||WO||WO/2014/112891 - PROTECTION OF A CHECK VALVE INSIDE OF A MAIN VALVE||24.07.2014||
||PCT/RS2014/000002||MILOVANOVIĆ, Slobodan||MILOVANOVIĆ, Slobodan|
Protection of a check valve inside of a main valve. The main valve (1) of a gas bottle contains inside its outlet connector (3) a completely screwed check valve (2) which anterior frontal surface relies to bottom (4) of the outlet connector (3). To prevent unscrewing of the check valve (2), a channel (5) has been carved in the outlet connector at the appropriate distance (d) from the bottom (4), into which is inserted a spring ring (6) in such a way that it almost touches the back frontal surface of the check valve (2). The check valve (2) carries in a channel on its back end a rubber sealing ring (9), a side (8) of the channel (5) is made conical because it is made at a sharp angle (a) not bigger than 30° in respect to axis of the outlet connector (3) in order that the ring (9) would not be damaged when it exceeds through the channel (5) during the assembling of the check valve (2) to the outlet connector (3),
||WO||WO/2014/077719 - MOVABLE ERGONOMIC CARRIER FOR DESKTOP COMPUTER||22.05.2014||
||PCT/RS2013/000021||STRAHINIĆ, Slaviša||STRAHINIĆ, Slaviša|
with the following novelties: rectangular pedestal (83) which consists of the boxes (1 and 2) whose outer flanks have places (16 and 17) for mounting the weight (18), and L-profiles (3 and 4) and the boxes (1 and 2) have the boxes (5 and 6) pulled into them whose ends have the castor (7 and 8) carriers welded to them bearing the castors (9 and 10) which provide adjustment of the distance between the castors (9 and 10) and ends of the boxes (1 and 2), and upper side of the pedestal (83) have welded sleeves (19, 20, 21, 22) in their corners where there are pulled in and fixed the pipes (23, 24, 25, 26) whose tips go into the sleeves (34, 35, 36, 37) of the rectangular frame (33) where they are fixed with the fixation (38, 39, 40, 41) elements going through each of their sides so that the elements (38 and 39) also fix the bars (42 and 43) whose tips include the joints (44 and 45) which are pulled into the pipes (23 and 24), so that the joint (44) is in turn followed by the bar (46), pipe (47), joint (48), pipe (50), bar (51) and the mount (52) arm, while the joint (45) is in turn followed by the pipe (53), joint (54), pipe (55), joint (57) and the pipe (60) with the carriers (68 and 69) of the keyboard with the mouse (80) pedestal.
||WO||WO/2014/035272 - APPARATUS AND METHOD FOR MONITORING RESPIRATION VOLUMES AND SYNCHRONIZATION OF TRIGGERING IN MECHANICAL VENTILATION BY MEASURING THE LOCAL CURVATURE OF THE TORSO SURFACE||06.03.2014||
||PCT/RS2013/000016||DIASENS D.O.O.||BOJOVIC, Bosko|
The invention is related to a device and method for monitoring respiration, movements in mechanical ventilation in order to provide a non-pneumatic triggering variable for achieving patient-ventilator asynchrony and continuous measurement of tidal volumes. The method is based on measuring the curvature of the patient's torso surface using a single LPG (Long Period Grating) fiber-optic sensor attached to a surface of the torso in an area having high stiffness of the underlying tissue, such as the area of the lower ribs close to the sternum.
||WO||WO/2014/035271 - LARGER SIZE BOTTLE FOR LIQUEFIED PETROLEUM GAS (LPG) MADE OF TRANSPARENT PLASTIC MATERIAL||06.03.2014||
||PCT/RS2013/000014||STOJKOVIĆ, Strašimir||STOJKOVIĆ, Strašimir|
The larger size bottle for liquefied petroleum gas is made of transparent plastic material consisting of the bottle body (1); bottle neck (2) with safety bottom (11); axled tube (3); connecting ribs (4); threads (5); screw (6) with lateral hole (7); sealing ring (8); safety ring (9) and double bottom (10), assigned by the fact that shows that cylindric and spheric part connected with ribs (4) with the axled tube (3) that is joined with the bottom (10). Due to transparency of the bottle, it is possible to control the volume of the gas in the bottle. By removing the screw (6) in the relevant service workshop the bottle can be washed inside. The bottle with plastic spheric bottom is made of two parts whose botlle bodies (1) are joined by means of safety rings (9) over the circumference, while axled tubes (3) are joined by the screw (6).
||WO||WO/2014/035273 - AIR BLAST SOFT FRUIT HARVESTING DEVICE||06.03.2014||
||PCT/RS2013/000017||KOKANOVIC, Momcilo||KOKANOVIC, Momcilo|
The invention relates to the air blast soft fruit harvesting device comprising an air flow director (1), pulsator (2), distancing channel (3), segmented extension (4) and blower fan (5) assembly. The distancing channel (3) is connected with the segmented extension (4) on the top side and with the pulsator (2) on the bottom side, whereas the pulsator (2) is simultaneously connected with the air flow director (1) on the bottom side, and the segmented extension (4) is connected with the blower fan (5). The blower fan (5) constantly sends air to the director (1), through the segmented extension (4), distancing channel (3) and pulsator (2) directing the air towards a fruit shrub, thus shaking ripe fruits. In the course of the rotation of the pulsator (2) rotor (32), the pulsator (2) alternately sends air, in a single cycle, through the channels (6, 7 and 8), and then through the channels (9, 10 and 11) of the director (1), where the air flow leaving the pulsator (2) varies, achieving its power impact. It is possible to regulate the air blast power and speed over the connecting tube (78) by discharging part of the air which the blower fan (5) sends towards the director (1), into the atmosphere. The regulation is performed manually with the lever (81). Thus, regulation of the air blow power impact on a fruit shrub is obtained. When using the device for harvesting soft fruit, two devices are used simultaneously, positioned in such way that there is a row of shrubs between them.
||WO||WO/2014/007666 - CYLINDRICAL EXTENSION ON A CAP||09.01.2014||
Cylindrical extension (1) on a cap is placed on the external side of the cap. Cylindrical extension (1) which is firmly and separably conjoint to the cap of the bottle is put over the cap up to the point the overlapping internal side (9) of the lower part (12) of cylindrical extension (1) is embedded and fastened to the external side (10) of the cap, and the base (4) of the lower part (12) of cylindrical extension (1) is on the base (11) by which stability of the unit is achieved. The cylindrical extension (1) may contain a gift.
||WO||WO/2013/187789 - SYSTEM AND METHOD FOR HIGH SECURITY BIOMETRIC ACCESS CONTROL||19.12.2013||
||PCT/RS2013/000011||VLATACOM D.O.O.||VUJIC, Sasa|
System and method for high security biometric access control, according to the invention, enable high security access control to single instance or network resources, using biometric data, smart card technology and public key infrastructure or other symmetric/asymmetric encryption/decryption methodology.
||WO||WO/2013/187790 - SYSTEM FOR ORDERING USING MOBILE DEVICES AND RFID TAGS||19.12.2013||
||PCT/RS2013/000012||BRAINSTORM D.O.O.||MIJOVIĆ, Ksenija|
Ordering system which uses mobile devices and RFID tags, comprising a central server, central data base for storing the data, at least one serving device; at least an RFID table tag, acting as a table ID at least an ordering device and at least a managing device, wherein, the central server, the central database, the ordering device, the managing device, and the serving device are connected by a local wireless network (WiFi), the Internet, or any other data transmitting technology.
||WO||WO/2013/129954 - DEVICE FOR FLUIDS KINETIC ENERGY CONVERSION||06.09.2013||
||PCT/RS2012/000005||PAUNOVIC, Nenad||PAUNOVIC, Nenad|
Devices for fluids kinetic energy conversions consist from primary apparatus (8) within framing tube (1) with extensions (2,3), with base (7), with vertical stabilizers (4) with framing ring (5) or half ring(s) (15), with secondary vertical stabilizers (14) with secondary framing ring(s) (6) or half ring(s) (16) with which secondary framing tubes(11) are integrated, with or without extensions (12, 13), inside which secondary appliances (10) for fluids kinetic energy conversions are placed. During the fluid flow trough framing tube (1) and secondary tubes (11) very complex interaction within fluid at the exit of framing tube (1), around framing tube (1) and extensions (2,3) around framing ring (5) or half ring (15), secondary framing ring (6) or half ring (16), vertical stabilizers (4, 14) as well during fluid exit from framing tubes (11) with extensions (12, 13), occur by which the fluid flow velocity trough framing tubes (1,11 ) is being increased by which the amount of converted kinetic energy in side appliances (8, 10) is also increased.
||WO||WO/2013/125969 - MULTIPLE BLADE VERTICAL TURBINE WITH STABILIZED CENTRAL SPOILER||29.08.2013||
||PCT/RS2013/000003||ŠINIK, Ratomir||ŠINIK, Ratomir|
Multiple blade vertical turbine with stabilized central spoiler, FIG.3, can have arbitrary number of symmetrical blades (1). In center of the rotary part of the turbine there is air router (7) in the shape of cylinder that can rotate around it own axis (ο,Ο) using pins (9) and (10). Cylinder contains a tunnel (8) that allows air to pass through it through center of the turbine. Tunnel (8) extends along spoiler from bottom (1 1) to the top (12). Blades of the turbine (1) rotate around spoiler (7) that always occupies the same position in relation to direction of the wind thanks to the stabilizer (13). Stabilizer (13) is connected to spoiler using rigid connection (14) and with the cap (16) is connected to the turbine body (15).