CN204205755U - Rotor and motor - Google Patents

Rotor and motor Download PDF

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Publication number
CN204205755U
CN204205755U CN201420623680.8U CN201420623680U CN204205755U CN 204205755 U CN204205755 U CN 204205755U CN 201420623680 U CN201420623680 U CN 201420623680U CN 204205755 U CN204205755 U CN 204205755U
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CN
China
Prior art keywords
armature spindle
rotor
rotor core
protruding annular
annular knurl
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CN201420623680.8U
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Chinese (zh)
Inventor
黄男
吴雨顺
周成海
刘丽刚
陈鹤碧
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Zhuhai Gree Energy Saving Environmental Protection Refrigeration Technology Research Center Co Ltd
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Zhuhai Gree Energy Saving Environmental Protection Refrigeration Technology Research Center Co Ltd
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Priority to CN201420623680.8U priority Critical patent/CN204205755U/en
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Abstract

The utility model discloses a kind of rotor and motor, wherein, rotor comprises rotor core and is sleeved on the armature spindle (100) in described rotor core, the region coordinated with described rotor core of described armature spindle (100) is provided with protruding annular knurl (110), and described protruding annular knurl (110) is not parallel with the center line of described armature spindle (100).The utility model by arranging protruding annular knurl (110) on armature spindle (100), armature spindle (100) is coordinated with rotor core by protruding annular knurl (110), avoid in circumference engagement process because the magnitude of interference is excessive or the too small drawback caused, do not increasing under armature spindle (100) enters the prerequisite of rotor core difficulty, increase the magnitude of interference between armature spindle (100) and rotor core, add the difficulty that axial relative displacement occurs for rotor core and armature spindle (100), effectively prevent the generation falling or test bad phenomenon of rotor.

Description

Rotor and motor
Technical field
The utility model relates to machine field, particularly relates to a kind of rotor and comprises the motor of this rotor.
Background technology
At present, the armature spindle on market and the fit system of rotor core mainly interference fit, by cold pressing or armature spindle to be pressed into the axis hole of rotor core by the technique such as hot jacket.There is following drawback in this fit system: if magnitude of interference design is too large, armature spindle enters rotor core can be very difficult, even cannot enter; If magnitude of interference design is too little, then after armature spindle enters rotor core, cooperation defective tightness therebetween, can produce larger displacement between armature spindle and rotor core, easily causes rotor to fall or tests bad.
Patent CN 102244424A discloses a kind of rotor of electric rotating machine, and this rotor possesses: axle, and is embedded in the core body of outer peripheral face of this axle; Be embedded in the outer peripheral face of fitting portion of axle belonging to described core body, be provided with annular knurl processing and the raised line along Axis Extension that formed, in the peripheral wall surfaces of the embedded hole of the described core body embedded for described axle, be provided with the holding section with described raised line equal number.The rotor of above-mentioned electric rotating machine by the engaging of holding section and raised line, although limit the relative rotation circumferentially of axle and core body, on the axial direction of axle and core body, be easy to relative displacement occurs, thus cause rotor to fall or test bad.
Utility model content
The utility model provides a kind of rotor and motor, under not increasing armature spindle and entering the prerequisite of the difficulty of rotor core, increases and coordinates compactness between armature spindle with rotor core, add the difficulty that axial displacement occurs between armature spindle and rotor core.
For achieving the above object, the utility model adopts following technical scheme:
A kind of rotor, comprise rotor core and be sleeved on the armature spindle in described rotor core, the region that described armature spindle coordinates with described rotor core is provided with protruding annular knurl;
The center line of described protruding annular knurl and described armature spindle is not parallel.
Wherein in an embodiment, described protruding annular knurl is many.
Wherein in an embodiment, described in every bar, protruding annular knurl runs through the region that described armature spindle coordinates with described rotor core.
Wherein in an embodiment, the two ends of protruding annular knurl described in every bar all extend to the outside of described armature spindle and described rotor core mating area.
Wherein in an embodiment, described many protruding annular knurls are not parallel to each other between any two.
Wherein in an embodiment, described many protruding annular knurls mutually disjoint at the mating area of described armature spindle and described rotor core.
Wherein in an embodiment, adjacent two described protruding annular knurls are splayed structure.
Wherein in an embodiment, the minimum spacing of adjacent two described protruding annular knurls is 1mm ~ 2mm, and the maximum spacing of adjacent two described protruding annular knurls is 5mm ~ 6mm.
A kind of motor, comprises above-mentioned rotor.
The utility model comprises following beneficial effect:
Armature spindle of the present utility model is provided with protruding annular knurl, armature spindle is coordinated with rotor core by protruding annular knurl, replace traditional circumference to coordinate, avoid in circumference engagement process because the magnitude of interference is excessive or the too small drawback caused, under not increasing armature spindle and entering the prerequisite of rotor core difficulty, increase the magnitude of interference therebetween, reach and increase the elastic module of mating surface and the object of stiction, strengthen and coordinate compactness between armature spindle with rotor core; Meanwhile, because the center line of protruding annular knurl and armature spindle is not parallel, thus add the difficulty that axial displacement occurs between armature spindle and rotor core, effectively prevent the generation falling or test bad phenomenon of rotor; Further, the cooperation of armature spindle of the present utility model and rotor core, without the need to having been come with the engaging of holding section by the raised line in such as patent CN 102244424A, is greatly reduced the assembly difficulty of rotor, improves assembling speed.
Accompanying drawing explanation
Fig. 1 is the structural representation of rotor rotor axle one embodiment of the present utility model;
Fig. 2 is the front view of armature spindle shown in Fig. 1;
Fig. 3 is the end view of armature spindle shown in Fig. 1.
Embodiment
The utility model is described in detail below in conjunction with embodiment.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.
See Fig. 1 to Fig. 3, the utility model provides a kind of rotor, comprises rotor core and is sleeved on the armature spindle 100 in rotor core.Wherein, the region coordinated with rotor core of armature spindle 100 is provided with protruding annular knurl 110, and protruding annular knurl 110 is not parallel with the center line (axis) of armature spindle 100.
Rotor main of the present utility model will be improved on armature spindle 100, on the basis of conventional rotors axle, armature spindle 100 of the present utility model is provided with protruding annular knurl 110 on the region of matching with rotor core, under not increasing armature spindle 100 and entering the prerequisite of iron core difficulty, add armature spindle 100 with the magnitude of interference between rotor core and coordinate compactness, thus increase elastic module and the stiction of mating surface, effectively prevent the generation falling or test bad phenomenon of rotor; Simultaneously, because protruding annular knurl 110 is not parallel with the center line of armature spindle 100, axial relative displacement is there is to armature spindle 100 and rotor core, the shaft hole inner wall of rotor core need be made to produce new elastic deformation, this adds increased the difficulty that axial relative displacement occurs for rotor core and armature spindle 100, improve the stability of cooperation, prevent the generation falling or test bad phenomenon of rotor further; Further, the cooperation of armature spindle 100 of the present utility model and rotor core, without the need to having been come with the engaging of holding section by the raised line in such as patent CN 102244424A, is greatly reduced the assembly difficulty of rotor, improves assembling speed.
In above-mentioned armature spindle 100, the quantity of protruding annular knurl 110 can be one or more, is preferably many.When protruding annular knurl 110 is many, the magnitude of interference between armature spindle 100 and rotor core can be increased greatly, and then increase elastic module and the stiction of contact-making surface.
Usually, at armature spindle 100 with in the mating area of rotor core, the area of protruding annular knurl 110 is larger, more can increase elastic module and the stiction of contact-making surface.As preferably, the protruding annular knurl 110 of every bar all runs through the region that armature spindle 100 coordinates with rotor core.Which can ensure that all punchings on rotor core can be coordinated with armature spindle 100 by protruding annular knurl 110, adds the compactness of cooperation.
More preferably, the two ends of the protruding annular knurl 110 of every bar all extend to outside the mating area of armature spindle 100 and rotor core, and namely the length in armature spindle 100 projection annular knurl 110 region is greater than the length of mating area.As shown in Figure 2, the region corresponding to d1 is armature spindle 100 and the mating area of rotor core to embodiment corresponding to which, the region of the region corresponding to d2 corresponding to protruding annular knurl 110, and the length of d2 is slightly larger than the length of d1.
Meanwhile, along protruding annular knurl 110, side transposition occurs to prevent armature spindle 100 and rotor core and move, preferably, many protruding annular knurls 110 are not parallel to each other between any two, namely must not be parallel along the axle side of armature spindle 100 between the protruding annular knurl 110 of each bar.In this approach, to armature spindle 100 and rotor core generation relative displacement, the shaft hole inner wall of rotor core then not only will be made to produce new elastic deformation, and deformation region can constantly be extruded, and thus further increases the difficulty that relative displacement occurs by the protruding annular knurl 110 of each bar.
Further, many protruding annular knurls 110 mutually disjoint at the mating area of armature spindle 100 with rotor core, and namely many protruding annular knurls 110 can not be designed to netted annular knurl.Prevent the shaft hole inner wall of rotor core from contacting with many protruding annular knurls 110 with on the position of armature spindle 100 centerline parallel a certain, avoid the deformation quantity of consequent rotor core to increase, and the situation that amount of elastic deformation reduces occurs.
As depicted in figs. 1 and 2, as a kind of embodiment, adjacent two protruding annular knurls 110 are splayed structure.In which, the spacing of adjacent two annular knurls passes through and gradually changes, and effectively reduces the probability that relative displacement occurs along protruding annular knurl 110 direction rotor core on armature spindle 100 centerline direction.To there is relative displacement, the inside of rotor core axis hole not only will produce new elastic deformation, and deformation region can constantly be extruded by the splayed structure annular knurl that spacing gradually changes, thus adds the difficulty that relative displacement occurs.
In order to increase the stiction of the contact-making surface of armature spindle 100 and rotor core, when adjacent two protruding annular knurls 110 are splayed structure, the minimum spacing of adjacent two protruding annular knurls 110 is 1mm ~ 2mm, and maximum spacing is 5mm ~ 6mm.From splay structure, the minimum spacing of adjacent two protruding annular knurls 110 and maximum spacing lay respectively at splay two ports.
It should be noted that, above-mentioned maximum spacing or minimum spacing all refer to the camber line distance on a certain longitudinal section of armature spindle 100, but not air line distance.
Rotor of the present utility model, armature spindle 100 is provided with protruding annular knurl 110, matched with rotor core by protruding annular knurl 110, under not increasing armature spindle 100 and entering the prerequisite of rotor core difficulty, increase armature spindle 100 and the difficulty of rotor core generation relative displacement, effectively prevent the generation falling or test bad phenomenon of rotor.
In addition, the utility model additionally provides a kind of motor comprising above-mentioned rotor.Owing to adopting above-mentioned rotor, therefore, compared with traditional motor, motor of the present utility model has higher efficiency of assembling, and stronger structural stability, better can realize its running.
The above embodiment only have expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.

Claims (9)

1. a rotor, comprise rotor core and be sleeved on the armature spindle (100) in described rotor core, it is characterized in that, the region coordinated with described rotor core of described armature spindle (100) is provided with protruding annular knurl (110);
Described protruding annular knurl (110) is not parallel with the center line of described armature spindle (100).
2. rotor according to claim 1, is characterized in that, described protruding annular knurl (110) is many.
3. rotor according to claim 2, is characterized in that, described in every bar, protruding annular knurl (110) runs through the region that described armature spindle (100) coordinates with described rotor core.
4. rotor according to claim 3, is characterized in that, the two ends of protruding annular knurl (110) described in every bar all extend to the outside of described armature spindle (100) and described rotor core mating area.
5. rotor according to claim 2, is characterized in that, described many protruding annular knurls (110) are not parallel to each other between any two.
6. rotor according to claim 2, is characterized in that, described many protruding annular knurls (110) are mutually disjointed at the mating area of described armature spindle (100) with described rotor core.
7. rotor according to claim 2, is characterized in that, adjacent two described protruding annular knurls (110) are splayed structure.
8. rotor according to claim 7, is characterized in that, the minimum spacing of adjacent two described protruding annular knurls (110) is 1mm ~ 2mm, and the maximum spacing of adjacent two described protruding annular knurls (110) is 5mm ~ 6mm.
9. a motor, is characterized in that, comprises the rotor described in any one of claim 1 ~ 8.
CN201420623680.8U 2014-10-24 2014-10-24 Rotor and motor Active CN204205755U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420623680.8U CN204205755U (en) 2014-10-24 2014-10-24 Rotor and motor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420623680.8U CN204205755U (en) 2014-10-24 2014-10-24 Rotor and motor

Publications (1)

Publication Number Publication Date
CN204205755U true CN204205755U (en) 2015-03-11

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CN201420623680.8U Active CN204205755U (en) 2014-10-24 2014-10-24 Rotor and motor

Country Status (1)

Country Link
CN (1) CN204205755U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105529846A (en) * 2014-10-24 2016-04-27 珠海格力节能环保制冷技术研究中心有限公司 Rotor and motor

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105529846A (en) * 2014-10-24 2016-04-27 珠海格力节能环保制冷技术研究中心有限公司 Rotor and motor

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