WO/2015/056035 OPTO-ELECTRONIC DEVICE FOR DETECTING SMALL INSECTS||WO||23.04.2015|
The invention is an improved optoelectronic sensor for the local detection of small dropping insects, preferably in the size range of 0.1-10 mm, which comprises an electronically controlled, electrically powered (1) infrared light source (3) containing the observation space (5) fitted to its housing (14) and infrared sensor (7) connected via the signal amplifying module (9) to the electronic control unit (11) and a communication module (13) containing a radio transmitter, and these are all connected by wiring (2). The sensor is a photodiode in photovoltaic operational mode and the virtual optical axis (15) connecting the light source (3) and the sensor (7) has at least one optical converging lens placed between the light source (3) and the sensor (7).
WO/2015/049547 METHOD FOR INSERTING DECORATIVE ELEMENT IN GLASS MATERIAL AND DECORATIVE GLASS PRODUCT PRODUCED BY THE METHOD||WO||09.04.2015|
||PCT/HU2014/000050||MOLNÁR, Nelli||MOLNÁR, Nelli|
Method for inserting decorative element in glass material. The glass is formed from a first glass layer and a second glass layer. Between the molten first glass layer and the molten second glass layer pattern carrying element is placed. Pattern forming elements of the pattern carrying element are baked before the second glass layer is placed on the first glass layer. The pattern carrying element is soaked in liquefied treating agent and titanium-oxide/dioxide powder. The molten first glass layer is laid on the pattern carrying element and they are turned over. After baking the pattern forming element the molten second glass layer is laid on it. When the glass layers bond to each other the glass having the pattern carrying element inside is cooled in a known manner.
WO/2015/044697 INVERSE HEAT PUMP||WO||02.04.2015|
||PCT/HU2014/000087||MAGAI, Istvan||MAGAI, Istvan|
The subject of the invention is inverse heat pump, which cooperates with its environment to convert the heat energy to volumetric work. The drive(21) and the cooperated compressor(22) and expander(23) are summarising the technical work of the working fluid(28), that is closed between the compressor(22) and the expander(23) and they are summarising the outside volumetric work(17) outside of the closed volume between the compressor(22) and expander(23), while the heat buffer(26) stores the heat energy, that is dropped by the working fluid(28) and while the cold buffer(27), that is cooled down by the working fluid(28), supports the cooling of the outside(13). ˙
WO/2015/044696 COMPUTER ARCHITECTURE AND PROCESSING METHOD||WO||02.04.2015|
||PCT/HU2014/000086||PÁZMÁNY PÉTER KATOLIKUS EGYETEM||RÁK, Ádám|
The invention is a computer architecture comprising a central processing device adapted for processing a data stream (40) consisting of data elements and comprising an instruction array and a data array. Said central processing device comprising at least one array of processing units (30, 32) connected to each other and being capable of executing an operation on the data array based on the instruction array, and data transferring elements connected to the outermost processing units (30, 32) of the at least one array of the processing units (30, 32) and adapted for transferring the data stream (40). The computer architecture further comprises at least one data storage device connected to the central processing device and an instruction definition device adapted for defining an instruction array implementing a computer program on the architecture and determining the traverse route (31) of the data stream (40), said instruction definition device is connected to the central processing device, and the data storage device comprises a storage unit adapted for storing the data stream (40), and a sorting unit adapted for reordering the data elements. The invention is furthermore a processing method.
WO/2015/044698 MEDICAL COMPOSITION CONTAINING A CHOLESTEROL ABSORPTION INHIBITOR AND CHOLESTEROL BIOSYNTHESIS INHIBITOR||WO||02.04.2015|
||PCT/HU2014/000089||EGIS GYÓGYSZERGYÁR ZRT.||FEHÉR, András|
The present invention is related to a pharmaceutical composition containing rosuvastatin and ezetimibe, wherein the interaction of the active ingredient and excipient is minimized, the active ingredients are present in spatially separated or contacting physical phases and wherein the active ingredient release from the two phases takes place in temporarily separated manner rather than occuring at the same time or begins delayed from one phase compared to the other, other. A further aspect of the present invention is method for decreasing an active ingredient- excipient interaction or interaction between active ingredients in combined pharmaceutical composition containing several solid phases produced by compression, which comprises adjusting the disintegration time of the compressed solid phases different from each other.
WO/2015/040439 DEVICE FOR REMOVING OIL POLLUTION FROM WATER SURFACE||WO||26.03.2015|
||PCT/HU2013/000097||BÁRCZY KÖRNYEZETVÉDELMI KFT.||BÁRCZY, Zoltán|
The device for removing floating oil contamination from a water surface comprises a net (1 ) made of an oil-absorptive material, wherein the net (1 ) has internal threads (3) that define internal apertures (2) having a substantially square shape. The device is characterized by that the net (1 ) is formed of a plurality of cells (A, B) having a substantially square shape, said cells (A, B) having a frame (4) along their edges, said frame being made from the material of the net. Each of the cells (A, B) is provided with a reinforcement (20) along one of its center lines, which is parallel to one of the side pairs of the cell, said reinforcement also being made from the material of the net, wherein the central reinforcements (20) of the adjacent cells (A, B) are arranged orthogonally to each other, thereby the connected cells (A, B) can keep their shape and size against waving and wind. The cells (A, B) further comprise releasable connection elements on their edges to allow connection of the cells.
WO/2015/040440 CATALYST, HYDROGENATION OF HYDROGEN CARBONATE, HYDROGEN STORAGE SYSTEM||WO||26.03.2015|
||PCT/HU2014/000083||DEBRECENI EGYETEM||GYŐRVÁRINÉ HORVÁTH, Henrietta|
The invention relates to a catalyst according to the formula lrCI(cod)(NHC)] + nP (n = 2, 3 or 4), or [lr(cod)(NHC)(P)] + nP (n = 1, 2 or 3), which is suitable to decompose formates in an aqueous reaction system, and for the production of hydrogen gas or hydrogenation of carbonates, wherein Ir means irydium; CI means chlorine; cod means 1,5-cyclooctadiene; NHC means N-heterocyclic carbene, preferably 1-R-3-methylimidasolium chloride, wherein R means C 1-5 alkyl es P means 1,3,5-triaza-7-phosphaadamantane (pta), monosulphonated triphenilphosphine (mtppms), trisulphonated triphenylphosphine (mtppts), or four times sulphonated diphenylphosphynopropane (dpppts). Furthermore, the invention relates to a process for the preparation of the catalyst accoring to the invention. Further, the invention relates to a process for the decomposition of formate in aqueous reaction system, and for the production of hydrogen gas free of COx, still further, a process for the hydrogenation of hydrogen carbonate in an aqueous reaction system, as well as the production of the respective formate. Further, the invention relates to a process for the decomposition of formate accoring to the invention, and the hydrogenation of the carbonate generated in the same reaction system. The invention relates to a hydrogen storage system based on the process according to the invention, preferably battery or fuel cell, and the use thereof.
WO/2015/040441 PROCEDURE AND MEASURING SYSTEM FOR DETERMINING BLOOD COAGULATION CHARACTERISTICS||WO||26.03.2015|
||PCT/HU2014/000084||DIAGON LTD.||ANTAL, József|
Procedure for real-time determination of blood coagulation characteristics in blood samples, for optical detection of in vivo aqueous reactions carried out in reaction spaces in vitro, preferably in a small-volume reaction vessel, in a measuring cuvette by using a reagent set, in which real time, liquid phase tests of whole blood samples based on identical principles used in traditional laboratory liquid phase measurements are performed and with results comparable to the results of the measurements of traditional laboratory liquid phase measurement. In the tests the active, perishable component(s) and the stable component(s) of the reagent set are handled in separate phases.
WO/2015/036808 SECURITY CARRIER FOR THERMAL PRINTING||WO||19.03.2015|
||PCT/HU2014/000082||ANY BIZTONSÁGI NYOMDA NYRT||DR. SZÉKELYHIDI, Lajos|
This invention relates to a security carrier for thermal printing consisting of a base layer (1), a partition layer (2) arranged on the base layer (1) and a heat sensitive layer (3) fixed on the partition layer (2), wherein a security ink layer (7) containing irised pigment plates is arranged along a surface of the heat sensitive layer (3) opposite the partition layer (2).
WO/2015/036807 MACHINE FOR STRETCH WRAPPING LOADS WITH STRETCHABLE FILM||WO||19.03.2015|
||PCT/HU2014/000079||KŐRÖSPACK KFT.||GÁL, János|
The subject of the invention is a machine for wrapping vertical and top surface of loads (13) with stretchable film. The machine of the invention is provided with a swinging film tension setting unit (22) connected to the end of a shaft (6), which unit has pre-stretching rollers (7A) provided with a pre-stretching motor (20), a leading roller (7B) containing an arm provided with a roller (7C), a tension setting pneumatic cylinder (16) provided with an analogous displacement transducer (17) and equipped with a piston provided with a magnet (16A), furthermore a pressure regulator (18) and a frequency changer (15) all fastened to a frame of the film holding and pre-stretching unit (23), wherein the film winded off from the film reel (7) is led between the pre-stretching rollers (7A), one connected to another with a transmission (19) and one of them is driven by a pre-stretching motor (20) then the film is led around the leading roller (7B) having the arm rotating around a center of rotation and provided with the roller (7C), it is connected to the piston provided with the magnet (16A), which is mounted in the tension setting pneumatic cylinder (16), the latter is provided with the analogous displacement transducer (17) and the piston provided with the magnet (16A) is connected to the pressure regulator (18) and the. frequency changer (15), which frequency changer (15) is connected also to the pre-stretching motor (20).