Fecha de publicación
Nº de solicitud
|1.||WO||WO/2013/066275 - KIT FOR CORRECTING AND PREVENTING INGROWN NAILS AND INSTRUCTION FOR ITS USE||10.05.2013||
|PCT/SI2012/000058||SNOJ, Zvezdana||SNOJ, Zvezdana|
The subject of the invention is a kit for correcting and preventing ingrown nails, particularly on the feet, where the nail most frequently affected is on the big toe. The kit that is the subject of the invention comprises a disinfectant (4) and a specially designed plaster comprising a porous adhesive tape (2) with a two-sided, non-adhesive foil on one end (3). The kit is intended for the conservative, non-surgical treatment of ingrown nails, and for the prevention thereof.˙
|2.||WO||WO/2013/062491 - SYNTHESIS METHOD FOR OBTAINING ANATASE NANOPARTICLES OF HIGH SPECIFIC SURFACE AREA AND SPHERICAL MORPHOLOGY||02.05.2013||
|PCT/SI2011/000061||CINKARNA METALURŠKO KEMIČNA INDUSTRIJA CELJE, D.D.||VERHOVŠEK, Dejan|
The subject of the invention is anatase nanoparticles and ways of the synthesis thereof by a gel- sol method from sodium titanate, which is produced from metatitanic acid in a reaction with NaOH. The molar ratio between NaOH and TiO2 must be low for a synthesis of sodium titanate, if the goal is to synthetize anatase, i. e. is between 1 :3 to 1 : 1. If the goal is to synthetize rutile, the molar ratio must be higher, at least between 3: 1 to 4: 1. In the gel-sol reaction between sodium titanate and acid very small anatase particles are formed that are of spherical morphology, polycrystalline and present in the acidic suspension. The size of crystallites that constitute the anatase particles is approximately 5 nm, wherein the particles themselves are bigger, somewhere between 40 to 60 nm. The subject of the invention is also a manner of stabilising the acidic suspension of nanoparticles, which allows an increase in pH value without causing excessive agglomeration, which is achieved by the use of an suitable dispersant, citric acid. A further subject of the invention is a hydrothermal method, which allows re-crystallisation of polycrystalline anatase nanoparticles into a monocrystalline form under hydrothermal conditions in an autoclave at a temperature about 130 °C or more and at adequate pressure of the water vapour.
|3.||WO||WO/2013/058719 - CIRCUIT AND PROCEDURE FOR MEASURING THE QUALITY OF ELECTRICAL ENERGY IN A HIGH VOLTAGE GRID||25.04.2013||
|PCT/SI2012/000057||ISKRA SISTEMI, d.d.||ŠMID, Janez|
The circuit and procedure for measuring the quality of electrical energy in a high voltage grid consist of three high voltage devices for measuring current and voltage that consist of an electronic component (1), suspended on the high voltage potential and linked to the central processing unit on earth potential (9) by means of optical links (6, 6a). The CPU processes collected data on electrical quantities and calculates data on output quantities of true, reactive and harmonic components of collected signals and phase relationships between them. The circuit and procedure described herein enable the monitoring of the quality of electrical energy in accordance with the EN 50160 standard, the performance of protective functions and monitoring of the state of the high voltage capacitive divider for the purpose of preventing sudden failure.
|4.||WO||WO/2013/058718 - DEVICE FOR A PREPARATION OF LIQUEFIED PETROLEUM GAS INTENDED TO BE DOSED INTO AN INTERNAL COMBUSTION ENGINE||25.04.2013||
||PCT/SI2012/000056||G - 1 d.o.o.||ŠTRANCAR, Simon|
The invention refers to a device for a preparation of liquefied petroleum gas for dosing into an internal combustion engine, said device being characterized in that a medium of transfer of heat energy is shaped in laminar curves. As shown, gas enters a gasifying section (2) of a vessel and is then separated in two or several parallel flows separated by lamellas (5). Bending of lamellas (5) causes the gas to travel from one lamella to another and to contact both thus reaching optimal vaporisation, gasification by giving away heat energy. A reverse function is performed by lamellas (6) on a water section (1). Heat energy in the water section (1) is transferred to the bent lamellas (6) and the latter transfer the heat energy to the lamellas (5) in the gasifying section (2). The liquefied petroleum gas that enters the vessel through a valve (3) is forced in a flow through the bent lamellas (5) and is actively in contact with the lamellas (5) thus assuming the heat energy.
|5.||WO||WO/2013/052016 - METHOD FOR FURNISHING CANDLES WITH A SUBSTANTIALLY MATCH-LIKE SYSTEM FOR IGNITION THEREOF, APPLICABLE FOR INDUSTRIAL USE||11.04.2013||
||PCT/SI2012/000055||HROVAL, Robert||HROVAL, Robert|
The subject of the invention is a method for furnishing candles with a substantially match-like system for ignition thereof that is applicable for industrial use, wherein the invention refers to an industrially acceptable method for furnishing candles, especially pillar candles. The method of the invention comprises the following steps: - cleaning of a final section of the remaining end of a candle wick (2e) with preheating or partial burning of the wick (2e) with a heating plate, so that it is substantially without any excess of candle material, with which the remaining end of the wick (2e) is soaked; - application of a liquid ignition substance (1e) from a vessel (1) onto said final section of the wick (2e) in order to prepare an ignition cap (2f) by guiding and taking a precisely defined quantity of the ignition substance (1e) into precisely defined thickness with a roller (1c); - hardening of said ignition substance (1e) on the wick (2e) by means of a caterpillar assembly (2a) of the device (2) and natural drying and shaping of the ignition cap (2f) at the end of the remaining part of the wick (2e); - preparation of a sheet blank for the manufacturing of a sleeve with an attachment (4a); - furnishing of the sheet blank with a liquid rubbing ignition layer with a striking surface; - hardening of said rubbing ignition layer, and - assembling of the blank provided with a hardened rubbing ignition layer onto the wick at the section below the ignition cap (2f), so that a sleeve is formed out of the blank, said sleeve being joined by a clip (4b). ˙
|6.||WO||WO/2013/052015 - SELF-ASSEMBLING POLYPEPTIDE POLYHEDRA||11.04.2013||
|PCT/SI2012/000052||KEMIJSKI INŠTITUT||JERALA, Roman|
The invention provides a polypeptide chain capable of forming a polyhedron by self- assembly, nanostructure polyhedra self-assembled from single polypeptide chains and a process for preparing self-assembled polyhedra from polypeptide comprising coiled-coil- forming segments in defined combination that can form dimers that form the edges of the polypeptide polyhedra within a single polypeptide chain. A defined sequence of coiled-coil-forming segments allow self-assembly into a defined polyhedral nanostructure such as a polypeptide tetrahedron.
|7.||WO||WO/2013/048348 - DEVICE AND TESTING PROCEDURE FOR DETERMINATION OF MAGNETIC CIRCUIT QUALITY||04.04.2013||
|PCT/SI2011/000079||UNIVERZA V MARIBORU||DOLINAR, Drago|
The tester and the procedure of testing to determine the quality of magnetic circuits is based on pulse excitation and hysteresis control of primary current. The magnetic characteristic of the tested transformer iron core is evaluated on the basis of measured frequency of excitation and measured reactive power. The corresponding working point and tester operating range is chosen by changing the number of primary winding turns and by selecting switching current and voltage. All tests are performed by the standard existing inverter, so that there is no need for an expensive additional testing equipment. Transformer core testing is quick, effective and universal. The tests of already built-in cores are also possible. The entire magnetic circuit is evaluated by the described procedure taking into account influence of many factors, such as the type of material, lamination tickness, damages, treatment of the air gap, irregularities during construction, etc.
|8.||WO||WO/2013/048349 - QUICK COUPLING FURNITURE HINGE||04.04.2013||
||PCT/SI2012/000053||LAMA D.D. DEKANI||MIGLI, Carlo|
A quick coupling furniture hinge for a quick arrangement of a door of a furniture element onto a base furniture element, wherein the hinge comprises a hinge pot arranged in the furniture door and a hinge arm pivotably fastened thereon. The hinge arm is provided with a mounting assembly fixed in the hinge arm, via which mounting assembly the hinge arm is fastened to a base mounting panel that is fixed on the base furniture element, so that the pivotable assemblies co-operate independently from each other with each complementarily shaped element arranged on the base mounting panel.
|9.||WO||WO/2013/032408 - METHOD OF POLYAMIDE FIBER RECYCLING FROM ELASTOMERIC FABRICS||07.03.2013||
|PCT/SI2011/000049||AQUAFIL S.P.A.||ROBELLO, Robert|
A method of recycling polyamide fibers including polyamide 6 and polyamide 6.6, from elastomeric fabrics comprising polyamide and spandex. More particularly, the type of material recycled are elastomeric fabrics (e.g. warp knitted, circular knitted, woven fabric, etc.) and elastomeric clothing articles (e.g. sportswear, swimwear, lingerie, etc.) containing spandex fibers. Spandex fibers are removed from the elastomeric fabric by a process comprised of: controlled thermal degradation of spandex, controlled washing treatment for removal of spandex by using a suitable and sustainable solvent, preferably ethanol and the final step to remove excess solvent from the polyamide fibers. In addition to the recycling of polyamide fibers, the solvent and spandex can be recycled as well.
|10.||WO||WO/2013/025176 - MOTOR VEHICLE HEADLIGHT REGULATING ASSEMBLY||21.02.2013||
|PCT/SI2012/000044||HELLA SATURNUS SLOVENIJA, PROIZVODNJA SVETLOBNE OPREME ZA MOTORNA IN DRUGA VOZILA, D.O.O.||ANZIN, Tomaz|
Motor vehicle headlight regulating assembly is adapted for adjusting each desired position of a reflector (3) relative to a light casing (1) and optionally either simultaneously with each belonging light source (2), or independently there-from. Such regulating assembly comprises a spindle (40), which is adapted to cooperate with appropriately threaded bore (14) in said casing (1) and is furnished with a first end portion (40'), which protrudes inwards said casing (1) and is adapted to cooperate with the reflector (3), as well as with a second end portion (40''), which protrudes outwards and is interconnected with a female part (442), which is adapted to cooperate with corresponding torque generating tool, which is used by rotating said spindle (40) for the purposes of axial displacing said spindle (40) due to displacing the reflector (3), which at least indirectly cooperates therewith. In addition to said possibility of cooperating with a torque generating tool, said female part (402) is simultaneously used as a part of a coupling (44) consisting of said female part (442) and a male part (441), which is positively interconnected therewith for the purposes of transmission of a limited torque only, and which is on the other hand interconnected with said second end portion (40'') of the spindle (40), which protruded outwards from said casing (1).