CN101097261A - Ultraviolet ray intelligent monitoring methods and intelligent monitoring plant thereof - Google Patents
Ultraviolet ray intelligent monitoring methods and intelligent monitoring plant thereof Download PDFInfo
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- CN101097261A CN101097261A CNA2006101643615A CN200610164361A CN101097261A CN 101097261 A CN101097261 A CN 101097261A CN A2006101643615 A CNA2006101643615 A CN A2006101643615A CN 200610164361 A CN200610164361 A CN 200610164361A CN 101097261 A CN101097261 A CN 101097261A
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Abstract
A kind of ultraviolet radiation intellective monitoring method accumulates ultraviolet intension signal according to time, and based on skin type of user, compare and judge the accumulated ultraviolet intension signal with preset ultraviolet intension grade, at last decide whether corresponding alarming prompt information can be sent, so, when ultraviolet irradiates skin to different burn grades, corresponding alarming grade will be obtained, user can leave the irradiation area to prevent skin shined and brunt. The intellective monitoring device provided by the invention is a glass, sensor, amplifier, processor, buzzer are mounted in leg, so, user just wears the glass to protect eyes, the ultraviolet intensity can be monitored to send alarming information to avoid insolation of skin to be burnt, even skin carcinoma.
Description
Technical field
The present invention relates to the Radiation monitoring field, particularly a kind of method and apparatus of ultraviolet ray monitoring.The invention still further relates to a kind of multi-functional glasses.
Background technology
(UV Ultraviolet) is the general name of electromagnetic wave spectrum medium wavelength from 0.01~0.40 micron radiation in ultraviolet ray.Ultraviolet ray can be divided into three kinds by wavelength: first kind of A ultraviolet ray (UV-A), wavelength are between 0.32~0.40 micron, and its influence to us shows that synthesis of vitamin d is had facilitation, but excessive A ultraviolet ray irradiation can suppress function of immune system; Second kind of B ultraviolet ray (UV-B), wavelength are between 0.28~0.32 micron, and its influence to us shows and make erythrosis that long-term acceptance may cause cutaneum carcinoma, cataract and suppress function of immune system; The third C ultraviolet ray (UV-C), wavelength is between 0.01~0.28 micron, and it is nearly all absorbed by ozonosphere, and we are influenced not quite.Therefore, ultraviolet ray mainly shows as A ultraviolet ray and the ultraviolet combined action of B to our influence.
And the ozone amount of earth atmosphere circle is reducing at present, observational data statistics according to international ozone trend workshop shows: 1969-1986 17 in the period of, the mean value of the total ozone amount in the whole world obviously descends, in 30-60 ° of N scope, the annual slip is 1.7%-3.0% on the Northern Hemisphere.Expect the year two thousand fifty, the stratospheric ozone amount will reduce 4-20%, and " umbrella " of the earth suffers serious destruction.The relevant expert had found ozone hole first above the Antarctic in 1984, and No. 7 satellites of the sexual intercourse of the U.S. have confirmed this fact.The ozone hole that scope is less has also been found in the sky, the arctic afterwards.The stratospheric ozone amount reduces, the amount of ultraviolet irradiation on the destroyed feasible arrival ground of ozonosphere increases especially B ultraviolet ray.
The ultraviolet radiation increase will produce a very large impact health.The every minimizing 1% of ozone in the atmosphere, the amount of ultraviolet irradiation that arrives the face of land will increase by 2%, and the cutaneum carcinoma incidence then increases by 4%.Ultraviolet ray is not only very big to the injury of skin, also can injure eyes, if do not note protection, eyes can occur that acid is expanded, pain, shed tears, and causes the cornea retrogressive metamorphism gradually, damages eyeglass even causes cataract ahead of time.Especially the more responsive fragility of child's skin and eyes, ultraviolet injury is also more serious.
Summary of the invention
The objective of the invention is to, a kind of ultraviolet ray intelligent monitoring methods is provided.
Another object of the present invention is to, a kind of intelligent monitoring device that adopts above-mentioned ultraviolet ray intelligent monitoring methods is provided.
The objective of the invention is to be achieved through the following technical solutions:
A kind of ultraviolet ray intelligent monitoring methods, it is characterized in that: the uitraviolet intensity signal that obtains was added up according to the time, and according to skin type, the uitraviolet intensity grade of add up uitraviolet intensity signal and setting is compared, judges, thereby whether decision sends corresponding alarm information;
After finishing decision and whether sending corresponding alarm information, with carry out obtaining the uitraviolet intensity signal next time before also be provided with dormant state, enter dormant state, this dormancy time is 60 seconds;
Described skin type is provided with two types at least, the described uitraviolet intensity grade of the described skin type of difference also is provided with two grades at least, and the alarm information of respective numbers is set;
Described skin type include at least the type of very easily burning, easily burn type, generally burn type, the difficult type of burning, be difficult to two kinds in type of burning and the extremely difficult type of burning, described uitraviolet intensity grade includes high level, two grades in very senior, senior, intermediate and rudimentary at least;
Described skin type comprise the type of very easily burning, easily burn type, generally burn type, difficulty burn type, be difficult to type of burning and the difficulty type of burning extremely, behind the uitraviolet intensity signal that adds up, when judging described skin type, carry out to judge:
The first step: judge skin type that the user sets whether " type of very easily burning ", " Yes " then carries out " judgement add up the strength grade that the uitraviolet intensity signal arrives ", and " No " then entered for second step;
Second step: judge skin type that the user sets whether " type of burning easily ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 3rd step;
The 3rd step: judge skin type that the user sets whether " type of generally burning ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 4th step;
The 4th step: judge skin type that the user sets whether " difficulty burn type ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 5th step;
The 5th step: judge whether the skin type that the user sets " is difficult to the type of burning ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 6th step;
The 6th step: the skin type that the user sets is " extremely difficulty burn type ", and carries out " judgement add up the strength grade that the uitraviolet intensity signal arrives ";
Described uitraviolet intensity grade comprises high level, very senior, senior, intermediate and rudimentary, after judging described skin type, when judging the described strength grade of the described uitraviolet intensity signal arrival that adds up, carries out to judge:
The first step: judge whether the uitraviolet intensity signal that adds up has reached high level, " Yes " sends then that " the uitraviolet intensity signal that adds up is high, and your skin will extremely be burnt." the alarm information, " No " then entered for second step;
Second step: judge whether the uitraviolet intensity signal that adds up has reached promptly very senior, " Yes " sends then that " the uitraviolet intensity signal that adds up is very high, and your skin will be by third-degree burn." the alarm information, " No " then entered for the 3rd step;
The 3rd step: judge whether the uitraviolet intensity signal that adds up has reached senior, " Yes " sends then that " uitraviolet intensity that adds up is higher, and your skin will highly be burnt." the alarm information, " No " then entered for the 4th step;
The 4th step: judge whether the uitraviolet intensity signal that adds up has reached middle rank, " Yes " sends then that " the uitraviolet intensity signal that adds up is medium, and your skin will be burnt by moderate." the alarm information, " No " then entered for the 5th step;
The 5th step: judge whether the uitraviolet intensity signal that adds up has reached rudimentary, " Yes " sends then that " the uitraviolet intensity signal that adds up is lower, and your skin will slightly be burnt." the alarm information, " No " then returns " obtaining the uitraviolet intensity signal ";
Described skin type comprises eight types, and every type is provided with four uitraviolet intensity grades, the uitraviolet intensity semaphore such as the following table of concrete described eight types and described four uitraviolet intensity grades:
Described skin type includes four kinds of casting skin type, pale skin type, yellow skin type and red skin-types;
Described alarm information be at least literal, icon, music, number of times do not wait " ticking " sound in a kind of;
It is a kind of that to adopt the intelligent monitoring device of described ultraviolet ray intelligent monitoring methods be glasses, include preceding frame, mirror leg, also be provided with sensor, amplifying circuit, processor and output unit, described mirror leg front end is provided with one and heaves housing, and described heaving in the housing is equipped with described sensor, described amplifying circuit, described processor, described output unit and battery with circuit board;
The described housing of heaving is made up of base, bonnet and battery cover, and the inboard cavity that forms of described base is provided with and is respectively applied for first recess, second recess of laying described battery, described output unit;
Described mirror leg front end, end are respectively equipped with first and heave housing and second and heave housing, described first heaves and with circuit board described sensor, described amplifying circuit is installed in the housing, described second heaves and with circuit board described processor, described output unit and battery is installed in the housing, connects with lead between described two circuit boards;
Described first heaves housing is made up of first base, first bonnet, and described second heaves housing is made up of second base, second bonnet and battery cover, and described first base, described second base are connected one with described other parts of mirror leg;
Described lead is located in the groove that described mirror inboard leg is provided with;
Described bonnet one end is provided with projection, the other end is provided with pin and screw, described base relevant position is provided with indent bayonet socket, key seat and screw base, during assembling, described projection is stuck in the described indent bayonet socket, described pin inserts in the described key seat, and pins described screw, described screw base successively with screw;
Described battery cover inboard is provided with fixture block, is covered with circular hole after described, and described circular hole inboard is provided with clamp, and described fixture block fastens described clamp;
Be covered with a male part after described, its shape size is suitable with described processor, and described processor places in the described male part;
Described glasses also are provided with lens, and described lens are positioned at described sensor top, and are located in the described through hole of heaving the connection external world that housing is provided with, and maintain an equal level with housing;
Described sensor is a UV sensor, and described battery is a button cell;
Described sensor is photoelectric sensor or silicon chip, and described battery is a button cell;
Described glasses also include an optical filter and layer of fluorescent powder or light-accumulating powder, and described optical filter is located at described lens below, and described fluorescent powder or light-accumulating powder full-filling are at described optical filter lower surface, and perhaps full-filling is at described photoelectric sensor or silicon chip upper surface;
Described output unit is hummer or loudspeaker.
Beneficial effect of the present invention has: ultraviolet ray intelligent monitoring methods of the present invention is by obtaining the uitraviolet intensity signal in real time; and add up according to the time; set the skin type of self then according to the user; the strength grade of add up uitraviolet intensity signal and setting is compared; judge; whether final decision sends corresponding alarm information; like this; the user is being shone by ultraviolet ray (as movable out of doors; by the irradiation of the ultraviolet ray in the sunray); and skin soon arrives different burning during grade; the present invention will make corresponding alarm information; the user can leave ultraviolet range of exposures (as coming into indoor or shady and cool place) immediately; skin is well protected, and prevents to be tanned severely; burn.Monitoring device provided by the invention is glasses; sensor, amplifier, processor, hummer are installed in eyeglasses temple arm; like this; wearing these glasses both can protect wearer's eyes, escape injury; the information of can monitoring, give the alarm uitraviolet intensity again; avoided skin to be burnt, even caused diseases such as cutaneum carcinoma because of being exposed to the sun for a long time.Hummer is located at mirror leg end (near the ear place), even also can clearly hear the alarm information under noisy environments.And the mirror leg that these monitoring device parts, components and parts are installed is heaved housing and is made up of base, bonnet, battery cover, wherein steadily engage with projection and indent bayonet socket, pin and key seat, screw between base and the bonnet, be connected and fixed with fixture block and clamp between bonnet and the battery cover, assemble, use very convenient.Also be provided with shape size and the suitable male part of processor on the bonnet, processor places in the male part during assembling, and like this, the thickness of other parts of mirror leg can be designed to less relatively, and weight is also lighter relatively, wears more comfortable.
Description of drawings
Fig. 1 is the workflow diagram of ultraviolet ray intelligent monitoring methods embodiment one of the present invention.
Fig. 2 is the workflow diagram after ultraviolet ray intelligent monitoring methods embodiment one of the present invention enters judgement skin type step.
Fig. 3 is the workflow diagram after ultraviolet ray intelligent monitoring methods embodiment one of the present invention enters judgement strength grade step.
Fig. 4 is the workflow diagram of ultraviolet ray intelligent monitoring methods embodiment two of the present invention.
Fig. 5 is the workflow diagram after ultraviolet ray intelligent monitoring methods embodiment two of the present invention enters judgement skin type step.
Fig. 6 is the workflow diagram after ultraviolet ray intelligent monitoring methods embodiment two of the present invention enters judgement strength grade step.
Fig. 7 is the principle of work block scheme of the monitoring device of ultraviolet ray intelligent monitoring methods of the present invention.
Fig. 8 is the structural representation of the glasses embodiment one of monitoring device of the present invention.
Fig. 9 is the partial structurtes synoptic diagram of the glasses embodiment one of monitoring device of the present invention.
Figure 10 is the structural representation of the glasses embodiment two of monitoring device of the present invention.
Figure 11 is the structural representation of the glasses embodiment three mirror legs of monitoring device of the present invention.
Figure 12 is the structural representation of the glasses embodiment three mirror legs of monitoring device of the present invention.
The literary property of above-mentioned Figure of description and other any right all belong to the applicant to be owned.
Embodiment
The invention will be further described to reach specific embodiment now in conjunction with the accompanying drawings.
As shown in Figure 1, this figure is the workflow diagram of ultraviolet ray intelligent monitoring methods embodiment one of the present invention, and described ultraviolet ray intelligent monitoring methods comprises following five big steps:
(a) at first obtain the uitraviolet intensity signal by sensor;
(b) secondly according to the time uitraviolet intensity signal is added up by processor;
(c) then judge the skin type that the user sets by processor;
(d) compare, judge by the uitraviolet intensity grade of processor then add up uitraviolet intensity signal and affiliated skin type;
(e) whether send corresponding alarm information by processor according to above-mentioned judgement decision at last.
Certainly, described ultraviolet ray intelligent monitoring methods can " be judged the skin type that the user sets " with the 3rd step and move to forefront (being before sensor obtains the uitraviolet intensity signal), like this, promptly need not repeat " judging the skin type that the user sets ", processing speed is faster, correspondingly, can save.
As shown in Figure 2, behind the uitraviolet intensity signal that adds up, when judging skin type, the present invention carries out to judge:
The first step: judge skin type that the user sets whether " type of very easily burning ", " Yes " then carries out " judgement add up the strength grade that the uitraviolet intensity signal arrives ", and " No " then entered for second step;
Second step: judge skin type that the user sets whether " type of burning easily ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 3rd step;
The 3rd step: judge skin type that the user sets whether " type of generally burning ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 4th step;
The 4th step: judge skin type that the user sets whether " difficulty burn type ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 5th step;
The 5th step: judge whether the skin type that the user sets " is difficult to the type of burning ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 6th step;
The 6th step: the skin type that the user sets is " extremely difficulty burn type ", and carries out " judgement add up the strength grade that the uitraviolet intensity signal arrives ".
As shown in Figure 3, after judging skin type, when judging the strength grade of the uitraviolet intensity signal arrival that adds up, the present invention carries out to judge:
The first step: judge whether the uitraviolet intensity signal that adds up has reached strength grade 5 (being high level), " Yes " sends then that " the uitraviolet intensity signal that adds up is high, and your skin will extremely be burnt." the voice alarm information, " No " then enter second the step;
Second step: judge whether the uitraviolet intensity signal that adds up has reached strength grade 4 (promptly very senior), " Yes " sends then that " the uitraviolet intensity signal that adds up is very high, and your skin will be by third-degree burn." the voice alarm information, " No " then entered for the 3rd step;
The 3rd step: judge and to add up whether oneself reaches strength grade 3 (promptly senior) to the uitraviolet intensity signal that " Yes " sends then that " uitraviolet intensity that adds up is higher, and your skin will highly be burnt." the voice alarm information, " No " then entered for the 4th step;
The 4th step: judge whether the uitraviolet intensity signal that adds up has reached strength grade 2 (promptly intermediate), " Yes " sends then that " the uitraviolet intensity signal that adds up is medium, and your skin will be burnt by moderate." the voice alarm information, " No " then entered for the 5th step;
The 5th step: judge whether the uitraviolet intensity signal that adds up has reached strength grade 1 (promptly rudimentary), " Yes " sends then that " the uitraviolet intensity signal that adds up is lower, and your skin will slightly be burnt." the voice alarm information, " No " then returns " obtaining the uitraviolet intensity signal ".
As Fig. 4, shown in 5 and 6, the real described ultraviolet ray intelligent monitoring methods of the present invention is executed the workflow diagram of example two, the monitoring method of this embodiment two and embodiment one are basic identical, its step all is at first to obtain the uitraviolet intensity signal by sensor, secondly the uitraviolet intensity signal is added up according to the time by processor, then judge the skin type that the user sets by processor, compare by the uitraviolet intensity grade of processor then add up uitraviolet intensity signal and affiliated skin type, judge whether send corresponding alarm information by processor according to above-mentioned judgement decision at last.Be with embodiment one difference: first, after finishing " judging whether to export the alarm information ", enter " dormant state " (dormancy time can be set to 60 seconds), just return the first step (obtaining the uitraviolet intensity signal) at last, sample to ultraviolet ray in the compartment of terrain like this, more power saving, battery life is longer; The second, divide eight types with skin type, every kind of skin type also is provided with four uitraviolet intensity grades, and the uitraviolet intensity semaphore of each strength grade of concrete every kind of skin type can be as shown in table 1 below:
Table 1
The 3rd, described alarm mode is different, and when the uitraviolet intensity signal that adds up among the embodiment two reached a certain strength grade, certain hour (as 60 seconds) sent " ticking " sound of corresponding number of times at interval.When in like manner, the uitraviolet intensity signal that adds up among the embodiment one reaches a certain strength grade also at interval certain hour send the voice alarm information of setting.
Obviously, above-mentioned each uitraviolet intensity grade is all inequality with respect to the critical field of each described skin type, all can reach protective effect for the user of different skin type, and applicability is strong.And described skin type can also colour of skin modes such as (as yellow skin, pale skin, casting skin, red skins) be divided.
As shown in Figure 7, the monitoring device of ultraviolet ray intelligent monitoring methods of the present invention includes sensor 1, amplifying circuit 2, processor 3, clock 4 and output unit 5.Described sensor 1 is mainly used in after ultraviolet ray in the sunray that will receive converts visible light to, converts visible light to electric signal again, exports proportional uitraviolet intensity signal at last.Described amplifying circuit 2 is that the uitraviolet intensity signal that is used for sending from sensor 1 strengthens, amplifies.Processor 3 is mainly used in according to the uitraviolet intensity signal after 4 pairs of amplifications of clock and carries out accumulation calculating and judge whether the uitraviolet intensity signal that adds up arrives certain strength grade of setting.Output unit 5 is mainly used in expression alarm information.When the ultraviolet ray in the sunray is monitored, the ultraviolet ray that receives in the sunray by sensor 1 earlier, and convert visible light to, photoelectric tube in the testing circuit that is provided with by sensor 1 detects visible light again, convert electric signal to, export proportional uitraviolet intensity signal, after amplifying, 2 pairs of these uitraviolet intensity signals of amplifying circuit send processor 3 to then, the uitraviolet intensity signal of processor 3 after according to 4 pairs of amplifications of clock adds up, and compare with the alarm uitraviolet intensity grade of interior setting, if the uitraviolet intensity signal reached alert level, then to the give the alarm instruction of information of output unit 5.
Certainly, described output unit 5 can be hummer (as piece-shape type hummer or a column formula hummer), it also can be loudspeaker (as earphone), can also be pilot lamp (as the LED lamp), and the pilot lamp that described alarm information can be buzzer, music, language message, literal, icon or the different numbers that glimmer.
Fig. 8 is the structural representation with ultraviolet ray intelligent monitoring device embodiment one of the present invention, this monitoring device is glasses, include the preceding frame of band eyeglass, left mirror leg (not showing among the figure), right mirror leg 6, right mirror leg 6 front ends and end are respectively equipped with first and heave housing, second heaves housing, first heaves housing by the first base 61A, the first bonnet 61B forms, and with screw retention methods such as (also can be fix) sticking or ultrasonic soldering modes with glue, second heaves housing by the second base 62A, the second bonnet 62B, battery cover 62C forms, and with screw retention (also can be sticking or ultrasonic soldering mode etc. engage fixing), and the first base 61A with glue, the second base 62A is connected one with right mirror leg 6 other parts.First heaves that to be provided with lens 71 (as quartz glass), optical filter 72, fluorescent powder 73, photoelectric sensor 74 in the housing from top to bottom successively (be Photo Sensor, as photodiode), circuit board, amplifier 75 (as LM324), wherein lens 71 place first to heave in the through hole in the connection external world that is provided with on the housing, and maintain an equal level with housing, fluorescent powder 73 full-fillings are in the pit that optical filter 72 lower surfaces or photoelectric sensor 73 upper surfaces are provided with, outer photoelectric sensor 74 is welded on the circuit board top, and amplifier 75 is welded on the circuit board below.When carrying out the ultraviolet ray monitoring, sunray passes lens 71 after optical filter 72 filters out ultraviolet ray, converted to visible light by fluorescent powder 73 absorptions, activation, the visible light of 74 pairs of fluorescent powder of photoelectric sensor, 73 generations detects, converts to electric signal then, and export proportional uitraviolet intensity signal and amplify for amplifier 75, send processor at last to and handle.Second heaves in the housing by outer toward interior battery 76, circuit board, processor (not showing among the figure) and the hummer (not showing among the figure) that is provided with supply monitoring device working power successively, wherein battery 76 is button cell (as CR1220), be located at the circuit board outside (behind head one side when wearing), processor, hummer are located at circuit board opposite side (a headward side when wearing), hummer is located at mirror leg end helps that the wearer is clear to hear the alarm prompting.The second bonnet 62B be provided with one can be by battery 76 circular hole 63, circular hole 63 inboards are provided with the annular clamp 64 that extends to center of circle direction, also are provided with two relative breach 65 on the clamp 64, battery cover 62C below is provided with the suitable fixture block 66 of shape size and breach 65.During installation, earlier battery 76 is put into the battery compartment that right mirror leg 62 ends are provided with from this circular hole 64, fixture block 66 covers battery cover 62C facing to breach 65 ground then, inwardly press gently then and rotation battery cover 62C, fixture block 66 and breach 65 are misplaced, fixture block 66 promptly fastens clamp 64, and battery cover 62C is fixed.When unloading battery 76,, can open battery cover 62C, take out battery 76 as long as rotation battery cover 62C makes fixture block 66 overlap with breach 65, very convenient.The groove internal fixation that right mirror leg 6 inboards are provided with has a lead 67, and lead 67 two ends are heaved housing and second and heaved the circuit board of establishing in the housing and be connected with first respectively, and monitoring device is able to conducting.Right mirror leg 62 ends second are established the control button 77 that circuit board connects in heaving and also being provided with on the housing, and control button 77 is mainly used in the functions such as setting of the startup of finishing monitoring device/close, skin type.
As shown in Figure 9, second of described right mirror leg 62 ends are heaved housing and are made up of the second base 62A, the second bonnet 62B, battery cover 62C, and the fixture block 66 that battery cover 62C is provided with fastens the clamp 65 that bonnet 62B circular hole 63 is provided with, and is fixed.Second heaves and is provided with hummer 78, processor 79 (as TM8706), circuit board, battery 76 in the housing from top to bottom successively, wherein hummer 78 is close to the second base 62A inside surface, and connect with conducting pitman 70 and circuit board, the wearer just can clearly hear the alarm information that hummer 78 is sent like this.The second bonnet 62B inboard also is provided with annular convex wall 68, in the battery compartment 69 that annular convex wall 68 and circuit board and battery cover 62C constitute, also be provided with the sheet metal that connects battery 76 positive poles/negative pole and circuit board in the battery compartment 69, battery cover 62C inboard is provided with shell fragment 60, after loading onto battery cover 62C, shell fragment 60 is pressed on the battery 76, and the positive pole/negative pole of battery 76 is fully contacted with sheet metal, prevent loose contact, working power is ensured.
Figure 10 is the structural representation with ultraviolet ray intelligent monitoring device embodiment two of the present invention, this monitoring device is glasses, include the preceding frame of band eyeglass, left mirror leg (not showing among the figure), right mirror leg 8, right mirror leg 8 front ends are provided with one and heave housing, by base 8A, bonnet 8B and battery cover 8C form, wherein, base 8A and mirror leg 8 other parts fuse, bonnet 8B and base 8A live methods such as (fix) the sticking or ultrasonic soldering modes of also available glue with screw retention, bonnet 8B is the same with battery cover 62C with the second bonnet 62B of battery cover 8C and last embodiment, respectively at circular hole that bonnet 8B is provided with 81 below the inboard and battery cover 8C (being the bottom side) be provided with clamp 82 to center of circle extension, fixture block 83 interfixes.This is heaved and is provided with lens 71 in the housing, optical filter 72, fluorescent powder 73, sensor 74, amplifying circuit, processor 78, battery 76 and hummer 79, and be located at the same with last embodiment of lens 71 heaved in the through hole that is provided with on the housing, and it is fair with housing, processor, hummer is located at circuit board bottom side (when wearing towards head one side), battery 76 is located at by circuit board, in the battery compartment that bonnet 8B and battery cover 8C form, heave also be provided with on the housing one with in establish the control button 77 that circuit board connects, control button 77 is mainly used in the startup of finishing monitoring device/close, functions such as the setting of skin type.
Figure 11, Figure 12 are the structural representations with ultraviolet ray intelligent monitoring device embodiment three mirror legs of the present invention, this embodiment and embodiment two are basic identical, mirror leg front end is heaved and is provided with the ultraviolet ray intelligent monitoring device in the housing and (includes lens 71, optical filter 72, fluorescent powder 73, sensor 74, amplifying circuit, processor 78, battery 76 and hummer 79, all do not show among the figure), heave housing and be made up of base 9A, bonnet 9B and battery cover 9C, base 9A and other parts of mirror leg fuse.Difference is: the inboard cavity 91 that forms of base 9A is provided with and is respectively applied for first recess 911, second recess 912 of laying battery 76, hummer 79, bonnet 9B one end is provided with circular hole 92, shape ringwise, circular hole 92 outer ends also are provided with projection 93, the bonnet 9B other end is provided with pin 94, screw 95, and base 9A relevant position also is provided with indent bayonet socket 96, key seat 97 and screw base 98.During assembling, earlier the projection 93 that bonnet 9B is provided with is stuck in the indent bayonet socket 96 that base 9A is provided with, and circular hole 92 inserts pin 94 in the key seats 97 then facing to first recess 911, pin screw 95, screw base 98 successively with screw at last, base 9A promptly engages with bonnet 9B steadily.Circular hole 92 inboards are provided with the clamp 921 of some evaginations, adjacent clamp in twos 921 is located on the two different surface levels and vertically dislocation mutually, clamp in twos 921 at interval then is positioned on the same surface level, battery cover 9C below (being the bottom side) then is provided with fixture block 99, the distance of fixture block 99 thickness and two surface levels is suitable, battery cover 9C is covered on circular hole 92 and rotate to an angle, fixture block 99 promptly blocks clamp 921, bonnet 9B and battery cover 9C promptly fix with each other, and 76 on battery places in first recess 911, bonnet 9B of base 9A and the battery compartment that battery cover 9C constitutes.Also be provided with a male part 90 on the bonnet 9B, male part 90 sizes are suitable with processor 78, and processor 78 places in the male part 90 just during assembling, and like this, the thickness of other parts of mirror leg can be designed to less relatively, and weight is also lighter relatively, wears more comfortable.
Certainly, described fluorescent powder 72 also can be light-accumulating powder, and described photoelectric sensor 73 also can be that UV sensor (is UV Sensor, as SG01S), or silicon chip (being Solar Cell), when adopting UV sensor, optical filter 72 all shouldn't with fluorescent powder 73, structure is simpler, and adopt silicon chip as sensor, and battery 76 is rechargeable batteries, silicon chip not only can produce the uitraviolet intensity signal like this, also can be rechargeable battery 76 and charge, environmental protection more.And at least one parts of forming described monitoring device can also be located on described left mirror leg or the described preceding frame.
Claims (25)
1. ultraviolet ray intelligent monitoring methods, it is characterized in that: the uitraviolet intensity signal that obtains was added up according to the time, and according to skin type, the uitraviolet intensity grade of add up uitraviolet intensity signal and setting is compared, judges, thereby whether decision sends corresponding alarm information.
2. ultraviolet ray intelligent monitoring methods according to claim 1 is characterized in that: after finishing decision and whether sending corresponding alarm information, and carry out also being provided with dormant state before obtaining the uitraviolet intensity signal next time.
3. ultraviolet ray intelligent monitoring methods according to claim 2 is characterized in that: enter dormant state, this dormancy time is 60 seconds.
4. ultraviolet ray intelligent monitoring methods according to claim 1, it is characterized in that: described skin type is provided with two types at least, described uitraviolet intensity grade to the described skin type of difference also is provided with two grades at least, and the alarm information of respective numbers is set.
5. ultraviolet ray intelligent monitoring methods according to claim 4, it is characterized in that: described skin type include at least the type of very easily burning, easily burn type, generally burn type, the difficult type of burning, be difficult to two kinds in type of burning and the extremely difficult type of burning, described uitraviolet intensity grade includes high level, two grades in very senior, senior, intermediate and rudimentary at least.
6. ultraviolet ray intelligent monitoring methods according to claim 5, it is characterized in that: described skin type comprise the type of very easily burning, easily burn type, generally burn type, difficulty burn type, be difficult to type of burning and the difficulty type of burning extremely, behind the uitraviolet intensity signal that adds up, when judging described skin type, carry out to judge:
The first step: judge skin type that the user sets whether " type of very easily burning ", " Yes " then carries out " judgement add up the strength grade that the uitraviolet intensity signal arrives ", and " No " then entered for second step;
Second step: judge skin type that the user sets whether " type of burning easily ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 3rd step;
The 3rd step: judge skin type that the user sets whether " type of generally burning ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 4th step;
The 4th step: judge skin type that the user sets whether " difficulty burn type ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 5th step;
The 5th step: judge whether the skin type that the user sets " is difficult to the type of burning ", " Yes " then carries out the strength grade of the arrival of uitraviolet intensity signal " judgement add up ", and " No " then entered for the 6th step;
The 6th step: the skin type that the user sets is " extremely difficulty burn type ", and carries out " judgement add up the strength grade that the uitraviolet intensity signal arrives ".
7. ultraviolet ray intelligent monitoring methods according to claim 5, it is characterized in that: described uitraviolet intensity grade comprises high level, very senior, senior, intermediate and rudimentary, after judging described skin type, during the described strength grade of judging that the described uitraviolet intensity signal that adds up arrives, carry out to judge:
The first step: judge whether the uitraviolet intensity signal that adds up has reached high level, " Yes " sends then that " the uitraviolet intensity signal that adds up is high, and your skin will extremely be burnt." the alarm information, " No " then entered for second step;
Second step: judge whether the uitraviolet intensity signal that adds up has reached promptly very senior, " Yes " sends then that " the uitraviolet intensity signal that adds up is very high, and your skin will be by third-degree burn." the alarm information, " No " then entered for the 3rd step;
The 3rd step: judge whether the uitraviolet intensity signal that adds up has reached senior, " Yes " sends then that " uitraviolet intensity that adds up is higher, and your skin will highly be burnt." the alarm information, " No " then entered for the 4th step;
The 4th step: judge whether the uitraviolet intensity signal that adds up has reached middle rank, " Yes " sends then that " the uitraviolet intensity signal that adds up is medium, and your skin will be burnt by moderate." the alarm information, " No " then entered for the 5th step;
The 5th step: judge whether the uitraviolet intensity signal that adds up has reached rudimentary, " Yes " sends then that " the uitraviolet intensity signal that adds up is lower, and your skin will slightly be burnt." the alarm information, " No " then returns " obtaining the uitraviolet intensity signal ".
8. ultraviolet ray intelligent monitoring methods according to claim 4, it is characterized in that: described skin type comprises eight types, every type is provided with four uitraviolet intensity grades, the uitraviolet intensity semaphore such as the following table of concrete described eight types and described four uitraviolet intensity grades:
。
9. ultraviolet ray intelligent monitoring methods according to claim 2 is characterized in that: described skin type includes four kinds of casting skin type, pale skin type, yellow skin type and red skin-types.
10. ultraviolet ray intelligent monitoring methods according to claim 2 is characterized in that: described alarm information be at least literal, icon, music, number of times do not wait " ticking " sound in a kind of.
11. one kind is adopted the intelligent monitoring device of any one described ultraviolet ray intelligent monitoring methods of claim 1 to 10 is glasses, include preceding frame, mirror leg, also be provided with sensor, amplifying circuit, processor and output unit, it is characterized in that: described mirror leg front end is provided with one and heaves housing, and described heaving in the housing is equipped with described sensor, described amplifying circuit, described processor, described output unit and battery with circuit board.
12. intelligent monitoring device according to claim 11 is characterized in that: the described housing of heaving is made up of base, bonnet and battery cover.
13. intelligent monitoring device according to claim 12 is characterized in that: the inboard cavity that forms of described base is provided with and is respectively applied for first recess, second recess of laying described battery, described output unit.
14. intelligent monitoring device according to claim 11, it is characterized in that: described mirror leg front end, end are respectively equipped with first and heave housing and second and heave housing, described first heaves and with circuit board described sensor, described amplifying circuit is installed in the housing, described second heaves and with circuit board described processor, described output unit and battery is installed in the housing, connects with lead between described two circuit boards.
15. intelligent monitoring device according to claim 14 is characterized in that: described first heaves housing is made up of first base, first bonnet, and described second heaves housing is made up of second base, second bonnet and battery cover.
16. intelligent monitoring device according to claim 15 is characterized in that: described first base, described second base are connected one with described other parts of mirror leg.
17. intelligent monitoring device according to claim 14 is characterized in that: described lead is located in the groove that described mirror inboard leg is provided with.
18. according to claim 12 or 15 described intelligent monitoring devices, it is characterized in that: described bonnet one end is provided with projection, the other end is provided with pin and screw, described base relevant position is provided with indent bayonet socket, key seat and screw base, during assembling, described projection is stuck in the described indent bayonet socket, and described pin inserts in the described key seat, and pins described screw, described screw base successively with screw.
19. intelligent monitoring device according to claim 18 is characterized in that: described battery cover inboard is provided with fixture block, is covered with circular hole after described, and described circular hole inboard is provided with clamp, and described fixture block fastens described clamp.
20. intelligent monitoring device according to claim 18 is characterized in that: be covered with a male part after described, its shape size is suitable with described processor, and described processor places in the described male part.
21. according to claim 11 or 14 described intelligent monitoring devices, it is characterized in that: described glasses also are provided with lens, described lens are positioned at described sensor top, and are located in the described through hole of heaving the connection external world that housing is provided with, and maintain an equal level with housing.
22. intelligent monitoring device according to claim 21 is characterized in that: described sensor is a UV sensor, and described battery is a button cell.
23. intelligent monitoring device according to claim 21 is characterized in that: described sensor is photoelectric sensor or silicon chip, and described battery is a button cell.
24. intelligent monitoring device according to claim 23, it is characterized in that: described glasses also include an optical filter and layer of fluorescent powder or light-accumulating powder, described optical filter is located at described lens below, described fluorescent powder or light-accumulating powder full-filling are at described optical filter lower surface, and perhaps full-filling is at described photoelectric sensor or silicon chip upper surface.
25. according to claim 11 or 14 described intelligent monitoring devices, it is characterized in that: described output unit is hummer or loudspeaker.
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| CNA2006101643615A CN101097261A (en) | 2006-06-28 | 2006-12-09 | Ultraviolet ray intelligent monitoring methods and intelligent monitoring plant thereof |
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| CN200610036332 | 2006-06-28 | ||
| CN200610036332.0 | 2006-06-28 | ||
| CNA2006101643615A CN101097261A (en) | 2006-06-28 | 2006-12-09 | Ultraviolet ray intelligent monitoring methods and intelligent monitoring plant thereof |
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| CN101097261A true CN101097261A (en) | 2008-01-02 |
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| CN102397573A (en) * | 2010-09-17 | 2012-04-04 | 上海广茂达光艺科技股份有限公司 | Online monitoring device for ultraviolet radiation dose of ultraviolet disinfecting device |
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| CN102397573A (en) * | 2010-09-17 | 2012-04-04 | 上海广茂达光艺科技股份有限公司 | Online monitoring device for ultraviolet radiation dose of ultraviolet disinfecting device |
| CN103512583A (en) * | 2013-07-30 | 2014-01-15 | 谢虹 | Electronic pedometer |
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| CN105824136A (en) * | 2016-04-27 | 2016-08-03 | 京东方科技集团股份有限公司 | Spectacles frame and spectacles |
| CN107436989A (en) * | 2016-05-26 | 2017-12-05 | 宇龙计算机通信科技(深圳)有限公司 | A kind of skin monitoring and reminding method and mobile terminal |
| CN110234302A (en) * | 2016-11-29 | 2019-09-13 | 首尔伟傲世有限公司 | Medical liquid bandage curing system and the liquid bandage method for curing for utilizing it |
| CN108318133A (en) * | 2017-01-16 | 2018-07-24 | 深圳智能表芯科技有限公司 | A kind of ultraviolet detection method and device for intelligent wearable device |
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