The present invention relates to a method of assembling a serial fan, and more particularly to a serial fan assembling method that effectively reduces the vibration produced by the assembled serial fan during operation thereof.
People's reliance on various electronic devices increases with the constant progress in the electronic technology. It is known that internal electronic elements of various electronic devices, such as desktop computers, notebook computers and the like, will produce a large amount of heat during operation thereof. The produced heat must be timely guided off the electronic devices to avoid overheating of the electronic device. Therefore, most electronic devices are internally provided with a cooling fan for the devices to always operate at a predetermined working temperature.
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In brief, the prior art serial fan assembling method has the following disadvantages: (1) failing to effectively reduce the fan vibration; (2) being unable to eliminate noise caused by fan vibration; and (3) largely lowering the system hard disk drive access efficiency.
It is therefore tried by the inventor to develop an improved serial fan assembling method to eliminate the above-mentioned disadvantages.
A primary object of the present invention is to provide a method of assembling a serial fan, so that the assembled serial fan can largely reduce its vibration during operation.
Another object of the present invention is to provide a method of assembling a serial fan, so that the assembled serial fan can largely reduce its vibration during operation and therefore eliminate noise caused by the fan vibration.
A further object of the present invention is to provide a method of assembling a serial fan, so that two or more fans that together form the serial fan can be more quickly and precisely aligned with one another in the assembling process.
To achieve the above and other objects, the method of assembling a serial fan according to the present invention includes the following steps:
providing a first fan and a second fan, and the first fan having a first connection section;
providing a union member having a bottom panel and two side panels upward extended from two lateral sides of the bottom panel, such that a receiving space is defined between the bottom panel and the two side panels; and one side of the receiving space opposite to the bottom panel forming a first open side, while two axially opposite ends of the receiving space respectively forming a second open side; and
connecting the first fan to the union member via the first open side with the first connection section on the first fan engaged with the two side panels of the union member, and connecting the second fan to the two side panels of the union member via the first open side or connecting the second fan to the bottom panel of the union member via one of the two second open sides, such that the first and the second fan connected to the union member are serially located in the receiving space.
According to the method of the present invention, after the first fan is connected to the union member via the first open side, the second fan can be connected to the union member via the first open side or the second open side. In either way, the first and the second fan, after being connected to the union member, are serially located in the receiving space in a manner capable of reducing the fan vibration. In addition, by connecting the first fan to the union member in a vertical direction relative to the union member and connecting the second fan to the union member in a vertical or a horizontal direction relative to the union member, the first and the second fan can be more quickly assembled together and more precisely aligned with each other.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
The present invention will now be described with some preferred embodiments thereof and with reference to the accompanying drawings. For the purpose of easy to understand, sections that are the same in the preferred embodiments are denoted by the same reference numerals.
The present invention provides a method of assembling a serial fan. Please refer to
In the first step S1, a first fan and a second fan are provided, and the first fan includes a first connection section.
More specifically, in the first step S1 of the method of the present invention, a first fan 2 and a second fan 3 are provided. The first fan 2 includes a first connection section 21, and the second fan 3 includes a second connection section 31. In the first embodiment, the first and the second connection section 21, 31 are respectively illustrated as a channel. However, it is understood, in practical implementation of the present invention, the first and second connection sections 21, 31 are not necessarily limited to channels but can be otherwise slide rails, projected tongues or grooves.
In the second step S2, a union member is provided. The union member includes a bottom panel and two side panels upward extended from two lateral sides of the bottom panel, such that a receiving space is defined between the bottom panel and the two side panels. The receiving space has a top located opposite to the bottom panel and forming a first open side, and two axially opposite ends respectively forming a second open side.
More specifically, in the second step S2, a union member 4 is provided. The union member 4 includes a bottom panel 41 and two side panels 42 upward extended from two lateral sides of the bottom panel 41, such that a receiving space 43 is defined between the bottom panel 41 and the two side panels 42. One side of the receiving space 43 opposite to the bottom panel 41, i.e. a top side of the receiving space 43, forms a first open side 44, via which the receiving space 43 can be accessed in a vertical direction relative to the bottom panel 41; and two axially opposite ends of the receiving space 43 adjacent to two axially opposite ends of the bottom panel 41 form two second open sides 45, via any one of which the receiving space 43 can be accessed in a horizontal direction relative to the bottom panel 41.
In the third step S3, the first fan is connected to the union member via the first open side with the first connection section on the first fan engaged with the two side panels of the union member, and the second fan is also connected to the two side panels of the union member via the first open side, such that the first and the second fan connected to the union member are serially located in the receiving space.
More specifically, a first mating connection section 421 is provided on the two side panels 42 of the union member 4 for correspondingly engaging with the first connection section 21, and a second mating connection section 422 is further provided on the two side panels 42 of the union member 4 for correspondingly engaging with the second connection section 31. In the third step S3, the first fan 2 is connected to the side panels 42 of the union member 4 via the first open side 44, so that the first connection section 21 is engaged with the first mating connection section 421; and the second fan 3 is also connected to the side panels 42 of the union member 4 via the first open side 44, so that the second connection section 31 is engaged with the second mating connection section 422. In this manner, the first and the second fan 2, 3 connected to the union member 4 are serially located in the receiving space 43 to connect with each other end to end. In the first embodiment, the first and the second mating connection section 421, 422 are illustrated as slide rails. However, it is understood, in practical implementation of the present invention, the first and second mating connection sections 421, 422 are not necessarily limited to slide rails but can be otherwise channels, grooves or projected tongues.
In brief, in the first embodiment, while the first and second fans 2, 3 are connected to the union member 4 via engagement of channels with slide rails, it is understood the first and second fans 2, 3 can be connected to the union member 4 in many other different manners, such as clamping, screw fastening, gluing or snap fitting.
According to the present invention, the first fan 2 is connected to the union member 4 via the first open side 44 with the first connection section 21 correspondingly engaged with the first mating connection section 421, and the second fan 3 is also connected to the union member 4 via the first open side 44 with the second connection section 31 correspondingly engaged with the second mating connection section 422. That is, both of the first fan 2 and the second fan 3 are connected to the union member 4 in a vertical direction relative to the union member 4. In this connection manner, it is able to reduce or damp the serial fan's vibration effect. In addition, with the serial fan assembling method of the present invention, the first and second fans 2, 3 can be precisely and quickly located in the union member 4 to align with each other.
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More specifically, in the second embodiment, the second fan 3 includes a third connection section 32, and the bottom panel 41 of the union member 4 is provided with a third mating connection section 411 for correspondingly engaging with the third connection section 32. In the second embodiment, the third connection section 32 is illustrated as channels. However, it is understood, in practical implementation of the present invention, the third connection section 32 is not necessarily limited to channels but can be otherwise slide rails, projected tongues or grooves.
And, while the third mating connection section 411 in the second embodiment is illustrated as slide rails, it is understood, in practical implementation of the present invention, the third mating connection section 411 is not necessarily limited to slide rails but can be otherwise channels, grooves or projected tongues.
In the third step S3 of the second embodiment, the first fan 2 is connected to the side panels 42 of the union member 4 via the first open side 44, and the second fan 3 is connected to the bottom panel 41 of the union member 4 via one of the two second open sides 45 with the third connection section 32 on the second fan 3 engaged with the third mating connection section 411 on the bottom panel 41 of the union member 4. In other words, the first fan 2 is connected to the union member 4 in a vertical direction relative to the union member 4, while the second fan 3 is connected to the union member 4 in a horizontal direction relative to the union member 4. After the first and second fans 2, 3 are connected to the union member 4 in the above manner, the first and second fans 2, 3 are serially located in the receiving space 43 with reduced fan vibration and can be more precisely aligned with each other.
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According to the method of the present invention, the first and second fans for forming the serial fan can be assembled together by vertically or horizontally connecting them to a union member to eliminate the vibration resonance induced between the two fans and the noise caused by such vibration resonance. In summary, compared to the prior art serial fan assembling method, the present invention has the following advantages: (1) it largely reduces the fan vibration; (2) it minimizes the noise caused by the fan vibration; and (3) it enables all fans in the serial fan to precisely align with one another.
The present invention has been described with some preferred embodiments thereof and it is understood that many changes and modifications in the described embodiments can be carried out without departing from the scope and the spirit of the invention that is intended to be limited only by the appended claims.
Number | Name | Date | Kind |
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6556437 | Hardin | Apr 2003 | B1 |
20140147312 | Lu | May 2014 | A1 |
Number | Date | Country | |
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20150233387 A1 | Aug 2015 | US |