Tracing forged parts over their production process includes: capturing process parameters of a forging process; marking a workpiece with a first identifier; storing the captured process parameters and the first identifier in a database; reading the identifier from the workpiece produced in the previous process step; capturing process parameters during subsequent process steps; storing the process parameters of the subsequent process steps in the database for the read identifier, if legibility of the first identifier of the workpiece remains during the subsequent process step; marking the workpiece produced in the subsequent process step with a further identifier, if legibility of the first identifier of the workpiece does not remain during the subsequent process step of the production process; and storing the process parameters of the subsequent process step together with the further identifier and process parameters of the previous process steps and the first identifier in the database.

In various embodiments, a tool plate configured to receive a robotic end effector is removably matable with a robot appendage via a quick-release mechanism.

A refill bottle, such as a laundry refill bottle, is disclosed that can be used with a consumer refill station to reuse the bottle over and over. The refill bottle includes automatic flow control valves, that allow the bottle to be filled, handled, dispensed from, and refilled innumerable times without a cap. The elimination of a cap alleviates the manufacturer and consumer of the tasks of installing, loosening, tightening, removing, and reinstalling or replacing the cap. The refillable bottle uses flow control valves, specifically an automatic filling valve, an automatic pressure vent valve, a manual/automatic dispensing valve, and an automatic vacuum vent valve. The refill bottle enables liquid and air to be exchanged during filling, handling, dispensing, and refilling.

As deliveries of items containing dangerous goods are made from a vehicle/container, systems update stored information to reflect the reduced number of points of dangerous goods currently on the vehicle/container. Conversely, when the vehicle/container picks up dangerous goods, the systems update the information to reflect the increased number of points of dangerous goods currently on the vehicle/container. The systems identify potential delivery routes, such that the vehicle/container may deliver items containing dangerous goods prior to picking up new items, so as to maintain the total points of dangerous goods on the vehicle/container below a predetermined threshold.

In many aspects, a system for a beverage dispenser can include smartcups and smartcup application management systems configured to validate and identify smartcups for dispensing a beverage. Identifying and validating the authenticity of smartcups as well as identifying registered consumers associated with smartcups may provide more secure beverage dispensers that may be placed in public with minimal oversight. Additionally, by identifying registered users associated with a registered smartcup and providing an individualized and streamlined consumer experience, consumer interactions can be improved with a beverage dispenser/provider and may lead to increased usage by consumers.

A processing device that processes a lens, comprising a design data receiver that receives design data of the lens from an external section. Also included are a memory that stores the received design data, an input section that inputs authentication information which is embedded in or attached to the lens and is used in use permission of design data, and a controller that performs an authentication process whether or not the authentication information corresponds to the design data and controls whether or not a processing of the lens by using the design data is started.

A refill bottle, such as a laundry refill bottle, is disclosed that can be used with a consumer refill station to reuse the bottle over and over. The refill bottle includes automatic flow control valves, that allow the bottle to be filled, handled, dispensed from, and refilled innumerable times without a cap. The elimination of a cap alleviates the manufacturer and consumer of the tasks of installing, loosening, tightening, removing, and reinstalling or replacing the cap. The refillable bottle uses flow control valves, specifically an automatic filling valve, an automatic pressure vent valve, a manual/automatic dispensing valve, and an automatic vacuum vent valve. The refill bottle enables liquid and air to be exchanged during filling, handling, dispensing, and refilling.

A lens processing management system includes a lens processing section that processes a lens based on design data, an authentication section that is substantially attached to a lens material or a semi-finished lens product, and an authentication processing section that performs an authentication process for the processing of the lens using the authentication section.

A system for utilizing an identification marker on a tool part for determining a dimension thereof. The system includes a reader device for reading a machine readable code, and an electronic device connected to the reader device. The electronic device has a processing circuitry that causes the system to detect with the reader device, an identification marker at a tool part, wherein the identification marker is a unique machine readable code read by the reader device, and the unique machine readable code of the identification marker, and obtain from the unique machine readable code, individual dimension information data including at least one individually measured dimension of the tool part measured when manufacturing the tool part. A method and a computer program product for utilizing an identification marker on a tool part to be used for determining a dimension of the tool part and to a tool part is also provided.

A control system is provided with: a control device that controls facility equipment on the basis of previously set control information; and a terminal that communicates with the control device. The terminal has: an image capturer that captures an image; an analyzer that acquires setting-support information for setting the control information in the control device by analyzing the image captured by means of the image capturer; and a transmitter that transmits to the control device the setting-support information acquired by means of the analyzer. The control device has: a receiver that receives the setting-support information transmitted from the transmitter; and a setter that sets the control information on the basis of the setting-support information received by means of the receiver.