CN216283942U - Intelligent eye protection detection device based on ambient light feedback - Google Patents

Abstract

The utility model discloses an intelligent eye protection detection device based on ambient light feedback, which comprises: frame base plate and locate respectively photosensitive module, Arduino singlechip, pilot lamp module, pronunciation collection module and raspberry group on the frame base plate. According to the utility model, the collected illumination intensity of the current environment is judged, and a user or a designer is reminded of whether indoor illumination is safe and meets the standard or not through the display state of the indicator lamp; when the illumination intensity exceeds or is not enough than the standard requirement, the brightness change of the desk lamp can be controlled through voice, the environmental illumination reaches the national standard, and the probability of the shortsightedness problem of children and adults is reduced.

Description

Intelligent eye protection detection device based on ambient light feedback

Technical Field

The utility model relates to the field of detection devices, in particular to an intelligent eye protection detection device based on ambient light feedback.

Background

In recent years, more and more people have the problems of visual fatigue and the like, one of the fierce and fierce visional fatigues is caused by uneven illumination, most people only turn on the desk lamp and do not turn on the room lamp during study and work, and then eye diseases are caused to appear or aggravate. Only when the whole study work area is uniform in illumination and the light-dark contrast is too strong, the glasses can not be damaged, otherwise, the glasses are greatly damaged, and the myopia of the children is easily caused. Generally, the illuminance at the position 400mm away from the reading and writing desktop from the center of the light source is the optimal visual light environment at 750-. However, there is no device for detecting whether the illuminance of the learning work environment meets the standard, so that the learning work environment further affects the eye health of people.

SUMMERY OF THE UTILITY MODEL

In view of the above drawbacks of the prior art, an object of the present invention is to provide an intelligent eye protection detection device based on ambient light feedback, which solves the problem that the learning work environment further affects the eye health of people because no device for detecting whether the illuminance of the learning work environment meets the standard exists in the prior art.

In order to achieve the above and other related objects, the present invention provides an intelligent eye protection detection device based on ambient light feedback, which is connected to a dimmable desk lamp, the device comprising: a frame substrate; the photosensitive module is arranged on the frame substrate and used for acquiring illumination intensity data on the frame substrate; the Arduino single chip microcomputer is arranged on the frame substrate, connected with the photosensitive module and used for receiving the illumination intensity data, generating and sending an indication control signal corresponding to the illumination intensity data; the indicating lamp module is arranged on the frame substrate, connected with the Arduino single-chip microcomputer, and used for receiving the indicating control signal and indicating the illumination intensity of the frame substrate in one or more display states; the voice acquisition module is arranged on the frame substrate and used for acquiring voice information; the raspberry group is arranged on the frame substrate, connected with the voice acquisition module and the Arduino single chip microcomputer, and used for receiving the voice information and generating a voice recognition signal corresponding to the voice information so as to send the voice recognition signal to the Arduino single chip microcomputer; the Arduino single chip microcomputer receives a voice recognition signal sent by the raspberry group, generates and sends a dimming control signal corresponding to the voice recognition information to the desk lamp, and the desk lamp is dimmed.

In an embodiment of the present invention, the frame substrate includes: one or more illumination detection sections and/or controller mounting sections.

In an embodiment of the present invention, the photosensitive module includes: and the photosensitive components are respectively arranged on the illumination detection parts and are used for acquiring the illumination intensity data of the illumination detection parts.

In an embodiment of the present invention, the indicator light module includes: one or more indicator lights respectively arranged on the illumination detection parts for indicating the illumination intensity of the illumination detection parts in one or more display states.

In an embodiment of the present invention, the Arduino single chip microcomputer is disposed in the controller mounting portion, and includes: the indication control module is connected with the photosensitive module and the indicator light module and used for receiving one or more illumination intensity data collected by the photosensitive module and generating one or more indication control signals corresponding to each illumination intensity data so as to send the indication control signals to the indicator light module; and the desk lamp control module is connected with the desk lamp and the raspberry group and used for receiving the voice recognition signal sent by the raspberry group and generating a dimming control signal corresponding to the voice recognition signal so as to send the dimming control signal to the desk lamp.

In an embodiment of the present invention, the raspberry pi is disposed on the controller mounting portion, and includes: the voice information receiving module is connected with the voice acquisition module and is used for receiving the voice information acquired by the voice acquisition module; the cloud communication module is connected with the voice information receiving module and used for uploading the voice information to a cloud and receiving a voice recognition signal corresponding to the voice information from the cloud; and the voice recognition signal sending module is connected with the cloud communication module and used for sending the voice recognition signal.

In an embodiment of the present invention, the indication control module includes: the illumination intensity data receiving unit is used for receiving one or more illumination intensity data respectively collected by each photosensitive component in the photosensitive module; the illumination intensity judging unit is connected with the illumination intensity data receiving unit and is used for generating an indication control signal corresponding to each illumination intensity data; wherein the indication control signal comprises: one of a standard-indicating control signal, a higher-than-standard-indicating control signal, and a lower-than-standard control signal; and the indication control signal sending unit is connected with the illumination intensity judging unit and used for sending indication control signals to each indicator lamp in the indicator lamp module.

In an embodiment of the present invention, the indicator light module includes: one or more of a standard illumination display unit, a higher than standard illumination display unit, and a lower than standard illumination display unit; the standard illumination display unit is used for indicating that the illumination intensity of the frame substrate meets the standard in a standard display state when the standard indication control signal is received; the above standard illumination display unit is used for indicating that the illumination intensity of the frame substrate is above the standard in an above standard display state when the above standard indication control signal is received; the below-standard illumination display unit is used for indicating that the illumination intensity of the frame substrate is below the standard in a below-standard display state when the below-standard indication control signal is received.

In an embodiment of the utility model, one or more of the indication of the normal display state, the indication of the display state higher than the normal display state, and the indication of the display state lower than the normal display state include: one or more of a red light display state, a green light display state, and a no light display state.

In an embodiment of the present invention, the illumination detecting unit includes: the magnetic suction part is used for being combined and spliced with other illumination detection parts.

As described above, the intelligent eye protection detection device based on ambient light feedback of the present invention has the following beneficial effects: according to the utility model, the collected illumination intensity of the current environment is judged, and a user or a designer is reminded of whether indoor illumination is safe and meets the standard or not through the display state of the indicator lamp; when the illumination intensity exceeds or is not enough than the standard requirement, the brightness change of the desk lamp can be controlled through voice, the environmental illumination reaches the national standard, and the probability of the shortsightedness problem of children and adults is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent eye-protection detection device based on ambient light feedback according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a frame substrate according to an embodiment of the utility model.

Fig. 3 is a schematic diagram showing the arrangement of the light-sensitive components and the indicator lights according to an embodiment of the utility model.

Fig. 4 is a schematic structural diagram of a raspberry pie according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of an Arduino single chip microcomputer according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of an indicator light module according to an embodiment of the utility model.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The utility model is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It is noted that in the following description, reference is made to the accompanying drawings which illustrate several embodiments of the present invention. It is to be understood that other embodiments may be utilized and that mechanical, structural, electrical, and operational changes may be made without departing from the spirit and scope of the present invention. The following detailed description is not to be taken in a limiting sense, and the scope of embodiments of the present invention is defined only by the claims of the issued patent. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. Spatially relative terms, such as "upper," "lower," "left," "right," "lower," "below," "lower," "above," "upper," and the like, may be used herein to facilitate describing one element or feature's relationship to another element or feature as illustrated in the figures.

Throughout the specification, when a part is referred to as being "connected" to another part, this includes not only a case of being "directly connected" but also a case of being "indirectly connected" with another element interposed therebetween. In addition, when a certain part is referred to as "including" a certain component, unless otherwise stated, other components are not excluded, but it means that other components may be included.

The terms first, second, third, etc. are used herein to describe various elements, components, regions, layers and/or sections, but are not limited thereto. These terms are only used to distinguish one element, component, region, layer or section from another element, component, region, layer or section. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the scope of the present invention.

Also, as used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context indicates otherwise. It will be further understood that the terms "comprises," "comprising," and/or "comprising," when used in this specification, specify the presence of stated features, operations, elements, components, items, species, and/or groups, but do not preclude the presence, or addition of one or more other features, operations, elements, components, items, species, and/or groups thereof. The terms "or" and/or "as used herein are to be construed as inclusive or meaning any one or any combination. Thus, "A, B or C" or "A, B and/or C" means "any of the following: a; b; c; a and B; a and C; b and C; A. b and C ". An exception to this definition will occur only when a combination of elements, functions or operations are inherently mutually exclusive in some way.

The embodiment of the utility model provides an intelligent eye protection detection device based on ambient light feedback, which judges the collected illumination intensity of the current environment and reminds a user or a designer of whether the current indoor illumination is safe and meets the standard or not through the display state of an indicator lamp; when the illumination intensity exceeds or is not enough than the standard requirement, the brightness change of the desk lamp can be controlled through voice, the environmental illumination reaches the national standard, and the probability of the shortsightedness problem of children and adults is reduced.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that those skilled in the art can easily implement the embodiments of the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

Fig. 1 shows a schematic structural diagram of an intelligent eye-protection detection device based on ambient light feedback according to an embodiment of the present invention. Detection device is connected with the desk lamp that can adjust luminance, includes: the frame substrate is paved in a user learning or working area in a lighting environment, and the size of the frame substrate can be set according to specific requirements; specifically, if the work learning area is large, a large frame substrate is selected; otherwise, a relatively small frame substrate is selected. The material may be any material, and may be glass, plastic, etc., without limitation.

The device further comprises: locate respectively photosensitive module 11, Arduino singlechip 12, pilot lamp module 13, pronunciation collection module 14 and raspberry group 15 on the frame base plate.

The photosensitive module 11 is used for acquiring illumination intensity data on the frame substrate; the photosensitive module 11 may be any photosensitive device, such as a photodiode. The Arduino single-chip microcomputer 12 is electrically connected with the photosensitive module 11 and used for receiving the illumination intensity data collected by the photosensitive module 11, generating and sending an indication control signal corresponding to the illumination intensity data to the indicator light module 13; the indicator light module 13 is electrically connected to the Arduino single-chip microcomputer 12, and is configured to receive an indication control signal sent by the Arduino single-chip microcomputer 12 and indicate the illumination intensity of the frame substrate in one or more display states; wherein each display state indicates a detection result of the illumination intensity of the frame substrate. The voice acquisition module 14 is configured to acquire voice information; the raspberry pi 15 is electrically connected to the voice acquisition module 14 and the Arduino single chip microcomputer 12, and is configured to receive the voice information and generate a voice recognition signal corresponding to the voice information to be sent to the Arduino single chip microcomputer 12; the Arduino single-chip microcomputer 12 receives the voice recognition signal sent by the raspberry pi 15, generates and sends a dimming control signal corresponding to the voice recognition information to the desk lamp, so that the desk lamp can dim light.

Optionally, as shown in fig. 2, the frame substrate includes: one or more illumination detection sections 21 and/or controller mounting sections 22; wherein, each illumination detection part 21 is respectively provided with a detection area, and each area corresponds to respective illumination intensity data; it should be noted that the detection areas of the illumination detection units 21 may be the same size, or different sizes, according to specific requirements. The controller installation part 22 is used for installing an Arduino single chip microcomputer and a raspberry pie; it should be noted that the voice collecting module may be installed at any position on the substrate frame, may be installed on the illumination detecting portion 21 or the controller installing portion 22, and may also be installed on a voice collecting installing portion provided on the substrate frame, which is not limited thereto.

It should be noted that the number of the illumination detection units 21 in fig. 2 in this embodiment is only 4, and the number of the controller mounting unit 22 is only 1, which are not limited.

Optionally, the illumination detection unit 21 includes: the magnetic suction part is used for being combined and spliced with other illumination detection parts 21; the frame substrate can flexibly change the size of the frame substrate by a method of magnetically splicing the illumination detection part, so that the sizes of different working areas can be met.

Optionally, the photosensitive module 11 includes: the photosensitive components are respectively arranged on the illumination detection parts and used for acquiring illumination intensity data of the illumination detection parts; each of the light irradiation detecting portions may have one photosensitive member or a plurality of photosensitive members.

Optionally, the indicator light module 13 includes: one or more indicator lights respectively arranged on the illumination detection parts for indicating the illumination intensity of the illumination detection parts in one or more display states and indicating the detection result of the illumination detection parts to the user. Each illumination detection unit may have one indicator light or a plurality of indicator lights. It should be noted that the display states may be display states in which different colors of light are lit, a light-out state is turned on, and the like.

Optionally, the indicator light includes: one or more light source units respectively corresponding to different display states; for example, the indicator lamp includes: a red light source and a green light source.

In an embodiment, in order to better detect the illumination intensity data of each illumination detection portion and clearly indicate the illumination intensity of the frame substrate to the user, as shown in fig. 3, each illumination detection portion 31 is respectively provided with a photosensitive element 32 for collecting the illumination intensity data of the illumination detection portion and an indicator light 33 for indicating the illumination intensity of the illumination detection portion;

the photosensitive part 32 collects the illumination intensity data of the illumination detection part 31, the Arduino single chip microcomputer receives the illumination intensity data, generates an indication control signal corresponding to the illumination intensity data of the illumination detection part, and sends the indication control signal to an indicator lamp arranged in the illumination detection part, so that the indicator lamp indicates the detection result of the illumination intensity of the illumination detection part in one or more display states.

It should be noted that the number of the illumination detection unit 31, the photosensitive member 32, and the indicator lamp 33 in fig. 3 in this embodiment is only 4 as an example, and the number is not limited.

Optionally, the voice collecting module may be any device having a voice collecting function, such as a recording microphone.

Optionally, as shown in fig. 4, the raspberry pi is disposed on the controller mounting portion, and includes: a voice information receiving module 41 connected to the voice collecting module for receiving the voice information collected by the voice collecting module; the cloud communication module 42 is connected to the voice information receiving module 41, and is configured to upload the voice information to a cloud, and receive a voice recognition signal corresponding to the voice information from the cloud; and the voice recognition signal sending module 43 is connected to the cloud communication module 42, and is configured to send the voice recognition signal.

In one embodiment, the raspberry pi includes: the voice information receiving interface is connected with the voice acquisition module and is used for receiving the voice information acquired by the voice acquisition module; a cloud service interface for communicating with a cloud; specifically, the raspberry group uploads the voice information acquired by the voice acquisition module to the cloud end through a cloud service interface so as to perform voice recognition by using cloud service; the raspberry pi receives a voice recognition signal corresponding to the voice information through a cloud service interface; and the communication serial port is used for sending the voice recognition signal to the Arduino single chip microcomputer.

The following will further describe a specific implementation of the intelligent eye-protection detection device based on ambient light feedback with reference to a plurality of drawings in the specification.

As shown in fig. 5, a structure diagram of the Arduino single chip microcomputer in one embodiment is shown.

Arduino singlechip is located the controller installation department includes: an indication control module 51, connected to the photosensitive module and the indicator light module, for receiving one or more illumination intensity data collected by the photosensitive module, and generating one or more indication control signals corresponding to each illumination intensity data, so as to send the signals to the indicator light module; and the desk lamp control module 52 is connected with the desk lamp and the raspberry pi and used for receiving the voice recognition signal sent by the raspberry pi and generating a dimming control signal corresponding to the voice recognition signal so as to send the dimming control signal to the desk lamp.

Optionally, the indication control module 51 includes: the illumination intensity data receiving unit 511 is used for receiving illumination intensity data acquired and collected by the photosensitive module on the frame substrate; an illumination intensity judging unit 512, connected to the illumination intensity data receiving unit 511, for generating an indication control signal corresponding to the illumination intensity data according to the illumination intensity data; an indication control signal sending unit 513, connected to the illumination intensity judging unit 512, configured to send an indication control signal to the indicator light module; wherein the indication control signal comprises: one of a standard-indicating control signal, a higher-than-standard-indicating control signal, and a lower-than-standard control signal.

It should be noted that the standard indication control signal is correspondingly judged as the illumination intensity data meeting the standard; the control signal indicating the standard is correspondingly judged to be the illumination intensity data exceeding the standard; the below-standard indication control signal is correspondingly judged to be below-standard illumination intensity data; for example, if the illumination intensity is within the standard range 750-; if the illumination intensity is higher than 1000Lx, the illumination intensity determining unit 512 generates a control signal higher than the standard indication; if the illumination is lower than 750Lx, the illumination intensity determination unit 512 generates a lower-than-standard indication control signal.

In one embodiment, the indication control module 51 includes: an illumination intensity data receiving unit 511, configured to receive one or more illumination intensity data collected by each photosensitive component in the photosensitive module; an illumination intensity judging unit 512, connected to the illumination intensity data receiving unit 511, for generating an indication control signal corresponding to each illumination intensity; wherein the indication control signal comprises: one of a standard-indicating control signal, a higher-than-standard-indicating control signal, and a lower-than-standard control signal; and the indication control signal sending unit is connected with the illumination intensity judging unit and used for sending indication control signals to each indicator lamp in the indicator lamp module so that each indicator lamp indicates the illumination intensity collected by each photosensitive component in one or more display states.

In one embodiment, the indication control module 51 includes: an illumination intensity data receiving unit 511, configured to receive a plurality of illumination intensity data corresponding to the illumination detection portions, which are respectively collected by the photosensitive elements in the photosensitive modules, respectively located in the illumination detection portions; wherein, each illumination detection part is provided with a photosensitive component; an illumination intensity determination unit 512 connected to the illumination intensity data reception unit 511, for generating an indication control signal corresponding to the illumination intensity of each illumination detection unit; wherein the indication control signal comprises: one of a standard-indicating control signal, a higher-than-standard-indicating control signal, and a lower-than-standard control signal; and an indication control signal sending unit 513, connected to the illumination intensity determination unit 512, configured to send an indication control signal to each indicator lamp in each illumination detection unit, so that each indicator lamp indicates the illumination intensity of each illumination detection unit in one or more display states. Each illumination detection part is provided with an indicator light, and the indicator light in the same illumination detection part indicates the illumination intensity data collected by the photosensitive part arranged in the illumination detection part.

Optionally, the desk lamp control module 52 is connected to the desk lamp and the raspberry pi, and the desk lamp control module uses its Serial class to perform communication, and directly controls the sending and receiving of the desk lamp control module 52 according to a Serial function. The method comprises the following steps: a voice recognition signal receiving unit for receiving the voice recognition signal; and the desk lamp adjusting control unit is connected with the voice recognition signal receiving unit and used for receiving the voice recognition signal and generating a dimming control signal corresponding to the voice recognition signal so as to send the dimming control signal to the desk lamp. Wherein the dimming control signal comprises: the signals corresponding to the common adjustment states, such as the dimming signal corresponding to the dimming of the desk lamp, the turning-on signal corresponding to the turning-on and turning-off of the lamp, and the turning-off signal, are not limited.

As shown in fig. 6, a block diagram of an indicator light module in one embodiment is shown.

The indicator light module includes: one or more of a standard lighting display unit 61, a higher than standard lighting display unit 62, and a lower than standard lighting display unit 63; the standard illumination display unit 61 is used for indicating that the illumination intensity of the frame substrate meets the standard in a standard display state when receiving a standard indication control signal from the Arduino singlechip; the above standard illumination display unit 62 is configured to indicate that the illumination intensity of the frame substrate is above a standard in an above standard display state when receiving an above standard indication control signal from the Arduino single chip microcomputer; and the below-standard illumination display unit 63 is used for indicating the illumination intensity of the frame substrate below the standard in a below-standard display state when receiving a below-standard indication control signal from the Arduino single chip microcomputer.

Optionally, one or more of the indication of the standard display state, the above standard display state and the below standard display state includes: one or more of a red light display state, a green light display state, and a no light display state.

Optionally, the indicator light module includes: the green light display light source is used for displaying a green light to indicate that the illumination intensity of the frame substrate meets the standard when a standard indication control signal from the Arduino single chip microcomputer is received;

the red light display light source is used for displaying a red light to indicate that the illumination intensity of the frame substrate is higher than a standard when a control signal higher than the standard is received from the Arduino single chip microcomputer;

it should be noted that, when the pilot lamp module receives and comes from when being less than standard instruction control signal of Arduino singlechip, green light display light source and red light display light source do not show, indicate the illumination intensity of frame base plate is less than the standard.

In order to better describe the intelligent eye protection detection device based on ambient light feedback, a specific embodiment is provided;

example 1: an intelligent eye protection detection device based on ambient light feedback.

With adjust luminance LED table lamp and link to each other, the device includes:

the glass tablecloth is laid on the tabletop;

the photosensitive diode is arranged on the glass tablecloth and used for collecting illumination intensity data on the glass tablecloth;

the Arduino 2560 is arranged on the glass tablecloth, is connected with a photosensitive diode, and is used for receiving the illumination intensity data, generating and sending an indication control signal corresponding to the illumination intensity data; wherein, if the illumination intensity is within the standard range of 750-; if the illumination intensity is higher than 1000Lx, generating a higher-than-standard indication control signal; if the illumination is lower than 750Lx, generating a lower-than-standard indication control signal;

the common-cathode red-green LED is arranged on the glass tablecloth, is connected with the Arduino 2560, is used for receiving the indication control signal, and indicates that the illumination intensity on the glass tablecloth meets the standard, is higher than the standard and is lower than the standard by virtue of a green light, a red light and a non-light;

the USB recording microphone is arranged on the glass tablecloth and used for acquiring voice information of a user;

the raspberry pie 4B is sleeved on the glass tablecloth, is connected with the USB recording microphone and the Arduino 2560, and is used for receiving the voice information and generating a voice recognition signal corresponding to the voice information so as to send the voice recognition signal to the Arduino single chip microcomputer;

wherein, Arduino singlechip receives and comes from the speech recognition signal that the raspberry group sent generates and to the desk lamp sends and corresponds speech recognition information's the signal of brightening that the corresponding desk lamp was brightened or the dim signal that corresponds the desk lamp dim, so that the desk lamp is brightened or is dim, lets the ambient lighting reach national standard, reduces the probability that the near-sighted problem of user took place.

In summary, according to the intelligent eye protection detection device based on ambient light feedback, the collected illumination intensity of the current environment is judged, and the display state of the indicator light is used for reminding a user or a designer of whether indoor illumination is safe and meets the standard; when the illumination intensity exceeds or is not enough than the standard requirement, the brightness change of the desk lamp can be controlled through voice, the environmental illumination reaches the national standard, and the probability of the shortsightedness problem of children and adults is reduced. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles of the present invention and its efficacy, and are not to be construed as limiting the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. The utility model provides an intelligence eyeshield detection device based on ambient light feedback, its characterized in that links to each other with desk lamp that can adjust luminance, the device includes:

a frame substrate;

the photosensitive module is arranged on the frame substrate and used for acquiring illumination intensity data on the frame substrate;

the Arduino single chip microcomputer is arranged on the frame substrate, connected with the photosensitive module and used for receiving the illumination intensity data, generating and sending an indication control signal corresponding to the illumination intensity data;

the indicating lamp module is arranged on the frame substrate, connected with the Arduino single-chip microcomputer, and used for receiving the indicating control signal and indicating the illumination intensity of the frame substrate in one or more display states;

the voice acquisition module is arranged on the frame substrate and used for acquiring voice information;

the raspberry group is arranged on the frame substrate, connected with the voice acquisition module and the Arduino single chip microcomputer, and used for receiving the voice information and generating a voice recognition signal corresponding to the voice information so as to send the voice recognition signal to the Arduino single chip microcomputer;

the Arduino single chip microcomputer receives a voice recognition signal sent by the raspberry group, generates and sends a dimming control signal corresponding to the voice recognition information to the desk lamp, and the desk lamp is dimmed.

2. An intelligent eye-protection detection device based on ambient light feedback according to claim 1, wherein the frame substrate comprises: one or more illumination detection sections and/or controller mounting sections.

3. An intelligent eye-protection detection device based on ambient light feedback according to claim 2, wherein the photosensitive module comprises: and the photosensitive components are respectively arranged on the illumination detection parts and are used for acquiring the illumination intensity data of the illumination detection parts.

4. An intelligent eye-protection detection device based on ambient light feedback according to claim 2 or 3, wherein the indicator light module comprises: one or more indicator lights respectively arranged on the illumination detection parts for indicating the illumination intensity of the illumination detection parts in one or more display states.

5. The intelligent eyeshield detection device based on ambient light feedback as claimed in claim 2, characterized in that, Arduino singlechip locates the controller installation department includes:

the indication control module is connected with the photosensitive module and the indicator light module and used for receiving one or more illumination intensity data collected by the photosensitive module and generating one or more indication control signals corresponding to each illumination intensity data so as to send the indication control signals to the indicator light module;

and the desk lamp control module is connected with the desk lamp and the raspberry group and used for receiving the voice recognition signal sent by the raspberry group and generating a dimming control signal corresponding to the voice recognition signal so as to send the dimming control signal to the desk lamp.

6. The intelligent eye-protection detection device based on ambient light feedback as claimed in claim 2, wherein the raspberry pi, located in the controller mounting portion, comprises:

the voice information receiving module is connected with the voice acquisition module and is used for receiving the voice information acquired by the voice acquisition module;

the cloud communication module is connected with the voice information receiving module and used for uploading the voice information to a cloud and receiving a voice recognition signal corresponding to the voice information from the cloud;

and the voice recognition signal sending module is connected with the cloud communication module and used for sending the voice recognition signal.

7. An intelligent eye-protection detection device based on ambient light feedback according to claim 5, wherein the indication control module comprises:

the illumination intensity data receiving unit is used for receiving one or more illumination intensity data respectively collected by each photosensitive component in the photosensitive module;

the illumination intensity judging unit is connected with the illumination intensity data receiving unit and is used for generating an indication control signal corresponding to each illumination intensity data; wherein the indication control signal comprises: one of a standard-indicating control signal, a higher-than-standard-indicating control signal, and a lower-than-standard control signal;

and the indication control signal sending unit is connected with the illumination intensity judging unit and used for sending indication control signals to each indicator lamp in the indicator lamp module.

8. An intelligent eye-protection detection device based on ambient light feedback according to claim 7, wherein the indicator light module comprises: one or more of a standard illumination display unit, a higher than standard illumination display unit, and a lower than standard illumination display unit;

wherein the content of the first and second substances,

the standard illumination display unit is used for indicating that the illumination intensity of the frame substrate meets the standard in a standard display state when the standard indication control signal is received;

the above standard illumination display unit is used for indicating that the illumination intensity of the frame substrate is above the standard in an above standard display state when the above standard indication control signal is received;

the below-standard illumination display unit is used for indicating that the illumination intensity of the frame substrate is below the standard in a below-standard display state when the below-standard indication control signal is received.

9. An intelligent eye-protection detection device based on ambient light feedback according to claim 8, wherein one or more of the indication of the normal display state, the above normal display state, and the below normal display state comprises: one or more of a red light display state, a green light display state, and a no light display state.

10. An intelligent eye-protection detection device based on ambient light feedback according to claim 2, wherein the illumination detection portion comprises: the magnetic suction part is used for being combined and spliced with other illumination detection parts.

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