This Non-provisional application claims priority under 35 U.S.C. § 119(a) on Patent Application No(s). 201810237755.1 filed in People's Republic of China on Mar. 22, 2018, the entire contents of which are hereby incorporated by reference.
The present disclosure relates to a fan and, in particular, to a fan having a compact size and capable of providing the lateral air output and increasing the heat-dissipating efficiency.
As the progress of technical industry, the electronic devices, such as the desktop computer, notebook computer, smart phone, tablet, or the likes, have been frequently used in our daily lives. The internal electronic components of the electronic device will generate a lot of heat during the operation of the electronic device, and the generated heat can affect the operation performance of the electronic device. Accordingly, the electronic device is usually configured with a proper heat dissipation system for dissipating the generated heat.
The common heat dissipation system usually includes a fan, such as an axial-flow fan or a centrifugal fan. In the market (e.g. vehicle market), more and more fans utilize the lateral air output design for providing the solution of heat dissipation. However, the centrifugal fan cannot reach the small size design due to the space limitation. In general, the size of the general centrifugal fan is greater than 6 cm. Accordingly, an axial-flow fan will be provided with forming a hole on the side wall of the fan frame and sealing the air outlet, thereby forcing the air to flow through the hole so as to provide the lateral air output. However, the impeller pushes the air to generate the airflow in the axial direction, so that the above design will cause a huge resistance to the airflow, which can sufficiently decrease the heat-dissipating efficiency.
Therefore, it is desired to provide a fan having a compact size (4˜6 cm), and capable of providing the lateral air output and increasing the heat-dissipating efficiency.
An objective of this disclosure is to provide a fan having a compact size (4˜6 cm), and capable of providing the lateral air output and increasing the heat-dissipating efficiency.
This disclosure provides a fan comprising a fan frame, an impeller, and at least a supporting member. The fan frame comprises a bottom plate and a cover plate spaced from the bottom plate. The bottom plate and the cover plate together define a first accommodating space. The cover plate has an air inlet disposed in an axial direction, and a side of the fan frame is provided with at least an air outlet. The impeller is disposed in the first accommodating space and comprises a hub and a plurality of blades. A cross-sectional area of the hub increases gradually along a direction from the cover plate to the bottom plate. The blades are disposed around a periphery of the hub. The supporting member is disposed between the bottom plate and the cover plate for supporting the cover plate.
In one embodiment, the hub has a top surface, and a recess portion is provided on the top surface.
In one embodiment, the periphery of the hub is a planar surface or a curved surface.
In one embodiment, a tangent direction of the curved surface from the air inlet to the air outlet turns from a near-axial direction to a near-radial direction.
In one embodiment, the cover plate has a slant surface located at an inner side of the air inlet, and the slant surface is a planar surface, a curved surface, or a combination thereof.
In one embodiment, each of the blades of the impeller has a non-uniform cross-sectional thickness.
In one embodiment, the supporting member has a guiding surface.
In one embodiment, the fan frame has a circle shape or a rectangular shape.
In one embodiment, when the fan frame has the circle shape, a diameter of the fan frame ranges from 4 cm to 6 cm.
In one embodiment, when the fan frame has the rectangle shape, a length and a width of the fan frame range from 4 cm to 6 cm.
In one embodiment, the fan comprises four supporting members and four air outlets, and the four air outlets are disposed within four intervals between every adjacent two of the four supporting members, respectively.
In one embodiment, the air outlet is provided with at least a guiding blade.
In one embodiment, the bottom plate is provided with a second accommodating space for supporting a motor circuit board.
As mentioned above, in the fan of this disclosure, a side of the fan frame is provided with at least an air outlet, the cross-sectional area of the hub increases gradually along a direction from the cover plate to the bottom plate, and the supporting member supports the cover plate. Accordingly, the fan of this disclosure can provide the lateral air outlet and increase the heat-dissipating efficiency. Compared with the conventional axial-flow fan and centrifugal fan, the fan of this disclosure has a smaller size (4˜6 cm) and is not limited to the available space.
The present invention will become more fully understood from the subsequent detailed description and accompanying drawings, which are given by way of illustration only, and thus are not limitative of the present invention, and wherein:
The present invention will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.
A fan of this disclosure has a compact size and is capable of providing the lateral air output and increasing the heat-dissipating efficiency. The structure and features of the fan of this disclosure will be described in the following embodiment.
In this embodiment, the hub 121 has a top surface 1211, and a recess portion 1212 is provided on the top surface 1211. The design of the recess portion 1212 can make the hub 121 to have a uniform thickness, thereby decreasing the entire weight of the hub 121 and increasing the rotation efficiency of the impeller 12.
In this embodiment, the periphery of the hub 121 is a planar surface, a curved surface or a combination thereof. Herein, a tangent direction of the curved surface from the air inlet to the air outlet 113 turns from the near-axial direction to the near-radial direction
Referring to
In this embodiment, each of the blades 122 of the impeller 12 has a non-uniform cross-sectional thickness. In other words, each of the blades 122 of the impeller 12 has a non-uniform thickness. This design of non-uniform thickness can further decrease the air resistance and noise of the fan 1 and increase the rotation efficiency of the impeller 12.
In this embodiment, the supporting member 13 has a guiding surface 131. Accordingly, when the fan 1 operates to dissipate the heat, the guiding surface 131 can concentrate the generated airflow toward the air outlet (lateral air outlet) so as to increase the heat-dissipating efficient of the fan 1.
In this embodiment, the fan frame 11 has a circle shape or a rectangular shape, and this disclosure is not limited thereto. For example, when the fan frame 11 has a circle shape, a diameter of the fan frame 11 ranges from 4 cm to 6 cm. Alternatively, when the fan frame 11 has a rectangle shape, a length and a width of the fan frame 11 range from 4 cm to 6 cm. As shown in
As shown in
In this embodiment, the air outlet 113 can be provided with at least a guiding blade (not shown). The configuration of the guiding blade can guide the airflow to provide the lateral airflow for increasing the heat-dissipating efficiency. For example, as shown in
In this embodiment, the bottom plate 111 is provided with a second accommodating space 1111 for supporting a motor circuit board 14, so that the motor circuit board 14 is not disposed over the bottom plate 111. This design can further effectively decrease the entire height of the fan 1. Specifically, a magnet 123 is provided at the inner side of the hub 121 of the impeller 12, and the motor circuit board 14 has an electromagnetic induction element 141. Since the second accommodating space 1111 is designed for supporting the motor circuit board 14, a larger space for disposing electronic devices can be provided above the motor circuit board 14. Thus, the electromagnetic induction element 141 disposed on the motor circuit board 14 can be positioned under the magnet 123 and on the axis of the magnet 123. This configuration can allow the electromagnetic induction element 141 to be induced by the magnet 123 precisely.
In this embodiment, the fan 1 of this disclosure is a mixed flow fan. Compared with the conventional axial-flow fan and centrifugal fan, the fan 1 of this disclosure has a smaller size and can provide lateral air outlet.
To sum up, in the fan 1 of this disclosure, a side of the fan frame 11 is provided with at least an air outlet 113, the cross-sectional area of the hub 121 increases gradually along a direction from the cover plate 112 to the bottom plate 111, and the supporting member 13 supports the cover plate 112. Accordingly, the fan 1 of this disclosure can provide the lateral air outlet and increase the heat-dissipating efficiency. Compared with the conventional axial-flow fan and centrifugal fan, the fan 1 of this disclosure has a smaller size (4˜6 cm) and is not limited to the available space.
Although the present invention has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternative embodiments, will be apparent to persons skilled in the art. It is, therefore, contemplated that the appended claims will cover all modifications that fall within the true scope of the present invention.
Number | Date | Country | Kind |
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201810237755.1 | Mar 2018 | CN | national |