Embodiments according to the present invention relate to an apparatus and method for plant transportation using a smart conveyor. Embodiments of the present invention provide enhanced capabilities as a result of integrating robotic features, automations, artificial intelligence, queuing, fault control, automatic transport, scalability, safety measures, smaller footprint, and other computerized functions, along with a creative business model. In design of this invention the following high-level requirements were achieved: scalable for small, medium, and large businesses; safer than other machines in the market; sanitation consideration; simplicity in maintenance, and automated functions to reduce the need for labor (e.g., integration of robotics, AI, and/or other computerized systems).

A blender using different power modes is disclosed. Exemplary implementations may include a base assembly, a container assembly, an electrical motor, a blending component, a control interface, control circuitry, and/or other components. The control circuitry may be configured to make different types of detections related to the availability and/or usage of electrical power, and may control the electrical motor using at least two different power modes of operation, thus providing different amounts of power to the electrical motor in different power modes of operation.

A blender using different power modes is disclosed. Exemplary implementations may include a base assembly, a container assembly, an electrical motor, a blending component, a control interface, control circuitry, and/or other components. The control circuitry may be configured to make different types of detections related to the availability and/or usage of electrical power, and may control the electrical motor using at least two different power modes of operation, thus providing different amounts of power to the electrical motor in different power modes of operation.

A method and apparatus for grinding a particulate material is disclosed. The method may include providing a system including a roller mill apparatus and a hammermill apparatus, operating the roller mill apparatus and the hammermill apparatus, adjusting a feed rate of particulate material to the roller mill apparatus until power consumption by operation of the roller mill apparatus achieves a target power consumption for the roller mill apparatus, and adjusting a gap between mill rolls of the roller mill apparatus until power consumption by operation of the hammermill apparatus achieves a target power consumption for the hammermill apparatus. The system may include roller and hammermill apparatus with sensing and controlling apparatus configured to operate the roller and hammermill apparatus according to the methods disclosed.

Systems and methods for secure card printing ribbon removal may include a shredding unit, a collection unit, and a processor. The shredding unit may shred card printing ribbon and generate ribbon waste. The collection unit may be removably attached to the shredding unit and receive ribbon waste from the shredding unit. The collection unit may comprise a transparent material, a visual fill line, and a sensor that determines the amount of ribbon waste contained in the collection unit. Upon determination that the amount of ribbon waste exceeds a threshold, the sensor may generate a signal. The processor may operate the shredding unit and the collection unit, receive the signal generated by the collection unit, and generate, based on the signal, a prediction of a remaining capacity of the collection unit. The ribbon may include material containing sensitive information.

Systems and methods for secure card printing ribbon removal may include a shredding unit, a collection unit, and a processor. The shredding unit may shred card printing ribbon and generate ribbon waste. The collection unit may be removably attached to the shredding unit and receive ribbon waste from the shredding unit. The collection unit may comprise a transparent material, a visual fill line, and a sensor that determines the amount of ribbon waste contained in the collection unit. Upon determination that the amount of ribbon waste exceeds a threshold, the sensor may generate a signal. The processor may operate the shredding unit and the collection unit, receive the signal generated by the collection unit, and generate, based on the signal, a prediction of a remaining capacity of the collection unit. The ribbon may include material containing sensitive information.

The disclosure relates to a roller crusher that includes a frame, first and second crusher rolls arranged axially in parallel with each other and a deflection distributor. The roller crusher further includes at least one load sensor configured to detect a material load in the deflection distributor and at least one positioning sensor configured to detect a parameter pertaining to a distance between a first point and a second point of the roller crusher. At least the first point is defined on the deflection distributor or on one of movable bearing housings of the roller crusher. The disclosure further relates to a method for monitoring the physical condition of the deflection distributor and to a refitting kit for a roller crusher.

The disclosure relates to a roller crusher that includes a frame, first and second crusher rolls arranged axially in parallel with each other and a deflection distributor. The roller crusher further includes at least one load sensor configured to detect a material load in the deflection distributor and at least one positioning sensor configured to detect a parameter pertaining to a distance between a first point and a second point of the roller crusher. At least the first point is defined on the deflection distributor or on one of movable bearing housings of the roller crusher. The disclosure further relates to a method for monitoring the physical condition of the deflection distributor and to a refitting kit for a roller crusher.

A rock processing machine having functional units and a control panel that switches the rock processing machine, in a starting switching operation and, in a stopping switching operation. The control panel includes a plurality of state switching elements with which, for at least one functional unit, a state transition is associated in such a way that actuation of the state switching element on the functional unit brings about a state transition. A first set of switching elements participates in the starting switching operation, and a second set of switching elements, participates in the stopping switching operation; each set being arranged in a visually perceptible spatial arrangement that corresponds to a predetermined actuation sequence.

A rock processing machine having functional units and a control panel that switches the rock processing machine, in a starting switching operation and, in a stopping switching operation. The control panel includes a plurality of state switching elements with which, for at least one functional unit, a state transition is associated in such a way that actuation of the state switching element on the functional unit brings about a state transition. A first set of switching elements participates in the starting switching operation, and a second set of switching elements, participates in the stopping switching operation; each set being arranged in a visually perceptible spatial arrangement that corresponds to a predetermined actuation sequence.