Abstract: An adjustable fluidic coupling includes a fluid channel extending between an upstream fluid inlet and a downstream fluid outlet. An inlet part includes a first conduit extending therethrough between the inlet at an upstream end and a first connection port at a downstream end portion. An outlet part includes a second conduit extending therethrough between the outlet at a downstream end and a second connection port at an upstream end portion. The coupling further includes a compression member selectively movable between a first position and a second position. The fluid inlet includes a threaded portion for torqued threaded connection of the inlet to a threaded end of the wall outlet, and an inlet seal fluidly sealing the inlet port to the wall outlet.

Abstract: A maintenance management system is disclosed. The system includes a processing device, a plurality of components in communication with the processing device, each component having a location associated with the component and one or more sensors for capturing usage data associated with the component, and user devices in communication with the processing device. Usage data of components is communicated to the processing device. The processing device determines from the usage data whether any of the components requires maintenance. The location of each respective component requiring maintenance is communicated to at least one of the one or more user devices from the processing device.

Abstract: A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.

Abstract: A method for detecting an assistance indicator in a physical consumable usage environment, wherein the method comprises the steps of: detecting an assistance indicator using an electronic control device associated with at least one physical consumable provisioning device; generating an alert based on detection of the assistance indicator; and communicating the alert to a registered device that is associated with the physical consumable provisioning device.

Abstract: A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.

Abstract: A water management method for controlling at least one operational parameter of at least one water control device, wherein the operational parameter is associated with water used by the water control device, the method comprising the steps of: sending, from an electronic controller of the water control device, operational data associated with the operational parameter to an embedded electronic device; receiving, at the embedded electronic device, the operational data, and developing control data based on the received operational data and sending the control data to the electronic controller; and receiving, at the electronic controller, the control data and controlling the operational parameter of the water control device based on the received control data.

Abstract: A rimless toilet pan (20) includes a forward end (F), a rearward end (R) and a pan bowl (28). A flushing outlet (32) is in fluid communication with the pan bowl (28). A flushing water inlet (30) is in fluid communication with the pan bowl (28). An inwardly facing first sidewall (34) extends substantially around the top of the pan bowl (28). A substantially horizontal ledge extends (36) substantially around the bottom of the first sidewall (34). An inwardly facing second sidewall (37) extends substantially around the pan bowl (28) under the horizontal ledge (36). A flushing water flow splitter (38) is substantially adjacent a rearward end of the first sidewall (34), the flow splitter (38) is in fluid communication with the flushing water inlet (30) and has a leftwards outlet (38a) and a rightwards outlet (38b).

Abstract: A rimless toilet pan (20) including a forward end (F), a rearward end (R), a pan bowl (28), a flushing outlet (32), a flushing water inlet (30), an inwardly facing first sidewall (34), an inwardly facing second sidewall (37) and a flushing water flow splitter (38). The flushing outlet (32) is in fluid communication with the pan bowl (28). The flushing water inlet (30) is in fluid communication with the pan bowl (28). The inwardly facing first sidewall (34) extends substantially around the top of the pan bowl (28). The substantially horizontal ledge (36) extends substantially around the bottom of the first sidewall (34). The inwardly facing second sidewall (37) extends substantially around the pan bowl (28) under the horizontal ledge (36). The flushing water flow splitter (38) is substantially adjacent a rearward end of the first sidewall (34), is in fluid communication with the flushing water inlet (30) and has a leftwards outlet (38a) and a rightwards outlet (38b).