Valve device. 2. Valve device for controlling a fluid flow, consisting of a flow control valve (15), which comprises a valve housing (19) with at least one supply connection (9) and one user connection (11) as well as a valve piston (17) that is guided inside the valve housing (19) longitudinally moveable and which controls the passage to the user connection (11) by means of a thermocouple (61) via an orifice (37, 39) depending on the temperature of the fluid flow, and a pressure compensator (21), connected to the supply connection (9), keeps the respective pressure drop across the orifice (37, 39) constant.

Valve device. 2. Valve device for controlling a fluid flow, consisting of a flow control valve (15), which comprises a valve housing (19) with at least one supply connection (9) and one user connection (11) as well as a valve piston (17) that is guided inside the valve housing (19) longitudinally moveable and which controls the passage to the user connection (11) by means of a thermocouple (61) via an orifice (37, 39) depending on the temperature of the fluid flow, and a pressure compensator (21), connected to the supply connection (9), keeps the respective pressure drop across the orifice (37, 39) constant.

A thermostatic valve to connect a heat source, in particular a gear drive, with a heat exchanger, particularly a motor vehicle. The thermostatic valve having a thermostatic valve housing with a first inlet connection for a first inlet port and a second inlet connection for a second inlet port, as well as a first outlet connection for a first outlet port and a second outlet connection for a second outlet port. The thermostatic valve further including a moveable working element in an intake opening of the thermostatic valve housing to open and close the inlet and outlet ports and a separate restriction element provided in the thermostatic valve housing between the first inlet connection and the first outlet connection.

A pressure cap structure for a cooling system having variable opening pressure, which is applied to a cooling system for circulating cooling water to radiate heat generated by an engine of a vehicle, and maintains the inside pressure of the cooling system in a predetermined range, the pressure cap may include a positive pressure spring mounted in a valve body, and operated to connect the cooling system to the outside when the pressure of the cooling system rises, and a shape memory member restored to the initial shape when reaching a predetermined temperature, and mounted between the positive pressure spring and a spring guard supporting the positive pressure spring.

A gas distribution system for use in an enclosed volume wherein the system includes a distribution duct and a first inflatable duct portion in fluid communication with the distribution duct. The system further includes a passageway defining an opening which extends through the passageway, wherein: the opening is in fluid communication with the first inflatable duct portion; the passageway includes a valve with a flapper positioned within the opening of the passageway; and the flapper is moveable in relationship to the opening by way of a bi-metallic temperature sensing member. The system further includes an inflatable enclosure in fluid communication with the opening of the passageway, wherein the inflatable enclosure is configured to define a volume within and separated from the enclosed volume.

A gas distribution system for use in an enclosed volume wherein the system includes a distribution duct and a first inflatable duct portion in fluid communication with the distribution duct. The system further includes a passageway defining an opening which extends through the passageway, wherein: the opening is in fluid communication with the first inflatable duct portion; the passageway includes a valve with a flapper positioned within the opening of the passageway; and the flapper is moveable in relationship to the opening by way of a bi-metallic temperature sensing member. The system further includes an inflatable enclosure in fluid communication with the opening of the passageway, wherein the inflatable enclosure is configured to define a volume within and separated from the enclosed volume.

In a sanitary installation part (1) which, along with a functional unit (7), forms a flow volume regulator, it is proposed that a regulating element (13), which can be adjusted along an adjustment path, be coupled to a temperature-sensitive drive unit (15) such that different regulating positions of the regulating element (13) are set in dependence on the temperature of the medium flowing through the installation part (1), wherein the different regulating positions realize in each case different volume-flow dependencies (11, 12, 45, 48) and/or flow resistances.

In a sanitary installation part (1) which, along with a functional unit (7), forms a flow volume regulator, it is proposed that a regulating element (13), which can be adjusted along an adjustment path, be coupled to a temperature-sensitive drive unit (15) such that different regulating positions of the regulating element (13) are set in dependence on the temperature of the medium flowing through the installation part (1), wherein the different regulating positions realize in each case different volume-flow dependencies (11, 12, 45, 48) and/or flow resistances.

A gas distribution system for use in an enclosed volume wherein the system includes a distribution duct and a first inflatable duct portion in fluid communication with the distribution duct. The system further includes a passageway defining an opening which extends through the passageway, wherein: the opening is in fluid communication with the first inflatable duct portion; the passageway includes a valve with a flapper positioned within the opening of the passageway; and the flapper is moveable in relationship to the opening by way of a bi-metallic temperature sensing member. The system further includes an inflatable enclosure in fluid communication with the opening of the passageway, wherein the inflatable enclosure is configured to define a volume within and separated from the enclosed volume.

A method of cooling air includes a liquid coolant subsystem including a cool water source configured to hold water, an air cooling subsystem including an air chamber that contains air therein, an air conditioning apparatus including a heat exchanger of a liquid-to-air type having a heat sink in thermal communication, a fan assembly configured to move air along the heat sink of the heat exchanger, a thermostat, a temperature sensor, and a control circuit in electronic communication with the temperature sensor and the thermostat, a plumbing subsystem including an inlet piping component in fluid communication with heat exchanger, an outlet piping component in fluid communication with the exchanger, and a solenoid valve. The control circuit may be configured to activate the fan assembly and to open the solenoid valve, allowing for the transfer heat to water from the air moved by the fan assembly.