DE202012009585U1 - Mounting structure for bearings of a fan - Google Patents

Abstract

Fastening structure for bearings of a fan, comprising a base plate (2) which on one side has an axle sleeve (21) which has a receiving space (213), and on the inner wall at least one delimiting part (214) and at least one annular groove (215), wherein at least one elastic body (22) and at least one locking element (23) are arranged in the axle sleeve (21), between which a bearing (24) is arranged, a stator (3) which is placed around the axle sleeve (21) and a rotor (4) which has a plurality of blades (41) and a wheel axle (42), the wheel axle (42) being guided through the bearing (24) in the receiving space (213).

Description

Technical area

The invention relates to a mounting structure for bearings of a fan, which can prevent rotation and slippage and wear or failure of the bearing in the receiving space of the axle.

State of the art

With the development of technology, the performance of electronic components is always higher. At the same time, the requirement for cooling increases.

The heat of the computer comes mainly from the central unit. As the temperature of the central unit increases, the power of the central unit is reduced and even the central unit may be damaged. To solve the problem with the electromagnetic waves, the computer usually has a closed housing. Therefore, it is an important challenge to heat the CPU and other heat sources (or devices) out of the enclosed computer case.

The workstation or server of a large electronic system can generate high heat during operation. When the operating temperature exceeds a predetermined value, the work of the workstation or server is reduced. In the worst case, the electronic components of the workstation or the server may be burned causing a great loss. Therefore, it is very important to keep the temperature of the workstation or server within a predetermined range.

The high-performance cooling unit is the focus of development for cooling, is for cooling electronic components that generate high heat, and is usually formed by a heat sink or a fin group and a cooling fan.

1 shows a conventional cooling fan 1 who has a base plate 11 , a rotor 12 and a stator 13 includes. The base plate 11 has an axle box 111 on, in the two camps 112 are arranged. Camps 112 fit in the axle box 111 , causing a fall out of the camp 112 from the axle box 111 is prevented. To the axle box 111 is the stator 13 placed. The rotor 12 has a wheel hub 121 , a variety of blades 122 and a wheel axle 123 on. The wheel axle 123 is through the bearings 112 guided. When the cooling fan 1 is rotated, the wheel axle rotates 123 opposite the camps 112 , As for the camp 112 No positioning is provided, the bearings can 112 from the wheel axle 123 rotated or slip, causing wear of the bearings 112 and the axle box 111 caused, so the bearings 112 fail and the rotor 12 can not be turned smoothly.

• 3. Drehen und Verrutschen des Lagers,
• 4. Verschleiß des Lagers und der Achsbüchse,
• 5. Versagen des Lagers und nicht reibungsloses Drehen des Rotors.

Therefore, the conventional solution has the following disadvantages:

• 3. turning and slipping of the bearing,
• 4. wear of the bearing and axle box,
• 5. Failure of the bearing and not smooth rotation of the rotor.

Object of the invention

The invention has for its object to provide a mounting structure for bearings of a fan that can prevent rotation and slipping and wear or failure of the bearing in the receiving space of the axle.

Another object of the invention is to provide a mounting structure for bearings of a fan by means of which the rotor can be rotated smoothly.

These objects are achieved by the mounting structure according to the invention for bearings of a fan, comprising: a base plate having on one side a Achsbüchse having a receiving space, and on the inner wall at least one boundary part and at least one annular groove, wherein in the Achsbüchse at least one elastic body and at least one blocking element are arranged, between which a bearing is arranged; a stator, which is placed around the axle box; and a rotor having a plurality of blades and a wheel axle, wherein the wheel axle is guided by the bearing in the receiving space.

• 2. Vermeidung eines Drehens und Verrutschens des Lagers,
• 3. Vermeidung einen Verschleißes oder eines Versagens des Lagers,
• 4. Reibungsloses Drehen des Rotors.

Therefore, the invention has the following advantages:

• 2. avoiding rotation and slipping of the bearing,
• 3. avoid wear or failure of the bearing,
• 4. Smooth rotation of the rotor.

Brief description of the drawings

1 a sectional view of the conventional solution,

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

3A a sectional view of the first embodiment of the invention,

3B a partial view according to 3 .

4A a sectional view of the second embodiment of the invention and

4B a partial view according to 4A ,

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 2 . 3A and 3B show the first preferred embodiment of the invention, which is a base plate 2 , a stator 3 and a rotor 4 includes. The base plate 2 has an axle box on one side 21 on top of an upper area 211 and a lower area 212 as well as a recording room 213 has. The recording room 213 is with the upper area 211 and the lower area 212 connected and forms on the inner wall at least one boundary part 214 and at least one annular groove 215 , In the axle box 21 are at least one elastic body 22 , at least one blocking element 23 and at least one camp 24 arranged. The elastic body 22 is at the boundary part 214 arranged. The blocking element 23 is in the ring groove 215 arranged. The warehouse 24 is located between the elastic body 22 and the blocking element 23 ,

The stator 3 is about the axle box 21 laid and has a variety of windings 31 and at least one steel sheet 32 on. The windings 31 are around the steel sheet 32 placed.

The rotor 4 is on the base plate 2 stored and has a variety of blades 41 and a wheel axle 42 on. The wheel axle 42 is through the warehouse 24 in the recording room 213 guided.

In the present embodiment, the limiting part 214 and the ring groove 215 at the same time in the upper area 211 and lower area 212 the axle box 21 appropriate. The recording room 213 forms a boundary part in the upper area 214 and an annular groove 215 , The elastic body 22 lies with one side on the boundary part 214 , The warehouse 24 lies on the other side of the elastic body 22 , The blocking element 23 reaches into the ring groove 215 one. This is the camp 24 between the elastic body 22 and the blocking element 23 positioned.

The recording room 213 forms at the bottom of another boundary part 214 and another annular groove 215 , Another elastic body 22 lies with one side on the further boundary part 214 , Another camp 24 lies on the other side of the other elastic body 22 , Another blocking element 23 engages in the further annular groove 215 one. This is the other camp 24 between the other elastic body 22 and the other blocking element 23 positioned.

The wheel axle 42 of the rotor 4 is through the blocking element 23 , the warehouse 24 and the elastic body 22 in the upper area 211 and the blocking element 23 , the warehouse 24 and the elastic body 22 in the area below 212 guided. When the wheel axle 42 of the rotor 4 opposite the camps 24 is turned, the bearings become 24 from the elastic bodies 22 against the locking elements 23 pressed, causing a rotation and slipping and wear or failure of the bearings 24 is avoided, so that the rotor 4 can be rotated smoothly.

The 4A and 4B show the second preferred embodiment of the invention, which differs from the above-mentioned embodiment only in that the elastic body ( 4B ) by spring 216 is formed. The boundary part 214 and the ring groove 215 are at the same time in the upper range 211 and lower area 212 the axle box 21 appropriate. The wheel axle 42 of the rotor 4 is through the blocking element 23 , the warehouse 24 and the elastic body 22 in the upper area 211 and the blocking element 23 , the warehouse 24 and the elastic body 22 in the area below 212 guided. When the wheel axle 42 of the rotor 4 opposite the camps 24 is turned, the bearings become 24 from the springs 216 against the locking elements 23 pressed, causing a rotation and slipping and wear or failure of the bearings 24 is avoided, so that the rotor 4 can be rotated smoothly.

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 (5)

Mounting structure for bearings of a fan, comprising a base plate ( 2 ), which on one side an axle box ( 21 ), which has a receiving space ( 213 ), and on the inner wall at least one boundary part ( 214 ) and at least one annular groove ( 215 ), wherein in the axle box ( 21 ) at least one elastic body ( 22 ) and at least one blocking element ( 23 ) between which a bearing ( 24 ) is arranged a stator ( 3 ) around the axle box ( 21 ) and a rotor ( 4 ), which has a large number of blades ( 41 ) and a wheel axle ( 42 ), wherein the wheel axle ( 42 ) through the warehouse ( 24 ) in the recording room ( 213 ) is guided. Fastening structure according to claim 1, characterized in that the axle box ( 21 ) an upper area ( 211 ) and a lower area ( 212 ) having. Fastening structure according to claim 2, characterized in that the limiting part ( 214 ) and the annular groove ( 215 ) at the same time in the upper area ( 211 ) and lower area ( 212 ) of the axle box ( 21 ) are mounted. Fastening structure according to claim 1, characterized in that the wheel axle ( 42 ) through the elastic body ( 22 ) and the blocking element ( 23 ) is guided. Fastening structure according to claim 1, characterized in that the stator ( 3 ) a plurality of windings ( 31 ) and at least one steel sheet ( 32 ), wherein the windings ( 31 ) around the steel sheet ( 32 ) are placed.

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