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.

A sensor device for remote monitoring of a waste container, the sensor device including one or more sensors for sensing an amount of waste and an environment within the waste container, a data processing unit for processing sensor signals indicative of the amount of waste and the environment within the waste container, a communication interface for enabling the sensor device to communicate information corresponding to the sensor signals to a remote location. The sensor device is mounted to an upper lid of the waste container in a spaced apart manner by placing one or more spacing elements and a heat reflecting layer arranged between the sensor device and the upper lid to provide a thermal barrier between an underside surface of the waste container lid and the sensor device.

Disclosed is a method for monitoring a fill rate of a container and communicating it, which container comprises at least a first sensor which is a fill rate sensor. The method comprises receiving an operational model from a server, comprising a predefined maximum and/or minimum value of the fill rate. The method also comprises measuring the fill rate of the container. The method further comprises comparing the measured fill rate with the operational model. The method also comprises communicating the fill rate to the server, if the fill rate is equal or above the predefined maximum fill rate and/or if the fill rate is equal or below the predefined minimum fill rate.

A waste sorting system uses various sensors to automatically determine a type of a piece of waste, and dispense the waste into an appropriate waste bin, such as a recyclable waste bin, or a landfill waste bin. If the system determines that the piece of waste is of a type that is recyclable, it will first determine whether the waste satisfies a recyclability threshold before it deposits the waste into a recyclable waste bin. If the waste does not satisfy the recyclability threshold, the system will direct the piece of waste to a non-recyclable waste bin even if it is of a type that would otherwise be recyclable if it had met the recyclability threshold.

An in-ground apparatus includes a receptacle and a liner into which the receptacle can be placed and removed. The liner may be a molded plastic liner having a tapering body to permit stacking. The lower margin includes a set of seats for anchor fittings in the form of re-bar prongs that, when installed, extend radially outwardly from the liner. The seats, and hence the prongs, are located upwardly of the bottom edge of the liner so that they are embedded above and below when concrete is poured around the bottom of the liner. The receptacle is formed to contain liquids, such as used cooking oil and hot grease. It has a heating element wrapped around the receptacle, and insulation between the receptacle and the liner. There is an internally concealed pump-out with a swiveling access fitting.

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.

A sensor device used in remote monitoring of waste within a waste container includes a sensor arrangement for monitoring the waste and for generating a corresponding waste-indicative signal, a data processing arrangement for receiving the waste-indicative signal, a wireless interface coupled to the data processing arrangement for enabling the data processing device to emit wireless signals including information derived from the waste-indicative signal, and a power source for providing power to operate the sensor device. The sensor arrangement additionally includes a temperature sensor for measuring a temperature of at least the power source, and the data processing arrangement is operable to be switched from the second reduced-power mode to the first activated mode as a function of the temperature measured by the temperature sensor. This enables power saving and increased service life of the sensor, battery, and the waste container.

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.

Disclosed are a module apparatus for garbage collection and an operation method for the module apparatus. A module apparatus for garbage collection, according to the present invention, comprises: a case which is provided so as to be attached to a garbage receptacle and has a first hole on the lower end; an integrated circuit module which is accommodated inside the case; a battery for supplying power to the integrated circuit module; and a sensor unit which is electrically connected to the integrated circuit module and is for sensing the volume of garbage accumulated inside the garbage receptacle, wherein the first hole is aligned with a second hole formed on the garbage receptacle and the detection unit detects the volume of the garbage through the first and second holes.

A recycling bin for classification and compression of renewable resources, comprising a recycling bin housing, and a recycling bin inner container and a pressurizing device provided inside the recycling bin housing, wherein a weighing device is further provided between a bottom of the recycling bin inner container and the recycling bin housing; the pressurizing device comprises a compression beam provided in an upper part of an inner cavity of the recycling bin inner container, and a driving part for driving the compression beam to move; an upper end of the driving part is connected to the compression beam, and a lower end is connected to the bottom of the recycling bin inner container.