An ashtray device (1) for collecting cigarette or cigar ash and butts, the device comprising a separation mechanism (2) for separating the ash from the butts, and at least two containers (10, 11), wherein a first container (10) is positioned so as to receive the butts and a second container (11) is positioned so as to receive the ash.

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 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 handheld trash compaction apparatus for compacting trash downwardly into a trash can using a portable, handheld device includes a housing lid with a handle attached thereto, a bottom press configured to fit within the housing lid, and a drive mechanism mounted within the housing lid and coupled to the bottom press. The drive mechanism is actuatable to move in a compacting direction which urges the bottom press downwardly and outwardly from the housing lid. When actuated in the compacting direction, the bottom press is configured to compact waste into the waste container. The drive mechanism is also actuatable to move in a retracting direction which urges the bottom press upwardly and inwardly toward the housing lid. When actuated in the retracting direction, the bottom press is configured for storage within the housing lid.

A waste sorting device is characterized in that it is equipped with a waste collection tank coupled to a press (1), a set of sensors (4) submitting information to a controller system (2) which starts an initiated process of crushing with the press (1), during which the set of sensors (4) examines the object in terms of physical properties, and on the basis of signals form a position sensor (5), it opens a trapdoor (6) of the container for waste segregation. Below the collection tank and the press (1), it has a rotatable container for waste segregation, controlled by the controller (2), and rotated for segregation by means of a drive (3). The controller (2) starts the crushing process, and the set of sensors (4) analyzes the hardness, on the basis of resistance to compression, electrical conductivity, magnetic permeability, and then the controller (2) specifies the material from which the segregated waste is made.

This disclosure provides methods, devices, and systems that may include a container housing having at least one opening, as well as a camera configured to capture a visual input relating to a deposited object placed into the at least one opening. A light source may be configured to illuminate the deposited object, and a sorting plate configured to divert the deposited object into one of a plurality of containers. A motor may be configured to move the sorting plate, and a processor system configured to: receive the visual input from the camera, classify the deposited object based on the visual input, and cause the motor to move the sorting place to divert the deposited object to the one of the plurality of containers based on the classification.

The present invention comprises a safe and effective system for removal of a range of common pharmaceutical compounds. The formulation comprises activated carbon, accompanied by some larger pebble-like material to help break up capsules and tablets upon shaking, in the presence of an acidified liquid medium. Drugs are added to the bottle and the bottle is shaken so that the drugs are dissolved by the liquid solution and are irreversibly adsorbed onto activated carbon, thereby sequestering them from further use.

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 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.