A recirculation valve for use with a tankless water heater in a system that includes hot and cold water fixtures and a cold water supply. The recirculation valve includes a valve body having an inlet connection, a pair of outlet connections and an internal chamber; a thermostatic element that is disposed in a first portion of the internal chamber of the valve body and includes an actuation body that is responsive to water temperature; wherein the valve body further has a port opening that is disposed between the thermostatic element and a second portion of the internal chamber; wherein the thermostatic element further includes a piston constructed and arranged to operatively extend from said actuation body when the actuation body is heated, and a plunger that is carried by and is moveably responsive to the actuation body; and whereby, when the actuation body is heated, the valve transitions from an open position to a closed position by the piston moving the actuation body and plunger so that the plunger moves to seal against the port opening of the valve body.

Improved fluid supply assemblies for fluid systems are provided. In exemplary embodiments, the present disclosure provides for improved fluid supply assemblies and related features, systems and methods of use. More particularly, the present disclosure provides for advantageous faucet assemblies (e.g., electrically or mechanically actuated faucet assemblies) having an integrated anti-scald device and having an integrated temperature mixing valve. The present disclosure provides for a faucet assembly having an integrated temperature mixing valve, and/or having an integrated anti-scald device configured to stop the inlet flow of hot water in the event the mixed outlet water temperature exceeds a user-selected set point. Advantageous faucet assemblies of the present disclosure can prevent scalding as defined by ASSE 1070. Improved, convenient and effective systems and methods for utilizing improved faucet assemblies in fluid systems are provided.

Provided is a thermostat device capable of reducing flow resistance due to a thermal-operating unit and a frame support and also reducing the pressure loss in the flow passage. The thermostat device is provided with a control valve which opens and closes a flow passage in a housing based on expansion or contraction of a thermal expansion body in a thermo-sensitive element and a spring that biases the control valve to close and a spring receiving frame that receives one end of the spring. A thermal-operating unit is incorporated into the housing by locking the spring receiving frame to the frame supports formed in the flow passage of the housing. At the upstream side of the coolant flow at the frame support, a rectifier is disposed that prevents water streams from colliding by detouring the flow passage of the coolant heading to the frame support and the spring receiving frame.

A device including a main plug controlling fluid flow between a chamber and an outside of a housing by pressing against a housing seat, and a bypass plug controlling fluid flow between the chamber and a housing lateral passage. The device includes a thermostatic element with a movable part to which the plugs are connected to control backflows. For efficiency, economy and adaptability to housing geometries, the device includes an adapter, including a tubular body, inside of which a cylindrical sleeve of the bypass plug is fitted to slide, and a lateral tubing extending from an outer face of the tubular body, which has an end for connecting to the lateral passage of the housing, and which discharges into the tubular body via a hole closed by the cylindrical sleeve when the main plug is open, the cylindrical sleeve leaving the hole open when the main plug is closed.

There are provided a throttle mechanism and the like that are capable of easily changing a cross-sectional area of a flow path according to an operating state. The throttle mechanism in an embodiment is a throttle mechanism that controls a flow rate of a fluid flowing through a flow path, and is configured to make a cross-sectional area of the flow path change autonomously according to temperature.

A system for adjusting transmission oil temperature and a heat exchange assembly are provided. The heat exchange assembly includes a heat exchange core, a valve assembly, an adapter base, and a mounting plate fixed with the heat exchange core. The valve assembly is arranged in or partially located in a second passage of the heat exchange core. The valve assembly has a first valve port and a first notch. The heat exchange core further includes a through passage in communication with a fourth port. When a first valve port is opened, a third port is in communication with the fourth port through a first passage, the second passage, the first notch and the first valve port in turn. When the first valve port is closed, the third port is in communication with a fifth port through the first passage, the second passage and the first notch in turn.

A thermostat for a transmission oil circuit has a thermostat inlet, a thermostat outlet, and a bypass channel, which fluidically connects the thermostat inlet to the thermostat outlet. A circuit inlet and a circuit outlet are provided for coupling to a cooler. A control element and a pressure loss element are accommodated in the interior of the thermostat housing. The pressure loss element is arranged in the bypass channel, and the control element is arranged between the thermostat inlet and the circuit inlet or the circuit outlet and the thermostat outlet. The thermostat can be connected directly to a housing of the transmission.

A valve with a sleeve movable along its central axis regulates fluid flow between the orifices of a housing for the valve. The valve has a thermost including heat-sensitive and movable parts, the latter being translatable relative to the heat-sensitive part along the central axis during expansion of a thermodilatable material contained in the heat-sensitive part. The thermostat is kinematically connected to the housing by a stirrup and kinematically connected to the sleeve, such that movements between the heat-sensitive and movable parts regulate the sleeve. In order for the valve to be more compact and safer, the stirrup has an arm extending lengthwise parallel to the central axis and connecting inside the sleeve the heat-sensitive part to an attachment part of the housing, and a fastener at its longitudinal end opposite the thermostat suitable for locking to the attachment part by plastic deformation.

Provided is a thermostat device capable of reducing flow resistance due to a thermal-operating unit and a frame support and also reducing the pressure loss in the flow passage. The thermostat device is provided with a control valve which opens and closes a flow passage in a housing based on expansion or contraction of a thermal expansion body in a thermo-sensitive element and a spring that biases the control valve to close and a spring receiving frame that receives one end of the spring. A thermal-operating unit is incorporated into the housing by locking the spring receiving frame to the frame supports formed in the flow passage of the housing. At the upstream side of the coolant flow at the frame support, a rectifier is disposed that prevents water streams from colliding by detouring the flow passage of the coolant heading to the frame support and the spring receiving frame.

Improved fluid supply assemblies for fluid systems are provided. In exemplary embodiments, the present disclosure provides for improved fluid supply assemblies and related features, systems and methods of use. More particularly, the present disclosure provides for advantageous faucet assemblies (e.g., electrically or mechanically actuated faucet assemblies) having an integrated anti-scald device and having an integrated temperature mixing valve. The present disclosure provides for a faucet assembly having an integrated temperature mixing valve, and/or having an integrated anti-scald device configured to stop the inlet flow of hot water in the event the mixed outlet water temperature exceeds a user-selected set point. Advantageous faucet assemblies of the present disclosure can prevent scalding as defined by ASSE 1070. Improved, convenient and effective systems and methods for utilizing improved faucet assemblies in fluid systems are provided.