A system configured to provide thermal regulation and vibration isolation to one or more electronic components. The system includes a sensor chassis defining an interior chamber, an electronics housing in the interior chamber of the sensor chassis, a thermoelectric cooler coupled between the sensor chassis and the electronics housing, a thermal strap coupled to the sensor chassis, and at least one isolator coupled to the sensor chassis. The system may also include an insulating material, such as Aerogel, in the interior chamber of the sensor chassis and extending around the electronics housing.

A housing with an inner lining, made of an open-pore material, preferably covering at least two sides of the housing, for the reduction of internal explosion pressure. In addition, or alternatively, a molded body made of the open-pore material, for example a bonded fibrous material, may be arranged in the housing.

Providing cooling airflow through electronic devices is described. The electronic device includes a directional cooling system which provides for cooling airflow to be efficiently routed through the electronic device to provide improved and directed cooling to heat producing components.

A display assembly for an imaging device including a display panel, a display, a first control unit, a second control unit and a thermally insulating layer, and a housing. The thermally insulating layer divides the housing in at least a first cavity including the first control unit and a second cavity including the second control unit. The thermally insulating layer preventing heat generated in the first cavity or the second cavity from reaching the other cavity and including an electrically conductive material to at least partially shield electromagnetic radiation generated in the first or the second cavity from reaching the other cavity.

The present invention relates to a novel cordless power tool, electronic device, and battery charging station. The charging station is a home safe-like device having a fireproof housing for providing a power strip. The power strip includes a plurality of electric sockets for providing electric power to the tools and devices connected thereto, a fire sensor is configured to detect overheated devices or fire inside the housing, wherein a front door of the housing is automatically closed upon detecting fire. A fire link melts to release the tension of the front door allowing the door to automatically shut and thus prevents fire and smoke from coming out of the housing. In one embodiment, carbon dioxide is sprayed for extinguishing the fire inside the housing.

A thermal insulation structure for an electronic device of the present invention is a thermal insulation structure which thermally insulates between an electronic circuit unit and a heat generator formed with another component. In the thermal insulation structure, a partition wall for separating each space and formed of resin having electric insulation properties is provided between the electronic circuit unit and the heat generator. Also, the partition wall is formed by integrating the resin and a thermal insulation material having thermal conductivity lower than thermal conductivity of air so that the resin includes the thermal insulation material. Further, the partition wall is formed by insert-molding the thermal insulation material with the resin. Further, the resin having the electric insulation properties is thermoplastic resin, and a thermal insulation raw material of the thermal insulation material is silica xerogel.

Provided are a heat insulation sheet and a method for manufacturing the same. The heat insulation sheet includes: a nonwoven fabric having a plurality of pores; and first and second coating films which are coated on both sides of the nonwoven fabric and made of a polymer material, wherein the plurality of pores are implemented as air pockets for thermal capture by the first and second coating films.

One disclosed example provides a vehicle, comprising an outer shell defining an interior, a component located within the interior, and a multilayer reflector located between the outer shell of the vehicle and the component. The multilayer reflector comprises a plurality of alternating layers of a first material with a first refractive index and a second material with a second refractive index, the second refractive index being higher than the first refractive index.

Equipment including a casing wherein are located: a box; a first loudspeaker disposed inside the box, the first loudspeaker being arranged to broadcast sounds outwards from the casing; a main electronic board placed in the casing outside of the box and on which is mounted, at least one power supply module producing a first power supply voltage; a connecting device passing through the wall of the box; a secondary electronic board inside the box on which is mounted, at least one first amplifier connected to the first loudspeaker, the secondary electronic board being connected to the main electronic board via the connecting device to power the first amplifier with the first voltage.

A thermal insulation sheet includes a heat storage sheet, an insulation sheet affixed to the heat storage sheet, and a highly-thermoconductive sheet affixed to the insulation sheet. The heat storage sheet contains a resin and powdery microcapsules mixed with the resin. The powdery microcapsules encapsulate latent-heat storage agent. The heat storage sheet has a void ratio not less than 10% and not more than 30%. Or, the heat storage sheet may have surface roughness Ra not less than 2 m and not more than 20 m. The thermal insulation sheet suppresses or retards transferring of heat generated in a heat-generating component to outside, and suppresses a rapid rising of a temperature of the heat-generating component.