A cooling system for efficiently cooling large-scale data storage devices embedded in a vehicle, and a smart vehicle including the same are disclosed. The storage device cooling system includes a storage housing section located at a ceiling-mounted structure of a vehicle, provided with an indoor space thereof in which a plurality of storage devices is kept and an opening/closing device configured to open or close the indoor space, a sensing circuit configured to detect a temperature of the indoor space, and an opening/closing controller configured to control operations of the opening/closing device in response to the temperature detected by the sensing circuit.

An image capturing unit captures a periphery of a moving body through a transmitting portion. A heater is capable of heating the transmitting portion. An air-conditioning unit switches an air-conditioning state in the moving body between an inside air circulation state and an outside air introduction state. A control unit controls the heater. The control unit can make the heater operate intermittently, and perform control so that an OFF time of the heater during an intermittent operation will be shorter in the case in which the air-conditioning state is set to the inside air circulation state than the case in which the air-conditioning state is set to the outside air introduction state.

An air-conditioning device includes: a compressor; an outdoor heat exchanger; an evaporating unit configured to evaporate refrigerant a heater unit configured to heat the air by using the heat of the refrigerant a liquid receiver arranged at the downstream side of the outdoor heat exchanger and a restrictor mechanism provided between the heater unit and the outdoor heat exchanger, wherein, in an operation state in which the flow of the refrigerant is restricted by the restrictor mechanism and heat is released in the heater unit, a first operation mode and a second operation mode are switched, the first operation mode being set such that the liquid-phase refrigerant is stored in the liquid receiver and the gaseous-phase refrigerant is guided to the compressor and the second operation mode being set such that the liquid-phase refrigerant stored in the liquid receiver is guided to the evaporating unit.

A method for defogging a window of a vehicle includes steps of determining a risk of window fogging and automatically selecting a climate control system operating mode according to that determined risk of window fogging. The climate control system operating mode is selected from: an outside air mode, an air-conditioning mode, and a defrost mode. A controller determines the risk of window fogging according to one or more inputs, and the same or a different controller may automatically select the climate control system operating mode.

A vehicle comprising an LED headlamp including a lens and an LED light source. A heating element is provided at the lens. A control module is in communication with the heating element. A temperature sensor that is configured to generate a signal indicative of an outside temperature is in communication with the control module, and a speed sensor that is configured to generate a signal indicative of a vehicle speed is in communication with the control module. Upon receipt by the control module of the signal indicative of the outside temperature that is less than a predetermined temperature and upon receipt by the control module of the signal indicative of the vehicle speed that is greater than a predetermined vehicle speed, the control module is configured to activate the heating element.

A system for controlling inside/outside air in air conditioner may include an air conditioner including an upward discharge passage, through which air is discharged toward a front glass of a vehicle, a downward discharge passage, through which air is discharged toward a floor of the vehicle, the upward discharge passage and the downward discharge passage being separated from each other, a first intake door, an opening amount of which is determined according to a ratio between inside air and outside air introduced into the upward discharge passage, and a second intake door, an opening amount of which is determined according to a ratio between inside air and outside air introduced into the downward discharge passage; and a control unit configured of controlling the opening amounts of the first and second intake doors according to a heating load of the air conditioner and a humidity of the interior of the vehicle.

The disclosure includes a child/pet car safety system. The system includes a 360 degree camera with temperature and humidity sensors and a phone app in accordance with an embodiment of the present disclosure. The attached camera dome recognizes persons or animals in the vehicle. When the vehicle is turned off, the system engages temperature controls to keep remaining persons or animals in the vehicle at a safe and comfortable temperature. The accompanying app notifies users of conditions in the vehicle.

A vehicle air conditioning device that can increase heat absorption from external air in an outdoor heat exchanger while an influence on travel distance is suppressed as much as possible is provided. The vehicle air conditioning device includes a compressor (2), a radiator (4), an outdoor heat exchanger (7), and an air conditioning controller, and a cabin is air conditioned with power supplied from a battery. The air conditioning controller can perform air conditioning operation that causes a refrigerant from the compressor to radiate heat in the radiator, decompresses the refrigerant, causes the refrigerant to absorb heat in the outdoor heat exchanger so as to heat the cabin, and defrosting operation that causes the refrigerant from the compressor to radiate heat in the outdoor heat exchanger so as to defrost the outdoor heat exchanger, and determines whether it is possible to perform the defrosting operation on the basis of outside humidity.

There is provided a vehicle air conditioning apparatus being capable of cooling, heating, and dehumidifying the vehicle compartment. A communication path is formed to allow communication between part of the first ventilation flue downstream of the heat absorbing unit in an air flow direction and part of the second ventilation flue upstream of the heat releasing unit in the air flow direction. The communication path is opened and closed by a communication path opening and closing damper. By this means, it is possible to perform the dehumidifying operation by opening the communication path without need of devices such as a dedicated outdoor heat exchanger, and a solenoid valve and a four-way valve to switch the refrigerant flow path in the refrigerant circuit.

A control device causes an air conditioner of a vehicle to operate in response to a request signal which is transmitted from outside of the vehicle. The control device includes a control unit. When the request signal is received, the control unit is configured to estimate a degree of frost or a degree of fogging which has occurred on a window of the vehicle based on an inside air temperature, an outside air temperature, and an inside humidity of the vehicle and to set a time over which the air conditioner operates based on the degree of frost or the degree of fogging.