RU2155022C2 - Method for recording information to a data carrier - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves heating the data carrier so that its interaction with information source takes place during its cooling. It is suggested to define the data carrier heating temperature value in advance as one corresponding to the temperature at which the previous information is destroyed, and heat the data carrier to this temperature. Interaction of an information source with the data carrier is carried out by immersing the data carrier into a liquid being information source. The data carrier is optionally produced from natural wax, resin, their mixture, metal, precious or semiprecious stones as well as jewelry products from metal and/or precious and semiprecious stones. EFFECT: enhanced effectiveness of treatment; reduced distortion of bioenergy information. 12 cl

Description

 The invention relates to medicine and can be used to transfer information to a medium, for example, in the manufacture of testing tools for etiological diagnostics, bioactive pharmacological preparations, as well as medical items.

 A known method of transferring information according to the application EPO N 0454877, A 61 N 1/16. The method consists in the fact that a substance (organic or inorganic), which is a source of information, is placed in capsules, which are placed in a container with a liquid that acts as an information carrier.

 However, with this method, information is distorted during the transfer of information due to the weakening of the effect of the interaction of the source with the carrier due to the presence of a capsule in the information transfer chain.

 Also known is the method of Sarchuk V.N., chosen as the closest analogue, for fixing the electromagnetic wave characteristics of the tested objects, according to the USSR author's certificate N 1448438, A 61 H 39/00, 1988. The method consists in the fact that the test substance, which is a source of information, placed on a metal plate, on which a metal container is also installed, and the substance from which the information carrier is made is melted and poured into a metal container, and the information is recorded until solidification this substance, which is used as a chemically purified wax.

 The disadvantage of this method is the distortion of information in the process of transferring it to the medium due to the weakening of the effect of interaction between the source and the information carrier, which is due to the presence of a metal container and a metal plate in the information transfer chain.

 In addition, the need to heat the information carrier to the melting point of the substance from which the medium is made, limits the arsenal of substances that can be used as the information carrier. In addition, the use of chemically purified wax as a carrier substance leads to a decrease in the processability and economy of the method due to the need for chemical cleaning of the wax.

 The invention is aimed at solving the problem of reducing information distortion in the process of transferring and expanding the arsenal of tools used as a storage medium.

 The essence of the invention lies in the fact that in the method of transferring information to a medium, namely, that the information medium is heated, and while the medium is cooling, it interacts with the information source, it is proposed to preliminarily determine the heating temperature of the information medium at which the previous information is destroyed, and heat the storage medium to the aforementioned temperature, and the interaction of the information source with the storage medium is proposed to carry out By immersing the latter in a substance in a liquid state, which is a source of information.

 The storage medium can be made of at least two different components, with each of the components determining the value of the heating temperature at which the previous information is destroyed, and choosing the largest of the values to which the storage medium is heated.

 The storage medium may be made of natural wax, or of natural resin, or of a mixture of natural waxes and / or resins.

 The storage medium may be made of amber, or of metals, or of precious stones, or of semi-precious stones, or of metals and precious stones, or metals and semi-precious stones, while the storage medium may be made in the form of jewelry.

 In the proposed method for transferring information to a medium by interacting with an information source with a medium by immersing the latter in a liquid substance, which is a source of information, it is possible to directly contact the entire surface area of the medium with the information source, which allows to reduce information distortions during its transfer.

 Heating a carrier substance to a temperature at which the previous information is destroyed makes it possible to expand the arsenal of means used as a carrier, since this temperature is usually relatively low and heating the carrier to this temperature does not lead to its destruction. In addition, heating the carrier to a temperature at which the previous information is destroyed, helps to improve the manufacturability and efficiency of the method.

 The implementation of the media information from natural waxes compared to refined also helps to increase the efficiency of the method.

 The implementation of the storage medium from natural waxes, resins and mixtures thereof, from metals, precious or semiprecious stones, or a combination thereof, as well as the implementation of the storage medium in the form of jewelry expands the arsenal of means used as storage media.

 The method of transferring information is as follows.

A source of information made of a substance in a liquid state is placed in a vessel of any non-conductive material, such as glass. As a source of information can be used as a liquid, and a suspension or suspension. So, for example, water or a suspension prepared on a water-alcohol-polysaccharide basis from propolis and medicinal raw materials, as well as any medicinal products in liquid form, can be used that have been previously exposed to bioactive energy according to one of the known methods. The choice of the substance used as a source of information depends on what bioenergetic properties the information carrier should have, and the choice of the carrier substance is determined by the area of its application. For example, in the manufacture of testing aids for etiological diagnostics or bioactive pharmacological preparations, it is advisable to use natural waxes, resins or mixtures thereof, and in the manufacture of medical items - metals, precious or semiprecious stones, as well as jewelry from them. The information carrier selected in this way, for example natural wax, is heated to the temperature at which the previous information is destroyed. The temperature at which the previous information is destroyed is usually significantly lower than the melting point of the substance and in each case is determined empirically, for example, using the R. Voll method of reading bioenergy information. So, for example, for natural wax, the temperature at which the previous information is destroyed is 55 ^o C. In the case when the storage medium is made of at least two different components, the value of the heating temperature at which the previous information is destroyed is determined for each component , and select the highest value to which the storage medium is heated. Heated to the aforementioned temperature value, the information carrier is placed until it is completely immersed in a vessel with a liquid, which is a source of information. During the cooling of the medium (1-3 minutes), bioenergy information is recorded on the medium. Moreover, the entire surface area of the carrier is in direct contact with the substance from which the information source is made, since there are no intermediate links in the information transfer circuit. In addition, the information source substance also plays the role of an external interference screen, which also helps to reduce the distortion of bioenergy information during its recording. After the carrier cools down, it is removed from the vessel with the liquid and the process of transferring information is completed.

 Thus, the proposed method of information transfer allows you to significantly expand the arsenal of tools used as information carriers, and also allows to reduce the distortion of information by 2-3 times when transferring it compared to transferring information from source to medium through a communication line, which is a metal plate.

Claims (12)

 1. The method of transferring information to a medium, namely, that the information carrier is heated, and while the medium is cooling, it interacts with the information source, characterized in that the value of the heating temperature of the information medium at which the previous information is destroyed is pre-determined, and the medium is heated information to the aforementioned temperature value, and the interaction of the information source with the information carrier is carried out by immersing the latter in liquid A substance is a source of information.  2. The method according to claim 1, characterized in that the storage medium is made of at least two different components, wherein for each of the components, the value of the heating temperature at which the previous information is destroyed is determined, and the largest value to which the medium is heated is selected information.  3. The method according to claim 1, characterized in that the storage medium is made of natural wax.  4. The method according to claim 1, characterized in that the storage medium is made of natural resin.  5. The method according to claim 2, characterized in that the storage medium is made of a mixture of natural waxes and / or resins.  6. The method according to claim 1, characterized in that the storage medium is made of amber.  7. The method according to claims 1 and 2, characterized in that the storage medium is made of metals.  8. The method according to claims 1 and 2, characterized in that the storage medium is made of precious stones.  9. The method according to claims 1 and 2, characterized in that the storage medium is made of semiprecious stones.  10. The method according to claim 2, characterized in that the storage medium is made of metals and precious stones.  11. The method according to claim 2, characterized in that the storage medium is made of metals and semiprecious stones.  12. The method according to PP.6 to 11, characterized in that the storage medium is made in the form of jewelry.