CN1299009C

CN1299009C - Radiating fan

Info

Publication number: CN1299009C
Application number: CNB2003101015862A
Authority: CN
Inventors: 林克劼; 陈李龙; 李文杜; 徐国栋
Original assignee: Delta Optoelectronics Inc
Current assignee: Delta Optoelectronics Inc
Priority date: 2003-10-17
Filing date: 2003-10-17
Publication date: 2007-02-07
Anticipated expiration: 2023-10-17
Also published as: CN1609454A

Abstract

The present invention relates to a radiation fan which comprises an outer frame, a stator assembly, a rotor assembly and a magnetic suction device, wherein the stator assembly is connected with an outer frame, the rotor assembly comprises a rotating shaft, the magnetic suction device is arranged on the outer frame and is corresponding to the rotating shaft, and the magnetic suction device does not contact the rotating shaft and can suck the rotating shaft.

Description

Radiation fan

Technical field

The relevant a kind of radiation fan of the present invention, particularly relevant a kind of radiation fan with magnetic device.

Background technique

Known radiation fan is made of rotor set 1, stator pack 2 and housing 3 as shown in Figure 1.Rotor set 1 is connected, fixes and normally finish with C shape clasp 4 with stator pack 2, and this kind design only can keep the static equilibrium of rotor set 1 and stator pack 2.

In addition, after the radiation fan combination, the tape 13 of rotor set 1 is a sustained height with coil 22 its central points of stator pack 2, that is the magnetic force center B of the magnetic force center A of tape 13 and coil 22 is positioned on the same horizontal line, therefore after rotor set 1 is rotated, enter and when air draft goes out in air draught, will form a counter power that makes progress to rotor set 1, cause rotor set 1 occur reciprocal on, following vibrations, and then the rotating shaft 15 that drives rotor set 1 do synchronous on, bottom offset, this will cause and make a noise in the radiation fan running and the wear problem of C shape clasp 4 or other assembly.

Therefore, known solution is provided with the magnetic force center A of tape 13 slightly high than the magnetic force center B of coil 22 as shown in Figure 2, that is to say that the central point of tape 13 is higher than the central point of coil 22, makes the potential difference that is formed centrally height in both magnetic force.Therefore, after rotor set 1 was rotated, coil 22 encircled the magnetic field in week when driving rotor set 1 rotation, can produce a suction to tape 13 again, the holdback force that this suction and then formation pull down rotor set 1, thereby can reduce the suspending power that rotor set 1 makes progress.

Yet, in above-mentioned solution, because radiation fan may apply to the following of different rotating speeds and environment, during as high rotating speed or anti-the dress, at this moment, the above-mentioned suction that produces because of dislocation can't adsorb, fixed rotor group 1, thereby cause the problem of radiation fan bad characteristic.In addition, because the running power of rotor set 1 part becomes suspending power, thereby make rotating speed to promote.

Summary of the invention

Therefore, the purpose of this invention is to provide a kind of suitable different Environmental Conditions, can promote rotating speed and have the radiation fan of superperformance.

According to radiation fan of the present invention, comprising: a housing has a pedestal; Stator group spare is connected with the pedestal of housing; One rotor assembly comprises a rotating shaft; And a magnetic device, being arranged on the pedestal of housing position with respect to rotating shaft, magnetic device and rotating shaft are across pedestal and in the different space, office and do not contact mutually, and the magnetic device attracts rotating shaft.

Simultaneously, according to radiation fan of the present invention, the magnetic device comprises a magnetite, and rotating shaft is made by magnetic conductive material, and magnetite attracts rotating shaft.

Again in the present invention, the pedestal of housing has a shrinkage pool, in order to place the magnetic device.

Again in the present invention, also comprise a protective layer, be arranged at housing in order to cover the magnetic device.

Again in the present invention, protective layer is scraps of paper, a metal layer or is a plastic layer.

Again in the present invention, rotor assembly also comprises a flabellum shell, a metallic case and a tape, and metallic case is located on flabellum shell inboard and tape loop is located at the metallic case inboard.

Again in the present invention, stator module comprises a coil and a pole piece, and coil is around on the pole piece, and tape loop coiling and pole piece.

Again in the present invention, the magnetic force center of tape is the magnetic force center that is higher than pole piece, or the magnetic force center of tape is that magnetic force with pole piece is centered close on the same horizontal line.

Again in the present invention, the flabellum shell is ring-type and comprises at least one flabellum, is arranged at the outer periphery of flabellum shell.

Again in the present invention, the magnetic device is attached at pedestal and is exposed on the outer surface.

For above-mentioned and other purpose, characteristics and advantage of the present invention can be become apparent, several concrete preferred embodiments cited below particularly, and conjunction with figs. is elaborated.

Description of drawings

Fig. 1 shows known radiation fan internal structure schematic representation;

Fig. 2 shows another kind of known radiation fan internal structure schematic representation;

Fig. 3 a shows first embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is still unassembled;

Fig. 3 b shows first embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is assembled;

Fig. 3 c shows second embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is still unassembled;

Fig. 3 d shows second embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is assembled;

Fig. 4 a shows third embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is still unassembled;

Fig. 4 b shows third embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is assembled;

Fig. 4 c shows fourth embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is still unassembled;

Fig. 4 d shows fourth embodiment of the present invention radiation fan internal structure schematic representation, and at this moment, the magnetic device is assembled.

Embodiment

Below with specific embodiment, each form content that the present invention is disclosed is described in detail.

First embodiment

Fig. 3 a and 3b are the internal structure schematic representation that shows the radiation fan of first embodiment of the invention, and radiation fan is made of rotor assembly 5, stator module 6, housing 7 and magnetic device 8.

Rotor assembly 5 comprises flabellum shell 51, metallic case 52, tape 53, flabellum 54 and rotating shaft 55.Flabellum shell 51, metallic case 52, tape 53 all are ring-types, metallic case 52 is to be located in the flabellum shell 51, and tape 53 is to be located in the metallic case 52, is equipped with a plurality of flabellums 54 in the outer periphery of flabellum shell 51, and rotating shaft 55 then is connected in flabellum shell 51 inboard centers.In the present embodiment, the rotating shaft 55 of rotor assembly 5 is made with the material of magnetic conductivity, and magnetic device 8 is constituted by a magnetite or by magnetic substance.

Stator module 6 comprises bearing 61, coil 62 and pole piece 63, and above-mentioned pole piece 63 for example is a silicon steel plate, and coil 62 is wound in pole piece 63, and coil 62 is sleeved on the bearing 61 with pole piece 63 again.

Above-mentioned rotating shaft 55 and bearing 61 be fit mutually, makes rotor assembly 5 to be connected with stator module 6, and at this moment, tape 53 is around coil 62 and pole piece 63.After assemble rotor assembly 5 and the stator module 6, again stator module 6 is connected with the pedestal 72 of housing 7.

Magnetic device 8 is that the pedestal 72 that attaches to housing 7 is exposed on the outer surface, and with respect to the position of rotating shaft 55, and magnetic device 8 is across pedestal 72 with rotating shaft 55 and in the different space, office and discontiguous mutually.In the present embodiment, because magnetic device 8 is a magnetite, therefore can produce a suction F by countershaft 55.When the coil 62 of stator module 6 is excitatory with electric power, magnetic force produces magnetic force via pole piece 63 with the tape 53 of rotor assembly 5, make rotor assembly 5 rotate, and the rotating shaft 55 of rotor assembly 5 is because the attraction of magnetic device 8, rotor assembly 5 just can not float, shake.

By seeing on Fig. 3 a and the 3b, the magnetic force center B ' of the magnetic force center A of tape 53 and pole piece 63 is on same horizontal line, downward suction F by magnetic device 8 countershafts 55 of the present invention, just can prevent that rotor assembly 5 from upwards suspending, make that the running of radiation fan can be more smooth-going, simultaneously, also can make radiation fan run up or turn round more stablely during anti-the dress.In addition, owing to do not need the active force of part tape 53 and pole piece 63 as suction downwards, so can increase the running speed of radiation fan significantly.

In addition, the size dimension of magnetic device 8 is also unrestricted, and is visual required and get suitable size.Magnetic device 8 not only can attract rotor assembly 5, can also help 55 pairs of centers of rotating shaft of rotor assembly 5, with the abrasion of minimizing bearing 61, and then the life-span of increase radiation fan.

Second embodiment

Fig. 3 c and 3d are the internal structure schematic representation that shows the radiation fan of second embodiment of the invention, and the part identical with first embodiment will repeat no more.And its difference is, in the present embodiment, the magnetic force center A of tape 53 ' is the magnetic force center B ' a little more than pole piece 63, therefore, after rotor assembly 5 rotates, the magnetic field in 62 ring weeks of coil is when driving rotor assembly 5 rotations, can produce a suction to tape 53 ' again, the holdback force that this suction and then formation pull down rotor assembly 5, add the downward suction F of magnetic device 8 countershafts 55, the suspending power that rotor assembly 5 will be made progress reduces to minimum, so that the running of radiation fan is more smooth-going, simultaneously, radiation fan is being run up or anti-dress time running more stable.

The 3rd embodiment

Fig. 4 a and 4b are the internal structure schematic representation that shows the radiation fan of third embodiment of the invention, and the part identical with first embodiment will repeat no more.And its difference is, in the present embodiment, magnetic device 8 is that the pedestal 72 that is positioned over housing 7 ' is exposed in the outer lip-deep shrinkage pool 71, and with respect to the position of rotating shaft 55, and magnetic device 8 and rotating shaft 55 are across pedestal 72 and in the different spaces of office and discontiguous mutually.

By seeing on Fig. 4 a and the 4b, the magnetic force center B ' of the magnetic force center A of tape 53 and pole piece 63 is on same horizontal line, downward suction F by magnetic device 8 countershafts 55 of the present invention, just can prevent that rotor assembly 5 from upwards suspending, make that the running of radiation fan can be more smooth-going, simultaneously, radiation fan is being run up or anti-dress time running more stable.In addition, owing to do not need the active force of part tape 53 and pole piece 63 as suction downwards, so can increase the running speed of radiation fan significantly

Simultaneously, on housing 7 ', can also attach layer protective layer 9, in order to protection magnetic device 8.The material of this protective layer 9 can be the scraps of paper, layer of metal layer or one deck plastic layer.

The 4th embodiment

Fig. 4 c and 4d are the internal structure schematic representation that shows the radiation fan of fourth embodiment of the invention, the part identical with the 3rd embodiment will repeat no more, and its difference is, in the present embodiment, the magnetic force center A of tape 53 ' is the magnetic force center B ' a little more than pole piece 63, therefore, after rotor assembly 5 rotates, the magnetic field in 62 ring weeks of coil is when driving rotor assembly 5 rotations, can produce a suction to tape 53 ' again, the holdback force that this suction and then formation pull down rotor assembly 5, add the downward suction F of magnetic device 8 countershafts 55, the suspending power that rotor assembly 5 will be made progress reduces to minimum, so that the running of radiation fan is more smooth-going, simultaneously, radiation fan is being run up or anti-dress time running more stable.

Though the present invention discloses as above with several preferred embodiments; yet it is not in order to limit the present invention; any person skilled in the art person without departing from the spirit and scope of the present invention; still can do all equivalence and change and replace, so protection scope of the present invention is when looking being as the criterion that accompanying Claim defines.

Claims

1. radiation fan comprises:

One housing comprises a pedestal;

Stator group spare is connected with this housing;

One rotor assembly comprises a rotating shaft; And

One magnetic device is arranged on this pedestal the position with respect to this rotating shaft, and this magnetic device and this rotating shaft are across this pedestal and in the different space, office and do not contact mutually, and this magnetic device attracts this rotating shaft.

2. radiation fan as claimed in claim 1 is characterized in that, this magnetic device comprises a magnetite, and this rotating shaft is made by magnetic conductive material, and this magnetite attracts this rotating shaft.

3. radiation fan as claimed in claim 1 is characterized in that this pedestal has a shrinkage pool, in order to place this magnetic device.

4. radiation fan as claimed in claim 1 is characterized in that also comprising a protective layer, is arranged at this housing in order to cover this magnetic device.

5. radiation fan as claimed in claim 4 is characterized in that, this protective layer is scraps of paper, a metal layer or is a plastic layer.

6. radiation fan as claimed in claim 1 is characterized in that, this rotor assembly also comprises a flabellum shell, a metallic case and a tape, and this metallic case is located on this flabellum shell inboard and this tape loop is located at this metallic case inboard.

7. radiation fan as claimed in claim 6 is characterized in that, this stator module comprises a coil and a pole piece, and this coil is around on this pole piece, and this tape loop is around this coil and this pole piece.

8. radiation fan as claimed in claim 7 is characterized in that, the magnetic force center of this tape is the magnetic force center that is higher than this pole piece, or the magnetic force center of this tape is that magnetic force with this pole piece is centered close on the same horizontal line.

9. radiation fan as claimed in claim 6 is characterized in that, this flabellum shell is ring-type and comprises at least one flabellum, is arranged at the outer periphery of this flabellum shell.