JP3836281B2 - Drip-proof structure of wiper motor device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention belongs to the technical field of wiper motor devices provided in vehicles such as passenger cars and trucks.
[0002]
[Prior art]
Generally, in this type of wiper motor device, a drive circuit unit (circuit board or the like) in which a circuit for performing various wiping operations such as intermittent wiping is incorporated in a housing plate material (glass plate, body outer plate, etc.). On the other hand, an output shaft (wiper pivot shaft) that outputs motor drive via a speed reduction mechanism and a link mechanism is disposed in a part adjacent to the drive circuit unit, and the tip end portion of the output shaft is opened on the housing plate material Some of them are configured to penetrate through the mounting holes and project outside the housing, and to connect the wiper arm to the projecting tip. Further, in this device, the drive circuit section is housed in a case covered with a cover to prevent adhesion of foreign matters, etc., but in this case, the cover is fixed to the case by a lock provided on the cover. It is comprised so that the latching claw protrudingly provided by the case may be latched in the hole.
In such a wiper motor device, it is necessary to prevent water from entering the housing from the through hole through hole of the output shaft. Therefore, conventionally, a waterproof member such as a grommet has been attached to the through hole through hole of the output shaft. The waterproof member prevented water from entering.
[0003]
[Problems to be solved by the invention]
By the way, for example, in the case of heavy rain or high pressure car washing, even if a waterproof member such as the grommet described above is attached, water may enter the inside of the housing from a slight gap in the through hole of the output shaft. There is. For example, when the drive circuit unit is arranged below the output shaft, the water that has entered the casing flows to the drive circuit unit side, and is between the cover and the case, or from the locking hole to the case. There is a risk of intrusion. However, if moisture that has entered the case in this way adheres to the drive circuit unit, it may cause a failure of the drive circuit unit, and the problem to be solved by the present invention is here. was there.
[0004]
[Means for Solving the Problems]
The present invention was created in order to solve these problems in view of the above circumstances, and is provided with a drive circuit unit and an output shaft of a wiper motor adjacent to each other, and the output shaft is In a wiper motor device pivotally supported by a sleeve integrally formed with a gear frame including a gear portion including a speed reduction mechanism, a link mechanism, and an output shaft, the upper side of the case housing the drive circuit portion is open When the cover that covers the upper opening is provided, the upper surface portion of the cover extends to the portion surrounding the outer periphery of the sleeve , and the upper portion extends from the extended portion. In order to guide the cylindrical portion integrally formed so as to be externally fitted to the sleeve in a state of being erected toward the head, and the water flowing on the upper surface portion from reaching the fixing portion for fixing the case and the cover A guide rib is provided, and the upper end of the waterproof cap is lightly press-fitted to the protruding lower end protruding from the sleeve of the output shaft, and the lower portion of the waterproof cap is fitted over the upper portion of the cylindrical portion. A drip- proof structure of a wiper motor device characterized by being in a drip-proof state .
In this way, even if water enters through the output shaft, the water flows on the cover from the output shaft via the extending portion, and the water flows into the case. Intrusion can be avoided, and the drive circuit unit can be effectively protected from moisture.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings. In the drawings, reference numeral 1 denotes a wiper motor device for wiping a rear window glass surface (rear window) of a vehicle, and the wiper motor device 1 is disposed on an inner side of a housing plate material (glass plate or body outer plate) (not shown). However, this includes a motor part 2 having an electric motor (not shown), a speed reduction mechanism (not shown), a link mechanism (not shown), and a gear part 4 having an output shaft (wiper pivot shaft) 3. The circuit board 5 includes a drive circuit unit 6 and the like. The electric motor is driven and controlled by a circuit incorporated in the circuit board 5, and the driving force of the electric motor is output from the output shaft 3 via a speed reduction mechanism and a link mechanism. The basic configuration is the same as before.
[0006]
On the other hand, 7 is a gear frame in which the gear portion 3 is housed, and the output shaft 3 is rotatably supported by a sleeve 8 formed integrally with the gear frame 7. The front end side of the output shaft 3 protruding from the sleeve 8 passes through a mounting hole (not shown) drilled in the housing plate material and protrudes outside the housing (outside the housing plate material). A base end portion of a wiper arm (not shown) is connected to the portion. In addition, a grommet (not shown) is attached to the mounting hole penetrating portion of the output shaft 3 to prevent water from entering the inside of the housing from the penetrating portion.
[0007]
Here, in the present embodiment, the wiper motor device 1 has a driving circuit in which the distal end side of the output shaft 3 faces obliquely upward and obliquely below the base end portion of the output shaft 3 in a side view as shown in FIG. Although it is attached to the housing side so that the portion 6 is located, in a state where the wiper motor device 1 is not attached to the housing side, for convenience of explanation, the distal end side of the output shaft 3 is upward and the proximal end side is downward. .
[0008]
On the other hand, the drive circuit unit 6 houses a wiring (not shown) connected to the electric motor, the circuit board 5 with the coupler 9 attached to the side surface, and the like in a box-shaped case 10. The upper side of the case 10 is open, and the upper opening is covered with a cover 11.
[0009]
The cover 11 is formed by bending a side surface portion 11b downward from the outer peripheral edge portion of the plate-shaped upper surface portion 11a. Further, a plurality of tongue pieces 11c are formed downward from the lower end of the side surface portion 11b. The tongue piece 11c is provided with a locking hole 11d. On the other hand, a locking claw 10a corresponding to the locking hole 11d of the cover is projected from the upper portion of the case 10. When the cover 11 is assembled to the upper opening of the case 10, the cover 11 is configured to be fixed to the case 10 by the locking claw 10 a being locked in the locking hole 11 d.
[0010]
Further, an extended portion 11e extending to a portion surrounding the outer periphery of the sleeve 8 that supports the output shaft 3 is formed on the upper surface portion 11a of the cover 11 so as to extend to the sleeve 8. The cylindrical portion 11f that fits outside is integrally formed in a state of standing upward from the extending portion 11e. The upper portion of the sleeve 8 protrudes from the upper end of the cylindrical portion 11f, and the output shaft 3 protrudes from the upper end of the sleeve 8 as described above.
[0011]
On the other hand, 12 is a waterproof cap, and the waterproof cap 12 has a cylindrical shape whose diameter increases stepwise (two steps in the present embodiment) toward the lower side. A light press-fitted state is attached to the projecting lower end portion of the output shaft 3 projecting from the sleeve 8. Further, the lower part of the waterproof cap 12 is externally fitted to the upper part of the cylindrical part 11f of the cover 11, and a labyrinth is formed between the lower part of the waterproof cap 12 and the upper part of the cylindrical part 11f.
[0012]
Further, a guide rib 11g for guiding water flowing on the upper surface portion 11a so as not to flow to the locking hole 11d portion in a state where the wiper motor device 1 is attached to the housing side on the upper surface portion 11a of the cover 11. Is erected. In the present embodiment, the guide rib 11g is set so that the guide rib 11g is positioned inward of the locking hole 11d with respect to the output shaft 3, as shown in FIG. Instead, as in the second embodiment shown in FIG. 4, the guide rib 11g can be erected so as to surround the locking hole 11d portion. That is, the guide rib 11g is provided to guide the water on the cover upper surface portion 11a so as not to flow to the locking hole 11d side according to the mounting posture of the wiper motor device 1, the position of the locking hole 11d, and the like. And the shape and position are not limited.
[0013]
In the configuration as described above, the wiper motor device 1 is mounted on the housing side with the drive circuit unit 6 positioned below the output shaft 3, but the upper opening of the case 10 in which the drive circuit unit 6 is accommodated. An extension portion 11e extending to the sleeve 8 that pivotally supports the output shaft 3 is extended and formed on the cover 11 that covers the output shaft 3, and a cylindrical portion 11f that is externally fitted to the sleeve 8 stands on the extension portion 11e. In addition, the lower portion of the waterproof cap 12 press-fitted and attached to the output shaft 3 is fitted on the upper portion of the cylindrical portion 11f.
As a result, even if water enters the housing through the output shaft 3 from the mounting hole portion of the housing plate material, the water that has entered the waterproof cap 12 as shown in FIG. From the outer peripheral side of the cylindrical portion 11f to the upper surface portion 11a through the outer peripheral side of the cylindrical portion 11f, and flows downward on the upper surface portion 11a, so that water flows between the gear frame 7 and the case 10. It is possible to avoid the problem that water enters the case 10, thereby effectively protecting the circuit board 5 in the case 10 from moisture.
Further, since the cover 11 is fixed to the case 10, the cylindrical portion 11 f also does not move, but the waterproof cap 12 is lightly press-fitted into the output shaft 3 and rotates together with the output shaft 3. Furthermore, since the end of the cylindrical portion 11f and the waterproof cap 12 has a labyrinth shape that overlaps with each other, the use of the waterproof cap 12 is preferable although it has a shape that does not have any influence when the electric motor is driven. In addition, a drip-proof effect can be exhibited.
[0014]
Further, in this structure, the water flowing downward on the upper surface portion 11a of the cover 11 is guided so as not to reach the locking hole 11d by the guide rib 11g formed on the upper surface portion 11a. It is possible to reliably avoid the ingress of water from the locking hole 11d, and to have a more excellent drip-proof structure.
[0015]
Needless to say, the present invention is not limited to the above embodiment, and without providing a waterproof cap as a separate body, the upper end portion of the cover cylindrical portion 11f is provided as in the third embodiment shown in FIG. Also, it is possible to make it an integral structure that fits in a drip-proof manner on the output shaft 3 protruding from the upper end of the sleeve 8, and this also has the same effect.
[Brief description of the drawings]
FIG. 1 is a plan view of a wiper motor device.
FIG. 2 is a partial cross-sectional side view of the wiper motor device showing an attached state.
3A, 3B, 3C and 3D are a plan view, a front view, a left side view, and a right side view of a cover, respectively.
FIG. 4 is a plan view of a wiper motor device showing a second embodiment.
FIG. 5 is a partial cross-sectional side view of a wiper motor device showing a third embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Wiper motor apparatus 3 Output shaft 6 Drive circuit part 10 Case 10a Locking claw 11 Cover 11a Upper surface part 11d Locking hole 11e Extension part 11f Cylindrical part 11g Guide rib 12 Waterproof cap

Claims (1)

The wiper motor drive circuit section and the output shaft are disposed adjacent to each other , and the output shaft is freely rotatable on a sleeve integrally formed with a gear frame including a speed reduction mechanism, a link mechanism, and an output shaft. In the wiper motor device supported by the shaft, the case for housing the drive circuit portion is open on the upper side. When a cover for covering the upper opening is provided, the upper surface of the cover has an outer periphery of the sleeve. An extension part formed to extend to a portion surrounding the part, a cylindrical part integrally formed so as to be fitted on the sleeve in a state of standing upward from the extension part, and water flowing on the upper surface part Is provided with a guide rib which is erected so as to avoid reaching a fixing portion for fixing the case and the cover, and a waterproof cap is provided at a protruding lower end portion protruding from the sleeve of the output shaft Upper end is attached to lightly press-fitted shape, drip-proof structure of the wiper motor apparatus the bottom of the waterproof cap, characterized in that the drip-proof state fitted to the top of the cylindrical portion.

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