CN202663265U

CN202663265U - Electromotor

Info

Publication number: CN202663265U
Application number: CN 201220303111
Authority: CN
Inventors: 草间健司
Original assignee: Sankyo Seiki Manufacturing Co Ltd
Current assignee: Nidec Instruments Corp
Priority date: 2011-06-27
Filing date: 2012-06-26
Publication date: 2013-01-09
Anticipated expiration: 2022-06-26
Also published as: CN102857054A; CN102857054B; JP2013009572A; JP5898864B2

Abstract

The utility model provides an electromotor which can prevent exciting current from flowing into a rotary shaft when a driving coil is subjected to excitation. The electromotor (1) is provided with a cylindrical stator iron core (32) and a rotary shaft (41) of magnets (42) for driving, wherein the cylindrical stator iron core (32) is used for carrying a driving coil (33); the rotary shaft (41) is made of ferric metal, is fixed on the outer peripheral side of the electromotor, and can be configured on the inner side of the stator iron core (32) in a rotary mode; the stator iron core (32) and the magnets (42) for driving are opposite to each other; and annular outer peripheral parts (41b and 41c), which are in the outer peripheral surface of the rotary shaft (41) and are adjacent to a fixed part (41a) of the magnet in the L direction of the axis of the electromotor, are covered by insulation adhesive tapes (51), and thus even though a stator (30) and a rotor (40) are close, an insulation distance from the driving coil (33) to the exposed part of the outer peripheral surface of the rotary shaft (41) also can be ensured, therefore, even though the driving coil (33) is subjected to excitation, an exciting current also can be prevented or suppressed from flowing into the rotary shaft (41) from the driving coil (33).

Description

Motor

Technical field

The utility model relates to and constitutes rotor is configured in the inboard of tubular stator in the mode that can rotate motor.

Background technology

The motor of above-mentioned formation is recorded in the patent documentation 1.In patent documentation 1, stator possesses stator core and the drive coil of ring-type, and wherein, equal angles equally spaced is provided with towards the outstanding a plurality of salient poles of radially inner side in the stator core of above-mentioned ring-type, and above-mentioned drive coil is wound onto on each salient pole by insulating element.Rotor possesses rotating shaft and is fixed on the driving magnet of the tubular of rotating shaft outer circumferential side.

Patent documentation 1: Japanese communique, JP 2009-290915 number

The utility model content

In order to seek upwards to make motor miniaturization in the footpath vertical with motor axis, require to dwindle the diameter of stator and dwindle stator and rotor interval diametrically.But, when under making the close state of stator and rotor that drive coil is excitatory, in the situation that rotating shaft is formed by the conductive material of Ferrious material etc., exciting current can occur flow into the such phenomenon of rotating shaft from drive coil via insulating element.When circulation had electric current in rotating shaft, the situation that exists this electric current to conduct in rotating shaft as noise for example, when rotating shaft is equipped with encoder (encoder) or brake, existed encoder or brake is brought the situation of impact.In addition, exist even the outside of motor is brought the situation of impact.

In view of above problem points, problem of the present utility model is, provides a kind of exciting current that can prevent when drive coil is excitatory to flow into the motor of rotating shaft.

In order to solve above-mentioned problem, motor of the present utility model is provided with: stator core, and it carries drive coil and is tubular; Rotating shaft, it is formed by conductive material; Drive and use magnet, it is fixed on the outer peripheral face part of above-mentioned rotating shaft, and, above-mentioned rotating shaft is configured in the inboard of said stator iron core in the mode that can rotate, unshakable in one's determination and the above-mentioned driving of said stator is diametrically opposed with magnet, it is characterized in that, in the outer peripheral face of above-mentioned rotating shaft, on the motor axis direction, divide adjacent circular outer periphery face portion to be insulated thing with the above-mentioned outer circumferential surface section that is covered with magnet by above-mentioned driving to cover.

According to the utility model, in the outer peripheral face of rotating shaft, on the motor axis direction, divide adjacent circular outer periphery face portion to be insulated thing with the outer circumferential surface section that is covered with magnet by the driving of tubular to cover.Therefore, even make the stator that possesses drive coil and stator core and when possessing rotating shaft and driving with the close state of the rotor of magnet forming, also can guarantee from being equipped on the insulation distance of drive coil till the exposed portions serve (both not driven the covering with magnet was not insulated the part that thing covers yet) of the outer peripheral face of rotating shaft in the stator core.Therefore, even when drive coil is excitatory, also can prevent or suppress exciting current and flow into the rotating shaft from drive coil.Therefore, can prevent from producing noise because of such electric current.

In the utility model, in order to utilize insulant the circular outer periphery face portion of rotating shaft is covered, preferred above-mentioned insulant is the insulating tape that is wound on the above-mentioned rotating shaft.In this situation, above-mentioned insulating tape for example is the glass fibre cloth rubber belt that has the heat-curable adhesive layer in its one side.

In the utility model, preferred above-mentioned insulating tape is wound onto above-mentioned driving and uses on the both ends of the surface and above-mentioned circular outer periphery face portion of magnet with the outer peripheral face of magnet, above-mentioned driving, thus above-mentioned driving is covered with both ends of the surface and the above-mentioned circular outer periphery face portion of magnet with the outer peripheral face of magnet, above-mentioned driving.By like this, for example, even occur owing to make from the impact of outside etc. and to drive with the such situation of magnet breakage, can prevent that also the driving after the breakage from dispersing in the inboard of stator with the fragment of magnet.Therefore, can prevent that fragment from hindering the rotation of motor.In addition, can prevent fragment damage stator.

In the utility model, the length of preferred above-mentioned insulating tape equates with distance till reverse pumping from the delivery side of the above-mentioned circular outer periphery face portion of the outlet side that is configured in above-mentioned rotating shaft to the above-mentioned circular outer periphery face portion of the anti-outlet side that is configured in above-mentioned rotating shaft goes out side, the width of above-mentioned insulating tape equates with the circumferential length of above-mentioned driving with magnet, and above-mentioned insulating tape is wound on continuously outer peripheral face, the above-mentioned driving of above-mentioned driving with magnet and is used on the both ends of the surface and above-mentioned circular outer periphery face portion of magnet.By like this, owing to can prevent from producing the insulating tape double-layer overlapping and the part of thickening at the outer peripheral face that drives with magnet, therefore, can make driving close with magnet and stator core.

In the utility model, for example above-mentioned rotating shaft possesses large diameter portion and middle path portion, above-mentioned large diameter portion in the length on the motor axis direction greater than above-mentioned driving with the length of magnet on the motor axis direction, above-mentioned driving is installed on the above-mentioned large diameter portion with one end and the above-mentioned large diameter portion mode consistent with the staggered floor face between the above-mentioned middle path portion with magnet, above-mentioned insulating tape covers the staggered floor face of above-mentioned large diameter portion and above-mentioned middle path portion, wherein, above-mentioned large diameter portion is equipped with above-mentioned driving magnet at outer circumferential side, above-mentioned middle path portion be connected with above-mentioned large diameter portion and its diameter less than above-mentioned large diameter portion.

In the utility model, above-mentioned insulating tape also can be to use on the both ends of the surface and above-mentioned circular outer periphery face portion of magnet with the outer peripheral face of magnet, above-mentioned driving in above-mentioned driving along the spiral mode continuous reeling of motor axis direction.

In the utility model, for example in above-mentioned driving with the both sides on the motor axis direction of magnet, be formed with circular end difference between above-mentioned driving is with magnet and above-mentioned rotating shaft, above-mentioned insulating tape is close on the above-mentioned circular end difference with the state along above-mentioned circular end difference.

In the utility model, preferred above-mentioned insulating tape is wound on above-mentioned rotating shaft and above-mentioned driving continuously with on the magnet, covers with magnet from the outside with above-mentioned driving thus.By like this, drive with the such situation of magnet breakage even make such as occuring because from the impact of outside etc., can prevent that also the driving after the breakage from dispersing in the inboard of stator with the fragment of magnet.Therefore, can prevent that fragment from hindering the rotation of motor.In addition, can prevent fragment damage stator.

In this situation, preferred above-mentioned driving is tubular with magnet, and above-mentioned driving is made of divided a plurality of magnetic sheet along the circumferential direction with magnet.By like this, can utilize insulating tape to prevent that the driving that is made of a plurality of magnetic sheets from splitting into one by one magnetic sheet with magnet.

In the utility model, preferably with the circular end face of magnet balance adjustment parts for the rotary balance of regulating rotor are installed in above-mentioned driving, and above-mentioned balance adjustment parts are covered by above-mentioned insulating tape.In addition, in this situation, more preferably above-mentioned balance adjustment parts are pressed against on the above-mentioned circular end face by above-mentioned insulating tape.By like this, can utilize insulating tape to prevent that the balance adjustment parts from coming off from rotor.In addition, even when the balance adjustment parts come off from rotor, also can utilize insulating tape to prevent that the balance adjustment parts are scattered.

In the utility model, preferred above-mentioned balance adjustment parts are bonding agent.By like this, can prevent that the balance adjustment parts from coming off from rotor.In addition, in this situation, preferably in above-mentioned bonding agent, be doped with metal.

In the utility model, can adopt the formation that is provided with encoder, wherein, above-mentioned encoder possesses: transducer magnet, it is installed on the shaft end of above-mentioned rotating shaft; Magneto sensor, it is relative and dispose with magnet with the sensor; Sensor base plate, it carries above-mentioned magneto sensor.Have in the motor of encoder at this, when generation current in rotating shaft, thereby exist this electric current to become noise and invade the situation that sensor base plate reduces the accuracy of detection of encoder.But in the utility model, the insulant that partly covers by the outer peripheral face with rotating shaft prevents generation current in rotating shaft, therefore, can prevent the noise that produces because of such electric current.Thus, the accuracy of detection of encoder is reduced.

(utility model effect)

In the utility model, since in the outer peripheral face of rotating shaft, on the motor axis direction, divide adjacent circular outer periphery face portion to be insulated thing with the driven outer circumferential surface section that covers with magnet to cover, therefore, even forming when making the close state of stator and rotor, also can guarantee from being equipped on the insulation distance of drive coil till the exposed portions serve of the outer peripheral face of rotating shaft in the stator core.Therefore, even when drive coil is excitatory, also can prevent or suppress exciting current and flow into the rotating shaft from drive coil.

Description of drawings

Fig. 1 is the key diagram of the outward appearance of the motor that relates to of expression execution mode of the present utility model, and at this, Fig. 1 (a) is the end view of motor, and Fig. 1 (b) is the rearview of observing motor from anti-outlet side.

Fig. 2 is the sectional arrangement drawing of the motor of Fig. 1.

Fig. 3 (a) is the sectional arrangement drawing of rotor, clutch shaft bearing and the second bearing, Fig. 3 (b) is the profile of the middle X-X ' line of Fig. 3 (a) of rotor, and Fig. 3 (c) amplifies the profile that represents with the periphery that is formed at rotating shaft and drive with the circular end difference between the magnet.

(symbol description)

1 motor

30 stators

33 drive coils

40 rotors

The circular end difference of 40a

41 rotating shafts

41a magnet standing part (outer peripheral face part)

41b, 41c circular outer periphery face portion

42 driving magnet

The 42a magnetic sheet

42b, 42c drive the circular end face with magnet

42d drives the circular circumference face with magnet

43 large diameter portions

Path portion in 44 first (middle path portion)

50 counterweights (balance adjustment parts)

51 insulating tapes

60 encoders

62 transducer magnet

63 magneto sensors

64 sensor base plates

Embodiment

Below, with reference to accompanying drawing the motor that execution mode of the present utility model relates to is described.In the following description, a side of motor axis direction is made as " anti-outlet side (opposition side of the outstanding side of rotating shaft) " and describes, the opposite side of motor axis direction is made as " outlet side (rotating shaft is given prominence to side) " describes.In addition, in the accompanying drawing of institute's reference, with " L " expression motor axis, with a side (anti-outlet side) of " L1 " expression motor axis direction, with the opposite side (outlet side) of " L2 " expression motor axis direction.

(whole formation)

Fig. 1 (a) is the end view of the motor that relates to of execution mode of the present utility model, and Fig. 1 (b) is the rearview of observing motor from anti-outlet side.Fig. 2 is the sectional arrangement drawing of motor.This routine motor 1 is the larger permanent-magnet type synchronous motor of output torque.As shown in Figure 1 and Figure 2, motor 1 possesses: motor field frame 10; Stator 30, it is formed at the inboard of motor field frame 10 and is tubular; Rotor 40, it is configured in the inboard of stator 30; Encoder 60, it is for detection of rotating speed or the angle position of rotor 40; Encoder lid 70, it is installed in the anti-outlet side L1 of motor field frame 10.

Motor field frame 10 possesses: cylindrical case 11, and its opening is towards motor axis L direction; Clutch shaft bearing retainer 12, it is configured in the anti-outlet side L1 of cylindrical case 11; The second retainer 13, it is configured in the outlet side L2 of cylindrical case 11.Clutch shaft bearing retainer 12 is kept for clutch shaft bearing 14, the second retainers 13 with the mode supporting rotor 40 that can rotate and is kept for the second bearing 15 with the mode supporting rotor 40 that can rotate.

Clutch shaft bearing retainer 12 is provided with distribution support plate 16 in the angle position around the regulation of motor axis L.Distribution support plate 16 possesses outstanding board 16a and fixing board 16b, wherein, above-mentioned outstanding board 16a is outstanding towards radial outside from clutch shaft bearing retainer 12, and above-mentioned fixedly board 16b is crooked and extend along the outer peripheral face of cylindrical case 11 towards outlet side L2 from the front end of outstanding board 16a.Lead to the feed line 17 in the outside from the inboard of motor field frame 10 and lead to the transducer output line 18 in the outside from the inboard of encoder lid 70, be fixed on fixedly on board 1 6b by bonding agent and strapping 19.

In addition, be tied the part that is fastened on the fixing board 16b with 19 in feed line 17 and the transducer output line 18, together covered by sleeve pipe (tube) 20 from outer circumferential side with fixing board 16b.Sleeve pipe 20 is with the heat-shrinkable tube heating and the parts after making it shrink curing.Be separately installed with

connector

21,22 on the leading section of feed line 17 and transducer output line 18.

Stator 30 possesses stator core 32 and the drive coil 33 of ring-type, wherein, equal angles equally spaced is provided with towards the outstanding a plurality of salient poles 31 of radially inner side in the stator core 32 of above-mentioned ring-type, and above-mentioned drive coil 33 is wound onto on each salient pole 31 by insulating element 30a.Stator core 32 is maintained on the inner peripheral surface of cylindrical case 11 towards the outstanding state of outlet side L2 with the opening of its part from cylindrical case 11.In the stator core 32 from the outstanding circular ledge 34 of cylindrical case 11, the second retainer 13 that is fixed on the fore-end of this circular ledge 34 covers.

At this, dispose the wiring substrate 35 that is connected with the coiling end of drive coil 33 at the anti-outlet side L1 of stator 30, be connected with feed line 17 at wiring substrate 35.This feed line 17 is led to the outside of motor field frame 10 via resinous lining (bush) 36 and is fixed on the distribution support plate 16, and wherein, above-mentioned resinous lining 36 is inserted among the notch 11a that is formed on the cylindrical case 11.

Rotor 40 possesses rotating shaft 41 and is fixed on the driving magnet 42 of the outer circumferential side of this rotating shaft 41.Rotor 40 is configured with the state of vacating minim gap between the salient pole 31 that drives with magnet 42 and stator core 32.In addition, utilize clutch shaft bearing 14 and the second bearing 15 that rotating shaft 41 is supported, thus so that rotor 40 can be in the interior sideway swivel of stator 30.The end of the outlet side L2 of rotating shaft 41 is outstanding laterally from motor field frame 10.

Encoder 60 possesses: transducer is with magnet 62, and it is installed in by magnet holder 61 on the shaft end of anti-outlet side L1 of rotating shaft 41; Magneto sensor 63, it is relative and dispose with magnet 62 with transducer on motor axis L; Sensor base plate 64, it carries magneto sensor 63.Sensor base plate 64 is fixed on the frame substrate 65, and this frame substrate 65 is installed on the end face of anti-outlet side L1 of clutch shaft bearing retainer 12.Transducer is configured on the motor axis L with magnet 62, magneto sensor 63 and sensor base plate 64.

Transducer is in the form of annular discs with magnet 62, and its circular end surface 62a towards anti-outlet side L1 becomes magnetic pole strength.Circular end surface 62a along the circumferential direction is divided into two parts, and is respectively equipped with a N utmost point and a S utmost point.Magneto sensor 63 is to be formed with the magnetoresistive element of magnetic resistance figure along orthogonal direction, and be installed on the outlet side L2 end face of sensor base plate 64 with transducer with on the relative position, the center of the circular end surface 62a of magnet 62.The electronic unit (not shown) of the semiconductor device that consists of rotation detection circuit etc. is installed at the face of the anti-outlet side L1 of sensor base plate 64.When transducer rotates a circle with magnet 62, from magneto sensor the A phase and B sine wave signal mutually in 63 two cycles of output.Rotation detection circuit is implemented to amplify to this A phase and B signal mutually and is processed or interpolation processing and output.

Encoder lid 70 is formed by magnetic material.In this example, encoder lid 70 is made by Ferrious material, and the cylindrical portion 72 that possesses rounded bottom 71 and extend towards outlet side L2 from the periphery of rounded bottom 71.Encoder lid 70 is installed on the clutch shaft bearing retainer 12 with the state that the anti-outlet side L1 of the end face of the outlet side L2 of cylindrical portion 72 and clutch shaft bearing retainer 12 connects.Encoder 60 is positioned at the inboard of encoder lid 70.

At this, the signal that is connected with for spinning in future testing circuit at sensor base plate 64 exports outside transducer output line 18 to.Transducer output line 18 is led to the outside of encoder lid 70 via lining 73 and is fixed on the distribution support plate 16, and wherein, above-mentioned lining 73 is inserted among the notch 70a on the cylindrical portion 72 that is formed at encoder lid 70.In addition, in Fig. 2, omitted the coupling part of transducer output line 18 and encoder 60.

(rotor)

With reference to Fig. 3 rotor 40 is at length described.Fig. 3 (a) is the sectional arrangement drawing of rotor 40, clutch shaft bearing 14 and the second bearing 15, Fig. 3 (b) is the profile of the middle X-X ' line of Fig. 3 (a) of rotor 40, and Fig. 3 (c) amplifies the profile that represents with the periphery that is formed at rotating shaft 41 and drive with the circular end difference between the magnet 42.

Rotating shaft 41 is made by Ferrious material and is had conductivity.Shown in Fig. 3 (a), rotating shaft 41 is arranged with the large diameter portion 43 that driving usefulness magnet 42 is installed at its outer circumferential side at the middle part of motor axis L direction.Greater than driving with the size of magnet 42 on motor axis L direction, the part of the outlet side L2 of large diameter portion 43 becomes the exposed portions serve 43a that exposes with magnet 42 from driving to large diameter portion 43 in the size on the motor axis L direction.

On the anti-outlet side L1 of the large diameter portion 43 of rotating shaft 41, with the mode that is connected with large diameter portion 43 be provided with diameter less than large diameter portion 43 first in path portion 44.In addition, in first on the anti-outlet side L1 of path portion 44, be provided with diameter less than the first path part 45 of path portion 44 in first in the mode that is connected with path portion 44 in first.In the first path part 45 with first in path portion 44 adjacent positions the collar 14a of the clutch shaft bearing 14 that is made of ball bearing is installed, this collar 14a is fixed on the rotating shaft 41 by back-up ring 46, wherein, above-mentioned back-up ring is embedded among the circumferential groove 45a that is formed on the first path part 45.On the anti-outlet side L1 of the first path part 45, be provided with the diameter minimum path portion 47 less than the first path part 45 in the mode that is connected with the first path part 45.Be fixed with the magnet holder 61 (with reference to Fig. 2) that keeps transducer to use magnet 62 on the minimum path portion 47.

On the outlet side L2 of the large diameter portion 43 of rotating shaft 41, with the mode that is connected with large diameter portion 43 be provided with diameter less than large diameter portion 43 second in path portion 48.In addition, in second on the outlet side L2 of path portion 48, be provided with diameter less than the second path part 49 of path portion 48 in second in the mode that is connected with path portion 48 in second.In second in the external diameter of path portion 48 and first external diameter of path portion 44 be same size.With the adjacent position of large diameter portion 43 the collar 15a of the second bearing 15 that is made of ball bearing is installed in second in the path portion 48.

Drive and to be tubular with magnet 42 integral body, and shown in Fig. 3 (b), dispose in the form of a ring a plurality of magnetic sheet 42a of along the circumferential direction bending and consist of.Drive on the outer peripheral face with magnet 42 and be implemented insulation coating.Shown in Fig. 3 (c), counterweight (balance adjustment parts) 50 that be used for to regulate the rotary balance of rotor 40 are fixed on the circular end face 42b that drives with the outlet side L2 of magnet 42 by bonding agent etc.

In this example, counterweight 50 is the doping metric density is large in bonding agent metals etc. and forming.In addition, both exist counterweight 50 to be installed in to drive with the situation on the circular end face 42c of the anti-outlet side L1 of magnet 42, and also existed counterweight 50 to be installed in situation on circular end face 42b, the 42c of outlet side L2 and these both sides of anti-outlet side L1.In addition, also there is the situation that a plurality of counterweights 50 are installed at each

circular end face

42b, 42c.

The outer peripheral face part at position between clutch shaft bearing 14 and the second bearing 15 in this rotor 40 is insulated adhesive tape 51 and covers.That is, in the outer peripheral face of rotating shaft 41, on motor axis L direction, be insulated adhesive tape 51 coverings with adjacent circular outer periphery face portion 41b, the 41c of driven magnet standing part (outer peripheral face part) 41a that covers with magnet 42 and the lateral surface that drives with magnet 42.

Say in further detail, being arranged on the large diameter portion 43 of rotating shaft 41 drive with the exposed portions serve 43a in magnet 42 outsides, with a part (circular outer periphery face portion 41b) that drives with magnet 42 sides adjacent, and the part (circular outer periphery face portion 41c) with driving with magnet 42 sides adjacent in the outer peripheral face of path portion 44 is insulated adhesive tape 51 coverings in first.In addition, driving is insulated adhesive tape 51 coverings with circular end face 42c and the circular circumference face 42d (driving with the relative outer peripheral face of fore-end magnet 42 and salient pole 31 stator core 32) of circular end face 42b, the anti-outlet side L1 of the outlet side L2 of magnet 42.

And then, be installed in driving and also be insulated adhesive tape 51 coverings from the outside with the counterweight 50 on the circular end face 42b of magnet 42.In addition, drive with magnet 42 and be installed on the large diameter portion 43 of rotating shaft 41 in the consistent mode of staggered floor face between the path portion 44 in the circular end face 42c of anti-outlet side L1 and the large diameter portion 43 and first, and the staggered floor face between the path portion 44 also is insulated adhesive tape 51 coverings in large diameter portion 43 and first.

Insulating tape 51 is the glass fibre cloth rubber belts that have the heat-curable adhesive layer in its one side.At this, utilizing insulating tape 51 to cover circular outer periphery face portion 41b, the 41c of rotating shaft 41, when driving with circular end face 42b, the 42c of magnet 42 and circular circumference face 42d, insulating tape 51 is wound on rotating shaft 41 continuously and drives with on the magnet 42.

Say in further detail, prepare to have the length dimension corresponding with insulated part and the adhesive tape of width dimensions as insulating tape 51.Namely, prepare following such insulating tape 51, namely, have with motor axis L direction on the anti-outlet side L1 from circular outer periphery face portion 41c hold the corresponding length dimension of size till the outlet side L2 of the circular outer periphery face portion 41b end, and have and drive with the corresponding width dimensions of the circumferential size of magnet 42.Then, so that circular outer periphery face portion 41b, circular outer periphery face portion 41c and the driving of rotating shaft 41 are reeled with the modes that magnet 42 covers continuously.

By like this, owing to produce insulating tape 51 double-layer overlappings and the part of thickening can prevent from reeling insulating tape 51 time, therefore, can make stator 30 and rotor 40 close.In addition, owing to need not to manage the thickness of insulating tape 51 double-layer overlappings part, therefore, the operability during coiling insulating tape 51 improves.In addition, with the elongated insulating tape of preparing fixed width as insulating tape 51, and this insulating tape reeled in the shape of a spiral continuously along motor axis L direction, thus insulated part (circular outer

periphery face portion

41b, 41c) and the driving of rotating shaft 41 are compared with the continuous situation about covering of the insulated part (circular end face 42b, circular end face 42c and circular circumference face 42d) of magnet 42, the size management of insulating tape 51 becomes easy.

At this, also can make the coiling starting end of insulating tape 51 overlapping to prevent that insulating tape 51 from peeling off with the end end of reeling.In this situation, consider in advance the thickness of insulating tape 51 double-layer overlappings parts and set gap between stator 30 and the rotor 40.

In addition, about be formed at the circular end difference 40a that drives with between magnet 42 and the rotating shaft 41 with the both sides on the motor axis L direction of magnet 42 in driving, preferably after insulating tape 51 being wound on rotating shaft 41 and driving on the usefulness magnet 42, with the state that will this circular end difference 40a from the outside covers heat-shrinkable tube (not shown) is installed, afterwards this heat-shrinkable tube is heated and it is shunk and solidify, with the state along this circular end difference 40a insulating tape 51 is close on this circular end difference 40a thus.

In this situation, after insulating tape 51 is close on the circular end difference 40a, this heat-shrinkable tube is cut off and remove from rotor 40.In addition, when insulating tape 51 is close on the circular end difference 40a with the state along circular end difference 40a, be fixed on the counterweight 50 on the circular end face 42b that drives the outlet side L2 that uses magnet 42, be pressed against on the circular end face 42b by insulating tape 51.

(action effect)

As mentioned above, according to this example, since in the outer peripheral face of rotating shaft 41, on motor axis L direction, be insulated adhesive tape 51 with adjacent circular outer periphery face portion 41b, the 41c of magnet standing part 41a and cover, therefore, even when forming the close state of stator 30 and rotor 40, also can guarantee from drive coil 33 to rotating shaft the insulation distance till the exposed portions serve (both not driven cover the part that also was not insulated adhesive tape 51 coverings with magnet 42) of 41 outer peripheral face.Therefore, even when the drive coil on will being equipped on stator core 32 33 is excitatory, also can prevent or suppress exciting current flows into rotating shafts 41 from drive coil 33 situation.Therefore, can prevent from producing noise because of such electric current.

In addition, in this example, insulating tape 51 is wound on continuously rotating shaft 41 and is driven with on the magnet 42, and insulating tape 51 also covers the outer peripheral face (driving circular end face 42c and the circular circumference face 42d of circular end face 42b, the anti-outlet side L1 of the outlet side L2 that uses magnet 42) that drives with magnet 42.Therefore, even occur owing to make from the impact of outside etc. and to drive with the such situations of magnet 42 breakages, can prevent that also the driving after the breakage from dispersing in the inboard of stator 30 with the fragment of magnet 42.

In addition, can prevent that the driving that is made of magnetic sheet 42a from splitting into one by one magnetic sheet 42a with magnet 42 by insulating tape 51.Therefore, can prevent the rotation that the driving after the breakage hinders motor 1 with fragment or the magnetic sheet 42a after the division of magnet 42.In addition, can prevent that the driving after the breakage from damaging stator 30 with the fragment of magnet 42 or the magnetic sheet 42a after the division.In addition, consider the required intensity of separation of fragments that prevents from driving with magnet 42, also can reel two-layer at rotor 40 insulating tape 51 integral body.In this situation, consider in advance the thickness of insulating tape 51 double-layer overlappings parts and set gap between stator 30 and the rotor 40.

And then in this example, be fixed on and drive the counterweight 50 of regulating usefulness with the rotary balance on the circular end face 42b of the outlet side L2 of magnet 42 and be insulated adhesive tape 51 coverings from the outside.Therefore, can utilize insulating tape 51 to prevent that counterweight 50 from coming off from rotor 40.In addition, even when counterweight 50 comes off from rotor 40, also can utilize insulating tape 51 to prevent that counterweight 50 is scattered.

In addition, this routine motor 1 is provided with encoder 60 at the anti-outlet side L1 of rotating shaft 41, therefore, when in the rotating shaft 41 during generation current, thereby exists this electric current to become noise and invades the situation that sensor base plate 64 reduces the accuracy of detection of encoder 60.But, by preventing generation current in rotating shaft 41 at coiling insulating tape 51 on the rotor 40, therefore, can prevent from producing noise because of such electric current.Thus, the accuracy of detection of encoder 60 is reduced.In addition, misoperation etc. can not occur in encoder 60 yet.

(other execution modes)

In above-mentioned example, be wound with insulating tape 51 at circular outer periphery face portion 41b, the 41c of rotating shaft 41, still, also can replace insulating tape 51 and apply insulant at circular outer periphery face portion 41b, 41c.The resin component of tubular also can be installed at circular outer

periphery face portion

41b, 41c in addition.

In addition, in above-mentioned example, prepare to have the length dimension corresponding with insulated part and the insulating tape of width dimensions as insulating tape 51, and insulating tape 51 is wound on rotating shaft 41 continuously and drives with on the magnet 42, but, prepare to have insulated part (the circular outer periphery face portion 41b with rotating shaft 41 as insulating

tape

51,41c) the insulating tape of corresponding length dimension and width dimensions, with insulated part (the circular end face 42b that has and drive usefulness magnet 42, circular end face 42c and circular circumference face 42d) corresponding length dimension and the insulating tape of width dimensions, and these two kinds of insulating tapes are reeled respectively also be fine.And then, as insulating tape 51 and only prepare to have insulated part (circular outer

periphery face portion

41b, 41c) corresponding length dimension and the insulating tape of width dimensions with rotating shaft 41, and insulating tape 51 only is wound on the rotating shaft 41 also is fine.

At this, also can prepare the elongated insulating tape of fixed width, and this insulating tape reeled in the shape of a spiral continuously along motor axis L direction, thus the insulated part (circular outer

periphery face portion

41b, 41c) of rotating shaft 41 and the insulated part (circular end face 42b, circular end face 42c and circular circumference face 42d) that drives with magnet 42 are covered continuously.In addition, in this situation, can not form the gap for making between the spiral insulating tape, need so that the overlapping mode of the part of insulating tape is reeled, therefore, need to consider in advance the thickness of insulating tape double-layer overlapping part and set gap between stator 30 and the rotor 40.

And then, also can utilize the coating of insulating tape 51 or insulant with the whole outer peripheral face covering of path portion 44 among the exposed portions serve 43a and first of the large diameter portion 43 of rotating shaft 41.

In addition, in above-mentioned example, shown in Fig. 3 (b), driving with magnet 42 is that concentric magnetic sheet 42a consists of by the outer arc face that is positioned at radial outside and the inner arc face that is positioned at radially inner side, but, using outer arc face and inner arc face as magnetic sheet 42a is the magnetic sheet of the different shape of non-concentric curvature with outer arc face and inner arc face, and these magnetic sheets along the circumferential direction are configured, and consists of thus to drive also to be fine with magnet 42.In this situation, owing to along the circumferential direction be formed with the gap between the adjacent magnetic sheet 42a, therefore, also can in this gap, counterweight be installed.Even in such formation and since insulating tape 51 is wound on drive with magnet 42 on the time be the state that counterweight is insulated the adhesive tape covering, therefore, also can prevent being scattered of counterweight.

In addition, also the utility model can be applicable between encoder 60 and clutch shaft bearing retainer 12, to dispose in the motor 1 with respect to the stopper mechanism of rotor 40.In this situation, owing to by preventing generation current in rotating shaft 41 at coiling insulating tape 51 on the rotor 40, therefore, can not make the action of stopper mechanism become unstable because of the noise that is caused by such electric current.

And then, in above-mentioned example, enumerated the utility model has been applicable to example in the permanent-magnet type synchronous motor, but, also the utility model can be applicable to such as in other the synchronous motor or induction motor, commutator motor, other motor such as stepping motor or electromagnetic type synchronous motor.

Claims

1. motor, it is provided with:

Stator core, it carries drive coil and is tubular;

Rotating shaft, it is formed by conductive material; And

Drive and use magnet, it is fixed on the outer peripheral face part of described rotating shaft;

And described rotating shaft is configured in the inboard of described stator core in the mode that can rotate, and described stator core and described driving are diametrically opposed with magnet;

Described motor is characterised in that,

In the outer peripheral face of described rotating shaft, on the motor axis direction, divide adjacent circular outer periphery face portion to be insulated thing with the described outer circumferential surface section that is covered with magnet by described driving to cover.

2. motor as claimed in claim 1 is characterized in that, described insulant is the insulating tape that is wound onto on the described rotating shaft.

3. motor as claimed in claim 2 is characterized in that, described insulating tape is the glass fibre cloth rubber belt that has the heat-curable adhesive layer in its one side.

4. motor as claimed in claim 2 or claim 3 is characterized in that,

Described insulating tape is wound onto described driving and uses on the both ends of the surface and described circular outer periphery face portion of magnet with the outer peripheral face of magnet, described driving, thus described driving is covered with both ends of the surface and the described circular outer periphery face portion of magnet with the outer peripheral face of magnet, described driving.

5. motor as claimed in claim 4 is characterized in that,

The length of described insulating tape equates with distance till reverse pumping from the delivery side of the described circular outer periphery face portion of the outlet side that is configured in described rotating shaft to the described circular outer periphery face portion of the anti-outlet side that is configured in described rotating shaft goes out side,

The width of described insulating tape equates with the circumferential length of described driving with magnet,

Described insulating tape is wound on continuously outer peripheral face, the described driving of described driving with magnet and is used on the both ends of the surface and described circular outer periphery face portion of magnet.

6. motor as claimed in claim 4 is characterized in that,

Described rotating shaft possesses large diameter portion and middle path portion, and wherein, described large diameter portion is equipped with described driving magnet at its outer circumferential side, described middle path portion be connected with described large diameter portion and its diameter less than described large diameter portion,

Described large diameter portion in the length on the motor axis direction greater than described driving with the length of magnet on the motor axis direction,

Described driving is installed on the described large diameter portion with one end and the described large diameter portion mode consistent with the staggered floor face between the described middle path portion with magnet,

Described insulating tape covers the staggered floor face between described large diameter portion and the described middle path portion.

7. motor as claimed in claim 4 is characterized in that,

Described insulating tape is to be used on the both ends of the surface and described circular outer periphery face portion of magnet with the outer peripheral face of magnet, described driving in described driving by continuous reeling along the spiral mode of motor axis direction.

8. motor as claimed in claim 2 or claim 3 is characterized in that,

With the both sides on the motor axis direction of magnet, between described driving is with magnet and described rotating shaft, be formed with circular end difference in described driving,

Described insulating tape is close on the described circular end difference with the state along described circular end difference.

9. motor as claimed in claim 2 or claim 3 is characterized in that,

Described insulating tape is wound on described rotating shaft and described driving continuously with on the magnet, covers with magnet from the outside with described driving thus.

10. motor as claimed in claim 9 is characterized in that, described driving is tubular with magnet, and described driving is made of divided a plurality of magnetic sheet along the circumferential direction with magnet.

11. motor as claimed in claim 9 is characterized in that,

With the circular end face of magnet balance adjustment parts for the rotary balance of regulating rotor are installed in described driving,

Described balance adjustment parts are covered by described insulating tape.

12. motor as claimed in claim 11 is characterized in that, described balance adjustment parts are pressed against on the described circular end face by described insulating tape.

13., it is characterized in that described balance adjustment parts are bonding agent such as claim 11 or 12 described motor.

14. motor as claimed in claim 13 is characterized in that, is doped with metal in the described bonding agent.

15. such as each described motor in the claim 1～3, it is characterized in that,

Described motor is provided with encoder,

Described encoder possesses:

Transducer magnet, it is installed on the shaft end of described rotating shaft;

Magneto sensor, it is relative and dispose with magnet with described transducer; And

Sensor base plate, it carries described magneto sensor.