The present disclosure is directed to systems, methods and devices for facilitating object-based industrial automation control. An automation control library comprised of a plurality of objects may be maintained in association with one or more industrial automation applications. Code defining the execution of an industrial automation process may be received. A plurality of objects in the object library for implementing the industrial automation control process may be identified. The plurality of identified objects may be matched to one or more hardware components based on one or more operational requirements included in the code, and available hardware resources for performing the automation control process.

A paint production system produced from pigment pastes and vehicles without prior adjustment. The system includes a volumetric dosing module endowed with automatic volumetric calibrators, at least one continuous processing module that includes a rotary mechanism that moves at least one tank between a mixing station, a continuous adjustment station integrated into a filling station, a cleaning station jointly with a manifold cleaning solvent mist generator and a control center that sends commands to be executed in the volumetric dosing module and continuous processing module units from a set of instructions in a computer program.

Implementations of the present disclosure generally relate to an improved factory interface that is coupled to an on-board metrology housing configured for measuring film properties of a substrate. In one implementation, an apparatus comprises a factory interface, and a metrology housing removably coupled to the factory interface through a load port, the metrology housing comprises an on-board metrology assembly for measuring properties of a substrate to be transferred into the metrology housing.

One variation of a food production system includes a controller and a module housing: configured to transiently house a food-dispensing module configured to store and dispense units of an ingredient toward an autonomous assembly zone; and including a positioner module, arranged within the autonomous assembly zone, including a platform configured to receive and support a food container, a set of positioner arms configured to maneuver the platform across an assembly plane to position the food container below food-dispensing modules, and a set of actuators configured to transiently engage the set of positioner arms. The controller is configured to: receive a food order specifying the ingredient; trigger the set of actuators to rotate the set of positioner arms to move the platform across the assembly plane and locate the food container below the food-dispensing module; and trigger the food-dispensing module to dispense the ingredient into the food container.

Various embodiments include apparatus and methods to generate and use drillability exponents. Data acquired from downhole sensors can be used to determine drillability exponents. The drill exponents can be used in number of processes to enhance various features of a drilling operation. 5 Additional apparatus, systems, and methods are disclosed.

This application describes fabric storage totes, as well as techniques for use of fabric totes in an infrastructure that uses mechanical systems to transport the fabric totes and/or access inventory items in the fabric totes. The fabric totes may include a fabric base and side walls, with a hardened material support structure. Additionally, the fabric totes may include two handles made of a substantially hard material. The fabric totes may be accessed and transported, manually and/or mechanically, via interaction with the handles.

The present disclosure relates to a mute operation method and a mute operation apparatus for an automatic cleaning device, the mute operation method includes: receiving a mute instruction; planning a mute cleaning path according to the mute instruction; switching to a mute mode and performing a cleaning operation according to the mute cleaning path.

One variation of a food production station includes: a manual assembly zone; an autonomous assembly zone; and a controller. The manual assembly zone includes: a prep surface; and a receptacle configured to receive a sequence of food hoppers configured to store ingredients for manual preparation of food products on the prep surface. The autonomous assembly zone includes: a sequence of module housings supporting the prep surface and configured to house a sequence of food dispensing modules configured to dispense ingredients into food containers; and a conveyor located within the sequence of module housings and configured to transfer food containers along the sequence of food dispensing modules for dispensation of ingredients into food containers. The controller is configured to: receive food orders; and coordinate motion of the conveyor and trigger the sequence of food dispensing modules to dispense ingredients into food containers to assemble food products according to food orders.

A device for the extraction of user data out of Ethernet telegrams sent from a field device comprises an input interface and an output interface for connecting to an Ethernet data line, wherein the input interface is designed to receive Ethernet telegrams transmitted via the Ethernet data line; an electronics unit which is designed to evaluate the received Ethernet telegrams and to extract a value of at least one process variable out of the user data portions of the received Ethernet telegrams; and an output unit for outputting the determined process variables. The invention also relates to a system comprising the device according to the invention.

Mains-powered components of a building management system can be separated from non-mains powered components, allowing for easier and more affordable installation of the latter. In one embodiment, distributed devices of the building management system include a base module and a secondary module. The base module inductively powers the secondary module, which performs a function of the building management system (e.g. generating sensor data). The secondary module is easily attached to and removed from the base module via an attachment mechanism (e.g. snapfit) without rewiring the device. In another embodiment, a control panel inductively powers one or more input-output blocks, which provide an interface between distributed devices and the control panel. The input-output blocks are easily attached to and removed from the control panel via the attachment mechanism.