A cooling apparatus includes: a water circuit; a ventilation heat exchanger that heats cooling water by heat exchange with air discharged to outside; a motor generator cooling unit; a motor bypass circuit that bypasses the motor generator cooling unit; and a flow rate control unit. When a temperature of the cooling water flowing between the ventilation heat exchanger and a motor flow rate controller is lower than or equal to a temperature of oil circulating inside the motor generator, the flow rate control unit increases a flow rate of the cooling water that flows from the ventilation heat exchanger into the motor bypass circuit.

Provided are an electric valve and a thermal management assembly. The electric valve includes a valve body, the valve body includes a first portion and a second portion, and the valve body is fixedly connected to a cover body through the first portion. The second portion includes a third wall. The first portion includes a first side wall and a second side wall, the first side wall and the second side wall are disposed opposite to each other, the first side wall and the second side wall are located on two sides of the valve body, and the third wall and the first side wall are located on a same side of the valve body.

A valve apparatus and an integrated thermal management system using the same are proposed. In the valve apparatus and the integrated thermal management system, a plurality of coolant circuits is integrated with one valve to be compactified, so that it is advantageous in terms of manufacturing and utilization of space is improved while being compactified. Furthermore, as heat exchange between a coolant circulated in each coolant line and a refrigerant circulated in each refrigerant line is performed in response to various thermal management modes, the efficiency of the thermal management including cooling of an electric part and a battery, and indoor heating using waste heat of the electric part and the battery is improved, thereby securing a traveling distance of an electrified mobility.

The present application relates to a thermal management system including a compressor, an outdoor heat exchanger, a first valve control device, a first indoor heat exchanger, a second indoor heat exchanger and a second valve control device connected by pipelines. The thermal management system includes a heating and dehumidifying mode. In the heating and dehumidifying mode, the compressor, the first indoor heat exchanger, the second valve control device, the second indoor heat exchanger, the first valve control device and the outdoor heat exchanger are in communication to form a loop. The first valve control device and the second valve control device both include a communication mode and a throttle mode. In the heating and dehumidifying mode, the second valve control device is in the throttle mode, and the first valve control device is in the throttle mode or the communication mode. In the cooling mode, the first valve control device is in the throttle mode, and the second valve control device is in the communication mode or the throttle mode.

An in-vehicle temperature adjustment system includes: a refrigeration circuit including an inter-medium heat exchanger and a vaporizer that vaporizes the cooling medium to achieve a refrigeration cycle by circulating a cooling medium; a thermal circuit including a heater core, the inter-medium heat exchanger, an engine thermal circuit, and a radiator to circulate the heating medium; and a controller that controls a distribution state of the heating medium. The thermal circuit includes: a first branch portion at which a coolant flowing out of the engine thermal circuit and the inter-medium heat exchanger is divided into coolants flowing into the heater core and into the radiator; a second branch portion at which a coolant flowing out of the heater core is divided into coolants flowing into the inter-medium heat exchanger and into the engine thermal circuit; a first adjustment valve and a second adjustment valve.

Described herein is an air intake device for an air conditioning unit of a vehicle, the air intake device including a casing on which there are formed a fresh air inlet, a recirculation air inlet, and an air outlet adapted to be associated to an air inlet of a blower of the air conditioning unit, and a pair of drum flaps mounted to the casing and rotatable about a common rotation axis and movable between a fresh air extreme position and a recirculation extreme position. In the fresh air extreme position, the angular span of the recirculation air inlet is partially covered by one of the drum flaps and partially covered by the other of the drum flaps, and in the recirculation extreme position, the angular span of the fresh air inlet is completely covered by one of the drum flaps, the drum flaps overlapping each other.

A thermal management system for a vehicle may include a cooling apparatus of circulating a coolant in a coolant line to cool at least one electrical component provided in the coolant line; a battery cooling apparatus of circulating the coolant to the battery module; a chiller for heat exchanging the coolant with a refrigerant to control a temperature of the coolant; a heater that heats an interior of the vehicle using the coolant; and a branch line;, wherein a condenser included in the air conditioner is connected to the coolant line to pass the coolant circulating through the cooling apparatus.

An integrated valve includes a body portion, a flow rate adjustment valve body, a flow passage switching valve body, and a shaft member. The body portion has formed therein a plurality of passages. The flow rate adjustment valve body is provided inside the body portion that adjusts a flow rate of fluid. The flow passage switching valve body is provided inside the body portion configured to switch a flow path of the predetermined fluid in the fluid circulation circuit, the flow passage switching valve body being switchable between distinct communication states. The shaft member is provided inside the body portion that interlocks the flow rate adjustment valve body and the flow passage switching valve body.

A thermal management system for a vehicle, is configured for efficiently managing the energy necessary for the indoor air-conditioning, the cooling of an electric part, or the cooling and heating of a battery in the field of the thermal management for a vehicle.

Device for regulating and controlling a flow-through and distributing a fluid in a fluid circuit has a housing with ports connecting fluid lines that are connected across a passage aperture with an interior volume of the housing, a valve element disposed in the interior volume of the housing, a drive element for moving the valve element relative to the housing.