Fan assembly
A fan assembly includes a metal frame, a vane, and a driving means; wherein the driving means is installed at the middle of the metal frame and the vane is installed at an end of the driving means. With better tensile strength and structural strength of a metal, the thickness of the metal frame of the fan assembly can be made thinner, and thus improving the airflow and the heat dissipating effect to dissipate produced heat more effectively.
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The present invention generally relates to a fan assembly, and more particularly to a fan assembly that adopts a metal frame to reduce the thickness of an external frame and increase the diameter of the vane so as to improve the airflow and the heat dissipating effect.
BACKGROUND OF THE INVENTIONThe application of a fan becomes more popular since its invention and the advancement of electronic and network communications products, and an electric fan was invented. The functions and usages of a fan are planned to satisfy the increasingly sophisticated requirements of various different electronic and network communication products. As to present industrial servers, the height of the server is designed as 1U (where 1U=44.45 cm), but the processing speed of related electronic components and CPU in the server increases, and thus resulting a large amount of heat produced in such high-speed operations and working conditions. The large amount of heat so produced is cooled to a temperature lower than the maximum operating temperature by at least one fan, so that the server can maintain a normal operating environment.
In general, the specification of a fan used for servers is generally 40 cm×40 cm×20 cm, and the heat dissipation rate of this specification is preferably higher than those for other smaller fans such as the 30 cm×30 cm×10 cm and the 25 cm×25 cm×10 cm. In the meantime, the smaller is the design of the volume of the fan axle, the more difficult is the manufacture and the higher is the cost. Therefore, the 40 cm×40 cm×20 cm specification is widely used for the limited space in present servers due to the consideration of its cost, heat dissipation, and structure.
Referring to
Further, the general external frame 72 has a screw hole 75 disposed at four corners separately, so that the fan can be fixed onto a casing 80 by securing a screw 77 into the screw hole 75. When the fan 70 is turned on to dissipate heat, the heat in the casing 80 can be discharged from the casing or external air can be blown directly into the casing to maintain the normal operation of electronic components in the casing 80.
However, the shortcomings of the foregoing fan 70 resides on its structure having a weight heavier than a general external frame 72, and thus the area of the air inlet or outlet is limited and larger airflow cannot be obtained. As a result, the maximum flow is restricted significantly.
Further, the presently developed servers tend to have a flat design, and the space for installing a cooling fan in a server becomes smaller, and thus the fan installed in the server is smaller. It is an important subject for manufacturers in the related industry to maximize the airflow in the limited space for installing a small fan, and everyone is happy to see a design of an improved fan assembly that can effectively overcoming the foregoing shortcomings.
SUMMARY OF THE INVENTIONIn view of the shortcomings of the prior-art, the inventor of the present invention conducted extensive researches and experiments and finally invented an improved fan assembly.
It is therefore a primary objective of the present invention to design and develop a fan assembly that comprises a metal frame, a vane, and a driving means; wherein the driving means is installed at the central position of the metal frame, and the vane is installed at an end of the driving means. With better tensile strength and structural strength of metal, the thickness of an external frame of a fan in accordance with the present invention can be made thinner than that of a general fan. Therefore, the airflow of such fan is larger than the airflow of a general fan and the invention provides a better heat dissipating effect for dissipating the produced heat more easily.
The above and other objects, features and advantages of the present invention will become apparent from the following detailed description taken with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
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Further, the driving means 60 includes an axle 65 pivotally connected to another end of the fixing member 210, such that the driving means 60 can drive the axle 65 to rotate, and the vane 40 includes a groove 45 disposed thereon at a position facing the axle 65, and the groove 45 can be latched with another end of the axle 65. When the driving means 60 is operated to drive the axle 65, the vane 40 can be rotated.
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In the foregoing preferred embodiments, the thickness of the metal frame 20 of the fan 1 is thinner than a general plastic frame, and the minimum thickness of a side of the metal frame 20 can be reduced to 1 cm (while the minimum thickness of a side of a plastic frame is 2˜3 cm.) When the thickness of the metal frame 20 is reduced, the external diameter of the vane 40 can be increased to 58 cm without changing its structural strength, and thus enhancing the airflow during the operation of the fan 1 and improving the performance of the fan 1.
In the foregoing preferred embodiments, the metal frame 20 and the casing 80 can be coupled integrally. Referring to
In the foregoing preferred embodiments, the vane 40 of the fan 1 is made by metal, since metals have better thermal conductivity (the coefficient of thermal conductivity is 0.94 W/MK for copper, 0.05 W/MK for stainless steel, and 0.034 W/MK for plastics) that can easily reduce the heat produced by the operation of the vane 40, and the heat can be dissipated from the surface quickly. In general, the plastic material of a plastic vane will be worn out or deformed by the heat accumulated for some time. Unlike the plastic vane, the life of a metal vane 40 is much longer.
Since the present servers tend to have a flat design, the space for installing a cooling fan in a server becomes smaller, and the size of the fan has to be smaller. The fan 1 used for network servers according to the foregoing preferred embodiments seems to be unable to increase the length of the vane 40 of fan 1 in a substantial amount, but several fans 1 can be serially installed into the server to increase the airflow for cooling and circulation, and thus greatly improving the heat dissipating effect.
While the invention herein disclosed has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of the invention set forth in the claims.
Claims
1. A fan assembly, comprising:
- a metal frame;
- a driving means, disposed at the central position of said metal frame; and
- a vane, disposed at an end of said driving device.
2. The fan assembly of claim 1, wherein said metal frame comprises a protective grid disposed at an external edge of an end of said metal frame and closely coupled with a side of said metal frame.
3. The fan assembly of claim 2, wherein said protective grid comprises a solid fixing piece disposed at the central position of said protective grid and coupled to an end of said driving means.
4. The fan assembly of claim 3, wherein said driving means comprises an axle pivotally installed at another end of said driving means, and said driving means drives said axle to rotate, and said vane has a groove disposed at a position facing said axle for latching onto said axle, and said driving means drives said vane to rotate after said driving means is operated to drive said axle.
5. The fan assembly of claim 4, wherein said vane comprises an arc-shaped wing nose disposed at said vane with its back facing an end of said groove, and said wing nose is streamlined.
6. The fan assembly of claim 1, wherein said metal frame comprises a plurality of lugs disposed around an external periphery of said metal frame and a plurality of bores disposed on a side of a casing and having the same quantity as that of said plurality of lugs for fixing said plurality of lugs onto said bores of said casing by a plurality of bolts.
7. The fan assembly of claim 1, wherein said metal frame comprises a plurality of L-shaped hook sections disposed around an external periphery of said metal frame, and said casing comprises a plurality of grooves disposed at corresponding positions of said metal frame.
8. The fan assembly of claim 1, wherein said metal frame and said casing are integrally coupled with each other.
Type: Application
Filed: Feb 22, 2005
Publication Date: Aug 24, 2006
Applicant: INVENTEC CORPORATION (Taipei)
Inventors: Win-Haw Chen (Taipei), Chen-Yueh Chang (Taipei)
Application Number: 11/061,651
International Classification: F04D 19/00 (20060101);