Abstract: A thermo-element having an excellent response and durability is provided. The thermo-element includes a casing having a bottom, a thermally expandable material filled in the casing and capable of expanding and contracting due to temperature changes, a piston movable in an axial direction thereof, a guide member for slidably holding the piston, and a liquid chamber defined between the thermally expandable material and the piston to receive therein a deformable, incompressible fluid. A check valve is provided between the liquid chamber and an outside of the thermo-element, and operable to permit a flow of the fluid in a direction from the outside of the thermo-element to the liquid chamber, and inhibit a flow of the fluid in a direction from the liquid chamber to the outside of the thermo-element.

Abstract: A refrigerator includes at least one refrigerated compartment and a food product management system. The food product management system includes a container for storing foodstuffs in the at least one refrigerated compartment. The container includes a storage zone and a lid. A tag is arranged on the container to provide a consumer with an indication of whether a food item stored in the container is or is not spoiled. The tag can include a timer having a display, an indicator that changes state upon the passage of a predetermined time period and a computer that notifies a consumer, such as through an email, about a parameter associated with the food item in the container. The tag is affixed to the container with adhesive, snaps, clips, hooks and the like or, alternatively, simply integrally formed with the container.

Abstract: A steam system management method and apparatus includes a condensate collection reservoir with a pilot operated, pressure actuated dump valve that has a quick, snap action fully open/fully closed mode of operation. The pilot operation of the dump valve is actuated by a very low voltage solenoid actuator powered by a thermal-electric generator which thermionically converts heat from the steam system directly to electricity. Condensate dumps are controlled by liquid level sensing switches positioned near the top and bottom of the reservoir and electrically connected to a relay logic that turns the solenoid on and off. Temperature sensors positioned in the steam system and adjacent the thermal-electric generator are utilized in combination with the thermal electric generator and a microprocessor to monitor the air content in the steam system and to open the dump valve to purge excess air from the steam system.

Abstract: Solenoid operated condensate drain valve arrangements for steam systems are described having the following features:(a) powered by electromotive force obtained by the Seebeck effect;(b) where electrical sensing probe means control operation of the arrangement, the provision of thermal switch means overriding the action of the probe means and enabling air to escape from the system under start-up conditions;(c) provision of a monitoring circuit that allows escape of trapped steam which may be having a steam locking effect;(d) provision of a monitoring circuit that gives a measure of automatic drainage in the event of some failure in the drain valve arrangement.