WO/2017/001876 LOW POWER LIGHT THERAPY DEVICE FOR TREATING THE EYE||WO||05.01.2017|
||PCT/HU2016/050027||RÓZSA, Tamás||RÓZSA, Tamás|
Low power light therapy device for treating the eye, comprising a light source emitting monochromatic or quasi monocromatic light in a wavelength range between 600 – 700 nm and/or 780 – 950 nm, and the device comprises a beam expander (2) positioned in the path of the light emitted from the light source and at least one light scattering element (3) arranged past the beam 2expander (2) and the light intensity at the site of the treatment is smaller than 1 mW/cm2, which is substantially smaller than the output intensity of the light source.
WO/2017/001877 HYGIENIC ENTRY-STEP MAT ARRANGEMENT FOR TATAMI MATS USED FOR SPORTS||WO||05.01.2017|
||PCT/HU2016/050029||ÁDÁM, Imre||ÁDÁM, Imre|
Hygienic entry step-mat arrangement for tatami (1) carpets used for sports, the tatami (1) is composed of a plurality of mutually form-fitted tatami mat elements (2) made from a soft, resilient material having a thickness required by the type of the given activity, and an entry step-mat (3, 3a, 3b, 3c) is attached to a side of the tatami (1) at the place of intended entry having a thickness identical or nearly identical with that of the tatami (1) and provides a similar tactile sensation when one steps on it as the tatami (1), and the size and shape of the entry step-mat (3, 3a, 3b, 3c) is sufficiently large to provide at least one contact with the feet of a subject proceeding therethrough, and at least on a part of the upper surface of the entry step-mat (3, 3a, 3b, 3c) a cleaning element (5, 5a, 5b, 5c) is arranged that has an upper surface which substantially flushes with the upper surface of the entry step-mat (3, 3a, 3b, 3c) and the cleaning element (5, 5a, 5b, 5c) is capable of at least partially removing contamination from any contacting surface.
WO/2017/001875 NEW TYPE OF INTERNAL COMBUSTION ENGINE||WO||05.01.2017|
||PCT/HU2016/000043||BABICS, Gyula||BABICS, Gyula|
The new type of combustion engine performs combustion (work) and exhaust strokes only, or alternatively combustion (work) stroke and scavenging, depending on the given design. Reducing the number of strokes in the engine cycle is made possible by the external supercharging system. The new type of internal combustion engine has two main branches: (1) a radically new engine type and (2) modified versions of traditional engines. These two branches have the following subtypes. The (1) new engine types are (1.a) engines with cylinders and pistons, (1.b) engines with cylinders, pistons and exhaust valves, (1.c) engines with chambers and rotors, or (1.d) a one-cylinder engine with any number of rotating pistons. The (2) modified versions of traditional engines are (2. a) two stroke engines, (2.b) four stroke valve-driven engines, (2.c) modified four-stroke rotary engine. The new type of internal combustion engine is equipped with (and converted by using) the following main parts: camshaft with two or four cam lobes per exhaust valve; combined spark plugs with either flat or flat and cylindrical spark plug cable connectors; combined Diesel fuel injectors; modified Diesel fuel metering pump; blow tubes with external thread at both ends; adaptors or combined adaptors with external and internal threads; pre chamber with reduced volume; various inlays for reducing combustion chamber volume; anti backfire valve; metering system with magnetic control or combined metering system with magnetic control. All engines in main branch (1), and engines (2.a) and (2.b) can be operated in any directions.
WO/2017/001873 MOBILE VEHICLE WITH WATER BATHING FACILITY FOR ENTERTAINMENT PURPOSES, VEHICLE-MOUNTED WATER-LEVEL CONTROLLING SYSTEM FOR BATHING-POOL FILLED WITH WATER, AND METHOD OF APPLICATION OF SAID SYSTEM||WO||05.01.2017|
||PCT/HU2016/000039||GÁL, Béla||GÁL, Béla|
The invention relates, on the one hand, to a mobile vehicle with water bathing facility for entertainment purposes that comprises at least one suitable motor vehicle, an either open or covered pool (m) mounted on this vehicle as a superstructure or converted from the body of the car where the pool (m) concerned is filled with water, and where the water-level control to suit the current road conditions is executed by means of the screw jacks (h), hydraulic or pneumatic cylinders (h), effectuated by a pool-moving unit (1), and the stability of the water mass swaying on account of braking and acceleration is ensured by the flood diverting unit (2) and water flow and sway controlling unit (3). The aforesaid units together with the central control unit (v) constitute one system, which is the water-level controlling system (6) of a pool (m) filled with water that is mounted on a motor vehicle. On the other hand, the invention relates to an application for transportation of people in a pool (m) mounted on a motor vehicle and filled with water which vehicle is utilised as a sightseeing bus comprising the complete range of services provided by the mobile bathing vehicle, such as sightseeing tours, bachelor parties, hen nights, school trips and any function or social event.
WO/2017/001874 METHOD FOR THE ECONOMIC PRODUCTION OF DRINKING WATER, ESPECIALLY DEUTERIUM DEPLETED DRINKING WATER USED IN HUMAN AND VETERINARY MEDICINE||WO||05.01.2017|
||PCT/HU2016/000042||ERDŐS, Elemér Antal||ERDŐS, Elemér Antal|
The subject of the invention relates to a method for the economical production of deuterium depleted water - DDW. The invention's distinctive feature is that hydrocarbons of mineral origin are oxidised, the water created as a product of this is condensed, and in this way water with an average deuterium content lower than the natural deuterium content of 122- 126 ppm is produced, which is lower than the natural deuterium content of 155 ppm, then preferably it is subjected to fractional distillation for the purpose of further deuterium depletion.
WO/2016/207674 WATER FLOW DECELERATOR CHAMBER||WO||29.12.2016|
||PCT/HU2016/050023||MAGAI, Istvan||MAGAI, Istvan|
The subject of the invention is water flow decelerator chamber, which is used to recover the motion energy of the water flow of the ship propulsion. The jet channel (2) connects the propulsion (8) to the vortex chamber (3) which has conical internal surface with the deflector (4) in it and the normal of the deflector's (4) surface and the axle of the jet channel (2) define angle with less than 90 DEG.
WO/2016/207675 WATER FLOW DECELERATOR DIFFUSER||WO||29.12.2016|
||PCT/HU2016/050025||MAGAI, Istvan||MAGAI, Istvan|
The subject of the invention is water flow decelerator diffuser, which is used to recover the motion energy of the water flow of the ship propulsion. The jet channel (2) connects the propulsion (8) to the diffuser (3) which has conical internal surface with the cone (4) in it and the normal of the cone's (4) surface and the axle of the jet channel (2 ) define angle with less than 90 DEG.
WO/2016/207676 NETWORK SUITABLE FOR PROVIDING LOCATION-BASED SERVICES AND METHOD FOR THE OPERATION OF SUCH A NETWORK||WO||29.12.2016|
||PCT/HU2016/050026||PI HOLDING ZRT.||BALOGH, András|
The invention relates to a network suitable for providing location-based services, which contains a plurality of Bluetooth beacons (10) suitable for the wireless sending of messages, characterised by that it is a wired network (12) in which the beacons (10) are connected to the wired network by wires (14) providing both power supply and data transmission. The invention also relates to a method for the operation of such a network.
WO/2016/207672 METHOD AND DEVICE FOR DETERMINING FETAL HEART SOUNDS BY PASSIVE SENSING AND SYSTEM FOR EXAMINING FETAL HEART FUNCTION||WO||29.12.2016|
||PCT/HU2016/000040||PENTAVOX MÉRNÖKI, MENEDZSMENT ÉS KERESKEDELMI KFT.||BARTOS, Imre|
In the method according to the invention a phonocardiographic signal, obtained by a passive acoustic sensor (10) from a maternal abdominal wall, is pre-filtered, amplified, digitized, digitally filtered by means of a programmable amplifier and filter unit (20), is stored in an intermediate memory and autocorrelation is performed by means of an autocorrelation unit (30) in a time window of a predetermined size. The signals obtained as a result of autocorrelation are fed to an input of a fuzzy expert system (40), wherein local maximums of the signals, temporal location of the local maximums and variation of the temporal location of the local maximums are determined by the fuzzy expert system (40), and, applying those as input parameters or signals of the fuzzy expert system, those are classified into probability groups - utilizing a fuzzy rule set of a decision logic stored in a knowledge base and biologically expected data - and are evaluated.
WO/2016/207673 METHOD FOR GENERATING ULTRASOUND IMAGE AND COMPUTER READABLE MEDIUM||WO||29.12.2016|
||PCT/HU2016/000041||PÁZMÁNY PÉTER KATOLIKUS EGYETEM||GYÖNGY, Miklós|
The invention is a method for generating ultrasound image, comprising the steps of: - determining a plurality of recording locations (L1, L2, L3, Lk, Ln-1, Ln) separated from each other by a recording spacing (Δy), - recording a first data package (F1) placing the ultrasound transducer on a first recording location (L1) being on the investigation surface and assigning the first data package (F1) to a first image column (I1) of the ultrasound image corresponding to the first recording location (L1), - repeating the following steps until loading at least one forthcoming image column: recording a subsequent data package (F2, Fi, Fa, Fa+1, Fb, Fb+1) by moving the ultrasound transducer essentially along an image recording line being in an image recording direction, towards a forthcoming recording location, and evaluating a data package acceptance criterion based on comparing one or more actual image correlation value and corresponding correlation function value, investigating fulfilment of the acceptance criterion; and if the acceptance criterion is fulfilled, assigning, for the forthcoming recording location, the subsequent data package to a forthcoming image column (l2, l3, lk, ln-1, In) of the ultrasound image loading the forthcoming image column (l2, l3, Ik, ln-1, In).