An electric range is provided that may include a case, a cover plate coupled to an upper side of the case and on which an object to be heated is placed, at least one heater that heats the object, the at least one heater being disposed under the cover plate, an upper bracket that is disposed under the at least one heater and supports the at least one heater, a base bracket disposed under the upper bracket and on which a printed circuit board is mounted, a heat sink mounted on the printed circuit board, an air blowing fan that is mounted on the base bracket and discharges air toward the heat sink through an outlet thereof, and an air guide that communicates with the air blowing fan, surrounds the heat sink, and forms a flow path of air cooling the heat sink.

A main housing portion of a portable information handing system. The main housing portion includes: a top cover portion; a bottom cover portion; and, an internal air intake ducting system, the internal air intake ducting system comprising a fan and a thermal channeling component thermally coupled to the fan, the thermal channeling component extending from an interior of a side of the bottom cover portion to the fan, the thermal channeling component and the bottom cover portion defining an air channel between the side of the bottom cover portion and the fan.

Provided is a generator that includes a housing, a high-power circuit including a power amplifier, and a low-power circuit. An air flow guidance plate divides the housing into at least two compartments including a high-power compartment and a low-power compartment. The high-power circuit is disposed within the high-power compartment and the low-power circuit is disposed within the low-power compartment.

This document describes a cooling device for cooling a heatsink having a plurality of cooling fins provided on a heatsink base. The cooling device includes a centrifugal fan having a fan inlet and a fan outlet, a support for mounting the fan above the heatsink, and a baffle locatable between the support and the heatsink base. The baffle defines an inlet pathway for feeding air between the cooling fins over the heatsink base to the fan inlet and an outlet pathway for expelling air from the fan outlet.

A battery charging apparatus for device charging in a vehicle includes a charging device compartment, a housing, a blower, a charger, and a duct. The charging device compartment is configured to retain at least one device. The housing includes a top member, a bottom member, and an accommodating space. The housing further includes an air-return port. The blower is in the housing and has an input port and an output port. The charger is in the housing and between the top member of the housing and the blower. The duct has an input port and an output port. The input port of the duct is coupled to the output port of the blower, and the output port of the duct is coupled to the air-return port of the housing. The duct forms a barrier between the accommodating space and the air-return port of the housing.

A thermal module for cooling a plurality of component and cooling a bottom cover of a sealed chassis. A pair of fans are positioned in the chassis, wherein each fan has a first fan outlet directing a first portion of the airflow toward a first fin stack near a vent in the back cover, a second fan outlet for directing a second portion of the airflow to a second fin stack near a vent in a side cover, and a third fan outlet for directing a third portion of the airflow to a set of components in the chassis or a surface of the chassis. The size of each fan outlet and the size and impedance of the first fin stack and the second fin stack are configured to ensure the airflow is distributed according to a ratio based on cooling a set of components in the chassis and a bottom cover of the chassis.

A heat dissipation device includes a case, a first board, a second board, a curved supporting structure, and a fan. The first board is disposed in the case. The curved supporting structure has a curved slot which is located on an inner surface of the curved supporting structure, and the curved slot extends radially with respect to a center of the curved supporting structure. The second board is inserted in the curved slot, and the first board, the second board, and the curved supporting structure collectively form an accommodating space. The fan is fixed to the second board and disposed within the accommodating space.

Various embodiments of an adapted cooling system for a printer are disclosed herein. The adapted cooling system includes a panel for installment along a housing of the printer and further includes a manifold that couples a more powerful fan to the printer.

An apparatus for housing a storage processor includes first and second side portions each extending in a plane defined by a first direction and a second direction, and separated from each other in a third direction; first and second flapper components disposed between the first side portion and the second side portion, extending in a first plane and a second plane, respectively, and rotatable about a first axis and a second axis, respectively, the first flapper component coupled to the first side portion and having a first end face, the second flapper component coupled to the second side portion and having a second end face; and first and second magnetic components disposed in the first end face and the second end face, respectively, and configured to be coupled to each other by a magnetic force so as to couple the first end face to the second end face.

Provided herein is a system and method for cooling of a vehicle. The system comprises an enclosure disposed on the vehicle. The enclosure comprises a fan disposed at a base of the enclosure, one or more sensors within the enclosure, and a cover on an exterior of the enclosure. The cover comprises a hole pattern to selectively permit an airflow to enter the enclosure. The hole pattern comprises a plurality of holes to filter noise from the airflow. A deflector is disposed on the vehicle outside the enclosure and configured to direct an airflow through the hole pattern.