||WO||WO/2014/189472 - COLLAPSIBLE SKI||27.11.2014||
||PCT/SI2014/000022||ELAN, D.O.O.||AVGUSTIN, Vinko|
The invention refers to a collapsible ski, wherein the front part (1) and the rear part (2) of such ski, when arranged in their linearly aligned position, are allowed to be fixed in such position by means of a platform (3), which is rotatable around an axis (200), which extends throughout a fold between said parts (1, 2) and is rectangular with respect to said sliding surface (95). Consequently, a ski is realized according to the invention, which is on the one hand due to practical storage and transporting, and on the other hand also due to simplification of technology for manufacturing of each particular component, when compared with manufacturing of classic single- part skis, without using any tools simply and in situ assembled of several mutually in a detachable manner connectable parts, and at the same time, such ski also provides a possibility of combining such separately manufactured and preferably standardized parts both in view of providing semi-products and finalizing each collapsible ski as such.
||WO||WO/2014/168588 - THE PROCESS OF CONTINUOUS VACUUM/SUCTION VENEER IMPREGNATION||16.10.2014||
||PCT/SI2013/000070||INTECH-LES, RAZVOJNI CENTER, D.O.O.||ČESNIK, Renata|
The invention refers to a process of continuous vacuum/suction veneer impregnation as a way of introducing different liquid substances into the depth of a wooden mass of each veneer sheet separately. The invention is characterized by transporting veneer (1) down the transport device (37) into the formulation applicator (50), where the impregnating formulation is applied onto the open side (la) of the veneer (1), after which it enters impregnation unit (400) in a way that the pressure side (lb) of the veneer faces the vacuum suction nozzles (410), in which case the negative pressure causes suction of the formulation from the open surface (la), and the penetration of the formulation into the depth of a wood veneer (1).
||WO||WO/2014/168589 - FLAT GAS DISCHARGE TUBE||16.10.2014||
||PCT/SI2014/000019||ISKRA ZAŠČITE D.O.O.||ROZMAN, Robert|
The object of the invention is a gas discharge tube for surge protection of different electronic devices, more precisely a gas discharge tube with a very thin design. The flat gas discharge tube includes a ceramic insulator (1), two metal electrodes (2,3), gas filling and a graphite coating (5) on the ceramic insulator, and is characterized in that the ceramic insulator is cylindrically shaped and has a wider ring (1a), a narrow ring (1b) with metallized layers (6,6') and a wider ring (1d), which is formed into a tip in the direction towards the centre of the ceramic insulator, wherein the distance between the planes with metallization is smaller than or equal to the distance of the inner wall (1d', 1d") of the ceramic tip. The insulation distance on the ceramic insulator between the electrodes is increased with the shape of the ceramic insulator and the shape of electrodes, which enables optimal performance of the gas discharge tube.
||WO||WO/2014/158098 - BORING OF SAND CORES FROM CASTINGS||02.10.2014||
||PCT/SI2014/000015||RC SIMIT D.O.O.||LORBER, Dejan|
A dedicated hollow tool is used in boring of sand cores, which tool crushes the centre of a sand core by rotation and translation into the inside of a casting. Air under pressure flows to an edge of a crushing plate directly to the place of sand crushing. The air removes the sand in direction outside the casting, and on the way out the mixture of air and sand removes the remaining core and cleans the surface,
||WO||WO/2014/158099 - STAND FOR SUPPORTING LIMBS AND METHOD FOR ITS USE||02.10.2014||
||PCT/SI2014/000018||KOVAČ, Kristina||KOVAČ, Kristina|
The object of the invention is a stand for supporting limbs and a method for its use in creating conditions for providing treatment on patient's limbs. The stand for supporting limbs and the method for its use eliminate disadvantages of the described solution to the problem by assistance of medical staff and known solutions in that the stand comprises two standalone units each having a tripod (2, 2') with a vertical support (1, 1') and a telescopic extension (4, 4') with a pointed plug (5, 5') and a transversal bar (7) with respective openings (8, 8') at both ends, and a movable adjustable loop or loops (10) with a stop element (9).
||WO||WO/2014/149005 - A WOOD-BASED SHUTTERING PANEL WITH IMPROVED SURFACE PROTECTION AND ITS MANUFACTURING PROCESS||25.09.2014||
||PCT/SI2013/000071||INTECH-LES, RAZVOJNI CENTER, D.O.O.||ČESNIK, Renata|
The invention refers to a wood-based shuttering panel used for the manufacture of concrete constructions with a new, improved surface protection providing increased impact resistance and wear-and-tear resistance of the panel and its manufacturing process. The invention falls within the branch of construction equipment. A shuttering panel with improved surface protection consists of a regular shuttering panel having its surface reinforced with pigmented threaded fibreglass, impregnated with amino resins, placed on the surface immediately after applying a liquid catalysed melamine urea-formaldehyde resin, serving as an adhesive for threaded fibreglass.
||WO||WO/2014/149006 - MOTOR VEHICLE LIGHT, IN PARTICULAR A FRONT LIGHT OR A FOG LIGHT WITH INTEGRATED TUBULAR HEAT CONDUCTIVE MEMBER||25.09.2014||
||PCT/SI2014/000009||HELLA SATURNUS SLOVENIJA, PROIZVODNJA SVETLOBNE OPREME ZA MOTORNA IN DRUGA VOZILA, D.O.O.||TRCEK, Mihael|
A motor vehicle light comprises a casing (1), which consists of a thermoplastic material on the basis of polymers and is furnished with a light permeable front wall (10), a light source (2) with a filament (20), which is mounted within the interior of said casing (1), a reflector (3), which is also arranged within the interior of said casing (1) and is furnished with at least one reflecting surface (30), as well as a regulating assembly (4), which is adapted for adjusting each desired position of said reflector (3) relative to said casing (1), wherein a tubular heat conductive member (5) is available within said casing (1), within which said light source (2) and said reflector (3) are inserted and which prevents the casing (1) from thermal overloading of the interior of said casing (1).
||WO||WO/2014/142767 - KITCHEN HOOD||18.09.2014||
||PCT/SI2014/000013||PROVENT D.O.O.||RENAR, Florijan|
The object of the invention is a kitchen hood that allows for efficient extraction of exhaust air and installation of a sufficient filtering surface despite a low height of the hood and a low height of an air capturing space within the hood. Unlike typical existing kitchen hoods that are provided with only one row of filters arranged at the rear wall of the hood, the kitchen hood of the invention, if a wall-mounted hood or a hood mounted above one row of thermal elements is in question, is provided with two rows of filters (170, 190) in the central part of the hood, from where a substantial quantity of exhaust air normally originates. The capturing space of the hood for capturing exhaust air is divided into a front capturing space (110) and a rear capturing space (205). The lower inner part of lateral sides of the hood is provided along the entire circumference of the hood, with the exception of the rear side of the hood (210), with narrow slots designed for blowing-in fresh air directly back into the hood in order to prevent potential steam-saturated air from flowing outside the area of the hood. The front blowing-in slot (130) is arranged between the backwards bent lower edge of the lamp holder (135) and the lower edge of the front side (150) of the hood, the construction of which defines also the system for opening the front side of the hood.
||WO||WO/2014/142766 - INSERT WITH ROTATING MESH AND ROTATING MESH FOR AERATORS IN SANITARY BATTERIES||18.09.2014||
||PCT/SI2014/000012||JEREMIĆ, Dragan||JEREMIĆ, Dragan|
The insert with a rotating mesh for aerators in sanitary batteries consists of the housing (1) of an insert, the rotating screen (5) and o-ring (6). The housing (1) of an insert has at its bottom part i.e. at the water outlet of the sanitary battery, two bearings (2) made, the rim (4) for installing a flat sealing between the sanitary battery and the body of aerator. The rotating mesh (5) has on its rim circumference, preferentially at the most extended part of the rotating mesh (5), i.e. at the extension of diameter of the mesh (5) two axes (7) positioned which fit into the bearings (2) in the housing (1) of the insert, and serve for axle fixing the rotating mesh (5) and thus enabeling the rotation of the rotating mesh (5) around the axis (7); the rotating mesh (5) has on its outer circumference, in the upper part, a groove (11) chiselled, in which o-ring seal (6) is installed for sealing the rotating mesh (5) to the housing (1) of the insert. Optionally, the rotating mesh (5) can include on its circumference, i.e. at the water outlet of the sanitary battery, also the intake channel (15) for air supply. The intake of air for aeration is provided from the bottom side laterally. Optionally a rotating mesh can be installed directly in the aerator's body without an insert. In this context, the rotating mesh (5) is fixed axially with two screws (12) directly in the body (13) of the aerator in a way that it is rotatable around its axis.
||WO||WO/2014/142765 - ANCHORS FOR AFFIXING VIP OR VISE THERMAL INSULATION IN THE FACADE SYSTEMS AND OTHER SYSTEMS AND THE AFFIXING PROCEDURE||18.09.2014||
||PCT/SI2013/000076||INTECH-LES, RAZVOJNI CENTER, D.O.O.||KUNIČ, Roman|
The invention refers to the system of affixing VIP or VISE thermal insulation. The distinctive feature lies in the fact that panels are not pierced with anchors, neither cut or reshaped or mechanically damaged in any way. This is achieved by using special anchors according to the invention. The composition, shape and position of the anchors are devised strategically, so as to cause only minimal additional thermal bridges and only cause minimal damage to extreme thermal insulation of the VIP and VISE facade system.