Fecha de publicación
Nº de solicitud
|1.||WO||WO/2013/003867 - METHOD FOR DISPERSING A GAS CLOUD AND APPARATUS FOR CARRYING OUT SAID METHOD||03.01.2013||
|PCT/UZ2012/000002||USMANOV, Miryalil Khamitovich||USMANOV, Miryalil Khamitovich|
In the event of gas leaking from an above-ground container, horizontal spreading of the developing gas cloud is restricted by the formation of a liquid film on a mesh enclosure mounted around the container. The film is formed by spraying of the liquid. The gas cloud is diluted with air to safe concentration levels by restricting the vertical movement of the gas cloud in the enclosed area and dividing the gas cloud escaping from said area into separate flows. The apparatus for dispersing the gas cloud comprises a solid enclosure which is mounted around the container and on the upper edge of which at least one mesh enclosure is mounted. Reservoir jets which are oriented towards the mesh enclosure are connected to a source of the liquid. A cover having openings into which pipes are mounted is fixed on the upper edge of the mesh enclosure. Gas and thermal radiation detectors are arranged between the container and the mesh enclosure and are connected to a system for controlling the supply of liquid into the reservoir with the jets.
|2.||WO||WO/2012/135872 - METHOD FOR OBTAINING SILICON AND TITANIUM BY GENERATING ELECTROMAGNETIC INTERACTIONS BETWEEN SIO2 AND FETIO3 PARTICLES AND MAGNETIC WAVES||04.10.2012||
|PCT/UZ2012/000001||KOLESNIK, Viktor Grigorjevich||KOLESNIK, Viktor Grigorjevich|
The invention can be used for the industrial production of silicon and titanium. In the method for obtaining silicon and titanium from particles of SiO2 and FeTiO3, electromagnetic interactions are generated between the aforesaid particles and magnetic waves. To this end, energy is excited in crossed fields with parametric resonance in an RLC circuit with multimode modulation at resonance frequencies in a range of 105-1012 Hz and more with the inductive interaction of particles of SiO2 and FeTiO3 in traveling magnetic and electric waves with circular or elliptical polarization in the enclosed volume of an electron-ion loop of current or a particle vortex with an angular frequency in a range of 101-106 Hz with the magnetic, electrical and inertial confinement of the rotating magnetic and electric waves. The invention makes it possible to increase the productivity and simplify the design of facilities for producing silicon and titanium.
|3.||WO||WO/2011/075751 - ALUMINIUM PROFILE FOR WINDOWS AND DOORS||23.06.2011||
|PCT/UZ2010/000003||RASULOV, Gafurjon Islamovich||RASULOV, Gafurjon Islamovich|
The present invention can be used in the field of construction structures, and the purpose of the invention is to create an aluminium profile with improved exploitation indices, such as an increased rigidity of the profile and high heat-insulation properties. The utility model of the invention essentially consists of an aluminium profile that comprises backward walls which have symmetrically-arranged protrusions thereon, and which are connected to front walls so as to define a chamber between them. The profile further includes sheets of plywood or MDF or polyethylene arranged along the backward walls of the chamber. Foamed plastic is provided between said sheets. The above-mentioned sheets and the foamed plastic are connected together by lag screws and rivets. Grooves are formed in the backward walls of the profile.
|4.||WO||WO/2010/115216 - METHOD FOR DIAGNOSING A PSYCHOLOGICAL STATE||07.10.2010||
|PCT/UZ2010/000001||BAXTIYAROV, Evgeniy Raufovich||BAXTIYAROV, Evgeniy Raufovich|
The invention can be used in medicine, in particular psychology, and may be used for diagnosing a human psychological state. The aim of the invention is to develop a general-purpose readily accessible method which allows adequate diagnostic and prognostic information on the psychological state of a person to be obtained in a short period of time. The method includes measurement of the electrical activity of the heart with isolation of organic sequential sampling of the RR intervals, comparison of this with integral psychophysiological parameters and analysis of the degree of expression of these parameters. After sampling an RR interval, a spectral analysis is made of this to obtain values of the spectral density of the cardiac rhythm, and the spectrogram of the cardiac rhythm is divided into sub-bands within the boundaries of the conventional ULF, VLF, LF and HF bands. Ranked estimates of the relative spectral density are then made over 100 sub-bands and these are compared with integral psychophysiological parameters. When there is high spectral density in the F1 region, the state is assessed as epileptoid, in the F3-14 (ULF-VLF-LF) region as adaptive, in the F10-14 region as neurotic, and in the F11 (LF) region as introverse.
|5.||WO||WO/2010/115217 - METHOD FOR ASSESSING THE FUNCTIONAL STATE OF ORGANISM||07.10.2010||
|PCT/UZ2010/000002||BAXTIYAROV, Evgeniy Raufovich||BAXTIYAROV, Evgeniy Raufovich|
The invention can be used in medicine, namely, for the integrated assessment of the functional state of a human organism. The aim of the invention is to develop a multipurpose and easily accessible noninvasive method that makes it possible to receive during a short time interval sufficient diagnostic and prognostic information about the state of an organism. The essence of the invention is that the method involves measuring cardiac electrical activity for discriminating the organic sequential sample of RR-rate intervals and carrying out a spectral analysis in order to receive the values of spectral density of the heart rate. Furthermore, the heart rate spectrogram is divided into subranges within the classic ULF, VLF, LF and HF ranges, the rank assessments of the relative spectral density according to 100 subranges are carried out and compared with different qualitative and quantitative characteristics of the organism state received by the standard diagnostic and prognostic methods.
|6.||WO||WO/2007/131246 - METHOD FOR DERIVING ENERGY FROM A MEDIUM FLOW AND METHOD FOR CALCULATING DEVICES USING SAID OPERATING PRINCIPLE||15.11.2007||
|PCT/UZ2006/000001||TRESHALOV, German Vladislavovich||TRESHALOV, German Vladislavovich|
The invention relates to a method for deriving energy from a horizontal free medium flow and for calculating energy-converting machines using said operating principle. Said invention is characterised in that it uses a positive feedback between the energy of incoming and outcoming medium flows. The positive feedback is obtained by means of specially designed hydraulic machines, the schematic drawing of one of which makes it possible to discloses the inventive method.
|7.||WO||WO/2004/037306 - MEDICAL-COSMETIC PREPARATIONS FOR SKIN, MUCOUS MEMBRANES||06.05.2004||
|PCT/UZ2002/000002||BABADJANOVA, Galina Arkadyevna||BABADJANOVA, Galina Arkadyevna|
Application: for skin and mucous membranes inflammatory diseases, ulcers, wounds, burns, tumors at human beings and animals treatment and prophylaxis and besides in cosmetic procedures. Goal: The expansion of medical preparations assortment. The essence of the invention: the preparations wherein the required solutions is recovered at autotrophic iron oxidizing bacteria cultivation, for example, Th. ferrooxidans on corresponding synthetic media or pulps, containing in a form of a solid materials with sulfide minerals or minerals themselves are an active origin. As a result of bacteria growth and development in such media ions of heavy metals and/or metalloids, having toxic effect on pathogenic micro flora are accumulated in the solutions the oxygenation process in the pathological zone, promoting the acceleration of detachment of necrotic masses and damaged tissues reparation is considerably improved.
|8.||WO||WO/2004/033732 - METHOD OF IRON (III) HYDROXIDE AND OXIDE RECOVERY BY BACTERIAL OXIDATION||22.04.2004||
|PCT/UZ2002/000001||BABADJANOVA, Galina, Arkadyevna||BABADJANOVA, Galina, Arkadyevna|
Recovery of hydroxides and oxides Fe (III) by elementary iron oxidation involving the participation of bacteria, capable to oxidize Fe (II) into Fe (III) in the solution. Process efficiency and recovered products quality are increased by creation of conditions of viable bacteria cells conservation with single temperature maintenance at all process stages, including final product washing. The method of iron hydroxides and oxides recovery comprises in succession oxidation and dissolving of the elementary iron, including a contact of iron containing raw material with sulphuric acid solution, containing bacteria, capable to oxidize Fe (II) into Fe (III), sedimentation of the formed iron hydroxide and oxide suspension, sediment separation, its washing with further drying and in the case of necessity (pigment use etc.) annealing of the recovered product. According to the invention the dissolving of iron containing raw material and iron hydroxides and oxides synthesis is carried out in a reactor -fermenter in aerobic conditions at constant air aeration simultaneously with periodical substitution of a part of the solution by reusable solution from suspension separation carried out into at least one vessel for collection and settlement of iron hydroxide and oxide sediment, wherein the sediment washing using counter flow is carried out with reusable solution formation at constant air aeration of its upper part, whereby all process stages are conducted at similar temperature.
|9.||WO||WO/2000/066226 - USMANOV'S PROTECTION ENCLOSURE||09.11.2000||
|PCT/UZ2000/000002||USMANOV, Mirzhalil Khamitovich||USMANOV, Mirzhalil Khamitovich|
The present invention pertains to the field of fire-fighting techniques and can be used as a system for protecting fire-brigade staff as well as rescue teams and repair teams operating in the vicinity of strong fires, gas or crude-oil blowouts, timber stocks, combustible lubrication materials, volatile flammable liquids, combustible liquids as well as production or other plants. The purpose of this invention is to create an efficient and mobile device for protecting people against the dangerous factors of a fire, i.e. the thermal radiation, the infrared and light radiation, the convection and gas flows and the effects of noise from all sides as well as the potential products released by the combustible substances. This protection enclosure comprises a system of protection screens for protecting persons against the action of fire factors that can endanger life or health, i.e. thermal and light radiation, noise and the products released by the combustible substances. The enclosure is made in the form of a corridor in which the walls and the ceiling are supplied with a cooling liquid.
|10.||WO||WO/2000/066227 - METHOD FOR ATTENUATING THERMAL GAS FLOWS AND USMANOV'S DEVICE FOR REALISING THE SAME||09.11.2000||
|PCT/UZ2000/000001||USMANOV, Mirzhalil Khamitovich1||USMANOV, Mirzhalil Khamitovich1|
The present invention pertains to the field of fire-fighting technology and can be used for protecting equipment and persons when extinguishing fires, for dividing the volume of buildings in surface or underground structures or installations into fire-proof compartments, for providing protection against the collapse of ceiling structures and for locating the progression of the flame front in large-scale fires resulting in ecological disasters. The purpose of this invention is to develop a method for attenuating with an improved efficiency the energy flow consisting of light, heat and convection gas flows, and to develop a device of the gun-carriage type for creating a thermal-radiation protection screen which is more reliable, harmless and easy to implement and which provides protection against light radiation and convection gas flows. This method involves creating a curtain of a cooling liquid that is sprayed into space between surfaces. When creating more than one curtain, the method involves using a combined supply of cooling liquid. One of the curtains is formed by spraying the liquid, while the following curtains are formed by supplying an aerated mechanical or chemical foam. The device includes a mounting assembly, a spraying unit as well as grids arranged on both sides of a frame so as to define a gap. Nozzles are further mounted in the openings formed in the tubes of the frame.