Fan, motor and bearing structure

Abstract

A bearing structure has a bearing and a shockproof structure. The bearing is disposed in a bushing. The shockproof structure is disposed in the bushing for covering at least one portion of the outer wall of the bearing.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become more fully understood from the detailed description given herein below illustration only, and thus is not limitative of the present invention, and wherein:

FIG. 1 schematically shows a conventional bearing;

FIG. 2 is a schematic view showing that a contact friction exists between the conventional bearing and a shaft;

FIG. 3 is a schematic view of a fan according to an embodiment of the invention;

FIG. 4 is a partial enlarged view of the fan according to the embodiment of the invention; and

FIG. 5 is a schematic view of a motor according to an embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.

As shown in FIG. 3, a fan 2 according to an embodiment of the invention includes an impeller 21, a rotor 22, a stator 23, and a bearing structure 24.

The impeller 21 has a hub 211 and several blades 212 disposed around of the hub 211. The blades 212 can be formed with the hub 211 as a monolithic piece.

The rotor 22 has a shaft 221 connected with the hub 211. The shaft 221 can be integrally formed with the hub 211. Moreover, the rotor 22 has a magnetic conducting shell 222 and a magnet 223. The magnetic conducting shell 222 is made of a metal material and disposed around the inner wall of the hub 211. The magnet 223 is a permanent magnet disposed around the inner wall of the magnetic conducting shell 222.

The stator 23 is mounted on a bushing 251 of a base 25. A circuit board 26 is disposed at the outer edge of the bushing 251 and on the base 25. The stator 23 is electrically connected with the circuit board 26 and coupled to the rotor 22, particularly corresponding to the magnet 223 of the rotor 22. The circuit board 26 controls the direction of electrical current in the armature on the stator 23. The electrical current produces an alternating magnetic field with the magnet 223 of the rotor 22 to drive the rotor 22.

The bearing structure 24 includes a bearing 241 and a shockproof structure 242. The bearing 241 has an axial hole 243 for inserting the shaft 221 therethrough. The shockproof structure 242 is disposed in the bushing 251 to cover at least one portion of the outer wall of the bearing 241. That is, the shockproof structure 242 can partially or completely cover the outer wall of the bearing 241. The bearing 241 is made by sintering a powder metallurgical material. In this embodiment, the bearing 241 is a sleeve bearing or a dynamic pressure bearing.

In this embodiment, the shockproof structure 242 is made of an elastic material, such as rubber or sponge, and disposed between the outer wall of the bearing 241 and the inner wall of the bushing 251. The shockproof structure can be a hollow cylinder, a hollow pillar, or a wavy cylinder. As shown in FIG. 4, when the shaft 221 deviates and imposes a pressure on the bearing structure 24, the unbalanced force of the shaft 221 in the radial direction is buffered by the shockproof structure 242. The elastic material makes the bearing structure 24 elastic. Therefore, the contact between the deviated shaft 221 and the bearing structure 24 is superficial. This can effectively reduce the enlarging of the axial hole 243 or noises between the shaft 221 and the bearing 241 due to point contacts or collisions.

Furthermore, as shown in FIGS. 3 and 4, the inside of the bearing 241 in this embodiment can be provided with an oil reservoir 245. The oil reservoir 245 contains lubricant oil for increasing the oil content of the bearing 241. Moreover, the oil reservoir 245 refills the lubricant oil loss from the fan 2.

As shown in FIG. 5, a fan 3 according to an embodiment of the invention includes a rotor 32, a stator 33, and a bearing structure 34. The rotor 32 has a shaft 321. The stator 33 is mounted on a bushing 35, corresponding to the rotor 32, for driving the rotor 32.

The bearing structure 34 includes a bearing 341 and a shockproof structure 342. The bearing 341 has an axial hole 343 for inserting the shaft 321 therethrough. The shockproof structure 342 is disposed in the bushing 35 to cover at least one portion of the outer wall of the bearing 341. The bearing 341 can be a sleeve bearing or a dynamic pressure bearing.

In this embodiment, the relative positions, composition materials, structural features and functions of the rotor 32, the stator 33, the bearing structure 34 and the bushing 35 are the same as those of the elements in the previous embodiment. Therefore, the description is not repeated herein again.

In summary, the fan, motor, and bearing structure of the invention use a shockproof structure to cover at least one portion of the outer wall of a bearing. The shockproof structure is made of an elastic material. When the shaft of the bearing is rotating at a high speed, the radial vibrations occur due to imbalance. The use of the shockproof structure provides a radial buffering force for the shaft. Compared with the prior art, the invention has a shockproof structure to provide buffering forces to vibrations in the bearing structure. Therefore, the shaft maintains only surface contact with the bearing under the unbalanced operation. The problems of forming a large hole and noise due to friction as in the prior art can be avoided. Therefore, the lifetime of the bearing can be extended.

Although the invention has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternative embodiments, will be apparent to persons skilled in the art. It is, therefore, contemplated that the appended claims will cover all modifications that fall within the true scope of the invention.

Claims

1. A bearing structure in combination with a shaft and disposed in a bushing, the bearing structure comprising: a bearing having an axial hole for inserting the shaft therethrough; anda shockproof structure disposed in the bushing for receiving the bearing.

2. The bearing structure of claim 1, wherein the shockproof structure is made of an elastic material, rubber or sponge.

3. The bearing structure of claim 1, wherein the shockproof structure completely or partially covers an outer wall of the bearing.

4. The bearing structure of claim 1, wherein the shockproof structure is a hollow cylinder, a hollow pillar, or a wavy cylinder.

5. The bearing structure of claim 1, further comprising an oil reservoir is disposed inside the bearing for holding a lubricant oil.

6. The bearing structure of claim 1, wherein the bearing is made by sintering a powder metallurgical material.

7. A motor comprising: a rotor having a shaft;a stator mounted on a bushing and coupled to the rotor; anda bearing structure including a bearing having an -axial hole and a shockproof structure, wherein the shaft is inserted into the axial hole, and the shockproof structure is disposed in the bushing for receiving the bearing.

8. The motor of claim 7, wherein the shockproof structure is made of an elastic material, rubber or sponge.

9. The motor of claim 7, wherein the shockproof structure completely or partially covers an outer wall of the bearing.

10. The motor of claim 7, wherein the shockproof structure is a hollow cylinder, a hollow pillar, or a wavy cylinder.

11. The motor of claim 7, wherein the bearing is a sleeve bearing or a dynamic pressure bearing.

12. The motor of claim 7, further comprising an oil reservoir is disposed inside the bearing for a holding lubricant oil.

13. The motor of claim 7, wherein the bearing is made by sintering a powder metallurgical material.

14. A fan comprising: an impeller including a hub and a plurality of blades disposed around the hub;a rotor having a shaft connected to the hub;a stator mounted on the bushing and coupled to the rotor; anda bearing structure including a bearing having a bearing having an axial hole and a shockproof structure, wherein the shaft is inserted into the axial hole, and the shockproof structure is disposed in the bushing for receiving the bearing.

15. The fan of claim 14, wherein the shockproof structure is made of an elastic material, rubber or sponge.

16. The fan of claim 14, wherein the shockproof structure completely or partially covers an outer wall of the bearing.

17. The fan of claim 14, wherein the shockproof structure is a hollow cylinder, a hollow pillar, or a wavy cylinder.

18. The fan of claim 14, wherein the bearing is a sleeve bearing or a dynamic pressure bearing.

19. The fan of claim 14, further comprising an oil reservoir is disposed inside the bearing for holding a lubricant oil.

20. The fan of claim 14, wherein the bearing is made by sintering a powder metallurgical material.