RU2155167C2 - Protective screen - Google Patents

Abstract

FIELD: means of protection of biological objects from harmful irradiations of different nature. SUBSTANCE: protective screen is made up of transparent glass containing components which absorb harmful irradiation. Amounts of said components in 10 kg of glass are as follows, g: elementary selenium or any selenium compound, 10 calculated for pure selenium; powdery ginseng ground oil cake, 1; elementary calcium or any calcium compound calculated for pure calcium, 3; elementary magnesium or any magnesium compound calculated for pure magnesium 1.5; elementary potassium or any potassium compound calculated for pure potassium, 0.5, in manufacturing glass, use is made of sand prewashed in highly mineralized water with maximum content of manganese and magnesium salts. EFFECT: increased absorption of irradiations of various types which are harmful for biological object.

Description

 The invention relates to means for protecting biological objects from various harmful radiations and, in particular, can be used as protective shields for protecting biological objects from harmful radiations of cathode ray tubes and displays.

 Currently, protective shields made from photochronous glass are used to protect against harmful radiation, which includes components that partially absorb various kinds of radiation [1].

 The known protective screen is highly sensitive only to pulsed radiation and has a degree of dimming, therefore, a screen of this type is inconvenient to use as displays.

 Known protective screen made of glass containing silicon dioxide, boron oxide, aluminum oxides and zinc. This screen absorbs harmful ultraviolet radiation, but the absorption wavelength of the radiation is small [2].

 As a prototype, a protective screen made of glass having a neutral color and absorbing infrared and ultraviolet radiation [3] was chosen.

 As a radiation absorber, glass contains one or more components, such as selenium oxide and cobalt oxide, copper oxide, manganese and tin.

 Such a screen is characterized by a transmission of ultraviolet radiation of less than 25%. However, this degree of transmission of radiation is not so safe for the environment, in particular for the user - the person who works behind the computer display.

 The technical result of the invention is to increase the degree of absorption of various types of radiation harmful to the biological object.

 This is achieved by the fact that elemental selenium or any selenium compound at the rate of 10 g of elemental selenium or 10 g of pure selenium in the compound per 10 kg of mass are introduced into the protective shield made of transparent glass with components that absorb various types of radiation. glass, powdered meal from plants of the Araliaceae family (for example, ginseng), at the rate of 1 g per 10 kg of glass mass, elemental calcium or any calcium compound at the rate of 3 g of elemental calcium or 3 g of pure calcium, elemental magnesium per 10 kg of glass mass, elemental magnesium or any magnesium compound at the rate of 1.5 g of elemental magnesium or 1.5 g of pure magnesium in the compound per 10 kg of glass mass, and elemental potassium or any potassium compound at the rate of 0 , 5 g of elemental potassium or 0.5 g of pure potassium in the compound per 10 kg of glass mass, and in the manufacture of glass, sand is used, washed in highly mineralized water with a maximum content of manganese and magnesium salts, and the components are added to the indicated sequence elnosti with constant stirring glass mass 5 minutes before the termination of its boiling point.

 The glass manufacturing process is carried out on standard equipment using standard technology for producing transparent glass.

 The indicated chemical elements and meal from biologically active substances added to the glass mass at the stage of cooking change the properties of the crystal structure of the glass. These substances line up throughout the entire glass fragment of the screen, creating a mosaic network in the crystal lattice of the glass that traps harmful radiation. A light beam emitted, for example, by an electron beam tube, brings atomic selenium into an altered state, which is expressed in its small-amplitude oscillations in a kind of "depreciation puddle" or depreciation cell created from a complex complex of crystalline, mineral and plant composition.

Anomalous selenium in this situation captures harmful radiation, preventing them from penetrating the screen. In this case, two effects are observed:
the first is the effect of depreciation and damping of radiation by stopping their further vibrational movement when superimposed on small-amplitude oscillations of the depreciation cell;
the second is the effect of slipping of individual fragments of the radiating factor along biocrystalline threads connecting the entire frame of the screen into a single whole.

 As a “sponge” absorbs water in itself, so harmful radiation is held in the thickness of the glass and is gradually quenched by the infinite distance that they travel in the screen along biological threads that connect this entire complex frame into a closed whole. This radiation often does not even reach the outer layers of this peculiar “sponge”, but is extinguished throughout the entire glass thickness. In other words, a kind of sponge inside the glass or glass in the form of a "sponge".

 Tests of the invention showed that when used it reduces the level of harmful radiation by 95%.

References
1. Patent of Russia N 2062756, cl. C 03 C 4/06, 1996.

 2. Application PCT / WO 94/07805, cl. C 03 C 3/095, 1994.

 3. Application PCT / WO 94/18135, cl. C 03 C 4/08, 1/01, 1994 (prototype).

Claims (1)

 A protective screen made of transparent glass with components that absorb harmful radiation, characterized in that the components include elemental selenium or any selenium compound at the rate of 10 g of elemental selenium or 10 g of pure selenium in the compound per 10 kg of glass weight, powder meal ginseng at the rate of 1 g per 10 kg of glass mass, elemental calcium or any calcium compound at the rate of 3 g of elemental calcium or 3 g of pure calcium in the compound, per 10 kg of glass mass, elemental magnesium or any magnesium compound at the rate of 1.5 g of elemental magnesium or 1.5 g of pure magnesium in the compound per 10 kg of glass, elemental potassium or any potassium compound in the compound, at the rate of 0.5 g of elemental potassium or 0, 5 g of pure potassium in the compound, per 10 kg of glass mass, and in the manufacture of glass, sand is used, previously washed in highly mineralized water with a maximum content of manganese and magnesium salts, and the components are added in the indicated sequence 5 minutes before stopping boiling mass of glass with constant stirring.