||WO||WO/2014/110607 - RESCUE BOAT||17.07.2014||
||PCT/VN2013/000010||TAN VIEN DONG TRADING CO., LTD.||BUI, Van Cong|
Embodiments of a rescue boat are disclosed. A rescue boat can include a port pontoon, a starboard pontoon, and a deck, the deck being attachable to the port pontoon and the starboard pontoon. A method of launching the rescue boat includes placing a port pontoon, a starboard pontoon, and a deck in proximity close to a launch point; mating the deck with the port pontoon and the starboard pontoon; attaching the deck with the port pontoon and the starboard pontoon; mounting a motor on a motor mount on the deck; and launching the rescue boat formed by the port pontoon, the deck, and the starboard pontoon.
||WO||WO/2014/100837 - COMPUTER AIDED IMPLANTATION OF BODY IMPLANTS||26.06.2014||
||PCT/VN2012/000008||BUI, The, Duy||BUI, The, Duy|
Systems and methods are disclosed for cosmetic injection. The apparatus includes a processor; a 3D imaging system coupled to the processor; and an injector controlled by the processor to inject filler into a patient.
||WO||WO/2014/089581 - A METHOD FOR POPULATION REPLACEMENT OF CULICINAE MOSQUITOES USING TRA-2 RNAI DRIVERS AND TTA RNAI REPRESSORS.||12.06.2014||
||PCT/VN2012/000007||HOANG DUONG THANH||HOANG DUONG THANH|
Culicinae mosquito vectors are responsible for the transmission of many deadly arboviruses as dengue fever virus, yellow fever virus, Chikungunya virus, West Nile virus, St. Louis encephalitis virus as well as several filarial nematodes. However, introduction of new desired genes into natural mosquito populations is still very challenging due to the lack of suitable gene drive mechanisms. Anti-pathogen genes or genetic recombination factors encoding for certain vaccines can be inserted into and successfully expressed from the Culicinae mosquito genomes when using the molecular techniques. However, they are more likely to be eliminated from the population due to the resulting fitness cost. Simply releasing such genetically modified strains of mosquitoes into the wild will not curtail disease transmission unless the new genes can spread and increase in the natural environment. This will only occur if the introduced anti-pathogen or vaccine genes confer, or are linked to genes that confer, higher fitness to the individuals bearing them, or if they are linked to other genes that increase in frequency through super-Mendelian inheritance. The invention of the Tra-2 RNAi system which leads to the production of up to 100% male progeny and would have double the Mendelian frequency advantage over wild males has created such a powerful drive system (Kim P. H. and Thanh D. H. 201 1; PCTA/N2011/000011 submitted on 29/12/2011: Culicinae mosquito Tra-2 RNAi, a method to genetically produce maleness populations). Theoretically, this system would drive whole populations to a male-only state and thus extinction. In such circumstances, any genetic factor which could resist the male bias effect of the Tra-2 RNAi constructs would be positively selected for and quickly become widespread throughout the whole population. This invention explores the use of the RNAi technique to repress the activity of the tTA gene in the Tra-2 RNAi construct using a†TA RNAi construct; the tTA RNAi construct turns off the male biasing effect and restores progeny back to a 1 :1 sex ratio. The tTA RNAi repressor constructs are favorably selected for and can be used as a vehicle to carry desirable introduced genes into natural populations.
||WO||WO/2014/056003 - SYSTEMS AND METHODS FOR MONITORING MANUFACTURING PROCESSES THROUGH THE EXCHANGE OF INFORMATION IN REAL TIME||10.04.2014||
||PCT/VN2013/000009||PHAM, Quoc Dat||PHAM, Quoc Dat|
The invention relates to a method of production management, including the interactive exchange of information in real time, using wireless data transfer technology and a system to implement this method in industrial production lines through wireless data transfer technology to help improve productivity, and to help managers in supervising, monitoring and adjusting production capacity in a flexible way, and supporting a process to make wage calculation and wage checks for the workers easier and to limit errors in the process of production, thereby creating advantages for workers wishing to know their current salary entitlements for working in the system.
||WO||WO/2013/185151 - PLANT CONTAINER||12.12.2013||
||PCT/VN2013/000007||NGUYEN, Quang Ngoc||NGUYEN, Quang Ngoc|
Plant containers include: container (1), a blocking plate (4) inserted into support groove (2) created on the container walls, pairs of straps (10) fixed in place onto the top surface of the blocking plate (4), a water supply for soil assembly include support pipes (3) and water absorption bars (5), water supply, drainage and ventilation assembly including pairs of connecting tubes (8) with sealing lids (9), automatic valves (6), bottom discharge valves (7); wherein the support pipes (3) have grooves or holes carved along the length of the pipes, with a height equal to the height from the bottom of the container to the support groove and fixed in place into holes in the blocking plate (4) by joints (3.1), in the place where the support pipes are attached to the blocking plate, holes (4.1) are drilled of a size larger than the lower body part(5.1) but smaller than the top head part (5.2) of the water absorption bar (5) such that the top head part (5.2) remains above the blocking plate (4), while the lower body part (5.1), smaller in size than the support pipes, can be integrated into these pipes, pairs of connecting tubes (8) with sealing lids (9) arranged at the sides of the container wall facing the directions to supply water in, drain out water and ventilate; automatic valve (6) which controls the automatic supply of water; and a bottom discharge valve (7) which can be easily opened by removing the valve body (7.1) or valve cap (7.2) to bring water, soil and substrates out and proactively clean the water storage section of the container when needed.
||WO||WO/2013/173851 - CHISEL FOR MAKING A HOLE IN A BRICK OR CEMENT WALL||21.11.2013||
||PCT/VN2013/000006||NGUYEN, Trong Hao||NGUYEN, Trong Hao|
Manual chisel for making hole on brick or cement wall thanks to rotatable countersink (2) when it receives power, similar to the way an electric drill works, that drills through cement or brick and makes hole by hand.
||WO||WO/2013/110096 - PILING APPARATUS AND PROCESS FOR INSTALLATION OF PILE ASSEMBLY||25.07.2013||
||PCT/VN2012/000001||VO, Thanh Minh||VO, Thanh Minh|
The invention relates to a piling apparatus for pile assembly comprises at least one walled pipe (26), a clamping frame (29) having a clamping mechanism to link to a walled pipe (26) which has been inserted into the earth, a pressing stand (24) linked to the clamping frame (29), pressing cylinders (35) having one end linked to the base of pressing stand (24), another end linked to a holding clamp (18). The holding clamp (18) is used to clamp over the material, so as to force at least one material to travel throughout the interior of the walled pipe (26) by using the friction between the walled pipe (26) which has been inserted into the ground with the ground served as a counterpoise components of the apparatus are constructed to press a pressing force against material, formed by pressing cylinders (35) applied to material by means of the holding clamp (18), and a reactive force transferred via the pressing stand (24), the clamping mechanism, the clamping frame (29) to the walled pipe (26) and balanced by the friction between the walled pipe (26) and the ground. The invention further relates to an installation process for pile assembly.
||WO||WO/2013/029062 - PEGINTERFERON LAMBDA 1 CONJUGATES, PROCESSES FOR THEIR PREPARATION, PHARMACEUTICAL COMPOSITIONS CONTAINING THESE CONJUGATES AND PROCESSES FOR MAKING THE SAME||28.02.2013||
||PCT/VN2011/000009||NANOGEN PHARMACEUTICAL BIOTECHNOLOGY CO., LTD||HO, Nhan|
This invention relates to new peginterferon lambda 1 conjugates (peg-ΓΡΝλΙ), processes for their preparation, pharmaceutical compositions containing these conjugates and processes for making the same. These conjugates have increased blood half-lives and persistence time compared to IFNλl and are effective in treatment of hepatitis В and hepatitis C.
||WO||WO/2013/026071 - METHOD FOR PRODUCING A SYNTHETIC MINERAL POLYMER BRICK||21.02.2013||
||PCT/VN2012/000006||TRUNG HAU MACHINERY MANUFACTURING AND NEW MATERIALS PRODUCTION JOINT STOCK COMPANY||TRAN TRUNG NGHIA|
The present invention provides a method for producing a synthetic mineral polymer brick comprising the steps: forming a die, of which cavity cross-section is the same as the cross-section of the brick to be produced, and two compressing rods, which can move opposite to each other; metering batch of cement, silic mineral, water and polymer binding additives; uniformly blending and providing the humidity for the batch to form a semidry batch; feeding the semidry batch into the die cavity; displacing a first compressing rod in a first direction to press the fed semidry batch in the die; displacing a second rod in a second direction to press the fed semidry batch in the die to form a pre-shaped brick in the die; displacing the first compressing rod in the second direction to be drawn out of the die; nextly displacing the second rod in the second direction to push and bring the pre-shaped brick out of the die; and displacing the second rod in the first direction to return to the original position that is available for the next cycle.
||WO||WO/2013/020144 - AUTOMATIC GEARBOX||07.02.2013||
||PCT/VN2012/000005||MINH, Huynh Quang||MINH, Huynh Quang|
The present invention relates to an automatic gearbox comprising at least a drive transmission assembly. The drive transmission assembly comprises an active shaft (1100a) rotatable in a predetermined direction, an intermediate shaft (1200a), and a passive shaft (1300a). A connecting rod (1150a) is connected in a rotatable manner at its one end to the active shaft (1100a) and at its other end to the intermediate shaft (1200a). The connecting rod (1150a) is adapted to transmit rotary motion of the active shaft (1 100a) to the intermediate shaft (1200a) so that the intermediate shaft (1200a) is rotatable in two different directions in a predetermined angle. The drive transmission pairs connect the intermediate shaft (1200a) and the passive shaft (1300a) so as to transmit rotary motion of the intermediate shaft (1200a) to the passive shaft (1300a). The drive transmission pairs are adapted in a way that they' are only in the drive transmission state when the intermediate shaft (1200a) rotates in a predetermined direction.