UA73750C2 - Method of qualitative improvement of tobacco goods - Google Patents

Abstract

The method belongs to the field of electronic science and is applied to the field of the manufacture of products deriving from the tobacco plant, such as cigarettes, cigars, pipe tobacco, tobacco in general, and achieves their qualitative improvement. The qualitative improvement is achieved with the pulsatory emission of electromagnetic waves (6) towards the tobacco products, which are produced by electromechanical or electronic devices (3), are pre programmed, cover wide ranges of wavelengths from 1 mm to 11,000 Km, together with their harmonic frequencies, which are produced by the device and which are emitted either at all wavelengths from l mm to 11,000 Km, or at one or more parts of particular areas, with controlled potency, controlled application time and controlled application result. It is applied in industries, manufacturing and commercial enterprises of final or not tobacco products, which are either at the processing stage, or after the completion of their manufacture, or during their storage, regardless of the way or the materials they are packaged with.

Description

Description of the invention

The invention relates to the industrial production of tobacco products - cigarettes, cigars, pipe tobacco and 2 other varieties. In particular, the invention relates to improving the quality of tobacco products and can be applied in the processing of tobacco and/or products made from it using electronics.

With the massive increase in cigarette production after World War II, mortality from lung cancer, mouth and throat cancer, cardiovascular disease, and other deadly diseases increased significantly.

Soon this fact was associated with the use of tobacco products, especially cigarettes, which have a high content of 70 toxic substances in both solid and gaseous state of tobacco. In the solid state, before combustion, tobacco contains a large amount of poisonous substances, for example, nicotine and resins. In the gaseous state during combustion, even more compounds harmful to the human body are formed.

Various industrial means are used to contain the toxic substances contained and produced by the use of these products, for example, anti-tar and anti-nicotine filters 12 disposable and reusable, ordinary cigarette filters, and more recently biological filters, which currently provide the greatest degree of protection against toxic compounds contained in the solid and gaseous phases of tobacco. This is the known state of the art.

A known method of improving the quality of tobacco products by irradiation with electromagnetic waves (US Patent No. 3699976 dated 24.10.1972. According to the known method, irradiation can be carried out with both microwaves with a constant amplitude and pulsating electromagnetic waves. This method is aimed at the insecticidal treatment of tobacco leaf pests and their eggs , according to which the tobacco leaf is first treated with an infrared beam for primary heating of the leaf, the heated tobacco leaf is passed through a microwave absorption device to a microwave oven, the tobacco leaf is heated to a temperature of about 602 in the microwave oven by being irradiated with electromagnetic waves at a frequency of at least 29 MHz, the tobacco leaf is removed from the specified microwave oven through the second microwave absorption device (He) and obtain a tobacco leaf in which the insects living in the leaf and their eggs are destroyed.

The disadvantage of the known method is that it is aimed only at the insecticidal treatment of tobacco leaf pests and their eggs, and not at the harmful substances in solid tobacco.

The task of the invention is to create a method that would be able to act on the most harmful substances in solid tobacco, limiting their toxic effect, even before the product is used, that is, before it reaches the final consumer, and thus reduce the harmful effects of smoking by improving the quality of tobacco products.

The task is solved by the fact that in the method of improving the quality of tobacco products by - irradiation with electromagnetic waves, according to the invention, the irradiation is carried out intermittently, with "9 periodic breaks and/or a change in the output power from maximum to zero when applying any

From the form of pulses in an unlimited range of frequencies, and using a defined and/or undefined set of electromagnetic radiated waves with different frequency values, making independent and/or artificial radiation.

Each independent emission of electromagnetic waves with its own frequency values and/or artificial "radiation as a whole, consisting of a set of electromagnetic wave emissions with different C 70 values of frequencies, operates with a symmetrical and/or asymmetrical duration of periods of action and interruption for s of any composition symmetric and/or asymmetric durations of periods of action and interruption and for any "of the pulse shape with a periodic change in the output power of each independent radiation and/or artificial radiation as a whole.

The duration of interruption of each independent radiation and/or artificial radiation as a whole -I 45 can be any value from 1 picosecond to 20 seconds, preferably from 1 microsecond to 2 seconds, and that the duration of work of each independent radiation and/or artificial radiation as a whole can be any value from 1 femtosecond to 5 seconds, preferably from 1 microsecond to 0.5 seconds.

The independent electromagnetic wave radiations at different frequencies each have different and/or the same power values and cover a wide interval or intervals, or the single widest frequency interval with 50 of the electromagnetic spectrum from ZOGGC to ZOOGGC, such that the pulse induced excitation from each independent electromagnetic wave emission with its own frequency coincides properly with the natural frequency of oscillations of each atomic and/or molecular system of tobacco elements, creating a resonant mode.

Independent radiation of electromagnetic waves at different natural frequencies in the widest interval of 22 frequencies of the electromagnetic spectrum from ZOGHC to ZOOGHZ are directed in the direction of the volume of tobacco products,

HF) mainly in a wide frequency range of the electromagnetic spectrum from ЗОГХ to 5ОГХХ. The method is carried out with the help of at least one device, which during operation emits a given and/or undefined set of independent radiations of electromagnetic waves of different frequencies.

The method may be carried out with the help of more than one device, each of which emits a predetermined and/or an unspecified set of independent electromagnetic wave radiations with different frequencies, and each device emits a predetermined and/or an unspecified set of electromagnetic wave radiations at frequencies that are essentially different and /or essentially coincide with the frequencies of other devices.

Artificial radiation, which consists of a set of independent radiations of electromagnetic waves with different and/or the same frequencies, in general, as well as each independent radiation of electromagnetic waves with its own frequency is modulated using a modulator of any type.

The method can be carried out by the simultaneous or non-simultaneous action of more than one device, each of which emits a given and/or undefined set of independent radiations of electromagnetic waves with different frequencies in one place, and each of them emits electromagnetic energy of the same and/or different power.

The total power radiated towards the tobacco products is kept as low as possible so that there is no significant increase in the temperature of the tobacco products processed using one or more devices.

The duration of application of the method is chosen depending on the type of tobacco products being processed and 70 in proportion to the desired degree of quality improvement.

The method is applied to finished products or products at intermediate stages of processing or after completion of processing, or during storage in any type of packaging materials, even if there is any material between the source of electromagnetic energy radiation and the tobacco products, except for grounded conductive materials.

The invention provides a method that acts on solid tobacco before it is used by the consumer and is applied either during the industrial processing of tobacco and the manufacture of products from it, or already for finished products (packs of cigarettes, cigars and purses with tobacco). The invention has an effect on existing toxic substances, increasing the quality of tobacco, so that the consumption of the final product by the consumer causes less harm to his health. This is a new original way of improving the quality of tobacco products. Such an improvement is achieved due to the processing of tobacco products with electromagnetic waves of a length that is generated by electromechanical or electronic devices, the radiation of which is programmed, regulated by power, processing time and its results.

The advantages of this method are that they act on the most toxic substances in solid tobacco and limit their harmful effects, thereby providing a significant improvement in the quality of tobacco products. Moreover, an extremely serious advantage of the method is that the quality improves from the beginning of using the method, and the time it takes to achieve tangible results is short, no more than a few hours. Another advantage of method (8) is wide industrial applicability without significant changes in the equipment of existing tobacco enterprises, both at the tobacco processing stage and in the production of final products (packs of cigarettes, cigars and wallets with tobacco). The method can be applied not only during tobacco processing and manufacturing of products, but also after packaging or during storage, and even in domestic conditions. Neither the products to be processed nor the device for implementing the method should be stationary. Therefore, the method can be used during transportation on vehicles or in containers, while the products are on their way to their destination. The use of the method is also financially expedient, as it requires almost no operational costs.

Next, the invention is described by examples of a non-exclusive nature with references to the attached drawing, where o c5 One of the variants of the method, which is the subject of the present invention, is depicted. Cha

The drawing shows a variant of the device for implementing the method on finished and packaged tobacco products.

One of the variants of implementation of the invention is described with reference to the specified drawing.

According to the proposed method, finished tobacco products 1 are placed packed in the warehouse or kept in boxes 2 at normal storage temperature. An electromechanical or electronic device with a programmed action is placed near them, which emits electromagnetic waves 6 and from which it departs. tube 4, which ends with a transmission antenna 5. Electromagnetic waves 6 are emitted in the direction y?" finished tobacco products 1 or boxes 2 with them. The transmitting antenna 5 can be part of the radiating device C or be connected to it by a tube 4.

An electromagnetic or electronic device Z emits electromagnetic waves 6 in a very wide range of -I frequencies, from mmm to 11000Okm, together with their harmonic frequencies, which the device generates and sends either on all waves from mmm to 11000km, or only in one or several specific bands , in order to achieve resonance with all the components of tobacco. The frequency ranges to which these electromagnetic waves belong are denoted by the generally recognized terms ЕНЕ (extremely high frequencies), ZNE (ultra-high frequencies), МНЕ (very high frequencies),

NE (high frequencies), ME (medium frequencies), GE (low frequencies), MIR (ultra-low frequencies). The emission o of electromagnetic waves b is programmed by the electromechanical or electronic circuit of the device C so that o it is not continuous, but pulsates. The time interval between emitted pulses can be constant or variable.

The emission of electromagnetic waves 6 can be modulated in any way or not at all.

The emission potential of electromagnetic waves b increases with each gradual increase in the distance between the radiation source 5 of electromagnetic waves b and tobacco products 1 or even with each (F) gradual increase in the volume of tobacco products 1 processed to achieve the same improvement in quality in the same time , and vice versa. Also, with each gradual increase in the distance between the radiation source 5 of electromagnetic waves b and tobacco products 1, or even with each gradual increase in the volume of tobacco products 1 being processed, it is possible to increase the duration of processing according to the method in order to achieve the same improvement in quality by of the same power, and vice versa.

Moreover, it is possible to generate electromagnetic waves 6 simultaneously by several devices, directing them to the same place. The total radiation power must always be low to achieve the desired result without causing a significant increase in the storage temperature of the tobacco products, therefore, according to method 65, the power must not fall below 0.0001 mW regardless of whether one device or several are operating.

The user of the method can reduce the time required to achieve the desired level of quality improvement by increasing the total power of the radiation of electromagnetic waves 6, which must be kept at a low level without causing a significant increase in the storage temperature of tobacco products, or vice versa, but so that the power does not fall below 0.0001 mW.

The quality of tobacco products begins to improve immediately after using the method, and the time for a significant improvement to occur is short, it does not exceed a few hours.

The duration of processing according to the method depends on the type of tobacco products being processed and is proportional to the required degree of quality improvement. Therefore, the longer the duration of processing according to the proposed method, the more the quality of tobacco products improves.

The method can be applied even if there is an obstacle in the form of cardboard, wooden boxes, concrete and metals between the source of pulsating radiation of electromagnetic waves and tobacco products, except for grounded conductors.

The method can be widely used in production and trade enterprises of the tobacco 7/5 industry when processing tobacco, manufacturing tobacco products or storing finished products in warehouses or packed in boxes, as well as in domestic conditions.

The method makes it possible to significantly improve the quality of tobacco products, as it restrains the harmful effects of toxic substances, due to which the consumption of finished products has less impact on the health of the consumer.

Claims (12)

The formula of the invention 1. A method of improving the quality of tobacco products (1) by irradiation with electromagnetic waves (b), which is distinguished by the fact that the irradiation is carried out intermittently, with periodic interruptions and/or a change in output power from maximum to zero when applying any form of pulses in an unlimited frequency range, and using a defined and/or undefined set of electromagnetic o) radiated waves (b) with different frequency values, performing independent and/or artificial radiation. 2. The method according to claim 1, which differs in that each independent electromagnetic wave radiation with its own frequency values and/or artificial radiation as a whole, consisting of a set of electromagnetic wave radiations (6) with different frequency values, acts with a symmetrical and /or asymmetric duration of periods of action and interruption for any combination of symmetric and/or asymmetric t) durations of periods of action and interruption and for any form of pulse with a periodic change in the output power of each independent radiation and/or artificial radiation as a whole. 3. The method according to claims 1-2, which differs in that the duration of the interruption of each independent radiation (C and/or artificial radiation in general can be any value from 1 picosecond to 20 seconds, preferably from 1 microsecond to 2 seconds, and that the duration of operation of each independent radiation and/or artificial radiation in general can be any value from 1 femtosecond to 5 seconds, preferably from 1 microsecond to 0.5 seconds. 4. The method according to claims 1-3, which is characterized by the fact that the independent electromagnetic wave emissions (6) at "20 different frequencies each have different and/or the same power values and cover a wide interval or c intervals or the single widest interval of electromagnetic frequencies of the spectrum from 30 Hz to 300 GHz in such a way that the pulse-induced excitation from each independent emission of electromagnetic waves with its own "z" frequency coincides properly with the natural frequency of oscillations of each atomic and/or molecular system of tobacco elements, creating a resonant mode. 5. The method according to claims 1-4, which is characterized by the fact that the independent radiation of electromagnetic waves (6) at different natural frequencies in the widest frequency range of the electromagnetic spectrum from 30 Hz to 300 GHz is directed in the direction of the volume of tobacco products (1), mainly in a wide frequency range of the electromagnetic spectrum from 30 Hz to 50 GHz. -AND 6. The method according to claims 1-5, which differs in that it is carried out with the help of at least one electromagnetic or electronic device, which during operation emits a given and/or undefined set of independent 1 radiations of electromagnetic waves (b) of different frequencies. lake 7. The method according to claims 1-6, which is characterized by the fact that it is carried out with the help of more than one electromagnetic or electronic device, each of which emits a given and/or undefined set of independent radiations of electromagnetic waves with different frequencies (6), and each device emits a given and/or undefined set of electromagnetic wave emissions (6) at frequencies that essentially differ and/or essentially coincide with the frequencies of other devices. (F; 8. The method according to claims 1-7, which is characterized by the fact that the artificial radiation, which consists of a set of GI independent radiations of electromagnetic waves with different and/or the same frequencies (b), as a whole, as well as each independent radiation of electromagnetic waves with its own frequency is modulated using any type of modulator. 9. The method according to claims 1-8, which is characterized by the fact that it is carried out by the simultaneous or non-simultaneous action of more than one electromagnetic or electronic device, each of which emits a given and/or undefined set of independent electromagnetic wave emissions with different frequencies (6) in one place, and each of them emits electromagnetic energy of the same and/or different power. 65 10. The method according to claims 1-9, which is characterized by the fact that the total power emitted in the direction of tobacco products is maintained at the lowest possible level so that there is no significant increase in the temperature of tobacco products that are processed using one or more electromagnetic or electronic devices. 11. The method according to claims 1-10, which differs in that the duration of use is chosen depending on the type of tobacco products being processed and is proportional to the desired degree of quality improvement. 12. The method according to claims 1-11, which differs in that it is applied to finished products or products at intermediate stages of processing, or after completion of processing, or during storage in any form of packaging materials, even if between the source of radiation of electromagnetic energy and tobacco products contain any material other than grounded conductive materials. c schi 6) "c) iv) in (ze) and - - and? -i (95) -i 1 (42) ime) 60 b5