Embodiments of the present invention pertain to a modular plant trimming system. A number of plant trimming machines are placed side by side. These plant trimming machines trim leaves from a plant. A sensor detects when one or more of the plant trimming machines are added or removed from the system. A processor then balances a load of plants to be trimmed to be split between the currently available number of plant trimming machines.

Embodiments of the present invention pertain to a modular plant trimming system. A number of plant trimming machines are placed side by side. These plant trimming machines trim leaves from a plant. A sensor detects when one or more of the plant trimming machines are added or removed from the system. A processor then balances a load of plants to be trimmed to be split between the currently available number of plant trimming machines.

Embodiments of the present invention pertain to a tiltable tumbler for use in a plant trimming machine. Plants are placed in a tumbler. As the tumbler rotates, leaves extending through slots in the tumbler by a vacuum are trimmed off. A mechanism is used to adjust the tilt of the tumbler. Thereby, the rate by which the plant material in the tumbler is processed is faster with a higher tilt or slower with a lower tilt. The degree of tilt is adjustable either manually or automatically via a computer.

Embodiments of the present invention pertain to a tiltable tumbler for use in a plant trimming machine. Plants are placed in a tumbler. As the tumbler rotates, leaves extending through slots in the tumbler by a vacuum are trimmed off. A mechanism is used to adjust the tilt of the tumbler. Thereby, the rate by which the plant material in the tumbler is processed is faster with a higher tilt or slower with a lower tilt. The degree of tilt is adjustable either manually or automatically via a computer.

A food recycler includes a case, a control system within the case, and a set of user interface components that are usable to at least cause the control system to initiate a food recycling cycle. The food recycler also includes a motor within the case and a bucket that has a volumetric capacity between 2.51 and 10 liters. A filter system configured to accommodate air filters is also included in the case of the food recycler. To remove water from waste food items, the food recycler includes a drying component.

A food recycler can include a case having a case volume between 8.79 liters and 35 liters, a control system, a user interface in electrical communication with the control system, and a bucket being configured with a bucket volume, wherein a ratio of the bucket volume to the case volume is between 0.0717 and 0.2857. The recycler can include a motor in communication with the control system, the motor being configured adjacent at least in part to the bucket, a gearbox configured below the bucket and in mechanical communication with the motor, a filter system and a drying component configured to remove water from waste food items.

A road debris collection assembly for includes a vehicle that has a storage tank thereon and an engine. A vacuum unit is coupled to the storage tank and the vacuum unit produces vacuum pressure within the storage tank when the vacuum unit is turned on. A pair of shredding units is each coupled to the vehicle and each of the shredding units has an inlet is aligned with a roadway upon which the vehicle is driving. Moreover, each of the shredding units is in fluid communication with the vacuum unit to suctionally collect debris from the roadway. Each of the shredding units has a plurality of blades therein and the blades in each of the shredding units shredding the debris when the shredding units are turned on.

A road debris collection assembly for includes a vehicle that has a storage tank thereon and an engine. A vacuum unit is coupled to the storage tank and the vacuum unit produces vacuum pressure within the storage tank when the vacuum unit is turned on. A pair of shredding units is each coupled to the vehicle and each of the shredding units has an inlet is aligned with a roadway upon which the vehicle is driving. Moreover, each of the shredding units is in fluid communication with the vacuum unit to suctionally collect debris from the roadway. Each of the shredding units has a plurality of blades therein and the blades in each of the shredding units shredding the debris when the shredding units are turned on.

A method for preparing nanometer MAX phase ceramic powder or slurry having a laminated structure by means of ball milling and regulating the oxygen content of the powder. Micron-sized MAX phase ceramic coarse powder is adopted as a raw material, during ball milling, a gas or a liquid-state gas having a special effect is introduced into a ball milling tank, and by means of multi-dimensional functions and regulation such as ball milling parameters and gas reaction, the nanometer laminated MAX phase ceramic powder or the slurry containing the component is obtained. The surface components and the activated state of the powder are regulated while the particle size adjustment control of the powder is realized.

A method for preparing nanometer MAX phase ceramic powder or slurry having a laminated structure by means of ball milling and regulating the oxygen content of the powder. Micron-sized MAX phase ceramic coarse powder is adopted as a raw material, during ball milling, a gas or a liquid-state gas having a special effect is introduced into a ball milling tank, and by means of multi-dimensional functions and regulation such as ball milling parameters and gas reaction, the nanometer laminated MAX phase ceramic powder or the slurry containing the component is obtained. The surface components and the activated state of the powder are regulated while the particle size adjustment control of the powder is realized.