Patent application number | Description | Published |
20130125319 | Automated Manufacturing Of Shoe Parts - Manufacturing of a shoe or a portion of a shoe is enhanced by executing various shoe-manufacturing processes in an automated fashion. For example, information describing a shoe part may be determined, such as an identification, an orientation, a color, a surface topography, an alignment, a size, etc. Based on the information describing the shoe part, automated shoe-manufacturing apparatuses may be instructed to apply various shoe-manufacturing processes to the shoe part. | 05-23-2013 |
20130126067 | Multi-Functional Manufacturing Tool - Aspects relate to systems, methods, and apparatus for a manufacturing tool. The manufacturing tool is comprised of a vacuum tool and an ultrasonic welder as a unified manufacturing tool. The manufacturing tool may be used to pick and position a manufacturing part that is then welded with the associated ultrasonic welder. | 05-23-2013 |
20130127192 | Hybrid Pickup Tool - Aspects of the present invention relate to systems and apparatus for a multi-aperture vacuum tool that is comprised of a distributed vacuum tool that has a number of apertures distributed across an area for manipulating material portion, such as textile, mesh, cloth, and foam. The multi-aperture vacuum tool is also comprised of a refined vacuum tool. The refined vacuum tool generally has a couple of apertures that allow the refined vacuum tool to manipulate smaller portions of material than that which are handled by the distributed vacuum tool. Further, it is contemplated that an affixing tool, such as an ultrasonic welder, is also incorporated with exemplary aspects of the multi-aperture vacuum tool. | 05-23-2013 |
20130127193 | Manufacturing Vacuum Tool - Aspects relate to systems and apparatus for a vacuum tool having a vacuum distributor, one or more vacuum apertures, a vacuum distribution cavity, and a plate. The vacuum tool is effective for picking and placing one or more manufacturing parts utilizing a vacuum force. Aspects of the present invention have a plurality of vacuum distributors coupled as a unified vacuum tool, which provides control over generated vacuum forces. Further, aspects of the present invention vary a size, shape, offset, and/or pitch of one or more apertures extending through the vacuum tool plate. Further yet, aspects of the present invention contemplate selective activation/deactivation of one or more vacuum generators. | 05-23-2013 |
20130127194 | SWITCHABLE PLATE MANUFACTURING VACUUM TOOL - Aspects of the present invention relate to systems, methods, and apparatus for a vacuum tool having a switchable plate, such that a common vacuum tool may be adapted with different plates. A switchable plate may form the entirety of the vacuum tool's material contacting surface or a switchable plate may form a portion of the material contacting surface. The vacuum tool is effective for picking and placing one or more manufacturing parts utilizing a vacuum force. | 05-23-2013 |
20130129464 | ZONED ACTIVATION MANUFACTURING VACUUM TOOL - Aspects relate to systems, methods, and apparatus for a zoned vacuum tool comprised of independently operable vacuum sources provided a vacuum force to segregated zones. A vacuum force is generated in connection with a first zone independently of an activation or deactivation of vacuum force generation associated with a second zone. Therefore, a single vacuum tool can selectively apply a vacuum force to material portions, which allows for control as to which material portions are manipulated by the vacuum tool. | 05-23-2013 |
20130131853 | Automated Identification Of Shoe Parts - Manufacturing of a shoe or a portion of a shoe is enhanced by automated placement of shoe parts. For example, a part-recognition system analyzes an image of a shoe part to identify the part and determine a location of the part. Once the part is identified and located, the part can be manipulated in an automated manner. | 05-23-2013 |
20130131854 | Automated Identification And Assembly Of Shoe Parts - Manufacturing and assembly of a shoe or a portion of a shoe is enhanced by automated placement and assembly of shoe parts. For example, a part-recognition system analyzes an image of a shoe part to identify the part and determine a location of the part. Once the part is identified and located, the part can be manipulated by an automated manufacturing tool. | 05-23-2013 |
20130132038 | Automated 3-D Modeling Of Shoe Parts - Manufacturing of a shoe is enhanced by creating 3-D models of shoe parts. For example, a laser beam may be projected onto a shoe-part surface, such that a projected laser line appears on the shoe part. An image of the projected laser line may be analyzed to determine coordinate information, which may be converted into geometric coordinate values usable to create a 3-D model of the shoe part. Once a 3-D model is known and is converted to a coordinate system recognized by shoe-manufacturing tools, certain manufacturing steps may be automated. | 05-23-2013 |
20130240152 | HOLLOW TIP WELDING TOOL - Embodiments of the present invention relate to a hollow-tipped ultrasonic welding and vacuum tool. The tool is comprised of a horn coupled to a converter for transferring an ultrasonic mechanical vibration to a part-contacting distal end of the horn. The horn is comprised of a vacuum channel that extends from an exterior surface of the horn through an interior portion of the horn to the part-contacting distal end of the horn. The vacuum channel may provide a channel through which a vacuum force may be focused to a part that is to be positioned and welded with a common part-contacting surface. | 09-19-2013 |
20140096403 | Digital Bite Line Creation For Shoe Assembly - A system and method may simultaneously apply a limited visibility bite line to a temporarily assembled shoe upper and shoe sole while also generating a digital bite line. The digital bite line may be used to generate a tool path for the application of adhesives to the shoe upper and/or to the shoe sole assembly to permanently assemble the shoe. The limited visibility bite line may comprise a mark or other indicia observable only under specific viewing conditions and/or only for a limited amount of time or until removal. The limited visibility bite line may be used for quality control check purposes to verify, for example, the proper application of adhesives or the proper assembly of the shoe. The limited visibility bite line may be unobservable to the ultimate purchaser and/or wearer of the shoe. | 04-10-2014 |
20140110390 | Energy Efficient Infrared Oven - An oven may facilitate heating, curing, and/or drying processes for manufactured items, such as shoe parts, using multiple groups of infrared sources. Each group of infrared sources may comprise a plurality of sources having heating parameters, such as a peak wavelength, power, distance from items to be cured, number of infrared sources, etc. By staging different types of sources throughout an oven, different aspects of the curing process may be performed in an efficient fashion. Further, conditions within the oven such as temperature and relative humidity may be monitored and adjusted to optimize curing conditions. | 04-24-2014 |
20140216662 | Hybrid Pickup Tool - Systems of the present invention relate to apparatus for a multi-aperture vacuum tool that is comprised of a distributed vacuum tool that has a number of apertures distributed across an area for manipulating material portion, such as textile, mesh, cloth, and foam. The multi-aperture vacuum tool is also comprised of a refined vacuum tool. The refined vacuum tool generally has a couple of apertures that allow the refined vacuum tool to manipulate smaller portions of material than that which are handled by the distributed vacuum tool. Further, it is contemplated that an affixing tool, such as an ultrasonic welder, is also incorporated with exemplary aspects of the multi-aperture vacuum tool. | 08-07-2014 |
20140237737 | Automated Identification and Assembly of Shoe Parts - Manufacturing and assembly of a shoe or a portion of a shoe is enhanced by automated placement and assembly of shoe parts. For example, a part-recognition system analyzes an image of a shoe part to identify the part and determine a location of the part. Once the part is identified and located, the part can be manipulated by an automated manufacturing tool. | 08-28-2014 |