CN113347765A - Bathroom mirror illumination control device and control method - Google Patents

Abstract

The embodiment of the application provides a bathroom mirror lighting control device and a control method, and relates to the technical field of cosmetic mirror lighting. The bathroom mirror illumination control device comprises a mirror body, a selection module, a storage module and a controller. At least one side of the mirror body is provided with an illuminating lamp, and the selection module is used for converting the received scene mode instruction into a scene signal. The storage module is used for storing first light parameters corresponding to the scene modes respectively, the controller is in communication connection with the illuminating lamp, the selection module and the storage module respectively, the controller receives the scene signals, the first light parameters corresponding to the scene signals in the storage module are obtained according to the scene signals, and parameters of emergent light of the illuminating lamp are controlled to be the first light parameters. The bathroom mirror lighting control device can provide appropriate cosmetic light for a user by adjusting parameters such as color temperature and brightness of bathroom mirror light. The makeup lamp light which meets the requirements is convenient for users to use, and the makeup effect of the users is improved.

Description

Bathroom mirror illumination control device and control method

Technical Field

The application belongs to the technical field of cosmetic mirror lighting, and particularly relates to a bathroom mirror lighting control device and a control method.

Background

Generally, people can make up to render and arrange the face, five sense organs and other parts so as to enhance the stereoscopic impression, adjust the shape and the color and hide defects, thereby achieving the purpose of beautifying the visual perception. The makeup can achieve the most real and natural effect under natural light, can show unique natural beauty through the makeup, improve the original shape, color and quality and increase the aesthetic feeling and charm.

However, people in daily life often need to make up by means of lighting. The light easily affects the makeup effect, for example, the light of the makeup light is too yellow, which easily causes the makeup to be too heavy; the light is too white, so that the makeup is too white, and the long-time makeup is easy to cause eye fatigue; when the illuminance of the lamp light is not uniform, a shadow of the face is easily generated.

Disclosure of Invention

An object of the present application includes, for example, providing a bathroom mirror illumination control apparatus and control method to ameliorate at least some of the above problems.

The embodiment of the application can be realized as follows:

in a first aspect, a bathroom mirror illumination control device is provided and comprises a mirror body, a selection module, a storage module and a controller. The lighting lamp is arranged on at least one side of the mirror body, the selection module is used for converting a received scene mode instruction into a scene signal, and the storage module is used for storing first light parameters corresponding to a plurality of scene modes respectively; the controller is respectively in communication connection with the illuminating lamp, the selection module and the storage module. The controller receives the scene signal, acquires a first light parameter corresponding to the scene signal in the storage module according to the scene signal, and controls the parameter of the emergent light of the illuminating lamp to be the first light parameter.

The light sensor is in communication connection with the controller and is used for detecting the brightness of the environment where the mirror body is located and sending a detection result to the controller; the storage module is also used for storing preset brightness, the controller compares the received detection result with the preset brightness, and the emergent light of the illuminating lamp is controlled to meet the preset brightness according to the comparison result.

The distance sensor is in communication connection with the controller and is used for detecting the actual measurement distance between the user and the mirror body and sending the actual measurement distance to the controller; the storage module is further used for storing second light parameters corresponding to the measured distances respectively, the controller obtains the second light parameters corresponding to the measured distances in the storage module, and the parameters for controlling the emergent light of the illuminating lamp are the second light parameters.

Further, when the actual measurement distance is larger than the preset distance, the controller controls the brightness of emergent light of the illuminating lamp to be first brightness; when the actual measurement distance is smaller than the preset distance, the controller controls the brightness of emergent light of the illuminating lamp to be second brightness.

Further, the scene mode includes at least one of a default mode, an outdoor mode, a party mode, an operation mode, and a leisure mode. The color temperature of the default mode is 4500K, the display index Ra is greater than 95, the color saturation is greater than 80%, and the brightness is the first brightness. The outdoor mode comprises a storage module, wherein color temperature parameters which correspond to different time periods all day by one are prestored in the storage module; when a user selects an outdoor mode, the selection module converts a received outdoor mode instruction into an outdoor signal; the controller obtains a current time period, increases preset time on the basis of the current time period to obtain a target time period, calls color temperature parameters corresponding to the target time period, and controls the color temperature of emergent rays of the illuminating lamp according to the called color temperature parameters.

Further, the device further comprises a memory module, wherein the memory module is used for acquiring the scene mode with the highest use frequency as a memory mode according to the selection frequency of the user on the scene mode in a preset time period, and when the user turns on the illuminating lamp next time, the color temperature of the memory mode is automatically changed.

Further, the mirror body includes the cabinet body, lens and mounting bracket, and the cabinet body is including front and side, lens fixed connection in the front of the cabinet body, and mounting bracket fixed connection is in the side of the cabinet body, and the light inlays the one side of locating the mounting bracket and being close to the lens.

Further, the mounting bracket includes a body and a lamp shade, the body includes joint portion and installation department, the side of the cabinet body is located to joint portion card, the lamp shade cover is located the installation department and can form the holding chamber, the light inlays and locates the holding chamber.

Further, the installation department is the ring channel, and the light inlays and locates the ring channel and includes first vertical section, first horizontal segment, second vertical section and the second horizontal segment of end to end connection in proper order, and first vertical section and second vertical section set up relatively, and first horizontal segment and second horizontal segment are circular-arc and the centre of a circle is located the frontal region of the cabinet body, and light, the cabinet body and lens have following position relation: r is W multiplied by a1, a1 is 0.06-0.09; l is W multiplied by a2, a2 is 0.035-0.065; h is W multiplied by a3, a3 is 0.014-0.026; theta is 12.15-36.61 degrees; wherein, R is the radius of first horizontal segment and second horizontal segment, and W is the width of the cabinet body, and L is in the first direction that is on a parallel with the lens, the maximum distance between light and the lens, and H is in the second direction perpendicular with the first direction, the maximum distance between light and the lens, and theta is the contained angle between the plane and the lens at the light emitting area of first vertical section and the light emitting area place of second vertical section.

In a second aspect, a bathroom mirror illumination control method is provided, including: the selection module receives a scene mode instruction, generates a scene signal and sends the scene signal to the controller; the controller receives the scene signal, calls a first light parameter corresponding to the scene signal in the storage module according to the scene signal, and controls the illuminating lamp to emit light according to the first light parameter.

Further, the light sensor detects the brightness of the environment where the lens body is located and sends a detection result to the controller; the controller compares the detection result with the preset brightness, and when the detection result is smaller than the preset brightness, the controller controls the illuminating lamp to supplement light so that the brightness of the environment where the mirror body is located meets the preset brightness.

Further, the distance sensor detects the measured distance between the user and the mirror body and sends the measurement result to the controller; the controller transfers the light parameter corresponding to the actual measurement distance from the storage module, when the actual measurement distance is greater than the preset distance, the controller controls the brightness of the emergent light of the illuminating lamp to be first brightness, and when the actual measurement distance is less than the preset distance, the controller controls the brightness of the emergent light of the illuminating lamp to be second brightness.

The bathroom mirror lighting control device that this application embodiment provided, through set up the light on the mirror body, the user can select required scene mode through the selection module, transfers the light parameter corresponding with required scene mode from the storage module through the controller, then according to the emergent light parameter of this light parameter control light.

Parameters of emergent light of the illuminating lamp are adjusted, so that parameters of color temperature, brightness and the like of the bathroom mirror meet the makeup light requirements of users. The user can conveniently select the scene mode according to the requirement, and the adjusted makeup light can meet the makeup requirement of the user. The bathroom mirror lighting control device is beneficial to improving the makeup effect of a user and further adding aesthetic feeling and charm to the user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a block diagram of a bathroom mirror illumination control device according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a first view angle of a mirror body in the illumination control device for a bathroom mirror provided in the embodiment of the present application;

fig. 3 is a schematic structural diagram of a second view angle of a mirror body in the illumination control device for a bathroom mirror provided in the embodiment of the present application;

FIG. 4 is an exploded view of the mount of FIG. 3 from a first perspective;

FIG. 5 is an exploded view of the mount of FIG. 3 from a second perspective;

FIG. 6 is an enlarged schematic view at A in FIG. 3;

fig. 7 is a block diagram of a bathroom mirror illumination control device according to another embodiment of the present application;

fig. 8 is a block diagram illustrating a bathroom mirror lighting control apparatus according to still another embodiment of the present application;

fig. 9 is a block diagram illustrating a bathroom mirror illumination control apparatus according to still another embodiment of the present application;

fig. 10 is a schematic flowchart of a bathroom mirror illumination control method according to an embodiment of the present application;

fig. 11 is another schematic flow chart of a bathroom mirror illumination control method according to an embodiment of the present application;

fig. 12 is a schematic flowchart of a bathroom mirror illumination control method according to an embodiment of the present application.

Icon: 002-a first direction; 005-second direction; 100-bathroom mirror lighting control device; 110-a mirror body; 111-a display screen; 112-a cabinet body; 114-a lens; 116-a mounting frame; 1160-shelf body; 1162-a clamping part; 1164-a mounting portion; 118-a lamp shade; 1180-cage body; 1182-a first vertical sidewall; 1184-a second vertical sidewall; 119-lighting lamps; 120-a selection module; 130-a storage module; 140-a controller; 150-light sensor; 153-distance sensors; 156-memory module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

It should be noted that the features of the embodiments of the present application may be combined with each other without conflict.

Referring to fig. 1, an embodiment of the present application provides a bathroom mirror illumination control apparatus 100.

The bathroom mirror illumination control device 100 may include a mirror body 110 (see fig. 2), a selection module 120, a storage module 130, and a controller 140.

Wherein, the mirror body is used for being fixed on a bathroom wall, and at least one side of the mirror body can be provided with an illuminating lamp 119. The selection module 120, the storage module 130 and the controller 140 are used to adjust the lighting effect of the lighting lamp 119. When the illuminating lamp 119 is turned on, the brightness and the color temperature of the environment where the mirror body is located can be adjusted, so that a user can generate a good makeup effect when makeup is performed by means of the mirror body and the lamp light.

Specifically, the user may select different scene modes through a button or a key, and the selection module 120 is configured to convert the received scene mode command into a scene signal and then send the scene signal to the controller 140. The storage module 130 is configured to store first light parameters respectively corresponding to a plurality of scene modes in advance. Different scene modes may correspond to different first light parameters, and multiple sets of first light parameters may be pre-stored in the bathroom mirror illumination control apparatus 100, where the multiple sets of first light parameters correspond to multiple scenes one to one. The controller 140 is communicatively connected to the illumination lamp 119, the selection module 120, and the storage module 130, respectively. After the controller 140 receives the scene signal sent by the selection module 120, a first light parameter corresponding to the scene signal may be obtained from the storage module 130 according to the scene signal, and then the lighting lamp 119 is controlled to emit light according to the first light parameter.

Through this bathroom mirror lighting control device 100, the user can select the required scene mode of oneself according to the occasion, transfers the light parameter under this scene mode through controller 140 to control light 119 corresponding light of outgoing, thereby make the user can set for the light effect that accords with this occasion according to different occasions, and then be favorable to making up out suitable makeup, further promote aesthetic feeling and glamour.

Referring to fig. 2 and fig. 3 together, a structure of the mirror body 110 at different viewing angles is illustrated.

Specifically, the mirror body 110 may include a cabinet 112, a lens 114, and a mounting bracket 116.

The cabinet 112 may be a bathroom cabinet, and may be installed on a wall of a bathroom, and the cabinet 112 includes a front surface and a side surface. The front surface refers to a surface facing a user, and the side surfaces refer to surfaces located in the circumferential direction of the cabinet 112 (when the cabinet is installed, the side surfaces may include surfaces located on the left and right sides of the cabinet and surfaces located on the upper and lower sides of the cabinet).

When installed, the lens 114 is fixedly attached to the front of the cabinet 112 so that a user can view the mirror standing in front of the mirror body 110. The mounting rack 116 is fixedly connected to a side of the cabinet 112 and is used for fixing the illumination lamp 119, so that the illumination lamp 119 can be embedded on a side of the mounting rack 116 close to the lens 114. When the lighting lamp 119 is turned on, the light can illuminate the area of the lens 114 to adjust the brightness and color temperature of the environment where the lens 114 is located, so that a user can obtain different makeup scenes.

Optionally, a frame may be provided on the front side of the cabinet 112, and the lenses 114 may be mounted in the frame.

Optionally, as shown in fig. 2, a display screen 111 may be further disposed on the mirror body 110. The display screen 111 is used for displaying at least one of touch keys, time, weather, a current mode, a color temperature, illumination and brightness parameters. The display 111 may be located below or to the side of the mirror body 110 for easy viewing and manipulation by a user and without obscuring a major area of the lens 114. In fig. 2, the display screen 111 is located at the lower right of the mirror body 110, and the user can select different scene modes by touching the display screen 111, or can directly read reference data such as current time, weather, current mode, color temperature, illumination, brightness, and the like.

In order to enable the illuminating lamps 119 to illuminate the middle area of the lens 114 well, the number of the illuminating lamps 119 may be set to two groups, and the two groups of the illuminating lamps 119 are respectively disposed at the left and right sides of the mirror body 110. And each group of illuminating lamps 119 can be obliquely arranged relative to the lens 114, so that a certain included angle can be formed between the plane where the light emitting surface of each group of illuminating lamps 119 is located and the lens 114.

When the two groups of illuminating lamps 119 are turned on, the lights of the two groups of illuminating lamps 119 are gathered to the middle area of the mirror surface, so that when the distance between a user and the mirror surface is short (for example, the distance between the user and the lens 114 is 20cm), the lights can supplement light to the face part with the maximum brightness.

Referring to fig. 4 and 5, the mounting frame 116 is shown in an exploded view from different viewing angles.

In particular, the mounting bracket 116 may include a bracket body 1160 and a lamp housing 118. The rack body 1160 includes a clamping portion 1162 and a mounting portion 1164, the clamping portion 1162 is a side wall of the mounting rack 116 matched with the cabinet 112, the mounting portion 1164 is a side wall facing a user and inclined relative to the lens 114, and the mounting portion 1164 may be a hollow arc-shaped structure. During installation, the clamping portion 1162 is clamped on the side surface of the cabinet body 112, the lamp shade 118 can be covered on the mounting portion 1164 and can form a containing cavity with the mounting portion 1164, the illuminating lamp 119 is embedded in the containing cavity, and the light emitting surface is inclined relative to the lens 114.

In this application, lamp strip can be chooseed for use to light 119.

As shown in fig. 5, the lamp housing 118 may include a housing body 1180 and first and second vertical sidewalls 1182 and 1184 on both sides of the housing body 1180.

When the lampshade 118 covers the frame body 1160 and is installed on the cabinet 112, the first vertical sidewall 1182 and the second vertical sidewall 1184 are both vertically disposed, and the first vertical sidewall 1182 and the second vertical sidewall 1184 are parallel to each other. The shroud body 1180 is an arc-shaped plate structure, the cross section of the shroud body 1180 is arc-shaped, and the circle center is located in the front area of the cabinet 112. When installed, the second vertical side wall 1184 is disposed proximate to the lens 114 relative to the first vertical side wall 1182.

Alternatively, the housing 118 may be a PC housing through which light emitted by the illumination lamps 119 may pass. And the inner side of the lamp shade 118 can be provided with a clamping groove, the mounting part 1164 of the rack body 1160 is provided with a clamping piece, and the lamp shade 118 and the rack body 1160 can be fixedly connected through the matching of the clamping piece and the clamping groove.

The cabinet 112 may vary in width from bathroom mirror to bathroom mirror. In order to realize that the brightness of the illuminating lamp 119 can be adjusted in a smaller range and the uniformity of the brightness of the lamp is better at different distances from the front area of the lens 114. The inventors performed a number of simulation analyses on the lighting parameters at the front area of the lens 114. According to the width of the bathroom mirror cabinet 112, the arc radius parameter of the housing body 1180, the distance parameter between the first vertical sidewall 1182 and the lens 114, the inclination angle parameter of the housing body 1180, and the like can be quantified, so that the following positional relation among the lamp shade 118, the cabinet 112, and the lens 114 is provided.

Referring to fig. 6, an enlarged schematic view of a portion a in fig. 3 is shown.

R＝W×a1，a1＝0.06～0.09；

L＝W×a2，a2＝0.035～0.065；

H＝W×a3，a3＝0.014～0.026；

θ＝12.15°～36.61°；

Where R is a radius of an arc of the cross section of the cover body 1180, W is a width of the cabinet 112, L is a distance between the first vertical side wall 1182 of the lamp shade 118 and the lens 114 in a first direction 002 (a horizontal direction in fig. 6), H is a distance between the first vertical side wall 1182 of the lamp shade 118 and the lens 114 in a second direction 005 (a vertical direction in fig. 6) perpendicular to the first direction 002, and θ is an included angle between a plane where the first vertical side wall 1182 and the second vertical side wall 1184 of the lamp shade 118 are located and the lens 114.

Due to the inclination angle θ between the lampshade 118 and the lens 114 and the arc radius R of the lampshade body 1180, the illumination of the lamp light in the space area of the lens 114 can be affected. And the light included angle theta and the arc radius R are mutually independent, and in order to realize a better light effect, a group of R, L, H data values can be correspondingly arranged according to different widths W of the cabinet body 112.

When the user walks into the bathroom and uses the vanity mirror to make up, the light may be activated by a touch button on the display 111. When the distance between the person and the lens 114 is within the preset distance range, the color temperature of the illumination lamp 119 illuminated on the person's face may be a lighting parameter in the default mode. For example: the color temperature is 4500K, the color rendering index Ra is greater than 95, the color saturation is greater than 80%, and when the vertical distance between a person and the cosmetic mirror is 20-60 cm, the brightness of the face is 650Lux as a standard, so that the face illumination of the user can meet the cosmetic requirement.

Further, referring to fig. 7, the bathroom mirror illumination control apparatus 100 provided in the embodiment of the present application may further include a light sensor 150. The light sensor 150 is communicatively connected to the controller 140, and the light sensor 150 is used for detecting the brightness of the environment where the mirror body 110 is located and sending the detection result to the controller 140.

Meanwhile, the storage module 130 can also store preset brightness, and the preset brightness is the brightness parameter which can ensure the face brightness of the user and meet the makeup requirement when the vertical distance between the person and the makeup mirror is 20-60 cm. For example, the preset brightness may be 650 Lux.

The controller 140 may compare the received detection result with a preset brightness pre-stored in the storage module 130, and control the emergent light parameters of the illuminating lamp 119 according to the comparison result, so as to ensure the required brightness for the user to make up.

Specifically, the light sensor 150 may be fixed in a lower region of the cabinet 112 of the mirror body 110, and the light sensor may detect the brightness of the space where the mirror body 110 is located in real time, and send the detection result to the controller 140. The controller 140 compares the detection result with the preset brightness, and controls the lighting lamp 119 to supplement light to satisfy that the brightness of the area in front of the mirror body 110 reaches the preset brightness, thereby satisfying the makeup requirement of the user.

Optionally, in another embodiment of the bathroom mirror illumination control device 100 provided by the present application, a distance sensor 153 may be further included. The distance sensor 153 is in communication with the controller 140, and the distance sensor 153 is configured to detect a measured distance between the user and the mirror body 110 and send the measured distance to the controller 140.

Meanwhile, a plurality of second light parameters may be stored in the storage module 130, and the second light parameters correspond to a distance between the user and the mirror body 110. The distance between the user and the mirror body 110 can include a plurality of distance segments or distance ranges, and the plurality of distance segments or distance ranges can correspond to the plurality of second light parameters in a one-to-one manner. For example, when the distance between the user and the mirror body 110 is in the range of 20cm to 60cm, the second light parameter is 650Lux, when the distance between the user and the mirror body 110 is less than 20cm, the second light parameter is 1400Lux, and when the distance between the user and the mirror body 110 is greater than 60cm, the second light parameter is 650 Lux.

According to the measured distance sent by the distance sensor 153, the controller 140 obtains a second light parameter corresponding to the measured distance from the storage module 130, and then controls the lighting lamp 119 to emit light according to the second light parameter.

For example, when the measured distance detected by the distance sensor 153 is greater than 20cm, the controller 140 controls the brightness of the light emitted from the illumination lamp 119 to be 650 Lux; when the measured distance is less than 20cm, the controller 140 controls the brightness of the emergent light of the illuminating lamp 119 to be 1400 Lux.

Alternatively, the distance sensor 153 may be an infrared sensor or a laser sensor, and two distance sensors 153 may be provided, wherein one distance sensor 153 is fixed at the top middle position of the mirror body 110, and the other distance sensor 153 is fixed at the bottom middle position of the mirror body 110. During setting, the distance sensor 153 at the top middle position can be inclined downwards, and the distance sensor 153 at the bottom middle position can be inclined upwards, so that two distance sensors 153 are at a certain angle with the lens 114 at the same time, and can be used by users with different heights.

Optionally, the bathroom mirror illumination control device 100 provided by the embodiment of the application can provide multiple scene modes. For example, at least one of a default mode, an outdoor mode, a party mode, an operational mode, and a leisure mode.

Wherein, the light parameters of the default mode include: the color temperature is 4500K, the color rendering index Ra is more than 95, the color saturation is more than 80%, and the illumination is 650 Lux. The outdoor mode can meet the requirement of dressing correction when a user goes out; the party pattern may match the party activity the user is attending (party activities at restaurants, cafes, hotels, etc.); the working mode is to carry out makeup correction according to the lighting environment of the office, conference hall and other areas; the leisure mode can be matched with the color temperature environment of places such as bars, KTVs and the like.

Specifically, the outdoor module may include: the storage module 130 may store color temperature parameters corresponding to different time periods throughout the day in advance. When the user selects the outdoor mode, the user selects the outdoor mode by pressing the touch key, and the selection module 120 converts the received outdoor mode command into an outdoor signal and sends the outdoor signal to the controller 140. The controller 140 acquires the current time period and increases a preset time (e.g., half an hour, one hour, two hours, etc.) on the basis of the current time period, thereby obtaining the target time period. Then, a color temperature parameter corresponding to the target time period is called, and then the illuminating lamp 119 is controlled to emit light according to the called color temperature parameter, so that the color temperature of the light meets the color temperature required by makeup in the outdoor environment.

The bathroom mirror lighting control device 100 is generally installed in a bathroom of a user, and a memory mode can be set according to living habits of the user, thereby being beneficial to improving the makeup convenience of the user.

Specifically, referring to fig. 9, the bathroom mirror illumination control apparatus 100 may include a memory module 156. The memory module 156 is configured to obtain a scene mode with the highest usage frequency as a memory mode according to a selection frequency of a user for the scene mode within a preset time period. When the user turns on the illumination lamp 119 next time, the color temperature can be automatically changed to the color temperature in the memory mode, so that the user can use the color temperature conveniently.

The bathroom mirror illumination control device 100 provided by the embodiment of the application can provide appropriate makeup light for a user by adjusting parameters such as color temperature and brightness of the bathroom mirror. The user can conveniently select the scene mode according to the requirement, so that the makeup lamplight meets the makeup requirement of the user. Is beneficial to improving the makeup effect of users and increasing the aesthetic feeling and charm.

Referring to fig. 10, an embodiment of the present application further provides a bathroom mirror illumination control method.

Specifically, the control method may include the following steps.

In step S110, the selection module 120 receives the scene mode command, generates a scene signal, and sends the scene signal to the controller 140.

Wherein the scene mode may include at least one of a default mode, an outdoor mode, a party mode, an operation mode, and a leisure mode. The user switches the scene mode by pressing the touch key on the display screen 111 according to the needs of the user. Different scene modes can correspond to different light parameters such as color temperature, brightness and the like.

In step S120, the controller 140 receives the scene signal, calls the first light parameter in the storage module 130 according to the scene signal, and controls the illumination lamp 119 to emit light according to the first light parameter.

The storage module 130 is electrically connected to the controller 140, a plurality of data parameters may be pre-stored in the storage module 130, and when the lighting device is used in a later period, the controller 140 may invoke the corresponding data parameters according to different use environments and use requirements, and control the lighting lamp 119 to emit light according to the invoked data parameters.

Optionally, referring to fig. 11, before the step S110, the following steps may be further included:

in step S102, the light sensor 150 detects the brightness of the environment where the mirror 110 is located, and sends the detected result to the controller 140.

The light sensor 150 is arranged to detect the brightness of the environment where the lens body 110 is located in real time. The photo sensor 150 is electrically connected to the controller 140, and can transmit the detection result to the controller 140.

Step S104, the controller 140 compares the detection result with a preset brightness, and if the detection result is smaller than the preset brightness, the step S105 is executed; when the detection result is greater than the preset brightness, step S106 is performed.

In step S105, the controller 140 controls the illumination lamp 119 to supplement light.

In step S106, no light is required to be supplemented by the illumination lamp 119.

The controller 140 receives the real-time detection result transmitted from the photo sensor 150 and compares the detection result with a preset brightness. The lighting condition of the lighting lamp 119 is controlled according to the comparison result, so that the ambient brightness of the mirror body 110 meets the preset brightness, and the makeup light requirement of the user is met.

Optionally, in another embodiment of the present application, please refer to fig. 12, before the step S110, the following steps may be further included:

in step S002, the distance sensor 153 detects the measured distance between the user and the scope body 110, and sends the measurement result to the controller 140.

Since the user is not fixed at a fixed distance from the lens 114 when using the cosmetic mirror for makeup. The light effects required for different locations where the user is located are different. For example, when the distance between the user and the lens 114 is less than 20cm, the brightness required for the user to make up is greater, which may be 1400 Lux. When the distance between the user and the lens 114 is in the range of 20cm to 60cm, the brightness required for the user to make up may be set to 650 Lux. When the distance between the user and the lens 114 is more than 60cm, the brightness of the lamp light can be kept unchanged at 650 Lux.

In step S005, the controller 140 retrieves the light parameter corresponding to the measured distance from the storage module 130, and controls the illumination lamp 119 to emit light according to the retrieved light parameter.

When the measured distance detected by the distance sensor 153 is greater than 20cm, the controller 140 controls the brightness of the emergent light of the illuminating lamp 119 to be 650 Lux; when the measured distance detected by the distance sensor 153 is less than 20cm, the controller 140 controls the brightness of the light emitted from the illumination lamp 119 to be 1400 Lux.

The bathroom mirror lighting control device 100 provided by the embodiment of the application can adopt the bathroom mirror lighting control method, so that a user can obtain corresponding makeup light requirements according to different use scenes and use requirements, and people can make up conveniently.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (12)

1. A bathroom mirror illumination control device, comprising:

the endoscope comprises an endoscope body, wherein at least one side of the endoscope body is provided with an illuminating lamp;

the selection module is used for converting the received scene mode instruction into a scene signal;

the storage module is used for storing first light parameters respectively corresponding to the scene modes; and

the controller is in communication connection with the illuminating lamp, the selection module and the storage module respectively, receives the scene signal, acquires a first light parameter corresponding to the scene signal in the storage module according to the scene signal, and controls parameters of emergent light of the illuminating lamp to be the first light parameter.

2. The bathroom mirror illumination control device according to claim 1, further comprising a light sensor, wherein the light sensor is in communication connection with the controller, and the light sensor is used for detecting the brightness of the environment where the mirror body is located and sending the detection result to the controller;

the storage module is further used for storing preset brightness, the controller compares the received detection result with the preset brightness, and the emergent light of the illuminating lamp is controlled to meet the preset brightness according to the comparison result.

3. The bathroom mirror lighting control device of claim 1, further comprising a distance sensor in communication with the controller, the distance sensor configured to detect a measured distance between a user and the mirror body and send the measured distance to the controller;

the storage module is further used for storing second light parameters corresponding to the measured distances respectively, the controller obtains the second light parameters corresponding to the measured distances in the storage module, and the parameters of the emergent light of the illuminating lamp are controlled to be the second light parameters.

4. The bathroom mirror illumination control device according to claim 3, wherein when the measured distance is greater than a preset distance, the controller controls the brightness of the emergent light of the illuminating lamp to be a first brightness; and when the actual measurement distance is smaller than the preset distance, the controller controls the brightness of emergent light of the illuminating lamp to be second brightness.

5. The bathroom mirror lighting control apparatus of claim 1, wherein the scene mode comprises at least one of a default mode, an outdoor mode, a party mode, an operational mode, and a leisure mode;

wherein, the color temperature of the default mode is 4500K, the display index Ra is greater than 95, the color saturation is greater than 80%, and the brightness is the first brightness;

the outdoor mode includes:

the storage module is pre-stored with color temperature parameters which are in one-to-one correspondence with different time periods all day long;

when a user selects an outdoor mode, the selection module converts a received outdoor mode instruction into an outdoor signal;

the controller acquires a current time period, increases preset time on the basis of the current time period to obtain a target time period, calls color temperature parameters corresponding to the target time period, and controls the color temperature of emergent rays of the illuminating lamp according to the called color temperature parameters.

6. The bathroom mirror lighting control device according to claim 1, further comprising a memory module, configured to obtain a scene mode with a highest frequency of use as a memory mode according to a frequency of selection of the scene mode by a user within a preset time period, and automatically change to a color temperature of the memory mode when the user turns on the illumination lamp next time.

7. The bathroom mirror lighting control device of any one of claims 1-6, wherein the mirror body comprises a cabinet body, a lens and a mounting frame, the cabinet body comprises a front surface and a side surface, the lens is fixedly connected to the front surface of the cabinet body, the mounting frame is fixedly connected to the side surface of the cabinet body, and the lighting lamp is embedded in one side of the mounting frame close to the lens.

8. The bathroom mirror lighting control device of claim 7, wherein the mounting frame comprises a frame body and a lampshade, the frame body comprises a clamping portion and an installation portion, the clamping portion is clamped on the side face of the cabinet body, the lampshade is arranged on the installation portion and can form an accommodating cavity, and the illuminating lamp is embedded in the accommodating cavity.

9. The bathroom mirror lighting control device of claim 8, wherein the lamp cover comprises a cover body and a first vertical side wall and a second vertical side wall located at two sides of the cover body, the cover body is of an arc-shaped plate-shaped structure, the second vertical side wall is close to the lens relative to the first vertical side wall, the cross section of the cover body is arc-shaped, and the circle center is located in the front area of the cabinet body, and the lamp cover, the cabinet body and the lens have the following positional relationships:

R＝W×a1，a1＝0.06～0.09；

L＝W×a2，a2＝0.035～0.065；

H＝W×a3，a3＝0.014～0.026；

θ＝12.15°～36.61°；

wherein, R is the circular arc radius of cover body cross section, W is the width of the cabinet body, L is in the first direction, first perpendicular lateral wall with distance between the lens, H be in with first direction vertically in the second direction, first perpendicular lateral wall with distance between the lens, theta is first perpendicular lateral wall with the plane that the second perpendicular lateral wall was located with the contained angle between the lens.

10. A bathroom mirror illumination control method is characterized by comprising the following steps:

the selection module receives a scene mode instruction, generates a scene signal and sends the scene signal to the controller;

the controller receives a scene signal, calls a first light parameter corresponding to the scene signal in the storage module according to the scene signal, and controls the illuminating lamp to emit light according to the first light parameter.

11. The bathroom mirror lighting control method according to claim 10, wherein the light sensor detects the brightness of the environment where the mirror body is located and sends the detection result to the controller;

the controller compares the detection result with the preset brightness, and when the detection result is smaller than the preset brightness, the controller controls the illuminating lamp to supplement light so that the brightness of the environment where the mirror body is located meets the preset brightness.

12. The bathroom mirror illumination control method according to claim 10, wherein the distance sensor detects a measured distance between the user and the mirror body and transmits the measurement result to the controller;

the controller calls light parameters corresponding to the actual measurement distance from the storage module, when the actual measurement distance is larger than the preset distance, the controller controls the brightness of the emergent light of the illuminating lamp to be first brightness, and when the actual measurement distance is smaller than the preset distance, the controller controls the brightness of the emergent light of the illuminating lamp to be second brightness.

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