DE202013011101U1 - Connection structure for series-connected fans - Google Patents

Abstract

Connection structure for series-connected fans, comprising a connection group (2) which includes a first connection element (20), a second connection element (21) and a third connection element (22), wherein the first connection element (20) has a first surface (201) and a second surface (202) opposite the first surface (201), wherein on the upper side (204) of the first connecting element (20) the second connecting element (21) extends horizontally outward from the first surface (201), wherein on the underside (205) of the first connecting element (20), the third connecting element (22) extends horizontally outward from the second surface (202), with a channel between the first and second surfaces (201, 202) in the middle of the first connecting element (203) is formed, a first fan (3) which lies on the first surface (201) of the first connecting element (20) and a first fan frame (30) and a first air duct l (31) through the first fan frame (30), the first fan (30) being connected in the horizontal direction to the second connecting element (21), the first air duct (31) being connected to the duct (203), and a second fan (4) lying on the second surface (202) of the first connecting element (20) and having a second fan frame (40) and a second air duct (41) through the second fan frame (40), the second fan (4) is connected in the horizontal direction to the third connecting member (22), the second air duct (41) being connected to the duct (203).

Description

Technical area

The invention relates to a connection structure for series-connected fans, which can significantly reduce the vibration.

State of the art

With the development of technology, the dependence of people on the electronic products is always higher. The electronic products (such as computer and notebook) can generate high heat during operation. If the heat is not dissipated in time, overheating can occur. For this purpose, a fan is usually used to keep the electronic products at the working temperature.

The 1A and 1B show conventional series-connected fans whose fan frame have the same size. These fans each have a fan frame 10 , a paddle wheel 11 and a motor (not shown). When the fans are turned, they produce a vibration. The fan frame 10 are by a snap connection structure 12 connected with each other. Here, the center axis of the fans are connected to each other, so that the vibration can not be changed. When the paddle wheels 11 in the fan frame 10 can be rotated simultaneously, the two fans 10 create a resonance effect. Since the hard disk is very sensitive to vibration, it can be due to the vibration of the paddle wheels 11 be influenced, so that the working efficiency of the hard disk is reduced. In addition, the resonance effect can generate a large noise.

• 1. hohe Vibration der Ventilatoren,
• 2. hohes Geräusch der Ventilatoren,
• 3. Reduzierung der Arbeitseffizienz der Festplatte.

Therefore, the conventional solution has the following disadvantages:

• 1. high vibration of fans,
• 2. high noise of fans,
• 3. Reduction of the working efficiency of the hard disk.

For this reason, in view of the disadvantages of conventional solutions based on many years of experience in this field, the inventor has, after much study, numerous trials and continual improvements, developed the present invention.

Object of the invention

The invention has for its object to provide a connection structure for series-connected fans, which can significantly reduce the vibration.

Another object of the present invention is to provide a connection structure for series-connected fans which can reduce the noise.

These objects are achieved by the series-connected fan connecting structure according to the present invention, comprising: a connection group including a first connection member, a second connection member and a third connection member, the first connection member having a first surface and a second surface opposed to the first surface wherein on the upper side of the first connecting element, the second connecting element extends horizontally outwardly from the first surface, wherein on the underside of the first connecting element, the third connecting element extends horizontally outwardly from the second surface, wherein between the first and second surfaces in the Middle of the first connecting element a channel is formed,
a first fan located on the first surface of the first connector and having a first fan frame and a first air channel through the first fan frame, the first fan being connected in the horizontal direction to the second connector, the first air channel connected to the channel is and
a second fan located on the second surface of the first connector and having a second fan frame and a second air channel through the second fan frame, the second fan being connected in the horizontal direction to the third connector, the second air channel connected to the channel is.

Since the first fan is connected to the second connection member in the horizontal direction and located on the first surface and the second fan is connected in the horizontal direction to the third connection member and located on the second surface, the connection group is with the first and second fans reliably connected. When turning the fans, the vibration frequency of the fans is the same or can be reduced, thus increasing the working efficiency of the hard disk.

Brief description of the drawings

1A an exploded view of the conventional solution,

1B a perspective view of the conventional solution,

2A an exploded view of the first embodiment of the invention,

2 B a perspective view of the first embodiment of the invention,

3A an exploded view of the second embodiment of the invention,

3B a perspective view of the second embodiment of the invention,

4A an exploded view of the third embodiment of the invention,

4B a perspective view of the third embodiment of the invention,

5 an exploded view of the fourth embodiment of the invention,

6 an exploded view of the fifth embodiment of the invention.

Ways to carry out the invention

Further details, features and advantages of the invention will become apparent from the following detailed description taken in conjunction with the accompanying drawings.

The 2A and 2 B show the first embodiment of the invention, which is a connection group 2 , a first fan 2 and a second fan 4 includes. The connection group 2 includes a first connection element 20 that is a first surface 201 and a second area 202 owns the first surface 201 opposite. On the top 204 of the first connecting element 20 a second connecting element extends 21 from the first surface 201 horizontally outward. On the bottom 205 of the first connecting element 20 a third connecting element extends 22 from the second surface 202 horizontally outward. The second connection element 21 and the third connecting element 22 run in the opposite direction. Between the first and second surface 201 . 202 in the middle of the first connecting element is a channel 203 educated.

The second and third connection element 21 . 22 have several holes 23 , The first and second fan 3 . 4 are according to the holes 23 with a variety of through holes 5 Mistake. A variety of fasteners 6 be through the holes 23 and the through holes 5 guided. The first and second fan 3 . 4 are in the present embodiment by screw connection to the first and second connecting element 21 . 22 connected. In practice, the first and second fans 3 . 4 also by latching connection, engagement connection, adhesive connection or sliding connection with the first and second connection element 21 . 22 get connected.

The first fan 3 lies on the first surface 201 of the first connecting element 20 and has a first fan frame 30 and a first air channel 31 through the first fan frame 30 on. The first fan 30 is in the horizontal direction with the second connecting element 21 connected. The first air duct 31 is with the channel 203 connected.

The second fan 4 lies on the second surface 202 of the first connecting element 20 and has a second fan frame 40 and a second air channel 41 through the second fan frame 40 , The second fan 4 is in the horizontal direction with the third connecting element 22 connected. The second air channel 41 is with the channel 203 connected.

Because the first fan 30 in the horizontal direction with the second connecting element 21 is connected and on the first surface 201 lies and the second fan 4 in the horizontal direction with the third connecting element 22 is connected and on the second surface 202 is, is the connection group 2 with the first and second fan 3 . 4 reliably connected. When turning the fans, the vibration frequency of the fans is the same or can be reduced, thus increasing the working efficiency of the hard disk.

The 3A and 3B show the second embodiment of the invention, which differs from the above embodiment only in that on the first and second surfaces 201 . 202 of the first connecting element 20 a variety of mounting elements 206 are provided. The first and second fan 3 . 4 have according to the mounting elements 206 at the four corners connecting parts 7 on. The first and second fan 3 . 4 are in this embodiment by engagement with the first and second surfaces 201 . 202 connected. In practice, the first and second fans 3 . 4 also by screw connection, locking connection, adhesive connection or sliding connection with the first and second surfaces 201 . 202 get connected.

The mounting elements 206 are formed in this embodiment by projections. In practice, the mounting elements may also be through holes, recesses or grooves through which the first and second fans 3 . 4 with the first connecting element 20 be formed, be formed.

The connecting parts 7 are formed in this embodiment by holes. In practice, the connecting parts may also be formed by recesses, grooves or projections through which the first and second fans 3 . 4 with the first connecting element 20 be formed, be formed.

By the connection of the mounting elements 206 the first and second surfaces 201 . 202 of the first connecting element 20 and the connecting parts 7 the first and second fans 3 . 4 can be the first and second fan 3 . 4 reliably connected with each other. In addition, the connection is the connection group 2 with the first and second fan 3 . 4 poet. When turning the fans, the vibration frequency of the fans is the same, reducing the vibration and noise, thus increasing the working efficiency of the hard disk.

The 4A . 4B and 5 show the third embodiment of the invention, which differs from the above embodiment only in that the holes 23 ( 3 ) of the second connecting element 21 or the third connecting element 22 at least by a rail 8th be replaced. At the first and second surface 201 . 202 of the first connecting element 20 are a variety of mounting elements 206 provided with the connecting parts 7 the first and second fans 3 . 4 get connected. By the sliding connection are the first and second fan 3 . 4 close to the connection group 2 connected. The rail 8th on the second or third connection element 21 . 22 can in the axial direction ( 4A ) or not in the axial direction ( 5 ), which reduces the vibration and noise, so that the working efficiency of the hard disk is increased.

6 shows the fifth embodiment of the invention, which differs from the third embodiment only in that on the first and second surfaces 201 . 202 of the first connecting element 20 a variety of mounting elements 206 are provided with the connecting parts 7 the first and second fans 3 . 4 get connected. Ie. the first and second fans 3 . 4 are on the two sides of the connection group 2 with the first connecting element 20 connected.

• 1. Reduzierung der Vibration,
• 2. Reduzierung des Geräusches,
• 3. Erhöhung der Arbeitseffizienz der Festplatte.

Therefore, the invention has the following advantages in comparison with the conventional solution:

• 1. reduction of vibration,
• 2. reduction of the noise,
• 3. Increase the working efficiency of the hard disk.

The foregoing description represents only the preferred embodiments of the invention and is not intended to serve as a definition of the limits and scope of the invention. All equivalent changes and modifications are within the scope of this invention.

Claims (8)

Connection structure for series-connected fans, comprising a connection group ( 2 ), which is a first connecting element ( 20 ), a second connecting element ( 21 ) and a third connecting element ( 22 ), wherein the first connecting element ( 20 ) a first surface ( 201 ) and a second surface ( 202 ), that of the first surface ( 201 ), wherein on the upper side ( 204 ) of the first connecting element ( 20 ) the second connecting element ( 21 ) from the first surface ( 201 ) extends horizontally outward, wherein on the underside ( 205 ) of the first connecting element ( 20 ) the third connecting element ( 22 ) from the second surface ( 202 ) extends horizontally outwards, wherein between the first and second surface ( 201 . 202 ) in the middle of the first connecting element a channel ( 203 ), a first fan ( 3 ) at the first surface ( 201 ) of the first connecting element ( 20 ) and a first fan frame ( 30 ) and a first air channel ( 31 ) through the first fan frame ( 30 ), wherein the first fan ( 30 ) in the horizontal direction with the second connecting element ( 21 ), wherein the first air channel ( 31 ) with the channel ( 203 ) and a second fan ( 4 ) on the second surface ( 202 ) of the first connecting element ( 20 ) and a second fan frame ( 40 ) and a second air channel ( 41 ) through the second fan frame ( 40 ), wherein the second fan ( 4 ) in the horizontal direction with the third connecting element ( 22 ), the second air channel ( 41 ) with the channel ( 203 ) connected is. Connecting structure according to claim 1, characterized in that the second and third connecting element ( 21 . 22 ) several holes ( 23 ), the first and second fans ( 3 . 4 ) according to the holes ( 23 ) with a plurality of through holes ( 5 ) are provided. Connection structure according to claim 2, characterized in that the first and second Fan ( 3 . 4 ) by screw connection, latching connection, engagement connection, adhesive connection or sliding connection with the first and second connecting element ( 21 . 22 ) get connected. Connection structure according to claim 1, characterized in that on the first and second surfaces ( 201 . 202 ) of the first connecting element ( 20 ) a plurality of mounting elements ( 206 ), the first and second fans ( 3 . 4 ) according to the mounting elements ( 206 ) Connecting parts ( 7 ) exhibit. Connecting structure according to claim 4, characterized in that the first and second fans ( 3 . 4 ) by screw connection, latching connection, engagement connection, adhesive connection or sliding connection with the first and second connecting element ( 21 . 22 ) get connected. Connecting structure according to claim 5, characterized in that the mounting elements ( 206 ) are formed by holes, recesses, grooves or projections. Connecting structure according to claim 5, characterized in that the connecting parts ( 7 ) are formed by holes, recesses, grooves or projections. Connecting structure according to claim 4, characterized in that on the second connecting element ( 21 ) or the third connecting element ( 22 ) at least one rail ( 8th ) provided with the mounting elements ( 206 ) is combined.

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