CN204089374U - The mounting structure of motor magnet and motor - Google Patents

Abstract

The utility model is applicable to machine field, disclose mounting structure and the motor of motor magnet, the mounting structure of motor magnet comprises the mounting structure of motor magnet, comprise cage rotor and magnet, cage rotor comprises rotor core and is located at first end ring of rotor core one end, first end ring has the first axial end back to rotor core, magnet comprises several magnetic poles spaced apart, first axial end is arranged with the storage tank that quantity is equal with number of magnetic poles and along the circumferential direction spaced apart, each magnetic pole is individually fixed in each storage tank.It reduces the axial space that magnet takies at motor internal on the one hand, is beneficial to the automated production of stator module; Improve the degree flexible for installation of Hall element on the other hand; Avoid on the one hand again and be fixed magnet and cause the generation of the phenomenon of rotating shaft course of processing complexity because processing seamed edge in rotating shaft and be fixed because dripping glue in rotating shaft the phenomenon that magnet causes bearing useful life short.

Description

The mounting structure of motor magnet and motor

Technical field

The utility model belongs to machine field, particularly relates to the mounting structure of motor magnet and has the motor of this mounting structure.

Background technology

As shown in Figure 4, existing have in the motor of magnet ring 2 ', its magnet ring 2 ' is generally set to the cylinder-like structure of integral type, and it is generally separately mounted on the different shaft part places of rotating shaft 3 ' from rotor 1 ', namely magnet ring 2 ' is directly installed in rotating shaft 3 ', meanwhile, magnet ring 2 ' generally needs to carry out axial location by split washer 4 ' after being installed on rotating shaft 3 ' above.The mounting structure of existing magnet ring 2 ' has the following disadvantages in a particular application:

1) magnet ring 2 ' is directly installed in rotating shaft 3 ', occupies the axial space that motor internal is larger, thus causes the hall sensing face of Hall element 6 ' to be set to radial direction; And hall sensing face is when being radial, Hall element 6 ' can only vertically insert in BMC shell (plastic shell) 5 ', and then causes the degree flexible for installation of Hall element 6 ' lower;

2) internal structure of motor is compact, and be unfavorable for increases the part that other are convenient to automated production on stator winding 8 ', thus is unfavorable for the automated production of stator module;

3) rotating shaft 3 ' needs processing seamed edge to be fixed magnet ring 2 ', thus cause the rotating shaft 3 ' course of processing complicated; Or need drip glue in rotating shaft 3 ' and be fixed magnet ring 2 ', glue has the hidden danger dropped on bearing 7 ', and then have a strong impact on the useful life of bearing 7 ';

4) magnet ring 2 ' is set to the cylinder-like structure of integral type, and its material cost is high.

Utility model content

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, provide the mounting structure of motor magnet and there is the motor of this mounting structure, its be intended to solve existing motor magnet ring is directly installed on rotating shaft causes Hall element degree flexible for installation low, be unfavorable for stator module automated production and the rotating shaft course of processing is complicated or bearing useful life is short technical problem.

For achieving the above object, the technical solution adopted in the utility model is: the mounting structure of motor magnet, comprise cage rotor and magnet, described cage rotor comprises rotor core and is located at first end ring of described rotor core one end, described first end ring has the first axial end back to described rotor core, described magnet comprises several magnetic poles along the circumferential direction spaced apart, described first axial end is arranged with quantity storage tank equal with described number of magnetic poles and along the circumferential direction spaced apart, each described magnetic pole is individually fixed in each described storage tank.

Preferably, each described magnetic pole is inserted respectively by interference fit card and is fixed in each described storage tank.

Preferably, each described magnetic pole is also bonded and fixed in each described storage tank respectively by bond.

Particularly, described rotor core has the contact end face with described first end loop contacts, described first end ring has internal ring wall and external annulus, and described internal ring wall encloses formation inner chamber with the described end face that contacts, and each described storage tank is all located between described internal ring wall and described external annulus.

Preferably, described storage tank is less than described magnetic pole along the axially extended height of described first end ring along described first axial end towards the degree of depth that side, described rotor core place is recessed.

More preferably, described storage tank is greater than described magnetic pole along 1/2nd of the axially extended height of described first end ring along described first axial end towards the degree of depth that side, described rotor core place is recessed.

Preferably, each described storage tank is along the circumferential direction evenly spacedly distributed on described first axial end.

Preferably, the quantity of described magnetic pole be greater than two even number.

Particularly, described cage rotor also comprises the second end ring of being located at the described rotor core other end and several are located at sliver on rotor core, and the two ends of each described sliver connect described first end ring and described second end ring respectively.

The mounting structure of the motor magnet that the utility model provides, by magnet being divided into several magnetic poles spaced apart, and especially by the storage tank equal with number of magnetic poles of magnitude setting on the first axial end of the first end ring, each magnetic pole is individually fixed in each storage tank, thus effectively can realizes the installation of magnet on cage rotor and fix.The each magnetic pole forming magnet is installed in each storage tank of cage rotor by the utility model respectively, the axial space that magnet takies at motor internal can be effectively reduced on the one hand, provide chance to increasing other parts being convenient to automated production on stator winding, thus be beneficial to the automated production of stator module; Make Hall element not only can be placed horizontally in motor but also can be vertically placed in motor on the other hand, improve the degree flexible for installation of Hall element dramatically; Avoid on the one hand again and be fixed magnet and cause the generation of the phenomenon of rotating shaft course of processing complexity because processing seamed edge in rotating shaft and be fixed because dripping glue in rotating shaft the phenomenon that magnet causes bearing useful life short; Meanwhile, magnet is divided into several discrete magnetic poles by it, is set to the mode of one cylinder-like structure, effectively can reduces the integral material consumption of magnet relative to existing magnet, and then is beneficial to the material cost reducing magnet.

The utility model additionally provides motor, and it comprises the mounting structure of above-mentioned motor magnet.

The motor that the utility model provides, owing to have employed the mounting structure of above-mentioned motor magnet, therefore, be beneficial to the automated production degree improving motor, and improve the degree flexible for installation of Hall element, simplify the course of processing of rotating shaft, fully ensure that the useful life of bearing.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the mounting structure of the motor magnet that the utility model embodiment provides;

Fig. 2 is the schematic diagram after removing magnet in Fig. 1;

Fig. 3 is the right view of Fig. 2;

Fig. 4 is the schematic diagram of the mounting structure of the motor magnet that prior art provides.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figures 1 to 3, the mounting structure of the motor magnet that the utility model embodiment one provides, comprise cage rotor 1 and magnet, cage rotor 1 comprises rotor core 11 and is located at first end ring 12 of rotor core 11 one end, first end ring 12 has the first axial end 121 back to rotor core 11, magnet comprises several magnetic poles along the circumferential direction spaced apart 2, first axial end 121 is arranged with the storage tank 122 that quantity is equal and along the circumferential direction spaced apart with magnetic pole 2 quantity, each magnetic pole 2 is individually fixed in each storage tank 122.The each magnetic pole 2 forming magnet is installed in each storage tank 122 of cage rotor 1 by the present embodiment respectively, the axial space that magnet takies at motor internal can be effectively reduced on the one hand, provide chance to increasing other parts being convenient to automated production in stator winding (not shown), thus be beneficial to the automated production of stator module (not shown); Make Hall element (not shown) not only can be placed horizontally in motor but also can be vertically placed in motor on the other hand, improve the degree flexible for installation of Hall element dramatically; Avoid on the one hand again and be fixed magnet and cause the generation of the phenomenon of rotating shaft 3 course of processing complexity because processing seamed edge in rotating shaft 3 and be fixed because dripping glue in rotating shaft 3 phenomenon that magnet causes bearing (not shown) useful life short; Meanwhile, magnet is divided into several discrete magnetic poles 2 by it, can be beneficial to the integral material consumption reducing magnet, and then is beneficial to the material cost reducing magnet.

Particularly, each magnetic pole 2 is inserted respectively by interference fit card and is fixed in each storage tank 122, like this, effectively can realize the installation of magnetic pole 2 in storage tank 122 to fix, its installation process is simple, installation steadiness is high, and can not need to increase any retaining element due to it, therefore, be beneficial to the mounting process simplifying magnetic pole 2.Of course, in embody rule, in order to improve the solid and reliable property that magnetic pole 2 is installed at storage tank 122 further, magnetic pole 2 is also bonded and fixed in storage tank 122 by bond (not shown) such as glue; Because the bonds such as glue are not herein add in rotating shaft 3, therefore it is beneficial to the phenomenon avoiding glue to drop on bearing and occurs.

Or, each magnetic pole 2 is inserted respectively by gap fiting mode or interference fits mode card and is fixed in each storage tank 122, and each magnetic pole 2 is also bonded and fixed in each storage tank 122 by bond (not shown) such as glue respectively, like this, also can realize the installation of magnetic pole 2 in storage tank 122 to fix.

Particularly, as shown in Figures 1 to 3, rotor core 11 has the contact end face 111 contacted with the first end ring 12, first end ring 12 has internal ring wall 123 and external annulus 124, internal ring wall 123 with contact end face 111 and enclose and form inner chamber 125, each storage tank 122 is along the circumferential direction located between internal ring wall 123 and external annulus 124.The present embodiment, magnetic pole 2 is arc block structure, storage tank 122 corresponds to deep-slotted chip breaker, storage tank 122 is specifically by kerve wall 1221, first side channel wall 1222, second side channel wall 1223, 3rd side channel wall 1224 and the 4th side channel wall 1225 enclose formation, first side channel wall 1222 and the second side channel wall 1223 are oppositely arranged, and the first side channel wall 1222 is arranged near the external annulus 124 of the first end ring 12, second side channel wall 1223 is arranged near the internal ring wall 124 of the first end ring 12, first side channel wall 1222 and the second side channel wall 1223 are arcwall face, 3rd side channel wall 1224 and the 4th side channel wall 1225 are oppositely arranged.Magnetic pole 2 is installed on after in storage tank 122, each sidewall of magnetic pole 2 fit respectively be resisted against storage tank 122 the first side channel wall 1222, second side channel wall 1223, the 3rd side channel wall 1224 and the 4th side channel wall 1225 on, the end face towards rotor core 11 of magnetic pole 2 is resisted against on the kerve wall 1221 of storage tank 122.It is spacing that the present embodiment carries out difference by each sidewall of storage tank 122 pairs of magnetic poles 2, can reach the object of effectively restriction magnetic pole 2 moving displacement in storage tank 122, thus be beneficial to and improve magnetic pole 2 and be installed on solid and reliable property in storage tank 122.

Preferably, as shown in Figure 1, storage tank 122 is less than each magnetic pole 2 along the axially extended height of the first end ring 12 along the first axial end 121 towards the degree of depth that side, rotor core 11 place is recessed, like this, magnetic pole 2 is installed on after in storage tank 122 and has the resettlement section 21 be axially contained in storage tank 122 and the convex dew portion 22 axially protruded from outside storage tank 122.The setting in convex dew portion 22, is beneficial to Hall element and responds to Magnetic Field on magnetic pole 2 better, thus be beneficial to the accuracy improving Hall element Detection Information.Of course, in embody rule, also can by storage tank 122 along the first axial end 121 depth design recessed towards side, rotor core 11 place for being equal to or slightly less than magnetic pole 2 along the axially extended height of the first end ring 12, like this, magnetic pole 2 is installed on after in storage tank 122 only has the resettlement section 21 be contained in storage tank 122, and not there is the convex dew portion 22 protruded from outside storage tank 122, the accuracy of its Hall element Detection Information is relatively low.

More preferably, storage tank 122 is greater than magnetic pole 2 along 1/2nd of the axially extended height of the first end ring 12 along the first axial end 121 towards the degree of depth that side, rotor core 11 place is recessed, like this, magnetic pole 2 is installed on after in storage tank 122, axial height (resettlement section 21 is along the axially extended height of the magnet ring 2) L1 of its resettlement section 21 is greater than axial height (convex dew portion 22 is along the axially extended height of the magnet ring 2) L2 in convex dew portion 22, thus is beneficial to and ensures that magnetic pole 2 is installed on solid and reliable property in storage tank 122.

Preferably, each storage tank 122 is along the circumferential direction evenly spacedly distributed on the first axial end 121, like this, each magnetic pole 2 is installed on after in each storage tank 122 respectively, each magnetic pole 2, along the circumferential direction also for be evenly spacedly distributed, like this, is beneficial to the uniformity ensureing magnets magnetic fields distribution.

Preferably, the quantity of described magnetic pole 2 be greater than two even number, like this, be beneficial to and ensure the symmetry that along the circumferential direction distributes of each magnetic pole 2, thus be beneficial to the symmetry ensureing magnets magnetic fields distribution.

Particularly, as shown in Figure 1, cage rotor 1 also comprises the second end ring 13 of being located at rotor core 11 other end and several are located at sliver (not shown) on rotor core 11 in each rotor (not shown) respectively, the two ends of each sliver connect the first end ring 12 and the second end ring 13 respectively and form cage modle winding, and the second end ring 13 has the second axial end (figure does not indicate) back to rotor core 11.

Particularly, sliver can be aluminum strip or copper bar, and it specifically can casting.First end ring 12 and the second end ring 13 specifically all can be aluminium ring or copper ring.

Particularly, magnetic pole can axial charging, also can radial magnetizing, and the selection flexibility ratio of its mode of operation that magnetizes is high.

The utility model embodiment still provides motor, and it comprises the mounting structure of above-mentioned motor magnet.The motor that the utility model embodiment provides, owing to have employed the mounting structure of above-mentioned motor magnet, therefore, be beneficial to the automated production degree improving motor, and improve the degree flexible for installation of Hall element, simplify structure and the course of processing of rotating shaft 3, fully ensure that the useful life of bearing.

Particularly, motor also comprises rotating shaft 3, stator module (not shown), plastic shell (not shown), circuit board (not shown), Hall element (not shown), front end housing (not shown), rear end cap (not shown), fore bearing (not shown) and rear bearing (not shown), cage rotor 1 is installed in rotating shaft 3, stator module is sheathed on outside cage rotor 1, plastic shell plastic packaging is in stator module, outside circuit board and Hall element, front end housing and rear end cap are located at the two ends of plastic shell respectively, fore bearing and rear bearing are installed on the two ends of rotating shaft 3 respectively and are contained in front end housing and rear end cap respectively, cage rotor 1 is between fore bearing and rear bearing, first end ring 12 and Hall element are all arranged near rear bearing, second end ring 13 is arranged near fore bearing.

More specifically, the motor that the present embodiment provides is PG motor (motor that rotating speed is controlled by the silicon controlled angle of flow), and circuit board is PG plate.

Particularly, the present embodiment, Hall element can be placed horizontally in motor, also can be vertically placed in motor, and the degree flexible for installation of its Hall element is high, is beneficial to the structure optimizing motor.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace or improvement etc., all should be included within protection range of the present utility model.

Claims (10)

1. the mounting structure of motor magnet, comprise cage rotor and magnet, described cage rotor comprises rotor core and is located at first end ring of described rotor core one end, described first end ring has the first axial end back to described rotor core, it is characterized in that: described magnet comprises several magnetic poles along the circumferential direction spaced apart, described first axial end is arranged with quantity storage tank equal with described number of magnetic poles and along the circumferential direction spaced apart, each described magnetic pole is individually fixed in each described storage tank.

2. the mounting structure of motor magnet as claimed in claim 1, is characterized in that: each described magnetic pole is inserted respectively by interference fit card and is fixed in each described storage tank.

3. the mounting structure of motor magnet as claimed in claim 1 or 2, is characterized in that: each described magnetic pole is also bonded and fixed in each described storage tank respectively by bond.

4. the mounting structure of motor magnet as claimed in claim 1, it is characterized in that: described rotor core has the contact end face with described first end loop contacts, described first end ring has internal ring wall and external annulus, described internal ring wall encloses formation inner chamber, and each described storage tank is all located between described internal ring wall and described external annulus.

5. the mounting structure of the motor magnet as described in claim 1 or 2 or 4, is characterized in that: described storage tank is less than described magnetic pole along the axially extended height of described first end ring along described first axial end towards the degree of depth that side, described rotor core place is recessed.

6. the mounting structure of motor magnet as claimed in claim 5, is characterized in that: described storage tank is greater than described magnetic pole along 1/2nd of the axially extended height of described first end ring along described first axial end towards the degree of depth that side, described rotor core place is recessed.

7. the mounting structure of the motor magnet as described in claim 1 or 2 or 4, is characterized in that: each described storage tank is along the circumferential direction evenly spacedly distributed on described first axial end.

8. the mounting structure of the motor magnet as described in claim 1 or 2 or 4, is characterized in that: the quantity of described magnetic pole be greater than two even number.

9. the mounting structure of the motor magnet as described in claim 1 or 2 or 4, it is characterized in that: described cage rotor also comprises the second end ring of being located at the described rotor core other end and several are located at sliver on rotor core, and the two ends of each described sliver connect described first end ring and described second end ring respectively.

10. motor, is characterized in that: the mounting structure comprising the motor magnet as described in any one of claim 1 to 9.