Disclosure of Invention
The present invention is directed to overcome at least one of the above-mentioned drawbacks of the prior art, and to provide an intelligent control method for a health desk lamp, which is used to solve the problem of providing more effective health lighting according to the needs of the user.
The invention adopts the technical scheme that an intelligent control method of a health-care desk lamp comprises the following steps: control parameters of a plurality of health care lighting modes are preset; selecting a corresponding health care lighting mode according to the requirement, and inputting a corresponding user parameter; analyzing user parameters, calling control parameters required by health-care lighting, and forming starting conditions; and adjusting the light source according to the control parameters, outputting a health spectrum and health illumination required by the health illumination, and outputting the health illumination. Healthcare lighting is generally of a universal design, and such an arrangement lacks pertinence, resulting in poor performance of the healthcare lighting. In order to improve the effect of health-care illumination, after a user selects specific health-care illumination, corresponding user parameters are additionally input to adjust the health-care illumination mode, so that the health-care spectrum and the health-care illumination are pertinently adjusted, and the effect of health-care illumination is effectively improved.
According to the technical scheme, after the starting condition is formed, the method further comprises the following steps: and collecting the user state, entering a health care state when the user state reaches a starting condition, and adjusting the control parameters. The starting of the health care illumination is more intelligent, and particularly, the body state of the user is used as the basis for judging whether to enter the health care state, so that the health care effect is more obvious even if the user gives the health care illumination when the body of the user reflects the needs, and the user experience is improved.
The technical scheme is that before entering the health care state, the method further comprises the following steps: acquiring and analyzing an environmental spectrum, an environmental color temperature and environmental illumination in the current environment; and controlling a light source to output supplementary illumination, wherein the supplementary illumination can change a local illumination environment into full-spectrum illumination consistent with the ambient color temperature, the full spectrum is a full spectrum in a visible light waveband, and the illumination is 400-700 lx. The local lighting environment is changed into full-spectrum lighting with the color temperature consistent with the ambient color temperature as a default state, so that the full-spectrum eye protection mode is defaulted to carry out health-care lighting, the full-spectrum lighting is suitable for long-time lighting, and meanwhile, the full-spectrum lighting is also beneficial to adjusting the emotion of a user, adjusting hormone secretion and being friendly to the human body.
The technical scheme is that the user state reaches the starting condition, and specifically comprises the following steps: and detecting one or more of the changes of the eyes and the changes of the limbs and the stills by using the image to achieve the starting condition. The change of eyes and the change of limbs and tenses can more intuitively reflect the real needs of the human body, and the needs are far more timely than the needs of self feeling.
The technical scheme is that after the health care state is entered and before the control parameters are adjusted, the method further comprises the following steps: judging whether external light source interference exists according to the ambient illumination; if no external light source interference exists in the current environment, adjusting control parameters, and outputting health-care illumination according to the pre-stored health-care spectrum and health-care illumination; if the current environment has external light source interference, judging whether the current environment is in an adjustable range, if so, analyzing and obtaining a complementary spectrum and complementary illumination required by the complementary illumination according to the current environment spectrum and the environment illumination, and controlling parameters to control the output of a light source; if not, the ambient light source is re-detected after a time interval. In order to ensure the effectiveness of health-care illumination, whether the environmental conditions required by the health-care illumination are met or not is determined by judging external interference before the health-care illumination, so that the invalidity of the health-care illumination or the reduction of the teaching protection effect can be effectively avoided.
This technical scheme is, health care illumination is equipped with multiform to satisfy the required illumination scope of different health care illuminations, include: controlling the light of the light source to disperse and diffuse to a first type health care with a larger range; controlling the light concentration of the light source to form a second type of health care of a local small area. Different health care illumination has different demands, through increasing diffusion and two kinds of forms of concentrating, can more accord with different health care illumination's needs, promotes health care effect.
According to the technical scheme, the light source comprises a plurality of LED light-emitting modules with the emission wave bands of 380-780nm, and the light source with controllable spectrum and illumination is formed by controlling the power of the LED light-emitting modules and combining the LED light-emitting modules. The light source in the visible light range is adopted to help avoid the damage of ultraviolet light to human bodies, the LED chips have different wave bands and are helpful to be combined with each other to form various spectrums, and the spectrums composed of single wave bands and the spectrums composed of wave bands can be formed through control. The health desk lamp can output various spectrums required by health lighting due to the flexible and variable light source.
The technical scheme is that the health care spectrum and the health care illumination are regulated and output according to control parameters, and the method specifically comprises the following steps: analyzing the difference between the ambient spectrum and the spectrum required for healthcare lighting; controlling a part of light sources to adjust the environmental spectrum into a health-care spectrum, and eliminating the influence of environmental illumination; after the influence of the environmental illumination is eliminated, the other part of light sources are controlled, and the environmental illumination is improved to the health-care illumination after the environmental spectrum is adjusted to the health-care spectrum. The existing environment spectrum is adjusted firstly, the influence of the spectrum is eliminated, then the health care spectrum and the health care illumination are output, and the influence brought by the open environment is fully considered, so that the health care spectrum and the health care illumination are more accurately controlled in a required range, and the accurate health care illumination output is realized.
The technical scheme is that after the environmental spectrum is adjusted into the health-care spectrum, the method specifically comprises the following steps: analyzing and acquiring a missing waveband of the environmental spectrum in the health care spectrum; selecting an LED light-emitting module corresponding to the missing wave band; the power proportion required by the LED light-emitting module to adjust the environmental spectrum into the health-care spectrum is simulated and calculated; and calculating the integral power required by the ambient illumination under the power proportion, and outputting illumination.
Through the synthetic diversity of LED light emitting module to eliminate the influence of environment spectrum in certain extent, promote the effect of whole health care illumination in the local range.
According to the technical scheme, the environment illumination is improved to the health-care illumination, and specifically, the light source is controlled to improve the local environment illumination to the health-care illumination under the condition that the adjusted local environment spectrum is kept unchanged.
After the influence of the environmental illumination is eliminated, the other conditions required by the health-care illumination are further adjusted, and the synthesis quality of the health-care illumination is ensured, so that the effect of realizing the health-care illumination is ensured.
Compared with the prior art, the invention has the beneficial effects that: after the user selects specific health-care illumination, corresponding user parameters are additionally input to adjust the health-care illumination mode, so that the health-care spectrum and the health-care illumination are adjusted in a targeted manner, and the health-care illumination effect is effectively improved. The start-up of health care illumination is more intelligent, and whether the basis of entering health care state is regarded as the judgement through user's health state, even give customer health care illumination when user's health reflects needs, makes the health care effect more obvious, has promoted user experience.
Detailed Description
The drawings are only for purposes of illustration and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.
Example 1
The intelligent control method of the health-care desk lamp comprises the following steps: control parameters of a plurality of health care lighting modes are preset; selecting a corresponding health care lighting mode according to the requirement, and inputting a corresponding user parameter; analyzing user parameters, calling control parameters required by health-care lighting, and forming starting conditions; and adjusting the light source according to the control parameters, outputting a health spectrum and health illumination required by the health illumination, and outputting the health illumination.
Healthcare lighting is generally of a general design and such an arrangement lacks pertinence, resulting in poor performance of the healthcare lighting. In order to improve the effect of health-care illumination, after a user selects specific health-care illumination, corresponding user parameters are additionally input to adjust the health-care illumination mode, so that the health-care spectrum and the health-care illumination are pertinently adjusted, and the effect of health-care illumination is effectively improved.
Before specific operation, a user selects required items in a plurality of preset health care modes, and the health care spectrum and the health care illumination intensity of each item are adjustable in a range. To conform to the user's physical condition, the user can enter inspection data specific to the degree of myopia, astigmatism, etc. by providing more accurate inspection data to conform the healthcare lighting pattern to the specific symptoms and extent, e.g., the symptoms are myopia, amblyopia, etc. And according to the data of the user, determining an accurate numerical value in the range or narrowing the range so as to ensure the effectiveness of the health care lighting. For fast switching among various healthcare lighting modes, control can be invoked quickly when switching healthcare lighting by storing in advance control parameters required for various healthcare lighting in a memory.
The control parameters comprise health care spectrum curves required to be achieved by the health care lighting when the LED light source is controlled to output a plurality of health care lighting. The wavelength band, the wavelength band composition and the illumination required by the health care spectrum, as well as the LED chips of the designated wavelength band required to be controlled by the controller and the power required to be output by each specific chip are synthesized by the LED chips to form the spectrum and the illumination required by the LED light source to output the health care spectrum. Including the start-up conditions that need to be met before outputting each type of healthcare lighting, such as the current environmental impact, the time interval between the same healthcare lighting at the previous time, etc. The method comprises the process control of health care illumination, such as the duration of a single wave band or the alternate combination of a plurality of wave bands, the duration of one-time health care illumination and the like in the health care process.
And after the starting condition is formed, the method also comprises the following steps: and collecting the user state, entering a health care state after the user state reaches a starting condition, and adjusting the control parameters. The starting of the health-care lighting is more intelligent, and particularly, the body state of a user is used as the basis for judging whether to enter the health-care state, so that the health-care effect is more obvious even if the health-care lighting is given to a client when the body of the user reflects the needs, and the user experience is improved. The state of the user can be actually acquired in various ways, for example, by combining big data, analyzing the whole or local actions of the user, the natural exposure gesture, the time of the user in a certain state and some special body signals, so as to achieve the purpose of accurately judging the health-care lighting needs of the user.
Before entering the health care state, the method also comprises the following steps: collecting and analyzing an environment spectrum, an environment color temperature and an environment illumination in the current environment; the control light source outputs supplementary lighting, the supplementary lighting can change a local lighting environment into full-spectrum lighting consistent with the ambient color temperature, the full spectrum is a full spectrum in a visible light wave band, and the illumination is 400lx-700 lx. The local lighting environment is changed into full-spectrum lighting with the color temperature consistent with the ambient color temperature as a default state, so that the full-spectrum eye protection mode is defaulted to carry out health-care lighting, the full-spectrum lighting is suitable for long-time lighting, and meanwhile, the full-spectrum lighting is also beneficial to adjusting the emotion of a user, adjusting hormone secretion and being friendly to human bodies.
Because the full spectrum illumination is under the open environment, in order to eliminate the influence of environmental factors on the full spectrum illumination, the output of the full spectrum is established under the current environmental color temperature, environmental spectrum and environmental illumination, so that the full spectrum formed in the local range is the true full spectrum, and the effect of being closer to the sunlight is achieved. The equipment for collecting the environmental spectrum and the environmental illumination is arranged above the light source and is positioned at the back of the adjustable lampshade which is shielded by the light source, so that collected data are not easily influenced by the light source.
The user state reaching the starting condition specifically comprises: and one or more changes of eye changes and limb changes obtained by image detection reach the starting condition. The change of eyes and the change of limbs and tenses can more intuitively reflect the real needs of the human body, and the needs are far more timely than the needs of self feeling. Specific changes can be various, for example, the duration of non-blinking, frequent blinking or eye kneading, small movements reflecting the inner anxiety, the amount of the heart being held, and the like, and the requirements of the user can be rapidly acquired through the analysis of parameters input by the user in combination with big data.
After entering the health care state, before adjusting the control parameters, the method also comprises the following steps: judging whether external light source interference exists according to the ambient illumination; if no external light source interference exists in the current environment, adjusting control parameters, and outputting health-care illumination according to the pre-stored health-care spectrum and health-care illumination; if the current environment has external light source interference, judging whether the current environment is in an adjustable range, if so, analyzing and obtaining a complementary spectrum and complementary illumination required by the complementary illumination according to the current environment spectrum and the environment illumination, and controlling parameters to control the output of a light source; if not, the ambient light source is re-detected after a time interval. In order to ensure the effectiveness of health care illumination, whether the environmental conditions required by the health care illumination are met is determined by judging external interference before the health care illumination, so that the invalidity of the health care illumination or the reduction of the teaching protection effect can be effectively avoided.
Healthcare lighting is provided in a variety of forms to meet the range of illumination required by different healthcare lighting, including: controlling light of the light source to disperse and diffuse to a first type of health care with a large range; controlling the light concentration of the light source to form a second type of health care of a local small area. Different health care illumination has different demands, through increasing diffusion and two kinds of forms of concentrating, can more accord with different health care illumination's needs, promotes health care effect. The adjustable lampshade can be specifically characterized in that the edge of the lower part of the lampshade for mounting the light source is provided with a retractable or extendable annular blocking piece, when the annular blocking piece extends, the annular blocking piece forms blocking under the adjustable lampshade, so that the outward scattering of illumination light is reduced, the light-gathering type irradiation is formed, and the influence of the light on the eyes of a user is reduced; when the annular blocking piece is contracted, the light of the light source is scattered outwards to create a relatively large local illumination area.
The light source comprises a plurality of LED light-emitting modules with the emission wave band of 380-780nm, and the power of the LED light-emitting modules is controlled and combined with each other to form the light source with controllable spectrum and illumination intensity. The light source in the visible light range is adopted to help avoid the damage of ultraviolet light to human bodies, the LED chips have different wave bands and are helpful to be mutually combined to form various spectrums, and the spectrums composed of single wave bands and the spectrums composed of wave bands can be formed by controlling. The health desk lamp can output various spectrums required by health lighting due to the flexible and variable light source. LED lighting modules form a variety of combinations such as: combination 1, equally dividing 380-780nm into 5 ranges, and selecting 5 kinds of LED light-emitting modules with emission wavelengths at close intervals: 440nm, 530nm, 570nm, 615nm, 730 nm; combination 2, equally dividing 380-780nm into 10 ranges, and selecting 10 kinds of LED light-emitting modules with emission wavelengths at close intervals: 408nm, 450nm, 468nm, 530nm, 570nm, 562nm, 625nm, 680nm, 730nm, 770nm, etc.
Adjusting and outputting a health spectrum and health illumination according to the control parameters, specifically: analyzing the difference between the ambient spectrum and the spectrum required for healthcare lighting; controlling a part of light sources to adjust the environmental spectrum into a health-care spectrum, and eliminating the influence of environmental illumination; after the influence of the environmental illumination is eliminated, the other part of light sources are controlled, and the environmental illumination is improved to the health-care illumination after the environmental spectrum is adjusted to the health-care spectrum. The existing environment spectrum is adjusted firstly, the influence of the spectrum is eliminated, then the health care spectrum and the health care illumination are output, the influence brought by the open environment is fully considered, the health care spectrum and the health care illumination are controlled more accurately in a required range, and accurate health care illumination output is realized.
After the environmental spectrum is adjusted into the health-care spectrum, the method specifically comprises the following steps: analyzing and acquiring a missing waveband of the environmental spectrum in the health care spectrum; selecting an LED light-emitting module corresponding to the missing wave band; the power proportion required by the environment spectrum to be adjusted into the health spectrum by the LED light-emitting module is simulated and calculated; and under the condition of calculating the power proportion, the whole power required by the ambient illumination is achieved, and illumination is output. Through the synthetic diversity of LED light emitting module to eliminate the influence of environment spectrum in certain extent, promote the effect of whole health care illumination in the local range. Missing bands are the lack of a band or the same band, and there is a difference between the peak positions.
And (3) increasing the ambient illumination to the health-care illumination, specifically, controlling the light source to increase the illumination of the local environment to the health-care illumination under the condition of keeping the adjusted spectrum of the local environment unchanged. After the influence of the environmental illumination is eliminated, the health-care illumination is further adjusted to other conditions required by the health-care illumination, and the synthesis quality of the health-care illumination is ensured, so that the effect of realizing the health-care illumination is ensured.
Example 2
The embodiment is an example of application of the intelligent control method, a user powers on the healthcare table lamp, starts a power switch, and outputs a light source with a full spectrum and environmental illumination required for eye care, specifically, collects data of an environmental spectrum and environmental illumination, analyzes band loss of the environmental spectrum through calculation, obtains a band complementary spectrum for complementing the environmental spectrum to the full spectrum at the same color temperature in a simulation mode, controls a part of light sources to output according to the complementary spectrum, and adjusts the environmental spectrum to the full spectrum. And further controlling another part of light sources to illuminate with the same full spectrum, and adjusting the local environment illumination to 400lx-700 lx. The user selects a healthcare lighting mode, enters symptom and inspection data in the selected mode, and narrows specific output parameters, such as spectral range and illumination range, of each selected healthcare lighting. Continuously collecting the eye change and the limb movement change of a user, combining big data analysis, when the user has continuous or special limb language, triggering the selected health-care illumination mode to start, detecting whether the environmental condition is met or not after starting, if so, taking the health-care spectrum and the health-care illumination as targets, adjusting an LED light-emitting module in a light source, fusing the light source with the environmental spectrum through power control, eliminating the influence of the current environment, and then improving the light source output illumination to the environmental illumination under the state of keeping the spectrum unchanged. After a preset duration, the healthcare illumination is stopped and reverts to full spectrum illumination.
The healthcare lighting patterns described above include, but are not limited to, the following information: eye protection and health care are carried out, the required wave band combination is a full spectrum with the color temperature of 4000K-6000K, the required illumination is 400lx-800lx, and the first type of health care is adopted; skin health care, the required wave band is 670-; retinal health care, wherein the required waveband is 670-; the anti-depression health care adopts the full spectrum illumination with the color temperature of 4000-6000K and the required illumination of 800lx-1000lx, and adopts the first type of health care with the duration of 10-15 minutes each time.
It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.