WO/2015/147759 CONVERTIBLE HANDBAG, SHOULDERBAG, RUCKSACK||WO||01.10.2015|
||PCT/SI2014/000084||LINA DESIGN D.O.O.||URSIC, Damjan|
A bag comprises two rigid i.e. form-stable lateral walls (1, 2) of equal shape and dimensions, which are parallel spaced apart from each other and each of them comprises a continuous circumferential edge (10, 20), as well as a flexible and in circumferential direction continuously arranged intermediate area (3), which is radially offset inwardly with respect to circumferential edges (10, 20) of said lateral walls (1, 2) and is furnished with a zip (4), which extends along the circumference of said area (3) and is arranged symmetrically with respect to a vertical axis (V) during the regular use of the bag and is furnished with attaching members (51, 52, 53, 54), which are arranged along the circumference at appropriate distance (a) apart from each other, wherein the bag further comprises a flexible strap (6), the width (T) of which is smaller than the distance between said lateral walls (1, 2) and which is furnished with attaching members (61', 62', 63', 64'; 61'', 62'', 63'', 64''), which are in appropriate manner distributed between each terminal portion (60', 60'') and a central region (60) of said strap (6).
WO/2015/142294 COLLECTING CHAMBER AND FIBER FORMATION METHOD||WO||24.09.2015|
||PCT/SI2014/000016||IZOTEH D.O.O.||PETERNELJ, Marko|
Collecting chamber and fiber formation method solve technical problems of formation of vortices and recirculations within collecting chamber of melt fiberization apparatus, bonding of fiber to walls of collecting chamber, presence of shot in primary layer of fiber deposited onto perimeter wall of collecting drum of collecting chamber, and non-uniform deposition of fiber into primary layer of fiber deposited onto perimeter wall of collecting drum of collecting chamber by slanting at least one wall or ceiling of a collecting chamber in order to reduce onset of vortices-and recirculation especially at high mass flow of fiber and high gradients of multi phase flow velocity. Further, by adding shot collectors amount of shot reducing heat transfer properties of fiber is reduced. In addition, adding slats for additional air inlet to further reduce vortices-and recirculation as well as adding balancing air flow induced by fan within drum assembly comprised of perforated surface is contributing to solution of technical problem at hand. Basic goals of proposed solution are: achieve high mass flow of fiber with low vortices and recirculation, and with minimum tear of primary layer of fibers collected on surface of collecting chamber drum assembly, and - separation of shot from fiber at the onset of fiber transport from a spinner.
WO/2015/142295 METHOD FOR SYNTHESIS OF TETRAGONAL ZIRCONIA THIN FILMS SUITABLE FOR CATALYTIC DEVICES||WO||24.09.2015|
||PCT/SI2015/000012||INSTITUT "JOZEF STEFAN"||MOZETIC, Miran|
The present invention relates to a method of synthesizing tetragonal zirconia thin film material, said method comprising interaction of zirconium or zirconium-containing materials with a reaction gas comprising oxygen under elevated temperature and the influence of a magnetic field; a tetragonal zirconium material obtained thereby and its use in treatment of hazardous organic gases or liquids.
WO/2015/137888 METHOD FOR THE PRODUCTION OF NANOCRYSTALLINE CELLULOSE||WO||17.09.2015|
||PCT/SI2014/000053||KEMIJSKI INSTITUT||KUNAVER, Matjaž|
Method for the production of nanocrystalline cellulose from a cellulose-containing starting material, said method comprising contacting said starting material with a first solvent mixture comprising at least one first organic solvent and an acid, catalyst, for a period of time sufficient to dissolve components of said starting material other than nanocrystalline cellulose in said solvent mixture, thereby obtaining nanocrystalline cellulose dispersed in a dissolution mixture; adding a second solvent mixture to said nanocrystalline cellulose dispersed in a dissolution mixture, said second solvent mixture comprising at least one second organic solvent and less than 10% (wt.) water, thereby obtaining nanocrystalline cellulose in a diluted dissolution mixture; separating said nanocrystalline cellulose from said diluted dissolution mixture by at least one filtration or centrifugation step.
WO/2015/130236 APPARATUS FOR WASHING CAST PARTS||WO||03.09.2015|
||PCT/SI2014/000045||RC SIMIT, D.O.O.||VRANESEVIC, Darko|
Apparatus for washing cast parts comprises a washing tank (1), a rinsing tank (2), a drying device (3), a transporter (41) for transporting cast parts to washing and a transporter (42) for transporting washed and dried cast parts. Said apparatus further comprises a robot (5), in the operating area of which said washing tank (1), said rinsing tank (2), said drying device (3), and said transporters (41, 42) are located. Moreover, said apparatus is furnished with a heat pump (6), which is adapted for transferring the heat from the rinsing tank (2) into the washing tank (1).
WO/2015/130237 PROCESS FOR PREPARATION OF ALUMINIUM-BASED ALLOYS, ESPECIALLY FOR CASTING OF MOTOR VEHICLE PARTS||WO||03.09.2015|
||PCT/SI2014/000046||RC SIMIT, D.O.O.||VRANESEVIC, Darko|
The invention refers to a process for preparation of aluminium-based alloy, especially for casting of heavily loaded thin-walled motor vehicle parts, in which an alloy AlSi5Cu1Mg containing more than 0,6% of iron is produced of secondary i.e. recycled aluminium, upon which by adding pure primary aluminium the content of iron is decreased below 0,2%.
WO/2015/122854 A MOUNT FOR TEMPERATURE STABILIZATION OF OPTICAL COMPONENTS||WO||20.08.2015|
||PCT/SI2015/000005||OPTOTEK, D.O.O.||NOSE, Janko|
The present invention relates to optoelectronic laser devices, more precisely it relates to a mount for mounting optical components with an emphasis on temperature stabilization and their adjustment. The mount for temperature stabilization of optical components is characterized in that improved temperature responsiveness of the optomechanic assembly is achieved, and in addition uniform heat supply or removal, respectively, from entire side surfaces of the optical component is ensured by decreasing of the volume of thermally active part of the mount and by placing heat conducting brackets, which surround the optical element; that a disconnection of the thermally active part and a thermally inactive part of the mount is achieved with point or line contacts or the thermally active part is made of a material with high thermal conductivity, while the thermally inactive part of the mount is made of a material with low thermal conductivity; that the mount can be made from a single piece, which allows further simplification for cylindrically shaped optical components, for which the mechanical mount from one piece also functions as heat conductive brackets.
WO/2015/122853 PHARMACOLOGICAL OPHTHALMIC COMPOSITION FOR USE IN THE CORRECTION OF PRESBYOPIA AND ITS ADMINISTRATION||WO||20.08.2015|
||PCT/SI2014/000008||VID D.O.O.||FEINBAUM, Claes G.|
The object of the invention is to provide a pharmacological ophthalmic composition for use in the correction of presbyopia as a drop introduced onto the surface of the eye and surrounding soft tissue (drops) or as an implant surgically introduced into the subconjunctival space with sustained slow release application.
WO/2015/119581 SEATING FURNITURE||WO||13.08.2015|
||PCT/SI2014/000081||LINA DESIGN D.O.O.||URSIC, Damjan|
The invention proposes a seating furniture, which comprises at least one basic constituent (1), which consists of three larger spherical members (11, 12, 13), which abut each other in contact points (110, 120, 130), as well as of a smaller spherical member (10), which abuts each of said larger spherical members (11, 12, 13) in contact points (101, 102, 103) and is connected with each of them in said contact points (101, 102, 103).
WO/2015/119582 FLUOROMETRIC IMMUNOASSAY FOR DETECTION OF ANTI-DSDNA ANTIBODIES||WO||13.08.2015|
||PCT/SI2015/000003||UNIVERZITETNI KLINICNI CENTER LJUBLJANA||KVEDER, Tanja|
The present invention relates to the field of immunological methods, more precisely to the field of detection methods for antibodies against double-stranded DNA (dsDNA) for diagnostics of chronic autoimmune diseases, such as systemic lupus erythematosus (SLE). The fluorometric immunoassay method for detection of anti-dsDNA solves the technical problem of designing a method for detection of the aforesaid antibodies, which would be faster, cheaper and less toxic as the standard Farr-RIA method, but would have the same diagnostic specificity (which is 100%) and improved diagnostic sensitivity (for 3%). Detection of anti-dsDNA is based on detection of fluorescence in two fractions of samples, in the supernatant and in the sample with a precipitate, which contains immune complexes composed of added dsDNA and anti-dsDNA present in the patient's serum, wherein the detected fluorescence is a consequence of binding fluorescent dyes with dsDNA bound in the complexes or with free dsDNA. The method according to the invention allows obtaining reliable results, fast sample analysis and results availability to the attending physician, use of human and environmentally safe chemicals and lowering of costs in comparison to the standard Farr-RIA method.