|1.||WO||WO/2014/029372 - ASPHALT MODIFIED WITH AN SBS/MMWCNT NANOCOMPOSITE AND PRODUCTION METHOD THEREOF||27.02.2014||
|PCT/CO2013/000005||CORPORACION PARA LA INVESTIGACION Y DESARROLLO DE ASFALTOS EN EL SECTOR TRANSPORTE E INDUSTRIAL-CORASFALTOS||QUINTERO RANGEL, Luz Stella|
The invention relates to a method for modifying an asphalt binder using, as an additive, a nanocomposite of: functionalised multi-walled carbon nanotubes dispersed in a styrene-butadiene-styrene polymer matrix (SBS/MMWCNT). The asphalt modified with the SBS/MMWCNT nanocomposite has substantially improved mechanical resistance to deformations and to loads at high temperatures, such that the life of the flexible paving is improved. The asphalt mixtures produced with this novel modified asphalt binder have considerably less rutting, are classified as high-modulus asphalt mixtures when produced from asphalt of medium (60/70) or greater hardness, and are not sensitive to moisture effects.
|2.||WO||WO/2014/026655 - TEMPLATE FOR DRAWING EXACT GEOMETRIC FIGURES WITH A ROTARY CIRCULAR DISC AND MEASUREMENT CHECKER, AND METHOD FOR ASSEMBLY THEREOF||20.02.2014||
||PCT/CO2013/000004||BAYONA SALAZAR, Victor Martin||BAYONA SALAZAR, Victor Martin|
This novel template with novel functions enables the user to draw and create geometric figures and all kinds of angles, rapidly and with precision. It is characterized in that it comprises a rotary circle with template holes, separated from one another by equal spaces superposed on radial lines, with serrated circle templates with sizes of between 1/7th and 1/10th of the dimensions of the general frame, and it has a transverse slot running from one corner to the other, and the slot also passes through the rotary circle over only half of the diameter thereof, where there is a measurement checker.
|3.||WO||WO/2014/000716 - FLOATING ELECTRICAL APPARATUS WHICH PERPETUALLY GENERATES ELECTRICAL ENERGY||03.01.2014||
|PCT/CO2012/000003||ARNEDO GONZÁLEZ, Luis Raúl||ARNEDO GONZÁLEZ, Luis Raúl|
The invention relates to an electrical apparatus which perpetually generates electrical energy when it stores transient electrical currents, said apparatus being constructed with at least second-order differential equations LC, floating with respect to earth, which equations use electrical superconductors to eliminate the damping factor. The apparatus, which oscillates perpetually, is formed by a lightning arrester (1) connected, by means of a bare 4/0 AWG down cable (2) containing an electrical fuse (6), to the terminal of a capacitor (5) which is connected in parallel with a transformer (4) having a primary winding that is implemented with a superconductor, all on an acrylic base (8) and all supported on a PVC tube (3), as well as a secondary winding of transformer (7), together forming a perpetual oscillator. In addition, a floating short-circuit coil (9) is placed upstream of the fuse so that it stores the excess electrical energy when the electrical fuse is opened.
|4.||WO||WO/2014/000717 - BIOMETRIC VALIDATION METHOD AND BIOMETRIC TERMINAL||03.01.2014||
|PCT/CO2013/000003||IDENTICA S.A.||BOTERO MONTAÑO, Rodrigo|
The invention relates to a biometric validation method that is initiated when a person to be identified makes a biometric authentication request by introducing his/her PIN into an electronic device. The request is made through an authorisation centre which receives both the PIN introduced and the code that identifies the fingerprint capture and encoding device to be activated. Upon receiving this information the activation request is sent from the centre to the fingerprint capture and encoding device. Once the print has been captured, a print template is obtained, which is then encrypted and sent to the centre where it is compared with reference templates. Subsequently, the centre sends a corresponding positive or negative authentication signal to the person that made the request. The method can be used for biometric validation using a biometric terminal equipped with means for communicating directly with the centre without any additional software or hardware being installed in the electronic device that requires the biometric identification.
|5.||WO||WO/2013/189466 - DEVICE FOR INFLATING THE LARYNGEAL MASK AND THE ENDOTRACHEAL TUBE BALLOON||27.12.2013||
|PCT/CO2013/000002||TAFUR BETANCOURTH, Luis Alberto||TAFUR BETANCOURTH, Luis Alberto|
The present invention pertains to the field of medicine and relates to a novel alternative for significantly improving control of the inflation pressure of the laryngeal mask and endotracheal tube balloon in the wake of a procedure for accessing airway control. Thus, the present invention provides a novel device that allows, in an economic, appropriate and efficient manner, measurement of the sealing pressure of airway‑management medical devices, from insertion and positioning thereof up to removal thereof, not only during the use of the devices for short periods but also in cases of extended intubation. To achieve this, the present invention provides a disposable, affordable, economic and easy‑to‑use element that allows measurement of the pressure achieved after inflation of the endotracheal tube balloon (hereinafter called "ETB"), of the laryngeal mask and of any device that, in order to be sealed, requires the use of a reservoir of air. Adequate, appropriate control of this pressure results in improved health care and a reduction in side effects deriving from non‑monitored use of sealing pressures and volumes.
|6.||WO||WO/2013/167094 - ROBOTIC PLATFORM FOR IN-PIPE INSPECTION||14.11.2013||
|PCT/CO2013/000001||UNIVERSIDAD INDUSTRIAL DE SANTANDER||ARCHILA DÍAZ, John Faber|
The invention relates to an inspection robot for pipes used to transport different types of fluids (liquids or gases). The robot considers the interaction between the fluid, the pipe and the robot in order to prevent: overpressure in the pipe above the maximum operating pressures, and pressure drops below vapour pressure, thereby preventing cavitation in the case of liquids. The robot extracts energy from the fluid and uses said energy to move itself, the speed of the robot also being controlled such that it can move at a constant speed, eliminating variations in speed typical of fluid transport. The reconfigurable constant speed is achieved using a control system which maintains the speed at a reference value and evaluates the interaction between the robot, the pipe and the fluid in order to maintain safe operating conditions.
|7.||WO||WO/2013/149600 - ELECTRICAL DEVICE FORMED BY A FLOATING SHORT-CIRCUIT WINDING||10.10.2013||
|PCT/CO2012/000001||ARNEDO GONZÁLEZ, Luis Raúl||ARNEDO GONZÁLEZ, Luis Raúl|
The invention relates to an electrical device formed by a floating short-circuit winding which is a floating node, produced with specific minimum values in order to store currents of 2'000.000 peak Amperes. A short-circuit winding (3) with a mean length of two metres and having an insulated copper conductor with a gauge of 4/0 AWG, which is placed on a porcelain, ceramic or acrylic base (2) in order to be supported with respective fittings, these in turn being placed on a tube (1) made from PVC or any other material having high electrical resistance of the order of ΜΩ, the short-circuit winding (3) being connected by a 4/0 AWG bare down cable (5) to the system to be protected.
|8.||WO||WO/2012/163308 - MULTI-FUNCTIONAL, INTEGRATED AND MODULAR PLANT FOR SEPARATING SOLIDS, OILS AND HYDROCARBONS AND TREATING OIL INDUSTRY WASTEWATER||06.12.2012||
|PCT/CO2011/000002||CUBIDES CHACÓN, Luis Alfonso||CUBIDES CHACÓN, Luis Alfonso|
The invention relates to a multi-functional, integrated modular plant for separating solids, oils and hydrocarbons and treating oil industry wastewater. The plant contains six divisions and five separation systems: a reciprocating scraper mechanism including long blades, which mechanism is driven by an electric motor; an oleophilic fabric panel; a conical hopper or funnel system having an absorbent fabric; and a rotating blade system. The plant is easy to transport, since the tanks can be modular and made from plastic. The plant can operate with electric power, using electric pumps, or without electric power, using the force of gravity. The flow of water can be controlled using valves. In addition, the plant includes a vibrating electric motor which vibrates the assembly of screens which can separate crumbly sludge from water.
|9.||WO||WO/2012/146217 - METHOD AND APPARATUS FOR PRODUCING MAGNETIZED WATER||01.11.2012||
|PCT/CO2012/000002||RUIZ TOLEDO, Cindy Lorena||RUIZ VILLEGA, Jimmy Alfonso|
Method for producing magnetized water comprising drinking water (1) entering via the upper tube (2) and being circulated through tubes (3) arranged horizontally and in parallel, which tubes are coupled by means of the valves (4) and have, on the outer surface, a series of magnets (5), each being 0.4 T (4000 Gauss) to 0.5 T (5000 Gauss), placed every 10 cm in the case of magnets with minimum Gauss and every 15 cm in the case of magnets of greater Gauss percentage (1 T = 10 000 Gauss), which are directed, respectively, towards the North Pole and towards the South Pole; in which the exposure of the water in this method is for a maximum period of 8 hours; and, at the end of that time, bipolar magnetized water is produced which exits via the lower tube (6) to the packing.
|10.||WO||WO/2012/083900 - METHOD FOR PREPARING BIODEGRADABLE MEMBRANES FOR SOFT TISSUE REGENERATION||28.06.2012||
|PCT/CO2011/000001||BRICEÑO TRIANA, Juan Carlos||BRICEÑO TRIANA, Juan Carlos|
The invention relates to a method comprising the mechanical and chemical treatment of the small intestine of a warm-blooded vertebrate, in order to remove the mucous, serous and muscular coats and to obtain the remaining submucous coat. In short, the jejunum portion of the small intestine is obtained from a recently deceased warm-blooded vertebrate and is stored at 4°C in 0.9% saline solution. Subsequently, longitudinal scraping is performed for the initial removal of the mucous coat and it is then washed until clean. The small intestine is cut longitudinally and both surfaces are scraped in order to remove the remaining mucous coat and the muscular and serous coats, until a translucent white membrane is obtained. This is then submerged in 0.9% saline solution or distilled water and washed for 30 to 120 minutes until the blood residues disappear, constantly stirring same and changing the water every 20 minutes. Scraping is performed once again in order to eliminate the last remanents of the serous, muscular and mucous coats. It is then exposed to a mixture comprising 0.5% sodium hypochlorite and 0.5% hydrogen peroxide for 15 to 40 minutes in order to eliminate the remaining cells, constantly stirring same and observing that no obvious structural changes occur. It is washed with a phosphate buffer solution for 15 minutes, stirring constantly, and subsequently washed with 0.9% saline solution or distilled water. The membrane obtained is shaped according to use. The membranes can be used individually or to form an aggregate of multiple stacked membranes depending on the desired strength and the membranes can be given particular shapes. Following shaping, the membranes are dehydrated by means of exposure to a laminar sterile air flow. The entire method must be carried out in maximum asepsis conditions at ambient temperature. The membranes must be sterilised prior to implantation in a living organism. Said membranes can be used in maxillofacial surgery, reconstructive and plastic surgery, cardiovascular surgery, gastroenterology and urology, inter alia.