JP4814778B2 - Electric motor - Google Patents

Description

  The present invention relates to an electric motor, for example, an electric motor suitable for use in a brake fluid pressure control device for a vehicle.

  Conventionally, as this type of electric motor, a brush holder attached to an opening of a yoke, a brush that comes into contact with a commutator (commutator), a brush housing portion that movably houses the brush, and a brush housing portion A coil spring that urges the brush toward the commutator side and a spring stopper that is temporarily fixed to the other end of the brush housing portion are known (for example, see Patent Document 1).

In this electric motor, the spring stopper is attached to the brush housing portion by locking the claw portion of the spring stopper to the brush housing portion, thereby preventing the brush and the coil spring from coming off.
Conventionally, an electric motor in which a pigtail connected to a brush is arranged in a circumferential direction around the motor shaft (a circumferential direction of the yoke) in order to keep the axial dimension short is also known.
JP 2005-45872 A

  By the way, when the pigtail is arranged in the circumferential direction around the motor shaft to keep the axial dimension short with respect to the electric motor described in Patent Document 1, the following problems arise. That is, since the claw portion of the spring stopper is locked to the side of the brush housing portion, if a connection portion between the brush and the pigtail is provided at the end of the brush on the spring stopper side, this interferes with the claw portion. Since the pigtail may be damaged, it is necessary to displace the connecting portion on the commutator side. As a result, the allowable wear length of the brush is shortened, resulting in a problem that the life of the electric motor is shortened.

  From such a viewpoint, it is an object of the present invention to provide an electric motor that can increase the allowable wear length of a brush and can increase the life.

  The present invention for solving such problems includes a bottomed cylindrical yoke, a brush holder attached to the opening of the yoke, and an insertion port provided in the brush holder and opening on the peripheral wall side of the yoke. A brush housing part into which a brush that contacts the commutator from the insertion port is inserted, and the brush that is inserted from the insertion port of the brush housing unit and inserted into the brush housing unit is attached to the commutator side. A brush spring that is energized, a stopper that is locked to the insertion port side of the brush accommodating portion, and that holds the brush inserted into the brush accommodating portion and the brush spring, and that faces the circumferential direction of the yoke A pigtail connected to the surface of the brush, a guide groove provided in the brush accommodating portion, passing through the pigtail, and provided in the stopper; A claw portion that is locked to the brush accommodating portion and closes the opening of the end portion of the guide groove, and the claw portion includes the pigtail at a position corresponding to a connection portion between the brush and the pigtail. It is characterized in that a recess is provided to avoid the interference.

  According to this electric motor, when the stopper is attached to the brush accommodating portion, the claw portion of the stopper closes the opening of the end portion of the guide groove through which the pigtail is inserted, so that the slide of the brush connected to the pigtail is regulated by the claw portion. However, since the nail portion is provided with a recess portion that avoids interference with the pigtail at a position corresponding to the connection portion between the brush and the pigtail, the brush provided on the end portion of the brush, for example, The connection portion with the pigtail can be positioned in the recess of the claw portion of the stopper. Therefore, the distance from the commutator to the connection portion can be set longer accordingly. As a result, the allowable wear length of the brush can be increased, and the life of the electric motor can be increased.

  ADVANTAGE OF THE INVENTION According to this invention, the wearable length of a brush can be lengthened and the electric motor which can aim at the increase in a lifetime is obtained.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected to the same element and the overlapping description is abbreviate | omitted. In the following embodiments, an electric motor used in a vehicle brake hydraulic pressure control device is illustrated, but the application of the electric motor according to the present invention is not limited.

  As shown in FIG. 1, the electric motor M according to the present embodiment is applied to a vehicle brake hydraulic pressure control device U and serves as a power source for a reciprocating pump P mounted on a base body 100. It is integrally fixed to one surface of 100.

  In addition to the electric motor M, the base 100 has a reciprocating pump P, a normally open solenoid valve 101, a normally closed solenoid valve 102, a pressure sensor 103, A reservoir 104, a control housing 105, and the like are attached. As shown in FIG. 2, the control housing 105 includes a control board 106 for controlling the electric motor M and the electromagnetic valves 101 and 102, a connection terminal 107 for supplying electric power to the electric motor M, and the electromagnetic valves 101 and 102. The electromagnetic coil 108 and the like for driving are accommodated.

  The electric motor M includes a motor housing 10, a stator 20, a rotating shaft 30, a rotor 40, a commutator (commutator) 50, a brush 60, a brush holder 70, a brush accommodating portion 73, a coil spring 73b, a stopper 74, a pigtail 80 ( 3) and the like.

  The motor housing 10 includes a yoke 11 that is formed in a substantially bottomed cylindrical shape, and a cover 12 that covers the opening of the yoke 11. A ball bearing 11 b is fixed to the bottom of the yoke 11. A ball bearing 12 a is fixed inside the cover 12.

  The rotating shaft 30 is provided on a main shaft portion 31 rotatably supported by the ball bearings 11 b and 12 a, an eccentric shaft portion 32 projecting from an end surface of the main shaft portion 31, and an end surface of the eccentric shaft portion 32. And a distal end shaft portion 33. A ball bearing 32a that is in contact with a plunger (not shown) of the reciprocating pump P shown in FIG. 1 is fitted in the eccentric shaft portion 32 so that the plunger can reciprocate between the eccentric shaft portion 32 and the ball bearing 32a. The eccentric cam is configured. The tip shaft portion 33 is coaxially supported by the main shaft portion 31 and is rotatably supported by a ball bearing 33 a fixed to the mounting hole 110 of the base body 100. A seal member 111 is interposed between the base body 100 and the electric motor M.

  The rotor 40 includes a core 41 fitted into the main shaft portion 31 of the rotating shaft 30, an insulator 42 covering the core 41, and a magnet wire (armature winding) 43 wound around a slot formed in the core 41. It has. The rotor 40 is located on the inner peripheral side of the stator 20.

  The commutator 50 is fitted in the main shaft portion 31 between the rotor 40 and the ball bearing 12 a and rotates together with the main shaft portion 31. The brush 60 contacts the outer peripheral surface of the commutator 50.

The brush 60 is movably accommodated in the brush accommodating portion 73 while being urged toward the commutator 50 by a coil spring 73b as a brush spring, and the tip surface of the brush 60 is energized by the urging force of the coil spring 73b. It comes in contact with the outer peripheral surface.
The brush 60 is connected to a pigtail 80 for power supply at the rear end of one surface (the surface facing the circumferential direction of the yoke 11). The brush 60 is inserted into the brush accommodating portion 73 by inserting the pigtail 80 into a guide groove 73 d described later of the brush accommodating portion 73.

  In the brush holder 70, a holder main body 70A is disposed so as to surround the commutator 50, and a rod-like portion 70B protrudes from the holder main body 70A. The brush holder 70 is fixed by fitting the holder main body 70 </ b> A into the yoke 11 between the cover 12 and the rotor 40.

  When the electric motor M is assembled to the base body 100, the rod-like part 70 </ b> B is inserted into the insertion hole 109 formed in the base body 100, and the tip portion protrudes toward the control housing 105 side. The rod-like portion 70B includes two power supply paths 78 made of a conductor (only one is shown in FIG. 2). The power supply path 78 is disposed over the entire length of the rod-shaped portion 70B, and the base end portion thereof is connected to a connection terminal 70c that protrudes from the holder main body 70A into the rod-shaped portion 70B. The tip of the power supply path 78 is connected to the connection terminal 107 of the control housing 105 when the electric motor M is assembled to the base body 100.

  As shown in FIG. 3A, the holder main body 70A has an annular portion 71 provided with a circular opening 71a through which the commutator 50 (see FIG. 2) is inserted, and an outer peripheral edge of the annular portion 71 at a predetermined interval. A peripheral wall portion 72 placed upright, a plurality (four in this embodiment) of brush housing portions 73, 73,..., Which are arranged radially around the opening portion 71 a of the annular portion 71, and the brush housing portion 73. And the same number of terminals 75, 75,.

  In the annular portion 71, the peripheral portion of the portion where the brush accommodating portion 73 is disposed (the portion where the peripheral wall portion 72 is not erected) is notched in a concave shape, and each notched portion 71b of the notched portion 71b is cut. The insertion opening 73g on the rear end surface of the brush accommodating portion 73 is exposed in the space.

  The peripheral wall portion 72 is formed on the inner surface of the annular portion 71 (the surface facing the rotor 40 shown in FIG. 2), and is fixed to the inner wall surface 11a of the yoke 11 (see FIG. 2).

  The brush housing 73 holds the brush 60 in a slidable manner, and is formed on the inner surface side of the annular portion 71 in this embodiment. The brush accommodating portion 73 has a rectangular cylindrical shape (see FIG. 3B), and the tip surface facing the opening 71a (the surface on the side of the commutator 50, see FIG. 2) is opened so that the brush 60 can protrude. And an insertion port 73g is opened in the rear end face (the surface on the peripheral wall 11a side of the yoke 11, see FIG. 2) facing the space of the notch 71b, and the brush spring that biases the brush 60 toward the commutator 50. The coil spring 73b can be inserted. A guide groove 73d (see FIG. 3B) for inserting the pigtail 80 connected to the rear end portion of the brush 60 is formed on one side surface of the brush housing portion 73 (a surface facing the circumferential direction of the yoke 11). It is formed along the sliding direction of the brush 60. The guide groove 73d is provided on the same side surface in all the brush accommodating portions 73. As a result, the brush accommodating portion 73 is formed in an inverted C-shaped cross section as shown in FIG.

In the present embodiment, the coil spring housing grooves 73e ₁ and 73f ₁ along the longitudinal direction of the coil spring 73b (see FIG. 3C) are formed on the inner wall surface 73e of the brush housing portion 73 and the inner wall surface 73f of the bottom wall. Is formed. The coil spring accommodating groove 73e ₁ formed in the inner wall surface 73e is formed in a circular arc shape along the outer peripheral portion of the coil spring 73b, and a part of the side portion (right outer peripheral portion) of the coil spring 73b is accommodated. It is like that. The coil spring accommodating groove 73f _1, which is formed on the inner wall surface 73f is formed in a concave shape, and a portion the bottom of the coil spring 73b (lower outer peripheral portion) is housed.
Further, the guide groove 73d of the brush accommodating portion 73 has its inner corner portions 73d ₁ and 73d ₂ chamfered in a circular arc shape along the outer peripheral portion of the coil spring 73b, and a side portion (left outer peripheral portion) of the coil spring 73b. ) Is held in this chamfered and expanded space.

The brush accommodating portion 73 has such coil spring accommodating grooves 73e ₁ , 73f ₁ and chamfered inner corner portions 73d ₁ , 73d ₂ so that the volume of the internal space matches the outer diameter of the coil spring 73b. As a result, as shown in FIG. 3C, the brush housing 73 has an outer diameter d2 larger than the width d1 of the brush 60. The coil spring 73b can be accommodated. The coil spring 73b has a brush housing portion 73 in a state in which the radial distortion is substantially restricted by the coil spring housing grooves 73e ₁ and 73f ₁ and the chamfered inner corner portions 73d ₁ and 73d ₂ . It is accommodated in a telescopic manner. The coil spring 73b has a flat tip end (see FIG. 3A), and as shown in FIG. 3C, the upper end 60a and the lower portion 60b of the rear end surface of the brush 60 are predetermined. The brushes 60 are pressed against the positions evenly and with equal force. Therefore, in combination with the fact that the radial distortion is substantially restricted as described above, a uniform urging force is applied to the brush 60 from the coil spring 73b.

As shown in FIGS. 3A and 4, the stopper 74 is locked to the rear end surface of the brush accommodating portion 73 (the surface on the peripheral wall portion 11 a side of the yoke 11, see FIG. 2) and is formed on the rear end surface. Further, the insertion opening 73g (see FIG. 3A) is closed, and the brush 60 and the coil spring 73b inserted into the brush accommodating portion 73 are prevented from being detached.
As shown in FIGS. 5A to 5C, the stopper 74 has a plate-like base portion 74a curved in an arc shape, and both ends of the base portion 74a toward the brush accommodating portion 73 (see FIG. 3A). Claw portions 74b and 74b projecting toward the head, and a holding portion 74c projecting from the center portion of the base portion 74a toward the brush housing portion 73 (see FIG. 3A). Then, as shown in FIG. 2, when such a stopper 74 is locked to the rear end surface side of the brush housing portion 73 and the brush holder 70 is attached to the opening of the yoke 11, the base portion 74a of the stopper 74 and its A gap S is formed between the peripheral wall portion 11a and the peripheral wall portion 11a. That is, the stopper 74 does not come into contact with the peripheral wall portion 11 a of the yoke 11.

The base portion 74a constituting the stopper 74 has a size that covers the rear end surface of the brush accommodating portion 73, and as shown in FIGS. 5 (a) and 5 (b), on the side of the base end portion of the claw portion 74b. Long slits 74a ₁ and 74a ₁ are formed along the base end. Such slits 74a ₁ and 74a ₁ cause good bending in the direction in which the distance between the claw portions 74b and 74b is widened when the slits 74a ₁ and 74a ₁ are locked to the brush accommodating portion 73. Therefore, a light locking operation of the stopper 74 is realized.

As shown in FIGS. 3A and 4, the claw portions 74 b and 74 b are engaged with stepped portions 73 h and 73 h provided at both sides of the rear end portion of the brush accommodating portion 73, respectively. In the locked state, as shown in FIG. 4, the opening of the rear end portion of the guide groove 73d formed in the brush accommodating portion 73 is closed (only one place is illustrated). ).
Further, a recess 74b ₁ (see FIG. 5C) cut out in an arc shape is formed at the tip of the claw 74b. When the stopper 74 is locked to the brush accommodating portion 73, the recessed portion 74b ₁ is positioned on the side of the rear end portion of the guide groove 73d so that the connecting portion between the brush 60 and the pigtail 80 can be accommodated (FIG. 7 ( a)). That is, when the stopper 74 is locked to the brush accommodating portion 73, the opening at the rear end portion of the guide groove 73d is covered and closed by the claw portion 74b, but is recessed to the side of the rear end portion of the guide groove 73d. The portion 74b ₁ is located, and the guide groove 73d is exposed to the rear end side by the amount corresponding to the recessed portion 74b ₁ . Thus, the connection portion between the brush 60 and the pigtail 80 can be accommodated and will to the recess 74b _1, interference between the pigtail 80 and the claw portion 74b is adapted to be avoided by the notch portion of the recess portion 74b ₁ .

As shown in FIG. 5 (a), the holding portion 74c has a cylindrical shape that is formed with a thin tip end and can be inserted into the rear end of the coil spring 73b (see FIG. 3 (a)). As shown in FIG. 3A, the holding portion 74c is inserted into the rear end portion of the coil spring 73b when the stopper 74 is locked, and the insertion opening 73g on the rear end surface of the brush accommodating portion 73 is inserted. The rear end of the coil spring 73b is held, and the rear end of the coil spring 73b is positioned at a predetermined position in the brush accommodating portion 73. When the rear end portion of the coil spring 73b is held by the holding portion 74c and the holding portion 74c is inserted into the insertion port 73g, the holding portion 74c is connected to the upper and lower surfaces in the insertion port 73g via the coil spring 73b. It is in contact with the closely contacted state, so that the positional deviation of the stopper 74 itself can be suppressed. Therefore, when the stopper 74 is locked to the brush housing portion 73, the movement of the claw portion 74b along the step portion 73h (movement in the axial direction of the rotating shaft 30) is prevented, and the step portion 73h and the claw portion are prevented. The locking with 74b is maintained, and the stopper 74 is prevented from falling off.
As shown in FIGS. 5A to 5C, the holding portion 74c is provided at the center portion of the base portion 74a, and the spring force of the coil spring 73b acting on the base portion 74a is thereby reduced by the base portion 74a. As a result, it acts as a force in a direction in which the distance between the claw portions 74b, 74b provided at both ends of the base portion 74a is narrowed. Therefore, the claw portions 74b and 74b are strongly locked toward the stepped portions 73h and 73h, and the locking force of the stopper 74 is increased.

As shown in FIGS. 3A and 4, the terminal 75 is exposed on the inner surface side of the annular portion 71 and is disposed at a portion close to the brush housing portion 73. The end of the pigtail 80 is connected to each terminal 75 via a connection terminal.
A part of the terminal 75 penetrates from the inner surface side to the outer surface side of the holder main body 70A via a terminal (not shown), and is connected to a connection terminal 70c provided on the outer surface side, and is connected to the power feeding path 78 of the rod-shaped portion 70B. Has been.

  One end of the pigtail 80 is connected to the side of the rear end of the brush 60 as described above, and the other end is connected to the terminal 75 via the connection terminal 81. The pigtail 80 is formed by weaving a plurality of conductive wires, and has enough flexibility to follow the movement of the brush 60.

A procedure for assembling the brush 60 of the electric motor M configured as described above will be described.
When the brush 60 is assembled to the brush housing portion 73, it is inserted by being inserted from an insertion port 73g provided at the rear end portion of the brush housing portion 73 as shown in FIG. When the brush 60 is inserted, the pigtail 80 connected to the rear end portion of the brush 60 is passed through the guide groove 73d of the brush accommodating portion 73, and the pigtail 80 is pulled out to the terminal 75 side. The spring 73b is inserted from the insertion port 73g.

  Then, the stopper 74 is applied from the rear surface side of the coil spring 73b, the holding portion 74c of the stopper 74 is inserted into the rear end portion of the coil spring 73b, and the holding portion 74c is inserted into the insertion port 73g while compressing the coil spring 73b. . Then, the claw portions 74 b and 74 b of the stopper 74 are locked to the step portions 73 h and 73 h of the brush housing portion 73. Thereby, in a state where the brush 60 and the coil spring 73b are accommodated in the brush accommodating portion 73, the insertion port 73g of the brush accommodating portion 73 is blocked by the stopper 74, and the brush 60 and the coil spring 73b are prevented from coming off.

  By such assembly, the coil spring 73b is accommodated in the brush accommodating portion 73 in a state where the set length is set to a predetermined length. Note that whether or not the holding portion 74c is correctly inserted into the rear end portion of the coil spring 73b can be checked by visual confirmation through a through hole 73a formed in the upper surface of the brush housing portion 73.

Next, as shown in FIG. 6, a procedure for mounting the holder main body 70A (70) on the yoke 11 will be described.
(1) Prior to mounting the holder main body 70A, first, the rotor 40 and the commutator 50 are press-fitted into the rotating shaft 30 and assembled.
(2) The brush 60, the coil spring 73b, and the stopper 74 are assembled to the brush holder 70, and the brush holder 70 is inserted into the rotating shaft 30.
(3) From above, the cover 12 into which the ball bearing 12a is press-fitted is press-fitted into the rotary shaft 30 and assembled.
(4) Finally, the parts assembled in the above (1) to (3) are press-fitted and assembled to the yoke 11 to which the ball bearing 11b and the stator 20 are fixed in advance.
By this press-fitting, the peripheral wall portion 72 of the holder main body 70 </ b> A comes into contact with and is fixed to the peripheral wall portion 11 a of the yoke 11. The peripheral wall portion 72 is fixed at a predetermined position by a positioning member (not shown) protruding from the peripheral wall portion 11a of the yoke 11.

  Thus, when the holder main body 70A is attached to the opening of the yoke 11, the gap S between the peripheral wall 11a of the yoke 11 and the stopper 74 is formed by the notch 71b formed in the peripheral edge of the holder main body 70A. Is formed. Thereby, it is possible to prevent the stopper 74 from receiving an external force as in the case of the assembly in which the peripheral wall portion 11a comes into contact. Therefore, the set length of the coil spring 73b set at the time of assembling is satisfactorily maintained without greatly changing even after mounting.

Here, the claw portion 74b of the stopper 74 is in the position corresponding to the connection portion between the brush 60 and the pigtail 80, since the recess 74b ₁ avoiding interference with the pigtail 80 is provided, FIGS. 7 (a) as shown in the connection portion of the pigtail 80, it is possible to set which is positioned within the recess 74b ₁ of the claw portion 74b. That is, the position of the connection portion of the pigtail 80 can be provided by moving to the rear end side of the brush 60, whereby the allowable wear length L of the brush 60 can be set longer.
The movement by the use, the brush 60, when worn, the connection portion of the pigtail 80, by the urging force of the coil spring 73b, along the guide groove 73d from the inside recess 74b ₁ of the claw portions 74b to the commutator 50 side In addition, good contact of the brush 60 with the commutator 50 is maintained.

According to the electric motor M according to the present embodiment configured as described above, there is a gap between the peripheral wall portion 11a of the yoke 11 and the stopper 74 in a state where the holder main body 70A is attached to the opening of the yoke 11. Since S is formed, after the holder main body 70A is mounted on the yoke 11, they do not come into contact with each other. As in the past, the coil spring can be obtained by accumulating the dimensional tolerances and assembly tolerances of individual parts. There is no possibility of variation in the set load of 73b. That is, when the brush 60 and the coil spring 73b are accommodated in the brush accommodating portion 73 and the stopper 74 is attached to the insertion port 73g of the brush accommodating portion 73, the set length of the coil spring 73b is set to a predetermined length. The length is maintained unchanged even after the holder main body 70A is attached to the opening of the yoke 11. Therefore, the set load of the coil spring 73b is prevented from becoming unnecessarily large or unnecessarily small, and the brush 60 can be brought into contact with the commutator 50 with a stable spring contact pressure.
Thereby, the lifetime of the electric motor M can be increased.

The inner wall surfaces 73e and 73f of the brush housing portion 73 and the guide groove 73d have coil spring housing grooves 73e ₁ and 73f ₁ and chamfered inner corner portions 73d ₁ and 73d ₂ along the longitudinal direction of the coil spring 73b. Since it is formed, a part of the outer peripheral portion of the coil spring 73b can be accommodated in the coil spring accommodating grooves 73e ₁ , 73f ₁ and the inner corner portions 73d ₁ , 73d _2. The diameter of the coil spring 73b can be increased as compared with those not forming 73e ₁ , 73f _{1 and the} like. Therefore, the spring constant of the coil spring 73b can be kept small without changing the size of the brush accommodating portion 73.

By the way, in the conventional electric motor in which the spring constant of the coil spring 73b is set to be large, when the brush 60 is worn by use, the spring load greatly changes with the change in the compression state of the coil spring 73b. There is a possibility that the brush 60 cannot be brought into contact with the commutator 50 with a stable spring contact pressure.
In contrast, in this embodiment, it is possible to receive a portion of the outer peripheral portion of the coil spring 73b to the brush accommodating portion 73 a coil spring receiving groove 73e 1 _formed, 73f _1, etc., of the coil spring 73b The diameter can be increased, the spring constant can be kept small, and the problem that the spring load greatly changes due to wear of the brush 60 can be suitably prevented. Therefore, the brush 60 can be brought into contact with the commutator 50 with a long-term stable spring contact pressure.

When the electric motor M is small, the length of the brush accommodating portion 73 is difficult to be secured in a limited space in the yoke 11, and thus the coil spring accommodating grooves 73e ₁ , 73f _{1 and the} like are provided in this way. Utilizing the coil spring 73b to have a large diameter and keeping the spring constant small is effective in further reducing the size of the electric motor M.
Furthermore, by forming the coil spring housing grooves 73e ₁ and 73f ₁ and the chamfered inner corner portions 73d ₁ and 73d ₂ , the contact area between the brush 60 and the brush housing portion 73 is reduced, so that the sliding resistance is reduced. The brush 60 can move well.

  Further, since the stopper 74 is provided with a holding portion 74c for holding the rear end portion of the coil spring 73b, the rear end portion of the coil spring 73b can be held at a predetermined position of the stopper 74, and the coil spring 73b. It is possible to prevent the load from being offset. Thereby, the brush 60 can be brought into contact with the commutator 50 with a stable spring contact pressure while preventing uneven wear.

  Further, when the stopper 74 is attached to the brush housing portion 73, the claw portion 74b of the stopper 74 closes the opening of the end portion of the guide groove 73d through which the pigtail 80 is inserted. It is possible to suitably prevent the brush 60 from coming off.

  Further, when the stopper 74 is locked to the brush accommodating portion 73, the holding portion 74c is accommodated in the brush accommodating portion 73 via the coil spring 73b, so that the stopper 74 is prevented from falling off in the axial direction of the electric motor M. it can.

  It should be noted that a recess may be formed in the peripheral wall portion 11 a of the yoke 11 facing the stopper 74 so that a gap S is formed between the stopper 74. Further, such a recess may be provided together with the notch 71b so that the gap S is set wide.

Further, when the stopper 74 is attached to the brush accommodating portion 73, the claw portion 74b of the stopper 74 closes the opening of the end portion of the guide groove 73d through which the pigtail 80 is inserted, so that the sliding of the brush 60 is regulated by the claw portion 74b. Although the it, the claw portion 74b, at a position corresponding to the connection portion between the brush 60 and the pigtail 80, since the recess 74b ₁ avoiding interference with the pigtail 80 is provided, the connecting portion, the stopper it can be positioned in the recess portion 74b ₁ of the claw portion 74b of the 74. Therefore, the distance (length L, see FIG. 7A) from the commutator 50 to the connection portion of the pigtail 80 can be set longer accordingly. As a result, the allowable wear length (L) of the brush 60 can be increased, and the life of the electric motor M can be increased.

When the electric motor M is small, it is difficult to secure the length of the brush housing portion 73 in the limited space in the yoke 11, and thus the recess 74b ₁ of the claw portion 74b of the stopper 74 is thus obtained. In order to further reduce the size of the electric motor M, it is effective to set the allowable wear length (L) of the brush 60 by positioning the connecting portion between the brush 60 and the pigtail 80.

Moreover, the coil spring accommodation groove 73e ₁ etc. along the longitudinal direction of the coil spring 73b should just be provided in at least one of the inner wall surfaces of the brush accommodating part 73. FIG.
Further, the recess 74b ₁ is not limited to the one cut out in an arc shape, and may be one cut out in a triangular shape or a quadrangular shape.
Moreover, the brush accommodating part 73 is not restricted to a square cylinder shape, It is good also as a cylindrical shape and a polygonal cylinder shape according to the shape of the brush 60. FIG.

1 is an exploded perspective view showing a vehicle brake hydraulic pressure control device in which an electric motor according to an embodiment of the present invention is used. 1 is an exploded side sectional view showing a vehicle brake hydraulic pressure control device in which an electric motor according to an embodiment of the present invention is used. (A) is a figure which shows the inner surface of a brush holder, (b) is an expanded sectional view of the bb line, (c) is an expanded sectional view which similarly showed the internal positional relationship. It is the partially-omission perspective view which looked at the brush holder from the inner surface side. It is a figure which shows a stopper, (a) is a top view, (b) is a front view, (c) is a side view. It is explanatory drawing at the time of an assembly | attachment. (A) And (b) is a schematic diagram which shows the set position of a brush.

Explanation of symbols

M electric motor S gap 11 yoke 11a peripheral wall portion 50 commutator 60 brush 70 brush holder 70A holder main body 71b notch portion 73 brush housing portion 73d guide groove 73e inner wall surface 73f inner wall surface 73g insertion port 73h step portion 74b claw portion 74b base portion 74b base portion 74b ₁ recess portion 74c holding portion 73d ₁ , 73d ₂ inner corner portion 73e ₁ coil spring accommodating groove 73f ₁ coil spring accommodating groove 80 pigtail

Claims (1)

A bottomed cylindrical yoke,
A brush holder attached to the opening of the yoke;
A brush housing portion provided in the brush holder, having an insertion port that opens to the peripheral wall portion side of the yoke, and into which a brush that contacts the commutator is inserted from the insertion port;
A brush spring that is inserted from the insertion port of the brush housing portion and biases the brush inserted into the brush housing portion toward the commutator side;
A stopper that is locked to the insertion port side of the brush accommodating portion and holds the brush and the brush spring that are inserted into the brush accommodating portion,
A pigtail connected to the surface of the brush facing in the circumferential direction of the yoke;
A guide groove provided in the brush housing portion and inserted through the pigtail;
A claw portion provided on the stopper and locked to the brush accommodating portion to close the opening of the end portion of the guide groove;
The electric motor according to claim 1, wherein the claw portion is provided with a recess portion that avoids interference with the pigtail at a position corresponding to a connection portion between the brush and the pigtail.

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