The present disclosure provides a cooling fan and a heat dissipating module including the same. The cooling fan includes a base, a tube, a bearing, a stator, a rotor, and fan blades. The base includes a base convex structure. Each of the fan blades includes a first concave structure. When the cooling fan is working, the base convex structure pass through the first concave structure on each of the fan blades. The base convex structure and the first concave structure not only increase the heat exchange area of the base but break the thermal boundary layer on the base repeatedly to improve the heat dissipating effect when the cooling fan is working.

A small-sized electric fan using a USB power source has such a structure that the small-sized electric fan is provided with: a body case 1; a blade part 2; a motor M that rotationally drives the blade part; a USB cable 3 provided with a connector 4 that is detachably connected to the USB power source; and a lid case 5 that is provided to the body case 1 so as to be openable/closable and turnable, in which the body case 1 is provided with a groove part 12 that can store therein the USB cable when the USB cable 3 is wound around the groove part 12, on a case side surface part 11 along a rotation direction of the blade part 2, a connector inserting part 14 to which the connector 4 of the USB cable 3 can be inserted is provided on the case side surface part 11 or a case back surface part 13 of the body case 1, and the USB cable 3 has a cable length that allows the connector 4 to be inserted to the connector inserting part 14, when the USB cable 3 is wound around the groove part 12 of the case side surface part 11 at least once.

A centrifugal heat dissipation fan including a housing and an impeller is provided. The housing has at least one inlet and at least one outlet. The impeller is disposed in the housing and rotates about an axis. The inlet is located in an axial direction of the axis and corresponds to the impeller. The outlet is located in a radial direction relative to the axis. The inlet is divided into a compression section and a release section in the rotation direction of the impeller, and the compression section has a uniform first radial dimension relative to the axis. The release section has an extended second radial dimension relative to the axis, and the second radial dimension is greater than the first radial dimension.

A storable fan includes a fan head, a support rod and a base that are connected detachably. A first accommodating groove and a second accommodating groove are formed in the base, and the storable fan has a used state and a stored state. In response to the used state of the storable fan, the fan head, the support rod and the base are connected sequentially. In response to the stored state of the storable fan, the fan head is stored in the first accommodating groove, and the support rod is stored in the second accommodating groove. The fan head, the support rod and the base are connected detachably, for ease of detachment of the storable fan. Both the fan head and the support rod can be stored in the base. The storage process can be accomplished without detaching such fasteners as screws and nuts or by only using few fasteners.

The present invention is directed to a load bearing direct-drive system for driving a fan in a cooling system such as a wet-cooling tower, air-cooled heat exchanger, HVAC system, hybrid cooling tower, mechanical tower or chiller system. The present invention includes a variable process control system that is based on the integration of key features and characteristics such as tower thermal performance, fan speed and airflow, motor torque, fan pitch, fan speed, fan aerodynamic properties, and pump flow. The variable process control system processes feedback signals from multiple locations in order to control a high torque, low variable speed, load bearing motor to drive the fan.

A system for converting a ceiling fan having blades into an air cleaning and air freshening device which fit snugly over the blades of a ceiling fan, their shape conforming to that of the blade structured and arranged to disperse a fresh and pleasing scent into a room with the fan in motion, and attract and capture dust and other allergens, while facilitating the cleaning of the fan blades when removed.

Circuits for controlling an impeller in a fluid flow distribution system to achieve a target fluid flow are disclosed. The circuit to output a signal representative of a speed value (N.sub.T) of the impeller derived from a stored power consumption value (W.sub.i) and speed value (N.sub.i) pairs to achieve the target fluid flow. The circuit to receive a power signal representative of an input power consumption value (W) of the impeller at the speed value (N.sub.T) to input fluid to the fluid flow distribution system and to compare the value (W) represented by a power signal for the speed value (N.sub.T) with the stored value (W.sub.i) and impeller speed value (N.sub.i) pairs to determine a least difference impeller speed value (N.sub.L) of the stored pair comprising a least difference between the value (W) and the value (W.sub.i). The circuit to output a speed signal representative of value (N.sub.L).

The present invention relates to a BOV valve using differential pressure of air and, more particularly, to a BOV valve that is operated using differential pressure of air.

A blower is provided that may include a first suction inlet having a first suction opening formed therein; a second suction inlet having a second suction opening formed therein; at least one fan provided between the first suction inlet and the second suction inlet, to generate a flow of air; a discharge ring provided at an outer side of the at least one fan to discharge air to an outside of the blower; a filter provided at any one of the first suction inlet or the second suction inlet, to filter suctioned air; and a heater provided at the other of the first suction inlet or the second suction inlet, to heat suctioned air.

An electric turbocharger includes an electric motor which rotationally drives a rotating blade, a motor housing which accommodates the electric motor therein, a controller which is disposed outside the motor housing and controls the driving of the electric motor, and a power supply mechanism which supplies a current from the controller to the electric motor through a through-hole communicating the inside and the outside of the motor housing, in which the power supply mechanism includes a rod which is hermetically sealed while being inserted through the through-hole, a connector which is connected to at least one end of the rod, and a busbar which is connected to the connector, and in which the connector absorbs a relative positional displacement of the rod with respect to the connector.