WO/2016/148658 ACTIVE CHAIR||WO||22.09.2016|
||PCT/SI2016/000008||ELEMENTIS D.O.O.||VOGRIN, Saša|
An active chair according to the invention is intended for sitting and requires from the user a constant sensory and muscle activity. The chair is made of the base (2), the bar (3) and the seat (5), wherein the lower part of the base (2) is rounded and axis symmetric with the rounded part facing the ground (1 ) and in the middle, i.e. in the axis of the base (2), on the upper side of the base (2), the bar (3) is attached. Between the bar (3) and the seat (5) a joint (4) is placed, which automatically returns the angle between the direction of the bar (3) and the surface of the seat (5) in the starting, preferably right angle, whereby the changing of the angle between the bar (3) and the surface of the seat (5) preferably up to 16° is thus allowed and is made so, that by increasing the angle between the bar (3) and the surface of the seat (5) the return force of the joint (4) is increased
WO/2016/137403 FOOTWEAR WITH AN INTEGRATED HEATING DEVICE||WO||01.09.2016|
||PCT/SI2016/000005||ALPINA, TOVARNA OBUTVE, D.O.O.||LUKANČIČ, Boštjan|
The object of the invention is footwear with an integrated heating device, in which a heating part is arranged in the area around the toe section of the footwear and the heating device per se does not pose any obstacle by walking as in urban area. The footwear with an integrated heating device comprises a heated film material (1) arranged around a toe section of the boot, wherein the heating film material (1) is connected to a source of energy represented by an insert (6) of storage batteries integrated in the rear part of the footwear.
WO/2016/133467 A PHOTOVOLTAIC SYSTEM FOR CONTROLING SINGLE PHASE PHOTOVOLTAIC SOURCES FOR OPTIMAL SELF-CONSUMPTION||WO||25.08.2016|
||PCT/SI2015/000009||AMK D.O.O., INZENIRING, SVETOVANJE, TRGOVINA||STANGL, Jurij|
The present invention is a photovoltaic system, which with its structure and integrated algorithms enables optimal self-consumption of electrical energy. The system structure, with one or more photovoltaic sources (13-1, 13-2, 13-3), one or more micro-inverters (12-1, 12-2, 12-3) equipped with solid-state relay switches, controllable consumer loads (15-1, 15-2, 15-3) and non-controllable electric consumer loads (16-1, 16-2, 16-3), and a measuring and control device (8) with an integrated control algorithm, forms a base for achieving an optimal self-consumption of electrical energy, minimizing the impact of asymmetrical load on the multi-phase AC power grid and enabling consumer load management in accordance with user requirements in one unified system.
WO/2016/130093 PUSHER OF HYDRAULIC LEVER OR RECTILINEAR/STRAIGHT-LINED MOTION GENERATOR USING BUOYANCY FORCE AND VACUUM- SUPPORTED FLUID (RE-)PUMPING||WO||18.08.2016|
||PCT/SI2016/000004||BIZJAK, Silvano||BIZJAK, Silvano|
The problem addressed and resolved by the invention is how to use straight-lined motion, supported by vacuum, for the suction of fluid in a closed system and to fill the static vacuum cylinder. That solves the problem of minimal consumption of electricity for the operation of the system. The invention utilises the buoyancy force and based on vacuum, it absorbs the fluid by vacuum cylinder (Al) and a customised flat piston (BIO) and prepares the fluid for discharge When the fluid passes from the cylinder (Al) to the ballast tank (B), the ballast tank (B) starts to immerse, pulling the entire mechanism downward. Then, this process is repeated. The ballast tank (B) seats on the valves and then starts discharging the fluid into the tank for re-suction. The same fluid and gas or air are circulating in the system all the time. With the system it is possible to push the lever that drives hydraulics, and in this way the system can propel a hydraulic or another electricity-generating system.
WO/2016/122417 DISPOSABLE SEALED AND PRE-FILLED PERSONAL VAPORIZER CARTRIDGE WITH A BUILT-IN ATOMIZER||WO||04.08.2016|
||PCT/SI2016/000001||PEVEC, Tomaž||PEVEC, Tomaž|
The subject matter of the present invention is a disposable sealed personal vaporizer cartridge pre-filled with e-liquid. The advantage of the vaporizer cartridge according to this invention is that it is an all-in-one product, as the sealed vaporizer cartridge combines all the required elements which currently have to be purchased separately, i.e. an atomizer with a built-in reservoir, a heating head, a battery connector, a mouthpiece and e-liquid. The cartridge is much easier and thus less expensive to manufacture than existing products. The e-liquid is packaged into a sealed cartridge, which practically completely eliminates the risk of spillage, thereby significantly reducing the risk of nicotine poisoning due to absorption through the skin, and makes the vaporizer easier to use. The cartridge is fitted with a connector which enables it to be screwed onto any existing battery with a 510 thread, after which the vaporizer is ready for immediate use. The cartridge comprises a built-in reservoir pre-filled with e-liquid, a mouthpiece, an atomization chamber with a heating element, and a wick which delivers the e-liquid from the reservoir to the heating head.
WO/2016/108763 DEVICE FOR OBTAINING ENERGY FROM KINETIC ENERGY OF GAS MOLECULES||WO||07.07.2016|
||PCT/SI2014/000087||RCJ D.O.O.||KLOBČIČ, Marko|
The object of the invention is a device that generates an oriented flux of gas molecules and utilises said oriented flux for obtaining electric energy. The device comprises a housing (2) containing gas, a membrane (3) dividing the housing into compartments, wherein the membrane (2) is provided with a plurality of funnel-like through holes (6), a bypass (7) that links the said compartments, a turbine machine (8) with an electric current generator (9), arranged within the bypass (7), and a heat exchanger (10) supplying heat to the first compartment (4). Owing to the configuration of the holes in the membrane, the number of molecules that penetrate from the first compartment (4) to the last compartment (5) exceeds the number of molecules that return from the last compartment (5) to the first compartment (4). Due to the difference in pressures in the compartments, the gas flux flows through the bypass (7) and generates electricity by means of turbine machine (8) and the generator.
WO/2016/108760 PROCESS FOR CONTINUOUS SYNTHESIS OF SUBMICRON OXIDE POWDER CERAMIC MATERIALS FOR THERMAL COATINGS||WO||07.07.2016|
||PCT/SI2014/000082||RAZVOJNI CENTER JESENICE, družba za razvoj novih materialov in tehnologij, d.o.o.||KRIŽAN, Janez|
Continuous synthesis of submicron oxide powder ceramic materials for thermal coatings solves current lack of flame (spray) pyrolysis of water based precursor to A2-x-yBxCyZr207 material where A can be either Gd or La, while B and C may be selected from Ce, Pr, Nd, Sm, Eu,Tb, Dy, Ho, Er, Tm, Yb, Lu, Hf, Ga, Sc, whereby moiety of B and C are preferably between 0 at. % and 10 at. % by combining method of flame pyrolysis of water soluble precursor with combustion synthesis in continuous process using special reactor. Continuous synthesis according to this patent application is performed in reactor for the synthesis of reduced submicron powder compounds comprising thermoacoustic burner known in state in the art and described in SI24270, and is incorporated herewith by reference.
WO/2016/108761 DEVICE FOR PROTECTING ELECTRIC CIRCUITS AGAINST ELECTRIC OVERLOAD AND INDICATING EACH REASON FOR INTERRUPTION||WO||07.07.2016|
||PCT/SI2014/000085||NELA RAZVOJNI CENTER ZA ELEKTROINDUSTRIJO IN ELEKTRONIKO, D.O.O.||POGRAJC, Ales|
A device for protecting electric circuit against electric overloading comprises a casing, in which in addition to an actuating handle (1), an engaging strap (2), an actuating lever (3), a disconnecting lever (4) and a trigger (5) two sensors (81, 82) for detecting velocity are integrated. The first sensor (81) is mounted adjacent to said actuating lever (3) and adjusted to cooperate with a protrusion (34), with which said actuating lever (3) is furnished, and to detect the velocity (Vv) of movement of the actuating lever (3). The second sensor (82) is mounted adjacent to said actuating handle (1) and adjusted to cooperate with a protrusion (12), with which said actuating handle (1) is furnished, and to detect the velocity (Vg) of the actuating handle (1) when rotated around its pivot point (10). Both sensors (81, 82) are connected with a control unit (9), which is on the other hand connected with at least two indicators (91, 92, 92), which are available on said casing and are visible from outside.
WO/2016/108762 METHOD AND DEVICE FOR DETERMINING CHARACTERISTIC TEMPERATURES OF STEEL TAKEN DIRECTLY FROM A TUNDISH||WO||07.07.2016|
||PCT/SI2014/000086||RCJ D.O.O.||BRADAŠKJA, Boštjan|
The objective of the present invention is to provide a device and a method which assure accurate and repeatable continuous temperature measurements of steel melt during its solidification when sampling from a tundish in a steel mill using a continuous casting process. The device comprises a measuring cup (2), a protecting element (3), a cup protection element (5), a funnel (6), a holder, a housing protected by a cardboard tube, a thermocouple with a ceramic connector, and a rod to house a compensating cable with a plastic connector. All parts of the device with the exception of the protecting element (3), the cup protection element (5), and the funnel (6) are reusable. The method for determining characteristic temperatures of the liquid steel comprises steps of preheating the measuring cup (2) of the device and covering the steel melt in the measuring cup (2) with a layer of exothermic powder.
WO/2016/099406 AN INFLATABLE WATERCRAFT WITH AN EMBEDDED DRIVE||WO||23.06.2016|
||PCT/SI2015/000036||3S SPORT D.O.O.||SITAR, Sebastjan|
The object of the invention is an inflatable watercraft (1) (SUP - stand up paddling) with an embedded drive and having a specially shaped recess in the centre, preferably in the centre of gravity of the watercraft (1), into which a housing (2, 2') of a drive assembly is inserted before the watercraft is filled with air. While the watercraft (1) is filled with air, the air pressure firmly fixes the housing (2, 2') of the drive assembly to a proper position. The housing (2, 2') accommodates the drive assembly that comprises a storage battery (4), an electric motor (5), a compressor (3) and an electronic circuit (8), wherein the drive assembly is provided with a flow-through channel (6), in which a drive screw (7) is arranged, and both the input and the output sides of the flow-through channel (6) are protected by grates. The drive assembly is operated by an operating device (9) arranged within an oar (10) and wireiessly connected with the electronic circuit (8) in the drive assembly of the inflatable watercraft (1).