of description, the foregoing method embodiments are all expressed as a series of action combinations, but it should be understood by those skilled in the art that the present application is not limited by the order of actions described, as some steps may be performed in other order or simultaneously in accordance with the present application. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required in the present application.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

The foregoing is a description of embodiments of the present application, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the principles of the embodiments of the present application, and these improvements and modifications are also considered as the protection scope of the present application.

Claims (15)

1. The light-emitting control method is applied to a terminal and is characterized in that a lamp strip and a transparent rear cover are arranged on the back surface of the terminal, the back surface is a surface opposite to a display screen of the terminal, the transparent rear cover integrally covers the back surface of the terminal, the lamp strip is used for emitting light, and the transparent rear cover is used for transmitting the light emitted by the lamp strip; the light emission control method includes:

acquiring environment information of the environment in which the terminal is positioned, wherein the environment information comprises at least one of temperature, humidity and environment brightness;

determining the luminous information of the lamp strip according to the environment information, wherein the luminous information of the lamp strip comprises luminous parameters of the lamp strip and/or a target area of the lamp strip; and

And controlling the lamp strip to emit light according to the light-emitting information.

2. The light-emission control method according to claim 1, wherein the controlling the light-emission of the lamp strip according to the light-emission information comprises:

controlling the lamp strip to emit light according to the light-emitting parameters, or controlling the target area to emit light according to the light-emitting parameters; wherein the lighting parameters comprise brightness and/or color.

3. The lighting control method according to claim 2, wherein the light strip includes a first area, the environmental information includes a temperature, the lighting information of the light strip includes a lighting parameter of the light strip and/or a target area of the light strip, the lighting parameter includes a color, and the determining the lighting information of the light strip according to the environmental information includes:

determining a target color corresponding to the current temperature according to a first corresponding relation between the pre-stored temperature and the color; and/or

And determining a target area corresponding to the current temperature according to a second corresponding relation between the pre-stored temperature and the first area of the lamp strip.

4. The light-emitting control method according to claim 3, wherein the first correspondence defines a relationship between a plurality of temperature intervals and a plurality of colors, each temperature interval corresponds to a color, the second correspondence defines a relationship between a plurality of temperature intervals and a plurality of first sub-areas of the first area, each temperature interval corresponds to at least one first sub-area, the areas corresponding to different temperature intervals include different numbers of first sub-areas, and the target color corresponding to the current temperature is determined according to the first correspondence between the pre-stored temperature and the color; and/or determining a target area corresponding to the current temperature according to a second corresponding relation between the pre-stored temperature and the first area of the lamp strip, wherein the target area comprises:

Determining a target temperature interval in which the current temperature is located;

determining a target color corresponding to the target temperature interval according to the first corresponding relation; and/or

And determining an area formed by at least one first subarea corresponding to the target temperature interval as the target area according to the second corresponding relation.

5. The lighting control method according to claim 2, wherein the lamp strip includes a second area, the environmental information includes humidity, the lighting information of the lamp strip includes a target area of the lamp strip, and the determining the lighting information of the lamp strip based on the environmental information includes:

and determining a target area corresponding to the current humidity according to a third corresponding relation between the prestored humidity and the second area of the lamp strip.

6. The lighting control method according to claim 5, wherein the third correspondence relationship defines a relationship between a plurality of humidity intervals and a plurality of second sub-areas of the second area, wherein each humidity interval corresponds to at least one second sub-area, the areas corresponding to different humidity intervals include different numbers of second sub-areas, and the determining the target area corresponding to the current humidity according to the third correspondence relationship between the pre-stored humidity and the second area of the light strip includes:

Determining a target humidity interval in which the current humidity is located;

and determining an area formed by at least one second sub-area corresponding to the target humidity interval as the target area according to the third corresponding relation.

7. The lighting control method according to claim 2, wherein the environmental information includes environmental brightness, the lighting information of the lamp strip includes lighting parameters of the lamp strip, the lighting parameters include brightness and color, and the determining the lighting information of the lamp strip according to the environmental information includes:

determining target brightness corresponding to the current ambient brightness according to a fourth corresponding relation between the pre-stored ambient brightness and brightness; and/or

And determining a target color corresponding to the current ambient brightness according to a fifth corresponding relation between the pre-stored ambient brightness and the color.

8. The method according to claim 7, wherein the fourth correspondence defines a relationship between a plurality of ambient brightness intervals and a plurality of brightness, the fifth correspondence defines a relationship between a plurality of ambient brightness intervals and a plurality of colors, and the target brightness corresponding to the current ambient brightness is determined according to the fourth correspondence between the ambient brightness and the brightness stored in advance; and/or determining a target color corresponding to the current ambient brightness according to a fifth corresponding relation between the pre-stored ambient brightness and the color, including:

Determining a target environment brightness interval in which the current environment brightness is located;

determining target brightness corresponding to the target environment brightness interval according to the fourth corresponding relation; and/or

And determining a target color corresponding to the current ambient brightness according to a fifth corresponding relation between the pre-stored ambient brightness and the color.

9. The light-emission control method according to claim 1, characterized in that before the controlling the light-emission of the lamp strip according to the light-emission information, the method further comprises:

judging whether the environment information meets a preset condition or not;

the controlling the light belt to emit light according to the light emitting information comprises the following steps:

and when the environment information meets the preset condition, controlling the lamp strip to emit light according to the light-emitting information.

10. The light-emission control method according to claim 9, wherein the preset condition includes:

the temperature is outside a preset temperature range; and/or

The humidity is outside a preset humidity range; and/or

The ambient brightness is outside a preset brightness range.

11. The light-emission control method according to claim 1, characterized in that before the controlling the light-emission of the lamp strip according to the light-emission information, the method further comprises:

Judging whether the back of the terminal is shielded and/or whether the back of the terminal faces upwards;

the controlling the light belt to emit light according to the light emitting information comprises the following steps:

and when the back surface of the terminal is not shielded and/or the back surface of the terminal faces upwards, controlling the lamp strip to emit light according to the light-emitting information.

12. The light-emission control method according to claim 11, characterized in that the method further comprises:

and when the back surface of the terminal is shielded and the front surface of the terminal is not shielded and/or the back surface of the terminal faces downwards, controlling a display screen of the terminal to lighten and display the environment information.

13. The light-emission control method according to claim 1, characterized in that the method further comprises:

and after the lamp strip or the target area emits light for a preset time, controlling the lamp strip or the target area to stop emitting light.

14. The terminal is characterized in that a lamp strip and a transparent rear cover are arranged on the back surface of the terminal, the transparent rear cover integrally covers the back surface of the terminal, which is opposite to a display screen of the terminal, the lamp strip is used for emitting light, and the transparent rear cover is used for transmitting the light emitted by the lamp strip; the terminal comprises an environment sensor, a processor and a memory, wherein the environment sensor is used for acquiring environment information of the environment where the terminal is located, the environment information comprises at least one of temperature, humidity and environment brightness, the memory stores a computer program, and the processor runs the computer program to execute the light-emitting control method according to any one of claims 1-13.

15. A computer readable storage medium, wherein a computer program is stored in the computer readable storage medium, and the computer program is used for being executed after being called by a processor, so as to implement the light emission control method according to any one of claims 1-13.

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