In some aspects, the techniques described herein relate to an outdoor heating system for a motor vehicle, including: a heater electrically connected to a power source of the motor vehicle and to a controller of the motor vehicle, wherein the heater is at least partially outside the motor vehicle, and wherein the controller is configured to issue commands to the heater to selectively adjust an output level of the heater and to selectively adjust an orientation of the heater.

A vehicle including a refrigerated compartment having a chamber and a cooling system for cooling the chamber and methods of controlling the cooling system is provided. The vehicle includes a controller that controls a supply of power from a battery of the vehicle to the cooling system based on at least one output signal received from a vehicle component.

An vacuum adiabatic body is provided that may include a first plate member, a second plate member having a temperature different from the first space, a sealing part sealing the first plate member and the second plate member to provide a third space that has a temperature between the temperature of the first space and the temperature of the second space and is in a vacuum state, a conduit having at least a portion passing by the sealing part outside the third space to connect the first space to the second space, a supporting unit or bar maintaining the third space, a heat resistance unit or assembly for reducing a heat transfer amount between the first plate member and the second plate member, and a port or an exhaust port through which air of the third space is exhausted.

A selection apparatus according to an aspect of the disclosure includes a calculation unit configured to calculate, based on data correlated with power consumption of portable cold-energy equipment and data related to a set temperature of the cold-energy equipment, an amount of power consumption expected during transportation of the cold-energy equipment to a predetermined destination; and a selection unit configured to select, based on the amount of power consumption calculated by the calculator, a rechargeable battery to be mounted on the cold-energy equipment.

A vehicle delivery box for delivering content to a location using a transport vehicle is provided. The vehicle delivery box can include a main body having a first mode and a second mode. The main body can also include a cavity formed in the main body. The main body in the first mode can be removably coupled to the transport vehicle. The main body in the second mode can be uncoupled from the transport vehicle and adapted to deliver a product. Further, a vehicle delivery box system is provided including a vehicle delivery box and a transport vehicle. A method for delivering a product is also provided.

A radiant heater for a vehicle may include a heat generation device which is coupled to a first surface of a steering column cover through a hinge, has one or more heat generators generating radiant heat, and can rotate with respect to the first surface of the steering column cover by the hinge so that the distance between the heat generators and a heat reception portion can be adjusted.

A thermally controlled payload container for carrying payloads by an Unmanned Aerial Vehicle (UAV) comprising an inner wall and an outer wall. The inner wall forms a chamber having an open end and a closed end. The payload container also comprises a thermal control body adjacent to the inner wall and disposed between the inner wall and the outer wall. The payload container also comprises a thermoelectric cooler (TEC) extending through the outer wall from a first side of the TEC to a second side of the TEC, the first side adjacent the thermal control body and the second side coupled to an external heat sink.

A canister is coupled to a delivery vehicle using a rail bracket. The canister comprises a securing channel having a first securing channel volume and a second securing channel volume. A width of the first securing channel volume is less than a width of the second securing channel volume. The rail bracket comprises a rotational shaft having a finger at one end. The rail bracket is inserted into the securing channel, and the rotational shaft is rotated. When rotated, the finger inhibits removal of the rail bracket from the securing channel, thereby providing a mechanism by which the canister can be releasably coupled to the rail bracket. The rail bracket may be provided on a delivery vehicle, such as an unmanned aerial vehicle (UAV) to transport the canister and contents within it.

A system for swapping one or more batteries includes a battery holder configured to store a first battery, wherein the battery holder further includes retainers positioned proximate a front end and a rear end of the battery holder, the retainers having a first position and a second position such that the retainers, in the first position, are configured to engage the first battery in order to dispose the first battery in a storage position in the battery holder and, in the second position, are configured to disengage from the first battery to allow the first battery to move from the storage position. The system further includes cartridges having a front end and a rear end configured to couple to at least one of the front end and the rear end of the battery holder and further configured to hold a second battery in the second enclosure.

There is provided with a moving body control apparatus. 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. An ambient temperature detection unit detects an ambient temperature. The control unit starts the operation of the heater when the ambient temperature is not more than a predetermined temperature threshold. The predetermined temperature threshold of the case in which the air-conditioning state is set to the inside air circulation state is higher than the predetermined temperature threshold in the case in which the air-conditioning state is set to the outside air introduction state.