CN118102546A - Control system of vision prevention and control desk lamp - Google Patents

Abstract

The invention relates to the field of desk lamp control, in particular to a control system of a vision prevention and control desk lamp, which comprises the following components: the device comprises a control module, a storage module and a control terminal; the storage module stores control data for controlling the vision prevention and control desk lamp light source, and the control data comprises: illumination data for controlling a color temperature of the illumination light source output light, and health care data for controlling a radiation amount of the vision prevention and control light source output light; the control terminal establishes communication connection with the control module and selects the state of the vision prevention and control desk lamp; the control module acquires a state switching instruction of the control terminal, stops the current state, reads and selects control data corresponding to the output state, and controls the output of the illumination light source or the vision prevention and control light source. The control of the vision prevention and control desk lamp is optimized. The control of the vision prevention and control desk lamp is simplified through the parameters of the output light of the control core, and the hardware characteristics and eye sensitivity characteristics of the existing light source are combined, so that an obvious effect is achieved. The design is simple, and the cost is reduced.

Description

Control system of vision prevention and control desk lamp

Technical Field

The invention relates to the field of desk lamp control, in particular to a control system of a vision prevention and control desk lamp.

Background

The desk lamp is a common indoor lighting tool, and in daily study and life, the illumination of indoor space is usually realized through the desk lamp. Because in the use, the desk lamp is apart from the people's eye apart from little, the effect of the output light of desk lamp to the people's eye is very big. Along with the development of lighting technology, a good desk lamp is not limited to providing enough light and saving energy, but is developed in the direction of providing enough and healthy light sources for human eyes, reducing fatigue for long-time eyes, and even aiming at partial vision problems, further relieving, preventing and controlling the problems through the desk lamp. Along with the increasing of the functions of the desk lamp, the intelligent eye-protection desk lamp is a development direction of the desk lamp. However, the existing intelligent desk lamp is mainly remained in some multi-element designs for opening the desk lamp, such as sound control, position detection triggering, touch opening, and the like, and some designs of brightness or timing switches, which cannot realize intelligent control in essence.

The core of the desk lamp control should be designed around the control of the light source, which is not separated from the control of the parameters of spectrum, illuminance, color temperature, etc. in the prior art study. However, the control of the light source of the desk lamp is a complex technique, and commercialization of this technique has a long distance. A large number of eye-protection table lamps exist, the light sources of which are cured, and it is observed from the market that the adjustment of the eye-protection table lamp is basically around the adjustment of the brightness, but not around the attribute of the light sources. Therefore, in the subsequent development process of the desk lamp, the light source needs to be effective to eyes, but the functionality cannot be blindly pursued, so as to prevent the problems of high cost and insufficient stability caused by a complex system. In order to meet the market adaptability of the table lamp, the whole cost of the table lamp cannot be too high, the control system cannot be too complex, and the table lamp needs to be conveniently controlled. The prior art lacks an effective desk lamp control system to address the above-mentioned problems.

Disclosure of Invention

The invention aims to overcome at least one defect of the prior art, and provides a control system of a vision prevention and control desk lamp, which is used for solving the problems of complex control of the existing desk lamp on a light source and high cost.

The technical scheme adopted by the invention is that a control system of a vision prevention and control desk lamp comprises: the device comprises a control module, a storage module and a control terminal;

The storage module stores control data for controlling the vision prevention and control desk lamp light source, and the control data comprises: illumination data for controlling a color temperature of the illumination light source output light, and health care data for controlling a radiation amount of the vision prevention and control light source output light;

the control terminal establishes communication connection with the control module and selects the state of the vision prevention and control desk lamp;

the control module acquires a state switching instruction of the control terminal, stops the current state, reads and selects control data corresponding to the output state, and controls the output of the illumination light source or the vision prevention and control light source.

The illumination data includes: a first illumination parameter and a second illumination parameter used in combination;

The first illumination parameter is used for controlling the output power of a first full-spectrum lamp set in the illumination light source, and the color temperature of the output light of the first illumination lamp set is 2500k to 3000k;

the second illumination parameter is used for controlling the output power of a second full spectrum lamp set in the illumination light source, and the color temperature of the output light of the second illumination lamp set is 6500k to 7000k.

The healthcare data includes: power control data and time control data;

The power control data is used for controlling the power output by the vision prevention and control light source, and the irradiation illuminance is controlled through the control of the power;

the time control data are used for controlling the duration of one-time output of the vision prevention and control light source and the necessary time interval of two adjacent vision prevention and control states;

control of the amount of ocular radiation is provided by control of the intensity and duration of the radiation.

The power control data includes: a scattered power parameter and a direct power parameter;

before the control module reads the health care data, reading the type of the vision prevention and control desk lamp, and identifying the type of the vision prevention and control light source;

the type of the vision prevention and control light source is that when direct irradiation is performed, the vision prevention and control light source outputs according to direct irradiation power parameters;

the type of vision prevention and control light source is output according to scattering power parameters when scattering.

The control system also comprises a cloud server;

Each vision prevention and control desk lamp is provided with a corresponding storage area on the cloud server;

at least one group of control data is arranged in the storage area;

the vision prevention and control desk lamp establishes communication with the cloud server through the control terminal;

The control terminal transmits a group of control data in the storage area to the storage module to replace the original control data.

The control terminal establishes an account on a cloud server;

The method comprises the steps of inputting eye detection data and age data to an account through a control terminal;

The cloud server analyzes the eye detection data and the age data and acquires a lighting scheme and a vision prevention and control scheme which are matched with the eye detection data and the age data;

The account is bound with the vision prevention and control desk lamp, the cloud server divides an account interval corresponding to the account in a storage area corresponding to the vision prevention and control desk lamp, and the lighting scheme and the vision prevention and control scheme are converted into control data suitable for the vision prevention and control desk lamp.

The cloud server analyzes the eye detection data and extracts one or more of vision power, myopia power, hyperopia power, astigmatism power and presbyopia power from the eye detection data to form characteristics; comparing the numerical values of the features, confirming the dividing range of the features, and forming a unique scheme mark according to the features and the dividing range;

And the cloud server extracts a lighting scheme and a vision prevention and control scheme corresponding to the scheme mark from a preset scheme library.

The cloud server judges whether eyes are normal or not according to the characteristics;

If eyes are normal, the output vision prevention and control scheme is matched with a general vision prevention and control lamp group with relatively large wavelength range and relatively low adjustable precision in the vision prevention and control light source;

if eyes are abnormal, the output vision prevention and control scheme is matched with a special vision prevention and control lamp with relatively narrow wavelength range and relatively high adjustable precision in the vision prevention and control light source.

The control system also comprises an acquisition and analysis module;

the acquisition analysis module acquires use state data, wherein the use state data comprises: ambient brightness, lamp time and lamp distance;

The control terminal obtains the use state data, obtains habit adjustment parameters according to the use state data, and adjusts the control module through the habit adjustment parameters, and comprises: the color temperature and the brightness of the light output by the illumination light source are regulated in real time, or the wavelength and the radiation quantity of the light output by the vision prevention and control light source are further regulated;

the acquisition analysis module acquires detection data of current output light, wherein the detection data comprises: spectrum, color temperature and brightness of the output light;

the control terminal acquires target parameters of the output light and corresponding detection data and sends the target parameters and the corresponding detection data to the cloud server;

the cloud server analyzes the target parameters and the detection data to form power amplifier adjusting data corresponding to the vision prevention and control desk lamp, and corrects the control data in the storage area.

Compared with the prior art, the invention has the beneficial effects that: the control of the vision prevention and control desk lamp is optimized through the communication mode of the control terminal and the control module. In the control process, the control of the vision prevention and control desk lamp is simplified through the parameters of the output light of the control core, the hardware characteristics of the existing light source are combined, and the eye sensitivity characteristic is combined, so that an obvious effect is achieved. The illumination light sources formed by the combined lamp sets are adjustable in a continuous and large range through mutual combination, the design is simple, and the cost is reduced.

Drawings

Fig. 1 is a schematic diagram of a control terminal as a mobile terminal in the present invention.

Fig. 2 is a schematic block diagram of the present invention.

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

As shown in fig. 1 and 2, the present embodiment is a control system of a vision prevention and control desk lamp, including: the device comprises a control module, a storage module and a control terminal; the storage module stores control data for controlling the vision prevention and control desk lamp light source, and the control data comprises: illumination data for controlling a color temperature of the illumination light source output light, and health care data for controlling a radiation amount of the vision prevention and control light source output light; the control terminal establishes communication connection with the control module and selects the state of the vision prevention and control desk lamp; the control module acquires a state switching instruction of the control terminal, stops the current state, reads and selects control data corresponding to the output state, and controls the output of the illumination light source or the vision prevention and control light source.

The control module and the storage module are arranged in the vision prevention and control desk lamp. The control terminal can be mobile equipment, such as mobile terminals of mobile phones, tablet computers and the like, the mobile terminals are mostly operated by users, remote control of the vision prevention and control desk lamp can be realized through small programs or APP on the mobile terminals, and the operation is convenient; the control terminal can be a computer, most of the computers are used by factory detection personnel, and the vision prevention and control desk lamp is tested by the computer during regulation and control; the control terminal can also be a button or touch controller on the vision prevention and control desk lamp.

The control module comprises a communication component, so that the control terminal can communicate with the control module in a wired or wireless mode, and receive a control signal of the control terminal;

The control terminal establishes communication connection with the control module, plays an active control role and an active communication establishment role, so that the control terminal does not need to be in communication connection with the control module for a long time, and energy consumption is saved.

The illumination light source is a full spectrum light source with fixed output spectrum and adjustable color temperature and illumination;

A vision prevention and control light source, a near infrared light source with adjustable radiation quantity and wavelength;

On the control of the illumination light source, only the active adjustment of the color temperature is performed, so that the control is simple, in addition, the most obvious effect on eyes in illumination is realized through the adjustment of the color temperature, the relaxation of eyestrain is facilitated, and the effectiveness of the control of the illumination light source is improved.

In the control of the vision protection and control light source, only active adjustment of the radiation quantity is performed, which is also helpful for the control to be highly concise. In addition, in the control of the light source in the vision protection control, the radiation amount is a determining factor for determining the eye protection control effect, and the radiation amount needs to be adjusted by matching with the specific eye state, so that the radiation amount needs to be independently adjusted.

The optional states of the control terminal at least include: an off state, an illumination state, and a vision prevention and control state.

The illumination data includes: a first illumination parameter and a second illumination parameter used in combination; the first illumination parameter is used for controlling the output power of a first full-spectrum lamp set in the illumination light source, and the color temperature of the output light of the first illumination lamp set is 2500k to 3000k; the second illumination parameter is used for controlling the output power of a second full spectrum lamp set in the illumination light source, and the color temperature of the output light of the second illumination lamp set is 6500k to 7000k.

By controlling the output power such that the output light of the first full spectrum lamp set and the second full spectrum lamp set combine, a color temperature adjustment in a wide range, close to 2500k to 7000k, is formed. The first illumination parameter controls the first full spectrum lamp group to output first illumination light and the second illumination parameter controls the second full spectrum lamp group to output second illumination light by controlling the power proportion. In the same light source position area, the two are mutually overlapped to form the color temperature required by the illumination light source. The color temperature of the illumination light source is adjustable in a continuous large range, fluctuation and complex control of large-range adjustment are avoided, and on the other hand, the design of the illumination light source can be synchronously simplified, so that the cost is greatly reduced.

Specifically, the color temperature of the first full-spectrum lamp set was 3000k, the color temperature of the second full-spectrum lamp set was 7000k, and the power control accuracy was 10%. When the target output color temperature is 4000k, the first control data controls the output power of the first full-spectrum lamp set to be 40%, and the second control data controls the output power of the second full-spectrum lamp set to be 60%.

The healthcare data includes: power control data and time control data; the power control data is used for controlling the power output by the vision prevention and control light source, and the irradiation illuminance is controlled through the control of the power; the time control data are used for controlling the duration of one-time output of the vision prevention and control light source and the necessary time interval of two adjacent vision prevention and control states; control of the amount of ocular radiation is provided by control of the intensity and duration of the radiation.

The output power and the duration of the vision prevention and control light source in the vision prevention and control state are controlled, so that the radiation quantity output to eyes in the vision prevention and control state can be accurately controlled, and the vision prevention and control effect is ensured.

The control module receives a terminal signal of the control terminal and detects whether the countdown of the necessary time interval exists. If so, stopping entering a vision prevention and control state; if the time interval is not counted down, the vision control light source is controlled to output according to the power control data, the countdown of the duration time and the countdown of the time interval are simultaneously carried out, and after the countdown of the duration time is finished, the vision control state is stopped.

The power control data includes: a scattered power parameter and a direct power parameter; before the control module reads the health care data, reading the type of the vision prevention and control desk lamp, and identifying the type of the vision prevention and control light source; the type of the vision prevention and control light source is that when direct irradiation is performed, the vision prevention and control light source outputs according to direct irradiation power parameters; the type of vision prevention and control light source is output according to scattering power parameters when scattering.

The radiation quantity can be controlled more accurately by setting the scattered power parameter and the direct power parameter, and the desk lamp is suitable for different vision prevention and control desk lamp models.

When the illumination light source and the vision prevention and control light source of the vision prevention and control desk lamp are integrated, the illumination light source and the vision prevention and control light source can only act on eyes in a scattering mode due to the limitation of installation and fixation, and when the illumination light source and the vision prevention and control light source are arranged separately, the illumination light source and the vision prevention and control light source generally act on eyes in a direct irradiation mode so as to improve the effectiveness, so that the judgment model is actually used for judging the installation states of the illumination light source and the vision prevention and control light source, and indirectly judging the state of the vision prevention and control light source. The vision prevention and control desk lamp has the advantages that corresponding parameters of various models are not required to be stored, and the vision prevention and control desk lamp is only required to be divided into two different distinguishing parameters according to the models, so that control complexity and data complexity are reduced.

The control system also comprises a cloud server; each vision prevention and control desk lamp is provided with a corresponding storage area on the cloud server; at least one group of control data is arranged in the storage area; the vision prevention and control desk lamp establishes communication with the cloud server through the control terminal; the control terminal transmits a group of control data in the storage area to the storage module to replace the original control data.

The control data of the vision prevention and control desk lamp can be updated and adjusted through the cloud server, so that the illumination state and the vision prevention and control state of the vision prevention and control desk lamp can be timely readapted, and different use periods and eye changes can be matched.

Each vision prevention and control desk lamp is provided with an independent digital mark, and when the control terminal is connected with the vision prevention and control desk lamp, the control terminal continuously obtains the digital mark of the vision prevention and control desk lamp. The control terminal is connected with the cloud server, enters a storage area corresponding to the digital mark in the cloud server through the data mark, further selects to acquire control data needing to be replaced through the control terminal, downloads the control data to the control terminal, and downloads the control data to the storage module. After the new control data operates normally, the original control data is automatically deleted.

The control terminal establishes an account on a cloud server; the method comprises the steps of inputting eye detection data and age data to an account through a control terminal; the cloud server analyzes the eye detection data and the age data and acquires a lighting scheme and a vision prevention and control scheme which are matched with the eye detection data and the age data; the account is bound with the vision prevention and control desk lamp, the cloud server divides an account interval corresponding to the account in a storage area corresponding to the vision prevention and control desk lamp, and the lighting scheme and the vision prevention and control scheme are converted into control data suitable for the vision prevention and control desk lamp.

The account is established, the eye detection data of the user are taken as the basis of illumination and vision prevention and control output, the characteristics of the eyes of the user are fully considered, the illumination and the vision prevention and control output are matched, the comfort of eyes is improved, and the vision prevention and control effect is obvious.

The mobile terminal establishes an account belonging to an individual through the APP, personal information such as eye detection results and ages are uploaded to the account, the personal information is transmitted to the cloud server on the basis of active uploading of a user, the cloud server provides a matched lighting scheme and a vision prevention and control scheme for the user, the two schemes are optical parameters of target output light of the vision prevention and control desk lamp, such as spectrum, wavelength range, color temperature, illumination, radiation and the like, when the account is bound with a specific vision prevention and control desk lamp, the cloud server converts the schemes into control data matched with the vision prevention and control desk lamp, and the scheme is provided to facilitate rapid conversion of the control data between different vision prevention and control desk lamps.

The cloud server analyzes the eye detection data and extracts one or more of vision power, myopia power, hyperopia power, astigmatism power and presbyopia power from the eye detection data to form characteristics; comparing the numerical values of the features, confirming the dividing range of the features, and forming a unique scheme mark according to the features and the dividing range; and the cloud server extracts a lighting scheme and a vision prevention and control scheme corresponding to the scheme mark from a preset scheme library.

By dividing the intervals, on one hand, fluctuation of detection results can be eliminated, and on the other hand, complexity of data is simplified, so that process efficiency of determining eye state parameters is higher. And determining vision degree, myopia degree, hyperopia degree, astigmatism degree and presbyopia degree, such as whether amblyopia exists or not by utilizing the vision degree, judging whether myopia exists or not by utilizing the myopia degree, extracting feature codes corresponding to each feature in a preset dividing range, and combining the codes to obtain eye state parameters.

The cloud server judges whether eyes are normal or not according to the characteristics; if eyes are normal, the output vision prevention and control scheme is matched with a general vision prevention and control lamp group with relatively large wavelength range and relatively low adjustable precision in the vision prevention and control light source; if eyes are abnormal, the output vision prevention and control scheme is matched with a special vision prevention and control lamp with relatively narrow wavelength range and relatively high adjustable precision in the vision prevention and control light source.

According to the eye actual conditions, different vision prevention and control lamp sets are adopted, so that the effect is guaranteed, the service life of the vision prevention and control lamp sets is prolonged, and the vision prevention and control lamp sets are reasonably adjusted.

If the vision is abnormal, otherwise, judging that the vision is normal; when the vision is normal, the demand of vision prevention and control on the light source is relatively low, and the regulation of wavelength and power by the conventional vision prevention and control light source is less, so that the conventional vision prevention and control light source with long service life and wavelength range of 600nm to 1200nm is adopted for output. When the vision is abnormal, fine adjustment is required to be performed in a small range of wavelengths according to different conditions so as to ensure the targeted effect of vision prevention and control, and periodic updating is required to be matched so as to maintain a good effect, so that a special vision prevention and control light source with the wavelength range of 600nm to 850nm is adopted for output.

The control system also comprises an acquisition and analysis module;

the acquisition analysis module acquires use state data, wherein the use state data comprises: ambient brightness, lamp time and lamp distance;

The control terminal obtains the use state data, obtains habit adjustment parameters according to the use state data, and adjusts the control module through the habit adjustment parameters, and comprises: the color temperature and the brightness of the light output by the illumination light source are regulated in real time, or the wavelength and the radiation quantity of the light output by the vision prevention and control light source are further regulated; and the control terminal uploads the state data to the cloud server.

The usage status data is collected and analyzed according to different collection periods, such as the current ambient brightness, the corresponding period is the ambient brightness within 5 to 10 minutes, and the lamp usage time is the power usage time per week and the lamp usage distance per hour. Through habitual adjustment parameters, the control module adjusts the real-time color temperature, brightness, radiation quantity, time for switching vision prevention and control states and the like, so that the illumination state and the vision prevention and control state are more automatic and more matched with the actual state of a user. After the cloud server is uploaded, a user can check the eye habit of the user, and bad eye usage rules are changed.

The acquisition analysis module acquires detection data of current output light, wherein the detection data comprises: spectrum, color temperature and brightness of the output light; the control terminal acquires target parameters of the output light and corresponding detection data and sends the target parameters and the corresponding detection data to the cloud server; the cloud server analyzes the target parameters and the detection data to form power amplifier adjusting data corresponding to the vision prevention and control desk lamp, and corrects the control data in the storage area.

The parameter accuracy of guaranteeing the output light is the effectual core link of assurance eyesight prevention and control desk lamp, through monitoring the output light, carries out real-time feedback, can effectively in time discover the trouble of light source, ageing and the unusual that the production difference leads to, in time carries out the self-repairing of certain limit to eyesight prevention and control desk lamp, guarantees eyesight prevention and control desk lamp's output quality.

Aiming at the problem that the repair can not be regulated by a supplier, the cloud server can further send prompt information to the control terminal, so that a user can timely find out faults and problems and repair the faults as soon as possible, and if the faults are serious, the cloud server can stop part of functions of the vision prevention and control desk lamp through the control terminal, and damage to eyes is avoided being deepened.

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.

Claims (10)

1. A control system for a vision prevention and control desk lamp, comprising:

the device comprises a control module, a storage module and a control terminal;

The storage module stores control data for controlling the vision prevention and control desk lamp light source, and the control data comprises: illumination data for controlling a color temperature of the illumination light source output light, and health care data for controlling a radiation amount of the vision prevention and control light source output light;

the control terminal establishes communication connection with the control module and selects the state of the vision prevention and control desk lamp;

the control module acquires a state switching instruction of the control terminal, stops the current state, reads and selects control data corresponding to the output state, and controls the output of the illumination light source or the vision prevention and control light source.

2. The vision-protecting desk lamp control system as claimed in claim 1, wherein,

The illumination data includes: a first illumination parameter and a second illumination parameter used in combination;

The first illumination parameter is used for controlling the output power of a first full-spectrum lamp set in the illumination light source, and the color temperature of the output light of the first illumination lamp set is 2500k to 3000k;

the second illumination parameter is used for controlling the output power of a second full spectrum lamp set in the illumination light source, and the color temperature of the output light of the second illumination lamp set is 6500k to 7000k.

3. The vision-protecting desk lamp control system as claimed in claim 1, wherein,

The healthcare data includes: power control data and time control data;

The power control data is used for controlling the power output by the vision prevention and control light source, and the irradiation illuminance is controlled through the control of the power;

the time control data are used for controlling the duration of one-time output of the vision prevention and control light source and the necessary time interval of two adjacent vision prevention and control states;

control of the amount of ocular radiation is provided by control of the intensity and duration of the radiation.

4. A control system for a vision-protecting desk lamp as claimed in claim 3, wherein,

The power control data includes: a scattered power parameter and a direct power parameter;

before the control module reads the health care data, reading the type of the vision prevention and control desk lamp, and identifying the type of the vision prevention and control light source;

the type of the vision prevention and control light source is that when direct irradiation is performed, the vision prevention and control light source outputs according to direct irradiation power parameters;

the type of vision prevention and control light source is output according to scattering power parameters when scattering.

5. A control system for a vision-protecting desk lamp as claimed in any one of claims 1 to 4,

The cloud server is also included;

Each vision prevention and control desk lamp is provided with a corresponding storage area on the cloud server;

at least one group of control data is arranged in the storage area;

the vision prevention and control desk lamp establishes communication with the cloud server through the control terminal;

The control terminal transmits a group of control data in the storage area to the storage module to replace the original control data.

6. The vision-protecting desk lamp control system as claimed in claim 5, wherein,

The control terminal establishes an account on a cloud server;

The method comprises the steps of inputting eye detection data and age data to an account through a control terminal;

The cloud server analyzes the eye detection data and the age data and acquires a lighting scheme and a vision prevention and control scheme which are matched with the eye detection data and the age data;

The account is bound with the vision prevention and control desk lamp, the cloud server divides an account interval corresponding to the account in a storage area corresponding to the vision prevention and control desk lamp, and the lighting scheme and the vision prevention and control scheme are converted into control data suitable for the vision prevention and control desk lamp.

7. The vision-protecting desk lamp control system as claimed in claim 6, wherein,

The cloud server analyzes the eye detection data and extracts one or more of vision power, myopia power, hyperopia power, astigmatism power and presbyopia power from the eye detection data to form characteristics; comparing the numerical values of the features, confirming the dividing range of the features, and forming a unique scheme mark according to the features and the dividing range;

And the cloud server extracts a lighting scheme and a vision prevention and control scheme corresponding to the scheme mark from a preset scheme library.

8. The vision-protecting desk lamp control system as claimed in claim 7, wherein,

The cloud server judges whether eyes are normal or not according to the characteristics;

If eyes are normal, the output vision prevention and control scheme is matched with a general vision prevention and control lamp group with relatively large wavelength range and relatively low adjustable precision in the vision prevention and control light source;

if eyes are abnormal, the output vision prevention and control scheme is matched with a special vision prevention and control lamp with relatively narrow wavelength range and relatively high adjustable precision in the vision prevention and control light source.

9. The vision-protecting desk lamp control system as claimed in claim 5, wherein,

The system also comprises an acquisition and analysis module;

The acquisition analysis module acquires use state data, wherein the use state data comprises: ambient brightness, lamp time and lamp distance; the control terminal obtains the use state data, obtains habit adjustment parameters according to the use state data, and adjusts the control module through the habit adjustment parameters, and comprises: the color temperature and the brightness of the light output by the illumination light source are regulated in real time, or the wavelength and the radiation quantity of the light output by the vision prevention and control light source are further regulated;

and the control terminal uploads the state data to the cloud server.

10. The vision-protecting desk lamp control system as claimed in claim 8, wherein,

The acquisition analysis module acquires detection data of current output light, wherein the detection data comprises: spectrum, color temperature and brightness of the output light;

the control terminal acquires target parameters of the output light and corresponding detection data and sends the target parameters and the corresponding detection data to the cloud server;

the cloud server analyzes the target parameters and the detection data to form power amplifier adjusting data corresponding to the vision prevention and control desk lamp, and corrects the control data in the storage area.