JP2009047173A - Switch device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a switch device capable of securing a communication range by a communication means. <P>SOLUTION: A decorative cylinder 32 is mounted on an outer end of a case 36 of an ignition switch 30 so as to surround an outer periphery of a coil antenna 17. A portion where a decorative plating 40 is not applied on the decorative cylinder 32, namely, a portion excluding a design surface of the decorative plating 40 is formed as a transmission portion 42 which can easily transmit a transponder driving radio wave output from the coil antenna 17. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a switch device that includes an operation switch that drives an operating portion provided on an object.

  In recent years, a portable device capable of transmitting an ID code signal including an ID code is carried by a vehicle user (owner) instead of a conventional mechanical key for reasons such as vehicle theft prevention. A smart ignition function has been proposed in which a vehicle engine can be started by an ID code signal wirelessly transmitted from the portable device (see, for example, Patent Document 1).

  Normally, the user performs mutual communication with the vehicle by an ID code signal automatically transmitted from a portable device housed in a clothes pocket or wallet. At this time, the engine of the vehicle is started by operating the ignition switch on condition that the ID code included in the ID code signal from the portable device matches the ID code preset in the vehicle. However, if the ID code signal is no longer automatically transmitted from the portable device due to a reason such as battery exhaustion, the user places the portable device in the communicable area of the transponder driving radio wave, and from the transponder provided in the portable device for emergency use. Intercommunication with the vehicle is performed by the transmitted transponder signal. Then, the vehicle engine is started by operating the ignition switch on condition that the transponder code included in the transponder signal from the portable device matches the transponder code preset in the vehicle.

  For this reason, a coil antenna that outputs a transponder drive radio wave and an ignition switch are installed near the driver's seat in the passenger compartment. Recently, electronic systems and advanced functions of vehicle systems are rapidly progressing, and electric and electronic parts to be mounted are increasing. Therefore, it is required to reduce the installation space for various parts mounted on vehicles. ing. Therefore, a switch device in which a coil antenna and an ignition switch are assembled together has been proposed.

In this type of switch device, in order to improve the appearance quality of the passenger compartment and make the operation buttons stand out, a decorative member whose surface is decorated with a decorative plating is provided so as to surround the outer edge of the operation button. As an operation method of the switch device in the event of an emergency such as battery exhaustion, a method of pushing a portable device against an operation button has been proposed. In this case, since it is necessary to secure a communicable area with the portable device on the front side of the operation button, a coil antenna that outputs a transponder driving radio wave is provided along the outer edge of the operation button of the ignition switch.
JP 2002-188505 A

  However, according to the above configuration, since the coil antenna and the decorative member are disposed at positions close to each other, the transponder driving radio wave output from the coil antenna is easily shielded by the decorative plating applied to the surface of the decorative member. It was. For this reason, the magnetic field cannot be spatially spread, and the magnetic path of the transponder driving radio wave cannot be secured around the operation switch. Therefore, it becomes difficult to secure a communicable area with the portable device by the transponder driving radio wave, and there is a problem that the coil antenna cannot sufficiently exhibit the communication function.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a switch device capable of ensuring a communicable area by a communication means.

  In order to achieve the above-described object, the invention according to claim 1 is an operation switch that includes an operation button that performs a push operation as an operation switch that drives an operation unit provided on an object, and surrounds an outer edge of the operation switch. And a communication unit that is disposed in the vicinity of the decoration member and outputs a transponder driving radio wave for generating an electromotive force in a transponder provided in a portable device separate from the object. In the switch device in which the operation by the operation switch is validated on condition that an ID code included in a transponder signal transmitted from the transponder matches a preset ID code, the decorative member The part subjected to decorative plating in the design surface is a design surface, and the communication means is connected to a portion other than the design surface. In order to transmit the transponder driving radio wave forces, and its gist that the decorative plating is provided a transmission portion is a portion that is not subjected.

  According to this configuration, by providing the transmissive portion in a portion other than the design surface of the decorative member, it is possible to secure the magnetic path of the transponder driving radio wave output from the communication unit. Therefore, it is possible to secure a communicable area with the portable device by the transponder driving radio wave around the operation switch (including the front side of the operation button).

  According to a second aspect of the present invention, in the switch device according to the first aspect, the ferromagnetic material for amplifying the transponder driving radio wave output from the communication means between the communication means and the decorative member. The gist of this is the interposition.

  According to this configuration, the transponder driving radio wave output from the communication unit can be amplified by interposing the ferromagnetic material between the communication unit and the decorative member. Therefore, the magnetic path of the transponder driving radio wave output from the communication means can be secured.

  The invention according to claim 3 is, as an operation switch for driving an operation unit provided on an object, an operation switch including an operation button for push operation, a decorative member provided so as to surround an outer edge of the operation switch, A communication unit that is disposed in the vicinity of the decorative member and outputs a transponder driving radio wave for generating an electromotive force in a transponder provided in a portable device separate from the object, and is transmitted from the transponder. In the switch device in which the operation by the operation switch is validated on condition that the ID code included in the transponder signal matches the preset ID code, the decorative member is subjected to decorative plating A design surface is provided, and the communication means includes a rod-shaped core and a coil wound around the core. Further, the bar antenna disposed at a position away from the decorative plating, wherein the core is made of a ferromagnetic material for amplifying the transponder driving radio wave output from the communication means, and the bar antenna and the The gist of the operation switch is that they are arranged in such a relationship that their axes substantially coincide with each other.

  With this configuration, the space occupied by the communication means can be reduced by using the bar antenna. For this reason, it becomes easy to ensure the installation space of the communication means in a vehicle as a target object. Therefore, the magnetic path of the transponder driving radio wave output from the communication unit can be secured by arranging the communication unit at a position where the transponder driving radio wave is not easily shielded.

  In particular, the bar antenna and the operation switch are arranged in such a relationship that their axes almost coincide with each other. In this case, since the communication area with the portable device is arranged so that the operation position of the operation switch substantially coincides, the object by the transponder signal can be pushed by pushing the portable device against the operation button. Communication with (for example, a vehicle) and operation of the operation switch can be executed almost simultaneously. Therefore, it is possible to easily operate the object (for example, engine start operation) in an emergency.

  As described above in detail, according to the present invention, a communicable area by the communication means can be secured.

(First embodiment)
Hereinafter, a first embodiment in which the present invention is embodied in a switch device of a one-push engine start / stop control system mounted on a vehicle will be described in detail with reference to FIGS.

  As shown in FIG. 1, the engine start / stop control system 1 includes a vehicle-side control device 10 mounted on a vehicle 2 and a portable device 20 separate from the vehicle 2. The portable device 20 is owned by the owner of the vehicle 2.

  The vehicle side control device 10 includes a vehicle side transmission circuit 13, a vehicle side reception circuit 14, a transponder signal transmission / reception circuit 15, and the like, which are connected to the vehicle side microcomputer 12. A transmission antenna 13 a is connected to the vehicle-side transmission circuit 13, and a coil antenna 17 as communication means is connected to the transponder signal transmission / reception circuit 15. A reception antenna 14 a that receives an ID code signal from the portable device 20 is connected to the vehicle-side reception circuit 14.

  The vehicle-side control device 10 includes a vehicle-side microcomputer (hereinafter simply referred to as a vehicle-side microcomputer) 12, and the vehicle-side microcomputer 12 transmits a request signal to the portable device 20. The memory provided in the vehicle-side microcomputer 12 stores a unique ID code assigned to each owner's vehicle.

  The vehicle-side transmission circuit 13 converts the request signal intermittently output from the vehicle-side microcomputer 12 into a radio wave having a predetermined frequency and transmits it to a predetermined area inside the vehicle 2 via the transmission antenna 13a. The transponder signal transmission / reception circuit 15 converts the transponder drive signal output from the vehicle-side microcomputer 12 into a radio wave of a predetermined frequency to generate a transponder drive radio wave, and transmits the transponder drive radio wave to a predetermined area in the vehicle interior via the coil antenna 17. To do.

  The vehicle side reception circuit 14 demodulates the ID code signal from the portable device 20 into a pulse signal to generate a reception signal, and outputs the reception signal to the vehicle side microcomputer 12. The transponder signal transmission / reception circuit 15 demodulates the transponder signal from the portable device 20 into a pulse signal, generates a reception signal, and outputs the reception signal to the vehicle-side microcomputer 12.

  An ignition switch 30 as an operation switch provided in the passenger compartment is electrically connected to the input side of the vehicle-side microcomputer 12. An engine starter 18 is electrically connected to the output side of the vehicle-side microcomputer 12. The engine starting device 18 is a device that automatically starts an engine as an operating portion when a starting signal is input from the vehicle-side microcomputer 12.

  The vehicle-side microcomputer 12 collates the ID code stored in the memory in advance with the ID code included in the ID code signal transmitted from the portable device 20, and determines whether or not these ID codes match. . When it is determined that the ID codes match each other, the vehicle-side microcomputer 12 outputs a start signal or a stop signal to the engine starter 18 when an on signal or an off signal is input from the ignition switch 30, and the ignition The operation by the switch 30 is activated. Here, enabling the operation by the ignition switch 30 means that the engine of the vehicle 2 being stopped can be driven or the engine being driven can be stopped by pushing the ignition switch 30. Say.

  On the other hand, when it is determined that the ID codes do not match, the vehicle-side microcomputer 12 can output a start signal or a stop signal to the engine starter 18 even if an on signal or an off signal is input from the ignition switch 30. First, the operation by the ignition switch 30 is invalidated. Here, invalidating the operation by the ignition switch 30 means that even if the ignition switch 30 is pushed, the engine of the vehicle 2 being stopped cannot be driven or the engine being driven cannot be stopped.

  Further, the vehicle-side microcomputer 12 uses a transponder ID code (hereinafter simply referred to as a transponder code) stored in a memory in advance and a transponder code included in a transponder signal from a transponder 25 provided in the portable device 20. Collation is performed to determine whether the transponder codes match each other. When it is determined that the transponder codes match each other, the vehicle-side microcomputer 12 outputs a start signal to the engine starter 18 when an on signal is input from the ignition switch 30 and an engine when the off signal is input. A stop signal is output to the starter 18. In this way, the operation by the ignition switch 30 is validated.

  On the other hand, when it is determined that the transponder codes do not match, the vehicle-side microcomputer 12 can output a start signal or a stop signal to the engine starter 18 even if an on signal or an off signal is input from the ignition switch 30. First, the operation by the ignition switch 30 is invalidated.

  The portable device 20 includes a portable device-side microcomputer (hereinafter simply referred to as a portable device-side microcomputer) 22. The portable device side microcomputer 22 receives the request signal transmitted from the vehicle side microcomputer 12, and identifies whether the request signal is the request signal of the owner. And only when it identifies that it is a request signal transmitted from the owner's vehicle 2, the portable device side microcomputer 22 transmits an ID code signal to the vehicle side control apparatus 10. FIG. The ID code signal includes a unique ID code that can identify the owner's vehicle 2 and other vehicles, and this ID code is stored in a memory provided in the portable device side microcomputer 22. Yes.

  The portable device 20 includes a portable device side transmission circuit 23 and a portable device side reception circuit 24, which are connected to the portable device side microcomputer 22. A transmission antenna 23 a that transmits an ID code signal is connected to the portable device side transmission circuit 23, and a reception antenna 24 a that receives a request signal from the vehicle 2 is connected to the portable device side reception circuit 24. The portable device side transmission circuit 23 converts the ID code signal output from the portable device side microcomputer 22 into a radio wave having a predetermined frequency, and transmits the ID code signal via the transmission antenna 23a. The portable device side receiving circuit 24 demodulates the request signal from the vehicle 2 into a pulse signal to generate a received signal, and outputs the received signal to the portable device side microcomputer 22.

  The portable device 20 includes a transponder 25. This transponder 25 is used as an emergency means when a battery as a power source of the portable device side microcomputer 22 is exhausted. The transponder 25 can transmit a transponder signal including a unique transponder code that can identify the owner's vehicle 2 and other vehicles to the vehicle-side control device 10. The vehicle-side control device 10 generates a transponder driving radio wave as an electromagnetic field. When the transponder 25 is disposed in a region where the electromagnetic field is generated, an electromotive force is generated in a coil provided in the transponder 25. Then, a transponder signal including a transponder code is transmitted from the transponder 25.

  As shown in FIGS. 2 and 3, the operation button 31 of the ignition switch 30 is disposed on the interior surface 3 a of the instrument panel 3. A fitting port 4 is opened in the instrument panel 3, and a switch device 35 is inserted inside the fitting port 4. The switch device 35 includes an ignition switch 30 as an operation switch.

  A coil antenna 17 serving as communication means is wound around the outer end of the casing 36 of the ignition switch 30. The coil antenna 17 outputs a transponder driving radio wave that generates an electromotive force in a transponder 25 built in the portable device 20. In the present embodiment, the coil antenna 17 and the ignition switch 30 are arranged in such a relationship that their axes C1 and C0 substantially coincide with each other. Due to this arrangement relationship, the transponder driving radio wave output from the coil antenna 17 forms a magnetic field centered on the axis C0 of the ignition switch 30 as shown by a broken line in FIG. 3, and the communicable region 8 outside the ignition switch 30. Is formed with a spatial spread.

  A decorative cylinder 32 as a decorative member is attached to the outer end of the casing 36 of the ignition switch 30 so as to surround the outer periphery of the coil antenna 17. Inside the decorative cylinder 32, an operation button 31 for alternately turning on and off the ignition switch 30 by a push operation is provided. The decorative cylinder 32 is made of a synthetic resin material, and the outer edge of the operation button 31 is surrounded by the decorative cylinder 32. The inner end portion of the operation button 31 is engaged with an engagement groove 32b formed in the inner back portion of the decorative cylinder 32 so that the movement of the operation button 31 during a push operation is guided.

  The design surface (outer end surface) 32a of the decorative cylinder 32 is exposed, and a decorative plating 40 having a metallic luster is applied to the exposed portion. The decorative plating 40 is generated by performing a pretreatment on the surface of the base material constituting the decorative cylinder 32, forming a base layer, and then performing chromium plating or black chrome plating as a finishing layer. The reason why the decorative plating 40 is applied to the decorative cylinder 32 is to improve the appearance of the passenger compartment and to make the operation button 31 of the ignition switch 30 conspicuous when the user looks from the driver's seat.

  A portion of the decorative cylinder 32 where the decorative plating 40 is not applied, that is, a portion excluding the design surface of the decorative plating 40 is a transmission portion 42 that facilitates transmission of the transponder driving radio wave output from the coil antenna 17. Since the transmissive part 42 does not contain a metal such as chromium unlike the decorative plating 40, there is almost no radio interference caused by the metal. In the present embodiment, portions (shaded portions shown in FIG. 3) corresponding to the inside and outside of the coil antenna 17 in the decorative cylinder 32 easily affect the intensity of the transponder driving radio wave output from the coil antenna 17. It has become. Since the portion including this portion is the transmission portion 42, a magnetic path of the transponder driving radio wave output from the coil antenna 17 can be secured, and a relatively wide communicable region 8 is secured on the front side of the operation button 31.

Subsequently, a series of operations for starting the engine will be described.
When the owner who owns the portable device 20 enters a predetermined area inside the vehicle 2, the portable device side microcomputer 22 sends an ID code signal to the vehicle 2 side in response to a request signal from the vehicle side control device 10. Output. When the ID code signal from the portable device 20 is input to the vehicle-side microcomputer 12, the vehicle-side microcomputer 12 compares the ID code included in the ID code signal with a preset ID code, and based on the result. Thus, it is determined whether or not to output a start signal or a stop signal to the engine starter 18. When it is determined that the ID codes match each other, the operation by the ignition switch 30 is validated. In this case, when the ignition switch 30 is operated and an ON signal is input to the vehicle-side microcomputer 12, the vehicle-side microcomputer 12 outputs a start signal to the engine starter 18 and drives the engine of the vehicle 2 that is stopped. Let Alternatively, when the ignition switch 30 is operated and an off signal is input to the vehicle-side microcomputer 12, the vehicle-side microcomputer 12 outputs a stop signal to the engine starter 18 to stop the engine of the vehicle 2 being driven. .

  However, when a voltage drop of the battery of the portable device 20 occurs and the ID code signal is not automatically transmitted from the portable device 20, the owner hits the portable device 20 against the operation button 31 of the ignition switch 30. At this time, when the transponder 25 provided in the portable device 20 is arranged in the communicable region 8 of the transponder driving radio wave output from the coil antenna 17, an electromotive force is generated in the coil in the transponder 25. Then, the transponder 25 outputs a transponder signal including the transponder code to the vehicle 2 side. When the transponder signal is input to the vehicle-side microcomputer 12, the vehicle-side microcomputer 12 compares the transponder code included in the transponder signal with a preset transponder code, and based on the result, the engine starter 18 It is determined whether a start signal or a stop signal is output. When it is determined that the transponder codes match each other, the operation by the ignition switch 30 is validated. In this case, when the portable device 20 is pushed against the operation button 31 and pushed, the vehicle-side microcomputer 12 outputs a start signal to the engine starter 18 to drive the engine of the vehicle 2 that is stopped.

According to this embodiment, the following effects can be obtained.
(1) In the decorative cylinder 32, a portion including portions corresponding to the vicinity of the inner side and the outer side of the coil antenna 17 is a transmission part 42. For this reason, the magnetic path of the transponder driving radio wave output from the coil antenna 17 is secured, and a relatively wide communicable region 8 can be formed on the front side of the operation button 31. Therefore, the communication function of the coil antenna 17 can be sufficiently exhibited.

  (2) A portion of the decorative cylinder 32 excluding the design surface 32a to which the decorative plating 40 is not applied is a transmission portion 42 that facilitates transmission of the transponder driving radio wave output from the coil antenna 17. In this case, in the decorative cylinder 32, only a necessary portion has a design property, so that the area of the transmission portion 42 can be ensured as wide as possible. Therefore, the design of the decorative cylinder 32 is not impaired, and the magnetic path of the transponder driving radio wave output from the coil antenna 17 can be easily secured.

  (3) The coil antenna 17 and the ignition switch 30 are arranged in such a relationship that their axis lines C1 and C0 substantially coincide with each other. In this case, since the communicable area 8 and the operation position of the ignition switch 30 are arranged so as to substantially coincide with each other, the portable device 20 is pushed against the operation button 31 to perform a push operation, so that the vehicle 2 based on the transponder signal is used. And the operation of the ignition switch 30 can be executed almost simultaneously. Therefore, the engine starting operation of the vehicle 2 in an emergency can be easily performed.

(Second Embodiment)
Hereinafter, a second embodiment of the present invention will be described with reference to FIG. In addition, since the switch apparatus 35 of 2nd Embodiment is the structure which only changed the structure of the decoration cylinder 32 vicinity of the switch apparatus 35 of 1st Embodiment, the detailed description is abbreviate | omitted about the same part.

  As shown in FIG. 4, an amorphous magnetic body 45 as a ferromagnetic body is interposed between the coil antenna 17 and the decorative cylinder 32. The amorphous (amorphous) magnetic body 45 here refers to a magnetic body whose atomic arrangement does not have a crystal-like order. Specifically, TbFeCo (amorphous terbium iron cobalt) or the like is used. These alloys are mentioned. The amorphous magnetic body 45 is a thin film having a predetermined thickness, and is disposed along the inner peripheral surface of the coil antenna 17.

Therefore, according to the second embodiment, the following effects can be obtained.
(3) The amorphous magnetic body 45 is disposed along the inner peripheral surface of the coil antenna 17. In this case, since the amorphous magnetic body 45 is a substance having high electrical conductivity and high magnetic conductivity, most of the magnetic flux output from the coil antenna 17 passes through the amorphous magnetic body 45. For this reason, in the decorative plating 40 applied to the decorative cylinder 32, the generation of eddy currents is suppressed, so that the transponder driving radio wave output from the coil antenna 17 can be amplified. Therefore, a relatively wide communicable area 8 is secured on the front side of the operation button 31. Therefore, the communication function of the coil antenna 17 can be sufficiently exhibited.

(Third embodiment)
Hereinafter, a third embodiment of the present invention will be described with reference to FIG. In addition, since the switch apparatus 35 of 3rd Embodiment is the structure which changed only the coil antenna 17 of the switch apparatus 35 of 1st Embodiment, the detailed description is abbreviate | omitted about the same part.

  As shown in FIG. 5, in this embodiment, a bar antenna 48 is used as a communication unit that outputs a transponder driving radio wave for generating an electromotive force in the transponder 25 in the portable device 20. The bar antenna 48 is configured by winding a coil 48b around a rod-shaped core 48a. The core 48a is, for example, a ferromagnetic material such as an amorphous magnetic material or ferrite, and is for increasing the strength of the magnetic field centered on the axis of the coil 48b.

  The bar antenna 48 is disposed in the casing 36 of the ignition switch 30 while being mounted on the circuit board 37. The bar antenna 48 is arranged away from the decorative plating 40 applied to the design surface 32a of the decorative cylinder 32. In this case, the bar antenna 48 and the ignition switch 30 are arranged so that their axes C2 and C0 substantially coincide with each other.

Therefore, according to the third embodiment, the following effects can be obtained.
(6) A bar antenna 48 is used as a communication means for outputting a transponder driving radio wave. In this case, the installation space occupied by the bar antenna 48 can be reduced compared to when the coil antenna 17 is used. Therefore, it is easy to secure an installation space for the bar antenna 48 in the vehicle 2. Further, by arranging the bar antenna 48 at a position apart from the decorative plating 40 applied to the design surface 32a of the decorative cylinder 32, the transponder driving radio wave is hardly shielded. Therefore, a relatively wide communicable area 8 can be secured on the front side of the operation button 31, and the communication function of the coil antenna 17 can be sufficiently exhibited.

  (7) The bar antenna 48 and the ignition switch 30 are arranged in such a relationship that their axes C2 and C0 substantially coincide with each other. In this case, since the communicable area 8 and the operation position of the ignition switch 30 are arranged so as to substantially coincide with each other, the portable device 20 is pushed against the operation button 31 to perform a push operation, so that the vehicle 2 based on the transponder signal is used. And the operation of the ignition switch 30 can be executed almost simultaneously. Therefore, the engine starting operation of the vehicle 2 in an emergency can be easily performed.

(Fourth embodiment)
A fourth embodiment of the present invention will be described below with reference to FIGS. In addition, since the switch apparatus 35 of 4th Embodiment is the structure which changed only the periphery structure of the decoration cylinder 32 of the switch apparatus 35 of 1st Embodiment, the detailed description is abbreviate | omitted about the same part.

  As shown in FIG. 7, a recess 6 is formed on the outer edge of the fitting opening 4 in the interior surface 3 a of the instrument panel 3. In the present embodiment, the decorative tube 32 is omitted from the engagement groove 32 b (see the first embodiment) for guiding the operation of the operation button 31, and the decorative tube 32 is provided on the casing 36 of the ignition switch 30. The outer end is press-fitted so as to be detachable. The user can remove the decorative cylinder 32 from the ignition switch 30 by pulling out the outer end portion of the decorative cylinder 32 protruding from the recess 6 with a finger.

  A detection switch 50 for detecting the attachment / detachment state of the decorative cylinder 32 is disposed at the attachment position of the decorative cylinder 32 in the ignition switch 30. As the detection switch 50, for example, a contact movable micro switch, a non-contact proximity switch, or the like is used. The detection switch 50 outputs a detection signal to the vehicle-side microcomputer 12 when the decorative cylinder 32 is removed.

  As shown in FIG. 6, the vehicle-side microcomputer 12 intermittently outputs request signals via the coil antenna 17 during normal times. When the decorative cylinder 32 is removed and a detection signal is input from the detection switch 50 to the vehicle-side microcomputer 12, the vehicle-side microcomputer 12 stops outputting the request signal and outputs a transponder drive signal. As described above, the vehicle-side microcomputer 12 switches the output signal from the request signal to the transponder drive signal based on the removal of the decorative cylinder 32.

Therefore, according to the fourth embodiment, the following effects can be obtained.
(8) The decorative cylinder 32 is detachably press-fitted into the outer end portion of the casing 36 of the ignition switch 30. That is, the decorative cylinder 32 is movable to a position where the transponder driving radio wave output from the coil antenna 17 is not shielded. For this reason, by removing the decorative cylinder 32 from the coil antenna 17, the transponder drive radio wave output from the coil antenna 17 is not shielded by the decorative plating 40 applied to the design surface 32a of the decorative cylinder 32, and the operation button 31 A wide communicable area 8 can be secured on the front side. Therefore, the communication function of the coil antenna 17 can be sufficiently exhibited.

  (9) The vehicle-side microcomputer 12 switches the output signal from the request signal to the transponder drive signal based on the removal of the decorative cylinder 32. By doing so, the user can clearly grasp the timing at which the transponder driving radio wave is output from the coil antenna 17. Further, since the output signal from the vehicle side control device 10 is switched by the switch operation of the detection switch 50, interference between the request signal and the transponder driving radio wave can be prevented.

In addition, you may change this embodiment as follows.
In the second to fourth embodiments, the decorative plating 40 is applied to the design surface 32 a of the decorative cylinder 32. As another configuration, the decorative plating 40 may be applied to the entire surface of the decorative cylinder 32. In this case, it is not necessary to provide the transmitting portion 42 for transmitting the transponder driving radio wave in the decorative cylinder 32 as in the first embodiment. Therefore, when plating the decorative cylinder 32, it is possible to save time and labor for masking the portions other than the design surface 32a, and to achieve a reduction in manufacturing cost.

  In the second embodiment, the amorphous magnetic body 45 is interposed between the coil antenna 17 and the decorative cylinder 32 as a ferromagnetic body. As another configuration, ferrite may be interposed as a ferromagnetic material between the coil antenna 17 and the decorative cylinder 32.

  In the third embodiment, the bar antenna 48 and the ignition switch 30 are arranged in such a relationship that their axes C2 and C0 substantially coincide with each other. As another configuration, if the axis C2 of the bar antenna 48 is not orthogonal to the axis C0 of the ignition switch 30, the bar antenna 48 may be disposed at any position in the casing 36 of the ignition switch 30. Good.

  In the first to fourth embodiments, the decorative plating 40 having a metallic luster is applied to the design surface (outer end surface) 32a of the decorative cylinder 32. As a configuration other than this, a metal film generated by electrodeposition coating, sputtering, or the like may be applied to the design surface 32 a of the decorative cylinder 32.

  In the first to fourth embodiments, the invention is embodied in the switch device 35 including the ignition switch 30 that starts or stops the engine of the vehicle 2. As a configuration other than this, in addition to the engine of the vehicle 2, an in-vehicle electrical component such as a car air conditioner may be operated, or a switch device including a switch for locking and unlocking a door of a house may be embodied.

  In the first to fourth embodiments, when it is determined that the transponder codes coincide with each other, the engine of the vehicle 2 that is stopped is driven, or the engine of the vehicle 2 that is being driven is stopped. As another configuration, even if the transponder codes do not coincide with each other, the engine of the vehicle 2 being driven may be stopped by operating the ignition switch 30.

  In the fourth embodiment, the decorative cylinder 32 is detachably press-fitted into the outer end of the casing 36 of the ignition switch 30. As another configuration, as shown in FIG. 8, the decorative cylinder 32 may be mounted so as to be able to be pushed into the outer end portion of the casing 36 of the ignition switch 30. Further, the detection switch 51 may be disposed at the pushing position of the decorative cylinder 32. In this way, the user can separate the decorative plating 40 applied to the decorative cylinder 32 from the coil antenna 17 by simply pushing the decorative cylinder 32, and request an output signal from the vehicle-side control device 10. The signal can be switched to the transponder drive signal. That is, the communication function of the coil antenna can be exhibited by a simple pushing operation of the decorative cylinder 32, and the timing at which the transponder driving radio wave is output can be clearly grasped.

  -Moreover, as shown to Fig.9 (a), (b), you may mount | wear with the decoration cylinder 32 so that rotation with respect to the outer side edge part of the housing | casing 36 of the ignition switch 30 is possible. In this case, a part of the outer peripheral edge of the decorative cylinder 32 is a transmission part 42 extending along the axial direction of the decorative cylinder 32, and a decorative plating 40 is applied to a part excluding the transmission part 42. For example, when the bar antenna 48 is disposed in the vicinity of the side wall of the casing 36 of the ignition switch 30, the transmissive portion 42 is made to rotate by rotating the decorative cylinder 32 from the position shown in FIG. It is moved along the circumferential direction 32 to the position shown in FIG. Thus, the transmission part 42 provided in the decorative cylinder 32 is a position where the transponder driving radio wave output from the bar antenna 48 is not easily shielded, that is, a position free from radio interference by the decorative plating 40 applied to the decorative cylinder 32. It can be placed in. Therefore, the magnetic path of the transponder driving radio wave output from the bar antenna 48 can be secured by rotating the decorative cylinder 32. Further, a detection switch (not shown) is disposed at the rotation position of the decorative cylinder 32, and the output signal from the vehicle-side control device 10 is changed from the request signal to the transponder drive signal based on the rotation operation of the decorative cylinder 32. It is good also as a structure to switch. In this way, the communication function of the bar antenna 48 can be exhibited by a simple turning operation of the decorative cylinder 32, and the timing at which the transponder driving radio wave is output can be clearly grasped.

Next, the technical idea grasped by the above embodiment and another example will be described below.
(1) In the switch device, the transmission part is a part excluding decorative plating applied to the decorative member.

(2) In the switch device, the communication means is a coil antenna and is disposed along an outer edge of the operation switch.
(3) The switch device according to the technical idea (2), wherein the coil antenna and the operation switch are arranged so that their axes substantially coincide with each other.

(4) In the switch device, the ferromagnetic material is disposed along an inner peripheral surface of the coil antenna.
(5) In the switch device, the bar antenna is disposed in a casing of the operation switch.

(6) In the switch device, the bar antenna and the operation switch are arranged so that their axes substantially coincide with each other.
(7) In the switch device, the ferromagnetic material is an amorphous magnetic material or a ferrite.

(8) In the switch device, the decorative member is detachable from the operation switch.
(9) In the switch device, the decorative member can be pushed into the operation switch.

  (10) In the switch device, the decorative member is rotatably attached to the operation switch, and the transparent portion can be arranged at a position corresponding to the communication means by rotating the attachment member. It has become.

  (11) When the decorative member is moved to a position where the transponder driving radio wave output from the communication means is not shielded or at a position corresponding to the communication means for outputting the transponder driving radio wave, the transmission unit is arranged. A detecting switch for detecting that the decorative member is moved or rotated when the decorative member is rotated, and the communication means outputs the transponder driving radio wave based on a detection signal of the detection switch. The switch device according to any one of the technical ideas (8) to (10).

The block diagram which shows the electric constitution of the engine start-stop control system in 1st-3rd embodiment. The enlarged plan view of the ignition switch periphery seen from the interior surface of the instrument panel in 1st-4th embodiment. The fragmentary sectional view of the switch device in a 1st embodiment. The fragmentary sectional view of the switch device in a 2nd embodiment. The fragmentary sectional view of the switch device in a 3rd embodiment. The block diagram which shows the electric constitution of the engine start-stop control system in 4th Embodiment. The fragmentary sectional view of the switch apparatus in 4th Embodiment, and sectional drawing of a decoration cylinder. The fragmentary sectional view of the switch device of another example. (A), (b) is a figure for demonstrating rotation operation of the decoration cylinder in the switch apparatus of another example.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 2 ... Vehicle (object), 17 ... Coil antenna (communication means), 20 ... Portable machine, 25 ... Transponder, 30 ... Ignition switch (operation switch), 31 ... Operation button, 32 ... Decoration cylinder (decoration member), 32a Design surface, 35: Switch device, 40: Decoration plating, 42: Transmission part, 45: Amorphous magnetic material (ferromagnetic material), 48: Bar antenna (communication means), 48a: Core, 48b: Coil

Claims (3)

As an operation switch for driving an operating portion provided on an object, an operation switch having an operation button for push operation, a decoration member provided so as to surround an outer edge of the operation switch, and disposed in the vicinity of the decoration member A transponder driving radio wave for generating an electromotive force in a transponder provided in a portable device separate from the object, and an ID code included in the transponder signal transmitted from the transponder In the switch device in which the operation by the operation switch is validated on the condition that the ID code is set in advance,
The decorative member of the decorative member is a design surface, and a portion other than the design surface is not subjected to decorative plating so as to transmit the transponder driving radio wave output from the communication means. A switch device provided with a transmission part. The switch device according to claim 1, wherein a ferromagnetic material for amplifying the transponder driving radio wave output from the communication unit is interposed between the communication unit and the decorative member. As an operation switch for driving an operating portion provided on an object, an operation switch having an operation button for push operation, a decoration member provided so as to surround an outer edge of the operation switch, and disposed in the vicinity of the decoration member A transponder driving radio wave for generating an electromotive force in a transponder provided in a portable device separate from the object, and an ID code included in the transponder signal transmitted from the transponder In the switch device in which the operation by the operation switch is validated on the condition that the ID code is set in advance,
The decorative member includes a design surface on which decorative plating is performed, and the communication unit includes a rod-shaped core and a coil wound around the core, and is disposed at a position separated from the decorative plating. The core is made of a ferromagnetic material for amplifying the transponder driving radio wave output from the communication means,
The switch device, wherein the bar antenna and the operation switch are arranged so that their axes substantially coincide with each other.

Images