A container having a receptacle with an open upper end for receiving material, and an edge cap that is movably supported relative to the receptacle. The edge cap has a sidewall that is spaced outwardly from a camming surface of the receptacle, and a lid support member that projects inwardly from the sidewall. A lid panel is pivotably mounted to the lid support member for pivoting between a closed position and an open position. An actuation portion of the lid panel has a cam surface that is positioned between the camming surface and the sidewall. The cam surface is configured to engage with the camming surface to pivot the lid panel towards the open position when the sidewall is moved towards the camming surface.

A standalone waste compacting device includes an enclosure having a removable bin; a cover section on the enclosure incorporating at least one solar power unit, at least one storage battery and control unit, at least one inwardly pivoting user access flap having a dual locking control mechanism, at least one recessed foot pedal mechanism for opening the access flap, a detachable independent compaction unit comprising a scissor linkage and lever linkage system, and at least one service access means.

Systems, methods, and computer-readable storage media for controlling electrically-powered trash compactors and receptacles. The system first receives data associated with a storage receptacle configured to communicate with the system via a network, wherein the data is received from a server storing information transmitted by the storage receptacle, the storage receptacle having an energy storage for powering operational functions performed by the storage receptacle. The system then identifies a parameter of the storage receptacle associated with an operational function of the storage receptacle, and transmits a signal to the storage receptacle for modifying the parameter based on the data associated with the storage receptacle to yield a modified operation of the storage receptacle.

An embodiment relates to a trash collection device comprising a trash receptacle with a unique identification and an opening to receive a class of trash; an identification scanner for recognizing a user; a trash item counter; a fill level sensor; a display configured to interact with the user; a compactor; a solar panel configured to charge a battery; a data communicator configured to communicate date to a cloud storage; a processor configured to generate incentive for the user; wherein the trash collection device is configured to be modular and configurable to connect with another similar trash collection device to enable to collect additional trash class and is configured to interact with each other through a common software. The device, method and system are further used to generate recycling analytics by using the stored data to provide incentives to users and to facilitate planning of downstream operations.

A storage receptacle can include a storage bin and a pedal mounted to the receptacle. The pedal can rotate downward when pressure is applied in order to pull on a first cable coupled to the pedal. The first cable is connected to a spring, and the spring is connected to a second cable. The second cable connects the spring to a door via an upper pulley of the receptacle. The second cable causes the door to open when the second cable is pulled based on force applied to the pedal. A bottom pulley can be coupled to the pedal via the first cable and configured to translate an upward pull of the first cable to a downward pull of the spring and second cable. The spring controls the motion of the door such that the door does not open too quickly upon a force being applied to the pedal.

A refuse collection apparatus is disclosed. A refuse collection apparatus according to one embodiment of the present invention a main body unit into which a refuse is inserted, a refuse compression unit installed in the main body unit and configured to compress the refuse inserted into the main body unit and a movement range detection unit located inside of the main body unit and configured to detect a movement range of the refuse compression unit.

A storage receptacle can include a storage bin and a pedal mounted to the receptacle. The pedal can rotate downward when pressure is applied in order to pull on a first cable coupled to the pedal. The first cable is connected to a spring, and the spring is connected to a second cable. The second cable connects the spring to a door via an upper pulley of the receptacle. The second cable causes the door to open when the second cable is pulled based on force applied to the pedal. A bottom pulley can be coupled to the pedal via the first cable and configured to translate an upward pull of the first cable to a downward pull of the spring and second cable. The spring controls the motion of the door such that the door does not open too quickly upon a force being applied to the pedal.

A bin aid is provided that is adapted to raise and lower a bin lid of a bin, the bin aid including a main body and a connection means functionally connectable with the main body and able to functionally engage with the bin lid. The connection means includes a rotatable unit and a control means for controlling one or more functions to aid the use of a bin including to selectively control the connection means. The connection means is able selectively to raise and to lower the bin lid with respect to the closely located bin.

The present invention relates to a system and a method for monitoring content of a waste container. The system comprises at least one monitoring device comprising a gas sensor for detecting a concentration of at least one gas within a waste container. The system is configured such that when the at least one monitoring device is mounted to the waste container, the monitoring device is configured to communicate information indicative of the detected gas concentration within the waste container via the network interface to a remote computing device such that the system can determine whether the detected concentration of the at least one gas within the waste container exceeds or falls below a pre-determined threshold.

Systems, methods, and apparatuses for controlling electrically-powered trash receptacles and monitoring fullness levels. The system can include a storage enclosure and a bin contained inside the storage enclosure, the bin configured to receive and store items deposited in the storage enclosure, wherein an inside portion of the bin is at least partially covered by a bag placed inside the bin to hold the items deposited in the storage enclosure. The system can also include a sensor configured to sense a content fullness state of the bin and a processor configured to control operations performed by the sensor. In addition, the system can include a sleeve configured to be installed over an inside portion of the bin and the bag, the sleeve at least partially restricting a movement of the bag.