Abstract: The present invention relates to connector tools for seating connectors on a substrate such as a printed circuit board. In various embodiments, the connector tools can be made by wire electrode discharge machining (WEDM) process. In the embodiments, the connector tool includes reinforced ribbed end walls, ribbed internal walls, interconnected walls and contours that reduce tool and connector damage. In other embodiments, the connector tools include guiding structures that align the connector tool to the connector before seating the connector so that the connector tool aligns to the connector pins and body to avoid damage to the connector and/or the substrate. In another embodiment, the connector tool has guiding skirts and surfaces to capture the connector in position then seat the connector. Thus, the invention reduces connector and substrate damage during manufacturing, reduces tool damage, and lowers product costs by boosting manufacturing yields.

Abstract: Described herein are a robotic distribution apparatus, system and method. The robotic distribution system may include a Package Delivery Kiosk (PDK), associated front end and back end package delivery management systems, portals for the consumer and the retailer, portals for the common carrier, sender, and recipient, a package inventory management system, integrated retailer access, a real and automated retailer bidding system and a kiosk for distribution. The PDK includes a distribution kiosk and shelving system. The kiosk and shelving system includes configurable shelves and dividers to enable access to the packages. The shelving system handles packages from a robotic placement mechanism and includes shelves that have receiving apertures. The shelving system further includes dividers that fit into the receiving apertures. Each of the dividers has a receiving slot that allows a robotic gripper arm to grab or handle a package with respect to a slot between a pair of dividers.

Abstract: Described herein are a robotic distribution apparatus, system and method. The robotic distribution system may include a Package Delivery Kiosk (PDK), associated frontend and backend package delivery management systems, a package inventory management system. The PDK includes a Robotic Package Lifting Assembly which may be configured to remember the location of packages and slots and provide for automated retrieval and placement of the packages. In an embodiment, a package retrieving apparatus includes a track, a base slidably interconnected with the track, and a vertical support interconnected with the base. The apparatus includes a package picker module oriented on the vertical support to vertically move on the vertical support. The package picker module including a conveyer belt oriented in a plane parallel to the ground and first and second grippers oriented parallel to the conveyer belt to surround and grip an object beyond the surface of the conveyer belt.

Abstract: A combination vending/return apparatus includes a series of stacked counter-sloped, gravity fed track assemblies with radiused transition segments to receive and store empty large-volume bottles and to deliver pre-filled large-volume fluid-containing bottles. The apparatus is configured to accommodate, among other sizes, at least one of three (3) gallon, (4) four gallon, or (5) five gallon size bottles. A. dual elevator subassembly permits filled bottle dispensing and empty bottle receiving from a single door. The apparatus includes a processor-controlled transaction panel to make bottle selections for purchases and returns, and to handle electronic payment, promotional and credit transactions. Also disclosed is a method to vend large-volume fluid-containing bottles and retrieve used and emptied large-volume water bottles.

Abstract: A method and apparatus for operating a snail wheel in a vending machine are disclosed. The method for operating the snail wheel includes accepting a 5 gallon water bottle into the snail wheel, lifting the 5 gallon water bottle up off a bottom shelf of the vending machine, rotating the snail wheel 90° from a starting point, stopping the snail wheel after rotating 90°, wherein at the 5 gallon water bottle rolls out of the snail wheel and onto a platform, and rotating the snail wheel 270° back to the starting point.

Abstract: The present invention relates to connector tools for seating connectors on a substrate such as a printed circuit board. In various embodiments, the connector tools can be made by wire electrode discharge machining (WEDM) process. In the embodiments, the connector tool includes reinforced ribbed end walls, ribbed internal walls, interconnected walls and contours that reduce tool and connector damage. In other embodiments, the connector tools include guiding structures that align the connector tool to the connector before seating the connector so that the connector tool aligns to the connector pins and body to avoid damage to the connector and/or the substrate. In another embodiment, the connector tool has guiding skirts and surfaces to capture the connector in position then seat the connector. Thus, the invention reduces connector and substrate damage during manufacturing, reduces tool damage, and lowers product costs by boosting manufacturing yields.

Abstract: Described herein is a package delivery kiosk (PDK) including an integrated robotic package lifting assembly and shelving system. The system includes a PDK, associated front end and back end package delivery management systems, including portals for the consumer, retailer, common carrier, sender, and recipient, a package inventory management system, integrated retailer access, and a real and automated retailer bidding system. The shelving system has shelves with receiving apertures and dividers configured to fit into the receiving apertures, where the dividers each have a receiving slot. A package retrieving apparatus includes a base, a vertical support interconnected with the base, and a package picker module. The package picker module is oriented to move up and down on the vertical support. The package picker module includes grippers configured to surround and grip the object. A kiosk includes a kiosk body having a package delivery slot and an interface slot.

Abstract: A combination vending/return apparatus includes a series of stacked counter-sloped, gravity fed track assemblies with radiused transition segments to receive and store empty large-volume bottles and to deliver pre-filled large-volume fluid-containing bottles. The apparatus is configured to accommodate, among other sizes, at least one of three (3) gallon, (4) four gallon, or (5) five gallon size bottles. A. dual elevator subassembly permits filled bottle dispensing and empty bottle receiving from a single door. The apparatus includes a processor-controlled transaction panel to make bottle selections for purchases and returns, and to handle electronic payment, promotional and credit transactions. Also disclosed is a method to vend large-volume fluid-containing bottles and retrieve used and emptied large-volume water bottles.

Abstract: Described herein are an automatic package delivery and retrieval apparatus, system and method. The automatic package delivery and retrieval includes a Package Delivery Kiosk (PDK), associated front end and back end package delivery management systems, portals for the consumer and the retailer, portals for the common carrier, sender, and recipient, a package inventory management system, integrated retailer access, a real and automated retailer bidding system and a kiosk for distribution. In one embodiment, a system for automated package retrieval and delivery includes a kiosk, package retrieval apparatus, and various computing systems for running the systems. A method for providing packages to customers includes providing a notification with a code to a user that a package is available for retrieval. The method includes storing a package in the kiosk. The method further includes receiving the code from a user at the kiosk and retrieving the package with the automatic retrieval mechanism.

Abstract: A method and apparatus for operating a snail wheel in a vending machine are disclosed. The method for operating the snail wheel includes accepting a 5 gallon water bottle into the snail wheel, lifting the 5 gallon water bottle up off a bottom shelf of the vending machine, rotating the snail wheel 90° from a starting point, stopping the snail wheel after rotating 90°, wherein at the 5 gallon water bottle rolls out of the snail wheel and onto a platform, and rotating the snail wheel 270° back to the starting point.

Abstract: Described herein are an on demand kiosk commerce system and method. The on demand kiosk commerce system and method may include a Package Delivery Kiosk (PDK), associated front end and back end package delivery management systems, portals for the consumer and the retailer, portals for the common carrier, sender, and recipient, a package inventory management system, integrated retailer access, a real and automated retailer bidding system and a kiosk for distribution. A system for fulfilling customer orders includes an Internet accessed shopping site that permits customers to purchase a product and a product fulfillment page that allows a customer to choose among fulfillment choices including common carrier delivery and kiosk pickup. The system includes kiosks for fulfilling the kiosk pickup choice, each of the kiosks being an automatic purchase fulfillment center. The system for rapid fulfillment may include an order for immediate pickup button as part of a web interface.

Abstract: Described herein are a robotic distribution apparatus, system and method. The robotic distribution system may include a Package Delivery Kiosk (PDK), associated front end and back end package delivery management systems, portals for the consumer and the retailer, portals for the common carrier, sender, and recipient, a package inventory management system, integrated retailer access, a real and automated retailer bidding system and a kiosk for distribution. The PDK includes a distribution kiosk and shelving system. The kiosk and shelving system includes configurable shelves and dividers to enable access to the packages. The shelving system handles packages from a robotic placement mechanism and includes shelves that have receiving apertures. The shelving system further includes dividers that fit into the receiving apertures. Each of the dividers has a receiving slot that allows a robotic gripper arm to grab or handle a package with respect to a slot between a pair of dividers.

Abstract: Described herein is a package delivery kiosk (PDK) including an integrated robotic package lifting assembly and shelving system. The system includes a PDK, associated front end and back end package delivery management systems, including portals for the consumer, retailer, common carrier, sender, and recipient, a package inventory management system, integrated retailer access, and a real and automated retailer bidding system. The shelving system has shelves with receiving apertures and dividers configured to fit into the receiving apertures, where the dividers each have a receiving slot. A package retrieving apparatus includes a base, a vertical support interconnected with the base, and a package picker module. The package picker module is oriented to move up and down on the vertical support. The package picker module includes grippers configured to surround and grip the object. A kiosk includes a kiosk body having a package delivery slot and an interface slot.

Abstract: Described herein are a robotic distribution apparatus, system and method. The robotic distribution system may include a Package Delivery Kiosk (PDK), associated frontend and backend package delivery management systems, a package inventory management system. The PDK includes a Robotic Package Lifting Assembly which may be configured to remember the location of packages and slots and provide for automated retrieval and placement of the packages. In an embodiment, a package retrieving apparatus includes a track, a base slidably interconnected with the track, and a vertical support interconnected with the base. The apparatus includes a package picker module oriented on the vertical support to vertically move on the vertical support. The package picker module including a conveyer belt oriented in a plane parallel to the ground and first and second grippers oriented parallel to the conveyer belt to surround and grip an object beyond the surface of the conveyer belt.

Abstract: Described herein are an automatic package delivery and retrieval apparatus, system and method. The automatic package delivery and retrieval includes a Package Delivery Kiosk (PDK), associated front end and back end package delivery management systems, portals for the consumer and the retailer, portals for the common carrier, sender, and recipient, a package inventory management system, integrated retailer access, a real and automated retailer bidding system and a kiosk for distribution. In one embodiment, a system for automated package retrieval and delivery includes a kiosk, package retrieval apparatus, and various computing systems for running the systems. A method for providing packages to customers includes providing a notification with a code to a user that a package is available for retrieval. The method includes storing a package in the kiosk. The method further includes receiving the code from a user at the kiosk and retrieving the package with the automatic retrieval mechanism.

Abstract: The present invention relates to connector tools for seating connectors on a substrate such as a printed circuit board. In various embodiments, the connector tools can be made by wire electrode discharge machining (WEDM) process. In the embodiments, the connector tool includes reinforced ribbed end walls, ribbed internal walls, interconnected walls and contours that reduce tool and connector damage. In other embodiments, the connector tools include guiding structures that align the connector tool to the connector before seating the connector so that the connector tool aligns to the connector pins and body to avoid damage to the connector and/or the substrate. In another embodiment, the connector tool has guiding skirts and surfaces to capture the connector in position then seat the connector. Thus, the invention reduces connector and substrate damage during manufacturing, reduces tool damage, and lowers product costs by boosting manufacturing yields.

Abstract: The present invention relates to connector tools for seating connectors on a substrate such as a printed circuit board. In various embodiments, the connector tool has guiding skirts and surfaces to capture the connector in position then seat the connector. In the embodiments, the connector tools can be made by wire electrode discharge machining (VVEDM) process. Thus, the invention reduces connector and substrate damage during manufacturing, reduces tool damage, and lowers product costs by boosting manufacturing yields.

Abstract: The present invention relates to connector tools for seating connectors on a substrate such as a printed circuit board. In various embodiments, the connector tools can be made by wire electrode discharge machining (WEDM) process. In the embodiments, the connector tool includes reinforced ribbed end walls, ribbed internal walls, interconnected walls and contours that reduce tool and connector damage. In other embodiments, the connector tools include guiding structures that align the connector tool to the connector before seating the connector so that the connector tool aligns to the connector pins and body to avoid damage to the connector and/or the substrate. In another embodiment, the connector tool has guiding skirts and surfaces to capture the connector in position then seat the connector. Thus, the invention reduces connector and substrate damage during manufacturing, reduces tool damage, and lowers product costs by boosting manufacturing yields.

Abstract: The present invention relates to connector tools for seating connectors on a substrate such as a printed circuit board. In various embodiments, the connector tools can be made by wire electrode discharge machining (WEDM) process. In the embodiments, the connector tool includes reinforced ribbed end walls, ribbed internal walls, interconnected walls and contours that reduce tool and connector damage. In other embodiments, the connector tools include guiding structures that align the connector tool to the connector before seating the connector so that the connector tool aligns to the connector pins and body to avoid damage to the connector and/or the substrate. In another embodiment, the connector tool has guiding skirts and surfaces to capture the connector in position then seat the connector. Thus, the invention reduces connector and substrate damage during manufacturing, reduces tool damage, and lowers product costs by boosting manufacturing yields.

Abstract: The present invention relates to connector tools for seating connectors on a substrate such as a printed circuit board (PCB). The connector tool is a machined structure having a plurality of walls that define intersecting slots that mate with an array of male connector pins and include one or more ribs to reduce damage if the tool is dropped on the floor. The ribbed walls strengthen the connector tool, but do not interfere with the mating array of male connector pins. The connector tool also includes push shoulders to contact the connector apart from the array of male connector pins so as to seat the connector onto the PCB without connector tool and connector damage.