A system of detecting loading and unloading of mobile containers such as grain carts utilizes two low pass filters to determine whether the contents of the container are changing by subtracting one filter signal from the other, and using the sign of the difference. Weighing performance is improved by utilizing accelerometers to compensate for measurement dynamics and non-level orientation. Failure and degradation of weight sensors is detected by testing sensor half bridges. Loading and unloading weights can be tied to specific vehicles by utilizing RF beacons.

Systems and methods here may be used to sense razor handle usage, and/or product content in a container, send information to a local wireless device which may in turn, inform a back end system. In some embodiments, the systems and methods may then utilize the information about the container and send a message regarding inventory status, place an order for a re-fill, and/or aggregate usage data of the container or handle.

A method and a system measure interfering influences on a checkweighing device. In the method, external interference data are obtained, as are interference data from the checkweighing device itself and interference data from an object being weighed, by calculating or mapping the weighing error data in the stationary state, in the operating state, and in the weighing state. The system for measuring the interference uses a meter and a processing apparatus. The meter and the processing apparatus perform an interference measurement and a compensation method. The amount of interference in the checkweighing device in each state and the amount of influence of the interference on the weighing performance is obtained, thereby facilitating the production, debugging, maintenance, and use of a checkweighing device.

Techniques and systems for seaming containers are described herein. The canning system can include a seamer assembly and a seamer controller. The seamer assembly includes a load cell assembly which weighs the containers and communicates with the seamer controller to determine if the container is to have a lid seamed onto the container based on the satisfaction of a predetermined weight criteria. The seamer controller is designed to receive weight measurements of the container, determine a weight criteria and whether the container has satisfied the weight criteria, command the seamer assembly whether to seam a lid to the container based on the satisfaction of the weight criteria, and send a command to the reject station to remove the container if the weight criteria is not satisfied.

Techniques and systems for seaming containers are described herein. The canning system can include a seamer assembly and a seamer controller. The seamer assembly includes a load cell assembly which weighs the containers and communicates with the seamer controller to determine if the container is to have a lid seamed onto the container based on the satisfaction of a predetermined weight criteria. The seamer controller is designed to receive weight measurements of the container, determine a weight criteria and whether the container has satisfied the weight criteria, command the seamer assembly whether to seam a lid to the container based on the satisfaction of the weight criteria, and send a command to the reject station to remove the container if the weight criteria is not satisfied.

Disclosed embodiments provide a liquid product dispensing system. Cans are transported onto a weigh plate. The weigh plate is coupled to a dispensing system such that, when the can is filled with product to a predetermined weight, the dispensing system stops the flow of product into the can. A transport system then moves the filled cans from the weigh plate and moves another set of empty cans onto the weigh plate, and the process continues, enabling high-speed production of canned beverages.

Systems and methods here may be used to sense product content in a container, send information to a local wireless device which may in turn, inform a back end system. In some embodiments, the systems and methods may then utilize the information about the container and send a message regarding inventory status, place an order for a re-fill, and/or aggregate usage data of the container.

The present disclosure discloses an automated dispensing machine adopting local coverage type sucker array and a control method thereof. The automated dispensing machine adopting local coverage type sucker array comprises a rack. A medicine obtaining device and a medicine weighing and discharging device are arranged on the rack. The control method comprises: (1), after receiving medicine grasping and discharging commands, a single-chip microprocessor firstly selects a current medicine obtaining station according to a medicine obtaining station circulation sequence, and then controls the first linear driver to push the slide to move forwards to the selected medicine obtaining station; (2), the single-chip microprocessor transmits the control signal to a fifth relay to control the second linear driver to drive the vacuum medicine sucking mechanical arm to move downwards.

The present disclosure discloses an automated dispensing machine adopting local coverage type sucker array and a control method thereof. The automated dispensing machine adopting local coverage type sucker array comprises a rack. A medicine obtaining device and a medicine weighing and discharging device are arranged on the rack. The control method comprises: (1), after receiving medicine grasping and discharging commands, a single-chip microprocessor firstly selects a current medicine obtaining station according to a medicine obtaining station circulation sequence, and then controls the first linear driver to push the slide to move forwards to the selected medicine obtaining station; (2), the single-chip microprocessor transmits the control signal to a fifth relay to control the second linear driver to drive the vacuum medicine sucking mechanical arm to move downwards.

The invention relates to a device (50; 50a to 50c) for determining the weight of a capsule (10) arranged in a receptacle (26) of a capsule holder (25) of an incrementally rotated conveyor wheel (21), comprising a transfer device (52; 52a to 52c) for transferring at least one capsule (10) from the capsule holder (25) into a capsule receiver (55) having a plurality of receptacles (54) for respectively one capsule (10), and back again, wherein the capsule receptacle (55) has a movable arrangement in a plane parallel to the conveyor plane of the conveyor wheel (21).