The present invention relates to an electric fan module and an airflow conduction structure thereof, particularly to an electric fan module and an airflow conduction structure thereof, wherein the heat dissipation efficiency is promoted via guiding the central airflow to the fan blades.
There are everywhere electronic devices in our living and working environments. An electronic device is formed of many electronic elements, which generate heat during operation. Heat may induce low efficiency or even operational interruption. Therefore, a heat-dissipation device is usually arranged above or near a heat-generating electronic element to fast take away heat and decrease the temperature of the electronic element so that the electronic element can operate normally. The manufacturers usually increase the heat-dissipation efficiency of an electric fan via modifying the structures of the electric fan casing or fan blades or via increasing the rotation speed of the electric fan, which are expected to increase the incoming airflow and outgoing airflow.
A R.O.C. patent No. M300958 disclosed an “Axial Flow Heat Dissipation Electric Fan”, which comprises: a casing and a fan core. The casing has an upper airflow inlet, a lower airflow outlet, an airflow conduction structure and a central magnetic induction stator. The airflow conduction structure has a plurality of non-contact vanes uniformly and annularly arranged along the perimeter of the airflow conduction structure. The fan core has a rotation shaft pivotally installed in a bearing at the center of the casing. The fan core also has a hub, and a plurality of fan blades is uniformly arranged around the hub. A magnetic induction rotator is arranged inside the hub, and the rotation shaft is also installed inside the hub. In the conventional technology, a plurality of vanes is arranged in the external rim of the casing to provide lateral airflow and enhance the heat dissipation effect. However, the axial portion of the electric fan is a plane, which is apt to create wind resistance or a vacuum state and results in a poor heat dissipation effect.
A R.O.C. patent publication No. 478560 disclosed an “Improved Fan Blade Structure”, which comprises: an axial portion and a plurality of fan blades. The axial portion has a dome-shape surface at the front thereof and has a central hole for installing a shaft. The fan blades are annularly and obliquely arranged along the perimeter of the axial portion. The dome-shape surface has a circular plane at the top thereof. The fan blades extend from the perimeter of the axial portion toward the top of the axial portion. The front edges of the fan blades are at the same altitude of the top circular plane of the axial portion. The conventional technology extends the fan blades to increase the area of the fan blades without increasing the thickness of the fan blades, which is expected to achieve full ventilation and higher heat-dissipation efficiency. However, due to the extended fan blades, the axial portion has an uneven surface, which is apt to create wind resistance and wind shear and result in a poor heat dissipation effect.
The primary objective is to guide the central airflow to fan blades to overcome the conventional problem that a vacuum state or wind shear is created at the central region during the rotation of an electric fan and to reduce wind resistance and promote heat dissipation efficiency.
To achieve the abovementioned objective, the present invention proposes an electric fan module and an airflow conduction structure thereof. The airflow conduction structure is coupled to an electric fan and comprises: an airflow conduction body and at least one airflow conduction groove axially arranged on the airflow conduction body. The airflow conduction body has a first end face and a second end face, and the first end face is greater than the second end face. The airflow conduction grooves are arranged between the first end face and the second end face.
Below, the technical contents of the present invention are to be described in detail in cooperation with the drawings.
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Those described above are only the preferred embodiments to exemplify the present invention but not to limit the scope of the present invention. Any equivalent modification or variation according to the spirit of the present invention is to be also included within the scope of the present invention.