In an example of a method for heating or cooling a vehicle, an application resident on an electronic memory of a mobile communications device is launched. The electronic memory is coupled to a microprocessor. The microprocessor is operatively connected to a mobile device communications platform (MDCP). Preset climate control modes are displayed on a display. A user input identifying a selected preset climate control mode is received at a user interface. In response to receiving the user input, the selected preset climate control mode is transmitted to a vehicle communications platform (VCP). In response to receiving the selected preset climate control mode, a climate control instruction is transmitted by the VCP to a climate control system. In response to receiving the climate control instruction at the control module of the climate control system, the selected preset climate control mode is caused to be implemented in the vehicle.

The present invention comprises a system or method that collects data regarding the current and predicted weather in the proximity of a targeted vehicle and compares it with aspects of the targeted vehicle comprising the temperature in the passenger compartment, its geographical location, features, interior and exterior colors, size, whether its parked in a shaded area, etc. The system or method also comprises a regression function that may predict the time that a person, animal, or food product may remain in the vehicle in a safe condition. For example, under certain weather conditions, it may not be safe to keep a dog inside of a parked vehicle for more than four minutes. In addition, the system or method may collect and analyze additional factors based on previously collected data for the same vehicle models, and may comprise a prediction unit that may exchange information with other devices over communication protocols.

A heat pump cooling and heating system for an electric vehicle includes a range extending PCM heat exchanger (24), with a single acting phase change material with a melt temperature between the two comfort temperatures associated with cooling and heating, respectively. In a charging mode, as the vehicle batteries are charged, the same exterior current source runs the compressor (10), charging the PCM exchanger (24) with heat or “cold.” During an initial range extending mode, the PCM exchanger/reservoir (24) serves as the heat source or heat sink. The PCM material does not directly heat or cool the air, as is conventional, allowing a single reservoir material to be used in both heating and cooling modes.

An improved climate control, safety, and communications system and method for a vehicle having a detecting means for detecting and transmitting the climate conditions inside a vehicle's passenger cabin as temperature data, and for detecting and transmitting the presence of an occupant inside the vehicle as occupancy data; a data collecting means for monitoring and evaluating the temperature data against a temperature threshold and the occupancy data against an occupant threshold, for notifying an operator of the temperature data and the occupancy data, and for sending a command to a controlling means to adjust the climate conditions, a controlling means for selectively activating a cooling mechanism or a heating mechanism to adjust the temperature inside the vehicle; and a charging means for charging the system when the vehicle engine is running and for powering the system when the engine is off. The system further includes a means for warming the undercarriage of the vehicle.

An idle reduction system for use with an engine can include a main unit including a controller, and a relay controlled by the controller. The relay can be electrically connected between an ignition switch and an electrical power source for starting the engine. A method of reducing idling of an engine can include connecting an idle reduction system, thereby permitting the system to shut down the engine in response to one or more predetermined conditions, the idle reduction system starting the engine in response to at least one of : a) battery voltage being less than a predetermined level, and b) engine temperature being less than a predetermined level, and the idle reduction system controlling operation of at least one of: an auxiliary air conditioner and an auxiliary heater.

A computer includes a processor and a memory, the memory storing instructions executable by the processor to, heat a passenger cabin of a vehicle, actuate a thermal sensor to collect temperature data in the passenger cabin, identify a surface in the passenger cabin that has a temperature below a temperature threshold, and actuate one or more components to sanitize the identified surface.

A computer includes a processor and a memory, the memory storing instructions executable by the processor to heat a passenger cabin of a vehicle and to actuate a vehicle security subsystem to prevent entry into the vehicle upon initiation of a cabin sanitizing operation, wherein the sanitizing operation includes actuating a heater to heat the passenger cabin above a temperature threshold.

A heat conducting device in a vehicle whereby heat in the body or shell of the vehicle is transferred to the ground includes a control device, a heat transferring device, and a driving device. The heat transferring device is in the vehicle and is connected to the shell of the vehicle when the vehicle is flameout, the driving device is coupled to the control device and the heat transferring device, such that the heat transferring device is extended downwards from the vehicle, until the heat transferring device contacts the ground, thereby heat of the shell of the vehicle is transferred to the ground.

A vehicle air-conditioning system has an intake door that switches between an inside air recirculation mode to take in air from an inside air introduction port and an outside air introduction mode to take in air from an outside air introduction port, a blower that blows the air introduced through any of the inside air introduction port and the outside air introduction port toward inside of a vehicle cabin, a heater that heats the air blown by the blower, and a controller that activates the heater when there is a request for heating the inside of the vehicle cabin, controls air conditioning such that an environment inside the vehicle cabin becomes a desired environment by set estimated time of departure.

A processing unit, method, and device for vehicle air conditioner warning are disclosed. The processing unit is configured to judge a ventilation state of the current vehicle location based on positioning satellite signals, to judge an operation state of the vehicle engine based on information, to judge a running state of the vehicle based on information received, to judge a using state of the air conditioner based on information, to judge a vehicle door/window opening/closing state based on information, and to determine that there is a potential risk of poisoning and initiate the warning element when all the following conditions are met: the ventilation state at the current vehicle location is bad, the engine is in operation, the vehicle is in a stopped state or runs at a low speed, the air conditioner is being used, and all the doors and windows of the vehicle are closed.