Methods and systems are provided for a valve. In one example, a system may include a cooling arrangement including the valve, wherein the valve is configured to variably adjust coolant flow rates in response to one or more of a coolant temperature and a charge air pressure. The valve includes a transmission pin which may be acted upon via an expansion element and/or a pressure actuator.

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.

It is an object to provide a driver abnormality response device determining, when an abnormality of a driver occurs, whether the driver has an intention to allow a service facility to perform remote operation on a vehicle. The driver abnormality response device includes a driver abnormality acquisition unit and a controller. The driver abnormality acquisition unit acquires an abnormal condition of the driver of the vehicle. Based on the abnormal condition of the driver, the controller performs an intention check sequence to check whether the driver has the intention to allow the service facility capable of performing the remote operation on control of driving of the vehicle to perform the remote operation. Based on a result of the intention check sequence, the controller authorizes the service facility to perform the remote operation.

A display unit for a road machine includes a display and processing circuitry. The road machine includes a tractor, a hopper installed in front of the tractor to receive a paving material, a conveyor configured to feed the paving material in the hopper to the back side of the tractor, a screw configured to lay and spread the paving material fed by the conveyor behind the tractor, a screed configured to lay and level the paving material laid and spread by the screw behind the screw, and an information obtaining device configured to obtain information on road pavement. The processing circuitry of the display unit is configured to predict a future event based on the information on the road pavement obtained by the information obtaining device, and to display information on the event on a road map on the display.

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 thermostatic valve includes: a valve body in which a chamber is provided, an end cap assembly, a thermal actuator and a first spring mounted in the chamber. The valve body is provided with at least three ports in communication with outside; the thermal actuator includes a valve rod and a body portion, the chamber includes a first chamber and a second chamber; one end of the thermal actuator abuts against or indirectly abuts against or supports an end of the first spring close to the thermal actuator, and another end is limited to the end cap assembly; and the thermostatic valve is further provided with a guide portion in the chamber, the thermal actuator includes a guide fitting portion fitting with the guide portion, and the guide portion is slidably fitted with the guide fitting portion. The thermal actuator of the thermostatic valve is not shaken heavily.

A valve includes a first inline compartment to attach to a first return line exiting a processing chamber and a second inline compartment to attach to a second return line entering a coolant source. A flow compartment is attached between the first inline compartment and the second inline compartment and through which a coolant is to return to the coolant source. A first inlet orifice and a second inlet orifice positioned between the first inline compartment and the flow compartment. A plunger has a tip to variably open and close the second inlet orifice. A shape memory alloy (SMA) spring is positioned on the plunger and attached to the tip, the SMA spring to variably increase or decrease a flow rate of the coolant through the second inlet orifice according to a temperature of the coolant.

The present invention relates to a regulating valve for water circulation systems, comprising a valve housing (2) having an inlet channel (1) and an outlet channel (3) and forming a valve seat (4) between the inlet channel (1) and the outlet channel (3), a regulating member (36) movable relative to the valve seat (4) for regulating a water flow rate, and an expansion element (40) controlled by a water temperature for placement control of the regulating member (36). The present invention wants to provide an improved regulating valve for regulating the water flow in water circulation systems and proposes that a valve seat cage (28) bearing against the valve seat (4) during a regulating operation forms a flow-through opening (62) relative to which the regulating member (36) is movable, the regulating member (36) being pivotable about its positioning axis (S) for presetting a regulating gap (84) between the regulating member (36) and the valve seat cage (28).

A system for controlling water delivery throughout a household water delivery network that includes bathroom and kitchen sinks, as well as other equipment for dispensing water, said system including a controller disposed at a site, the temperature of the water of which is to be controlled; said controller including a temperature probe for detecting the water temperature at the site; a pump for circulating water from a water heater to the site; and a wireless communication network that interconnects the controller with the pump in order to control hot water delivered from the water heater based on sensed temperature at the temperature probe. Also a process for controlling the water temperature of a water delivery system that includes a pump, either via a wifi hub or a system APP. Also disclosed is a novel adjustment ring associated with the valve.

A temperature responsive valve includes a housing and a cylindrical structure disposed within the housing. The housing defines an inlet passageway and an outlet passageway wherein the cylinder body of the cylindrical structure is disposed between the inlet passageway and the outlet passageway. The cylindrical structure includes a first layer so that the cylindrical structure is configured to expand from a decreased diameter to an increased diameter when the first layer of the cylindrical structure is exposed to an increased pre-determined temperature range causing the cylindrical structure restricts the inlet passageway and the outlet passageway at such increased pre-determined temperature range.