A storage device and a storage bag are provided. The storage device includes: a barrel-shaped body, including a bottom board and a side wall connected with the bottom board; a storage bag convey member, disposed an outer side of the side wall, and configured to convey a storage bag to a side edge of the side wall away from the bottom board; a first driving part, including a rotation part and a rocker arm, the rotation part being disposed on the bottom board, an end of the rocker arm being connected with the rotation part, another end of the rocker arm extending to a side of the side wall away from the bottom board, and the rocker arm being configured to rotate along the side wall under driven of the rotation part.

A refuse hopper is disclosed which may be mounted in the bed of a pick-up truck, a flat-bed truck or on a trailer. The refuse hopper includes a horizontally disposed support frame having a rear end, a front end, a first side and a second side. A hopper is pivotally mounted on the support frame and has a front end, a rear end, a front side and a second side. The refuse hopper is selectively movable between a horizontally disposed loading position and a dumping position. A compactor plate is pivotally mounted to the hopper and is movable between an upwardly extending loading position to a refuse packing position within the hopper. The hopper has a volume of about four cubic yards.

A waste compaction system includes a trolley for collecting waste and a docking station that is integratable into a cabin monument of a vehicle. The trolley includes a housing with chambers for waste, an opening for introducing waste, a vacuum compaction mechanism assigned to a chamber, and a suction port accessible from outside the housing and couplable to the compaction mechanism. The compaction mechanism includes a compaction sheath extending from a bottom of the housing to a frame arranged opposite the bottom, and is fillable through the opening, and a rigid plate is arranged on or in at least one lateral surface of the compaction sheath and moves together with the compaction sheath during the evacuation thereof. The docking station and the trolley mate with each other. The docking station includes another suction port that is couplable to a suction line in the vehicle and the first suction port.

A trolley system for collecting and compacting rubbish in a vehicle has a trolley housing with two chambers formed therein with respective housing openings and a rubbish compacting device. The first and second chambers, and the first and second housing openings are arranged concentrically along a main direction of extent of the housing upper side or of the housing base. The openings are arranged above the second chamber. A sliding surface is arranged below the first opening and extends from an edge of the first opening, which edge is directed towards the second opening, to an edge of the first chamber, which edge is directed towards the second chamber. The compacting device arranged above the first chamber is designed to move a pressing plate between a starting position close to the housing upper side to a position lowered in the direction of the housing base to compact rubbish within the first chamber.

A waste recycling system with an automated dumpster includes a main body and the main body includes a main control module. The main control module includes a main control unit, and is electrically connected to a dumpster module. The dumpster module includes a dumpster and the dumpster includes a sub-control module. The sub-control module includes a sub-control unit. The sub-control unit is electrically connected to a power unit and a scanning unit. The power unit is used to drive the dumpster and the scanning unit is disposed at the front end of the dumpster to receive signals. The sub-control unit also includes guiding units. The guiding unit is disposed on the transporting path of the dumpster. By the scanning unit, the scanned signal is transmitted back to the sub-control unit to control the dumpster moving automatically.

Embodiments of the present invention are related to an autonomously propelled waste receptacle including a top, a collapsible lid, a housing, an exterior, an interior, and a bottom. The housing includes a circuit board panel, a door, and doorway. The exterior includes a user interface, a plurality of sensors, at least one antenna, and a camera. The interior includes a bin, a trash compactor with a plurality of threaded rods connected to the collapsible lid, an upper can platform, and a bottom tech platform. The bottom includes a plurality of wheels used to drive the autonomously propelled waste receptacle.

The collapsible lid also acts as a descending masher compacting trash within the interior bin and the bin is structured to rotate through the doorway to empty. The autonomously propelled waste receptacle may navigate using at least one of sensors, camera, WiFi communication, cellular communication, and GPS communication.

A trash compactor may include a frame, a cavity, a trash receptacle, a platen movable to compress trash collected in the trash receptacle, a set of linkages and a drive mechanism configured to drive said platen up and down, the drive mechanism further configured as one of the link elements, and a platen guide mechanism configured to restrict the motion of the platen in an up and down manner.

The subject of the invention is a device for waste segregation and collection of segregated waste with a waste recognition, segregation and distribution section, a compression mechanism and storage bins is distinguished by the storage bins (15)(16) which have fill level sensors and which are inserted in the guideways of the base (13), directly over one of the side storage bins (15) there is a throwing box attached to the casing, with a throwing tunnel (9) and with a lid with a sensor that detects whether the lid is open or closed (4), above the bins (16) on a system of horizontal guideways (12), which are attached to the casing, there is a distribution cart (10) that moves sideways on the guideways, with a power system with a gear motor, which is controlled with a control system, the distribution cart (10) has a throwing mechanism (14)at least one automatic throwing lid (11), the distribution cart works with its own throwing box with a lid with a sensor that detects whether its closed or open (6), within the throwing channel of the throwing box (6) there is a sensor of the waste recognition systema camera.

Disclosed is a press including a press part, at least two upper levers and at least two lower levers and a telescopic arm arranged to be moved between a shortened and an extended position by way of an actuator. The upper levers and the lower levers have ends arranged to rotate around a point of rotation. Also disclosed is a construction.

The embodiments of the disclosure concern solar power operation controller to control a solar operated actuator system. An embodied solar controller, of a solar power operated actuator system, includes, an input for power feed from a solar panel for the solar controller powering, at least one sensor input in an ensemble of sensor inputs for providing sensor data to the solar controller, a functional connection to control a solar panel produced electricity for an accumulator charging, a functional connection to control accumulator laden charge for an actuator operation.