WO/2016/074654 DEVICE FOR GRANULATING SLUDGE AND METHOD FOR OPERATING SAID DEVICE||WO||19.05.2016|
||PCT/DE2014/100401||STELA LAXHUBER GMBH ||LAXHUBER, Thomas, Christian |
The invention relates to a device for granulating sludge, comprising a hollow-cylindrical die into which sludge to be granulated is injected and in which a scraper with at least one knife is rotatingly arranged. According to the invention, the at least one knife is held on the rotating scraper in a radially movable manner by means of a knife holder.
WO/2016/070301 HEAT TREATMENT DEVICE SYSTEM FOR CIRCULAR SEAM OF NUCLEAR POWER STEAM GENERATOR AND USE THEREOF||WO||12.05.2016|
||PCT/CN2014/001169||SHANGHAI ELECTRIC NUCLEAR POWER EQUIPMENT CO., LTD. 上海电气核电设备有限公司||LI, Shuangyan 李双燕|
A heat treatment device system for a circular seam of a nuclear power steam generator and the use thereof. The system includes a heat treatment apparatus, a flow-controllable cold wind ventilator, a temperature- and flow-controllable hot wind ventilator, a displacement measuring system, a temperature detection system, and a non-destructive testing apparatus. During the manufacturing process of the nuclear power steam generator, the heat treatment device system for the circular seam of the nuclear power steam generator could be used to dock the upper circular steam (11) firstly, and then the lower circular steam (21). The system can not only prevent the emergence of pits caused by permanent impressions in heat exchange tubes, but also optimize the manufacturing process of the steam generator, and therefore reduce the whole manufacturing cycle of the steam generator.
WO/2016/027389 CONTINUOUS PRODUCTION METHOD FOR SINTERED ORES, AND PRODUCTION EQUIPMENT LINE FOR SINTERED ORES||WO||25.02.2016|
||PCT/JP2015/001521||JFE STEEL CORPORATION||MASUMOTO, Shinichi|
The present invention enables the provision of a continuous production method for sintered ores in which the picking of an iron ore is continued whilst the picking of a limestone powder raw material and a solid fuel powder to a first conveyor line is stopped, and stable operation in the production equipment line for sintered ores can be continued without stopping a main sintering machine, even if a second conveyor line is stopped, by combining picking limestone powder raw material and a solid fuel powder to a second conveyor line that reaches the granule outlet of a drum mixer, and introducing same from a sintering raw material charging-hole of the drum mixer to the inside of the drum mixer, via the first conveyer line, and stopping the second conveyor line, initiating the picking of the limestone powder raw material and a solid fuel powder to the first conveyor line together with the iron ore, and introducing same from the sintering raw material charging-hole of the drum mixer to the inside of the drum mixer, via the first conveyer line.
WO/2016/007099 ESCALATOR HANDRAIL BAND CLEANER||WO||14.01.2016|
||PCT/TR2014/000225||BANDCLEANER MEDIKAL KIMYEVI MADDELER ELEKTRIK TAAHHUT ITHALAT ||KURT, Yakup |
This invention is basically an escalator handrail band cleaner for escalator handrail bands that is consisted of a frame where advertising area take place on. It is consisted of main frames (1) which are prepared in the manner that can be adapted to escalator and handrail forms with different models, at least one disinfectant tube (2) positioned in the manner that can spray disinfectant agent to the handrail band (9) within the main frame (1) and a cartridge (4) which will realise wiping the handrail band and which is positioned on handrail bands (9) which do not prevent the rotation of handrail band (9).
WO/2016/000231 METHOD FOR PROCESSING ZINC OXYCHLORIDE-CONTAINING SECONDARY MATERIAL||WO||07.01.2016|
||PCT/CN2014/081557||YUNNAN XIANGYUNFEILONG RESOURCES RECYCLING TECHNOLOGY CO ., LTD. 云南祥云飞龙再生科技股份有限公司||SHU, Yuzhang 舒毓璋|
A method for processing a zinc oxychloride-containing secondary material comprises the following steps: 1) leaching a zinc oxychloride-containing secondary material I by using an acid solution; 2) selectively extracting zinc by using a P204-kerosene solvent; 3) conducting reverse extraction-electrolysis to recycle zinc; 4) cyclically operating steps 1) to 4) to achieve enrichment of chlorine, potassium, sodium, magnesium and the like and form a chlorine salt-sulfate mixed system; 5) opening the raffinate obtained in step 4), mixing the opened raffinate with a zinc oxychloride-containing secondary material II when the input and opening balance of chloride ions is achieved, conducting liquid-solid separation, and performing step 1) on the separated deposits for leaching with the acidic raffinate; 6) when the separated solution satisfies a preset condition, purifying the chlorine-containing water phase; and 7) conducting evaporation and concentration to obtain KCl and NaCl products by means of crystallization. This processing method is environment-friendly and energy-saving, requires no discharge of process wastewater, significantly reduces the production cost, and completely eliminates secondary pollution caused by the current dechlorination process.
WO/2015/165267 LOCK INPUT UNIT AND CONVERSION APPARATUS||WO||05.11.2015|
||PCT/CN2014/093983||MIN, Hao 闵浩||MIN, Hao 闵浩|
A lock input unit comprising a base (1), a mechanical combination lock dial, and an electronic combination input part. The base (1) is arranged on the surface of a lock. The mechanical combination lock dial is rotatably arranged on the base (1), is provided with combination graduations around the bottom edge, and is used for controlling the opening of a mechanical combination lock part of the lock. The electronic combination input part comprises a housing (3), a power source (4), an electronic processing part (5), and an electronic input component (6) and is used for controlling the opening of an electronic combination lock part of the lock. The power source (4) and the electronic processing part (5) are both arranged within the housing (3). The housing is (3) arranged outside of the mechanical combination lock dial. The electronic input component (6) is arranged on an outer surface of the housing (3).
WO/2015/165247 LOCK AND ROTARY PLUG THEREOF||WO||05.11.2015|
||PCT/CN2014/090931||MIN, Hao 闵浩||MIN, Hao 闵浩|
A lock and a rotary plug (4) thereof. The rotary plug (4) is provided with a cylindrical plug body. A groove is provided at a side of the plug body. The plug body is capable of rotating around the axis thereof. An entity located at the groove of the plug body is capable of rotating into or out of the trajectory of motion of a lock tongue (3), thus implementing locking and unlocking of the lock.
WO/2015/167408 NANOPARTICLE FORMULATION CONTAINING FARNESYLTHIOSALICYLIC ACID (SALIRASIB)||WO||05.11.2015|
||PCT/TR2014/000248||PEHLİVAN, Sibel||PEHLİVAN, Sibel|
It is related to farnesylthiosalicylic acid (Salirasib, FTA) loaded PLGA nanoparticles functionalized with lipid/cationic lipid-PEG (hybrid), which can cross the BBB in effective concentration. The formulations can be administered intravenously or intratumorally.
WO/2015/147742 USE OF BENZOIC ACID SALT IN THE MANUFACTUE OF A COMPOSITION FOR PREVENTING OR TREATING DEMENTIA OR MILD COGNITIVE IMPAIRMENT||WO||01.10.2015|
||PCT/SG2014/000140||KAOHSIUNG CHANG GUNG MEMORIAL HOSPITAL||LANE, Hsien-Yuan|
The present invention provides a novel use of benzoic acid salt in the manufacture of a composition for preventing or treating dementia or mild cognitive impairment, particularly, for preventing or treating mild Alzheimer's disease or amnestic mild cognitive impairment.
WO/2015/139807 PROTECTIVE ELEMENT, CONCRETE ELEMENT, AND METHOD FOR PRODUCING A CONCRETE ELEMENT||WO||24.09.2015|
||PCT/EP2015/000364||HERRENKNECHT AG||RECHER, Gilles|
The invention relates to a protective element for connecting to a concrete element (10) of a tunnel construction, which protective element has at least one protective segment (21, 22, 23), which has a side facing the concrete element (10), on which side at least one connecting element (24, 25, 26, 27, 28) is provided for producing a retaining connection of the protective segment (21, 22, 23) to the concrete element (10), wherein the protective segment (21, 22, 23) has a bottom segment (21) and/or a wall segment (22, 23) and at least one region made of at least one plastic, and the protective element has at least one seal (30), which is integrally connected to the protective segment (21, 22, 23), wherein the connection is gas-tight and liquid-tight, and the integral connection of the seal to the protective segment is produced by injection molding with the at least one plastic and forms a first segment of the bottom segment (21) and/or of the wall segment (22, 23) of the protective segment (21, 22, 23). With regard to the protective element, the bottom segment (21) and/or the wall segment (22, 23) of the protective segment (21, 22, 23) has/have at least a second segment, wherein the second segment has a planar extent and the second segment is connected to the first segment by injection molding.