CH331022A - Radiation battery - Google Patents

Description

  

  Radiation battery Since it is important with the known radiation batteries, the largest possible surface z. B. to expose the sun's rays, he see technical difficulties when in a hailstorm or other storm ter as well as in rain or snowfall, the area should be protected from destruction or damage. Cregenstand of the present invention is therefore a radiation battery whose surface to be exposed to radiation, which contains the radiation-sensitive elements in the form of plates, is designed in this way. is that it can be built up or dismantled quickly. and can be transported in the collapsed state.



  In the following, a Ausführungsbei game of the subject invention is explained in more detail: The radiation battery consists of platelets made of pure silicon of, for example, about 10 X 2 an area and a small thickness of, for example, less than 3 mm. On one of the side surfaces of 10 X 2 cm there is an extremely thin layer. applied by boron, deposited or vaporized. Since silicon occurs in various allotropic modifications, it is necessary that it is an electrically conductive modification.

   Boron, which occurs in various allo-tropical modifications, must also be electrically conductive.



  These plates are arranged in a suitable manner on a balloon material surface and fastened and combined in series or parallel connection to form an electric battery. Instead of balloon fabric, another fabric, paper or plastic can be used. There is always a small space left between the individual platelets so that the fabric surface can be rolled up, folded, folded or broken down into individual surfaces.



  The back of the material can also be treated with luminous, fluorescent, phosphorescent or radioactive substances in such a way that when the surface is rolled up, folded, folded or dismantled, the radiant back of one part is placed on the front surface of the other comes to rest and an electric current is generated in the battery even without solar radiation. The fabric surface can have the shape of a circle, carpet, balloon, airship, sail, kite or wing or form a rotor surface, such as

   B. a Flettner rotor, so that at the same time the power of the win or the warm or hot air. can be used from.



  The fabric surface can also be in the shape of a tent, a car cover, a vehicle, a ship, a raft or an advertising or other dummy. Several surfaces can also be combined or connected with one another in an appropriate manner. The partial areas of the radiation battery can also be connected to one another by means of strips in the manner of slat blinds.



  An accumulator battery can be connected to the battery, which is charged during the periods of irradiation.



  Instead of being used for sun rays, the battery can also be built for heat or cosmic rays and utilize one or more types of rays.



  The radiation battery can also be formed from plates or elements that consist of a metal foil or a piece of sheet metal on which first a silicon layer and then a boron layer is applied, deposited or vapor-deposited. So that the metal layer does not oxidize, it can consist of 4nticorodal, Aliunan (both registered trademarks) or a surface-treated metal. The purpose of the metal layer is. to prevent or at least limit a break in the silicon-boron layer.

   But it should also serve as a pole of a plate element, the other pole then being formed by the boron layer. To increase the conductivity, a thin metal layer can be vapor-deposited, deposited or otherwise applied or placed on the boron layer, which if necessary also has openings or holes for the entry of solar or other radiation.

 

Claims (1)

PATENT CLAIM Radiation battery, characterized in that its surface to be exposed to radiation, which contains the radiation-sensitive elements in the form of platelets, is designed so that it can be quickly built up or dismantled and transported in the collapsed state. LTN TERAN SPR.CCHE 1. Radiation battery according to patent claim, characterized by a fabric surface (cotton, wool, synthetic fibers, glass or other fibers, silk, paper or plastic) on which the plate elements are attached. 2. Radiation battery according to claim and dependent claim 1, characterized by plate elements made of silicon and boron. 3. Radiation battery according to claim and dependent claim 1, characterized by plate elements which consist of a metal layer and a silicon layer which has a thin boron layer. 4th Radiation battery according to claim and dependent claim 1, characterized by platelet elements, consisting of a strength-giving metal layer, a silicon layer and a thin boron layer which at least partially has a thin, electrically conductive metal layer. 5. Radiation battery according to Patentanspi-izch, characterized by at least one surface that is also used for advertising purposes. 6. Radiation battery according to claim, characterized by partial areas which are connected to one another by means of strips in the manner of slatted blinds.