A secured smart container is disclosed for collecting green waste products including operational functions for collection, video surveillance and monitoring capacity. The secured smart container may include one or more programmable logic controllers. Operational functions are performed by electrical components including sensors to determine green waste deposits characteristics and contents. Operational functions are further adapted to send and receive data, operationally wirelessly, and configured and adapted to utilize solar derived electric power and, optionally, electric power from other sources. Embodiments provide constant 24 hour/7 days a week video surveillance and alert monitoring capabilities. Disclosed systems and methods also include collection and transportation of waste contents from the container to a processing subsystem. Additionally, disclosed systems may also include a monitoring system for monitoring the collection of green waste product, delivery of the same to the processing subsystem and tracking to and throughout final processing of the green waste product and handling personnel.

A trashcan assembly can include a body portion, a lid portion pivotably coupled with the body portion, and a sensor assembly configured to generate a signal when an object is detected within a sensing region. The sensor assembly can include a plurality of transmitters having a first subset of transmitters and a second subset of transmitters. A transmission axis of at least one transmitter in the first subset of transmitters can be different from a transmission axis of at least one of the transmitters in the second subset of transmitters. An electronic processor can generate an electronic signal to a power-operated drive mechanism for moving the lid portion from a closed position to an open position, such as in response to the sensor assembly detecting the object.

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.

A lock system is described which includes a range monitoring system including a computer processor to monitor the proximity of the bin to a base station; a collection monitoring module including a computer processor to monitor when the bin is being collected. Also described is a computer-controlled method of inhibiting bin access to unauthorised persons, the method includes the steps of monitoring proximity of a bin to a base station with a range monitor having a computer processor to monitor the proximity of the bin; monitoring bin collection movement with a computer processor having a lift monitor, and unlocking a bin lock with a computer controller when the range monitor detects that the bin is proximal a base station and locking the bin lock when the range monitor detects that the bin is distal the base station.

A pay-per-use receptacle, suitable for use in an attended or unattended manner, especially at a trash or waste disposal facility. The receptacle is a generally box-like enclosure, having a payment terminal for receiving a payment and an access door on the front surface for receiving a bag of material (such as trash) after a payment is made. The bag of material is placed on a generally horizontal surface of a rotatable bin, positioned immediately inside the access door. Upon closing the access door, the rotatable bin rotates, thereby moving the deposited bag to a discharge position above a chute guide. The bag is urged from the rotatable bin by the motion of the bin and gravity, and falls downwardly and outwardly through an opening in the rear of the receptacle, into an external bin, dumpster, or compactor. Also disclosed is an ornamental design for a pay-per-use receptacle, and a process for controlling the operations thereof.

This invention is directed towards a waste enclosure device (device) comprising a waste enclosure employing operational functions including collection and monitoring capacity wherein said device includes one or more programmable logic controllers. Operational functions are performed by electrical components including sensors to determine waste deposits characteristics and contents. Said device operational functions are further adapted to send and receive data, optionally wirelessly, and configured and adapted to utilize solar derived electrical power and, optionally, electric power from other sources.

A secured smart container is disclosed for collecting green waste products including operational functions for collection, video surveillance and monitoring capacity. The secured smart container may include one or more programmable logic controllers. Operational functions are performed by electrical components including sensors to determine green waste deposits characteristics and contents. Operational functions are further adapted to send and receive data, operationally wirelessly, and configured and adapted to utilize solar derived electric power and, optionally, electric power from other sources. Embodiments provide constant 24 hour/7 days a week video surveillance and alert monitoring capabilities. Disclosed systems and methods include collection and transportation of waste contents from the container to a processing subsystem. Disclosed systems may also include a monitoring system for monitoring the collection of green waste product, delivery of the same to the processing subsystem and tracking to and throughout final processing of the green waste product and handling personnel.

A trashcan assembly can include a body portion, a lid portion pivotably coupled with the body portion, and a sensor assembly configured to generate a signal when an object is detected within a sensing region. The sensor assembly can include a plurality of transmitters having a first subset of transmitters and a second subset of transmitters. A transmission axis of at least one transmitter in the first subset of transmitters can be different from a transmission axis of at least one of the transmitters in the second subset of transmitters. An electronic processor can generate an electronic signal to a power-operated drive mechanism for moving the lid portion from a closed position to an open position, such as in response to the sensor assembly detecting the object.

A container comprises a hollow body portion, a hinged lid member pivotally attached to the body portion, an automatic latch assembly fixed to the body portion or the lid member, and a locking strap provided with an engagement member. The latch assembly comprises a casing and a lock bolt reciprocating between locked and unlocked positions. The lock bolt engages the engagement member of the locking strap in the locked position and is disengaged from the engagement member in the unlocked position. The latch assembly further comprises an actuator for moving the lock bolt out of engagement with the engagement member, a signal receiver for receiving a wireless signal or an accelerometer for monitoring acceleration of the container, and an electronic control module electrically connected to the signal receiver or the accelerometer for controlling the operation of the actuator in response to the wireless signal or data from the accelerometer.

A collection apparatus weight and fullness level reporting system includes: an inlet; a removable collection bin receiving material placed into the collection apparatus; a compacting mechanism including a ram body, wherein the ram body travels between a home position located above the collection bin to a maximum travel position located inside the collection bin, wherein during each compaction cycle the ram body travels along a variable length of the compaction path; a fullness-reporting module that determines the height of the material in the collection bin; and a controller that determines the length of the compaction path the ram body travels during each compaction cycle based on the input received from the fullness reporting module, wherein at the end of each compaction cycle in which the material height is below a maximum height, the ram body is brought to rest at a height below the home position.