KR100619871B1 - Mobile communication device with measurement ultra violet rays and the method - Google Patents

Abstract

The present invention is to measure the disinfecting power of the ultraviolet lamp by using a mobile communication terminal, the display of information on the use and effect of the ultraviolet rays for each wavelength and ultraviolet measurement to selectively measure the ultraviolet index of sunlight depending on the mode The present invention relates to a mobile communication terminal and a method thereof.

The present invention includes a plurality of ultraviolet detectors for detecting ultraviolet rays having different wavelengths; A mode selection unit for selecting an ultraviolet measurement mode; An ultraviolet information database for storing information on uses and effects according to the types of ultraviolet rays; A driving unit for selectively driving one of the ultraviolet detection units according to the mode selected by the mode selection unit; An ultraviolet type determination unit which receives an output signal of the selectively driven ultraviolet detection unit and determines the type thereof; A usage / effect search unit for searching for the uses and effects according to the determined types of ultraviolet rays in the ultraviolet information database; It can be achieved by including a display unit for displaying the use and effect of the searched ultraviolet light in a predetermined format.

Description

Mobile communication terminal capable of UV measurement and its method {MOBILE COMMUNICATION DEVICE WITH MEASUREMENT ULTRA VIOLET RAYS AND THE METHOD}

1 is a block diagram showing the configuration of an ultraviolet measuring device of a mobile communication terminal according to the present invention.

Figure 2 is an exemplary view showing the configuration of a UV information database for storing data on the use and effect according to the type of ultraviolet light in accordance with the present invention.

3 is a flow chart showing a multi-ultraviolet measurement method using a mobile communication terminal according to the present invention.

* Description of the symbols for the main parts of the drawings *

101: first ultraviolet detection unit 102: second ultraviolet detection unit

103: third ultraviolet detection unit 104: mode selection unit

105: driving unit 106: ultraviolet light type determination unit

107: use / effect search unit 108: UV information database

109: display unit

The present invention relates to a mobile communication terminal capable of measuring ultraviolet rays and a method thereof, and in particular, to measure the germicidal power of an ultraviolet lamp by using a mobile communication terminal, or to display information on the use and effect of ultraviolet light for each wavelength and ultraviolet rays of sunlight. The present invention relates to a mobile communication terminal capable of measuring ultraviolet rays and to a method for selectively measuring an index according to a mode.

In general, ultraviolet rays (UV) are beneficial to promote the synthesis of vitamin D to suppress rickets and create an environment by bactericidal action, but have harmful shavings that cause dermatitis and skin cancer or lower immune function. have.

Ultraviolet rays are classified into long wavelength ultraviolet rays (UV-A: 320nm-400nm), medium wavelength ultraviolet rays (UV-B: 290nm-320nm), and residual wavelength ultraviolet rays (UV-C: 200nm-290nm), which are the most harmful short wavelength ultraviolet rays. (UV-C) is absorbed by the stratospheric ozone layer and does not reach the earth's surface.

In addition, since ultraviolet (UV-A), which is a long wavelength, has a strong skin penetration and causes tanning to darken the skin color, frequent exposure of the skin to the long wavelength ultraviolet rays promotes skin aging.

In addition, the medium-wave ultraviolet (UV-B) does not penetrate deeper than the long-wave ultraviolet (UV-A), but the energy is large and the dermal blood vessels expand, causing the skin to swell red, generate blisters, and cause sunburn. do.

In particular, UV germicidal activity is strong between 210 and 329 (nm), of which sterilization is the strongest at the wavelength of 250 to 260 (nm), and 253.7 (nm) ultraviolet rays emitted from the germicidal lamp are the strongest sterilization. This is roughly in line with the wavelength.

Such germicidal lamps are used in various fields such as water purifiers and toothbrush disinfection, and when the lamps are used for a long time, their sterilization power naturally decreases. After a predetermined period of time, there is a problem in that the lamp is turned on with little sterilizing power and consumes only electricity.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and it is possible to measure the sterilizing power of an ultraviolet lamp by using a mobile communication terminal, display information on the use and effect of ultraviolet light for each wavelength, and An object of the present invention is to provide a mobile communication terminal capable of measuring ultraviolet rays and to provide a method thereof.

The present invention for achieving the above object comprises a plurality of ultraviolet detection means for detecting ultraviolet rays of different wavelengths; Storage means for storing information on uses and effects according to the type of ultraviolet rays; Means for determining the type of ultraviolet light based on the wavelength information detected by the ultraviolet light detecting means; Retrieving means for retrieving uses and effects of the determined ultraviolet rays from the storage means; And display means for displaying the uses and effects of the retrieved ultraviolet rays in a predetermined format.

In addition, the present invention includes a plurality of ultraviolet detection unit for detecting ultraviolet rays of different wavelengths; A mode selection unit for selecting an ultraviolet measurement mode; An ultraviolet information database for storing information on uses and effects according to the types of ultraviolet rays; A driving unit for selectively driving one of the ultraviolet detection units according to the mode selected by the mode selection unit; An ultraviolet type determination unit which receives an output signal of the selectively driven ultraviolet detection unit and determines the type thereof; A usage / effect search unit for searching for the uses and effects according to the determined types of ultraviolet rays in the ultraviolet information database; And a display unit for displaying the use and effect of the retrieved ultraviolet rays in a predetermined format.

In addition, the present invention comprises the steps of detecting the ultraviolet light for each wavelength band when selecting the ultraviolet light measurement mode; Determining a type of ultraviolet rays according to the detected wavelength information; Searching for a use and an effect according to the determined kind of ultraviolet rays in an ultraviolet information database; And displaying the uses and effects of the retrieved ultraviolet rays in a predetermined format.

The present invention is configured to measure the ultraviolet (UV-A, UV-B, UV-C) of all wavelength bands using a mobile communication terminal, and displays information on the use and effect of ultraviolet light for each wavelength; In addition, it is an object of the present invention to provide an apparatus and a method for measuring only ultraviolet rays in a specific wavelength band by setting a mode so as to measure sterilizing power (actual life) of a germicidal lamp or to determine a normal operating state.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described.

1 is a block diagram showing the configuration of a multi-ultraviolet measurement apparatus of a mobile communication terminal according to the present invention, the first ultraviolet detection unit 101 for detecting long wavelength ultraviolet (UV-A: 320nm-400nm), and medium-wavelength ultraviolet A second ultraviolet ray detector 102 for detecting (UV-B: 290 nm-320 nm), a third ultraviolet ray detector 103 for detecting residual wavelength ultraviolet rays (UV-C: 200 nm-290 nm), and an ultraviolet ray measurement mode A mode selector 104 for selecting the driver, a driver 105 for selectively driving one of the ultraviolet detectors by the mode selected by the mode selector, and an output signal of the ultraviolet detector driven by the driver ( Ultraviolet ray type determination unit 106 for receiving the ultraviolet ray detection signal) and determining the type (wavelength), and usage / effect retrieval unit for retrieving the uses and effects of the ultraviolet rays determined by the ultraviolet ray type determination unit from the ultraviolet ray information database ( 107 And a display unit 109 for displaying the searched uses and effects of the ultraviolet rays in a predetermined format that can be easily understood by the user.

Here, when the first to third ultraviolet detectors 101 to 103 are configured using a sensor incorporating a wavelength range that can be measured, one or two ultraviolet sensors can be configured more simply.

Next, the mode selector 104 allows the user to select one of the first to third ultraviolet light detectors so as to detect only an ultraviolet signal of a desired wavelength, and the driver 105 receives the mode select signal. The ultraviolet detection unit is driven, and the ultraviolet ray detection signal detected at that time is applied to the ultraviolet ray type determination unit 106.

For example, if you do not know the wavelength range of the ultraviolet rays to be detected currently, select the type of ultraviolet rays judging mode to detect what kind of ultraviolet rays are output, and the operating state of the light source that outputs the ultraviolet rays of a specific wavelength range (e.g. In the case of determining whether to output ultraviolet rays in the wavelength range, the operation judgment mode is selected.

Accordingly, the ultraviolet light type determining unit 106 determines the type of the ultraviolet light of the wavelength range of the ultraviolet light, and uses the use / effect search unit 107 to determine the use and effect of the ultraviolet light according to the wavelength band. Search with reference to database 108.

Figure 2 is an exemplary view showing the configuration of a UV information database for storing data on the use and effect according to the type of ultraviolet light in accordance with the present invention, this information maps the actions and effects appearing in each wavelength band of ultraviolet rays, by ultraviolet wavelength band It is a database saved by doing

In addition, the database may further include information on whether ultraviolet rays in the wavelength range are harmful or harmless to the human body, and information on reactions occurring according to the exposure time to the human body.

When the wavelength band of the ultraviolet rays and the uses and effects of the ultraviolet rays are detected as described above, information about the corresponding ultraviolet rays is output to the display unit 109. For example, 'the wavelength of ultraviolet rays detected at present is 240 ~ 300 (nm), and it has a sterilizing effect.' Prints an information message so that the user knows.

3 is a flowchart illustrating a multi-ultraviolet measurement method using a mobile communication terminal according to the present invention. When a user sets a UV measurement mode by operating a menu (or a button) of the mobile communication terminal, the terminal detects a current ultraviolet wavelength. Then, the ultraviolet light information database is searched for the type of ultraviolet light currently detected and its use and effects.

That is, the UV information database stores information on the uses and effects according to the UV wavelength band, and the retrieved UV information may be displayed on a screen or output through voice.

Accordingly, in the present invention, the mobile communication terminal can be used not only for the UV index of sunlight but also for measuring devices for all ultraviolet wavelength bands, and not only for measuring, but also for information on characteristics and harmfulness of the measured UV rays. By letting the user know, it can be used for the purpose of medical measurement equipment such as blood pressure monitor, blood glucose meter.

As described above, the mobile communication terminal and method thereof capable of measuring ultraviolet light of the present invention measure the germicidal power of an ultraviolet lamp using the mobile communication terminal, display information on the use and effect of ultraviolet light for each wavelength, and ultraviolet light of sunlight. The effect is that the index can be selectively measured according to the mode.

Claims (10)

A plurality of ultraviolet detection means for respectively detecting ultraviolet rays having different wavelengths; Storage means for storing information on uses and effects according to the type of ultraviolet rays; Means for determining the type of ultraviolet light based on the wavelength information detected by the ultraviolet light detecting means; Retrieving means for retrieving uses and effects of the determined ultraviolet rays from the storage means; And a display means for displaying the use and effect of the retrieved ultraviolet rays in a predetermined format. A plurality of ultraviolet detectors for detecting ultraviolet rays having different wavelengths, respectively; A mode selection unit for selecting an ultraviolet measurement mode; An ultraviolet information database for storing information on uses and effects according to the types of ultraviolet rays; A driving unit for selectively driving one of the ultraviolet detection units according to the mode selected by the mode selection unit; An ultraviolet type determination unit which receives an output signal of the selectively driven ultraviolet detection unit and determines the type thereof; A usage / effect search unit for searching for the uses and effects according to the determined types of ultraviolet rays in the ultraviolet information database; And a display unit for displaying the searched uses and effects of the detected ultraviolet rays in a predetermined format. The method of claim 2, wherein the plurality of ultraviolet detection unit, UV measurement characterized in that it is configured to detect long wavelength ultraviolet rays (UV-A: 320 nm-400 nm), medium wavelength ultraviolet rays (UV-B: 290 nm-320 nm) and residual wavelength ultraviolet rays (UV-C: 200 nm-290 nm), respectively. This is possible mobile terminal. delete The method of claim 2, wherein the ultraviolet detection unit, Ultraviolet measurement characterized in that it detects the wavelength range of the ultraviolet rays according to the selection mode and determines the type, and determines the operating state of the light source that outputs the ultraviolet rays in the specific wavelength range (the actual lifespan by whether or not the ultraviolet rays are output in the correct wavelength range). This is possible mobile terminal. The method of claim 2, wherein the ultraviolet information database, A mobile communication terminal capable of measuring ultraviolet rays, wherein the actions and effects appearing in the ultraviolet rays of each wavelength band are mapped and stored for each ultraviolet wavelength band. The method of claim 6, wherein the UV information database further comprises information on whether the effect of ultraviolet rays in the wavelength range is harmful or harmless to the human body, and information on reactions that occur depending on the exposure time to the human body. Mobile communication terminal that can measure ultraviolet rays. Detecting ultraviolet light for each wavelength band when selecting an ultraviolet light measurement mode; Determining a type of ultraviolet rays according to the detected wavelength information; Searching for a use and an effect according to the determined kind of ultraviolet rays in an ultraviolet information database; And displaying the use and effect of the retrieved ultraviolet rays in a predetermined format. delete According to claim 8, Use and effect of the detected ultraviolet light, Ultraviolet measurement method of a mobile communication terminal characterized in that the display on the screen in the form of a text message, or output through the speaker in the form of a voice message.

Images