Patents by Inventor Adino D. Caballero
Adino D. Caballero has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10111987Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.Type: GrantFiled: April 25, 2018Date of Patent: October 30, 2018Assignee: Innovatech, LLCInventors: Adino D. Caballero, Bruce Nesbitt, Charles Berkelhamer, George F. Osterhout
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Publication number: 20180236144Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.Type: ApplicationFiled: April 25, 2018Publication date: August 23, 2018Inventors: Adino D. Caballero, Bruce Nesbitt, Charles Berkelhamer, George F. Osterhout
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Patent number: 9962470Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.Type: GrantFiled: July 19, 2017Date of Patent: May 8, 2018Assignee: Innovatech, LLCInventors: Adino D. Caballero, Bruce Nesbitt, Charles Berkelhamer, George F. Osterhout
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Publication number: 20170312400Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.Type: ApplicationFiled: July 19, 2017Publication date: November 2, 2017Inventors: Adino D. Caballero, Bruce Nesbitt, Charles Berkelhamer, George F. Osterhout
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Patent number: 9744271Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.Type: GrantFiled: October 28, 2014Date of Patent: August 29, 2017Assignee: Innovatech, LLCInventors: Adino D. Caballero, Bruce Nesbitt, Charles Berkelhamer, George F. Osterhout
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Publication number: 20150044408Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.Type: ApplicationFiled: October 28, 2014Publication date: February 12, 2015Inventors: Adino D. Caballero, Bruce Nesbitt, Charles Berkelhamer, George F. Osterhout
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Patent number: 8900652Abstract: A method of manufacturing a coated low-friction medical device, such as low-friction medical tubing, including applying a coating to one or more selected portions of a surface of low-friction medical tubing to indicate at least one marking formed along the surface of the low-friction medical tubing, and simultaneously or substantially simultaneously: (a) curing the applied coating to a designated temperature (which is above the temperature at which the low-friction medical tubing begins to decompose and shrink) to adhere the applied coating to the surface of the low-friction medical tubing, (b) utilizing one or more anti-shrinking devices to counteract or otherwise inhibit the shrinking of the low-friction medical tubing, and (c) exhausting any harmful byproducts resulting from curing the low-friction medical tubing to a temperate above the temperature at which the low-friction medical tubing begins to decompose.Type: GrantFiled: March 9, 2012Date of Patent: December 2, 2014Assignee: Innovatech, LLCInventors: Adino D. Caballero, Bruce Nesbitt, Charles Berkelhamer, George F. Osterhout
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Patent number: 7488511Abstract: A method for coating glass, and specifically for manufacturing perfluoroalkoxy copolymer coated glass and tetrafluoroethylene perfluoromethyl vinyl ether copolymer coated glass. The method includes placing a glass substrate on an electrically grounded support and cleaning it with a solvent to remove impurities and prepare the surface of the substrate to be coated. The method also includes coating the surface with a primer and uniformly applying an electro-conductive enhance to the primer so that the surface of the glass substrate is wet, but not uneven. The method includes powder spraying periluoroalkoxy copolymer or tetrafluoroethylene perfluoromethyl vinyl ether copolymer on the electro-conductive enhancer while the enhancer is still wet. The method also includes securing the perfluoromethyl vinyl ether copolymer to the glass substrate by evaporating the electro-conductive enhance.Type: GrantFiled: April 15, 2005Date of Patent: February 10, 2009Assignee: Orion Industries, Ltd.Inventors: Adino D. Caballero, George F. Osterhout
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Patent number: 6884459Abstract: A method for coating glass, and specifically to a method for manufacturing perfluoroalkoxy copolymer coated glass. The method includes placing a glass substrate on an electrically grounded support and cleaning the substrate with a solvent to remove impurities and prepare the surface of the substrate to be coated. The method also includes coating the surface with a primer and an electro-conductive enhancer, which is uniformly applied to the primer so that the surface of the glass substrate is wet, but not uneven. The method includes powder spraying the perfluoroalkoxy copolymer on the electro-conductive enhancer while the enhancer is still wet. The method includes securing the perfluoroalkoxy copolymer to the glass substrate by evaporating the electro-conductive enhancer.Type: GrantFiled: June 27, 2002Date of Patent: April 26, 2005Assignee: Orion Industries, Ltd.Inventors: Adino D. Caballero, George F. Osterhout
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Publication number: 20040001955Abstract: An apparatus and method for coating glass, and specifically to perfluoroalkoxy copolymer coated glass and a method for manufacturing same. A glass substrate is placed on an electrically grounded support and cleaned with a solvent to remove impurities and prepare the surface of the substrate to be coated. The surface is coated with a primer and an electro-conductive enhancer is uniformly applied to the primer so that the surface of the glass substrate is wet, but not uneven. The perfluoroalkoxy copolymer is powder sprayed on the electro-conductive enhancer while the enhancer is still wet. The perfluoroalkoxy copolymer is secured to the glass substrate by evaporating the electro-conductive enhancer.Type: ApplicationFiled: June 27, 2002Publication date: January 1, 2004Inventors: Adino D. Caballero, George F. Osterhout