The present invention relates to a small-sized motor which can be used for motor-driven retraction and mirror drive of automotive mirrors, adjustment of optical axes of headlights, etc., and more particularly to a small-sized motor whose brush devices have improved characteristics.
The conventional brush devices are press-fitted into the casing cover and held thereby. The casing cover has external terminal insertion openings into which external terminals are inserted for external electrical connection. Paired magnets (not shown) are disposed in the motor casing to be located on opposite sides with respect to the left-right direction of
However, because of an internal terminal structure using the receptacle terminal, the brush arm length, which is the distance from the brush arm fixed end to the brush position, cannot be increased. When the brushes wear, the brush arms turn about their fixed ends toward the commutator. In the case where the brush arm length is short, the turn angles of the brush arms become large when the brushes wear, raising a problem in that a phase shift (a deviation of a circumferential position at which electricity is supplied to the commutator, from an initial neutral position of each brush at which the brush initially comes into contact with the commutator) becomes large. Further, since the brush arm length is short, the brush arms deform when the brushes are opened during assembly of the motor (the brush arms are apt to cause permanent set). In addition, since the pressure under which the carbon brushes come into contact with the commutator changes more greatly when the carbon brushes wear, stable contact between the brushes and the commutator cannot be attained. Further, when external terminals are inserted, their tip end portions come into contact with the corresponding receptacle terminals in a sliding-up direction (a direction opposite the direction in which the receptacle terminals extend from the corresponding brush bases), and as a result the receptacle terminals may deform.
Patent Document 1: Japanese Patent Application Laid-Open (kokai) No. 2001-136712
Patent Document 2: Japanese Utility Model Application Laid-Open (kokai) No. H4-80255
Problems to be Solved by the Invention
The present invention has been accomplished to solve the above-mentioned problems. An object of the present invention is to increase the brush arm length, which is the distance from the fixed end of each brush arm to the position of a corresponding brush, so as to reduce a phase shift produced when brushes wear; reduce a change in pressure with which the brushes come into contact with the commutator to thereby realize stable contact between the brushes and the commutator; and prevent deformation (permanent setting) of the brush arms, which deformation would otherwise occur when the brushes are opened during assembly of the motor.
Another object of the present invention is to enable external terminals to come into contact with corresponding receptacle terminals in a sliding-down direction, to thereby prevent deformation of the receptacle terminals.
Means for Solving the Problems
A brush device for a motor which includes a motor casing having a closed-bottomed hollow tubular shape and holding a pair of magnets attached to an inner circumferential surface thereof; a casing cover fixed to an opening portion of the motor casing and closing the opening portion; and a rotor composed of a multilayer core mounted on a shaft, a winding wound on the multilayer core, and a commutator mounted on the shaft, the brush device being each of paired brush devices attached to the casing cover. Each of the paired brush devices includes a brush in sliding contact with the commutator, a brush arm holding the brush, and a brush base to which the brush arm is fixed. A line connecting the centers of the pair of brushes inclines in relation to a line connecting the centers of the pair of magnets, and the brush arm and the brush base intersect each other. The brush arm and the brush base do not come into contact with each other at a location where they intersect each other. Each of the brush arms is disposed on the outside of the corresponding brush base at a location where the brush arm is fixed to the brush base, and one of the brush arms is bent from the outside of the corresponding brush base toward the inside thereof while being passed through a base hole formed in the brush base.
A motor according to the present invention comprises a motor casing having a closed-bottomed hollow tubular shape and holding a pair of magnets attached to an inner circumferential surface thereof; a casing cover fixed to an opening portion of the motor casing so as to close the opening portion and carrying a pair of brush devices attached thereto; and a rotor composed of a multilayer core mounted on a shaft, a winding wound on the multilayer core, and a commutator mounted on the shaft. Each of the paired brush devices includes a brush in sliding contact with the commutator, a brush arm holding the brush, and a brush base to which the brush arm is fixed and which has a base hole. The pair of brush devices are disposed such that a line connecting the centers of the pair of brushes inclines in relation to a line connecting the centers of the pair of magnets. Each of the brush arms is disposed on the outside of the corresponding brush base at a location where the brush arm is fixed to the brush base, and one of the brush arms is bent from the outside toward the inside of the corresponding brush base while being passed through the base hole.
Further, the brush devices include receptacle terminals formed integrally with the brush bases, and the casing cover includes external terminal insertion openings into which terminals for external electrical connection are inserted so as to be brought into contact with the receptacle terminals. Fixation of each brush device to the casing cover is performed at a fixing portion between the brush arm and the brush base, and a connection portion provided at the distal end of the brush base and integrated with a base portion of the receptacle terminal. Fixation of the connection portion to the casing cover is performed on the inner side of one of flat portions of the casing cover located on opposite side thereof, and the fixing portion between the brush arm and the brush base is disposed on a center line of the casing cover.
Effects of the Invention
According to the present invention, the brush arm length, which is the distance from the fixed end of the brush arm to the position of the brush, can be increased to thereby reduce a phase shift produced when brushes wear, and reduce a change in pressure with which the brushes come into contact with the commutator to thereby realize stable contact between the brushes and the commutator. In addition, deformation (permanent setting) of the brush arms can be prevented, which deformation would otherwise occur when the brushes are opened during assembly of the motor. Moreover, external terminals can be brought into contact with the corresponding receptacle terminals in the sliding-down direction, whereby deformation of the receptacle terminals can be prevented.
Further, even when the brushes are opened, the brushes or the brush arms do not come into contact with the corresponding brush bases. Moreover, since brush opening holes can be formed at symmetrical positions with respect to the center of the bearing held by the casing cover, the moldability of the casing cover is improved, and the dimensional accuracy of the bearing holding portion of the casing cover is improved. The fixing portion between the brush arm and the brush base is disposed on the center line of the casing cover. Therefore, a cumulative dimensional error can be decreased. That is, in the case of a conventional brush device, the cumulative dimensional error is the sum of the “dimensional error of the casing cover” and the “dimensional error of the brush arm.” In contrast, the present invention can reduce the cumulative dimensional error (tolerance) to the “dimensional error (tolerance) of the brush arm” only. Accordingly, the accuracy of brush positions at which the carbon brushes come into sliding contact with the commutator can be increased.
The present invention will next be described with reference to illustrations.
A small-sized motor according to the present invention can employ the configuration of a conventional small-sized motor, except for brush devices and a casing cover to which the brush devices are attached. As shown in
As shown in
As shown in
As described above, in order to enable the paired carbon brushes to be disposed along a line inclined in relation to a line connecting the centers of the magnets, the paired brush devices are not symmetrical with respect to the lateral or longitudinal direction. Both the brush devices are configured such that the brush arm is located on the outer side of the brush base at the staking portion. However, as shown in
A small-sized motor to which the present invention is applied is assembled through a process of passing the shaft, on which the rotor is integrally assembled, through the bearing at the center of the bottom portion of the motor casing, and attaching to the opening portion of the motor casing the casing cover to which the brush devices are attached. At that time, in some cases, an oil-retaining washer (
As shown in
The illustrated brush devices are fixed to the casing cover at a position near the inner surface of the one flat portion such that the connection portion between the brush base and the receptacle terminal extends in the longitudinal direction. In addition, the staking portion between the brush arm and the brush base is disposed on the center line (the magnet center line of the motor) extending in the longitudinal direction of the casing cover and serving as a reference position when the brush devices are disposed. Therefore, a cumulative dimensional error of the carbon brush and the staking portion decreases. That is, in the case of a conventional brush device, the cumulative dimensional error is the sum of the “dimensional error of the casing cover” and the “dimensional error of the brush arm.” In contrast, the present invention can reduce the cumulative dimensional error to the “dimensional error of the brush arm” only. Accordingly, the accuracy of brush positions at which the carbon brushes come into sliding contact with the commutator can be enhanced.
A line connecting the paired carbon brushes located on the commutator inclines in relation to a line connecting the centers of the paired magnets (a horizontal center line in
Number | Date | Country | Kind |
---|---|---|---|
2007-026633 | Feb 2007 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2008/050572 | 1/18/2008 | WO | 00 | 8/4/2009 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2008/096581 | 8/14/2008 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
931415 | Grant | Aug 1909 | A |
3296473 | Mabuchi | Jan 1967 | A |
3450916 | Mabuchi | Jun 1969 | A |
4746829 | Strobl | May 1988 | A |
5015896 | Wong | May 1991 | A |
5138212 | Wong et al. | Aug 1992 | A |
5294852 | Straker | Mar 1994 | A |
6339272 | Sato | Jan 2002 | B1 |
6445104 | Sato | Sep 2002 | B1 |
6603235 | Kimura | Aug 2003 | B1 |
6677694 | Takei et al. | Jan 2004 | B1 |
6768243 | Yamazaki et al. | Jul 2004 | B1 |
6870297 | Kasdorf | Mar 2005 | B1 |
6924577 | Southall et al. | Aug 2005 | B2 |
20020047377 | Sato | Apr 2002 | A1 |
20020047468 | Lee | Apr 2002 | A1 |
20030117036 | Uchida et al. | Jun 2003 | A1 |
20040245885 | Bruhn et al. | Dec 2004 | A1 |
Number | Date | Country |
---|---|---|
1170353 | Oct 2004 | CN |
1183647 | Jan 2005 | CN |
2094561 | Sep 1982 | GB |
2194687 | Mar 1988 | GB |
4-80255 | Jul 1992 | JP |
2000-224815 | Aug 2000 | JP |
2001-136712 | May 2001 | JP |
2003-324906 | Nov 2003 | JP |
Number | Date | Country | |
---|---|---|---|
20100033053 A1 | Feb 2010 | US |