JP4293430B2 - Rotor and motor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a varistor for absorbing noise and contact protection, rotor and a commutator which contacts the electrodes of the varistor, it relates to a motor with its rotor.
[0002]
[Prior art]
Conventionally, a varistor formed in a ring shape has been widely used for noise absorption and contact protection. That is, as shown in FIG. 6A, the insulator 125 is fixed to the rotating shaft 121. A flange 126 is formed at the lower end of the insulator 125, and three locking pieces 127 for locking the inner peripheral surface of the varistor 110 are erected at intervals of 120 degrees.
[0003]
As shown in FIG. 6B, when the varistor 110 is attached to the commutator 130 including the three commutator pieces 131, the inner peripheral surface of the varistor 110 is locked to the three locking pieces 127, and 110 is disposed on the riser 132 of the commutator 130. At this time, the electrode 111 of the varistor 110 is held between the contact pieces 133 of the commutator 130. Thereafter, the electrode 111 of the varistor 110 and the contact piece 133 of the commutator 130 are soldered. Therefore, the electrode 111 of the varistor 110 must be brought into contact with the contact piece 133 of the commutator 130. That is, positioning of the varistor 110 was necessary.
[0004]
Therefore, an electrode is formed in advance over the outer peripheral surface of the varistor, and after the varistor is attached to the commutator, the electrode of the varistor and the riser of the commutator are electrically connected by soldering and mechanically Fix it. Then, the electrodes are partially cut according to the number of slots to form individual electrodes. Therefore, there is no need to position the varistor (see Patent Document 1).
[0005]
[Patent Document 1]
JP-A-8-317609
[Problems to be solved by the invention]
However, in Patent Document 1, it is no longer necessary to position the varistor, but it is still necessary to solder the varistor electrode and the commutator riser. In addition, it is necessary to cut the electrodes partially according to the number of slots. For this reason, these man-hours have always occurred.
[0008]
The present invention has been made paying attention to such problems, and its purpose is to provide a rotator having a varistor that can omit positioning and a commutator that can omit soldering. And providing a motor.
[0009]
[Means for Solving the Problems]
To achieve the above object, the invention described in claim 1, and a commutator in which each commutator segment comprises a plurality of commutator segments is fixed to the rotary shaft, the rectifier in the axial direction of the rotary shaft A varistor formed in a ring shape, the varistor is attached to the commutator so that the commutator is located inside the varistor, and the commutator is connected to the varistor. A rotor that contacts the electrode, and each commutator piece is provided with a riser for mounting the varistor from the rotary shaft toward a radially outer side of the rotor. A contact piece that contacts the electrode is erected toward the opposite side of the core, and the varistor has a surface opposite to the surface on the riser in the axial direction of the rotating shaft. , I each size of different concentric A plurality of electrode is made form the contact pieces, a plurality provided corresponding to each of the plurality of electrodes in the varistor, the contact piece corresponds to the distance to the electrodes corresponding to the contact piece The length of the abutting piece is determined, and an abutting portion that abuts the electrode corresponding to the abutting piece is formed at the end of each abutting piece. It is bent toward the electrode side so as to contact the electrode corresponding to the contact piece.
[0010]
According to a second aspect of the present invention, in each of the rotors according to the first aspect, a groove is formed in each of the contact pieces corresponding to a distance to the electrode corresponding to the contact piece.
The invention according to claim 3, and the commutator each commutator segment comprises a plurality of commutator segments is fixed to a rotating shaft, a core positioned on the lower side of the commutator in the axial direction of the rotary shaft A varistor formed in a ring shape, wherein the varistor is attached to the commutator so that the commutator is positioned inside the varistor, and the commutator is in contact with an electrode of the varistor, Each of the commutator pieces is extended with a riser for mounting the varistor from the rotating shaft toward the outer side in the radial direction of the rotor, and each riser has a contact piece that comes into contact with the electrode of the varistor. the core is erected toward the opposite side, the varistor, the surface opposite to the side of the surface to be placed on the riser in the axial direction of the rotary shaft, greater than the number of slots the core electrode Tokoro but in the circumferential direction of the varistor Are formed at intervals, the contact piece is provided in plurality, each contact piece, the contact portion pair capable abut against the electrodes of the varistor are formed, each of contact pieces, the contact portion is bent toward the electrode side to abut against the electrodes of the varistor, pair of contact distance between the ends of the electrode adjacent to your stomach circumferential direction to the varistor at the respective contact piece Each contact piece is configured to contact at least one electrode by being formed so as to be shorter than the distance between the parts.
[0015]
The invention according to claim 5 includes the rotor according to any one of claims 1 to 4 .
[0016]
(Function)
According to the invention described in the claims, it is possible to omit the positioning of the varistor. Moreover, since the contact piece contacts the electrode of the varistor, soldering can be omitted.
[0017]
According to the first aspect of the present invention, the length of the contact piece is determined corresponding to the distance to the electrode of the varistor. For this reason, the contact piece contacts the electrode of the varistor.
According to the invention described in claim 2, when the contact piece is bent along the groove, the contact piece comes into contact with the electrode of the varistor.
[0018]
According to the invention described in claim 3, each contact piece of commutator abuts at least horn electrodes. Therefore, positioning of the varistor can be omitted.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the varistor 10 is formed in a ring shape. On the plane of the varistor 10, three concentric electrodes 11 are formed at a predetermined interval. That is, the concentric electrodes 11 are formed point-symmetrically.
[0023]
The rotor 20 includes a core 22 fixed to a rotating shaft 21. In the core 22, three slots 23 are formed at intervals of 120 degrees. A winding 24 is wound around the teeth formed between the slots 23. An insulator 25 is fixed to the rotating shaft 21. A flange 26 is formed at the lower end of the insulator 25. On the side surface of the flange 26, three locking pieces 27 for locking the inner peripheral surface of the varistor 10 are erected at intervals of 120 degrees.
[0024]
The commutator 30 is composed of three commutator pieces 31. Each commutator piece 31 is fixed to the insulator 25. At the lower end of each commutator piece 31, a winding 24 is connected and a riser 32 for placing the varistor 10 is extended. Each riser 32 is provided with three contact pieces 33 that contact the electrode 11 of the varistor 10. Each contact piece 33 is slightly expanded upward. The length of each contact piece 33 is different for each commutator piece 31. Specifically, the length of each contact piece 33 is determined so as to correspond to the three concentric electrodes 11.
[0025]
As shown in FIGS. 2A and 2B, each abutting piece 33 is formed with a hemispherical abutting portion 33 a. Each contact piece 33 is formed with a V-shaped groove 33 b corresponding to the electrode 11 of the corresponding varistor 10. Specifically, V-shaped grooves 33 b are formed corresponding to the distances to the three concentric electrodes 11. As a result, each contact piece 33 can be easily bent along the V-shaped groove 33 b, and the contact portion 33 a can be brought into contact with the electrode 11 of the varistor 10. In addition, at this time, there is no possibility that the folding position of each contact piece 33 is wrong.
[0026]
As shown in FIG. 1, when the varistor 10 is attached to the commutator 30, the inner peripheral surface of the varistor 10 is locked to the three locking pieces 27 and the outer peripheral surface of the varistor 10 is locked to the three contact pieces 33. Stop. That is, the varistor 10 is held between the three locking pieces 27 and the three contact pieces 33. At this time, each contact piece 33 is slightly expanded upward. For this reason, even if the contact part 33a of each contact piece 33 protrudes, the varistor 10 does not contact the hemispherical contact part 33a. Therefore, the varistor 10 can be easily disposed on the riser 32.
[0027]
Subsequently, as shown in FIG. 3, the three contact pieces 33 having different lengths are sequentially bent so as to contact the electrode 11 of the varistor 10. Specifically, for example, the longest contact piece 33 is bent along the V-shaped groove 33 b so as to contact the electrode 11 closest to the center of the varistor 10. Subsequently, the second longest contact piece 33 is bent along the V-shaped groove 33 b so as to contact the second closest electrode 11 from the center of the varistor 10. Finally, the third longest contact piece 33 is bent along the V-shaped groove 33 b so as to contact the third closest electrode 11 from the center of the varistor 10. As a result, the contact portions 33a of all the contact pieces 33 contact the electrodes 11 of the varistor 10. At this time, the contact piece 33 restricts the upward movement of the varistor 10.
[0028]
And the rotor 20 comprised in this way is arrange | positioned in the motor case (not shown) which has a pair of permanent magnet 40 which comprises a stator. Further, when the commutator 30 is disposed between the pair of brushes 50, a DC motor 60 including the varistor 10 is obtained.
[0029]
As described above, according to the present embodiment, the following operations and effects can be obtained.
(1) Three concentric electrodes 11 are formed on the plane of the ring-shaped varistor 10 at a predetermined interval. That is, the concentric electrodes 11 are formed point-symmetrically. For this reason, even when the varistor 10 is attached to the commutator 30, it is not necessary to consider the positioning of the varistor 10. Therefore, positioning of the varistor 10 can be omitted. Therefore, there is no room for work man-hours for positioning the varistor 10.
[0030]
(2) Moreover, the length of each contact piece 33 in the commutator 30 is different for each commutator piece 31. Specifically, the length of each contact piece 33 is determined so as to correspond to the three concentric electrodes 11. For this reason, each contact piece 33 can be bent and brought into contact with each electrode 11 of the varistor 10. Therefore, soldering between the electrode 11 of the varistor 10 and the contact portion 33a can be omitted.
[0031]
(3) Each contact piece 33 is formed with a hemispherical contact portion 33a. Each contact piece 33 is formed with a V-shaped groove 33 b corresponding to the electrode 11 of the corresponding varistor 10. Specifically, V-shaped grooves 33b corresponding to the distances to the three concentric electrodes 11 are formed. For this reason, each contact piece 33 can be bent along the V-shaped groove 33b. Therefore, the contact portion 33a can be easily brought into contact with the electrode 11 of the varistor 10, and there is no possibility that the bending position is wrong.
[0032]
In addition, the said embodiment can also be changed and actualized as follows.
As shown in FIGS. 4A and 4B, a configuration in which the radial electrodes 11 having more slots than the cores 22 constituting the rotor 20 are formed on the plane of the varistor 10 may be employed. Specifically, for example, the electrode 11 having twice or more the number of slots may be formed on the plane of the varistor 10. At this time, in FIG. 4A, the distance between the end portions of the adjacent electrodes 11 needs to be shorter than the distance between the pair of contact portions 33a. Further, in FIG. 4B, the distance between the end portions of the adjacent electrodes 11 needs to be shorter than the contact length with which the contact portion 33a contacts. In addition, it is necessary that a certain contact piece 33 and another contact piece 33 do not contact the same electrode 11. In this case, the electrode 11 may be formed point-symmetrically or not point-symmetrically. Further, the length of each contact piece 33 of the commutator 30 and the position of the V-shaped groove 33b may be the same. With this configuration, each contact piece 33 of the commutator 30 contacts the at least one electrode 11 even when the varistor 10 is attached to the commutator 30. Therefore, positioning of the varistor 10 can be omitted. In FIG. 4, only one contact piece 33 is illustrated for simplification.
[0033]
As shown in FIGS. 4 (c) and 4 (d), an electrode having more slots than the core 22 constituting the rotor 20 may be formed on the outer peripheral surface of the varistor 10. Specifically, for example, the electrode 11 having twice or more the number of slots may be formed on the plane of the varistor 10. At this time, the distance between the end portions of the adjacent electrodes 11 needs to be shorter than the contact length with which the contact portion 33a contacts. In addition, it is necessary that a certain contact piece 33 and another contact piece 33 do not contact the same electrode 11. In this case, the electrode 11 may be formed point-symmetrically or not point-symmetrically. In addition, as shown in FIG. 4C, the end in the circumferential direction of the electrode 11 formed on the outer peripheral surface of the varistor 10 may be perpendicular to the circumferential direction. Moreover, as shown in FIG.4 (d), the edge part of the circumferential direction in the electrode 11 formed in the outer peripheral surface of the varistor 10 may incline with respect to the circumferential direction. With this configuration, each contact piece 33 of the commutator 30 contacts the at least one electrode 11 even when the varistor 10 is attached to the commutator 30. Therefore, positioning of the varistor 10 can be omitted.
[0034]
In the above-described embodiment, one contact piece 33 is provided for one commutator piece 31, but two contact pieces 33 are provided for one commutator piece 31. There may be.
[0035]
In addition, as shown in FIG. 5A, a configuration may be adopted in which a slit is formed at the center of the tip of the contact piece 33 and a plurality of contact pieces 33 are provided. Then, if the contact piece 33 configured in this way is applied to, for example, the varistor 10 in which the plurality of electrodes 11 shown in FIG. 4A is formed, the contact piece 33 of the contact piece 33 is independent of the mounting position of the varistor 10. The contact portion 33 a contacts the electrode 11 of the varistor 10. Therefore, positioning of the varistor 10 can be omitted, and soldering between the electrode 11 of the varistor 10 and the contact portion 33a can be omitted.
[0036]
As shown in FIGS. 5B and 5C, the contact piece 33 may be formed by using a long hemispherical contact portion 33a. If comprised in this way, the hemispherical contact part 33a will contact | abut at least 1 electrode 11. FIG. Therefore, positioning and soldering of the varistor 10 can be omitted as described above.
[0037]
The commutator piece 31 and the contact piece 33 may be integrally formed, or the commutator piece 31 and the contact piece 33 may be separated. As a separate body, a configuration in which the contact piece 33 is attached to and detached from the riser 32 of each commutator piece 31 is conceivable.
[0038]
In the above-described embodiment, the three-slot core 22 has been described. Of course, the above-described embodiment may be applied to the seven-slot and nine-slot cores 22.
[0040]
【The invention's effect】
According to the present invention, positioning and soldering of the varistor can be omitted.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a rotor.
FIG. 2A is a plan view showing a contact piece. (B) The side view which shows a contact piece.
FIG. 3 is a plan view showing a varistor and a contact piece.
4A to 4D are perspective views showing electrodes of a varistor in another embodiment. FIG.
FIGS. 5A to 5C are plan views showing contact pieces in another embodiment. FIGS.
6A and 6B are perspective views showing a varistor and a commutator in the prior art.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Varistor, 11 ... Electrode, 20 ... Rotor, 22 ... Core, 23 ... Slot, 30 ... Commutator, 31 ... Commutator piece, 33 ... Contact piece, 33a ... Contact part, 33b ... V as groove Groove, 60 ... DC motor as a motor.

Claims (5)

A commutator having a plurality of commutator segments each commutator segment consists is fixed to the rotary shaft, a core positioned on the lower side of the commutator in the axial direction of the rotary shaft, and a varistor which is formed in a ring shape The varistor is attached to the commutator so that the commutator is positioned inside the varistor, and the commutator is in contact with the electrode of the varistor,
Each of the commutator pieces is extended with a riser for mounting the varistor from the rotating shaft toward the outer side in the radial direction of the rotor, and each of the risers has a contact piece that contacts the electrode of the varistor. Erected toward the opposite side,
The varistor, the the side of the surface to be placed on the riser in the axial direction of the rotating shaft on the opposite side, made form a plurality of electrodes, each constituting a diameter different concentric,
A plurality of the contact pieces are provided corresponding to each of the plurality of electrodes in the varistor, and each contact piece has a length corresponding to the distance from the contact piece to the corresponding electrode. An abutting portion that abuts on an electrode corresponding to the abutting piece is formed at an end of each abutting piece, and an abutting portion of each abutting piece corresponds to the abutting piece. The rotor is bent toward the electrode side so as to come into contact with the rotor. The rotor according to claim 1,
Each of the contact pieces has a rotor formed with a groove corresponding to the distance to the electrode corresponding to the contact piece. A commutator having a plurality of commutator segments each commutator segment consists is fixed to the rotary shaft, a core positioned on the lower side of the commutator in the axial direction of the rotary shaft, and a varistor which is formed in a ring shape The varistor is attached to the commutator so that the commutator is positioned inside the varistor, and the commutator is in contact with the electrode of the varistor,
Each of the commutator pieces is extended with a riser for mounting the varistor from the rotating shaft toward the outer side in the radial direction of the rotor, and each of the risers has a contact piece that contacts the electrode of the varistor. Erected toward the opposite side,
Forming wherein the varistor, the surface opposite to the side of the surface to be placed on the riser in the axial direction of the rotary shaft, more electrodes than the number of slots said core at predetermined intervals in the circumferential direction of the varistor And
A plurality of the contact pieces are provided , and each contact piece is formed with a pair of contact portions that can contact the electrodes of the varistor , and each contact piece has the contact portion of the varistor. It is bent toward the electrode side so as to contact the electrode ,
By the distance between the ends of the electrodes adjacent to each other in the circumferential direction have you to the varistor is formed to be shorter than the distance between the pair of abutting portions of the respective contact piece, wherein each contact piece has at least A rotor configured to abut one electrode. In the rotor according to any one of claims 1 to 3,
Each commutator piece of the commutator is fixed to the rotating shaft via an insulator, and a flange is formed at the lower end on the core side of the insulator, and the flange has an inner peripheral surface of the varistor. A locking piece for locking is provided,
The varistor is a rotor whose outer peripheral surface is locked by the contact piece and whose inner peripheral surface is locked by the locking piece . The motor provided with the rotor of any one of Claims 1-4.

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