JP2004327276A - Input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an input device in which a push button switch and a seesaw switch can exist together in an input device capable of changing the arrangement of a plurality of switches. <P>SOLUTION: The input device comprises a plurality of detection switches 2 mounted on a substrate 1 and knobs corresponding to them, and the knob has a mixture of a seesaw knob 5 and a push button knob 6, and each set of the detection switches 2 has a plurality of drive pins 3 that can change independently switching of contact respectively in two regions on the substrate 1. The knob has a drive part 7 for operating a prescribed pin pattern simultaneously. The drive part 7 of the seesaw knob 5 operates selectively a pin pattern selected from drive pins 3 in one region and a pin pattern selected from drive pins in the other region. The drive part 7 of a push button knob 6 operates the pin pattern selected from drive pins 3 arranged in two regions. Each of two pin patterns that the seesaw knob 5 selectively operates and each pin pattern that the push button knob 6 operates are all made of different patterns. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【００２８】
検出スイッチ２にシーソーノブ５と押釦ノブ６を混在させて装着する場合、シーソーノブ５は４本の駆動ピン３のうち、第１の領域に配置されたＡとＢの駆動ピン３から１本または２本選択したピンパターンと、第２の領域に配置されたＣとＤの駆動ピン３から１本または２本選択したピンパターンの２つが割当てられることになる。したがって、表１に示す１〜３のパターンのうち１つと、４〜６に示すパターンのうち１つの合計２つのピンパターンがシーソーノブ５に割当てられる。すなわち、この場合装着できるシーソーノブ５の最大数は３である。そして、押釦ノブ６に割当てられるピンパターンは、それ以外の残りのパターンである。したがって、シーソーノブ５を１つ設けた場合には、装着できる押釦ノブ６の最大数は１３であり、シーソーノブ５が２つなら最大数は１１、シーソーノブ５が３つなら最大数は９となる。
【００２９】
次に、本発明の第２の実施形態について説明する。第２の実施形態は、基本的な入力装置の構成については、第１の実施形態と同一である。第１の実施形態と異なる点は、図８に示すように基板１上の各検出スイッチ２に第１の領域８ａと第２の領域８ｂに加えて、第３の領域８ｃを設け、ここに駆動ピン３を１本設けたことである。第３の領域８ｃの駆動ピン３は、シーソーノブ５によっては操作されず、一方押釦ノブ６が押圧操作される際には必ず操作するようなピンパターンを与える。このようにすることで、検出スイッチ２からの信号がシーソーノブ５によるものか、押釦ノブ６によるものかを第３の領域８ｃの駆動ピン３からの信号の有無によって判別することができ、押釦ノブ６に対して、より多くのピンパターンを与えることができるようになる。すなわち、押釦ノブ６の最大数を大きくすることができる。
【００３０】
本実施形態の場合におけるピンパターンを表２に示す。４本の駆動ピン３によってシーソーノブ５に与えることのできるピンパターンは、表２におけるパターン１〜６であり、それぞれのシーソーノブ５に２つのピンパターンが割当てられるので、第１の実施形態と同様にその最大数は３である。一方、押釦ノブ６のピンパターンは、図８におけるＥの駆動ピン３を必ず操作するように与えられるので、表２におけるパターン７〜２１であり、その最大数は１５となる。
【００３１】
【表２】

【００３２】
なお、本実施形態では、押釦ノブ６の操作時には、第３の領域８ｃに配置した駆動ピン３を必ず操作するようなピンパターンを与えているが、逆にシーソーノブ５の操作時に、第３の領域８ｃに配置した駆動ピン３を必ず操作するようにピンパターンを与え、押釦ノブ６の操作時には第３の領域８ｃに配置した駆動ピンを操作しないようなピンパターンを与えることもできる。また、装着できるシーソーノブ５の最大数を大きくしたい場合には、表２におけるパターン１〜１２の中から第１の領域８ａに配置された駆動ピン３のみから構成されるピンパターンと、第２の領域８ｂに配置された駆動ピン３のみから構成されるピンパターンの２つを与えるようにすることもできる。この場合では、シーソーノブ５の最大数は６となり、押釦ノブ６の最大数は９となる。
【００３３】
次に、本発明の第３の実施形態について説明する。本実施形態では、基本的な入力装置の構成については、第１の実施形態とほぼ同様であるが一部相違点を有する。また、各シーソーノブ５及び押釦ノブ４４の駆動部７によって操作されるピンパターンについては、第１の実施形態と同一である。したがって、相違点のみを以下説明する。本実施形態の第１の実施形態との相違点は、シーソーノブ５及び押釦ノブ４４の構成にある。図９と図１０には、本実施形態におけるシーソーノブ５及び押釦ノブ４４の取付部分における断面図を示す。
【００３４】
図９に示すように、シーソーノブ５においてケース４２とリブ４０及びカバーを設けている点においては第１の実施形態と同様である。ただし、第１の実施形態と異なり、リブ４０にプランジャ４１を設けており、ケース４２にはプランジャ４１と係合する係合部４３が設けられている。プランジャ４１は、シーソーノブ５を使用者が脱着しようとすると、リブ４０により押下され、係合部４３とプランジャ４１が係合する際にはバネの復元力により復帰し、係合するようになっている。したがって、カバーを開閉することなくシーソーノブ５を脱着することができるようになる。
【００３５】
図１０に示すように、押釦ノブ４４においては、リブ４０のプランジャ４１と係合するのは、押釦部４５の爪部３１の側面に逃げ部４７を形成するように設けられた係合部４６である。逃げ部４７は、押釦部４５が押圧操作された際に、プランジャ４１の突出部からの逃げとなり、押圧操作した際にプランジャ４１と押釦部４５との係合が保持されたままになるようにしている。このように構成したことにより、押釦ノブ４４もカバーの開閉を行うことなく、脱着することができる。
【００３６】
以上、本発明の実施形態について説明したが、本発明の適用は上記実施形態に限られるものではなく、その技術的思想の範囲において様々に適用されうるものである。例えば、第１及び第２の実施形態においては、駆動ピン３は４本または５本として説明したが、駆動ピン３の本数には特に制限はなく、第１の領域８ａと第２の領域８ｂにそれぞれ駆動ピン３を設けてあればよい。また、検出スイッチ２に設けるシーソーノブ５や押釦ノブ６については、上記の構成に限られず、押圧操作した際に所定のピンパターンを操作できるように構成されていれば、様々な形態のノブを適用することができる。
【００３７】
また、各ノブに割当てる機能は、様々に設定することができる。本実施形態に係る入力装置を自動車のインストルメントパネルに用いた場合、押釦ノブ６には、ラジオの操作において特定の周波数に合わせるためのショートカットキーとしての機能や、ステアリングヒーターのスイッチ、さらにはエアコンの制御で特定の温度に設定するキーとするなどの機能を持たせることができる。したがって、本発明によれば、冬場にはステアリングヒーターのスイッチを設けておき、夏場にはエアコンの温度設定キーと入れ替えることが可能である。また、シーソーノブ５には、エアコンの温度設定の上げ下げの機能や、ラジオの選局の送りの機能、及びカセットデッキにおけるカセットの送りや戻りの機能を持たせることができる。これらは押釦ノブ６も含めて相互に交換可能であり、インストルメントパネルに並ぶスイッチの操作性を最適化することができる。さらに、本発明の適用は自動車のインストルメントパネルに限られず、複数のスイッチにそれぞれ制御指示の機能を持たせるものであれば、適用することが可能である。
【００３８】
【発明の効果】
以上のように、本発明に係る入力装置によれば、シーソーノブの駆動部は基板上の２つの領域のうち一方に配置された駆動ピンから選択したピンパターンと、他方に配置された駆動ピンから選択したピンパターンとを選択的に操作し、押釦ノブの駆動部は基板上の２つの領域に配置された駆動ピンから選択したピンパターンを操作し、これらのピンパターンは全て異なるパターンからなっていることにより、シーソーノブと押釦ノブを混在させても、各検出スイッチからの出力信号を識別することができて、各ノブに割当てられた制御機能を実行することができる。すなわち、複数のスイッチの配置を変更することのできる入力装置において、押釦スイッチとシーソースイッチを混在させることができる。
【００３９】
また、本発明に係る入力装置によれば、駆動ピンを第１の領域と第２の領域に加えて第３の領域にも配置し、第３の領域の駆動ピンは押釦ノブの操作時には必ず操作されるように、またはシーソーノブの操作時には必ず操作されるようにピンパターンを設定することにより、より多くのノブを配置することができる。
【図面の簡単な説明】
【図１】本実施形態における入力装置の模式図である。
【図２】本実施形態における入力装置のノブ取付前における正面図である。
【図３】本実施形態における検出スイッチの拡大図である。
【図４】本実施形態における入力装置のノブ取付後における正面図である。
【図５】本実施形態における入力装置の、シーソーノブ取付部分における断面図である。
【図６】本実施形態における入力装置の、押釦ノブ取付部分における断面図である。
【図７】本実施形態における入力装置のシステム図である。
【図８】第２の実施形態における検出スイッチの拡大図である。
【図９】第３の実施形態におけるシーソーノブ取付部分における断面図である。
【図１０】第３の実施形態における押釦ノブ取付部分における断面図である。
【符号の説明】
１ 基板
２ 検出スイッチ
３ 駆動ピン
５ シーソーノブ
６ 押釦ノブ
７ 駆動部
９ 格納ユニット
２０ シーソー部
２２ 突部
２５ 押圧部
３０ 押釦部
３２ 突部[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an input device having a plurality of switches for instructing various control contents, and more particularly to an input device which can automatically determine the type of each switch even when a push button switch and a seesaw switch are mixed.
[0002]
[Prior art]
Conventionally, an input device provided with a plurality of switches has been used. Examples of such an input device include various switches arranged on an instrument panel of an automobile. This switch is used, for example, to control on / off of air conditioning in a vehicle compartment, temperature setting, and the like. Recently, such switches may be used for controlling optional equipment of a vehicle. These switches, which indicate a specific function, are not always arranged in the same manner depending on a vehicle type or a grade. In other words, the arrangement of each switch depends on which of the optional equipment such as headlight optical axis adjustment, fog lamp lighting control, opening and closing of the trunk, etc. is installed, and changing the arrangement so that the user can use it easily. You may wish.
[0003]
For this reason, an input device has been proposed in which a plurality of different types of switches can be exchanged. As such an input device, as shown in Patent Documents 1 to 3, a plurality of sets of switches having a plurality of drive pins capable of switching contacts independently on a board are provided and mounted on each switch. Some key tops have different shapes, and different combinations of drive pins can be driven for each key top, so that different recognition signals are output from the respective switches. By doing so, an operation corresponding to the function of each keytop can be performed only by replacing the keytops with a cassette type.
[0004]
[Patent Document 1]
JP 10-334765 A [Patent Document 2]
JP 2001-236849 A [Patent Document 3]
JP-A-10-269002
[Problems to be solved by the invention]
However, in the conventional input device described above, only the push button switch is targeted. Not only a push button switch but also a seesaw switch capable of selectively issuing two control instructions is used as a switch of an automobile. The conventional input device is based on the premise that one control instruction is issued from one switch, so that a seesaw switch cannot be incorporated as it is.
[0006]
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 an input device capable of changing the arrangement of a plurality of switches, in which a push button switch and a seesaw switch can be mixed. And
[0007]
[Means for Solving the Problems]
In order to solve the above problems, an input device according to the present invention includes a plurality of sets of detection switches mounted on a board, and a plurality of knobs arranged corresponding to each set of the detection switches. Is an input device that is a mixture of seesaw knob and push button knob,
Each set of the detection switches has a plurality of drive pins in each of two regions on the substrate, each of which can independently switch a contact, and the knob has a pin pattern formed of one or more of the drive pins. Has a drive unit that operates simultaneously
The drive unit of the seesaw knob selectively operates a pin pattern selected from drive pins disposed on one of the two regions on the substrate and a pin pattern selected from drive pins disposed on the other, The drive unit of the push button knob operates a pin pattern selected from drive pins arranged in the two regions on the board,
The two pin patterns selectively operated by the seesaw knob and the pin patterns operated by the push button knob are all different patterns, and each set of the detection switches outputs a different recognition signal. Have been.
[0008]
Further, the input device according to the present invention includes a plurality of sets of detection switches mounted on a board, and a plurality of knobs provided corresponding to each set of these detection switches, and the plurality of knobs are a seesaw knob. An input device comprising a mixture of pushbutton knobs,
Each set of the detection switches has a plurality of drive pins each capable of independently switching a contact, and the plurality of drive pins are respectively arranged in a first area and a second area on the substrate. Together with a drive unit disposed in a third area on the substrate, wherein the knob simultaneously operates a pin pattern formed of one or more of the drive pins;
The drive unit of the seesaw knob selectively operates a pin pattern selected from the drive pins arranged in the first area and a pin pattern selected from the drive pins arranged in the second area. A drive unit for the knob selects from the drive pins arranged in the first area and the second area, and operates a pin pattern including the drive pins arranged in the third area;
The two pin patterns selectively operated by the seesaw knob and the pin patterns operated by the push button knob are all different patterns, and each set of the detection switches outputs a different recognition signal. Have been.
[0009]
Furthermore, the input device according to the present invention includes a plurality of sets of detection switches mounted on a board, and a plurality of knobs arranged corresponding to each set of the detection switches, and the plurality of knobs are a seesaw knob and An input device comprising a mixture of pushbutton knobs,
Each set of the detection switches has a plurality of drive pins each capable of independently switching a contact, and the plurality of drive pins are respectively arranged in a first area and a second area on the substrate. Together with a drive unit disposed in a third area on the substrate, wherein the knob simultaneously operates a pin pattern formed of one or more of the drive pins;
The drive unit of the seesaw knob is selected from drive pins arranged in the first area, and includes a pin pattern including a drive pin arranged in the third area, and a drive pin arranged in the second area. , And selectively operates a pin pattern including a drive pin arranged in the third area, and the drive unit of the push button knob is driven by a drive arranged in the first area and the second area. Operate the pin pattern selected from the pins,
The two pin patterns selectively operated by the seesaw knob and the pin patterns operated by the push button knob are all different patterns, and each set of the detection switches outputs a different recognition signal. Have been.
[0010]
Still further, in the input device according to the present invention, the drive unit may have a protrusion formed on a lower surface of the knob, and the protrusion may be arranged to substantially match a pin pattern assigned to each knob. It is configured as a feature.
[0011]
Further, the input device according to the present invention is characterized in that a plurality of knobs provided corresponding to each set of the detection switches are detachable and mutually interchangeable.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic diagram conceptually showing the input device according to the present embodiment. As shown in this figure, the input device according to the present invention is mounted on a substrate 1 and provided with a seesaw knob 5 or a push button knob 6 for each of a plurality of detection switches 2 surrounded by a housing 4. It is. In the present embodiment, two seesaw knobs 5a and 5b and two push button knobs 6a and 6b are provided, respectively. Each detection switch 2 is provided with a plurality of drive pins 3, and the seesaw knob 5 or the push button knob 6 operates a predetermined drive pin 3 by a drive unit 7 provided on the lower surface thereof. In the present embodiment, an input device in which four detection switches 2 are arranged and a seesaw knob 5 or a push button knob 6 provided for each of them can be interchanged will be described. Further, in the present embodiment, four drive pins 3 are provided for one detection switch 2. As will be described later, the number of drive pins 3 provided on one detection switch 2 determines how many functions the input device can have at the maximum.
[0013]
When the seesaw knob 5 provided on the detection switch 2 is pressed and operated as shown in FIG. To do. On the other hand, when the push button knob 6 is pressed from the upper surface, the drive pin 3 is operated by the drive unit 7 provided on the lower surface. The pattern of the drive pins 3 simultaneously operated by the drive unit 7 is called a pin pattern. In the present embodiment, the operated drive pin 3 is represented as “1”, and the non-operated drive pin 3 is represented as “0” to represent a pin pattern. In the operation of the seesaw knob 5, since two operations are selectively performed, two pin patterns are assigned to one seesaw knob 5. The pin pattern is assigned according to the shape of the driving unit 7.
[0014]
For example, when the seesaw knob 5a in FIG. 1 is operated to be tilted to the left, only the leftmost drive pin 3 of the four drive pins 3 provided on the detection switch 2a is operated. Therefore, when the pin pattern is described from the left side, it becomes (1, 0, 0, 0). On the other hand, when the seesaw knob 5a is tilted to the right, only the second drive pin 3 from the right of the four drive pins 3 provided on the detection switch 2a is operated. Therefore, when the pin pattern is described from the left side, it becomes (0, 0, 1, 0). That is, two pins (1, 0, 0, 0) and (0, 0, 1, 0) are assigned to the seesaw knob 5a as pin patterns, and these can be selectively operated. Similarly, in FIG. 1, when the seesaw knob 5b is operated to be tilted to the left, the pin pattern is (0, 1, 0, 0), and when operated to be tilted to the right, the pin pattern is (0, 0). , 0, 1), which can be selectively operated.
[0015]
The push button knob 6a is assigned (1, 1, 0, 0) as a pin pattern, and the left two of the four drive pins 3 are simultaneously operated by the pressing operation. Also, (1, 0, 1, 0) is assigned as a pin pattern to the push button knob 6b, and the left driving pin 3 and the second driving pin 3 out of the right among the four driving pins 3 are pressed by the pressing operation. Are simultaneously operated.
[0016]
As described above, different patterns are provided for a total of six patterns of the two types of pin patterns respectively assigned to the seesaw knobs 5a and 5b and the one type of pin pattern respectively assigned to the push button knobs 6a and 6b. As a result, different detection signals are output from the detection switch 2 depending on which pin pattern is operated at the same time. If the detection signal is identified, the function assigned to each of the seesaw knobs 5 or the push button knobs 6 can be performed. , Regardless of the arrangement.
[0017]
The pin pattern given to the seesaw knob 5 is such that since the seesaw knob 5 selectively performs two operations, the area where the drive pins 3 are arranged is divided into two, and the pins selected from the drive pins 3 arranged on one side respectively. It operates the patterns simultaneously. That is, in the case of FIG. 1, the left half and the right half of each detection switch 2 are divided into a first area and a second area, and when the seesaw knob 5 is operated to be tilted to the left, the first area is shifted to the first area. A pin pattern for operating one of the two drive pins 3 arranged is assigned, and two pins arranged in the second area corresponding to the case where the seesaw knob 5 is operated to tilt rightward. A pin pattern for operating one of the drive pins 3 is assigned. On the other hand, the pin pattern given to the push button knob 6 is selected from the four drive pins 3 arranged in the first area and the second area. These pin patterns are all different patterns.
[0018]
FIG. 2 shows the input device in the present embodiment more specifically, and shows a state before the seesaw knob 5 and the push button knob 6 are attached. As shown in this figure, a plurality of detection switches 2 are provided in parallel in the storage unit 9, and each detection switch 2 is provided with a pressing portion 25 corresponding to four drive pins 3. The pressing portions 25 will be described below with symbols A to D as shown in FIG. When the seesaw knob 5 is mounted on the storage unit 9, the seesaw knob 5 selectively operates either the A and B groups or the C and D groups of the pressing portion 25. That is, the left and right halves of the detection switch 2 in FIG. 3 are divided into areas, and the seesaw knob 5 selectively operates the pressing portions 25 arranged in the respective areas. Here, the left half of the detection switch 2 is defined as a first area 8a, and the right half is defined as a second area 8b. As shown in FIG. 4, a seesaw knob 5 is attached to two of the four detection switches 2, and a push button knob 6 is attached to the remaining two, and the switches SW-A, SW-B, and SW- C and SW-D.
[0019]
FIG. 5 is a cross-sectional view of the input device according to the present embodiment in a portion where the seesaw knob 5 is attached. As shown in this figure, this input device is provided with a substrate contact 1a on a substrate 1, a rubber portion 24 made of a thin elastic body, and a contact portion of the rubber portion 24 corresponding to the substrate contact 1a. A pressing portion 25 provided with a pressing portion 25a is formed. Further, a seesaw portion 20 which is swingable by a rotating shaft 21 and a slider 23 which is pressed by the seesaw portion 20 and pressed down are provided. The seesaw portion 20 has a plurality of protrusions 22 serving as the driving portions 7 at predetermined positions on the lower surface thereof, and the sliders 23 are pressed by the protrusions 22. The protrusion 22 is provided at a position corresponding to the pin pattern assigned to the seesaw knob 5. Then, by pressing the pressing portion 25 through the slider 23 by operating the seesaw portion 20, the contact 25a comes into contact with the substrate contact 1a corresponding to the pin pattern assigned to the seesaw knob 5, and the switch is turned on. Become.
[0020]
In addition, a case 36 that supports the seesaw knob 5 via the rotating shaft 21 so as to swing freely and that holds the slider 23 is provided. A rib 35 is provided on a side surface of the case 36. The rib 35 guides the push button knob 6 and does not function when the seesaw knob 5 is attached. However, when the seesaw knob 5 is mounted, it may be mounted using the slide guide of the rib 35. Further, a cover 34 is provided above the case 36 and the rib 35. The cover 34 is attached to the case 36 and the rib 35 so as to be openable and closable, and can be freely opened when the user wants to replace the seesaw knob 5. As described above, the detachment of the seesaw knob 5 and the change of the arrangement are performed with the seesaw knob 5 and the slider 23 attached to the case 36.
[0021]
FIG. 6 is a cross-sectional view of the input device according to the present embodiment in a portion where the push button knob 6 is attached. The configuration of the push button knob 6 is the same as the conventional one. The cross-sectional shape of the push button knob 6 is substantially rectangular, the upper surface protrudes as the push button portion 30, and the claw portion 31 is provided on the side surface to regulate the vertical movement. Further, the lower surface has a projection 32 which is a driving unit 7 for pressing the pressing portion 25 at a predetermined position, and a concave portion 33 is provided at a position corresponding to the other pressing portion 25 to provide a push button knob. When the button 6 is operated, only the pressing portion 25 corresponding to the pin pattern assigned to the push button knob 6 is pressed, and the contact 25a contacts the corresponding substrate contact 1a, and the switch is turned on. .
[0022]
The push button knob 6 is provided with a rib 35 as in the case of the seesaw knob 5, and a cover 34 is provided on an upper portion thereof so as to be openable and closable. Then, by opening the cover 34, the attachment / detachment of the push button knob 6 and the arrangement change are performed. The claw portion 31 of the push button knob 6 is provided with an engagement portion that engages with a slide guide provided on the rib 35, and is guided at the time of the push button operation.
[0023]
FIG. 7 shows a system diagram of the input device according to the present embodiment. As shown in this figure, each switch outputs a unique signal in accordance with the pressing operation of the seesaw knob 5 or the push button knob 6. SW-A and SW-B are provided with the seesaw knob 5 and selectively output two types of signals. Further, since the SW-C and SW-D are provided with the push button knob 6, they output one type of signal. The output signal is detected by the detection means 10, and the control function based on the signal is determined by the function determination means 11 based on the relationship between the detection signal stored in the storage means 13 and the control function. Output from The storage unit 13 is configured by a storage device such as a memory or a hard disk, and stores a table in which a pattern of a detection signal is associated with a control function. The detecting means 10 and the function judging means 11 can be constituted by a CPU or the like.
[0024]
As described above, in the detection switch 2 housed in the storage unit 9, each of the two types of pin patterns by the seesaw knob 5 and each of the one type of pin pattern by the push button knob 6 are all different patterns. Regardless of the arrangement, the detection signal can be identified. Further, each knob is detachable and the arrangement can be changed mutually. That is, even if the input device includes the seesaw knob 5 and the push button knob 6, the arrangement can be freely changed.
[0025]
In the present embodiment, four drive pins 3 are provided for each of the four detection switches 2 and different pin patterns are provided. However, the maximum number of the detection switches 2 that can be provided in the storage unit 9 is It is determined by how many pins 3 are provided in each detection switch 2. This will be described below.
[0026]
Table 1 shows pin patterns that can be assigned to each detection switch 2 by four drive pins 3. If it is assumed that the push button knobs 6 are attached to all the detection switches 2, each push button knob 6 only needs to output one kind of signal, and therefore, 15 pin patterns shown in Table 1 can be given to the push button knob 6. . That is, the maximum number of the detection switches 2 is 15.
[0027]
[Table 1]

[0028]
When the seesaw knob 5 and the push button knob 6 are mounted on the detection switch 2 in a mixed manner, the seesaw knob 5 is one or two of the four drive pins 3 from the A and B drive pins 3 arranged in the first area. Two of the pin pattern that is finally selected and the pin pattern that is one or two selected from the C and D drive pins 3 arranged in the second area are assigned. Therefore, one of the patterns 1 to 3 shown in Table 1 and one of the patterns shown in 4 to 6 are assigned to the seesaw knob 5 in total of two pin patterns. That is, the maximum number of seesaw knobs 5 that can be mounted in this case is three. The pin patterns assigned to the push button knob 6 are the remaining patterns. Therefore, when one seesaw knob 5 is provided, the maximum number of pushbutton knobs 6 that can be mounted is 13, the maximum number is 11 when the seesaw knob 5 is two, and the maximum number is 9 when the seesaw knob 5 is three.
[0029]
Next, a second embodiment of the present invention will be described. The second embodiment has the same basic configuration of the input device as the first embodiment. The difference from the first embodiment is that, as shown in FIG. 8, each detection switch 2 on the substrate 1 is provided with a third area 8c in addition to the first area 8a and the second area 8b. That is, one drive pin 3 is provided. The drive pin 3 in the third area 8c is provided with a pin pattern that is not operated by the seesaw knob 5 but is always operated when the push button knob 6 is pressed. In this manner, whether the signal from the detection switch 2 is from the seesaw knob 5 or the push button knob 6 can be determined by the presence or absence of the signal from the drive pin 3 in the third area 8c. 6, more pin patterns can be given. That is, the maximum number of pushbutton knobs 6 can be increased.
[0030]
Table 2 shows the pin patterns in the case of the present embodiment. The pin patterns that can be given to the seesaw knob 5 by the four drive pins 3 are patterns 1 to 6 in Table 2, and two pin patterns are assigned to each seesaw knob 5, as in the first embodiment. Its maximum number is three. On the other hand, the pin pattern of the push button knob 6 is given so as to always operate the drive pin 3 of E in FIG. 8, so that the patterns are patterns 7 to 21 in Table 2 and the maximum number is 15.
[0031]
[Table 2]

[0032]
In the present embodiment, when operating the push button knob 6, a pin pattern is provided so as to always operate the drive pin 3 arranged in the third area 8c. Conversely, when operating the seesaw knob 5, the third pattern is provided. It is also possible to provide a pin pattern so that the drive pins 3 arranged in the area 8c are always operated, and a pin pattern not operating the drive pins arranged in the third area 8c when the push button knob 6 is operated. When it is desired to increase the maximum number of the seesaw knobs 5 that can be mounted, a pin pattern composed of only the driving pins 3 arranged in the first region 8a from the patterns 1 to 12 in Table 2 and a second pattern Two pin patterns composed of only the drive pins 3 arranged in the region 8b may be provided. In this case, the maximum number of the seesaw knobs 5 is 6, and the maximum number of the push button knobs 6 is 9.
[0033]
Next, a third embodiment of the present invention will be described. In the present embodiment, the basic configuration of the input device is almost the same as that of the first embodiment, but has some differences. Further, the pin pattern operated by the drive unit 7 of each of the seesaw knobs 5 and the push button knobs 44 is the same as in the first embodiment. Therefore, only the differences will be described below. The present embodiment differs from the first embodiment in the configuration of the seesaw knob 5 and the push button knob 44. FIG. 9 and FIG. 10 are cross-sectional views of attachment portions of the seesaw knob 5 and the push button knob 44 in the present embodiment.
[0034]
As shown in FIG. 9, the case 42, the rib 40 and the cover are provided in the seesaw knob 5 in the same manner as in the first embodiment. However, unlike the first embodiment, the plunger 41 is provided on the rib 40, and the case 42 is provided with an engaging portion 43 that engages with the plunger 41. The plunger 41 is depressed by the rib 40 when the user attempts to detach and attach the seesaw knob 5, and when the engaging portion 43 and the plunger 41 are engaged, the plunger 41 is restored by the restoring force of the spring and engaged. I have. Therefore, the seesaw knob 5 can be attached and detached without opening and closing the cover.
[0035]
As shown in FIG. 10, in the push button knob 44, the engagement of the plunger 41 of the rib 40 with the engagement portion 46 provided to form the escape portion 47 on the side surface of the claw portion 31 of the push button portion 45 is performed. It is. The escape portion 47 serves as escape from the protruding portion of the plunger 41 when the push button portion 45 is pressed, so that the engagement between the plunger 41 and the push button portion 45 is maintained when the push button portion 45 is pressed. ing. With this configuration, the push button knob 44 can also be attached and detached without opening and closing the cover.
[0036]
As described above, the embodiments of the present invention have been described. However, the application of the present invention is not limited to the above-described embodiments, and can be variously applied within the scope of the technical idea. For example, in the first and second embodiments, four or five drive pins 3 have been described. However, the number of drive pins 3 is not particularly limited, and the first area 8a and the second area 8b are not limited. It is sufficient that the drive pins 3 are provided for each of them. In addition, the seesaw knob 5 and the push button knob 6 provided on the detection switch 2 are not limited to the above-described configurations, and various types of knobs can be applied as long as a predetermined pin pattern can be operated when pressed. can do.
[0037]
The function assigned to each knob can be set variously. When the input device according to the present embodiment is used for an instrument panel of an automobile, the push button knob 6 has a function as a shortcut key for tuning to a specific frequency in operating a radio, a switch for a steering heater, and a switch for an air conditioner. Can be provided with a function such as a key for setting a specific temperature by the control of the above. Therefore, according to the present invention, it is possible to provide a switch for the steering heater in winter and replace it with the temperature setting key of the air conditioner in summer. Further, the seesaw knob 5 can have a function of raising and lowering the temperature setting of the air conditioner, a function of transmitting a radio station, and a function of transmitting and returning a cassette on a cassette deck. These are interchangeable, including the push button knob 6, so that the operability of the switches arranged on the instrument panel can be optimized. Further, the application of the present invention is not limited to the instrument panel of an automobile, but can be applied as long as a plurality of switches each have a function of control instruction.
[0038]
【The invention's effect】
As described above, according to the input device of the present invention, the drive unit of the seesaw knob includes a pin pattern selected from the drive pins arranged on one of the two regions on the substrate and a drive pin arranged on the other. The selected pin pattern is selectively operated, and the drive unit of the push button knob operates the pin pattern selected from the drive pins arranged in the two regions on the board, and these pin patterns are all different patterns. Thus, even if the seesaw knob and the push button knob are mixed, the output signal from each detection switch can be identified, and the control function assigned to each knob can be executed. That is, in an input device capable of changing the arrangement of a plurality of switches, a push button switch and a seesaw switch can be mixed.
[0039]
Further, according to the input device of the present invention, the drive pins are arranged in the third area in addition to the first area and the second area, and the drive pins in the third area are always used when operating the push button knob. By setting the pin pattern so that the knob is operated or always operated when operating the seesaw knob, more knobs can be arranged.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of an input device according to an embodiment.
FIG. 2 is a front view of the input device according to the embodiment before a knob is attached.
FIG. 3 is an enlarged view of a detection switch according to the embodiment.
FIG. 4 is a front view of the input device according to the embodiment after a knob is attached.
FIG. 5 is a cross-sectional view of the input device according to the embodiment in a seesaw knob mounting portion.
FIG. 6 is a cross-sectional view of the input device according to the embodiment in a portion where the push button knob is attached.
FIG. 7 is a system diagram of the input device according to the embodiment.
FIG. 8 is an enlarged view of a detection switch according to the second embodiment.
FIG. 9 is a cross-sectional view of a seesaw knob mounting portion according to a third embodiment.
FIG. 10 is a cross-sectional view of a push button knob mounting portion according to a third embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Substrate 2 Detection switch 3 Drive pin 5 Seesaw knob 6 Push button knob 7 Drive unit 9 Storage unit 20 Seesaw unit 22 Projection 25 Press unit 30 Push button unit 32 Projection

Claims (5)

A plurality of sets of detection switches mounted on the board, and a plurality of knobs provided corresponding to each set of these detection switches, the plurality of knobs is an input device that is a mixture of a seesaw knob and a push button knob So,
Each set of the detection switches has a plurality of drive pins in each of two regions on the substrate, each of which can independently switch a contact, and the knob has a pin pattern formed of one or more of the drive pins. Has a drive unit that operates simultaneously
The drive unit of the seesaw knob selectively operates a pin pattern selected from drive pins disposed on one of the two regions on the substrate and a pin pattern selected from drive pins disposed on the other, The drive unit of the push button knob operates a pin pattern selected from drive pins arranged in the two regions on the board,
The two pin patterns selectively operated by the seesaw knob and the pin patterns operated by the push button knob are all different patterns, and different recognition signals are output from each set of the detection switches. Input device. A plurality of sets of detection switches mounted on the board, and a plurality of knobs provided corresponding to each set of these detection switches, the plurality of knobs is an input device that is a mixture of a seesaw knob and a push button knob So,
Each set of the detection switches has a plurality of drive pins each capable of independently switching a contact, and the plurality of drive pins are respectively arranged in a first area and a second area on the substrate. Together with a drive unit disposed in a third area on the substrate, wherein the knob simultaneously operates a pin pattern formed of one or more of the drive pins;
The drive unit of the seesaw knob selectively operates a pin pattern selected from the drive pins arranged in the first area and a pin pattern selected from the drive pins arranged in the second area. A drive unit for the knob selects from the drive pins arranged in the first area and the second area, and operates a pin pattern including the drive pins arranged in the third area;
The two pin patterns selectively operated by the seesaw knob and the pin patterns operated by the push button knob are all different patterns, and different recognition signals are output from each set of the detection switches. Input device. A plurality of sets of detection switches mounted on the board, and a plurality of knobs provided corresponding to each set of these detection switches, the plurality of knobs is an input device that is a mixture of a seesaw knob and a push button knob So,
Each set of the detection switches has a plurality of drive pins each capable of independently switching a contact, and the plurality of drive pins are respectively arranged in a first area and a second area on the substrate. Together with a drive unit disposed in a third area on the substrate, wherein the knob simultaneously operates a pin pattern formed of one or more of the drive pins;
The drive unit of the seesaw knob is selected from drive pins arranged in the first area, and includes a pin pattern including a drive pin arranged in the third area, and a drive pin arranged in the second area. , And selectively operates a pin pattern including a drive pin arranged in the third area, and the drive unit of the push button knob is driven by a drive arranged in the first area and the second area. Operate the pin pattern selected from the pins,
The two pin patterns selectively operated by the seesaw knob and the pin patterns operated by the push button knob are all different patterns, and different recognition signals are output from each set of the detection switches. Input device. 4. The drive unit according to claim 1, wherein a protrusion is formed on a lower surface of the knob, and the protrusion is arranged to substantially match a pin pattern assigned to each knob. 2. The input device according to claim 1. The input device according to any one of claims 1 to 4, wherein a plurality of knobs provided corresponding to each set of the detection switches are detachable and interchangeable with each other.

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