A sanitary product disposal container includes a container housing having a movable housing top cover, a movable housing bottom cover, and a sensor. A cover actuating mechanism may operably engage the housing top cover to actuate the housing top cover between open and closed positions. The sensor may operably interface with the cover actuating mechanism to facilitate deployment of the housing top cover between the open and closed positions responsive to sensing the presence of a person in proximity to the container housing. Accordingly, a used feminine hygiene product may be placed in the interior space of the container housing in the open position of the housing top cover without having to touch the container housing in order to open the housing top cover. The housing bottom cover may be selectively opened to facilitate removal of the used feminine hygiene products from the interior space.

A container support for holding and closing a container includes a base assembly, a connector, a handle assembly, and a plurality of arms. The base assembly has a first side and a second side. The connector connects the container support to a frame, and the connector is attached to the first side of the base assembly. The handle assembly has a first side and a second side. The arms are attached to the second side of the base assembly and to the first side of the handle assembly. The arms, the base assembly, and the handle assembly are movable between a closed configuration and an open configuration. The container is unsealed and open when the arms, the base assembly, and the handle assembly are in the open configuration, and the container is closed when the arms, the base assembly, and the handle assembly are in the closed configuration.

A floor cleaning system having a flat headed mop is provided. The system includes a bucket having a plurality of compartments. At least one compartment is provided for cleaning the flat headed mop to remove dirt and debris accumulated during use. A second compartment is provided for recharging the mop pad with fluid. At least one wringer device is operably coupled to one of the plurality of compartments. The at least one wringer device having an extractor element to remove at least a portion of fluid from the mop pad.

An example system for deployment of a compacting head in a waste compartment includes an eutectic alloy fusible link positioned within a waste compartment that breaks at or above a predetermined temperature, a spring tensioned deploy lever that is deployed based on a break of the eutectic alloy fusible link, a pivotal joint assembly that collapses based on deployment of the deploy lever, and a compacting head of a trash compactor that is deployed to compact contents of the waste compartment based on collapse of the pivotal joint assembly.

Recycling systems can include a conveyor system, an optical device, and a processor operable to detect, identify, and count redeemable objects. The conveyor system can include a plurality of bins and be configured to move the bins from a first end of the conveyor system to a second end of the conveyor system. The optical device can be situated and configured to capture an image of a plurality of objects within a bin of the conveyor system. A processor including computer-readable instructions can be configured to detect and identify the objects within an image captured by the optical device as belonging to one or more object classes. Each object class can determine whether an object is redeemable or unredeemable. The processor can be configured to provide a count of only those objects identified as redeemable.

A remote-controlled system and method for transporting trash comprises a carrier with wheels, a remote box having a remote transmitter and a motor, a conveyor bar attached to at least one stand, and a pair of rails. The carrier sits on the rails and moves along the rails based on its communication with the remote box. The box has a remote transmitter and a motor component that commands the carrier to move vertically down the rails at the discretion of a user. The rails are parallel to the conveyor bar and are attached to the remote box on the conveyor bar.

A system for provisioning products. The system includes a set of bins for each product, wherein at least one bin of each set of bins is affixed with a corresponding Radio Frequency Identification (RFID) tag. The system also includes at least one replenishment zone for receiving bins, at least one detection unit for reading an RFID tag of a bin placed in the at least one replenishment zone and generating provisioning requests, a least one processing unit for processing the provisioning requests and issuing instructions responsive to the provisioning requests, at least one communication unit for communicating the provisioning requests, and a memory for storing the provisioning requests.

A detector is configured to be mounted to a container. The detector has a housing and a mounting arrangement for mounting the housing to a container. A sensor arrangement includes a sensor to monitor the container and to generate a sensor output signal in response to a sensed container event. A processor executes a machine learning algorithm trained to determine a class of the sensed container event for determining occupancy of the container from the sensor output signal, where the control system is configured to provide an output based on the class of sensed container event determined by the machine learning algorithm.

A detector is configured to be mounted to a container. The detector has a housing and a mounting arrangement for mounting the housing to a container. A sensor arrangement includes a sensor to monitor the container and to generate a sensor output signal in response to a sensed container event. A processor executes a machine learning algorithm trained to determine a class of the sensed container event for determining occupancy of the container from the sensor output signal, where the control system is configured to provide an output based on the class of sensed container event determined by the machine learning algorithm.

The present disclosure relates to a waste bin for waste paper products and other waste, the waste bin including a frame for supporting at least two, preferably exactly two, compartments; an upper compartment supported by the frame and configured to receive waste paper product, in particular, paper towels; and a lower compartment supported by the frame and configured to receive other types of waste; wherein the upper compartment is arranged above the lower compartment in a vertical direction of the waste bin, wherein the lower compartment comprises a liquid-impermeable bottom section and, preferably, liquid-impermeable side-wall sections, and wherein at least one of the upper and lower compartments is detachable from the frame, and wherein each of the upper compartment and the lower compartment is accessible for introducing waste material thereinto independently from the respective other compartment. The present disclosure further relates to a method of servicing a waste bin.