CN102033167B - Electromagnetic radiation intensity detection device and method - Google Patents
Electromagnetic radiation intensity detection device and method Download PDFInfo
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- CN102033167B CN102033167B CN200910308022.3A CN200910308022A CN102033167B CN 102033167 B CN102033167 B CN 102033167B CN 200910308022 A CN200910308022 A CN 200910308022A CN 102033167 B CN102033167 B CN 102033167B
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Abstract
The invention discloses an electromagnetic radiation intensity detection device and an electromagnetic radiation intensity detection method. The device comprises an input unit, a microcontroller, an electromagnetic inducer and an alarm unit, wherein the microcontroller comprises a detection unit and a memory unit; and the detection unit comprises a command monitoring module, a reference value setting module, an electromagnetic detection module and an alarm module. The detection unit controls the electromagnetic inducer to detect electromagnetic radiation intensity distribution produced by electrical equipment through a monitoring command and acquires an electromagnetic radiation intensity value; and when the electromagnetic radiation intensity value is greater than an electromagnetic radiation reference value, the alarm unit is started to warn that the electromagnetic radiation intensity produced by the electrical equipment exceeds a standard and prompt a user to switch off the electrical equipment. By the device and the method, the user can learn about the electromagnetic radiation intensity produced by the electrical equipment at any time and judge whether to switch off certain electrical equipment or adjust the distance between the user and the electrical equipment according to the electromagnetic radiation intensity so as to protect the user from being damaged by electromagnetic radiation.
Description
Technical field
The present invention relates to a kind of radiation ray arrangement for detecting and method, particularly about a kind of electromagnetic radiation intensity detection device and method.
Background technology
Household electrical appliance of today, comprise that suction cleaner, micro-wave oven, stirring machine, televisor, computer, washing machine, electric iron, coffee machine, refrigerator, bread baker, electric blanket etc. are requisite electric equipments in daily life.Yet, these domestic electric appliances generally all can produce radiation, and within the scope of apart from 1 meter of these domestic electric appliance, powerful suction cleaner magnetic induction density can reach 2 μ T units, wherein μ T is electromagnetic radiance unit, and the electromagnetic radiation of micro-wave oven is between 0.23-6 μ T.According to national relevant regulations, radiation is exactly compared with intense radiation more than 0.4 μ T, belongs to dangerous values, under long-term irradiation, human body is had to certain harm.In addition,, because the intensity of the intensity distributions of the indoor electromagnetic radiation electric equipment in multiple work is formed by stacking, the radiation intensity of different position distribution is difference to some extent.Yet, because user uses household electrical appliance for a long time, can not understand at any time the electromagnetic radiation intensity of present position, so the electromagnetic radiation that household electrical appliance produce is virtually just to user's generation injury to a certain degree.
Summary of the invention
In view of above content, be necessary to provide a kind of electromagnetic radiation intensity detection device, the electromagnetic radiation intensity can alarm electric equipment equipment producing exceeds standard, thereby allows user understand at any time the electromagnetic radiation intensity that electric equipment produces.
In addition, be also necessary to provide a kind of electromagnetic radiation intensity method for detecting, the electromagnetic radiation intensity can alarm electric equipment equipment producing exceeds standard, thereby allows user understand at any time the electromagnetic radiation intensity that electric equipment produces.
An electromagnetic radiation intensity detection device, comprises input block, microcontroller, electromagnetic inductor and alarm unit.Described microcontroller comprises detecting unit and storage unit.Described detecting unit comprises: command monitoring module, and the steering order for Real-Time Monitoring user from input block input, and the described steering order of judgement is preset instructions or Monitoring instruction; Reference point arranges module, for when steering order is preset instructions, receives user from the electromagnetic radiation reference point of input block input, and this electromagnetic radiation reference point is stored in storage unit; Electromagnetism detecting module, for when steering order is Monitoring instruction, from storage unit, obtain electromagnetic radiation reference point, the electromagnetic radiation intensity of controlling the generation of electromagnetic inductor detecting electric equipment according to Monitoring instruction distributes and obtains electromagnetic radiation intensity value, and judges whether electromagnetic radiation intensity value is greater than electromagnetic radiation reference point; Alarm module, for when electromagnetic radiation intensity value is greater than electromagnetic radiation reference point, the electromagnetic radiation intensity that starts the generation of alarm unit alarm electric equipment equipment exceeds standard, and points out user to close electric equipment.
An electromagnetic radiation intensity method for detecting, the electromagnetic radiation intensity producing while utilizing the work of electromagnetic radiation intensity detection device detecting electric equipment.The method comprising the steps of: Real-Time Monitoring user is from the steering order of input block input; Whether the described steering order of judgement is preset instructions or Monitoring instruction; If steering order is preset instructions, receives user from the electromagnetic radiation reference point of input block input, and this electromagnetic radiation reference point is stored in storage unit; When if steering order is Monitoring instruction, from storage unit, obtain the electromagnetic radiation reference point setting in advance, the electromagnetic radiation intensity of controlling the generation of electromagnetic inductor detecting electric equipment according to Monitoring instruction distributes and obtains electromagnetic radiation intensity value; Judge whether electromagnetic radiation intensity value is greater than electromagnetic radiation reference point; If electromagnetic radiation intensity value is less than or equal to electromagnetic radiation reference point, continue the electromagnetic radiation intensity that detecting electric equipment produces; And if electromagnetic radiation intensity value is greater than electromagnetic radiation reference point, starts the electromagnetic radiation intensity that alarm unit alarm electric equipment equipment produces and exceed standard, and point out user to close electric equipment.
Compared to prior art, the electromagnetic radiation intensity that described electromagnetic radiation intensity detection device and method produce by alarm electric equipment equipment exceeds standard, allow user understand at any time the electromagnetic radiation intensity that electric equipment produces, and judgement determine whether to need to close the injury that distance between some electric equipments or adjustment and electric equipment is protected electromagnetic radiation accordingly.
Accompanying drawing explanation
Fig. 1 is the Organization Chart of electromagnetic radiation intensity detection device preferred embodiment of the present invention.
Fig. 2 is the process flow diagram of electromagnetic radiation intensity method for detecting of the present invention preferred embodiment.
Embodiment
As shown in Figure 1, be the Organization Chart of electromagnetic radiation intensity detection device 100 preferred embodiments of the present invention.In the present embodiment, described electromagnetic radiation intensity detection device 100 comprises input block 1, microcontroller (Micro Controller Unit, MCU) 2, electromagnetic inductor 3 and alarm unit 4.Wherein, described microcontroller 2 comprises detecting unit 20 and storage unit 22.Described detecting unit 20 comprises that command monitoring module 201, reference point arrange module 202, electromagnetism detecting module 203 and alarm module 204.In the present embodiment, alleged module can be carried out by microcontroller 2, and can complete the computer program code segments of a specific function, and it is more suitable in describing the implementation of software in microcontroller 2 than program.Therefore, being connected between the modules in Fig. 1 and input block 1, electromagnetic inductor 3, alarm unit 4 and storage unit 22 is not the physical connection on practical significance, and logic while meaning the data interaction between each module and said elements is connected, it represents the signal stream of electromagnetic radiation intensity detection device 100 when detecting electromagnetic radiation intensity and the direction of data stream.
Described input block 1 is for receiving steering order and the acceptable electromagnetic radiation reference point of user of user's input.In the present embodiment, described steering order comprises preset instructions and Monitoring instruction.Described preset instructions is used for judging that whether user is from input block 1 input electromagnetic radiation reference point, and for example inputting electromagnetic radiation reference point is 0.4 μ T, and wherein μ T is electromagnetic radiance unit.Whether described Monitoring instruction starts electromagnetic radiation intensity detecting function for Real-Time Monitoring user.Described storage unit 22 is for storing the electromagnetic radiation reference point of user's indication, this storage unit 22 can be for being solidificated in random access memory (the random access memory in microcontroller 2, RAM) in, also can be erasable and programable memory (erasableprogrammable ROM, EPROM).
Described command monitoring module 201 is the steering order from input block 1 input for Real-Time Monitoring user, and the steering order of judgement user input is preset instructions or Monitoring instruction.In the present embodiment, if preset instructions starts electromagnetic radiation reference point preset function and carries out electromagnetic radiation reference point deliberate action.If Monitoring instruction starts the electromagnetic radiation intensity that electromagnetic radiation intensity detecting function Real-Time Monitoring electric equipment produces.
When described reference point arranges module 202 and is preset instructions for the steering order when family input, receive user from the electromagnetic radiation reference point of input block 1 input, and this electromagnetic radiation reference point is stored in described storage unit 22.
When described electromagnetism detecting module 203 is Monitoring instruction for the steering order when family input, from storage unit 22, obtain electromagnetic radiation reference point, the electromagnetic radiation intensity of controlling electromagnetic inductor 3 detecting electric equipments generations according to this Monitoring instruction distributes and obtains electromagnetic radiation intensity value, and judges whether electromagnetic radiation intensity value is greater than electromagnetic radiation reference point.
Described alarm module 204 is for when electromagnetic radiation intensity value is greater than electromagnetic radiation reference point, and the electromagnetic radiation intensity that starts alarm unit 4 alarm electric equipment equipment generations exceeds standard, and points out user whether to close electric equipment.
The electromagnetic radiation intensity that described electromagnetic inductor 3 produces for sensing electric equipment when receiving Monitoring instruction distributes, and obtains electromagnetic radiation intensity value and this electromagnetic radiation intensity value is passed to reference point module 202 is set.When being greater than the electromagnetic radiation reference point of user preset for the electromagnetic radiation intensity value producing when electric equipment, described alarm unit 4 reports to the police, so that the electromagnetic radiation intensity that warning consumer electronics equipment produces exceeds standard.In the present embodiment, described alarm unit 4 can be a kind of light-emitting device, such as LED indication etc., warns the electromagnetic radiation intensity that consumer electronics equipment produces exceed standard by light-emitting flash mode.Described alarm unit 4 can be also a kind of sound-producing device, and loudspeaker is for example warned by voice message mode the electromagnetic radiation intensity that consumer electronics equipment produces and exceeded standard.
As shown in Figure 2, be the process flow diagram of electromagnetic radiation intensity method for detecting of the present invention preferred embodiment.In the present embodiment, program designer arranges an electromagnetic radiation reference point in advance in the storage unit 22 of electromagnetic radiation intensity detection device 100, for example, be set to 0.4 μ T.When user starts electromagnetic radiation reference point preset function, carry out electromagnetic radiation reference point while arranging, this electromagnetic radiation reference point will be updated.Therefore, user can select the electromagnetic radiation intensity that in the scope of accepting, electric equipment produces, for example, between 0-0.6 μ T.
Step S21, command monitoring module 201 Real-Time Monitoring users are from the steering order of input block 1 input, and described steering order comprises preset instructions and Monitoring instruction.Step S22, command monitoring module 201 judges whether the steering order of user's input is preset instructions.If steering order is preset instructions, step S23, reference point arranges module 202 and receives user from the electromagnetic radiation reference point of input block input, and this electromagnetic radiation reference point is stored in storage unit 22.If steering order is not preset instructions, flow process turns to step S24.
Step S24, command monitoring module 201 judges whether the steering order of user's input is Monitoring instruction.When if steering order is Monitoring instruction, step S25, electromagnetism detecting module 203 obtains electromagnetic radiation reference point from storage unit 22.Step S26, the electromagnetic radiation intensity that electromagnetism detecting module 203 is controlled electromagnetic inductor 3 detecting electric equipments generations according to this Monitoring instruction distributes and obtains electromagnetic radiation intensity value.If steering order is not Monitoring instruction, flow process turns to step S21 to continue monitor user ' from the steering order of input block 1 input.
Step S27, electromagnetism detecting module 203 judges whether electromagnetic radiation intensity value is greater than electromagnetic radiation reference point.If electromagnetic radiation intensity value is greater than electromagnetic radiation reference point, step S28, the electromagnetic radiation intensity that alarm module 204 starts alarm unit 4 alarm electric equipment equipment generations exceeds standard, and points out user whether to close electric equipment.If electromagnetic radiation intensity value is less than or equal to electromagnetic radiation reference point, flow process turns to step S26 to continue the electromagnetic radiation intensity that detecting electric equipment produces.
The electromagnetic radiation intensity that electromagnetic radiation intensity detection device of the present invention and method produce in the time of can being applied to detect electric equipment work in the telepilot of control apparatus equipment, also can be independent of and outside telepilot, detect ultraviolet radiation intensity or infrared radiation intensity.Described electric equipment comprises the household electrical appliance such as suction cleaner, micro-wave oven, stirring machine, televisor, computer, washing machine, electric iron, coffee machine, refrigerator, bread baker, electric blanket.
Claims (10)
1. an electromagnetic radiation intensity detection device, comprises input block, microcontroller, electromagnetic inductor and alarm unit, and described microcontroller comprises detecting unit and storage unit, it is characterized in that, described detecting unit comprises:
Command monitoring module, the steering order for Real-Time Monitoring user from input block input, and the described steering order of judgement is preset instructions or Monitoring instruction;
Reference point arranges module, for when steering order is preset instructions, receive user from the electromagnetic radiation reference point of input block input, and the electromagnetic radiation reference point of this input is stored in and in storage unit, upgrades the electromagnetic radiation reference point setting in advance in storage unit;
Electromagnetism detecting module, for when steering order is Monitoring instruction, from storage unit, obtain electromagnetic radiation reference point, the electromagnetic radiation intensity of controlling the generation of electromagnetic inductor detecting electric equipment according to Monitoring instruction distributes and obtains electromagnetic radiation intensity value, and judges whether electromagnetic radiation intensity value is greater than electromagnetic radiation reference point; And
Alarm module, for when electromagnetic radiation intensity value is greater than electromagnetic radiation reference point, the electromagnetic radiation intensity that starts the generation of alarm unit alarm electric equipment equipment exceeds standard, and points out user to close electric equipment.
2. electromagnetic radiation intensity detection device as claimed in claim 1, is characterized in that, described storage unit is a kind of random access memory, or a kind of erasable and programable memory.
3. electromagnetic radiation intensity detection device as claimed in claim 1, is characterized in that, described alarm unit is a kind of light-emitting device, and the electromagnetic radiation intensity of warning the generation of consumer electronics equipment by light-emitting flash mode exceeds standard.
4. electromagnetic radiation intensity detection device as claimed in claim 1, is characterized in that, described alarm unit is a kind of sound-producing device, and the electromagnetic radiation intensity of warning the generation of consumer electronics equipment by voice message mode exceeds standard.
5. electromagnetic radiation intensity detection device as claimed in claim 1, it is characterized in that, described electric equipment is a kind of of suction cleaner, micro-wave oven, stirring machine, televisor, computer, washing machine, electric iron, coffee machine, refrigerator, bread baker, electric blanket.
6. an electromagnetic radiation intensity method for detecting, the electromagnetic radiation intensity producing while utilizing the work of electromagnetic radiation intensity detection device detecting electric equipment, this electromagnetic radiation intensity detection device comprises input block, storage unit, electromagnetic inductor and alarm unit, it is characterized in that, the method comprising the steps of:
Real-Time Monitoring user is from the steering order of input block input;
Whether the described steering order of judgement is preset instructions or Monitoring instruction;
If steering order is preset instructions, receives user from the electromagnetic radiation reference point of input block input, and the electromagnetic radiation reference point of this input is stored in and in storage unit, upgrades the electromagnetic radiation reference point setting in advance in storage unit;
When if steering order is Monitoring instruction, from storage unit, obtain the electromagnetic radiation reference point setting in advance, the electromagnetic radiation intensity of controlling the generation of electromagnetic inductor detecting electric equipment according to Monitoring instruction distributes and obtains electromagnetic radiation intensity value;
Judge whether electromagnetic radiation intensity value is greater than electromagnetic radiation reference point;
If electromagnetic radiation intensity value is less than or equal to electromagnetic radiation reference point, continue the electromagnetic radiation intensity that detecting electric equipment produces; And
If electromagnetic radiation intensity value is greater than electromagnetic radiation reference point, the electromagnetic radiation intensity that starts the generation of alarm unit alarm electric equipment equipment exceeds standard, and points out user to close electric equipment.
7. electromagnetic radiation intensity method for detecting as claimed in claim 6, is characterized in that, described storage unit is a kind of random access memory, or a kind of erasable and programable memory.
8. electromagnetic radiation intensity method for detecting as claimed in claim 6, is characterized in that, described alarm unit is a kind of light-emitting device, and the electromagnetic radiation intensity of warning the generation of consumer electronics equipment by light-emitting flash mode exceeds standard.
9. electromagnetic radiation intensity method for detecting as claimed in claim 6, is characterized in that, described alarm unit is a kind of sound-producing device, and the electromagnetic radiation intensity of warning the generation of consumer electronics equipment by voice message mode exceeds standard.
10. electromagnetic radiation intensity method for detecting as claimed in claim 6, it is characterized in that, described electric equipment is a kind of of suction cleaner, micro-wave oven, stirring machine, televisor, computer, washing machine, electric iron, coffee machine, refrigerator, bread baker, electric blanket.
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Families Citing this family (5)
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| CN103323683B (en) * | 2013-06-09 | 2015-10-28 | 中国科学院深圳先进技术研究院 | A kind of portable electromagnetic wave intensity detecting device and method |
| CN106569070B (en) * | 2016-11-07 | 2019-07-12 | 深圳Tcl数字技术有限公司 | The EMI localization method and device of television set |
| CN106680596B (en) * | 2016-12-01 | 2023-05-02 | 国网吉林省电力有限公司电力科学研究院 | Double-point fixed type power frequency electromagnetic field intensity combined alarm system and operation method thereof |
| CN108089065A (en) * | 2017-12-06 | 2018-05-29 | 深圳市环境监测中心站 | Detection method of electromagnetic radiation, device, electronic equipment and storage medium |
| CN111060752B (en) * | 2019-12-30 | 2023-08-01 | 惠州视维新技术有限公司 | Electromagnetic radiation detection method, control terminal, device and readable storage medium |
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Effective date of registration: 20181219 Address after: 518000 room A, general office building, Qianhai Shenzhen Hong Kong cooperation district office building, No. 1, Shenzhen Shenzhen cooperation zone, Qianhai Shenzhen Hong Kong cooperation zone, Qianhai (Shenzhen Qianhai business secretary Co., Ltd.) Patentee after: Shenzhen Qianhai Shima Fund Management Co., Ltd. Address before: 518129 Building 1006, Hongshengyuan Industrial Park, 339 Bloom Road, Ma'antang Community, Bantian Street, Longgang District, Shenzhen City, Guangdong Province Patentee before: Shenzhen Boke Intelligent Technology Co., Ltd. |