Abstract: An electro-mechanical energy regulator for controlling an application of power supplied to a heating element of a cooking appliance that provides simmer operation is provided. The temperature and/or mode of operation is made via a user interface knob that is coupled to a switching control cam. This cam has an outer profile configured to drive a switching element via a power switch cam follower to close two power line contacts to power a heater. The heater drives a bimetal element whose deflection forces a temperature control switching element to close to enable power to flow to the heating element. The regulator also includes a cooking mode selector operable to open and close a pair of electrical contacts coupled in series with the heating element, and a diode coupled in parallel with the pair of electrical contacts.

Abstract: Some embodiments provide irrigation generator systems that include a main conduit comprising an inlet conduit and an outlet conduit; a flow control system positioned within the main conduit; a generator conduit comprising a generator inlet conduit and a generator outlet conduit, wherein the generator inlet conduit is fluidly coupled with the main conduit upstream of the flow control system, the generator outlet conduit is fluidly coupled with the main conduit downstream of the flow control system; and a generator comprising a rotor assembly cooperated with generator conduit to be physically activated by a flow of fluid through the generator conduit causing rotation of the rotor assembly and generates electrical power. The flow control system transitions between a closed state to the open state in response to a water pressure exceeding a pressure threshold.

Abstract: A gas control valve and method of controlling a gas control valve to provide infinite adjustability is provided. The gas control valve defines a fluid flow path. A flow adjustment arrangement within the fluid flow path has a plurality of discrete open configurations. Each discrete open configuration establishes a different flow rate through the fluid flow path. A controller operatively cyclically alternates the flow adjustment arrangement between different ones of the discrete configurations to provide an average flow rate through the fluid flow path that is between the flow rates permitted by the different ones of the discrete open configurations. The controller establishes residence times at the various ones of the discrete open configurations such that the resultant flow rate is the desired flow rate.

Abstract: An electro-mechanical energy regulator for controlling an application of power supplied to a heating element of a cooking appliance that provides simmer operation is provided. The temperature and/or mode of operation is made via a user interface knob that is coupled to a switching control cam. This cam has an outer profile configured to drive a switching element via a power switch cam follower to close two power line contacts to power a heater. The heater drives a bimetal element whose deflection forces a temperature control switching element to close to enable power to flow to the heating element. The regulator also includes a cooking mode selector operable to open and close a pair of electrical contacts coupled in series with the heating element, and a diode coupled in parallel with the pair of electrical contacts.

Abstract: A gas control valve and method of controlling a gas control valve to provide infinite adjustability is provided. The gas control valve defines a fluid flow path. A flow adjustment arrangement within the fluid flow path has a plurality of discrete open configurations. Each discrete open configuration establishes a different flow rate through the fluid flow path. A controller operatively cyclically alternates the flow adjustment arrangement between different ones of the discrete configurations to provide an average flow rate through the fluid flow path that is between the flow rates permitted by the different ones of the discrete open configurations. The controller establishes residence times at the various ones of the discrete open configurations such that the resultant flow rate is the desired flow rate.