JP2004173414A - Stator set regulating structure of spindle motor for disk unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide the stator set regulating structure of a spindle motor for a disk unit which can rapidly and simply balance regulating a stator set by regulating an interval between the stator set and a fixed substrate by matching to a plurality of positioning holes by using a plurality of regulating members, and correcting the inclining state of the stator set to the fixed substrate. <P>SOLUTION: The stator set regulating structure of the spindle motor for the disk unit includes the plurality of the regulating members and the plurality of the positioning holes. The positioning holes are provided in the stator set or the fixed substrate so as to become an equal angle and symmetrical. The regulating members are engaged within the positioning holes and are formed to be brought into contact with between the stator set and the fixed substrate. The interval between the stator set and the fixed substrate can be regulated by changing the degree of the contact of the regulating member so as to complete the relatively horizontal positioning of the stator set to the fixed substrate. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a stator assembly adjustment structure of a spindle motor of a disk drive, and in particular, a spindle motor of a disk drive utilizes a plurality of adjustment members to adjust a distance between a disk carrier and a rotor hub, thereby enabling a disk drive. The present invention relates to a disk carrier adjusting structure of a spindle motor of a disk device capable of quickly adjusting the equilibrium state of a carrier.
[0002]
[Prior art]
Conventionally, this type is as follows.
[0003]
As shown in FIGS. 1 and 2, the main shaft motor of the conventional disk drive usually includes a disk carrier 10, a shaft 20, a rotor hub 30, and a stator set 40. The disk carrier 10 is provided with a holding seat 11 for locking and placing a disk, the shaft 20 is formed so as to be connected to the disk carrier 10 and the rotor hub 30, and a shaft tube 41 is fixed to the stator set 40. An alternating magnetic field is formed under the control of the circuit board 42. Further, the annular magnetic field 31 that can be induced by the alternating magnetic field of the stator set 40 is arranged around the rotor hub 30, so that the disk carrier 10 and the disk rotate simultaneously. Some are designed to work together.
[0004]
Further, as a conventional balance device of a disk drive, a base fixed to a vertical plane, a rotating shaft assembled at the center of the base, a disk carrier mounted on the rotating shaft, and a disk carrier. There is a device which is constituted by a locking device for locking an assembled disk to solve the problem of non-uniformity of the medium of the disk (for example, see Patent Document 1).
[0005]
[Patent Document 1]
Chinese Utility Model Patent No. 01209547.8 No.
[Problems to be solved by the invention]
Regarding the former spindle motor of the conventional disk drive, when the disk carrier 10 is initially assembled on the shaft 20, the disk carrier 10 tends to be slightly inclined with respect to the rotor hub 30. In order to avoid the influence of the rotational balance and the yield rate of the finished product on the disk drive due to the inclination of the disk carrier 10, it is difficult to keep the disk carrier 10 above the disk carrier 10 by using a lathe in the industry. Usually, the inclined side is processed and polished. In this way, the thickness of the disk carrier 10 on the inclined side is polished from a to b, so that the entire surface of the disk carrier 10 is formed on the rotor hub 30. On the other hand, it can be rotated in equilibrium while maintaining parallelism. However, in the method using the above-mentioned lathe, the inclination state of the disk carrier 10 can be corrected and adjusted, but the inclination state of the stator set 40 or the shaft tube 41 with respect to the fixed substrate 42 can be simultaneously corrected. Since it is impossible, there is a problem that the shaft 20, the disk carrier 10, and the rotor hub 30 are inclined due to the distortion of the shaft tube 41. In addition, since the equilibrium state of the disk carrier 10 must be repeatedly measured in the above-described lathing process, not only the manufacturing process becomes longer, but also the structure of the disk carrier 10 due to excessive destructive polishing. There was a problem that the strength and the stability of rotation were affected.
[0007]
Regarding the latter conventional balancing device of the disk device, the rotation of the disk carrier can be kept in balance as a weight by attaching a paper tape to the disk carrier, but since it has to rely on human hands, it must be attached. However, it takes time and lacks accuracy.
[0008]
The present invention has been made in view of such a problem, and an object of the present invention is to provide a plurality of adjusting members to provide a space between a stator set of a spindle motor of a disk drive and a fixed substrate. Abutment, just by changing the degree of abutment of the adjusting member, adjusts the gap between the stator set and the fixed substrate without using a destructive method, and further adjusts the state of inclination of the stator set with respect to the fixed substrate. By correcting the above, the stator assembly and the fixed substrate can be kept horizontal, and the rotation of the rotor can be kept balanced, so that the horizontal positioning of the stator assembly can be adjusted reliably and easily. It is an object of the present invention to provide a stator assembly adjusting structure for a main shaft motor.
[0009]
A first object of the present invention is to adjust the balance between a stator set and a fixed substrate by using a plurality of adjusting members to adjust the distance between the stator set and the fixed substrate, and to adjust the balance between the stator set and the fixed substrate. It is an object of the present invention to provide a stator assembly adjustment structure of a spindle motor of a disk drive, which can make the operation faster and easier.
[0010]
A second object of the present invention is to align a plurality of positioning holes with a plurality of adjusting members, adjust a distance between the stator set and the fixed board, and correct an inclined state between the stator set and the fixed board. Accordingly, an object of the present invention is to provide a stator set adjusting structure of a spindle motor of a disk device, which can make balance adjustment of a stator set more quickly and easily.
[0011]
A third object of the present invention is to adjust the interval between the shaft tube and the fixed substrate by using a plurality of adjustment members, and correct the state of inclination of the shaft tube and the stator group with respect to the fixed substrate, thereby forming the stator group. An object of the present invention is to provide a stator assembly adjustment structure of a spindle motor of a disk drive, which can make balance adjustment more quickly and easily.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, a stator assembly adjustment structure of a spindle motor of a disk drive according to the present invention is as follows. That is,
A stator assembly adjustment structure of a spindle motor of a disk device including at least one adjustment member. Since the adjusting member can be brought into contact between the stator set and the fixed substrate, by changing the degree of contact of the adjusting member, the distance between the stator set and the fixed substrate and the inclined state are corrected. The adjustment completes the relative horizontal positioning between the stator set and the fixed substrate.
[0013]
Further, the stator assembly adjusting structure of the spindle motor of the disk drive of the present invention may be configured as follows.
1. The adjusting member comprises a screw.
2. The adjusting member includes a plurality of columns having different lengths.
3. The adjusting member includes a plurality of elastic members having different elastic coefficients.
4. The adjusting member is made of metal, alloy, or plastic.
5. The adjustment member is fixed by welding, heat welding, or an adhesive.
6. A plurality of positioning holes for screwing an adjusting member are drilled in the stator set, and the distance between the stator set and the fixed substrate is adjusted by changing the degree of screwing of the adjusting member into the positioning hole. I do.
7. The positioning holes are installed in the stator set so as to be equiangular and symmetric.
8. The positioning hole is provided at the center of the stator set.
9. The positioning holes are provided on a plurality of pole columns of the stator set.
10. A plurality of positioning holes for screwing an adjusting member are drilled in the fixed substrate, and the distance between the stator set and the fixed substrate is adjusted by changing the degree of screwing of the adjusting member into the positioning hole. I do.
11. The positioning holes are installed on the fixed substrate so as to be equiangular and symmetric.
12. Other flanges protrude from the upper and lower peripheral edges of the positioning hole.
13. The adjusting member is formed so as to abut the center of the stator set.
14． The adjusting member is formed so as to contact the plurality of pole columns of the stator set.
15. The stator assembly is fitted to a shaft tube, an annular plate is provided around the shaft tube, and a positioning hole for screwing the adjusting member is formed in the annular plate. By changing the degree of screwing, the distortion state of the shaft tube is corrected, and the distance between the stator assembly and the fixed substrate is adjusted.
16. The positioning holes are installed in the annular plate of the shaft tube so as to be equiangular and symmetric.
17. Other flanges protrude from the upper and lower peripheral edges of the positioning hole.
18. In the stator set corresponding to the positioning hole of the shaft pipe, a plurality of other through holes are formed, and the degree of screwing of the adjusting member is adjusted by the through holes.
19. The stator set is fitted to a shaft pipe, an annular plate is additionally provided on the shaft pipe, and a plurality of positioning holes for screwing an adjusting member are formed in a fixed substrate located below the annular plate. By changing the degree to which the adjusting member is screwed into the positioning hole, the distortion state of the shaft tube is corrected, and the distance between the stator set and the fixed substrate is adjusted.
20. The positioning holes are installed on the fixed substrate located below the annular plate so as to be equiangular and symmetric.
21. Other flanges protrude from the upper and lower peripheral edges of the positioning hole.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0015]
FIG. 3 is an exploded perspective view of a spindle motor stator assembly adjustment structure of the disk device according to the first embodiment of the present invention, and FIG. 4 is a diagram illustrating a balance adjustment of the spindle motor stator assembly adjustment structure of the disk device of the first embodiment of the present invention. FIG. 5 is a cross-sectional view of the assembled state before performing the adjustment, and FIG. 5 is a cross-sectional view of the assembled state after the stator set adjustment structure of the spindle motor of the disk drive according to the first embodiment of the present invention has performed the balance adjustment. FIG. 6 is a cross-sectional view of the main shaft motor of the disk device according to the second embodiment of the present invention assembled by the stator set adjusting structure. FIG. 7 is a sectional view of the main shaft motor stator of the disk device according to the third embodiment of the present invention. FIG. 8 is an exploded perspective view of the set adjusting structure, and FIG. 8 is a cross-sectional view of the main shaft motor of the disk device according to the third embodiment of the present invention assembled by the stator set adjusting structure. There, and FIG 9 is a cross-sectional view of a state assembled by stator assembly adjustment structure of the spindle motor of the disk apparatus of Embodiment 4 of the present invention.
[0016]
Partial members of the stator assembly adjusting structure of the spindle motor of the disk drive of the present invention are the same as those of the conventional spindle motor of the conventional disk drive in the prior art. Therefore, it will not be described again in detail here.
[0017]
Embodiment 1
Referring to FIG. 3, the stator assembly adjustment structure of the spindle motor of the disk drive according to the first embodiment of the present invention mainly includes a plurality of adjustment members 43 and a plurality of positioning holes 401. The positioning holes 401 are installed at the central portion 402 of the stator set 40 so as to be equiangular and symmetrical, and the adjusting member 43 is screwed into the positioning holes 401 so as to abut between the stator set 40 and the fixed substrate 42. It is formed as follows. As described above, in the present invention, the distance between the stator set 40 and the fixed board 42 can be quickly adjusted only by adjusting the degree of contact of the adjusting member 43. Relative horizontal positioning between the two can be completed.
[0018]
Referring to FIGS. 3, 4, and 5, the adjusting structure of the stator set according to the first embodiment of the present invention is such that a plurality of adjusting members 43 and a plurality of positioning holes 401 are provided in a spindle motor of a disk drive. The spindle motor of the disk device includes a disk carrier 10, a shaft 20, a rotor hub 30, and a stator set 40. The disk carrier 10 can be integrally connected with the shaft 20 and the rotor hub 30 and can be driven by an alternating magnetic field generated by the stator set 40. The adjusting member 43 is preferably made of a screw, can be made of metal, alloy or plastic, and can be assembled in a gap 44 formed between the stator set 40 and the fixed substrate 42. The positioning holes 401 are installed at the central portion 402 of the stator set 40 so as to be equiangular and symmetric (for example, in the case of three positioning holes 401, the central portions 402 are symmetrical at an angle of 120 °). The positioning hole 401 is used for screwing the adjusting member 43. As described above, before the stator set 40 is integrally connected to the disk carrier 10, the shaft 20 and the rotor hub 30, the adjusting member 43 passes through the positioning hole 401 downward through the front surface of the central portion 402. As such, it is formed so as to contact the upper surface of the fixed substrate 42. Therefore, in the present invention, the distance between the stator set 40 and the fixed substrate 42 can be quickly adjusted only by changing the degree (the degree of contact) of the adjusting member 43 screwed into the positioning hole 401. Thus, the relative horizontal positioning between the stator set 40 and the fixed substrate 42 can be surely completed.
[0019]
4 and 5, when the adjusting structure of the stator set according to the first embodiment of the present invention is used for the inclined stator set 40, the user sets the stator set 40 to the disk carrier 10, the shaft 20, and the rotor hub 30. Before joining together so as to be integrated with each other, an appropriate number of adjusting members 43 are screwed into the positioning holes 401 on one side where the central portion of the stator set 40 is inclined downward, and the adjusting members 43 are inserted from above the central portion 402. By screwing downward so as to pass through the positioning hole 401, it is brought into contact with the front surface of the fixed substrate 42. The size and inclination of the gap 44 between the stator set 40 and the fixed substrate 42 can be quickly adjusted only by changing the degree of screwing (the degree of contact) of each adjustment member 43. The relative horizontal positioning between 40 and fixed substrate 42 can be completed. Further, after the present invention has completed the above-mentioned procedure of the balance adjustment, the method of welding, heat welding, applying an adhesive or the like is selected according to the material (metal, alloy, plastic) of the adjustment member 43, and the adjustment member 43 is fixed. In addition, it is possible to prevent the adjustment member 43 from being loosened or falling off, and to prevent the stator set 40 from being inclined again.
[0020]
Further, the positioning hole 401 of the present invention can be installed at the opposed radial position of the stator set 40 according to the demand in use, for example, the central part 402 inside the stator set 40 or the magnetic pole column outside the same. 403. In addition, since the non-slip pad 12 is provided on the upper surface of the disk carrier 10, the disk can be prevented from slipping on the disk carrier 10 during rotation.
[0021]
Embodiment 2
Referring to FIG. 6, a stator set adjusting structure of a spindle motor of a disk drive according to a second embodiment of the present invention includes a plurality of adjusting members 43 ′ and a plurality of positioning holes 421 between a stator set 40 and a fixed substrate 42. Is installed to adjust the inclined stator set 40. Compared with the first embodiment, in the second embodiment of the present invention, the positioning hole 421 is formed in the fixed substrate 42, and the adjusting member 43 ′ passes through the positioning hole 421 upward from the bottom side of the fixed substrate 42. Since it is screwed, it is formed so as to come into contact with the back surface of the stator set 40. Therefore, in the second embodiment of the present invention, similarly to the first embodiment, only by changing the degree of screwing (the degree of contact) of each adjustment member 43 ′, the gap 44 between the stator set 40 and the fixed substrate 42 is reduced. Since the size and the inclined state can be quickly adjusted, the relative horizontal positioning between the stator set 40 and the fixed substrate 42 can be completed.
[0022]
Further, since the positioning holes 421 can be selectively installed inside or outside the fixed substrate 42 according to the demand in use, the positioning holes 421 can be brought into contact with the central portion 402 or the pole columns 403 of the stator set 40. . A flange 422 is selectively protruded from an upper peripheral edge or a lower peripheral edge of the positioning hole 421, so that the structure of the positioning hole 421 can be strengthened.
[0023]
Embodiment 3
Referring to FIGS. 7 and 8, a stator set adjustment structure of a spindle motor of a disk drive according to a third embodiment of the present invention includes a plurality of adjustment members 43 ″ and a plurality of positioning members between a stator set 40 and a fixed substrate 42. A hole 411 is provided to adjust the distorted shaft tube 41. In the third embodiment of the present invention, the positioning hole 411 is an annular plate provided around the shaft tube 41, as compared with the first and second embodiments. The adjusting member 43 ″ is threaded downward from the positioning hole 411 of the annular plate 412 so as to pass through the positioning hole 412, and is formed so as to contact the surface of the fixed plate 42. Therefore, in the third embodiment of the present invention as well, the distortion state of the shaft tube 41 is quickly adjusted only by changing the degree of screwing (the degree of contact) of each adjustment member 43 ″, and the stator assembly 40 ″ is further advanced. Therefore, the relative horizontal positioning between the stator set 40 and the fixed substrate 42 can be completed.
[0024]
Further, in the stator set 40 according to the third embodiment of the present invention, a plurality of through-holes 404 are formed corresponding to the positioning holes 411 formed in the annular plate 412, so that the user can use the stator set 40. After being mounted on the shaft tube 41, the degree of screwing of the adjusting member 43 ″ can be adjusted through the through hole 404 using a tool. The upper or lower peripheral edge of the positioning hole 411 can be adjusted. The structure of the positioning hole 411 can be strengthened by selectively protruding a flange (not shown) on the shaft.The annular plate 412 is preferably formed integrally with the shaft tube 41. .
[0025]
Embodiment 4
Referring to FIG. 9, a stator set adjusting structure of a spindle motor of a disk drive according to a fourth embodiment of the present invention includes a plurality of adjusting members 43 ″ and a plurality of positioning holes 423 between stator set 40 and fixed substrate 42. Is installed to adjust the distorted shaft pipe 41. In the fourth embodiment of the present invention, the positioning holes 423 are formed in the shaft pipe 41 so as to be equiangular and symmetric in comparison with the above-described first to third embodiments. Since the adjustment member 43 ″ is screwed so as to pass through the positioning hole 423 upward from the positioning hole 423 of the fixed substrate 42, the hole is formed in the fixed substrate 42 located below the annular plate 412 provided. The shaft tube 41 is formed so as to be in contact with the back surface of the annular plate 412. Therefore, in the fourth embodiment of the present invention as well, the distortion state of the shaft tube 41 is quickly adjusted only by changing the degree of screwing (the degree of contact) of each adjustment member 43 ″, and the stator assembly 40 is further advanced. Therefore, the relative horizontal positioning between the stator set 40 and the fixed substrate 42 can be completed.
[0026]
Furthermore, the structure of the positioning hole 423 can be reinforced by selectively protruding the flange 424 at the upper or lower peripheral edge of the positioning hole 423 according to the fourth embodiment of the present invention. Further, it is preferable that the annular plate 412 is formed integrally with the shaft tube 41.
[0027]
In addition, the adjusting members 43, 43 ′, 43 ″ and the positioning holes 401, 411, 421, 423 of the respective embodiments of the present invention are provided with other structures capable of adjusting the gap 44 between the stator set 40 and the fixed substrate 42. For example, it can be replaced with a plurality of columns having different lengths or a plurality of elastic members having different elastic coefficients.
[0028]
Referring again to FIGS. 1 and 3, the stator assembly adjusting structure of the spindle motor of the disk drive according to the present invention has an adjusting member 43 and a positioning hole 401 provided between the stator assembly 40 and the fixed substrate 42. Only by changing the degree of abutment of 43, the distance between the stator set 40 and the fixed substrate 42 can be adjusted, and further, the inclined state of the stator set 40 facing the fixed substrate 42 can be corrected. In a conventional spindle motor of a disk drive, the disk carrier 10 polished by a lathe processing method having destructive properties cannot correct the inclined state between the stator set and the shaft pipe and shorten the manufacturing process. However, there is a problem that the strength of the structure is affected and the like. The relative horizontal positioning with respect to the fixed substrate 42 can be completed, and the balance adjustment of the stator set can be performed more quickly and easily.
【The invention's effect】
ADVANTAGE OF THE INVENTION According to the stator set adjustment structure of the spindle motor of the disk drive of this invention, the space | interval of a stator set and a fixed board | substrate is adjusted using a several adjustment member, and the inclination state of a stator set and a fixed board | substrate is corrected. This has the advantage that the balance adjustment of the stator set can be made quicker and simpler.
[0030]
ADVANTAGE OF THE INVENTION According to the stator set adjustment structure of the spindle motor of the disk drive of this invention, it adjusts the space | interval of a stator set and a fixed board | substrate, aligns with a several positioning hole using a several adjustment member, and fixes a stator set. By correcting the inclination with respect to the substrate, there is an advantage that the balance adjustment of the stator set can be performed more quickly and easily.
[0031]
ADVANTAGE OF THE INVENTION According to the stator set adjustment structure of the spindle motor of the disk drive of this invention, the space | interval between a shaft tube and a fixed board | substrate is adjusted using a several adjustment member, and a shaft pipe and a stator set incline with respect to a fixed board | substrate. This has the advantage that the balancing of the stator set can be made quicker and simpler.
[0032]
The present invention may be embodied in other ways without departing from its spirit and essential characteristics. Accordingly, the preferred embodiments described herein are illustrative and not limiting.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an assembled state before a disk carrier of a spindle motor of a conventional disk drive performs balance adjustment.
FIG. 2 is a cross-sectional view of an assembled state after a disk carrier of a spindle motor of a conventional disk device has been adjusted for balance.
FIG. 3 is an exploded perspective view of the main spindle motor of the disk device according to the first embodiment of the present invention, which is formed by a stator set adjusting structure.
FIG. 4 is a cross-sectional view of the disk drive according to the first embodiment of the present invention in an assembled state before the stator set adjusting structure of the spindle motor performs balance adjustment.
FIG. 5 is a cross-sectional view of the disk drive according to the first embodiment of the present invention in an assembled state after the stator set adjusting structure of the spindle motor has performed balance adjustment.
FIG. 6 is a cross-sectional view of a disk device according to a second embodiment of the present invention in a state where the main shaft motor is assembled by a stator set adjusting structure.
FIG. 7 is an exploded perspective view of a spindle motor of a disk drive according to a third embodiment of the present invention, which is formed by a stator set adjusting structure.
FIG. 8 is a cross-sectional view of a disk device according to Embodiment 3 of the present invention in a state where the main shaft motor is assembled by a stator set adjusting structure.
FIG. 9 is a cross-sectional view of a disk device according to a fourth embodiment of the present invention in a state where the main shaft motor is assembled by a stator set adjusting structure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Disc carrier 11 Nipping seat 12 Non-slip pad 20 Shaft 30 Rotor hub 31 Annular magnet 40 Stator set 401 Positioning hole 402 Center part 403 Magnetic pole 404 Through hole 41 Shaft tube 411 Positioning hole 412 Annular plate 42 Fixed substrate 421 Positioning hole 422 Flange 43, 43 ', 43 "adjusting member 44 gap

Claims (22)

A stator set adjusting structure for a spindle motor of a disk drive including at least one adjusting member (43), wherein the adjusting member (43) is abutted between a stator set (40) and a fixed substrate (42). By changing the degree of contact of the adjusting member (43), the distance between the stator set (40) and the fixed substrate (42) and the state of inclination can be corrected and adjusted, whereby the stator set can be adjusted. A stator assembly adjustment structure for a spindle motor of a disk drive, wherein the relative horizontal positioning between the (40) and the fixed substrate (42) is completed. 2. The structure according to claim 1, wherein said adjusting member (43) comprises a screw. 2. The structure according to claim 1, wherein the adjusting member comprises a plurality of pillars having different lengths. 2. The structure according to claim 1, wherein said adjusting member comprises a plurality of elastic members having different elastic coefficients. 5. The structure according to claim 1, wherein the adjusting member is made of a metal, an alloy, or a plastic. 5. The structure according to claim 1, wherein the adjustment member is fixed by welding, heat welding, or adhesive application. The stator assembly (40) is provided with a plurality of positioning holes (401) for screwing the adjusting member (43), and the adjusting member (43) is screwed into the positioning hole (401). 3. The structure according to claim 1, wherein the distance between the stator set (40) and the fixed substrate (42) is adjusted by changing the distance. The stator set adjusting structure for a spindle motor of a disk drive according to claim 7, wherein the positioning holes (401) are installed in the stator set (40) so as to be equiangular and symmetric. The stator set adjusting structure for a spindle motor of a disk drive according to claim 7, wherein the positioning hole (401) is provided at a central portion (402) of the stator set (40). The stator set adjusting structure for a spindle motor of a disk drive according to claim 7, wherein the positioning holes (401) are installed in a plurality of pole columns (403) of the stator set (40). A plurality of positioning holes (421) for screwing the adjusting member (43) are formed in the fixed substrate (42), and the adjusting member (43) is screwed in the positioning hole (421). 3. The structure according to claim 1, wherein the distance between the stator set (40) and the fixed substrate (42) is adjusted by changing the distance. The stator set adjusting structure for a spindle motor of a disk drive according to claim 11, wherein the positioning holes (421) are installed on the fixed substrate (42) so as to be equiangular and symmetrical. The stator set adjusting structure for a spindle motor of a disk drive according to claim 11, wherein another flange (422) is protruded from an upper peripheral edge and a lower peripheral edge of the positioning hole (421). The stator set adjusting structure for a spindle motor of a disk drive according to claim 11, wherein the adjusting member (43) is formed so as to abut a central portion (402) of the stator set (40). The stator set adjustment of a spindle motor of a disk drive according to claim 11, wherein the adjustment member (43 ') is formed so as to abut on a plurality of pole columns (403) of the stator set (40). Construction. The stator assembly (40) is fitted to a shaft tube (41), and the shaft tube (41) is additionally provided with an annular plate (412). The annular plate (412) is provided with the adjusting member (43). ) Is screwed into the positioning hole (411), and by changing the degree to which the adjusting member (43 '') is screwed into the positioning hole (411), the distortion of the shaft tube (41) is reduced. 3. The structure for adjusting a stator set of a spindle motor of a disk drive according to claim 1, wherein a state is corrected to adjust a distance between the stator set (40) and the fixed substrate (42). The stator set of a spindle motor of a disk drive according to claim 16, wherein the positioning holes (411) are installed in the annular plate (412) of the shaft tube (41) so as to be equiangular and symmetric. Adjustment structure. 17. The structure for adjusting a stator set of a spindle motor of a disk drive according to claim 16, wherein another flange (422) protrudes from an upper peripheral edge and a lower peripheral edge of the positioning hole (411). In the stator set (40) corresponding to the positioning hole (411) of the shaft pipe (41), a plurality of other through holes (404) are formed, and the adjusting member (43) is formed by the through holes (404). 17. The structure according to claim 16, wherein the degree of threading is adjusted. The stator set (40) is fitted to a shaft tube (41), and an annular plate (412) is additionally provided around the shaft tube (41), and a fixed substrate located below the annular plate (412). (42) is provided with a plurality of positioning holes (423) for screwing the adjusting member (43 "). The degree to which the adjusting member (43") is screwed into the positioning hole (423) is determined. The disk device according to claim 1, wherein the distance between the stator set and the fixed substrate is adjusted by changing the distortion state of the shaft tube. Adjustment structure of the main shaft motor stator assembly. 21. The spindle of a disk device according to claim 20, wherein the positioning holes (423) are installed on the fixed substrate (42) located below the annular plate (412) so as to be equiangular and symmetrical. Motor stator assembly adjustment structure. 21. The structure for adjusting a stator set of a spindle motor of a disk drive according to claim 20, wherein a flange (424) is additionally provided at an upper peripheral edge and a lower peripheral edge of the positioning hole (423).

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