JP5522978B2 - Electric motor with reduction mechanism - Google Patents

Description

  The present invention relates to the technical field of an electric motor with a speed reduction mechanism provided in an electrical component or the like mounted on a vehicle.

  Generally, when an electric motor is used as a drive source for a wiper device, a power window device, a power steering device or the like mounted on a vehicle, an electric motor with a speed reduction mechanism that is output in a state where the rotation speed of the electric motor is decelerated is used. There is. As such an electric motor with a speed reducing mechanism, a worm gear provided at the tip of the motor shaft of the electric motor and a worm wheel meshing with the worm gear are made to abut against the gear case made of metal and the gear case. The thing comprised including the speed-reduction mechanism part accommodated between the resin-made cover bodies provided is proposed. And in this thing, it is a some element for carrying out drive control of an electric motor between a gear case and a cover body, Comprising: Power system drive elements, such as FET and a capacitor | condenser, Hall IC, CPU In addition, a control board in which a control element such as a memory is appropriately connected with a wiring is provided, and a connector connected to the control board is provided in a speed reduction mechanism.

JP 2004-104968 A

  However, in the conventional device, the connector provided in the speed reduction mechanism portion is provided at the extension tip portion of the motor shaft of the electric motor, and on the control board in a portion facing the motor shaft extension portion. Are provided with driving elements such as relays and switching transistors as driving elements, and the connector and the driving element are arranged in a state where they are close to each other at the motor shaft extending portion. On the other hand, in addition to the external power supply, the connector is connected to signal lines of sensors that connect the inside and outside of the speed reduction mechanism. For this reason, the signal line of the connector is a drive element disposed in the vicinity of the connector. In this case, there is a problem that a problem such as a decrease in the accuracy of the sensors is assumed. Further, in this device, since the connector is provided so as to protrude from the speed reduction mechanism portion in the extending direction of the motor shaft, the total length in the axial direction of the electric motor with the speed reduction mechanism becomes long, and compactness is impaired. There are also problems to be solved by the present invention.

The present invention has been created in view of the above circumstances and has been created for the purpose of solving these problems. The invention of claim 1 is directed to a worm gear provided at the tip of a motor shaft of a motor unit, and the worm gear. Electric motor with a speed reduction mechanism having a speed reduction mechanism portion in which a meshing worm wheel and a control board on which a plurality of elements for controlling drive of the motor portion are wired are housed between a gear case and a cover body In the motor, the control board is formed to extend toward one side which is the worm wheel arrangement part side and the other side with respect to the worm gear arrangement part, and a driving element provided on the control board while setting concentrate distribution to the other side of the control board, by providing a connector for connecting the inside and outside of the control element and the reduction mechanism unit provided in the control board to the one side of the speed reduction mechanism portion, and the drive element An electric motor with speed reduction mechanism, characterized in that the control elements and connectors dispersed disposed on both sides relative to the worm gear facing site.
In the invention of claim 2, the speed reduction mechanism portion is formed with a motor portion tip disposition portion that accommodates a tip portion of the motor portion on one side in the axial direction of the worm gear disposition portion, and the motor portion tip disposition portion; 2. An L-shaped corner portion is formed by a worm wheel disposition portion provided orthogonal to the worm gear disposition portion, and a connector is provided at the corner portion. The electric motor with a speed reduction mechanism described in 1.

According to the first aspect of the present invention, noise based on the drive element is less likely to be affected by the connector, and the accuracy of the sensors is improved and a highly reliable electric motor with a speed reduction mechanism can be provided.
By making it the invention of Claim 2, it can prevent that compactness is impaired by a connector.

It is a front view of an electric motor with a speed reduction mechanism. It is XX sectional drawing of FIG. 3A and 3B are a side view and a rear view of the gear case, respectively. 4A, 4B, 4C, and 4D are a front view, a plan view, a rear view, and a side view of the cover body, respectively. 5A and 5B are a front view and a side view, respectively, of the speed reduction mechanism unit.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In the drawings, reference numeral 1 denotes an electric motor with a speed reduction mechanism provided in a wiper device, and a motor portion 2 constituting the electric motor 1 with a speed reduction mechanism is housed in a bottomed cylindrical yoke 3 so that the armature 4 can rotate freely. A commutator 5 is integrally fitted on the tip of an armature shaft (motor shaft) 4a constituting the armature 4. The portion of the motor shaft 4a to which the commutator 5 is fitted extends from the open end 3a of the yoke 3 to the front end side. The worm gear 6 is connected to the motor shaft 4a extending to the front end side of the commutator 5. It is provided in a state of rotating integrally with 4a.

Reference numeral 7 denotes a speed reduction mechanism portion that includes the worm gear 6 and a worm wheel 8 that meshes with the worm gear 6. The speed reduction mechanism portion 7 is positioned forward when FIG. 1 is a front view. A metal gear case 9 that accommodates the worm gear 6 and the worm wheel 8, and a resin cover that is located behind and is provided so as to cover the worm gear 6 and the worm wheel 8 accommodated in the gear case 9. A body 10 is provided.
The gear case 9 has a concave groove-shaped housing portion 9a that opens at the rear, and a cylindrical yoke abutting portion 9b that opens at the base end side and is fixed to the yoke opening end portion 3a of the motor portion 2 in a butting shape. And is configured.
The accommodating portion 9a is formed with a long gear shaft accommodating chamber 9c in which the worm gear 6 is rotatably accommodated, and the gear shaft accommodating chamber 9c (arrangement portion of the worm gear 6) is used as a reference. Of the directions orthogonal to the axis of the worm gear 6, the wheel housing chamber 9 d is formed in a state of bulging in an arc shape toward one side (upward), and the worm gear 6 is formed in the wheel housing chamber 9 d. The worm wheel 8 that meshes with each other is rotatably accommodated. Further, on the base end side (right side) which is one axial direction of the gear shaft accommodating chamber 9c (arrangement portion of the worm gear 6), the outer fitting portion of the commutator 5 of the motor shaft 4a and the brush slidably contacting the commutator 5 are provided. A brush accommodating chamber 9e (corresponding to the motor portion tip disposing portion of the present invention) 9e for accommodating a member such as (not shown) is formed. Thus, the gear case housing portion 9a has an L-shaped corner portion formed by the brush housing chamber 9e and the wheel housing chamber 9d, and has an L shape when viewed from the front.
Further, the gear case 9 is formed with an element housing chamber 9f on the other side (lower side) of the gear shaft housing chamber 9c and on the opposite side of the wheel housing chamber 9d. However, the element accommodating chamber 9f is formed in a shallow groove shape from the respective concave groove portions of the gear shaft accommodating chamber 9c, the wheel accommodating chamber 9d, and the brush accommodating chamber 9e.

The yoke abutting portion 9b is integrally formed on the base end side of the brush accommodating chamber 9e protruding to the proximal end side of the accommodating portion 9a. The yoke abutting portion 9b is the same as the gear shaft accommodating chamber 9d. It is formed in a core-like cylindrical body and has the same shape as the yoke opening end 3a. Here, the front end position of the yoke abutting portion 9b is substantially the same as the front end position of the accommodating portion 9a, but the rear end position of the yoke abutting portion 9b is accommodated as shown in FIG. It is formed so as to protrude rearward from the rear opening edge 9g serving as the rear end position of the portion 9a.
Reference numeral 9h denotes a shaft support hole that protrudes forward from the front surface of the wheel housing chamber 9d. The shaft support hole 9h rotatably supports the output shaft 8a that protrudes forward of the worm wheel 8. A projecting end projecting forward from the shaft support hole 9h of the output shaft 8a is configured as a power take-out portion.

The cover body 10 includes a cover portion 10a that covers the L-shaped housing portion 9a of the gear case 9 and a connector 10b described later.
The cover portion 10a is formed in the shape of a concave groove that opens to the front, covers the gear shaft housing chamber 9c, the wheel housing chamber 9d, and the element housing chamber 9f of the gear case 9, and a control board 11 described later is adopted. The terminal housing chamber 10c and the brush housing chamber 9e (motor unit tip placement portion) are covered and a terminal housing chamber 10e in which a terminal plate 10d for connecting an external power source to the brush and the control board 11 is implanted. Is formed through a partition piece 10f, and is formed in a substantially L shape in a front view like the gear case housing portion 9a. An L-shaped corner portion is formed by the portion of the substrate storage chamber 10c facing the worm wheel 8 and the terminal storage chamber 10e, and the connector 10b is integrally formed at the corner portion.

The connector 10b is formed to project from the side wall on the base end side of the portion facing the worm wheel 8 of the cover portion 10a toward the base end side, and the base end side edge position of the connector 10b is in the terminal accommodating chamber 10e. And the upper end side edge position of the connector 10 is the upper end position of the substrate housing chamber 10c (opposite part of the worm wheel 8) (arc-shaped). It is formed so as not to protrude beyond the bulging end). Further, the front and rear end positions of the connector 10b are formed so as not to protrude beyond the front and rear end positions of the cover portion 10a, so that the connector 10b does not impair the compactness of the cover body 10. It is configured.
The connector 10b is provided with a power terminal 10g connected to the terminal plate 10d of the terminal accommodating chamber 10e and a signal terminal 10h connected to the control board 11 of the substrate accommodating chamber 10e. Is inserted from the base end side and connected in a retaining shape, thereby connecting an external power source to the terminal plate 10d via the power terminal 10g, and connecting the sensor signal lines to the control board 11 via the signal terminal 10h. Configured to connect.

Further, a concave groove portion 10j that retreats backward is formed in the front opening edge 10i of the cover cover portion 10a, and the rear opening edge 9g of the gear case 9 is inserted into the concave groove portion 10j via a sealing material. By fitting, the gear case housing portion 9a and the cover body cover portion 10a are abutted in a sealed manner, and are formed so as to face each other on the outer periphery of the gear case housing portion 9a and the outer periphery of the cover body cover portion 10a. Further, the cover body 10 is configured to be integrated with the gear case 9 by screwing the screw fastening pieces 9i and 10k together.
In the assembled state of the gear case 9 and the cover body 10, the rear end position of the yoke abutting portion 9 b of the gear case 9 is set to be substantially the same as the rear end position of the cover body 10. The ten connectors 10b do not protrude rearward from the rear end position of the yoke abutting portion 9b of the gear case 9. Thus, the connector 10b is configured so as not to impair the downsizing of the speed reduction mechanism portion 7 (the electric motor 1 with the speed reduction mechanism).

  On the other hand, the control substrate 11 disposed in the substrate housing chamber 10c of the cover body cover portion 10a is located at the abutting portion between the gear case 9 and the cover body 10 which is the front opening edge 10j portion of the cover body 10. It is supported. The shape of the control board 11 is such that the worm wheel 6 disposition side (the wheel housing chamber 9d of the gear case 9) is one side with respect to the worm gear 6 disposition portion (the gear shaft housing chamber 9d of the gear case 9). The gear case 9 on the other side is formed to extend toward the element housing chamber 9f. The control board 11 has a plurality of elements for controlling the driving of the motor unit 2 on the surface on the cover body 10 side as a rear surface, for example, a drive that is a power system driving element such as an FET or a capacitor. The element 11a and the control element 11b, which is a control element such as a Hall IC, CPU, and memory, are appropriately connected by wiring. In the present embodiment, the control elements 11b are wired together in a portion facing the worm wheel 8 on one side of the control board 11 with the worm gear 6 facing portion as a reference, and the drive elements 11a are The gear case 9 that is on the other side of the control board 11 is centrally arranged on the element housing chamber 9f facing portion, and the drive element 11a and the control element 11b are based on the worm gear 6 facing portion. It is arranged separately on both sides.

In this manner, the drive element 11a is concentrated on the other side with respect to the worm gear 6, and is configured to have a predetermined distance from the control element 11b disposed on one side. . Thus, the noise and heat generation of the drive element 11a can be reduced from affecting the control element 11b.
The drive element 11a is provided on the other side of the control board 11, and is configured to be separated from the connector 10b provided on one side of the cover body 10. Thereby, it is possible to reduce the influence of the noise of the drive element 11a on the signal line of the connector 10b, and to prevent the accuracy of the sensors from being lowered.
In addition, the drive elements 11a are collectively disposed so as to face the element accommodating chamber 9f portion of the gear case 9 formed of a metal material, but the element accommodating chamber 9f has a shallow groove shape. It is formed and is in a state of being close to the drive element 11a, and a plurality of fins 9j are formed to protrude forward on the front surface of the element storage chamber 9f. Thus, the heat generated from the drive element 11a can be radiated to the outside through the fins 9j, and the temperature rise due to the heat generation can be suppressed.

  In the present embodiment configured as described, the speed reduction mechanism portion 7 of the electric motor 1 with a speed reduction mechanism drives the worm gear 6 and the worm wheel 8 and further the motor portion 2 between the gear case 9 and the cover body 10. A control board 11 provided with a drive element 11a and a control element 11b for control is housed. The control board 11 is arranged on the worm wheel 8 arrangement part side with respect to the worm gear 6 arrangement part. The control elements 11b are collectively arranged on one side, and the drive elements 11a are collectively arranged on the other side of the gear case 9 opposite to the drive element accommodating chamber 9f, and the drive elements 11a and 11b are arranged. Are arranged separately on both sides with respect to the worm gear 6 facing part. As a result, the control element 11a that is easily affected by noise is provided away from the drive element 11a that is a noise generation source, and the influence of noise on the control element 11a can be reduced. Further, the connector 10b for connecting the inside and outside of the speed reduction mechanism portion 7 is provided on one side of the cover body 10 on the worm wheel 8 placement portion side, so that it is concentrated on the other side of the control board 11. Thus, it is possible to reduce the influence of noise generated by the drive element 11a on the signal line of the connector 10b, to prevent the accuracy of sensors from being lowered, and to provide a highly reliable electric motor 1 with a speed reduction mechanism.

  As described above, in the embodiment in which the present invention is implemented, the drive element 11a provided on the control board 11 is concentrated on the other side with respect to the arrangement part of the worm gear 6, while the control board 11 11, the connector 10 b connected to 11 is positioned on one side of the speed reduction mechanism portion 7 so that the influence of noise of the drive element 11 a on the signal line of the connector 10 b is reduced. The gear case 9 and the cover body 10 that are formed have an L-shaped corner portion formed by the placement portion of the worm wheel 8 and the tip placement portion of the motor portion 2, and a connector 10b is provided at the corner portion. Thus, the connector 10b does not protrude from the outer shape of the speed reduction mechanism section 7, and the problem that the connector 10b impairs the compactness of the electric motor 1 with the speed reduction mechanism can be prevented.

  The present invention can be used for devices using an electric motor provided with a speed reduction mechanism, such as a wiper device, a power window device, and a power steering device.

DESCRIPTION OF SYMBOLS 1 Electric motor with reduction mechanism 2 Motor part 6 Worm gear 7 Deceleration mechanism part 8 Worm wheel 9 Gear case 9a Accommodating part 9b Yoke contact part 9c Gear shaft accommodating chamber 9d Wheel accommodating chamber 9f Element accommodating chamber 10 Cover body 10a Covering part 10b Connector 10c Substrate storage chamber 11 Control substrate 11a Drive element 11b Control element

Claims (2)

A worm gear provided at the tip of the motor shaft of the motor unit, a worm wheel meshing with the worm gear, and a control board on which a plurality of elements for controlling the drive of the motor unit are wired between the gear case and the cover body In the electric motor with a speed reduction mechanism provided with a speed reduction mechanism portion housed in
The control board is formed so as to extend toward one side which is the worm wheel arrangement part side with respect to the worm gear arrangement part, and toward the other side,
While driving elements provided on the control board are concentrated on the other side of the control board,
A control element provided on the control board and a connector for connecting the inside and outside of the speed reduction mechanism are provided on the one side of the speed reduction mechanism , and the drive element, the control element, and the connector are distributed on both sides with respect to the worm gear facing portion. An electric motor with a speed reduction mechanism characterized by being provided . The speed reduction mechanism portion is formed with a motor portion tip disposition portion that accommodates the tip portion of the motor portion on one side in the axial direction of the worm gear disposition portion, with respect to the motor portion tip disposition portion and the worm gear disposition portion. 2. The electric motor with a speed reduction mechanism according to claim 1, wherein an L-shaped corner portion is formed by a worm wheel arrangement portion provided in an orthogonal shape, and the connector is provided in the corner portion. motor.

Images