Abstract: System and method for improving the performance, safety, and energy efficiency of a cooking appliance with one or more heating elements operably connected with a burner controller controlling an amount of energy flowing to the one or more heating elements. First, a user or a system controller establishes one or more reference levels. The system controller is operably associated with one or more sensors, which measures levels of one or more emissions generated in the operation of the cooking appliance. Afterwards, the system controller compares the measured levels of the one or more emissions with the reference levels and in response to the measured levels of the emissions exceeding reference levels, sends an activation control signal to the cooking appliance. Then, an energy control mechanism associated with the burner controller adjusts the amount of energy flowing to the heating elements in response to the activation control signal.

Abstract: An improved control system for a range hood that is capable of automatically responding to various air quality parameters including heat, smoke, carbon monoxide, humidity, and others. The system contains a number of features that, combining aspects of open-loop and closed loop control, manage the system dynamics for smoother operation, respond to both level and rate signals and compensate for background conditions and sensor variability by using relative values.

Abstract: An improved control system for a range hood that is capable of automatically responding to various air quality parameters including heat, smoke, carbon monoxide, humidity, and others. The system contains a number of features that, combining aspects of open-loop and closed loop control, manage the system dynamics for smoother operation, respond to both level and rate signals and compensate for background conditions and sensor variability by using relative values.

Abstract: System and method for improving the performance, safety, and energy efficiency of a cooking appliance with one or more heating elements operably connected with a burner controller controlling an amount of energy flowing to the one or more heating elements. First, a user or a system controller establishes one or more reference levels. The system controller is operably associated with one or more sensors, which measures levels of one or more emissions generated in the operation of the cooking appliance. Afterwards, the system controller compares the measured levels of the one or more emissions with the reference levels and in response to the measured levels of the emissions exceeding reference levels, sends an activation control signal to the cooking appliance. Then, an energy control mechanism associated with the burner controller adjusts the amount of energy flowing to the heating elements in response to the activation control signal.

Abstract: A vise used for holding and stabilizing a wide variety of work object shapes by means of conformable spring action jaw faces. The jaw faces are designed to be interchangeable to accommodate delicate or heavy-duty work. Dual ratchet mechanisms and a cam-driven piston provide both a quick and convenient method of closure that maintains precise and significant levels of clamping force. If desired, lockout features are included that defeat the spring action of the jaws and allows the vise to act more like a traditional vise. In addition, interchangeable smooth faced jaws allow the vise to function as a traditional vise.