This application claims benefit of Japanese Patent Application No. 2012-059037 filed on Mar. 15, 2012, which is hereby incorporated by reference in its entirety.
1. Field of the Disclosure
The present disclosure relates to a steering switch device, which is mounted on a steering wheel of vehicles and used for operating various electronic devices such as audio equipment and an automatic transmission.
2. Description of the Related Art
In the related art, it is known technology where a steering switch device is mounted inside a ring portion (annular portion), which is a grip portion of a steering wheel of a vehicle and then a driver manually perform upshifting or downshifting when travelling in a drive range, by operating the steering switch. Further, the steering wheel is provided with a pad portion inside the grip portion with a spoke portion interposed and thus the steering switch device are often mounted on the spoke portion.
As an example of such a steering switch device in the related art, a device has been proposed in which a plurality of operating keys capable of a pressing operation and an operating body capable of a tilting operation are arranged in the spoke portion of the steering wheel (for example, Japanese Unexamined Patent Application Publication No. 2006-228620). Here, a housing having an opening portion is fixed to the spoke portion and the operating keys or the operating body is arranged and operably supported on the opening portion formed in the housing. In addition, a circuit board or a rubber sheet is accommodated and held inside the housing and the rubber sheet and the circuit board configure a rubber switch. That is, the rubber switch is configured by a movable contact provided inside a bulging portion of the rubber sheet and a fixed contact arranged on the circuit board. The movable contact and the fixed contact oppose each other, leaving a predetermined gap, so as to be capable of connecting and disconnecting.
Each rubber switch is configured such that when the operating keys are in the pressing operation or the operating body is in the tilting operation, the bulging portion of the corresponding rubber switch is thrust and elastically goes through buckling distortion, which causes the movable contact to come into contact with the fixed contact so as to output an ON signal. In addition, if operating force is removed with respect to the operating keys or the operating body, the bulging portion of the rubber switch automatically returns to its original shape due to its elasticity. Accordingly, the movable contact is disconnected from the fixed contact and returns to an OFF state.
Incidentally, vehicles are equipped with various electronic devices which are operated by a driver. However, in recent years, the types of operated electronic devices have increased and increased functionality of the respective electronic devices is also promoted. Accordingly, the need to arrange a plurality of operating knobs (the operating keys or the operating body) around a driver's seat is increasing. Therefore, even in the steering switch device, there is a demand for a structure where many operating knobs can be arranged. However, in the case of the steering switch device mounted on the spoke portion of the steering wheel in the related art, it has been difficult to arrange many operating knobs which are individually incorporated in the opening portion of the housing. That is, the operating knobs operated by a finger of the driver are required to have a necessary size. Attempts to densely arrange the operating knobs simply by miniaturizing may cause impaired operability. Accordingly, it has been difficult to arrange many operating knobs on the spoke portion in the related art.
A steering switch device is disclosed which is mounted on a spoke portion connecting a ring portion and a pad portion of a steering wheel. The steering switch device has a configuration including a first operating knob arranged at the spoke portion so as to have an operating surface on a front surface side opposing a driver of the spoke portion. A first switch element is driven by the first operating knob and a second operating knob is arranged at the spoke portion so as to have an operating surface on a lateral surface side connecting the front surface and a rear surface opposing the front surface of the spoke portion. A second switch element is driven by the second operating knob. A circuit board is provided on which the first and second switch elements are arranged. A support member is fixed to the steering wheel and supports the first and second operating knobs so as to be respectively operable, and holds the circuit board.
In this manner, the configuration is made such that the first and second operating knobs are respectively arranged at the front surface side and the lateral surface side of the spoke portion so as to have the operating surfaces, the circuit board on which the first and second switch elements are arranged is provided on the support member supporting the first and second operating knob so as to be respectively operable, and the support member is fixed to the steering wheel. Then, it is possible to align many operating knobs in the range operable by the driver's finger grasping the ring portion of the steering wheel. Accordingly, without impairing the operability, it is possible to arrange many operating knobs. In addition, since the first and second operating knobs form a portion of an outer shell member of the spoke portion, the steering switch device with an excellent design can be provided. Furthermore, a simplified configuration and easy manufacturing of the steering switch device can be achieved.
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. As illustrated in
The steering switch device 2 according to the present embodiment is mainly configured by a support member 3 attached to the spoke portion 1b of the steering wheel 1; a circuit board 4 arranged at the support member 3; a plurality of first operating knobs 5 which is supported to be elevatable by the support member 3 and is individually in a pressing operation; a plurality of second operating knobs 6 which is rotatably supported by the support member 3, and is individually pressed and is in a tilting operation; a selective operating knob 7 which is supported to be elevatable and rotatable by the support member 3 via a holder unit 8; a rubber sheet 10 which has a plurality of switch elements and is placed on the circuit board 4; and an actuator 11 interposed between the second operating knobs 6 or the selective operating knob 7 and the rubber sheet 10. Furthermore, the support member 3 is integrally fitted with an upper case 12 and a lower case 13. In addition, the holder unit 8 is configured such that a moving holder 15 is rotatably and pivotally attached to a fixed holder 14. In such a manner that the selective operating knob 7 is supported to be elevatable by the moving holder 15, the selective operating knob 7 can selectively perform the pressing operation and a swing operation.
Any of the upper case 12 and the lower case 13 configuring the support member 3 is a resin molded product. Both of these cases 12 and 13 are fastened and fixed by attaching screws 16 (refer to
Fixed contacts 20 (refer to
A plurality of bulging portions 10a is protruded on the rubber sheet 10 and a first to third switch elements 9a, 9b and 9c are configured by movable contacts (not illustrated) provided on the inner bottom surface of the bulging portions 10a and the fixed contacts 20 on the circuit board 4. That is, the movable contacts of the first to third switch elements 9a, 9b and 9c oppose the corresponding fixed contacts 20 so as to be capable of connecting and disconnecting. Just above the respective switch elements 9a, 9b and 9c, either first drive portions 5b (to be described later) of the first operating knobs 5 or actuators 11 are arranged, and the first drive portions 5b and the actuators 11 cause the first to third switch elements 9a, 9b and 9c to be in the pressing operation. Specifically, among the bulging portions 10a protruded on the rubber sheet 10, the six first switch elements 9a are located just below the respective first drive portions 5b of the six first operating knobs 5, and the three second switch elements 9b are located just below the three actuators 11 driven by the different second operating knobs 6. The three remaining third switch elements 9c are located just below the three actuators 11 selectively driven by the selective operating knob 7.
As illustrated in
Furthermore, the selective operating knob 7 is supported by a moving holder 15 of the holder unit 8 so as to be elevatable. Then, the moving holder 15 is pivotally attached to a fixed holder 14 integrally fixed to the upper case 12 from the rear side. Accordingly, the selective operating knob 7 is elevatable with respect to the holder unit 8 and the upper case 12 and is rotatable with respect to the fixed holder 14 and the upper case 12. Therefore, the selective operating knob 7 can selectively perform the pressing operation and the swing operation.
As illustrated in
On the other hand, as illustrated in
As illustrated in
Next, an operation of the steering switch device 2 will be described. As illustrated in
Furthermore, when both of the adjacent first operating knob 5 and second operating knob 6 are in the non-operating state, as illustrated in
If the driver presses any of the first operating knobs 5 downward in this state, as illustrated in
On the other hand, if the driver thrusts and tilts the vicinity of the upper end portion of any of the second operating knobs 6, as illustrated in
Furthermore, if the first operating knob 5 is in the pressing operation, as illustrated in
The selective operating knob 7 is configured to selectively perform the pressing operation which thrusts the center portion thereof downward and the swing operation which thrusts the vicinity of the center portion to slide to the rear or the front. Then, during the pressing operation, the third switch element 9c located just below the center portion of the selective operating knob 7 elastically goes through the buckling distortion and during the swing operation, the third switch element 9c located at the side obliquely downward from the selective operating knob 7 elastically goes through the buckling distortion. Accordingly, using the driver's three operating methods (the pressing operation, the swing operation to the rear side and the swing operation to the front side), it is possible to selectively bring the movable contact within the three different third switch elements 9c into contact with the corresponding fixed contacts 20. That is, the selective operating knobs 7 can output three types of ON signal in response to the operating methods.
As described above, the steering switch device 2 according to the present embodiment is configured by the first operating knob 5 arranged at the spoke portion 1b so as to have the operating surface at the front surface side opposing the driver of the spoke portion 1b; the first switch element 9a driven by the first operating knob 5; the second operating knob 6 arranged at the spoke portion 1b so as to have the operating surface at the lateral surface side connecting the front surface and the rear surface opposing the front surface of the spoke portion 1b; the second switch element 9b driven by the second operating knob 6; the circuit board 4 on which the first and second switch elements 9a and 9b are arranged; and the support member 3 which is fixed to the steering wheel 1, supports the first and second operating knobs 5 and 6 so as to be respectively operable and holds the circuit board 4. Therefore, it is possible to align many operating knobs in the range operable by the driver's finger grasping the ring portion 1a of the steering wheel 1. Accordingly, without impairing the operability, it is possible to arrange many operating knobs. In addition, since the first and second operating knobs 5 and 6 form a portion of the outer shell member of the spoke portion 1b, the steering switch device 2 with an excellent design can be provided. Furthermore, a simplified configuration and easy manufacturing of the steering switch device 2 can be achieved.
In addition, in the steering switch device 2 according to the present embodiment, the first operating knob 5 is supported so as to be capable of the pressing operation and the second operating knob 6 is pivotally supported so as to be capable of the tilting operation. Accordingly, the driver can perform both of the pressing operation of the first operating knob 5 and the tilting operation of the second operating knob 6 without any trouble using the fingers grasping the ring portion 1a. Therefore, better operability may be easily secured.
In addition, the upper end portion of the second operating knob 6 is configured to be adjacent to the first operating knob 5 by pivotally supporting the vicinity of the lower end portion of the second operating knob 6. Accordingly, the second operating knob 6 is capable of the tilting operation by thrusting the vicinity of the upper end portion. Therefore, the driver grasping the steering wheel 1 can easily operate the first and second operating knobs 5 and 6 by reducing the finger's moving distance. Consequently, the steering switch device 2 with better operability can be provided.
Furthermore, the first operating knob 5 has the first stopper portion 5c which engages with the second operating knob 6 and prevents the second operating knob 6 from the tilting operation, when the first operating knob 5 is in the pressing operation, if the second operating knob 6 is in the tilting operation, and the second operating knob 6 has the second stopper 6d which engages with the first operating knob 5 and prevents the first operating knob 5 from the pressing operation, when the second operating knob 6 is in the tilting operation, if the first operating knob 5 is in the pressing operation. Accordingly, it is possible to prevent the first operating knob 5 and the second operating knob 6 from being operated at the same time.
In addition, the first and second switch elements 9a and 9b are configured by the fixed contact 20 formed on the circuit board 4 and the rubber sheet 10 arranged on the circuit board 4. When the first operating knob 5 is in the pressing operation, the first operating knob 5 is supported by the support member 3 so as to reciprocate in the direction perpendicular to the circuit board 4 and has the first drive portion 5b pressing the first switch element 9a. The actuator 11 is interposed between the second operating knob 6 and the second switch element 9b, the actuator 11 is supported by the support member 3 so as to reciprocate in the direction perpendicular to the circuit board 4, and the second operating knob 6 has the second drive portion 6b pressing the actuator 11 when the second operating knob 6 is in the tilting operation. Accordingly, the first and second drive portions 5b and 6b can reliably drive the first and second switch elements 9a and 9b by operating the first and second operating knobs 5 and 6. Therefore, even using the common circuit board 4, the highly reliable steering switch device 2 can be provided.
Furthermore, in the above-described embodiment, the steering switch device 2 having the six first operating knobs 5, the three second operating knobs 6 and the one selective operating knob 7 has been described. However, the number or the arrangement form of the respective operating knobs can be appropriately selected. In addition, it goes without saying that the present invention can be also applied to another steering switch device omitted in
It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and alterations may occur depending on design requirements and other factors insofar as they are within the scope of the appended claims of the equivalents thereof.
Number | Date | Country | Kind |
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2012-059037 | Mar 2012 | JP | national |