JPS6318945A - Dc motor - Google Patents

Abstract

PURPOSE:To efficiently conduct the heat of a brush to an external section, by forming the brush holder of a ceramic layer on the internal wall surface integrated with a ceramic or metallic end bracket, or by jointing them directly to each other. CONSTITUTION:When current is supplied from a battery to an armature 7 via a brush 3 and a commutator 4, a rotary shaft 6 is rotated. Then, heat is generated from the brush 3 and the commutator 4, but the heat is radiated to the air via a brush holder 1 and an end bracket 2 integrated with the holder 1. At least an internal wall of the brush holder 1 is formed with a ceramic layer, and the end bracket 2 is formed with ceramics or metal.

Description

[Detailed Description of the Invention] ←) Field of Application of the Invention The present invention relates to a DC motor, and more particularly to the structure of a brush holder.

(Conventional technology and its problems) In a conventional DC motor, the brush holder that holds the brush that comes into contact with the commutator of the armature that is rotatably provided inside the yoke is made of a conductor.
When this is attached to the end housing, an insulating plate made of phenol resin or the like is interposed between the two for electrical insulation.

Therefore, since the insulating plate is placed in the middle of the path for dissipating the heat generated by the brush from the end housing, the conduction of heat is extremely poor and the brush tends to become hot. D of motor
Since life depends on the brush, the life of the motor will be shortened if the brush reaches iI'S temperature.

SUMMARY OF THE INVENTION In order to solve this problem, it is an object of the present invention to provide a DC motor equipped with a brush boulder that efficiently conducts heat from the brush to the outside and promotes heat dissipation from the brush.

Ql) Technical means for solving the problem In the DC motor of the present invention, at least the inner wall surface of the brush holder that holds the brushes in sliding contact with the brushes is made of a ceramic layer, and the brush holder has a ceramic or metal end. The end bracket 1- is formed integrally with the bracket or is directly joined to the bracket, and closes one end of the yoke.

(d) The heat of the working brush is effectively transferred to the outside air and dissipated by the ceramic layer that constitutes at least the inner wall surface of the brush holder and the ceramic or metal end bracket that is integrated with the ceramic layer or is directly joined to the ceramic layer.

(G) Embodiment FIG. 1 does not show the first actual droplet example of the present invention. In the figure, 1 is a brush boulder, 12 is an end bracket, 3 is a brush that is slidable within the brush holder, and 4 is an armature. 7
The commutator 8 is a field magnet attached to the inner surface of the cylindrical yoke 9, and 1o is a bracket for attaching the motor to the vehicle body, which is welded to the outer surface of the yoke 9.

The end bracket 2 is fixed to the open end of a yoke 9 made of iron plate by caulking the outer peripheral edge of the end bracket 2 to the end of the yoke, and supports a bearing (P5) at its center.

The end of the yoke 9 is a closed end, and a second bearing 11 is held in the center of this single wing end, and the rotating 114I6 that supported the armature 7 is rotated by both bearings 5 and 11. It is freely supported on the shaft. A spring 3a is disposed within the brush holder 1 to press the brush 3 into sliding contact with the commutator 4. RotationllIh
One end 6a of 6 projects outward from the closed end of yoke 9,
For example, a cooling fan can be attached.

The brush holder 1 and the end bracket 2 are integrally molded from a ceramic material v1 made of, for example, alumina, silicon nitride, Sialon (trade name of Hitachi Kinkutsu Co., Ltd.), or the like.

In the above configuration, a battery brush 3 (not shown),
When the armature 7 is energized via the commutator 4, the rotating shaft 6 rotates. At this time, the brush 3 and commutator 4 generate heat, and this heat is dissipated to the outside air via the brush boulder 1 and the end bracket 2 integrated therewith.

Ceramic has a thermal conductivity of 50-20 compared to resin materials.
0 times (for example, the thermal conductivity of phenolic resin is 0.5W
/m/°C, the thermal conductivity of alumina is 30W/m/'C)
It is clear that the brush holder 1 and end bracket 2 made of materials with such high thermal conductivity have excellent heat dissipation characteristics. Comparing this to the conventional structure,
Conventionally, both the end bracket 2 and the brush holder 1 are made of metal, and an insulating plate is interposed between them.
The above-described embodiment not only has better heat dissipation, but also eliminates the need for an insulating plate, and has the advantage that the brush holder and end bracket can be integrally molded from the same ceramic material.

FIG. 2 shows a brush holder 1a and an end bracket 2a of a DC motor according to a second embodiment of the present invention. In this example, the brush holder 1a is a ceramic molded product, but the end bracket 2a is made of aluminum. Made in Japan.

Although both are bonded with an adhesive at the bonding portion 2o, they can also be bonded by diffusion bonding technology. The end bracket 2a is for opening the open end of a cylindrical yoke (not shown), and for this purpose, a bearing 5 as shown in FIG. A recess 21 is provided to receive the receptacle. The structure of the square points is the same as in Figure 1.

Also in the motor of the second embodiment described above, the heat of the brush is transferred to the brush holder 1a and the end bracket 2a, which have good heat conduction.
It is well dissipated into the outside air through the

Next, a third eggplant example will be explained with reference to FIG. The brush holder 1 and the end bracket 2 are substantially similar in shape to those in the first embodiment, but in the third embodiment, the brush holder 1 and the end bracket 2 are both integrally formed of aluminum.

However, in order to electrically insulate between the brush 3 and the spring 3a, the inner wall surface of the brush holder, particularly the portion that comes into sliding contact with the brush 3 and the spring 3a, is made of a ceramic layer. Such a ceramic layer is formed in the hole (where Y is the first
This can be done by making the hole somewhat larger than in the actual travel example and applying a ceramic coating to the inner peripheral surface of the hole. For this purpose, for example, a known technique of spraying and coating a ceramic material onto the surface of aluminum to be insulated can be employed.

Even in the case of the third example, the heat of the brush is transferred from the brush holder to the helical layer of the brush holder → the aluminum brush holder 7
The temperature of the brush can be effectively lowered by dissipating it into the air, causing damage, and reducing the temperature of the brush.

The results of testing the motors of each of the above-mentioned embodiments show that the brush temperature T value of the motors of the first and second embodiments is approximately 50% higher than that of conventional motors in which the brush holder and end bracket are made of resin molded products. , about 7 in the third embodiment.
It turned out to be 0%. This short history is about the heat of the brush/
]; It is shown that heat is efficiently dissipated through the path of brush → brush holder → end bracket 1 to → outside air.

(F) Effect As is clear from the above explanation, the present invention efficiently dissipates the heat of the brush 3 and lengthens the motor's cycle time.

f of the drawing! ! 1 is a vertical sectional view of a DC motor according to a first embodiment of the present invention, FIG. 2 is a sectional view showing a brush holder and an end bracket of a second embodiment, and FIG. FIG. 3 is a rear view seen from the direction of arrow III.

1... Brush holder, 2... End bracket,
3... Brush, 3a... Spring, 4... Commutator, 5, 11... Bearing, 6... Rotating shaft,
7... Armature, 8... Field magnet.

Claims (1)

[Claims] A brush holder that holds the brush includes an armature that is rotatably provided inside a yoke, and a brush that comes into sliding contact with a commutator of the armature, and at least an inner wall surface that comes into sliding contact with the brush is made of a ceramic layer. A DC motor characterized in that the holder is integrally molded or directly joined to a ceramic or metal end bracket, and the end bracket closes one end of the yoke.