JP2001128407A - Motor unit of power window apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simplify a work for attaching to a vehicle the motor unit of a power window apparatus having an aeration structure. SOLUTION: Aeration holes 25d, through which the inside and outside of a housing 19 of a motor unit are linked with each other, are formed in a part (connector part 25a) of the housing 19 which is exposed on the inner side of an inner panel 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power window device for opening and closing a window glass of a vehicle, and more particularly to a ventilation structure for eliminating a relative pressure difference between inside and outside of a motor unit which is a driving source of the device.

[0002]

2. Description of the Related Art A motor unit generates a relative pressure difference between the inside and outside of the motor unit due to its own heat generation and a change in the ambient temperature around the unit. At this time, for example, if the inside of the motor unit is in a negative pressure state with respect to the atmospheric pressure, water or dust may enter the inside from a minute gap or the like of the unit.
In particular, a motor unit used as a drive source of the power window device includes an outer panel forming an outer surface of the door,
Since it is located at a location to be wet by an inner panel provided with a gap inside thereof, some countermeasure is required.

Therefore, conventionally, a vent hole is provided in the motor unit, and one end of a pipe is connected to the unit so as to cover the vent hole. And the other end of the pipe is extended to a place where it is hard to be wet. With this configuration, the internal pressure of the motor unit becomes equal to the atmospheric pressure, so that water and dust can be prevented from entering the inside from the minute gaps of the unit as described above. Moreover, by attaching such a pipe externally, the motor unit can have a waterproof structure.

[0004]

However, in the above configuration, when the motor unit (power window device) is mounted on the vehicle, it is necessary to perform a special operation for mounting the pipe. Therefore, mounting the motor unit (power window device) to the vehicle is complicated.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a motor unit of a power window device having a ventilation structure, which has a waterproof structure and simplifies the work of attaching the motor unit to a vehicle. It is an object of the present invention to provide a motor unit of a power window device which can be realized.

[0006]

In order to solve the above problems, the invention according to claim 1 is a power window device which is disposed outside an inner panel of a door and operates a window regulator to open and close a window glass. In the motor unit of (1), a ventilation hole communicating between the inside and outside of the housing is formed in a portion of the housing of the unit that is exposed inside the inner panel.

According to a second aspect of the present invention, in the motor unit of the power window device according to the first aspect, a portion of the housing that is exposed inside the inner panel is provided with a vehicle-side connector extending from the inside of the inner panel. A connector portion for coupling, wherein the vent hole is formed in a recess for receiving a terminal of the connector portion, or
It was provided on the side wall of the connector part.

According to a third aspect of the present invention, in the motor unit of the power window device according to the second aspect, the ventilation hole is formed of a cylindrical portion integrally formed with a terminal provided in the connector portion.

Therefore, according to the first aspect of the present invention,
The air hole communicating between the inside and the outside of the housing of the motor unit is provided at a portion exposed inside the inner panel.
Therefore, since the inside of the inner panel is not covered with water, water or the like does not enter the motor unit from the vent hole. In addition, since it is not necessary to attach a special part for waterproofing such as a pipe to the vent hole, the attaching operation of the motor unit to the vehicle is simplified.

[0010] According to the second aspect of the invention, the connector portion connected to the vehicle-side connector is exposed inside the inner panel. The ventilation hole is provided in a recess for accommodating the terminal of the connector portion or on a side wall of the connector portion. Therefore, the connector portion is exposed to the inside of the inner panel and thus does not get wet, and water or the like does not enter the motor unit from the ventilation hole provided in the connector portion. In addition, since the connector is a place where electrical connection is made,
This is the place where the most waterproofing is considered. Therefore, intrusion of water or the like into the motor unit from the ventilation hole can be reliably prevented.

According to the third aspect of the present invention, the ventilation hole is formed by a cylindrical portion formed integrally with a terminal provided in the connector portion. Therefore, since the ventilation hole is formed at a position close to the terminal, a space for providing the ventilation hole is small. Moreover, no special parts are required for forming the ventilation holes.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. As shown in FIG. 1, a door 1 of a vehicle includes an outer panel 2 forming an outer surface of the door 1, an inner panel 3 provided with a gap inside the door 1, and a door trim 4 fixed inside the outer panel 2. Have. A device insertion hole 3a for inserting the power window device 10 between the outer panel 2 and the inner panel 3 and a bolt (not shown) for fixing the device 10 to the inner panel 3 are inserted through the inner panel 3. A plurality of (four) bolt insertion holes 3b are formed, and a circular connector insertion hole 3c into which a vehicle-side connector 26 described later for supplying power to the apparatus 10 is inserted.

The power window device 10 comprises an X-arm type window regulator (hereinafter simply referred to as a regulator) 11 and a motor unit 12 which are integrally assembled. The regulator 11 has a base 1
3, an X arm 14 and an upper arm 15, and a sector gear 14a is integrally formed at one arm end of the X arm 14. The sector gear 14a is rotatably supported by the base 13.

The motor unit 12 is fixed to a base 13, and an output shaft 12a of the unit 12 (see FIG. 2)
Are drivingly connected to the sector gear 14a. Further, the base 13 is provided with a plurality (four) of mounting pieces 13a extending and formed corresponding to the bolt insertion holes 3b. Each of the mounting pieces 13a has a bolt insertion hole 13
b is formed. Then, bolt the inner panel 3
The base 13 (the regulator 11) is fixed to the inner panel 3 by inserting the bolt insertion holes 3b and 13b from the inside, screwing the bolts and nuts (both not shown) and tightening.

A lower end of a window glass (not shown) is connected to the upper arm 15 so that the window glass can be moved in and out of a window glass entrance 5 formed between the outer panel 2 and the inner panel 3. Supported.

When the sector gear 14a rotates based on the drive of the motor unit 12, the X arm 14 expands and contracts in the vertical direction, and the upper arm 15 moves up and down with respect to the base 13. The window glass opens and closes by such an operation of the upper arm 15.

As shown in FIGS. 2 to 4, the motor unit 16 of the motor unit 12 has a rotating shaft 18a in a housing space 17a (see FIG. 4) in a bottomed cylindrical yoke housing 17 made of a metal material. , And various motor components such as a magnet (not shown) and a brush (not shown) are housed therein. The opening 17b of the yoke housing 17 has a resin housing 1 made of a resin material.
9 is assembled in a state of close contact.

The rotating shaft 18 is provided in the resin housing 19.
a reduction unit 20 (see FIG. 3) for reducing the rotation of the output shaft 12a and transmitting the drive to the output shaft 12a; a rotation sensor 21 mounted in the reduction unit 20 for detecting the rotation position of the output shaft 12a; A housing recess 19a having a predetermined shape capable of housing a circuit board 22 and the like constituting a control circuit and the like for performing various controls of sixteen is formed.

As shown in FIG. 4, the housing recess 19a is used to form the speed reducer 20 by meshing with a shaft housing 19b for housing the rotary shaft 18a and a worm 18b formed on the rotary shaft 18a. Worm wheel (not shown)
Wheel accommodating portion 19c for accommodating the circuit board 22
And a substrate accommodating portion 19d for accommodating the same. The shaft accommodating portion 19b communicates with the accommodating space 17a of the yoke housing 17, and communicates with the wheel accommodating portion 19c, and the wheel accommodating portion 19c communicates with the substrate accommodating portion 19d. That is, the housing recess 19 of the resin housing 19
a communicates with a housing space 17 a in the yoke housing 17.

As shown in FIG. 3, the circuit board 22 is electrically connected to the rotation sensor 21 and a power supply terminal 23 (see FIG. 4) for supplying power to the motor unit 16. A plurality (7) of which a part is inserted into the resin housing 19 and is electrically connected to the substrate 22.
The book-shaped terminal 24 of the book extends. The terminal 24 extends toward the opening 19e of the housing recess 19a. The terminal 24 is provided for electrically connecting a vehicle-side connector 26 (see FIG. 5) described later and the board 22. And such accommodation recess 19
As shown in FIG. 3, the opening 19e of FIG.
A cover 25 made of a resin material for sealing a is attached.

The cover 25 has a substantially bottomed cylindrical connector portion 25a at a position corresponding to the connector insertion hole 3c (see FIG. 1) of the inner panel 3. The connector portion 25a is formed such that its base end protrudes toward the housing recess 19a so that its front end is flush with the surface of the cover 25.

As shown in FIG. 5, a fitting recess 25b for fitting and connecting to a vehicle-side connector 26 extending from the inside (inside of the room) of the inner panel 3 is provided in the connector portion 25a.
Are formed. The vehicle-side connector 26 electrically connects a controller (not shown) mounted on the vehicle to integrally control the power window device 10 and the motor unit 12. A terminal insertion hole 25c through which each terminal 24 is inserted is provided on the bottom surface of the fitting recess 25b.
Are formed at positions corresponding to the terminals 24 (seven) (see FIG. 2). Also, on the bottom surface of the recess 25b,
The recess 25b and the housing recess 19 of the resin housing 19
a and two ventilation holes 2 for ventilating the accommodation recess 19a and the accommodation space 17a of the yoke housing 17.
5d is formed. The terminal insertion holes 25c and the ventilation holes 25d are simultaneously formed by a mold when the cover 25 is formed.

As shown in FIGS. 3 and 5, an annular groove 25e is formed on the outer periphery of the connector portion 25a. A substantially cylindrical waterproof grommet 27 made of a rubber material is integrally attached to the annular groove 25e. That is, the waterproof grommet 27 has a connector-side fitting portion 27a that fits in the annular groove 25e at its base end, and a panel-side fitting that fits into the connector insertion hole 3c of the inner panel 3 at its distal end. A fitting portion 27b is formed. And by such a waterproof grommet 27,
The connector portion 25a is exposed only inside (inside of the room) of the inner panel 3, and a fitting recess 25b of the connector portion 25a opens inside the panel 3.

The motor unit 12 constructed as described above
Then, the connector portion 25 guided inside the inner panel 3
The recess 25b communicates with the accommodating recess 19a of the resin housing 19 and the accommodating space 17a of the yoke housing 17 by the ventilation hole 25d of a. That is, the accommodation recess 19a of the resin housing 19 and the accommodation space 17a of the yoke housing 17 are opened to the inner space of the inner panel 3 via the ventilation holes 25d.

Therefore, even if the heat generation of the motor unit 12 or the change of the ambient temperature around the unit 12 change, there is no relative pressure difference between the inside and the outside. At this time,
For example, even if the inside of the motor unit 12 is in a negative pressure state with respect to the atmospheric pressure, water and dust are prevented from entering the inside from a minute gap or the like of the unit 12.

Since the inside (inside of the room) of the inner panel 3 does not get wet, the ventilation holes 25d are formed in the inner panel 3.
The inward guiding prevents water or the like from entering the motor unit 12 from the ventilation holes 25d.

Moreover, the fitting recess 25 of the connector 25a
(b) Since only the ventilation hole 25d is formed on the bottom surface, a reliable waterproofing effect can be obtained without using a special waterproofing part such as a pipe in the ventilation hole 25d, and the work of attaching the pipe or the like is not required. Therefore, the work of attaching the motor unit 12 to the vehicle is simplified.

As described above, according to the present embodiment,
It has the following effects. (1) The ventilation hole 25d communicating the inside and outside of the housings 17 and 19 of the motor unit 12 is formed on the bottom surface of the fitting recess 25b of the connector portion 25a exposed only inside the inner panel 3 (inside the room). Therefore, this inner panel 3
Does not get wet, it is possible to prevent water or the like from entering the motor unit 12 from the ventilation holes 25d.

(2) Since it is not necessary to attach a special waterproof part such as a pipe to the ventilation hole 25d as in the related art, the operation of attaching the motor unit 12 to the vehicle can be simplified.

(3) Since the ventilation holes 25d are formed simultaneously with the mold at the time of molding the cover 25, no special parts are required. Therefore, the motor unit 1 has a small number of parts.
2 (power window device 10).

(4) The connector portion 25a (particularly, inside the fitting concave portion 25b) is a place where electrical connection is made, and therefore is the place where the most waterproofness is considered. Therefore, the ventilation hole 2
Infiltration of water or the like into the motor unit 12 from 5d can be reliably prevented.

(5) The connector portion 25a is shielded from the space outside the inner panel 3 by the waterproof grommet 27 integrally attached to the outer periphery thereof. Therefore, it is possible to reliably prevent the connector portion 25a from being wet.

Incidentally, the embodiment of the present invention may be modified as follows. ○ The ventilation holes 25d of the above embodiment are replaced with the following FIGS.
It may be provided as follows. In the embodiments shown in FIGS. 6 to 9, the motor unit is schematically shown, and for convenience of explanation, the same members as those in the above embodiment are denoted by the same reference numerals,
The description is omitted.

In the motor unit 30 shown in FIG. 6A, a resin housing 31 is mounted on the yoke housing 17, and a connector 31a of the resin housing 31 is attached to the motor unit 30 as shown in FIG.
The terminal 32 shown in (b) is inserted. The terminal 32 has a cylindrical portion 3 at the portion to be inserted.
2a is formed by bending, and the cylindrical portion 32a forms a ventilation hole 32b that communicates the space 17a in the housing 17, 31 with the concave portion 31b of the connector portion 31a (the inner space of the inner panel 3). This eliminates the need for a special component for forming the ventilation hole 32b. In addition, since the ventilation hole 32b is formed at a position close to the terminal 32, a space for providing the ventilation hole 32b is small. Further, even when the ventilation holes are formed over a long distance, they can be reliably formed.

In the motor unit 30a shown in FIG. 7, the terminal 33 is inserted so as to be exposed in the concave portion 31b of the connector portion 31a of the resin housing 31, and the cylindrical body 34 includes the side wall 31c of the connector portion 31a. It is inserted into the housing 31. With such a cylindrical body 34, the space 17a in the housings 17, 31 is provided.
Vent hole 34a which communicates with the inner space of inner panel 3
Is formed. Thus, even if the opening of the ventilation hole 34a is formed in the end face of the side wall 31c of the connector portion 31a, the same effect as in the above embodiment can be obtained. That is, the vent hole may be any part as long as it is a part exposed inside the inner panel 3.
Further, even when the ventilation holes are formed over a long distance, they can be reliably formed. Moreover, the ventilation holes can be formed only by inserting the cylindrical body 34.

The motor unit 3 shown in FIGS.
As shown in FIG. 0b, a ventilation hole 31d may be formed. That is,
As shown in FIG. 8 (b), a rod 35 made of, for example, a metal material is inserted at the time of molding the resin housing 33, and then the rod 35 is pulled out.
forming d. In this case, heat may be applied to the rod 35 to make it easier to remove. Even if it does in this way, even if it forms a ventilation hole for a long distance, it can form reliably. Moreover, the rod 35 can be used repeatedly.

The motor unit 3 shown in FIGS. 9A and 9B
As shown in FIG. 0c, the ventilation hole 31e may be formed corresponding to the empty position of the terminal 33. By doing so, no special space is required for providing the ventilation hole 31e in the connector portion 31a recess 31b.

Further, in the motor unit 12 of the above-described embodiment, a vacant insertion hole 25c not used in the terminal insertion hole 25c may be used as a ventilation hole. Further, the terminal insertion hole 25c may be formed to be larger than the terminal outer shape so that the terminal insertion hole 25c also serves as a ventilation hole. Even in this case, the space for providing the vent hole is small, and moreover,
No special parts are required to form the ventilation holes.

In the above embodiment, the waterproof grommet 27 made of a rubber material is used as a shielding member for shielding the outer space of the inner panel 3 and at least the portion provided with the ventilation hole 25d (the connector portion 25a in the above embodiment). However, the material and shape of the shielding member are not limited to the above embodiment. Also, for example, the connector 25
The waterproof grommet 27 can also be omitted by making the outer diameter a substantially the same as the inner diameter of the connector insertion hole 3c and projecting the connector portion 25a from the connector insertion hole 3c to the inside of the inner panel 3.

In the above embodiment, the motor unit 12 is provided with the circuit board 22 constituting the deceleration unit 20 and the control circuit, but the motor unit is provided with only one of them, or neither is provided. The present invention may be applied to a motor unit.

The technical ideas other than the claims that can be grasped from the above embodiments will be described below together with their effects. (A) The motor unit for a power window device according to claim 1, wherein the portion in which the ventilation hole is formed is made of at least resin. In this case, a ventilation hole is easily formed.

(B) The motor unit for a power window device according to the above (a), wherein the ventilation hole is formed by a mold during resin molding. In this way, no special components are required for forming the ventilation holes.

(C) The motor unit of the power window device according to (a), wherein the ventilation hole is formed of a cylindrical body inserted at the time of resin molding. In this way, even if the ventilation holes are formed over a long distance, they can be reliably formed. Moreover, the ventilation holes can be formed only by inserting the cylindrical body.

(D) In the motor unit of the power window device described in (a), the air hole is formed by subsequently pulling out a rod inserted during resin molding. The motor unit of the device. In this way, even if the ventilation holes are formed over a long distance, they can be reliably formed. Moreover, the rod can be used repeatedly.

(E) The motor unit of the power window device according to claim 2, wherein the position of the vent hole is an empty position of a terminal. If you do this,
No special space is required to provide ventilation holes.

(F) In the motor unit of the power window device according to claim 2, the connector portion has a terminal insertion hole through which a terminal is inserted, and the air hole also serves as the terminal insertion hole. A motor unit for a power window device, comprising:
In this case, no special space for providing the ventilation hole is required.

[0047]

As described in detail above, according to the present invention,
In a motor unit of a power window device having a waterproof structure while having a waterproof structure, it is possible to provide a motor unit of the power window device which can simplify an operation of attaching to a vehicle.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a power window device according to one embodiment.

FIG. 2 is a front view showing the motor unit of the same embodiment.

FIG. 3 is an exploded perspective view showing the motor unit of the same embodiment.

FIG. 4 is an exploded perspective view showing the motor unit of the same embodiment.

FIG. 5 is a sectional view taken along line AA of FIG. 2 when the motor unit is attached to the inner panel.

FIG. 6 is a schematic diagram showing a ventilation structure of another example of a motor unit.

FIG. 7 is a schematic view showing a ventilation structure of another example of a motor unit.

FIG. 8 is a schematic view showing a ventilation structure of another example of a motor unit.

FIG. 9 is a schematic view showing a ventilation structure of another example of a motor unit.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Door, 3 ... Inner panel, 11 ... Window regulator, 17 ... Yoke housing as housing, 1
9, 31 ... resin housing as housing, 24,
32, 33 ... terminal, 25a, 31a ... connector part, 25b, 31b ... fitting concave part as concave part, 25b,
31d, 31e, 32b, 34a: vent holes, 26: vehicle-side connector, 31c: side walls, 32a: cylindrical portion.

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2E052 AA09 CA06 DA07 DA08 DB07 DB08 EA14 EB01 EC01 KA13 KA14 KA15 KA16 KA17 LA08 3D127 DF04 EE02 EE15 EE21 EE29 GG05 5H605 AA02 AA03 AA08 BB05 CC05 CC03 DD03 CC03 DD EA19 EC14 EC20 FF06 GG06 5H607 AA05 AA06 BB01 CC01 CC05 CC07 DD03 DD08 DD17 DD19 EE32 EE36 FF01 HH01 JJ05 KK07

Claims (3)

[Claims] Claims: 1. A door is disposed outside an inner panel of a door,
In a motor unit of a power window device that opens and closes a window glass by operating a window regulator, a portion that is exposed inside an inner panel of a housing of the unit is provided with a ventilation hole that communicates inside and outside of the housing. Motor unit of the power window device to be used. 2. The motor unit of the power window device according to claim 1, wherein a portion of the housing that is exposed to the inside of the inner panel is a connector portion for connecting to a vehicle-side connector extending from the inside of the inner panel. A motor unit for a power window device, wherein the ventilation hole is provided in a recess for accommodating a terminal of the connector portion or on a side wall of the connector portion. 3. The power window device according to claim 2, wherein the air hole comprises a cylindrical portion formed integrally with a terminal provided in the connector portion. Motor unit.