WO1990009812A1

WO1990009812A1 - Process for measuring the optimal ultraviolet radiation for human skin

Info

Publication number: WO1990009812A1
Application number: PCT/CH1990/000051
Authority: WO
Inventors: Peter Suremann
Original assignee: Peter Suremann
Priority date: 1989-03-02
Filing date: 1990-03-01
Publication date: 1990-09-07
Also published as: DE4090311D2; CH678921A5

Abstract

Process for determining the appropriate duration of radiation for human skin by measuring radiation values, entering them together with personal data into a microprocessor and determining the optimal duration. A device for implementing the process comprises an operating current source (11), a measurement cell (2), a microprocessor, operating means (3, 4, 5) for entering personal data, namely age, skin colour and hair colour, and a visual display unit in the form of a liquid crystal display (7). The device is also equipped with a signal generator or timer (9, 6).

Description

METHOD FOR DETERMINING THE OPTIMAL ULTRAVIOLET RADIATIONS FOR HUMAN SKIN.

As is well known, the first disadvantageous signs appear after too intense ultraviolet radiation, and this is more or less strong depending on the duration of the radiation. The consequences are reddening of the skin with itching or burning skin, in severe cases even burns with blistering. In many people there are often annoying after-effects, such as rashes or sun allergies, which are usually caused by excessive radiation. Ointments and / or oils are preferably used as protective agents against UV rays. These ensure limited protection, which largely depends on the thickness of the application and the nature of the protective agents and also on the duration of the irradiation. The protection factor is usually noted on the conventional protective agents, but the radiation intensity is mostly different and cannot be precisely determined in advance. Harmful consequences mostly arise due to the too long duration of UV radiation. The reaction of human skin to the effects of radiation is not uniform and differs significantly. Large deviations in the effect of light and radiation cause the skin color from dark to light as well as the hair colors. The age of the people resp. their skin is 5 of great importance in terms of light and radiation technology.

The present invention relates to a method for determining the optimal ultraviolet irradiation time for human skin and a device for carrying it out. The object of the invention is that UV radiation occurs To record factors, to convert them arithmetically into a value which determines and displays the appropriate optimal time period. According to the invention, this object is achieved by the method steps mentioned in the characterizing part of patent claim 1. An example of an embodiment of the device for carrying out the method is the subject of claim 5. On the accompanying drawing, the device for carrying out the method is shown schematically in a figure.

Decisive for determining the duration of the permitted exposure to light:

1. the measured light value

2. the skin type (to be entered on the keyboard)

3. the hair color ("" "" ")

4. the age (""""") This determines the usage time and displays it on the LCD display 7 with simultaneous programming of an acoustic or optical signal with the switching time in the connected solarium 12. What is important in the process is the associated program or . the software. When you use it the first measures with a measuring cell 2 the radiation level of the prevailing light incidence. of the measuring cell 2 detected radiation value ver _¬ is converted in the computer of the microprocessor in digital _¬ values that are stored, üebsr the keyboard you are personal User data, namely age 2, skin type 3 and hair color.

Each of the aforementioned data inputted from 2 to 4 ver _¬ is expected ^j sit a gespeicher in the microprocessor _¬ th multiplier against the Multipli antεn "Radiation value" and as a result obtains the appropriate length of time averaging the Bestrah _¬, which in the LCD 7, is analogous to the acoustic or programmed the optical signal as well as the firing time. In the LCD display 7, the number 13 is in large format and this shows the optimal resp. appropriate radiation duration in minutes.

The aforementioned storage of personal data in the _{microprocessor is} retained for later use.

The device used to carry out the method has the design of a portable pocket calculator and in its housing 1 there is a conventional microprocessor, not specially drawn, with associated hardware. There is a conventional one on the front of the housing 1

Measuring cell 2 for natural and artificial radiation, five sensor buttons 3 for ages from less than 10 to over OK, four sensor buttons for skin color, five sensor buttons 5 for hair colors, and an LCD display 7 with integrated or external acoustic or optical signal transmitter or Timer 6, which is connected through the connecting line 8 to the circuit of the microprocessor. Solar cells 11 or mini batteries located on the housing 1 of the device serve as the current source for operation. The personal data are entered into the microprocessor by simply touching or pressing the corresponding actuation keys 3, H and 5.

The optimal correct time protection factor is determined as follows:

The measuring value 2 is used to measure the radiation value, the radiation value of the incidence of light from the UV rays, which is digitized and stored in the microprocessor, which is not particularly shown and is arranged in the housing 1.

• By pressing the sensor buttons 3, * and 5, the personal data, namely age, skin color and hair color are entered and added to it. The result is the time factor, ie the appropriate irradiation time in the LCD display 7 - il ¬

advises and at the same time the signal is sent to the timer 6 or a time switch on the solarium 12, which is not specially drawn. Instead of the timer 6, another conventional, acoustic, dashed signal generator 9 can be provided with a whistle or gong tone. The acoustic signal transmitter 9 can also be replaced by a small optical signal transmitter, such as a signal lamp that is constant or flashing when switched on.

Claims

1. A method for determining the optimal protection factor (time) for human skin in the case of light and solar radiation, characterized in that the radiation value is measured in a light beam meter (2), introduced into a microprocessor with the user's personal data and in converts an individual time factor that determines the application, during which the user may be exposed to UV radiation without commercially available protective agents. 2. The method according to claim 1, characterized in that the user's personal data is the age, skin color and hair color of the microprocessor and the result of the latter is used to determine the radiation duration.

3. The method according to claims 1 and 2, characterized ge indicates that the determined individual time factor is displayed in an LCD (7) and the former by an acoustic or optical signal transmitter (9) or. Notified timer (6). . Method according to claim 1, characterized in that the determined time factor is stored in the microprocessor for later use on request.

5. An apparatus for performing the method according to claims 1 to 4, characterized in that the same a power source (11) for operation, a light beam meter (2), a microprocessor and means (3,, 5) for introducing the personal Data includes.

6. Device according to claim 5, characterized in that a solarium (12) is connected to the same through a line (10), the latter being able to be switched off by the microprocessor. 7. Device according to claims 5 and 6, characterized gekenn¬ characterized in that it is designed to be portable, a microprocessor, a light beam meter (2), an LCD display (7), signal transmitter (6, 9) and actuators (3rd , 4,5), which are divided into task groups.

8. Device according to claims 5 to 7, characterized in that a timer (6) is provided, by means of which the time factor, which determines the duration of the irradiation, can be displayed.

9. Device according to claims 6 to 8, characterized gekenn¬ characterized in that the actuators (3, ^, 5) on pressure or

Touch trained are trained.

10. Device according to claims 5 to 8, characterized gekenn¬ characterized in that batteries or solar cells (11) are provided as the current source in the housing (1).