A system for storing recyclable containers, such as used food or beverage containers, including a storage for housing recyclable containers, the storage having a set of inner surfaces which defines a storage volume for the recyclable containers; a transporting channel, the transporting channel including an inlet port and an outlet port, wherein the inlet port is arranged to receive compressed and/or uncompressed recyclable containers, and the outlet port being arranged in at least one of the inner surfaces in the set of inner surfaces, a force feeding transporting mechanism configured to transport transfer at least one recyclable container through the transporting channel, and into the storage volume via the outlet port, a centre axis of the outlet port of the transporting channel is directed upwards from the horizontal plane at an angle, the angle being within the range of 15° and 85° at the outlet port of the transporting channel.

The disclosure describes waste receptacles for processing waste comprising a waste portal configured to accept waste deposited by an end user, a waste analysis unit positioned proximate to the waste portal, a waste conveyor connected to the waste portal, a paddle or robotic member positioned over the waste conveyor and configured to push the waste off the waste conveyor and into a grinder or into a waste commodity container.

A waste management system having improved maneuverability and versatility. The system includes a container bay configured to house a compactor unit having a receptacle body configured to receive waste in a cavity surrounded by container walls and a tow member affixed to a forward container wall, the tow member. The tow member is disposed in close proximity to the front wall in order to provide better maneuverability when maneuvered by a deployment vehicle. Typically, first and second of the tow member converge at a tow engagement mechanism disposed at a distance from the forward container wall that is equal to or less than one tenth of a length of the container. The system may further include a local control station situated at the container bay and configured to engage with waste container such that the control station may control functionality of the compactor unit.

The present disclosure relates to a commercial waste container bottom assembly kit, capable of fitting a wide range of waste container and dumpster sizes. The system includes additional features such as an enhanced commercial waste container load rail and joggled end caps. The advantages over traditional methods of replacing container bottoms are significant.

The present disclosure relates to a commercial waste container bottom assembly kit, capable of fitting a wide range of waste container and dumpster sizes. The system includes additional features such as an enhanced commercial waste container load rail and joggled end caps. The advantages over traditional methods of replacing container bottoms are significant.

The present disclosure relates to a commercial waste container bottom assembly kit, capable of fitting a wide range of waste container and dumpster sizes. The system includes additional features such as an enhanced commercial waste container load rail and joggled end caps. The advantages over traditional methods of replacing container bottoms are significant.

A trash compactor system includes a receptacle defining a retaining chamber that is configured to receive and retain trash, a compaction plate moveably secured within the retaining chamber, and a foot pedal operatively coupled to the compaction plate. Engagement of the foot pedal moves the compaction plate within the retaining chamber to compact the trash retained within the retaining chamber. A flap may cover an opening into the retaining chamber. The foot pedal may also be operatively coupled to the flap, such that the engagement of the foot pedal moves the flap into an open position that exposes the opening.

A waste container monitoring system may include a monitoring device configured to be positioned in a waste container, a remote processing system, and sensors to monitor conditions of the container. A communication connection communicates the one or more conditions to the remote processing system. A waste compactor monitoring system may include a monitoring assembly having a hub device and one or more sensors connected to the hub device and distributed around the waste compactor system, the one or more sensors being configured to monitor one or more conditions of the waste compactor system. A sensor assembly for a waste container monitoring system may connect to a hydraulic reservoir in a waste compactor. The sensor assembly may include a breather cap, a sensing element for detecting a level and/or a temperature of fluid in the hydraulic reservoir, and a dip tube to support the sensing element inside the hydraulic reservoir.

Disclosed are embodiments that relate to apparatus for compacting materials. The apparatus comprising a mechanical linkage designed to be mounted within the interior of an existing waste receptacle, a compression surface operably connected to the mechanical linkage, and a motor operably connected to the mechanical linkage, wherein the motor is capable of extending and retracting the mechanical linkage, thereby lowering and raising the compression plate. Some embodiments will take advantage of integrated sensors and processors in order to capture and analyze large amounts of data related to the compactor operations. This data may lead to refinements and greater efficiency in the waste disposal processes.

A system for storing recyclable containers, such as used food or beverage containers, including a storage for housing recyclable containers, the storage having a set of inner surfaces which defines a storage volume for the recyclable containers; a transporting channel, the transporting channel including an inlet port and an outlet port, wherein the inlet port is arranged to receive compressed and/or uncompressed recyclable containers, and the outlet port being arranged in at least one of the inner surfaces in the set of inner surfaces, a force feeding transporting mechanism configured to transport transfer at least one recyclable container through the transporting channel, and into the storage volume via the outlet port, a centre axis of the outlet port of the transporting channel is directed upwards from the horizontal plane at an angle, the angle being within the range of 15 and 85 at the outlet port of the transporting channel.