CH678228A5 - - Google Patents

Abstract

According to the process, the radiation value is found and converted into a light protection factor by entering personal data, i.e. age, skin and hair colour and radiation time, in a microprocessor. The device used for this purpose has a current source (8) for operation, a light radiation meter (2), a microprocessor and operable means (3, 4, 5, 6) for entering personal data, i.e. age, skin and hair colour and radiation time.

Description

       

  
 



  With the method and the device of the object of registration, the aim is the optimal or to achieve proper protection of the skin against the effects of radiation, especially light and sun rays. One measures the light rays UV in the nanometer (nm) range like sunlight, artificial light from solariums or the UV rays of the home sun. The risk of sunburn and light damage to the skin are well known.



  As is well known, the first signs appear after harmful radiation exposure, namely through more or less severe reddening of the skin with violent itching and burning of the skin, in severe cases even burns with blistering. Many people experience after-effects such as rashes or sun allergies. As a rule, the chemical exposure to ultraviolet rays is too intense and is caused by exposure to the sun for too long. With particularly intense radiation, e.g. on glaciers, often a few minutes are enough to cause skin damage.



  The light intensity is different in different climatic zones, such as in snowy areas. Increased light effects are also caused by reflections from the lake water. The harmful consequences arise from the UV rays, which are not recognizable to the human eye.



  The reaction of the human skin is not uniform. The radiation effects e.g. in northern and southern countries diverge and deviations also cause the skin colors from dark to light. The hair color also influences the light and. Exposure to radiation. The age of humans also plays an important role in terms of lighting and radiation technology.



  The length of time during which the person or their skin is exposed to the radiation is of maximum importance.



  The object of the method and device according to the invention is to record all of the above-mentioned factors, to convert them into a value by calculation and to display them as a digital value "protection factor".



  According to the invention, this object is achieved by the method steps mentioned in the characterizing part of patent claim 1. An example of training the device to carry out the method is the subject of claim 4.



  On the accompanying drawing, the device for performing the method is shown schematically in one figure.



  The digital value "protection factor" is on a scale of 0-24 and is identical to the norms of sun creams on the market, \ l emulsions up to zinc paste, which are classified with the values 0-24.



  The decisive factor for determining the appropriate "protection factor" is the mathematical combination:
 
   1. the measured light value
   2. Enter the skin type on the keyboard
   3. Enter the hair color on the keyboard
   4. Enter the age on the keyboard
   5. Enter the usage time on the keyboard
 



  converted to a standard value 0-24 are advised in the LCD display 7.



  The exact value for the LCD display can thus be found in a relatively simple manner and the suitable protective agent can be selected.



  The relevant program or process is essential. the software. When using, you first measure the radiation value of the prevailing incidence of light with a measuring cell.



  The radiation value determined by measuring cell 2 is converted in the processor of the processor into digital values which correspond to one of the sun protection factors 0-24. The determined sun protection factor appears on the LCD display 7.



  The user's personal data is entered via the keyboard:
 Age (2)
 Skin type (3)
 Hair color (4)
 Duration (5)



  Each of the above-mentioned positions 2-5 is calculated using a multiplier stored in the processor against the multiplicant “radiation value” and the result is shown on the LCD display 7 as a sun protection factor.



  The personal data entered at the push of a button is saved in the processor. When changing the light or Exposure to radiation - only this can change temporarily - is appropriately signaled by a connected acoustic utensil that a new sun protection factor has been determined. The storage of personal data in the processor is retained for later use.



  The device used to carry out the method expediently has the design of a pocket calculator and in its housing 1 there is a conventional, not specially drawn microprocessor with conventional hardware. On the front of the housing are a measuring cell 2 such as silicon cell for natural and artificial light radiation, sensor buttons 3 for age information, sensor buttons 4 for skin colors, sensor buttons 5 for hair colors, sensor buttons 6 for service life and an LCD display 7 (liquid crystal display), which are connected to the circuit of the microprocessor. Solar cells 8 or mini batteries located on the housing 1 of the device serve as the current source for operation. The personal data can also be entered into the processor simply by touching the actuators.



   The optimal protection factor is determined as follows: Measuring cell 2 measures the radiation value of the incident light, which is digitized in the microprocessor and converted into the radiation protection factor. When the sensor buttons 3, 4, 5, 6 are actuated, the personal data are entered, which then make the sun protection factor to be used appear on the LCD display 7.


    

Claims (7)

      1. A method for determining the optimal protection factor 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 a microprocessor which determines the application. converts individual sun protection factor, which is identical to the standards of commercially available protective agents and displays this value in an LCD. 2. The method according to claim 1, characterized in that the user's personal data, the age, skin color, hair color and the duration of exposure to radiation are introduced into the microprocessor and the overall result is converted into the sun protection factor of 0-24, which with the commercial standards of protective agents is identical. 3rd Method according to claims 1 and 2, characterized in that the determined sun protection factor is stored in the microprocessor for later use on request or independently. 4. Device for performing the method according to claims 1 and 2, characterized in that the same a current source (8) for operation, a light beam knife (2), a microprocessor and means (3, 4, 5, 6) for introduction includes personal data. 5. Device according to claim 4, characterized in that the same is designed to be portable, a microprocessor, a light beam meter (2), an LCD indicator (7) and actuators (3, 4, 5, 6), which are divided into task groups , includes. 6. Apparatus according to claim 5, characterized in that the actuators (3, 4, 5, 6) are designed to react to pressure or touch. 7.  Device according to claims 4 and 5, characterized in that solar cells (8) are provided as a power source for operation.       1. A method for determining the optimal protection factor 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 a microprocessor which determines the application. converts individual sun protection factor, which is identical to the standards of commercially available protective agents and displays this value in an LCD. 2. The method according to claim 1, characterized in that the user's personal data, the age, skin color, hair color and the duration of exposure to radiation are introduced into the microprocessor and the overall result is converted into the sun protection factor of 0-24, which with the commercial standards of protective agents is identical. 3rd Method according to claims 1 and 2, characterized in that the determined sun protection factor is stored in the microprocessor for later use on request or independently. 4. Device for performing the method according to claims 1 and 2, characterized in that the same a current source (8) for operation, a light beam knife (2), a microprocessor and means (3, 4, 5, 6) for introduction includes personal data. 5. Device according to claim 4, characterized in that the same is designed to be portable, a microprocessor, a light beam meter (2), an LCD indicator (7) and actuators (3, 4, 5, 6), which are divided into task groups , includes. 6. Apparatus according to claim 5, characterized in that the actuators (3, 4, 5, 6) are designed to react to pressure or touch. 7.  Device according to claims 4 and 5, characterized in that solar cells (8) are provided as a power source for operation.