WO/2016/075513 SUCTIONING DEVICE FOR LARGE ARTIFICIAL WATER BODIES||WO||19.05.2016|
||PCT/IB2014/065981||CRYSTAL LAGOONS (CURACAO) B.V.||FISCHMANN TORRES, Fernando Benjamin|
The present invention relates to a flexible suctioning device for suctioning floes from the bottom of large artificial water bodies with surfaces larger than 10,000 m and with bottoms covered with plastic liners that do not have centralized filtration systems, and that is able to clean a bottom surface of large artificial water bodies at a surface cleaning rate of 325,000 ft 2 per 24 hours (30,000 m2 per 24 hours) or more, where the bottom surface of the large artificial water bodies can be irregular and sloped, and where the suctioning device is reversible and is supported by a plurality of brushes, comprising first brushes, disposed to provide appropriate support to the suction device and minimize the dispersion and re-suspension of settled floes. The suctioning device is designed in order to concentrate the suction power in a series of suction points, where the suctioning device is connected to an external filtration system that may not be attached to the suctioning device.
WO/2016/045194 FOAM GLASS INTEGRATED PLATE EFFECTIVE IN WATER AND FIRE PROOFING, THERMAL INSULATION AND DECORATION||WO||31.03.2016|
||PCT/CN2014/092848||ZHEJIANG ZHENSHEN INSULATION TECHNOLOGY CORPORATION LIMITED||ZHANG, Yongfu|
A foam glass integrated plate effective in water and fire proofing, thermal insulation and decoration. The foam glass integrated plate comprises a foam glass plate (1). The inside of the foam glass plate (1) is combined with a bonding layer so as to be fixed to a wall (3), and the outer surface of the foam glass plate (1) is a stereoscopic embossed surface and is combined with a coating layer (2). The plate has a simple structure and good decorative effect.
WO/2016/018163 METHODS FOR PRODUCING EXPLOSIVE ANFO AND HEAVY ANFO COMPOSITIONS||WO||04.02.2016|
||PCT/PE2015/000013||EXSA S.A.||RUÍZ VALLE, Heberth Lawrency|
The invention relates to methods for producing explosive compositions formed by ammonium nitrate and fuel, also known as ANFO (Ammonium nitrate/Fuel Oil), and to the explosive compositions formed by bulk emulsion and ANFO, also known as heavy ANFO. The invention especially comprises two types of method for using high-density ammonium nitrate in the production of said explosive compositions.
WO/2016/001797 A COMPUTER IMPLEMENTED SYSTEM AND METHOD FOR COLLATING AND PRESENTING MULTI-FORMAT INFORMATION||WO||07.01.2016|
||PCT/IB2015/054734||VF WORLDWIDE HOLDINGS LIMITED||DESAI, Falguni Jignesh|
A computer implemented system for collating and presenting multi-format information in a user- desired format is envisaged. The system stores information related to clients along with additional their personal information in a transient repository. These stored items of information are usually in different formats which are then converted by the system into a format desired by the user of the system or into a pre-defined format. An input module present in the system accepts form a user, a desired output information format type and a client identifier corresponding to the client whose information needs to be collated. Based on the client identifier, the system converts the stored client related information in the desired format and then collates and displays the converted information for further processing.
WO/2015/192443 METHOD FOR RECOVERING WASTE HARD ALLOY||WO||23.12.2015|
||PCT/CN2014/083316||BEIJING UNIVERSITY OF TECHN0LOGY||NIE, Zuoren|
The present invention provides a method for recovering waste hard alloy. According to the method, the waste hard alloy is used as an anode to directly perform electrolysis in a fused salt. The method comprises the following steps: 1) carrying out vacuum dehydration by using a fused salt dielectric; 2) by using the waste hard alloy as the anode and an inert electrode as the cathode, electrolyzing in the molten fused salt dielectric at 350-1000 ℃; and 3) separating and collecting the metal powder and fused salt dielectric after electrolysis. According to the technical solution of the present invention, tungsten and cobalt ions can directly dissolve out of the anode material-waste hard alloy to enter the fused salt dielectric, and deposit on the cathode plate under the driving action of the electrolysis voltage, thereby the metal powder granules are obtained. The tungsten, cobalt and other product materials obtained by electrolysis can be used as hard alloy materials, high-temperature structure materials, weapon materials, photocatalytic materials and the like, and are applicable to the fields of production processing, aerospace, war industry, environmental energy sources and the like. The method has the advantages of short technical process, no discharge of solid/liquid/gas waste and environmental friendliness.
WO/2015/193011 SWITCHING ARRANGEMENT COMPRISING TWO ON-LOAD TAP CHANGERS, ELECTRIC SYSTEM COMPRISING A SWITCHING ARRANGEMENT OF SAID TYPE, AND USE THEREOF||WO||23.12.2015|
||PCT/EP2015/058976||MASCHINENFABRIK REINHAUSEN GMBH||BÄUML, Gerhard|
A switching arrangement (15) for an electric system (10) that includes a first and a second tapped winding (11, 13) comprises: - a first on-load tap changer (16) that includes a first discharge terminal (161) and three first switching terminals (162), at least two of which can be connected to associated first taps (12) of the first tapped winding (11); - a second on-load tap changer (17) that includes a first discharge terminal (171) and three second switching terminals (172), at least two of which can be connected to associated second taps (14) of the second tapped winding (13); - the second discharge terminal (171) is connected to the first discharge terminal (161) or to a first switching terminal (162") that is not associated with a first tap (12).
WO/2015/180894 DEVICE FOR WINDING A STRIP MATERIAL INTO A COIL||WO||03.12.2015|
||PCT/EP2015/058665||SMS GROUP GMBH||PATZELT, Ulrich|
The invention relates to a device for winding a strip material into a coil. The device comprises a winding mandrel (1) having a shaft element (2) and radially movable segments (16) mounted on the shaft element for winding and unwinding the strip material. The device further comprises an actuating drive (26) for spreading or collapsing the segments. The device also has a rotary drive (5) for rotationally driving the winding mandrel. To achieve a simpler and more economical design, a displacement device (60) is provided for axially displacing the actuating drive (26) together with the winding mandrel (1).
WO/2015/110067 FUSION PROTEIN INHIBITING ANGIOGENESIS OR GROWTH AND USE THEREOF||WO||30.07.2015|
||PCT/CN2015/071434||CHENGDU KANGHONG BIOTECHNOLOGIES CO., LTD.||KE, Xiao|
Provided are a fusion protein inhibiting angiogenesis or growth, coding sequence thereof, carrier comprising the coding sequence, host cell, pharmaceutical composition and use of the fusion protein. The fusion protein of the present invention has high thermostability, and has a dramatic decline in the protein polymer formation rate in a fermentation process, and a significant increase in the purity and yield of the protein, and has better biological activity.
WO/2015/108429 HIGH-PRESSURE COMPOSITE VESSEL AND THE METHOD OF MANUFACTURING HIGH-PRESSURE COMPOSITE VESSEL||WO||23.07.2015|
||PCT/PL2015/000001||TECHPLAST SPÓŁKA Z O.O.||SAFERNA, Adam|
A high-pressure composite vessel comprising a casing fabricated through blow-moulding a preform of thermoplastic material, a connection pipe fitting. In the connection pipe fitting (3) with a retaining collar (7), opposite to a sealing groove (9) designed for an o-ring seal, there is a groove (10) for a seeger to mount a non- detachable collar (lla) of the preform (11) by way of the seeger (10a). A method of manufacturing the high-pressure composite vessel under which the casing of the vessel is fabricated of a preform that is blow-moulded so as to obtain the required dimensions thereof, whereas the preform of a thermoplastic material is fabricated using any technology; and the casing of the vessel is connected with the connection pipe fitting, and the external surfaces of the vessel are reinforced by a special composite layer. The preform (11) first undergoes a process of controlled crystallization and, then, the ring- shaped groove (lib) is made in the collar (lla) of the preform (11), and, subsequently, the preform (11) is blow-moulded to obtain the required dimensions and assembled with the connection pipe fitting (3) equipped with a retaining collar (7) so that the o-ring seal (9a) is placed in the sealing groove (9) in the connection pipe fitting (3), and the seeger (10a) is placed in the groove (10) in the seeger, and, next, the connection pipe fitting (3) is put and clamped onto the collar (lla) of the casing (3); next, the vessel is filled with gas until the value of the pressure inside the vessel becomes constant and the composite layer (2) is fabricated by making a load-bearing wound wraps of bundles of reinforcing filaments according to three winding patterns: helical, polar, and hoop; finally, the whole structure is thermally hardened.
WO/2015/104263 ROBOT FOR TRANSPORTING UNDERLYING BINS WITH INTERCHANGEABLE MAIN POWER SOURCE||WO||16.07.2015|
||PCT/EP2015/050103||JAKOB HATTELAND LOGISTICS AS||HOGNALAND, Ingvar|
The invention concerns a remotely operated vehicle assembly (1) for picking up storage bins (2) from a storage system (3) and a method for changing a power source (6) arranged within the vehicle assembly. The remotely operated vehicle assembly comprises a vehicle body (4) which displays a cavity (7) for receiving a storage bin situated somewhere within the storage system, a vehicle lifting device (9) at least indirectly connected to the vehicle body for lifting the storage bin into the cavity, driving means (10, 11) connected to the vehicle body allowing remotely controlled movements of the vehicle assembly within the storage system, wireless communication means (75) for providing wireless communication between the vehicle assembly and a remote control unit such as a computer, one or more main power sources supplying electrical power to the driving means and vehicle coupling means (22) for operational and releasable coupling of the main power source to the vehicle body.