The present invention relates to a structure for mounting a switch case to a steering wheel of a vehicle.
In recent years, a switch is mounted to a vehicle steering wheel for operating vehicle equipment such as an audio system, a telephone, an air conditioner and a navigation system. An example mounting structure for such a switch is disclosed in Japanese Patent Laid-Open Publication No. 2002-120730, which will be described with reference to
As shown in
In the above structure, however, the leg piece 103 is liable to be bent in the direction of arrow a3 when the switch assembly 101 is pressed in the direction of arrow a2. Particularly, when the switch assembly 101 is pressed with a finger of a driver's hand holding a steering wheel, it is likely that an end 104 of the switch assembly 101 is pressed, causing the leg piece 103 to be more easily bent.
It is thus desired to prevent the bending of a steering wheel switch by a pressing force applied to a press button of the switch.
According to the present invention, there is provided a switch case mounting structure comprising: a steering wheel having a rim, a hub provided inside the rim, and a plurality of spokes connecting the rim and the hub; and a switch case to be mounted to the steering wheel and having at least one press button, wherein the switch case has two arms extending therefrom in spaced relation to each other, one of the arms being attached to an attaching part formed on the hub, the other arm abutting on one of the spokes.
This arrangement prevents bending of the switch case by a pressing force applied to the press button of the switch.
The other arm preferably has a part which is L-shaped in cross section.
A load arising from pressing the press button is born by a mounting portion of the switch case which is offset from a point of press operation on the switch box.
A preferred embodiment of the present invention will be described in detail below, by way of example only, with reference to the accompanying drawings, in which:
As shown in
The operating switch device 23 is provided for radio control, air conditioner control, cruise control and shift control, for example. The operating switch device 23 includes a first switch means 25 disposed on the first spoke 14, a second switch means 26 disposed on the second spoke 15, a left press button switch 27 provided between the first and third spokes 14, 16, and a right press button switch 28 provided between the second and fourth spokes 15, 17.
The right and left press button switches 28, 27 are provided on the mount portions 24, 24. The right and left press button switches 28, 27 have approximately the same structure, except that the right press button switch 28 is for operation by a right hand while the left press button switch 27 is for operation by a left hand. Reference numeral 31 denotes a first press button, 32 a second press button disposed next to the first press button 31, and 33 a third press button disposed next to the second press button 32.
Next, the right press button switch 28 will be described with reference to
Referring now to
The one arm 35 has a lower mounting portion 42 in the form of a plate provided at a lower or bottom part 41 of the switch case 34. The lower mounting portion 42 horizontally projects by a distance Lb from mid-parts of the first through third press buttons 31–33. The lower mounting portion 42 has a plurality of openings 43.
The other arm 36 has an upper mounting portion 45 provided at a top 44 of the switch case 34. The upper mounting portion 45 is L-shaped in cross section, as shown in
More specifically, the upper mounting portion 45 includes an upper plate 47 formed integrally with the switch case 34, a lower plate 51 formed integrally with the switch case 34 and positioned a predetermined distance B away from the upper plate 47, ribs 52, 52 connecting the upper and lower plates 47, 51, a press part 53 extending continuously from the upper plate 47, a positioning pin 46 provided on an undersurface of the pressing part 53, and a plate member 54 formed integrally with the pressing part 53, upper plate 47 and switch case 34 and extending vertically.
The second spoke 15 is made of a polyurethane material The second spoke 15 includes a centrally formed switch case receiving portion 15a, a switch case supporting portion 15b, and an insertion hole 15c formed in the case receiving portion 15a for allowing insertion of the positioning pin 46.
Discussion will be made next as to a mode of attaching the switch case 34 to the steering wheel 11.
First, the positioning pin 46 of the lower arm 36 is inserted into the hole 15c of the switch case receiving portion 15a, as shown by arrow c1, until the pressing part 53 of the arm 36 abuts against the switch case receiving portion 15a to thereby properly position the switch case 34. At this time, the lower mounting portion 42 of the arm 35 is placed on the attaching part 21a of the metal hub 21 of the steering wheel 11 such that the openings 43, 43 formed on the lower mounting portion 42 are aligned with respective screw holes 21b, 21b. Then, screws 56, 56 are inserted through the openings 43, 43 and threadedly engaged in the screw holes 21b, 21b to thereby attach the switch case 34 to the steering wheel 11.
The witch case of the left press button switch 27 (see
Reference is made next to
When the second press button 32 of the right press button switch 28 is depressed with a force F from a finger T of the operator 12, the force F is distributed in the directions of arrows b2, b3 by virtue of the arms 35, 36 (lower and upper mounting portions 42, 45). As a result, the force or stress generated in the arm 35 (lower mounting portion 42) becomes smaller than in the case in which the right press button switch 28 is supported by the arm 35 (lower mounting portion 42) alone, thereby preventing bending of the right press button switch 28 in the direction of arrow b4 by the force F from pressing the right press button switch 28.
By making the plate member 54 of the arm 36 abut against the supporting portion 15b of the second spoke 15, as shown in
The pressing part 53 of the arm 36 abuts against the receiving portion 15a of the second spoke 15, as described above. As a result, when applied with the force F (see
As shown in
In the switch case mounting structure (right press button switch 28), the arm 36 (upper mounting portion 45) has the upper plate 47, the lower plate 51 provided a given distance B away from the upper plate 47 and the ribs 52, 52 formed between the upper and lower plates 47, 51. As a result, it becomes possible to prevent the bending of the steering wheel switch (right press button switch) 28 in the direction of the arrow b4 without an increase in weight.
It will be readily appreciated by a skilled artisan that the switch case mounting structure of the present invention may be applied to four-wheeled vehicles as well as to three-wheeled vehicles.
Obviously, various minor changes and modifications of the present invention are possible in the light of the above teaching. It is therefore to be understood that within the scope of the appended claims the invention may be practiced otherwise than as specifically described.
Number | Date | Country | Kind |
---|---|---|---|
2004-226066 | Aug 2004 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
6437265 | Kreuzer | Aug 2002 | B1 |
6453769 | Sakurai | Sep 2002 | B1 |
6624365 | Miyako et al. | Sep 2003 | B1 |
6626458 | Fujita et al. | Sep 2003 | B1 |
6852936 | Hayashi et al. | Feb 2005 | B1 |
6941836 | Umemura et al. | Sep 2005 | B1 |
Number | Date | Country |
---|---|---|
2002-120730 | Apr 2002 | JP |
Number | Date | Country | |
---|---|---|---|
20060021863 A1 | Feb 2006 | US |