WO/2016/115577 HELICOPTER - VEHICLE (OR FLYING OTO)||WO||21.07.2016|
||PCT/VN2015/000001||Huy Thang Dao||Huy Thang Dao|
The present invention provides Helicopter - Vehicle. The Vehicle includes a body (1), three legs (13), (14) and their wheels, two gas turbine engines (27) attached to a horizontal pipe (33), and fans (34).
WO/2016/115578 THE ENGINE OPERATED BY THE BUOYANCY OF WATER||WO||21.07.2016|
||PCT/VN2015/000015||PHAM, Ngoc Quy||PHAM, Ngoc Quy|
The invention relates to engine operated by the buoyancy of water, this engine is made up of water tank(16), the first device cluster (100) includes a shaft (1) and two gears (2a, 2b), at the teeth (24) there is a one-way air-supply valve (23), the second device cluster (200) includes a shaft (3) and two gears (4a, 4b). There is a difference that the third device clusters (300) includes two flanges (9a, 9b), a rectangular box (10) functioned to change the volume while coordinating activities with the structure of shaped rails (17) and (18), multiple third device clusters (300) are connected together by latches (15) forming a closed circle, the flanges (9a, 9b) of the closed circle are inserted fit the teeth (24) of the gears (2a, 2b) of the first device cluster (100) and mounted to fit the teeth (24) of the gears (4a, 4b) of the second device cluster (200).
WO/2016/074004 A GENERATION SYSTEM BY GASIFICATION||WO||12.05.2016|
||PCT/VN2015/000014||NGUYEN, Gia Long||NGUYEN, Gia Long|
The invention relates to the generation system by gasification including the gasification module (1), gas cleansing module (2) and power generation module (3). The gasification module (1) includes: gasification reactor (10) including the main body (11) which is formed with gasification reaction chamber (111); the first decompression structure (112) formed with on the top surface of the main body; he second decompression structure (113) surrounded a unit of outside circumference on the top of the main body; gas and ash chamber (114) surrounded outside the lower unit of the main body; refueling structure (12) mounted at the top of and connected with gasification reactor (10); grate structure (13) ranged so as to be back into the bottom of gasification reactor (10); the first water tank (14) fixed on and rotate with grate structure (13); and system for providing gasification agent (15) having tube head connected with grate structure (13). Gas cleansing module (2) formed with primary gas cleansing module (21), secondary gas cleansing module (22), the second water tank (24) containing the entire lower unit of primary gas cleansing module (21) and secondary gas cleansing module (22), at least one unit to pick up impurities (23) arranged at the bottom to pick up impurities in the second water tank (23). Power generation module (3) structured by the tower containing clean gas (30), at least an internal combustion power generation engine (31), and a power distribution unit (32).
WO/2016/044861 MULTIFUNCTION JOINT ASSEMBLY||WO||24.03.2016|
||PCT/VN2015/000012||FUVI MECHANICAL TECHNOLOGY COMPANY LIMITED||NGUYEN, Phu Vinh|
The invention provides multifunction joint assembly (13) having the structure comprising: the first member (13a) with a base portion (13al) attached to the cylinder portion, and the shaped portion (13a4) is made from the resilient material, different from the material the base portion and the cylinder portion and having the male given cross-section and is formed the converging cone angle enclosing the cylinder portion of the base portion (13al), the second member (13b) provided with the edge portion (13bl) attached to the housing portion (13b2), and the recess portion (13b) made from the resilient material, different from the material the edge portion and the housing, with the hole provided the female given cross-section and formed the divergent cone angle are substantially similar and equal to the cross-section and the cone angle of the shaped portion (13a4), respectively, and the threaded rod may be screwed with the threaded hole of the base portion (13al) of the first member (13a) so as to detachably connected it to the loaded structure. As the first member (13 a) is attached to the loaded structure by the threaded rod (13c), the second member (13b) may be coupled to or disassembled from the first member (13a), thereby forming multifunction joint assembly (13) be possible to assemble/disassemble promptly and easily to/from the loaded structure.
WO/2016/033617 METHOD OF ASYNCHRONOUS MACHINE TRANSLATION||WO||03.03.2016|
||PCT/VN2015/000010||Nguyen Duy Thang||Nguyen Duy Thang|
The invention has provided an asynchronous machine translation to standardize and simplify translation process as well as improve translation quality. The invention divides the process of translating from language A to language B into two steps, each of which may be independently developed. Step 1 : translating language A to values stored by multipurpose language data storage method (intermediate data) Step 2: converting intermediate data into any language B, exported data may be text, sound, image, sign... The intermediate data enables to exterminate synonyms. Division of the translation process into two independent steps helps to decrease difficulty of translation between two languages (changing from multiplication to addition) and simultaneously translate multi-languages, independently develop new languages and reduce translation on a device to various devices.
WO/2016/033618 METHOD OF DATA STORAGE AND LANGUAGE CONVERSION||WO||03.03.2016|
||PCT/VN2015/000011||Nguyen Duy Thang||Nguyen Duy Thang|
The invention has proposed multipurpose language data storage method with the aim at making machine translation, text storage and processing better. This method includes the following steps: + Creating data structure, dividing data areas to store components including part of speech, vocabulary, general grammar, synonyms and expansion; word, phrase, sentence, character... are stored by a value. It can be understood that this invention stores data according to object (language unit) but not character at present. Synonyms may be represented by a common value. For all languages, a language unit (word, phrase, sentence...) will have only one value. + Converting plain text into data form included in the invention. It is necessary to determine input language, part of speech, grammar, vocabulary... to convert it into data corresponding to 8 first bytes of data areas used to determine which language to be stored. + Converting data of the invention into text or other forms such as sounds, images and signs...The first steps is to see whether the language to be stored, the language to make data and the result language are identical. In case of two languages, it is required to assign values of Synonyms and Expansion again in default. After that, data is taken simply by converting stored data of the invention into values in the memory including result data.
WO/2016/015064 ASSEMBLY SHELVES||WO||28.01.2016|
||PCT/VN2015/000009||HAPPINESS ANGEL SERVICE AND TRADING COMPANY LIMITED||NGUYEN, Dang Anh Dzung|
The present invention relates to assembly shelves comprise boards (T) having, substantially, flat and rectangular shapes, each board (T) comprising a pair of edge (T1), each having a trench (T3) along the length thereof, and a pair of edge (T2) and/or slots (T5) provided on edge (T2), slots (T5) of different boards (T) can interlock with each other for fastening such boards (T) with each other; and corner members (G), each having convex edges (G1) along its length and with the shape compatible with the one of trench (T3) on the edge (T1) of the board (T), so that the trench (T3) and convex edge (G1 ) of the corner member (G) can be assembled to each other by a tenon joint, and corner members (G) used for different assembling positions having the different number of convex edges (G1).
WO/2016/011462 WIND TURBINE BLADE WITH TRUSS-SUPPORTED STRUCTURE AND TWISTED FACE||WO||21.01.2016|
||PCT/VN2015/000007||LAI, Ba At.||LAI, Ba At.|
The invention presents a wind turbine blade with truss-supported structure and twisted face for higher power output and better protection of wind turbine in different weather conditions, this kind of wind turbine blade can be made of metal and helps to reduce noise, it includes a blade root which is insulated from the rotor in front of the shaft, a, truss-supported structure which is made of metal tubes, giving strength to the blade and forming a twisted surface to bear the front plate, and a blade front plate which is a metal or non metal sheet with virtually the same width up to the blade tip. The value α,- of the inclination angle at norm at each position of the twisted blade is determined so that the expression (v - d,ωcotα, )2 cosα, sin2 α, on the condition that: 0 <α< 90° & (v - d,ωcotα,) > 0 has the highest value, in which v is wind velocity at the rated output of the wind turbine; ω is the turbine angular velocity at the rated output; di is the distance from blade position i to the turbine shaft. When the wind velocity is smaller than the rated output wind speed, the blade will be adjusted to increase the inclination angle. When the wind velocity exceeds the rated output wind speed, the blade will be turned to reduce the inclination angle. The blade front plate can be rolled up or spread along the blade length by means of electric motors mounted close to the blade root and insulated from the truss-supported structure. Thanks to the increased blade surface area, the optimal inclination angle between the blade surface and wind direction, and the truss-supported structure which strengthens the blade and minimizes obstruction in the space behind it, it is possible to optimize the ability to produce work of the wind turbine, thus enhancing its power output and allowing for the manufacture of wind turbines that can operate at a constant speed. That the front plate can be rolled up also helps to protect the turbine in different windfield conditions. Besides, since lightning protection is possible, the blades can be made of metal, thus reducing manufacturing costs. Last but not least, because the expected output can be achieved at low rotational speed, the noise from wind turbine operation will also be reduced.
WO/2016/007975 ALL STERILE MALES OF CULICINE MOSQUITOES: A METHOD OF CREATION||WO||14.01.2016|
||PCT/VN2014/000004||HOANG, Duong Thanh||HOANG, Duong Thanh|
An all male Culicide mosquito population is created by knocking down its Transformer-2 gene, causing the dysfunction of X chromosome-bearing sperm, hence producing severe biased male progenies. Unlike previous methods, we recently discovered that the Tra-2 knockdown also results in female- specific zygotes lethality (XX). This art is therefore also designed to kill early female zygotes (XX) that may have survived the previous knockdown, and the all male progenies are created only when an antibiotic substance has been added into food and drink to feed mosquitoes. The strict limit of the antibiotic exposure time allows mosquito-adapted Wolbachia bacteria to survive. Selected Wolbachia bacteria may induce cytoplasmic incompatibility (CI) of up to 100%. All the progenies are therefore genetically males, which cause sterility when outcrossing with females infected by another Wolbachia strain (bidirectional CI) or are uninfected (unidirectional CI) in natural environment.
WO/2015/184476 PRECAST CONCRETE FALSEWORK BUBBLEDECK ELEMENT AND PROCESS OF MANUFACTURING THEREOF||WO||03.12.2015|
||PCT/VN2015/000006||DO, Duc Thang||DO, Duc Thang|
The invention relates to the precast concrete falsework bubbledeck element, including: upper steel mesh sheet (110); lower steel mesh sheet (120); many hollow balls (130) fixed between a upper and lower steel mesh sheets (110, 120) so that adjacent hollow balls (130) will be contact with each other; reinforcement frames (140) are placed along the length of bubbledeck elements, and fixed between the upper and lower steel mesh sheets (110, 120) in vertical direction by spot welding; connectors (150) fixed to the lower steel mesh sheet (120); and bottom falsework (160) made of UHPC so that the bottom falsework (160) covers a part of leg of connector (150) to be fixed to the lower steel mesh sheet (120) but separates a certain distance from the lower steel mesh sheet (120).