WO/2016/018167 DETACHABLE DISPENSING SYSTEM FOR BOTTLED LIQUID||WO||04.02.2016|
||PCT/RS2015/000019||MILOSEVIC, Milos ||MILOSEVIC, Milos |
A system for dispensing a liquid from a bottle 13 comprises an assembly 17, 18 and a stopper 19 to be introduced into a bottleneck, which stopper can be separated from the assembly. The stopper 19 comprises a liquid dispensing pipe 14, 16 with a electromagnetic valve 15 and a gas path 12 having a check valve 11 therein. The assembly comprises a solenoid 10 and a tank 1 containing gas for driving the liquid from the bottle. The tank is connected via a further electromagnetic valve 3 to gas pipes 8 and 9. The stopper which closes off the bottle can be connected to the assembly such that gas pipe 9 connects with check valve 12 and solenoid 10 surrounds electromagnetic valve 15. By actuating programmable button switch 4 both electromagnetic valves 3, 15 open for a preset time so that a meterd quantity of liquid is dispensed from the bottle. Alternatively, another button switch 5 allows to dispense a non-preset volume of liquid.
WO/2016/013950 DIGITAL SYSTEM FOR COMMUNICATION PRIMARILY WITH AN UNCONSCIOUS SUBJECT WITH CREATION OF PULSE-AUDITORY SYNESTHESIA||WO||28.01.2016|
||PCT/RS2014/000010||TASSOTTI, Fiorenzo ||TASSOTTI, Fiorenzo |
Digital system for communication primarily with an unconscious subject with creation of pulse-auditory synesthesia includes, besides the already mentioned sound SSE and verbal SVE emissions sinchronous with the breathing, emision of the sounds or music sinchronous with the pulse PSE of the connected subject S. The aim of such pulse emission is to create in the perception of the subject S pulse/auditory synestesia because pulse blood wave in the small artheries comes sinhronous with the beat of the emitted music. Thanks to neurophysiological input NIN, it is enabled the receiving of the information about the neurophysiological state of the subject S, regarding his state of consciousness and stages of sleep, through included sistem for sleep tracking in such a way so that the device can adjust verbal and sound emissions to the neurophysiological state of the subject S.
WO/2015/199569 ADJUSTABLE SYSTEM FOR PUMPING WATER WITH SELF-PRIMING PUMP||WO||30.12.2015|
||PCT/RS2015/000018||STOJANOVIC, Boban ||STOJANOVIC, Boban |
Adjustable system for pumping water with self-priming pump consists of check valve (9), flexible plastic hose (7), water container (6),pump (10),power supply(16), drain hose (12) and it is necessary to fill the hose (7) with water over the switch (8) before exploitation and then lower the full system into the well (1).
WO/2015/194984 OPERATING MECHANISM WITH SPRINGS||WO||23.12.2015|
||PCT/RS2015/000015||TOMIC, Dusan ||TOMIC, Dusan |
The operating mechanism with springs belongs to the field of mechanical engineering and is used to produce mechanical energy from the potential energy of multiple systems (34), helical flexion springs (15). Springs (15), the magnets (16) with the carrier (35) and the delimiter (27 A) with a mandrel (14) or without a mandrel are located within the operating shaft (10) and form a system of springs connected in parallel. Systems of springs (15) are tensioned in the direction of the downtime of a one-way connector (18) with a repulsive force of permanent magnets (16 and 17). One-way connector (18) is located in the mandrel (14) or a sprocket (21) and, by a wedge, is coupled to the shaft (10). By pushing away, permanent magnets (16 and 17) strain helical flexion springs (15) and at the same time, come out of reach of forces that attract each other. Simultaneously a supplementary, operating energy is directly released on the rotor (19). By starting the operating mechanism, the potential energy of the springs (15) turns into mechanical, and thus the shafts are moved (10), and via the transmitter, the rotor is started (19).
WO/2015/194983 MACHINE WITH AN ENDLESS BAND-KNIFE FOR CUTTING SPONGE PANELS INTO PIECES||WO||23.12.2015|
||PCT/RS2014/000011||TECHNO FOAM DOO ||SAVINOVIĆ, Radomir |
The present invention relates to the machine (1) with an endless band-knife for cutting sponge panels into pieces which consists of multiple devices: a device (2) for preparing and cutting sponge panels into sponge strips which consists of an inbound table (3), an outbound table (6) and a device (4) for cutting sponge panels into strips that is located in-between them, a device (4) for cutting sponge panels into sponge strips which consists of a frame (41) on which the mechanism (42) for driving and guiding band saw (43) and mechanism (55) for pressing sponge panels are mounted, a device (7) for receiving cut sponge strips and separating single strips which consists of a workbench (70) with a means (72) for pushing sponge strips and a mechanism (74) for placing a single sponge strip onto the conveyor belt transporter (79), a device (8) for profiling lateral sponge strip sides which consists of a housing (80) within which two pairs of disc (81, 82) for profiling lateral sides of sponge strips and two conveyor belt transporters (84, 86) are arranged, a device (9) for rotating the sponge strip prior to being cut into final sponge piece products which consists of a workbench (90), a straight inlet (92) and an inlet (92) for rotating sponge strip through 90°, a device (10) for cutting sponge strip into final sponge piece products which consists of a first pushing means assembly (102), a carrier (103) with stop-pins, a second pushing means assembly (104), a circular saw array assembly (107), a pressing means (108) and an exit conveyor belt transporter (109), and a device (11) for placing final sponge piece products onto the transporter of a packaging machine which consists of a transporter (111) and an inserting means (112).
WO/2015/183119 EXERCISE MACHINE WITH LOAD ROLLING SIMULATION||WO||03.12.2015|
||PCT/RS2015/000013||TRIVKOVIĆ, Vuk ||TRIVKOVIĆ, Vuk |
Exercise machine with load rolling simulation substitutes training in the open air in which a load is rolled or pushed. The exercise machine comprises a continuous moving track (2) of adjustable incline. Above the housing (1) and in front of the continuous moving track (2) is mounted a wheel (4) with paddles (5). The paddles (5) on the outer circumference of the wheel (4) are performed in the shape of teeth, ribs, panels or bars. The wheel (4) is connected by a transmission (20) with the track (2). The track (2) is connected with the brake system (32) for change of resistance to motion of the track (2), and thereby also to turning of the wheel (4). The control panel (6) with display contains commands for adjusting and monitoring the inclination of the track (2) and the resistance to turning of the wheel (4) and for monitoring the velocity and travelled distance of the moving track (2), as well as the duration of the training on the continuous track (2). The exercise machine is used in at least three ways of exercising, it has exceptional ergonomic characteristics, and enables safe training.
WO/2015/174879 MM-WAVE RADAR VITAL SIGNS DETECTION APPARATUS AND METHOD OF OPERATION||WO||19.11.2015|
||PCT/RS2015/000011||NOVELIC D.O.O. ||SAVIĆ, Milan|
The present invention discloses mm-wave radar sensor to be applied for detection of the vital signs of humans, particularly babies, as well as animals, in clinical and daily life environments. The key system relevant elements are the utilization of mm-wave integrated radar system, with specific planar high-gain antenna radiation pattern, with separate receive and transmit antennas, and detection of the following biomarkers: heartbeat and respiratory dynamics. The method of operation calculates the probability of a number of possible events. In case that probability is above a predefined threshold, the interaction with end user or end system is initiated, typically by using arbitrary wireless communication. Corresponding event related predefined actions are performed in that case. Preferably, the system is using 60 GHz integrated radar front end working in Doppler operation mode, with 4 x 4 TX and RX planar radiation elements, with physical size typically in the range 4 x 2 x 1 cm, or smaller.
WO/2015/160272 MM-WAVE RADAR DRIVER FATIGUE SENSOR APPARATUS||WO||22.10.2015|
||PCT/RS2015/000009||NOVELIC D.O.O. ||BRANKOVIĆ, Veselin|
The present invention discloses a mm-wave radar sensor to be deployed in the vehicles for sensing driver fatigue. The key system relevant components are utilization of mm-wave integrated radar, with specific planar high gain antenna radiation pattern, by analyzing at least two major biometric parameters of the drives simultaneously: heartbeat and respiratory dynamics. The method of operation calculates probability of the fatigue event. In case that probability is above a predefined threshold, the interaction with vehicle control system is initiated, using typical arbitrary automotive interfaces. Corresponding predefined actions are taken in that case. The predefined actions could be one or combination of the following: driver safety belt pulling, audio signal alerts to driver, vibration alert to driver, inside cabin light condition changes, engine operation condition change, corresponding communication using arbitrary wireless means to outside vehicle environment. Optionally, the system is utilizing additional driver imposed parameters like acceleration sensor information. Preferably, the system is using 60 GHz or 77-79 GHz integrated radar front end working in Doppler operation mode, with 4 x 4 Tx and Rx planar radiation elements, with physical size typically in the range 4 x 2 x 1 cm, or smaller.
WO/2015/160273 MILLIMETRE-WAVE SEAT OCCUPATION RADAR SENSOR||WO||22.10.2015|
||PCT/RS2015/000010||NOVELIC D.O.O. ||BRANKOVIĆ, Veselin|
The present invention discloses a mm-wave radar sensor to be deployed in the vehicles for seat occupation detection applications. The key system relevant components are utilization of mm-wave integrated radar, specific planar high-gain antenna radiation pattern, and analyzing of the heartbeat and optionally also respiratory dynamics. The method of operation calculates probability of the seat occupation event regarding: detection of the passenger on the seat, detection of a baby or a child on the seat, detection of the presence of a baby or a child in the vehicle after the driver has left the vehicle, detection of the human or animal presence of intrusion in specific vehicle environment. In case that probability is above a predefined threshold, typically the interaction with vehicle control system is initiated using arbitrary automotive interfaces. Corresponding predefined actions are taken in that case. The predefined actions could be one or combination of the following: audio signal alerts to driver, inside cabin light condition change, engine operation condition change, opening of the windows or corresponding communication using arbitrary wireless means to outside vehicle environment. Optionally, the system is utilizing additional parameters like vehicle cabin temperature and/or timing information about engine stop and driver leaving the car. Preferably, the system is using 60 GHz or 77-79 GHz integrated radar front end working in Doppler operation mode, with 4 x 4 Tx and Rx planar radiation elements, with physical size typically in the range 4 x 2 x 1 cm, or smaller.
WO/2015/142204 WATERSKI WITH IMPROVED TORSIONAL CHARACTERISTICS||WO||24.09.2015|
||PCT/RS2015/000008||AM PRECISION COMPOSITES LLC ||DRAGIĆ, Srđan|
A water ski with improved torsional characteristics delimited on the upper side by the upper surface (2), on the bottom side by a concave surface (3) and on the sides by curvilinear sidewalls (7). The ski has a tip (4) at the front side and a tail (5) on the rear side. On the central part of the ski (1), on the upper surface (2), a longitudinal groove (6) is provided which dept and width reduce torsional and flexural stiffness of the central part of the ski (1) in the extent considerably favourable for a skier. The width of the groove (6) is 30 to 80% of the width of the ski (1), preferably 40 to 50% of the width of the ski (1), and the depth of the groove (6) is 20 to 95% of the thickness of the ski (1), preferably 80 to 95% thickness of the ski (1). The groove (6) alters torsional characteristics of the central part of the ski (1) and therewith makes water skiing easier.