WO/2015/112030 METHOD OF GENERATING PROOF OF CONTRIBUTION TO DATA PROCESSING||WO||30.07.2015|
||PCT/PL2014/000005||NORD-SYSTEMS SP. Z O.O.||BRANDT, Łukasz|
A method for enabling one or more entities to prove their contribution to a series of data processing, wherein said proof can be generated by reconstructing proof fragments that are made available to one or more observers during the data processing.
WO/2015/112031 SYSTEM FOR FIXING A CATTLE STABLE MAT TO THE SURFACE||WO||30.07.2015|
||PCT/PL2014/050004||GEYER & HOSAJA SP. Z O.O.||PIASECKI, Łukasz|
System for fixing a cattle stable mat to a surface, comprising preferably concrete modules of a grate floor, a grating mat and elements for fixing the mat to the subgrade, characterised in that the grating mat (1) is fixed to an element of the grate floor (2), preferably concrete, using expansion fixing elements (3) placed in longitudinal sockets (21) of the grate floor (2), with plate washers (31) together with draw bolts (32) placed in slots (11) of the grating mat (1),wherein expansion blocks (33) protected from the bottom with plates (34) having a threaded hole (35) are placed in sockets (21) of the grate floor (2) corresponding to the slots (11).
WO/2015/112034 THE METHOD OF SUBSTANCE MANUFACTURING FROM POTATO'S JUICE AND ITS APPLICATION||WO||30.07.2015|
||PCT/PL2015/050001||UNIWERSYTET PRZYRODNICZY W POZNANIU||LEWANDOWICZ, Grażyna|
A method has been disclosed, regarding the production of an agent from potato juice, the agent intended for the therapy of prophylactics of inflammatory conditions, especially within the gastric tract.
WO/2015/112032 MODULAR FIRED HEAT EXCHANGER||WO||30.07.2015|
||PCT/PL2015/000002||AIC SPÓŁKA AKCYJNA||SIEMIEŃCZUK, Tomasz|
A fired heat exchanger module having at least one set of heat exchange elements, at least one fluid inlet stub pipe, and at least one fluid outlet stub pipe, characterised in that at its top there is a segment of the combustion chamber (2) encased in a segment of the water jacket (3) fitted with at least one fluid outlet stub pipe (4), wherein, connected to the segment of the combustion chamber (2) is at least one set (5) of the elements for the exchange of heat between the combustion gases and the fluid, at the bottom fitted with at least one fluid inlet stub pipe (6), where the chamber through which the fluid flows in each set (5) of heat exchange elements is connected to a segment of the water jacket (3). The module (1) connected to each other form a heat exchanger with a single combustion chamber, heated with a single burner.
WO/2015/112033 TWIN DIFFERENTIAL MOBILITY SPECTROMETER FOR DETERMINATION OF CONTAMINATION||WO||30.07.2015|
||PCT/PL2015/000006||WOJSKOWY INSTYTUT CHEMII I RADIOMETRII||MAZIEJUK, Mirosław|
Instrument for determination of contamination to detect and identify toxic contamination and enabling identification of gaseous substances in a broad range of humidity. The instrument has two DMS chambers (3, 6), between which there is an exchanger (4) with a semipermeable membrane (5). Between the exchanger (4) and the second DMS chamber (6), there is a reducer (10). The outlet of the second chamber (6) is connected, through a pump (12) and a filter (1.3) with molecular sieves, to the inlet of the second chamber (6) and, in parallel, through a pump (14) and a carbon filter (15), to the outlet of the exchanger (4). The inlet of the exchanger (4) is connected to an air intake (1), whose outlet is connected to the inlet of the first chamber (3).
WO/2015/108428 HIGH ENERGY ELECTROCHEMICAL CAPACITOR WITH AQUEOUS ELECTROLYTE CONTAINING IODITE||WO||23.07.2015|
||PCT/PL2014/050002||POLITECHNIKA POZNANSKA||BÉGUIN, François|
An electrochemical capacitor comprising two electrodes made of high surface area carbon placed in mixed salt aqueous electrolyte, wherein one of the components of the mixed aqueous electrolyte is an iodide (I-) containing salt and another component is a sulphate (SO42-) anion salt with a cation selected among Li+, Na+, K+, Rb+, Cs+, NH4+, Be2+, Mg2+, Ba2+, and A13+ or a nitrate (NO3-) anion salt with a cation selected among Li+, Na+, K+, Rb+, Cs+, NH4+, Be2+, Mg2+, Ca2+, Sr2+, Ba2+, and A13+. The capacitor can be polarized up to 1.6 V and used to accumulate electrical energy with a density over 30 Wh·kg-1of carbon material.
WO/2015/108429 HIGH-PRESSURE COMPOSITE VESSEL AND THE METHOD OF MANUFACTURING HIGH-PRESSURE COMPOSITE VESSEL||WO||23.07.2015|
||PCT/PL2015/000001||TECHPLAST SPÓŁKA Z O.O.||SAFERNA, Adam|
A high-pressure composite vessel comprising a casing fabricated through blow-moulding a preform of thermoplastic material, a connection pipe fitting. In the connection pipe fitting (3) with a retaining collar (7), opposite to a sealing groove (9) designed for an o-ring seal, there is a groove (10) for a seeger to mount a non- detachable collar (lla) of the preform (11) by way of the seeger (10a). A method of manufacturing the high-pressure composite vessel under which the casing of the vessel is fabricated of a preform that is blow-moulded so as to obtain the required dimensions thereof, whereas the preform of a thermoplastic material is fabricated using any technology; and the casing of the vessel is connected with the connection pipe fitting, and the external surfaces of the vessel are reinforced by a special composite layer. The preform (11) first undergoes a process of controlled crystallization and, then, the ring- shaped groove (lib) is made in the collar (lla) of the preform (11), and, subsequently, the preform (11) is blow-moulded to obtain the required dimensions and assembled with the connection pipe fitting (3) equipped with a retaining collar (7) so that the o-ring seal (9a) is placed in the sealing groove (9) in the connection pipe fitting (3), and the seeger (10a) is placed in the groove (10) in the seeger, and, next, the connection pipe fitting (3) is put and clamped onto the collar (lla) of the casing (3); next, the vessel is filled with gas until the value of the pressure inside the vessel becomes constant and the composite layer (2) is fabricated by making a load-bearing wound wraps of bundles of reinforcing filaments according to three winding patterns: helical, polar, and hoop; finally, the whole structure is thermally hardened.
WO/2015/108427 A LINEAR FLEXIBLE TEXTILE PRODUCT FOR TEXTRONIC APPLICATIONS||WO||23.07.2015|
||PCT/PL2014/000143||INSTYTUT WŁÓKIENNICTWA||CIEŚLAK, Małgorzata|
The linear flexible textile product for textronic applications, characterized in that on at least one of its surfaces or inside the structure of the flat textile product, manufactured by knitting or weaving technique, conductive elements (3) bonded with the structure of the textile product are placed non-rectilinearly; conductive elements (3) are placed on the surface or inside the structure of the flat textile product in one technological process during knitting or weaving; conductive elements (3) are placed on the surface or inside the structure of the textile product during knitting or weaving along a wavy line, or a wavy and loopy line, or a zigzag line, or a stepped line; in the textile product at least one arrangement of basic threads (6) or (7) is made from elastic yarns; in the knitted product conductive threads (3) are inserted between underlaps (4) and loop legs (5) of loops (2) in a warp-knitted structure, or they form loops, according to a designed pattern; in the woven product conductive threads (3) are bonded with the threads of the basic structure by selected warp threads according to a designed pattern; the conductive element is a wire twisted together with the yarn and additionally wrapped, or wrapped only with the yarn; the conductive threads (3) run along a wavy sinusoid-like pattern, and basic threads (6) are made from a PES 76 dtex texturized elastic yarn, and basic weft threads (7) are made from a PES 150 dtex texturized polyester yarn; and conductive threads (3) of the total linear mass of 840 dtex and maximum linear resistance of 5 Ω/m, are made from composite electroconductive thread containing a copper monofilament plated by silver, of the diameter of 0.07mm, twisted with multifilament polyester yarns.
WO/2015/105429 THE METHOD OF FIXING OF THE SITTING POSITION BY A PASSENGER IN A SEAT ASSEMBLY, ESPECIALLY IN MASS TRANSPORT||WO||16.07.2015|
||PCT/PL2014/000012||SPECJALISTYCZNY ZAKŁAD TAPICERSTWA KOMUNIKACYJNEGO||KOWALSKI, Maciej|
The subject of the solution according to the invention is the method of fixing the sitting position by a passenger in a seat assembly especially in mass transport by changing the position of the seat assembly (1) from the starting position, the change depending on the weight and centre of gravity of the passenger, by releasing the blockade of the supporting system (4) with a button (2) and relocating the seat assembly from the starting position, by a linear and rotating movement, without changing the height of the edge of the seat base, to another position dependent on anthropometric features; in this method the linear horizontal relocation by at least 100 mm changes the position of the seat assembly by at least 8° angle, and the return of the seat assembly (1) to the basic position takes place after the release of the brake (2) of the supporting system (4) and the active participation of the passenger.
WO/2015/102500 METHOD FOR HONEY WORT HIGH-SUGAR ALCOHOL FERMENTATION||WO||09.07.2015|
||PCT/PL2014/000111||INSTYTUT BIOTECHNOLOGII PRZEMYSŁU ROLNO-SPOŻYWCZEGO||MISIEWICZ, Anna|
The subject of the invention concerns a high sugar concentration honey wort alcohol fermentation method wherein Scm strain of Saccharomyces cerevisiae yeast deposited at the Culture Collection of Industrial Micro-organisms in IAFB under number KKP 2052 p is introduced into the honey wort blend and the wort fermentation is carried out, preferably for 30 days, until a young mead is obtained. The invention also pertains to the dry preparation of this yeast.