Disclosure of Invention
The invention aims to overcome at least one defect of the prior art, and provides an intelligent control method of a health-care desk lamp, which is used for solving the problem of providing more effective health-care illumination according to the needs of users.
The technical scheme adopted by the invention is that the intelligent control method of the health-care desk lamp comprises the following steps: the control parameters of a plurality of health-care illumination modes are preset; selecting a corresponding health-care lighting mode according to requirements, and inputting corresponding user parameters; analyzing user parameters, calling control parameters required by health care illumination, and forming starting conditions; and regulating the light source according to the control parameters, outputting a health care spectrum and health care illumination required by the health care illumination, and outputting the health care illumination. Healthcare lighting is generally of a general-purpose design, and such arrangement lacks pertinence, resulting in poor efficacy of the healthcare lighting. In order to improve the effect of health care illumination, after a user selects specific health care illumination, the user parameters corresponding to the supplementary input are adjusted to the health care illumination mode, so that the health care illumination mode is adjusted in a targeted manner, and the effect of health care illumination is effectively improved.
The technical scheme is that after the starting condition is formed, the method further comprises the following steps: and collecting the user state, entering a health-care state after the user state reaches the starting condition, and adjusting the control parameters. The starting of the health care illumination is more intelligent, specifically, the physical state of the user is used as the basis for judging whether the user enters the health care state, and even if the user gives the health care illumination when the body of the user reflects the needs, the health care effect is more obvious, and the user experience is improved.
The technical scheme is that before entering the health-care state, the method further comprises the following steps: collecting and analyzing the environmental spectrum, the environmental color temperature and the environmental illuminance in the current environment; the light source is controlled to output supplementary illumination, the supplementary illumination can change the local illumination environment into full spectrum illumination consistent with the environment color temperature, the full spectrum is full spectrum in a visible light wave band, and the illumination is 400lx-700lx. The local illumination environment is changed into full spectrum illumination consistent with the color temperature of the environment to be in a default state, so that the full spectrum illumination is used for health care illumination in a full spectrum eye protection mode by default, the full spectrum illumination is suitable for long-time illumination, and meanwhile, the full spectrum illumination is also beneficial to adjusting the emotion of a user, adjusting hormone secretion and is friendly to a human body.
The technical scheme is that the user state reaches a starting condition, specifically: one or more of the eye change and limb dynamic and static change obtained through image detection reach a starting condition. The change of eyes and the change of limbs movement can more intuitively reflect the real needs of human bodies, and the needs are far more timely than the needs of self-feeling.
The technical scheme is that after entering the health-care state, before adjusting the control parameters, the method further comprises the following steps: judging whether external light source interference exists according to the ambient illuminance; if the current environment is not interfered by an external light source, adjusting control parameters, and outputting health-care illumination according to a 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 acquiring a complement spectrum and complement illuminance required by the complement illumination according to the current environment spectrum and the environment illuminance, and controlling parameters to control the light source output; if not, re-detecting the ambient light source after a time interval. In order to ensure the effectiveness of the health care illumination, whether the environment conditions required by the health care illumination are met or not is determined by judging the external interference before the health care illumination, so that the invalidity of the health care illumination or the reduction of the health care effect can be effectively avoided.
The technical scheme is that the health care illumination is provided with a plurality of forms to satisfy the illumination scope that different health care illumination needs, include: controlling light dispersion of the light source to diffuse to a larger range of first type health care; controlling the light source to concentrate to form a local small area of the second type of health care. Different health-care illumination has different requirements, and by adding two forms of diffusion and concentration, the requirements of different health-care illumination can be met, and the health-care effect is improved.
The technical scheme is that the light source comprises a plurality of LED light-emitting modules with 380-780nm emission wavebands, and the light source with controllable spectrum and illumination is formed by controlling the power of the LED light-emitting modules and combining the power with each other. 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 favorable for forming various spectrums by mutual combination, and particularly, the spectrum formed by a single wave band and the spectrum formed by the wave bands can be formed by controlling. It is provided with a flexible and changeable light source, so that the health-care desk lamp can output various spectrums required by health-care illumination.
The technical scheme is that the health care spectrum and the health care illumination are regulated and output according to the control parameters, and specifically comprises the following steps: analyzing the difference between the environmental spectrum and the spectrum required for health care illumination; controlling a part of light sources, adjusting the environmental spectrum into a health care spectrum, and eliminating the influence of environmental illumination; after the influence of the ambient illumination is eliminated, the other part of light sources are controlled, the ambient spectrum is adjusted to be a health care spectrum, and the ambient illumination is improved to be the health care illumination. By adjusting the existing environment spectrum firstly, eliminating the influence of the spectrum, then outputting the health care spectrum and the health care illumination, fully considering the influence caused by the open environment, more accurately controlling the health care spectrum and the health care illumination within the required range, and realizing accurate health care illumination output.
The technical scheme is that after the environmental spectrum is adjusted to be a health care spectrum, the method specifically comprises the following steps: analyzing and acquiring a missing band of the environmental spectrum in the health spectrum; selecting an LED light-emitting module corresponding to the missing wave band; the power proportion required by the LED light-emitting module for adjusting the environmental spectrum to the health care spectrum is calculated in a simulation mode; and calculating the integral power required by the ambient illuminance under the power proportion, and outputting illumination.
The influence of the environmental spectrum is eliminated in a certain range through the synthesis diversity of the LED light-emitting module, and the effect of integral health-care illumination in a local range is improved.
According to the technical scheme, the method comprises the step of improving the ambient illuminance to the health-care illuminance, and specifically, under the condition that the adjusted local ambient spectrum is kept unchanged, the light source is controlled to improve the illuminance of the local environment to the health-care illuminance.
After the influence of the environment illumination is eliminated, the environment illumination is further regulated to other conditions required by the health care illumination, and the synthetic quality of the health care illumination is ensured, so that the effect of the health care illumination can be realized is ensured.
Compared with the prior art, the invention has the beneficial effects that: after a user selects a specific health care illumination, the user parameters corresponding to the supplementary input are adjusted to adjust the health care illumination mode, so that the health care illumination mode can be adjusted in a targeted manner, and the effect of the health care illumination is effectively improved. The starting of the health care illumination is more intelligent, the physical state of the user is used as the basis for judging whether the user enters the health care state, and even if the user gives the health care illumination when the body of the user reflects the needs, the health care effect is more obvious, and the user experience is improved.
Detailed Description
The drawings are for illustrative purposes only and are not to be construed as limiting the invention. For better illustration of the following embodiments, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the actual product dimensions; it will be appreciated 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: the control parameters of a plurality of health-care illumination modes are preset; selecting a corresponding health-care lighting mode according to requirements, and inputting corresponding user parameters; analyzing user parameters, calling control parameters required by health care illumination, and forming starting conditions; and regulating the light source according to the control parameters, outputting a health care spectrum and health care illumination required by the health care illumination, and outputting the health care illumination.
Healthcare lighting is generally of a general-purpose design, and such arrangement lacks pertinence, resulting in poor efficacy of the healthcare lighting. In order to improve the effect of health care illumination, after a user selects specific health care illumination, the user parameters corresponding to the supplementary input are adjusted to the health care illumination mode, so that the health care illumination mode is adjusted in a targeted manner, and the effect of health care illumination is effectively improved.
Before specific operation, a user selects a required item in a plurality of preset health care modes, and the health care spectrum and the health care illumination of each item have an adjustable range. To conform to the physical condition of the user, the user can input test data, particularly the degree of myopia, astigmatism, etc., by providing more accurate test data to conform the healthcare lighting pattern to specific symptoms and levels, such as symptoms of myopia, amblyopia, etc. According to the data of the user, an accurate value or a reduced range is determined in the range so as to ensure the effectiveness of the health care illumination. In order to quickly switch among various health-care illumination modes, control parameters required by various health-care illumination can be quickly called for to control when the health-care illumination is switched by storing the control parameters in a storage in advance.
The control parameters include a health-care spectrum curve which needs to be reached by the health-care illumination when the LED light source is controlled to output a plurality of health-care illuminations. The light spectrum and the illumination required by health care are formed by combining the LED chips, wherein the LED chips are required to be controlled by the controller and the power required to be output by each specific chip, and the light spectrum and the illumination required by the LED light source when the health care light spectrum is output are formed. Including outputting the starting conditions that need to be met before each healthcare illumination, such as the current environmental impact, the time interval between the last same healthcare illumination, etc. Including process control of health care illumination, such as single-band continuous or multiple-band combination alternate in health care process, duration of one health care illumination, etc.
And after the starting condition is formed, the method further comprises the following steps: and collecting the user state, entering a health-care state after the user state reaches the starting condition, and adjusting the control parameters. The starting of the health care illumination is more intelligent, specifically, the physical state of the user is used as the basis for judging whether the user enters the health care state, and even if the user gives the health care illumination when the body of the user reflects the needs, the health care effect is more obvious, and the user experience is improved. The state of the user can be acquired in various ways, for example, by combining big data, analyzing the overall or partial actions of the user, the natural exposed gesture, the time of the user in a certain state and some special body signals, so that the purpose of accurately judging the health-care lighting needs of the user is achieved.
Before entering the health-care state, the method further comprises the following steps: collecting and analyzing the environmental spectrum, the environmental color temperature and the environmental illuminance in the current environment; the light source is controlled to output supplementary illumination, the supplementary illumination can change the local illumination environment into full spectrum illumination consistent with the color temperature of the environment, the full spectrum is full spectrum in the visible light wave band, and the illumination is 400lx-700lx. The local illumination environment is changed into full spectrum illumination consistent with the color temperature of the environment to be in a default state, so that the full spectrum illumination is used for health care illumination in a full spectrum eye protection mode by default, the full spectrum illumination is suitable for long-time illumination, and meanwhile, the full spectrum illumination is also beneficial to adjusting the emotion of a user, adjusting hormone secretion and is friendly to a human body.
Because the full spectrum illumination is in an open environment, in order to eliminate the influence of environmental factors on the full spectrum illumination, the full spectrum output is established under the current environment color temperature, environment spectrum and environment illumination, so that the full spectrum formed in a local range is truly the full spectrum, and the effect of the full spectrum is more similar to sunlight. The equipment for collecting the environmental spectrum and the environmental illuminance is arranged above the light source and is positioned on the back of the adjustable lampshade which is shielded by the light source, so that the collected data is not easy to be influenced by the light source.
The user state reaches the starting condition, specifically: one or more of the eye change and limb dynamic and static change obtained through image detection reach the starting condition. The change of eyes and the change of limbs movement can more intuitively reflect the real needs of human bodies, and the needs are far more timely than the needs of self-feeling. Specific changes can be numerous, such as duration of no blinking, frequent blinking or eye rubbing, small actions reflecting the anxiety of the heart, forehead, etc., and the user needs are rapidly acquired through the combination of the parameters input by the user and the big data analysis.
After entering the health-care state, before adjusting the control parameters, the method further comprises the following steps: judging whether external light source interference exists according to the ambient illuminance; if the current environment is not interfered by an external light source, adjusting control parameters, and outputting health-care illumination according to a 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 acquiring a complement spectrum and complement illuminance required by the complement illumination according to the current environment spectrum and the environment illuminance, and controlling parameters to control the light source output; if not, re-detecting the ambient light source after a time interval. In order to ensure the effectiveness of the health care illumination, whether the environment conditions required by the health care illumination are met or not is determined by judging the external interference before the health care illumination, so that the invalidity of the health care illumination or the reduction of the health care effect can be effectively avoided.
Healthcare lighting is provided in a variety of forms to meet the illumination ranges required for different healthcare lighting, including: controlling light dispersion of the light source to diffuse to a larger range of first type health care; controlling the light source to concentrate to form a local small area of the second type of health care. Different health-care illumination has different requirements, and by adding two forms of diffusion and concentration, the requirements of different health-care illumination can be met, and the health-care effect is improved. The annular baffle plate can be arranged at the edge of the lower part of the lampshade provided with the light source and can be contracted or stretched, when the annular baffle plate stretches, the annular baffle plate forms a barrier below the adjustable lampshade, so that the outward scattering of illumination light is reduced, condensed illumination is formed, and the influence of the light on eyes of a user is reduced; when the annular baffle sheet is contracted, the light of the light source is scattered outwards, and a relatively large local illumination area is created.
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 power with each other. 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 favorable for forming various spectrums by mutual combination, and particularly, the spectrum formed by a single wave band and the spectrum formed by the wave bands can be formed by controlling. It is provided with a flexible and changeable light source, so that the health-care desk lamp can output various spectrums required by health-care illumination. The LED lighting modules form a variety of combinations such as: the LED light-emitting module comprises a combination 1, wherein 380-780nm is equally divided into 5 ranges, and 5 emission wavelengths are selected at close intervals: 440nm, 530nm, 570nm, 615nm, 730nm; combination 2, equally dividing 380-780nm into 10 ranges, and selecting 10 LED light-emitting modules with emission wavelengths at close intervals: 408nm, 450nm, 468nm, 530nm, 570nm, 562nm, 625nm, 680nm, 730nm, 770nm, etc.
The health care spectrum and the health care illumination are regulated and output according to the control parameters, and the method specifically comprises the following steps: analyzing the difference between the environmental spectrum and the spectrum required for health care illumination; controlling a part of light sources, adjusting the environmental spectrum into a health care spectrum, and eliminating the influence of environmental illumination; after the influence of the ambient illumination is eliminated, the other part of light sources are controlled, the ambient spectrum is adjusted to be a health care spectrum, and the ambient illumination is improved to be the health care illumination. By adjusting the existing environment spectrum firstly, eliminating the influence of the spectrum, then outputting the health care spectrum and the health care illumination, fully considering the influence caused by the open environment, more accurately controlling the health care spectrum and the health care illumination within the required range, and realizing accurate health care illumination output.
After the environmental spectrum is adjusted to the health care spectrum, the method specifically comprises the following steps: analyzing and acquiring a missing band of the environmental spectrum in the health spectrum; selecting an LED light-emitting module corresponding to the missing wave band; the power ratio required by the LED light-emitting module to adjust the environmental spectrum to the health care spectrum is calculated in a simulation mode; and calculating the whole power required by the ambient illuminance under the power proportion, and outputting illumination. The influence of the environmental spectrum is eliminated in a certain range through the synthesis diversity of the LED light-emitting module, and the effect of integral health-care illumination in a local range is improved. The missing band means that a certain band is missing or a certain same band is missing, and the peak positions are different.
And (3) improving the ambient illuminance to the health-care illuminance, specifically, under the condition of keeping the adjusted local ambient spectrum unchanged, controlling the light source to improve the illuminance of the local environment to the health-care illuminance. After the influence of the environment illumination is eliminated, the environment illumination is further regulated to other conditions required by the health care illumination, and the synthetic quality of the health care illumination is ensured, so that the effect of the health care illumination can be realized is ensured.
Example 2
The embodiment is an application example of an intelligent control method, a user electrifies a health-care desk lamp, a power switch is started, a light source outputs full spectrum and ambient illuminance required by eye protection health care, specifically, data of the ambient spectrum and the ambient illuminance are collected, band missing of the ambient spectrum is calculated and analyzed, a band complementary spectrum for complementing the ambient spectrum to the full spectrum under the same color temperature is obtained in a simulation mode, a part of light sources are controlled to output according to the complementary spectrum, and the ambient spectrum is adjusted to the full spectrum. And further controlling the other part of light sources to illuminate with the same full spectrum, and adjusting the local ambient illuminance to 400lx-700lx. The user selects a healthcare lighting mode in which symptom and inspection data is entered, narrowing specific output parameters, such as spectral range and illumination range, for each selected healthcare lighting. The method comprises the steps of continuously collecting eye changes and limb dynamic and static changes of a user, combining big data analysis, triggering a selected health-care illumination mode to start when the user continuously or in special limb language occurs, detecting whether environment conditions are met or not after the user starts, if so, taking health-care spectrum and health-care illumination as targets, adjusting an LED light-emitting module in a light source, enabling the light source to be fused with the environment spectrum firstly through power control, eliminating the influence of the current environment, and then improving the output illumination of the light source to the environment illumination under the condition that the spectrum is kept unchanged. After the preset time is continued, the health care illumination is stopped and the full spectrum illumination is restored.
The healthcare lighting pattern described above includes, but is not limited to, the following information: the required wave band combination is a full spectrum with the color temperature of 4000K-6000K, the required illuminance is 400lx-800lx, and the first type of health care is adopted; skin care, the required wave band is 670-730nm spectrum illumination, the required illumination is 130-500lx, the second type of care is adopted, and the duration is 100-150 seconds each time; the retina is healed, the required wave band is 670-730nm spectrum illumination, the required illumination is 100-130lx, the first type of health care is adopted, and the duration is 10-15s each time; the anti-depression health care, the band combination is full spectrum illumination with the color temperature of 4000-6000K, the required illumination is 800lx-1000lx, the first type health care is adopted, and the duration is 10-15 minutes each time.
It should be understood that the foregoing examples of the present invention are merely illustrative of the present invention and are not intended to limit the present invention to the specific embodiments thereof. Any modification, equivalent replacement, improvement, etc. that comes within the spirit and principle of the claims of the present invention should be included in the protection scope of the claims of the present invention.