CN115426753A

CN115426753A - Intelligent lamp system in front of mirror, light adjusting method thereof and mirror comprising intelligent lamp system

Info

Publication number: CN115426753A
Application number: CN202210956960.XA
Authority: CN
Inventors: 秦烨勇
Original assignee: Shaoxing Zhiyi Lighting Technology Co ltd
Current assignee: Shaoxing Zhiyi Lighting Technology Co ltd
Priority date: 2022-08-10
Filing date: 2022-08-10
Publication date: 2022-12-02

Abstract

The invention discloses a mirror front intelligent lamp system, a light ray adjusting method of the mirror front intelligent lamp system and a mirror comprising the intelligent lamp system. The intelligent lamp system comprises a main lamp, a sensor module and a control module, wherein the control module is respectively connected with the main lamp and the sensor module; the sensor module comprises an image collector, a microprocessor and an information transmitter; the image collector is used for collecting the human body characteristic information and the ambient light intensity and transmitting the human body characteristic information and the ambient light intensity to the microprocessor; the microprocessor is used for analyzing the information transmitted by the image collector and transmitting the analysis result to the control module through the information transmitter; the control module adjusts the light intensity of the main lamp or only adjusts the main lamp into an illumination mode according to the comparison result of the human characteristic information acquired by the sensor module and the preset human characteristic options and the ambient light intensity. The intelligent lamp system in front of the mirror provided by the invention can meet the use requirements under different conditions.

Description

Intelligent lamp system in front of mirror, light adjusting method thereof and mirror comprising intelligent lamp system

Technical Field

The invention relates to the technical field of illumination, in particular to a front-of-mirror intelligent lamp system, a light adjusting method thereof and a mirror comprising the same.

Background

Mirrors, such as toilet mirrors and full-length mirrors, are indispensable articles in daily life of people. With the rise of smart homes, mirrors are designed to be more and more intelligent. For example, more and more mirrors are from the illumination lamp area of taking the response, make things convenient for people to carry out automatic light filling when looking into the mirror.

The invention patent application with the application number of CN201710684566.4 discloses an induction type lamp mirror, which comprises a frame and a mirror body arranged in the frame, wherein the mirror body is provided with a light-transmitting area, one side of the light-transmitting area is provided with a mounting strip adhered to the back of the mirror body, and the mounting strip is provided with a lamp strip; be equipped with the ballast on the mirror body and sweep inductive switch with the hand, the inductive switch is swept to the hand includes infrared reflection type sensor and the control unit, the control unit's input with infrared reflection type sensor's output electric connection, the control unit's first output with lamp area electric connection, the control unit's second output with ballast electric connection.

The induction type lamp mirror adopts a hand-sweeping induction switch, and the light source can be turned on or off without touch contact. And through add the mounting bar in printing opacity district one side, set up the lamp area in the mounting bar for the light source does not openly shine the printing opacity district, thereby makes the printing opacity district on the mirror body luminous gentle.

Although the lamp mirror realizes the induction type lamp turning-on and enables the irradiated light to be softer, the light intensity irradiated by the lamp is single, light adjustment cannot be carried out according to actual scenes such as whether a person in front of the mirror is looking into the mirror, weather conditions, the distance between the person and the mirror, day time or night, the person cannot obtain the most natural irradiated light, and the use requirements under different conditions cannot be met.

Disclosure of Invention

The invention aims to solve the technical problem that the prior mirror front lamp cannot automatically adjust the irradiation mode according to different scenes and the like.

In order to solve the technical problem, the scheme adopted by the application is as follows:

providing a front-of-mirror intelligent lamp system, wherein the intelligent lamp system comprises a main lamp, a sensor module and a control module, and the control module is respectively connected with the main lamp and the sensor module; the sensor module comprises an image collector, a microprocessor and an information transmitter;

the image collector is used for collecting human body characteristic information and ambient light intensity and transmitting the human body characteristic information and the ambient light intensity to the microprocessor; the microprocessor is used for analyzing the information transmitted by the image collector and transmitting the analysis result to the control module through the information transmitter;

the control module adjusts the light intensity of the main lamp or only adjusts the main lamp into an illumination mode according to the comparison result of the human characteristic information acquired by the sensor module and preset human characteristic options and the ambient light intensity.

Further, the human body feature information comprises face information containing human body pupil information, the height of a person and the distance between the person and a mirror, and the human body feature options comprise preset human body pupil information;

when the human body characteristic information has a part matched with the human body characteristic option, the control module adjusts the intensity of the main light; when the human body feature information is not matched with the human body feature options, the control module only adjusts the main lamp into an illumination mode.

Furthermore, the device also comprises an auxiliary lamp and/or a rotating mechanism and/or a lifting mechanism;

the auxiliary lamp is connected with the control module, and the control module adjusts the irradiation mode of the auxiliary lamp according to the comparison result and the ambient light intensity;

the rotating mechanism is respectively connected with the main lamp, the auxiliary lamp and the control module, and the control module adjusts the irradiation angles of the main lamp and the auxiliary lamp according to the comparison result and the ambient light intensity;

the lifting mechanism is connected with the control module, and the control module controls the lifting of the mirror according to the comparison result.

Furthermore, the intelligent lamp system comprises a temperature sensor, the temperature sensor is connected with the control module, and the control module adjusts the temperature of the lamp light according to the temperature information transmitted by the temperature sensor;

and/or the control module is connected with the Internet, and the control module adjusts the temperature of the light according to the temperature information on the Internet.

In order to solve the above technical problem, the present application further provides a light ray adjusting method for a smart lamp system before a mirror, including the following steps:

1) Acquiring human body characteristic information and ambient light intensity in front of a mirror;

2) And adjusting the light intensity of the main lamp or only adjusting the main lamp to be an illumination mode according to the comparison result of the human body characteristic information and preset human body characteristic options and the ambient light intensity.

Further, in step 2):

when the human body characteristic information has a part matched with the preset human body characteristic option, judging that a person in front of a mirror looks into the mirror at the moment, and automatically adjusting the intensity of the main lamp illumination light by combining the intensity of the ambient light;

and when the human body characteristic information does not have a part matched with the preset human body characteristic option, judging that a person in front of the mirror does not look into the mirror at the moment, and judging whether the main lamp is adjusted to be in an illumination mode or not by combining the ambient light intensity.

Further, the human body characteristic information comprises face information containing human body pupil information, the height of a person and the distance between the person and the mirror; the human body feature options comprise preset human body pupil information.

Further, in the step 2),

when the human body characteristic information has a part matched with the preset human body pupil information, judging that a person in front of the mirror is looking directly at the mirror at the moment, and adjusting the light intensity irradiated by the main lamp by combining the ambient light intensity, the height and the distance;

and when the human body characteristic information does not have a part matched with the preset human body pupil information, judging that the person in front of the mirror is not a direct-view mirror at the moment, and judging whether the main lamp is adjusted to be in an illumination mode or not by combining the ambient light intensity.

Still further, the method further comprises:

a step of adjusting the irradiation mode of the auxiliary lamp according to the comparison result in the step 2); and/or the presence of a gas in the gas,

a step of adjusting the irradiation angles of the main lamp and the auxiliary lamp according to the comparison result in the step 2); and/or the presence of a gas in the gas,

controlling the lifting of the mirror according to the comparison result in the step 2); and/or adjusting the temperature of the lamp light according to the change of the environmental temperature.

In order to solve the technical problem, the application further provides a mirror, and the mirror is provided with the intelligent lamp system in front of the mirror.

The technical scheme claimed by the application obtains the following beneficial effects:

1) The processor module can automatically judge whether a person in front of the mirror looks into the mirror or not according to the comparison result of the human body characteristic information, and when the person in front of the mirror is judged to look into the mirror, the processor module controls the intensity of light irradiated on the person by the main lamp and adjusts the light intensity and the light saturation (color rendering index) irradiated on the person to the most natural values, so that the person in front of the mirror obtains the best irradiation effect; when judging that the person need not look into the mirror before the mirror, processor module can judge whether to use the main light as the light according to ambient light, satisfies the user demand under the different situation.

2) The sensor module also obtains the height of the person and the distance between the person and the mirror, and the processor module can further accurately adjust the light intensity of the main lamp according to the information feedback of the sensor module.

3) The use of the auxiliary lamp can further enhance the light supplement effect under the condition of poor ambient light intensity.

4) The processor module can control the irradiation angles of the main lamp and the auxiliary lamp by controlling the rotation of the rotating mechanism, the height of the mirror is adjusted by controlling the lifting mechanism, and the irradiation angles of people can be adjusted in time by the processor module under the conditions that the people have different heights and different distances from the mirror in front of the mirror, so that the optimal irradiation effect is obtained.

5) The changes in temperature of the light can be adjusted according to the changes in the ambient temperature, and the experience of the user is further improved.

Drawings

Fig. 1 is a block schematic diagram of a front-of-mirror smart lamp system.

Detailed Description

The technical solution claimed by the present invention is further clearly described below with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in fig. 1, the smart lamp system before mirror provided by this embodiment includes a main lamp, a sensor module, and a control module (which may be a MUC or a CPU, etc.), where the control module is respectively connected to the main lamp and the sensor module; the sensor module is used for acquiring human characteristic information and ambient light intensity in front of the mirror, and the control module adjusts the irradiation mode of the main lamp according to the comparison result of the human characteristic information acquired by the sensor module and preset human characteristic options and the ambient light intensity: the light intensity or the illumination mode is automatically adjusted. The front mirror smart light system is preferably placed on top of the mirror.

Specifically, the sensor module comprises an image collector, a microprocessor and an information transmitter, wherein the output end of the image collector is connected with the input end of the microprocessor, the output end of the microprocessor is connected with the input end of the information transmitter, and the output end of the information transmitter is connected with the input end of the controller. The image collector is used for collecting the human body characteristic information and the ambient light intensity and transmitting the human body characteristic information and the ambient light intensity to the microprocessor; the microprocessor is used for analyzing the information transmitted by the image collector and transmitting the analysis result to the control module through the information transmitter.

Specifically, the human body feature information comprises face information containing human body pupil information, the height of a person and the distance between the person and a mirror, and the human body feature options comprise preset human body pupil information; when the human body characteristic information has a part matched with the human body characteristic option, the control module adjusts the intensity of the main light; when the human body feature information is not matched with the human body feature options, the control module only adjusts the main lamp into an illumination mode.

Specifically, the intelligent lamp system comprises a temperature sensor, the temperature sensor is connected with the control module, and the control module adjusts the light into warm light or cold light according to the temperature information transmitted by the temperature sensor; or the control module is directly connected with the Internet, and the control module adjusts the light to be warm light or cold light according to the temperature information on the Internet.

More specifically, the sensor module is a CCD image capture sensor.

The light ray adjusting method of the intelligent lamp system before the mirror comprises the following steps:

In step 2), when the human body characteristic information has a part matched with the preset human body characteristic option, judging that a person in front of the mirror looks into the mirror at the moment, automatically adjusting the intensity of the main lamp illumination light by combining with the ambient light intensity, and adjusting the light intensity and light saturation (color rendering index) on the person to a preset most natural value (the value can be adjusted according to different requirements), so that the person in front of the mirror obtains the most natural light illumination intensity and mirror looking effect;

when the human body characteristic information does not have the part matched with the preset human body characteristic option, judging that a person does not look into the mirror at the moment (for example, the person just passes by or brushes teeth with a head down), and judging whether to adjust the main lamp to be in an illumination mode or not by combining the ambient light intensity (for example, at night, when the ambient light influences the walking of the person, the main lamp is adjusted to be in a small night lamp mode mainly playing an illumination role, and in the daytime, when the ambient light intensity does not influence the walking of the person, the main lamp is not turned on).

Specifically, the human body feature information comprises face information of a person, height of the person and a distance between the person and the mirror, the face information comprises pupil information of the person, and the human body feature options comprise preset human body pupil information.

More specifically, in step 2), when there is a part in the human body characteristic information that matches the preset human body pupil information, it is determined that a person in front of the mirror is looking directly at the mirror (for example, making up), and the light irradiated by the main light is strong or weak in combination with the ambient light intensity, the height and the distance;

More specifically, a step of adjusting the etc. to warm light or cool light according to the change of the ambient temperature is further included.

Example 2

In particular, the system further comprises auxiliary lights, preferably arranged on both sides of the mirror. The auxiliary lamp is connected with the control module, and the control module adjusts the irradiation mode of the auxiliary lamp according to the comparison result and the ambient light intensity.

More specifically, the sensor module is a CCD image capture sensor.

Specifically, the human body characteristic information comprises face information containing human body pupil information, the height of a person and the distance between the person and a mirror; the human body feature options comprise preset human body pupil information.

More specifically, the method further comprises the step of adjusting the illumination mode of the auxiliary lamp according to the comparison in step 2): when a person needs to look into the mirror, the irradiation intensity of the auxiliary lamps is respectively adjusted according to the difference of the ambient light intensity at the two sides of the mirror, the height of the person and the distance between the person and the mirror; when judging that the person is not looking at the mirror, whether the auxiliary lamp is used as a lighting 'small night lamp' is judged according to the ambient light.

Example 3

Specifically, the human body feature information comprises face information containing human body pupil information, the height of a person and the distance between the person and a mirror, and the human body feature options comprise preset human body pupil information; when the human body characteristic information has a part matched with the human body characteristic option, the control module adjusts the intensity of the main light; when the human body characteristic information is not matched with the human body characteristic option, the control module only adjusts the main lamp into an illumination mode.

The system also comprises a rotating mechanism, the rotating mechanism is respectively connected with the main lamp, the auxiliary lamp and the control module, and the control module adjusts the irradiation angles of the main lamp and the auxiliary lamp according to the comparison result and the ambient light intensity.

The system also comprises a lifting mechanism, wherein the lifting mechanism is arranged below the mirror and connected with the control module, and the control module controls the lifting of the mirror according to the comparison result.

More specifically, the sensor module is a CCD image capture sensor.

More specifically, the method further includes the step of adjusting the irradiation angles of the main lamp and the auxiliary lamp by controlling the rotation mechanism according to the comparison result in step 2): when people need to look into the mirror, the irradiation angles of the auxiliary lamp and the main lamp are respectively adjusted according to the difference of the ambient light intensity at the two sides of the mirror, the height of the people and the distance between the people and the mirror.

More specifically, the method further comprises the step of controlling the raising and lowering of the mirror according to the comparison result in step 2): the mirror is adjusted to ascend or descend according to the height of a person and the distance from the mirror, so that the requirements of users with different heights are met, and the person in front of the mirror has the best irradiation effect.

Specifically, rotary lamp section of thick bamboo shell can be selected for use to rotary mechanism, telescopic link can be selected for use to elevating system. The rotating mechanism and the lifting mechanism can be any existing commodity, and the detailed structure is not repeated herein. The rotating mechanism and the lifting mechanism are respectively connected with the control module through motors, and the control module controls the rotation of the lamp or the lifting of the mirror by controlling different motors.

More specifically, the method also comprises the step that the control module adjusts the light to be warm light or cool light according to the change of the ambient temperature.

The above-mentioned embodiments are merely illustrative and not restrictive, and various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The intelligent lamp system before the mirror is characterized by comprising a main lamp, a sensor module and a control module, wherein the control module is respectively connected with the main lamp and the sensor module; the sensor module comprises an image collector, a microprocessor and an information transmitter;

2. The before-mirror smart lamp system of claim 1, wherein the body characteristic information comprises facial information including body pupil information, a height of a person, and a distance between the person and the mirror, and the body characteristic options comprise preset body pupil information;

when the human body characteristic information has a part matched with the human body characteristic option, the control module adjusts the intensity of the main light; when the human body characteristic information is not matched with the human body characteristic option, the control module only adjusts the main lamp into an illumination mode.

3. The pre-mirror smart light system of claim 2, further comprising an auxiliary light and/or a rotation mechanism and/or a lift mechanism;

4. The intelligent lamp system before mirror as claimed in any one of claims 1 to 3, wherein the intelligent lamp system comprises a temperature sensor, the temperature sensor is connected with the control module, and the control module adjusts the temperature of the lamp light according to the temperature information transmitted by the temperature sensor;

5. A light ray adjusting method of a mirror-front intelligent lamp system is characterized by comprising the following steps:

6. The method for adjusting light of a smart lamp system before mirror as claimed in claim 5, wherein in step 2):

7. The method as claimed in claim 6, wherein the human characteristic information comprises facial information including human pupil information, height of the person and distance between the person and the mirror; the human body feature options comprise preset human body pupil information.

8. The method for adjusting the light of a smart lamp system before mirror as claimed in claim 7, wherein in step 2),

9. The method for adjusting light of a smart lamp system before mirror as claimed in any one of claims 5-8, wherein the method further comprises:

controlling the mirror to ascend and descend according to the comparison result in the step 2); and/or the presence of a gas in the gas,

and adjusting the temperature of the light according to the change of the ambient temperature.

10. A mirror characterized in that it is fitted with a pre-mirror smart light system as claimed in any one of claims 1-4.