Recycling systems can include a conveyor system, an optical device, and a processor operable to detect, identify, and count redeemable objects. The conveyor system can include a plurality of bins and be configured to move the bins from a first end of the conveyor system to a second end of the conveyor system. The optical device can be situated and configured to capture an image of a plurality of objects within a bin of the conveyor system. A processor including computer-readable instructions can be configured to detect and identify the objects within an image captured by the optical device as belonging to one or more object classes. Each object class can determine whether an object is redeemable or unredeemable. The processor can be configured to provide a count of only those objects identified as redeemable.

The present disclosure relates to a waste bin for waste paper products and other waste, the waste bin including a frame for supporting at least two, preferably exactly two, compartments; an upper compartment supported by the frame and configured to receive waste paper product, in particular, paper towels; and a lower compartment supported by the frame and configured to receive other types of waste; wherein the upper compartment is arranged above the lower compartment in a vertical direction of the waste bin, wherein the lower compartment comprises a liquid-impermeable bottom section and, preferably, liquid-impermeable side-wall sections, and wherein at least one of the upper and lower compartments is detachable from the frame, and wherein each of the upper compartment and the lower compartment is accessible for introducing waste material thereinto independently from the respective other compartment. The present disclosure further relates to a method of servicing a waste bin.

One example embodiment is adapted for use in facilitating collection and transport of memory devices, e.g., drives, motherboards, etc., e.g., for the purposes of subsequent destruction. The example embodiment has an outer bin, also called a garage or outer enclosure, within which is placed an inner bin with wheels. Once closed and locked, the outer bin has a door that can be opened so drives or other memory devices can be inserted. The drives then fall into the inner bin and, once sufficiently filled, the inner bin be easily wheeled out from the outer bin. The inner bin has its own locking lid that is secured when transporting the inner bin with the drives, e.g., to a destruction facility or area. Other features are provided as described below. Enhanced synergistic security features include use of multi-point locking latches to secure doors and lids, metal construction of the bins, and so on. The bins are sized to facilitate efficient collection and transport of potentially sensitive data center media.

The present invention relates to a novel trash can configured to provide money to users in exchange for trash/litter and recyclable items. The trash can has separate bins for collecting trash and recyclables; a weight sensor for determining a weight of the collected trash and recyclables; a processor for determining cash value corresponding to the weight of the collected trash and recyclables; a coin tray for storing coins; a bill tray for storing bills; a coin slot configured to dispense coins from the coin tray; and a bill slot for dispensing bills from the bill tray for providing a monetary amount to a user in exchange for depositing trash and recyclables. The bins can be removed, and the trays can be refilled by municipal authorities. In some embodiments, the trash can assembly has a screen display for displaying the weight of items and corresponding monetary amount.

Recycling systems can include a conveyor system, an optical device, and a processor operable to detect, identify, and count redeemable objects. The conveyor system can include a plurality of bins and be configured to move the bins from a first end of the conveyor system to a second end of the conveyor system. The optical device can be situated and configured to capture an image of a plurality of objects within a bin of the conveyor system. A processor including computer-readable instructions can be configured to detect and identify the objects within an image captured by the optical device as belonging to one or more object classes. Each object class can determine whether an object is redeemable or unredeemable. The processor can be configured to provide a count of only those objects identified as redeemable.

Disclosed is a waste container, liner, and rail system. The system may include one or more waste containers or one or more basketless systems or liner receivers to direct, hold, and facilitate the sequential replacement of a waste liner. The system may comprise a pull out track system that is adaptable to cabinetry or another defined space for a waste container. The pull out track system may generally include front, rear, side, and/or base panels, as well as at least one internal panel. The at least one internal panel may define an interior space configured to receive waste liners and to dispense the waste liners automatically.

A resource collection apparatus is an apparatus for collecting waste reusable as a resource. The resource collection apparatus includes an opening associated with a predetermined sorting type, an opening/closing unit configured to open and close the opening, a first detector configured to perform an operation to detect a target waste belonging to a user, and a controller configured to specify a sorting type into which the target waste is to be sorted, by using a result of the detection by the first detector. The controller switches the opening/closing unit from a closed state to an open state when the specified sorting type matches the sorting type associated with the opening.

One example embodiment is adapted for use in facilitating collection and transport of memory devices, e.g., drives, motherboards, etc., e.g., for the purposes of subsequent destruction. The example embodiment has an outer bin, also called a garage or outer enclosure, within which is placed an inner bin with wheels. Once closed and locked, the outer bin has a door that can be opened so drives or other memory devices can be inserted. The drives then fall into the inner bin and, once sufficiently filled, the inner bin be easily wheeled out from the outer bin. The inner bin has its own locking lid that is secured when transporting the inner bin with the drives, e.g., to a destruction facility or area. Other features are provided as described below. Enhanced synergistic security features include use of multi-point locking latches to secure doors and lids, metal construction of the bins, and so on. The bins are sized to facilitate efficient collection and transport of potentially sensitive data center media.

A system for depositing of recyclable articles includes an internally-compartmented structure. The compartments are accessed through hatches which are selectively closed with covers. The system includes a user-operated kiosk which controls operation of the covers in response to user information and the degree to which the compartments are filled with recyclable articles. The kiosk includes a display for directing the user to deposit the articles into specific compartments and a user interface for entry and display of user-specific information.

A system includes a vacuum canister combinable as a unit with a segregated trash bin. The vacuum canister is connected to a vacuum motor for drawing fines and particulates to the vacuum canister. The segregated trash bin retains refuse separate from the fines and particulates of the vacuum canister. The vacuum canister sealingly contains the fines and particulates from vacuuming. Debris larger than the vacuumed fines and particulates is depositable in the segregated trash bin separated from the fines and particulates.