JP3754300B2 - Electronic pad - Google Patents

Description

【００６０】
圧電センサ５からは図１のカップ部３０、ボウ部３１、エッジ部３２のいずれを打撃した場合も信号が出力され、エッジ部チョークの場合はオフにとどまる。また、カップ部シートセンサ８は、カップ部３０を打撃した場合のみオンとなる。エッジ上部シートセンサ７は、カップ部３０およびボウ部３１の演奏ではオフのままであり、エッジ部３２を打撃した場合とエッジ部のチョークの場合にオンとなる。さらに、エッジ下部シートセンサ６は、エッジ部チョークの場合のみオンとなる。
【００６１】
つまり、エッジ下部シートセンサ６は、打撃によっては反応せず、エッジ部チョークという電子パッド１の周縁部への操作のみを検出していることとなる。
【００６２】
図７は、各センサからの出力信号を音源に伝達するためのジャック部分の配線図である。
【００６３】
ここには、第１出力ジャック１１０に接続される２つの端子Ａ１、Ａ２と第２出力ジャック１２０に接続される２つの端子Ｂ１、Ｂ２が示されている。端子Ａ１と端子Ｂ１との双方には、圧電センサ５からの出力信号が伝達される。また、端子Ａ２にはエッジ下部シートセンサ６とカップ部シートセンサ８との双方が接続されているが、表１に示すようにエッジ下部シートセンサ６およびカップ部シートセンサ８との双方が同時にオンとなるタイミング存在せず、しかも圧電センサ５の出力を見ることにより、エッジ下部シートセンサ６とカップ部シートセンサ８のいずれがオンであるかを判定することができる。したがって、エッジ下部シートセンサ６およびカップ部シートセンサ８からの出力信号は、これらの双方を端子Ａ２から出力することができる。
【００６４】
また、第２出力ジャック１２０の端子Ｂ２にはエッジ上部シートセンサ７が接続されている。
【００６５】
表２は、各端子の出力と割当て音との対応関係を示した表である。
【００６６】
【表２】

【００６７】
ここで、音源装置には、第１出力ジャック１１０のみあるいは第２出力ジャック１２０のみを接続することもでき、第１出力ジャックのみを接続したときはカップ音とボウ音の発音、消音が行われ、第２出力ジャックのみを接続した時はエッジ音のみの発音、消音が行われる。
【００６８】
第１出力ジャック１１０の端子Ａ１から圧電センサ５の出力があり、第１出力ジャック１１０の端子Ａ２からは出力がなかったときは、発音される音としてボウ音が割り当てられる。また、第１出力ジャック１１０の端子Ａ１と端子Ａ２との双方から出力があったときは、カップ音が割り当てられる。第１出力ジャック１１０の端子Ａ１から圧電センサ５の出力がなく、端子Ａ２から出力があったときは（このときは、エッジ下部シートセンサ６がオン）、消音が行われる。
【００６９】
また、第２出力ジャック１２０の端子Ｂ１から出力があり、端子Ｂ２からの出力がないときは、どの音も発音されずに無音のままに保たれ、端子Ｂ１および端子Ｂ２の双方から出力があるときは、エッジ音が発音される。また、端子Ｂ１からの出力はなく、端子Ｂ２からの、すなわちエッジ上部シートセンサ７がオンの出力があったときは、消音が行われる。このときは、エッジ下部シートセンサ６を用いることなく、圧電センサ５の出力とエッジ上部シートセンサ７の出力との組み合わせにより、直ちに、消音するための操作（エッジのチョーク）を検出することができる。ただし、この電子パッド１全体としては、消音操作（エッジ部のチョーク）を瞬時に検出するために、打撃を検出することなくエッジ部のチョークを検出するエッジ下部シートセンサ６が必要である。
【００７０】
以上のように、図１の電子パッド１のカップ部３０が打撃を受けると、端子Ａ１、端子Ａ２、および端子Ｂ１各端子から信号が伝達され、音源装置では、カップ音の発音が行われる。同様に、中間のボウ部３１に打撃を受けると、端子Ａ１と端子Ｂ１との双方から信号が伝達され、音源装置では、ボウ音の発音が行われる。また、外周周縁のエッジ部３２に打撃を受けると、端子Ａ１、端子Ｂ１、および端子Ｂ２各端子から信号が伝達され、音源装置では、エッジ音の発音が行われる。表２に示されているように、エッジ音の発音のときは、それと同時にボウ音も発音されるが、エッジ音はアクセント的に利用される場合が多く、音量が大きく設定されており、ボウ音はこのエッジ音によってマスクされることと、エッジ音は、そもそもボウ音の特徴を含んでいることから、エッジ音にボウ音が重なって発音されても影響はほとんど無視することができる。
【００７１】
また、図６に示すように、電子パッド１の打撃面周縁を指で摘む操作（エッジ部のチョーク）により、端子Ａ２と端子Ｂ２との双方の端子からそれぞれエッジ下部シートセンサ６およびエッジ上部シートセンサ７の信号が伝達され、音源装置では、消音が行われる。
【００７２】
さらに、この音源装置は、圧力センサ５については出力の有無のみでなく、その出力信号の大きさも監視しており、上述の各音の発音にあたっては、その圧電センサの出力信号の大きさに応じた音量で発音する。一般にシートセンサは、スイッチと同様にオン／オフを検出するものであり、圧電センサ等で打撃による振動を監視し打撃位置の判定を行ってから音色を選択する従来の方法等に比べ、シートセンサを併用してそのシートセンサのオンを監視する方がより迅速に音色の選択を行うことができる。本実施形態では、シートセンサを利用しており、したがって、アクセント的に使用される、すなわち演奏上迅速な発音が必要とされるカップ音や前述したエッジ音などの発音にも対応できる。この場合、その音の発音開始をある音量で迅速に行った後、打撃力に応じた音量に整えるためのエンベロープ処理が行われる。
【００７３】
このように、上記実施形態では、電子パッド１の打撃面および打撃面周縁に対する打撃によって打撃部位に対応した音色の音が打撃力に応じた音量で発音され、図６に示される消音操作により、発音中の音が従来に比べ迅速に消音されることとなる。
【００７４】
ここで、第１出力ジャック１１０と第２出力ジャック１２０のうち第１出力ジャック１１０のみを音源装置に接続したときにも、打撃に反応する位置を避けた位置に配置されたエッジ下部シートセンサ６を消音操作によりオンすることにより、演奏者は、発音中のカップ音およびボウ音を従来に比べ迅速に消音することができる。なお、上記の音源装置でエッジの発音が行なわれるときにはボウ音の発音を抑制するような制御を行うようにしてもよい。
【００７５】
図８は、ポール１０に支持されている電子パッド１が、スティック２０に打撃されて傾いている状態を示す図である。
【００７６】
この図８に示す回転止め部材２１は、図２に示した回転止め部材９に比べ、その先端部２１ａが、さらに鋭角の楔形となっている。このため回転止め部材２１の先端部２１ａの楔形状は、第２のフレーム４の凹部４ｅとは完全に嵌合せずに遊嵌した状態となり、この８図に示すように打撃を受けると容易に傾くことになる。
【００７７】
このように、楔形の角度の異なる回転止め部材を数種類用意し、模擬するアコースティックシンバルの大きさや重さによってこの回転止め部材を使い分けることにより、打撃面の上記回転を防止つつ、シンバルごとに異なる、打撃による揺れの程度を調整でき、そのアコースティックシンバルに近い感覚で演奏することが可能となる。また、ポール１０のネジ部１０ａの蝶ナット１３の締め具合によっても揺れの程度を調節することができる。
【００７８】
あるいは、回転止め部材を、充分に揺れることのできる回転止め部材一種類に固定し、その回転止め部材と、第２のフレーム４の凹部４ｅとの隙間をスペーサやアダプタなどによって調整することによっても打撃面の回転を防止つつ、模擬しようとするアコースティックシンバルに近い感覚の演奏が可能となる。
【００７９】
又、電子パッド１を打撃した場合に発生する電子パッド１の揺れの中心軸は、図４に示す矢印Ｂ−Ｂで断面した時のその断面内に存在することになる。ここでは、この揺れの中心軸の近傍に出力ジャック１８を配置したため、揺れに伴う出力ケーブル１４の上下動が抑えられることとなる。したがって、出力ケーブルの自重による出力ケーブル１４自身およびこの出力ケーブル１４が接続されている部位に対する過荷重が防止されることとなり、電子パッド１の寿命を伸ばすことができる。
【００８０】
次に、本発明の第２実施形態について説明する。
【００８１】
図９は、本発明の第２実施形態の電子シンバルとして使用される電子パッド４１を示す図である。
【００８２】
図９には、フレーム４３と、フレーム４３の上面を覆うカバー４２とが示されており、フレーム４３の後述する特徴部分を見やすくするために、カバー４２の左半面が取り除かれている。
【００８３】
この電子パッド４１のフレーム４３の外周周縁には、電子パッド１と同様な外周周縁部４３ａが設けてあるが、その外周周縁部４３ａは、演奏者による打撃範囲内を避けた一部分４３ｂが図示のように切り落とされた形状を有する。
【００８４】
この部分４３ｂには、カバー４２の外周周縁部４２ａの一部分４２ｂが密着しており、このため、カバー４２の一部分４２ｂは、フレーム４３の一部切り落とされた４３ｂの分の空間部が詰まった形状に形成されている。
【００８５】
この電子パッド４１は、図１の電子パッド１に比べ、以上の、フレーム４３の外周周縁部４３ａの一部切り落としと、カバー２の周縁部４２ａの一部形状変更との２点が異なっているだけであり、したがって、図９のフレーム４３上に示されている、中央に突出ている第２のフレーム４の頭部４ａと挿通孔４ｄ、中央付近のカップ部シートセンサ８、およびフレーム４３の外周周縁部４３ａ上のエッジ上部シートセンサ７などは、図２において示されているものと同じ種類のものが使用されている。なお、図９には図示されていないが、フレーム４３の外周周縁部４３ａの下面には、これも図１の電子パッド１と同様、エッジ下部シートセンサ６も配設されている。
【００８６】
図９における矢印Ｃ−Ｃ、Ｄ−Ｄは、図１における矢印Ａ−Ａ、Ｂ−Ｂに相当しており、図９のエッジ上部シートセンサ７、図示されないエッジ下部シートセンサ６、およびカップ部シートセンサ８は、前述した、電子パッド１でのこれらセンサの配設範囲と同じ範囲に配設されている。
【００８７】
つまり、これらセンサは、図２の右半分、すなわち図９の右下のＤからＤの半周分に配設されており、左上のＤからＤの半周には配設されていない。このため、演奏者側半周のみのセンサの配設により、製造経費の削減が図られている。
【００８８】
さらには、フレーム４３の外周周縁部４３ａの一部切り落しにより、その形状が回転体でなくなり、剛性のバランスが崩れる。これに対し、前述のようにカバー２の形状が一部異なるため、電子パッド４１の挿通孔４ｄを中心とする、電子パッド４１の重量バランスは崩れることなく、フレーム４３の剛性のバランスバランス微妙に崩れ、音響的な共振を抑えることとなり、この第２の実施形態の電子パッド４１では、フレーム４３に発生する不要な振動がさらに抑えられている。
およびセンサの半周のみの配設により、この電子パッド４１の重心は、電子パッド４１の外観上の中心、すなわち図２（ｂ）の挿通孔４ｄからずれている。これに対し、この電子パッド４１は、図１の電子パッド１と同様、図示しない、回転止め部材９を固定したポール１０が、その重心からずれた挿通孔４ｄに挿通されることにより、下から支持されている。このため、この電子パッド４１の挿通孔４ｄを中心とする、電子パッド４１の重量バランスが微妙に崩れ、この第２の実施形態の電子パッド４１では、カバー４２およびフレーム４３に発生する不要な振動が、さらに抑えられている。
【００８９】
【発明の効果】
以上、説明したように、本発明によれば、消音操作に対する消音を従来よりも迅速に行うことができる。
【図面の簡単な説明】
【図１】本発明の第１実施形態の電子シンバルとして使用される電子パッドの斜視図である。
【図２】電子パッドのＡ−Ａ断面図である。
【図３】電子パッドのＢ−Ｂ断面図である。
【図４】電子パッドを斜め下方から見たときの斜視図である。
【図５】電子パッドに対する打撃を行っている様子を概念的に示した図である。
【図６】電子パッドの外周周縁部を指ではさみ、消音操作を行っている様子を概念的に示した図である。
【図７】各センサからの出力信号を音源に伝達するためのジャック部分の配線図である。
【図８】図１の回転止め部材に比べ先端部が鋭角の回転止め部材を使用した電子パッドが打撃され、傾いている状態を示す図である。
【図９】フレームの外周周縁部の一部が切り落とされ、このフレームの上面を覆うカバーの左半面が切り取られた状態の第２実施形態の電子パッドを示す図である。
【符号の説明】
１ 電子パッド
１ａ 電子パッドの中央の開口部
２ カバー
２ａ カバーの周縁部
２ｂ カバーの摺動部分
３ 第１のフレーム
３ａ 第１のフレーム外周周縁の段差
３ｂ 第１のフレーム外周周縁部
３ｃ 第１のフレームの中央の開口部
４ 第２のフレーム
４ａ 第２のフレームの頭部
４ｂ 第２のフレームの肩部
４ｃ 第２のフレームの腕部
４ｄ 第２のフレームの頭部中央の取り付け孔
４ｅ 第２のフレームの頭部中央下面の取り付け孔周囲の凹部
５ 圧電センサ
６ エッジ下部シートセンサ
７ エッジ上部シートセンサ
８ カップ部シートセンサ
９ 回転止め部材
９ａ 回転止め部材の先端部
９ｂ 回転止め部材の挿通孔
１０ ポール
１０ａ ポールのネジ部
１０ｂ ポールの先端部
１１ フェルトワッシャ
１２ 金属ワッシャ
１３ 蝶ナット
１４ 出力ケーブル
１５ 留め具
１６ ネジ
１７ 出力ジャックホルダ
１８ 出力ジャック
１９ 芯材
２０ スティック
２１ 先端が鋭角な回転止め部材
２１ａ 先端が鋭角な回転止め部材の先端部
３０ カップ部
３０ａ カップ部のふもと部
３１ ボウ部
３２ エッジ部
４１ 第２実施形態の電子パッド
４２ 第２実施形態の電子パッドのカバー
４２ａ 第２実施形態の電子パッドのカバーの外周周縁部
４２ｂ 第２実施形態の電子パッドのカバーの外周周縁部の、フレームの切り落された部分に接する一部分
４３ 第２実施形態の電子パッドのフレーム
４３ａ 第２実施形態の電子パッドのフレームの外周周縁部
４３ｂ 第２実施形態の電子パッドのフレームの外周周縁部の、切り落とされた一部分
１１０ 第１出力ジャック
１２０ 第２出力ジャック
Ａ１ 圧電センサからの出力が送達される、第１出力ジャックの端子
Ａ２ エッジ下部シートセンサ、およびカップ部シートセンサからの出力が送達される、第１出力ジャックの端子
Ｂ１ 圧電センサからの出力が送達される、第２出力ジャックの端子
Ｂ２ エッジ上部シートセンサからの出力が送達される、第２出力ジャックの端子[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic pad used as an electronic percussion instrument.
[0002]
[Prior art]
In recent years, electronic percussion instruments simulating percussion instruments such as acoustic cymbals have been widely used.
[0003]
In percussion instruments such as acoustic cymbals, a musical sound is generated by vibrating the striking surface by striking the striking surface and the perimeter of the striking surface, whereas electronic percussion instruments have a percussion sensor on the percussion surface and a sheet sensor on the perimeter of the striking surface. By striking the striking surface and the perimeter of the striking surface of the electronic pad equipped with the above, sound generation is performed based on the vibration and pressure detected by these sensors.
[0004]
In addition, the silencing operation is performed by pinching the periphery of the striking surface with a finger, similar to the silencing operation in an acoustic cymbal or the like. In the case of acoustic cymbals, the silencing operation of pinching the perimeter of the striking surface with a finger stops the vibration of the striking surface that is the source of sound generation. It is recognized that the silencing operation is being performed by continuing to apply pressure to the sheet sensor for a certain period of time.
[0005]
[Problems to be solved by the invention]
As described above, in the case of the conventional electronic percussion instrument, even if the player detects the pressure by the sheet sensor provided at the perimeter of the striking surface by picking the perimeter of the striking surface with a finger in order to mute the sound being generated. In the seat sensor, the pressure is also detected by striking the perimeter of the striking surface. Therefore, in order to determine whether the pressure is due to the silencing operation or striking the perimeter of the striking surface, the pressure is above a certain level. It is necessary to determine whether or not to continue for a period of time, which causes a problem that actual mute for the mute operation is delayed.
[0006]
In view of the above circumstances, an object of the present invention is to provide an electronic pad that can suppress an actual silencing delay with respect to a silencing operation.
[0007]
[Means for Solving the Problems]
The electronic pad of the present invention that achieves the above-described object provides:
In an electronic pad that receives a hit on the upper surface and detects and outputs the hit,
A first frame;
A cover covering the first frame;
A striking sensor for detecting striking vibration on the upper surface of the first frame;
An operation sensor is provided on the lower surface of the peripheral edge of the first frame and detects whether or not there is an operation on the lower surface of the peripheral edge.
[0008]
The electronic pad according to the present invention is provided with an operation sensor that detects only the operation of the player's batting and operation on the lower surface of the peripheral edge that is hardly hit in normal performance. Operation can be linked to mute in an instant.
[0009]
Here, the electronic pad of the present invention is
The first frame is supported from below and has a mounting hole penetrating vertically in the center, and the mounting hole is inserted with the pole of a stand having a pole that supports the electronic pad, Compared to the first frame having an inverted V-shaped recess around the mounting hole, the second frame is made of a soft material, and has an insertion hole in the center and a convex portion whose upper surface protrudes in an inverted V-shape. It is preferable that the pawl is inserted into the insertion hole and fixed to the pawl, and has a rotation-preventing member fitted or loosely fitted into the recess of the second frame.
[0010]
As described above, the first frame is supported by the second frame made of a softer material than the first frame from below, and the second frame is fixed to the pole of the stand, so that the first frame becomes the stand. The vibration generated in the first frame is smoothly propagated without being fixed to the frame. For this reason, the impact sensor provided in the first frame can accurately detect vibration caused by impact.
[0012]
The second frame has a recess that fits or loosely fits with an anti-rotation member fixed to the pole around an attachment hole on the lower surface thereof, and is supported by the pole of the stand with the anti-rotation member interposed therebetween. Therefore, the rotation of the electronic pad with the pole as the rotation axis is prevented. For this reason, the player hits within a certain range of the hitting surface of the electronic pad. Thereby, the arrangement | positioning range of the said operation sensor in an electronic pad can be limited, and it becomes possible to reduce manufacturing cost. Further, the situation where the connected cord is entangled with the pole by the rotation of the electronic pad and is pulled by the pole is also prevented.
[0013]
In particular, when the anti-rotation member is loosely fitted in the recess around the mounting hole on the lower surface of the second frame, the electronic pad will swing while preventing the rotation. In this case, the performer can perform with a feeling closer to that of an acoustic cymbal.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
The first embodiment of the present invention will be described below.
[0015]
FIG. 1 is a perspective view of an electronic pad 1 used as an electronic cymbal according to the first embodiment of the present invention.
[0016]
The electronic pad 1 shown in FIG. 1 includes a cup portion 30 that surrounds the central opening 1a and outputs a dome-like shape, and outputs a sound having a different sound quality depending on the portion to be hit. It can be divided into a peripheral edge portion 32 and an intermediate bow portion 31.
[0017]
The upper surface of the electronic pad 1 is covered with a cover 2. As the material of the cover 2, rubber or an elastomer that is a material having both elasticity, which is an advantage of rubber, and productivity, which is an advantage of plastic, is used.
[0018]
On the upper surface of the cover 2, concentric irregularities are provided. By this processing, for example, unevenness having a groove width of 2 mm, a pitch of 4 mm (2 mm between the grooves), and a depth of 0.1 mm is provided on the upper surface of the cover 2.
[0019]
The top surface of the cover 2 is subjected to a treatment for applying a primer for rubber (reactive surface modification treatment material, scientific reaction type surface treatment material) or the like by dipping, brushing, spraying, etc. The surface has a low coefficient of friction and improved wear resistance. As a result, the sliding of the stick is similar to that when a metal acoustic cymbal is struck, and the wear of rubber when struck with a stick for a long time is reduced. The cover 2 may be formed of a material that has the same effect as the surface treatment and is softer than the first frame 3 described later. Further, the surface treatment such as application of the rubber primer, which will be described later with reference to FIG. 3, includes a sliding portion 2b on the back surface of the outer peripheral edge 2a of the cover 2 that presses the edge upper sheet sensor 7, and a portion that presses the edge lower sheet sensor 6. Is also applied to prevent wear. In this way, the upper surface of the electronic pad 1 can obtain a good bounce of the stick.
[0020]
In an opening 1a at the center of the electronic pad 1 in FIG. 1, a screw part 10a of a pole 10 that supports the electronic pad 1 from below, and a wing nut 13 screwed to the screw part 10a, which will be described later, in order from the top. A metal washer 12 and a felt washer 11 are shown.
[0021]
FIG. 2 is a cross-sectional view taken along the line AA of the electronic pad 1 of FIG.
[0022]
FIG. 2B shows an enlarged view of the vicinity of the center of FIG. 2A in which the pole 10, the wing nut 13, the metal washer 12, and the felt washer 11 are removed for convenience.
[0023]
The first frame 3 is made of a hard material and has an opening 3c at the center. Further, the upper surface and the lower peripheral edge of the first frame 3 are covered with the cover 2 except for the upper surface of the central opening 3c. As the material of the first frame 3, ABS, polycarbonate, or the like is used.
[0024]
In addition, the first frame 3 has an outer peripheral edge 3b having an upper surface that is annularly lowered from the upper surface of the central opening 3c by a step 3a at the outer edge.
[0025]
The outer peripheral peripheral edge 2a of the cover 2 that is in contact with the outer peripheral peripheral edge 3b of the first frame 3 is formed thicker than the other portions by the level difference 3a. Therefore, the upper surface of the cover 2, that is, the electronic The upper surface of the pad 1 is finished in a shape that does not feel the presence of the step 3a.
[0026]
Moreover, since the outer periphery peripheral part 2a is formed outside the outer periphery peripheral part 3b of the 1st flame | frame 3, it becomes easy to deform | transform when the edge part 32 is struck. Thereby, when the edge part of an acoustic cymbal is hit, the touch which deform | transforms and absorbs an impact is reproducible.
[0027]
FIG. 2B shows the second frame 4. The second frame 4 includes a head 4 a protruding upward from the central opening 3 c of the first frame 3, a shoulder 4 b that supports the lower peripheral edge of the opening 3 c from below, and the first frame 3. The arm part 4c which supports the lower surface of the site | part corresponding to the bow part 31 of FIG.
[0028]
At the center of the head 4a of the second frame 4, there is provided a mounting hole 4d penetrating vertically as shown in FIG. Further, around the mounting hole 4d on the lower surface of the center of the head portion 4a of the second frame 4, a concave portion 4e that is fitted into a rotation stopper member 9 described later and is shaped like a wedge extending in a predetermined direction. Is provided. The second frame 4 is made of a soft material such as rubber compared to the material of the first frame 3.
[0029]
Further, FIG. 2 shows the piezoelectric sensor 5 which is covered with the arm portion 4c of the second frame 4 on the lower surface of the first frame 3 and is in contact with the position on the player side. The piezoelectric sensor 5 detects the impact on the striking surface and the perimeter of the striking surface of the electronic pad 1.
[0030]
In FIG. 2, the piezoelectric sensor 5, the edge upper sheet sensor 7, the edge lower sheet sensor 6, and the cup portion sheet sensor 8, which will be described later, are disposed only on the right half of FIG. 2 and on the left half. Absent. The electronic pad 1 is assumed to be hit only in the right half circumference, and these sensors are disposed only within the hit range. The rotation of the electronic pad 1 is prevented by the fitting of the recess 4e of the second frame 4 and the rotation stop member 9, thereby making it possible to limit the hitting range.
[0031]
Since the hitting range can be limited, the arrangement of the sensor outside the hitting range is omitted. As a result, manufacturing costs can be reduced.
[0032]
Here, as described above, the second frame 4 is formed of a material such as a softer rubber than the first frame 3, and has a structure in which the first frame 3 is lifted by the shoulder 4b. Therefore, the second frame 4 is fixed to the pole 10 of the stand, which will be described later, the first frame 3 is free from fixing to the stand, and the vibration generated in the first frame 3 is the first. Propagate smoothly over frame 3
. For this reason, the vibration generated in the first frame 3 due to the impact on the striking surface and the perimeter of the striking surface of the electronic pad 1 is efficiently detected by the piezoelectric sensor 5.
[0033]
Further, the cover 2 extends to the lower side of the outer peripheral peripheral edge portion 3b of the first frame 3, and rotates to the lower surface of the outer peripheral peripheral edge portion 3b of the first frame 3 and to the lower side of the outer peripheral peripheral edge portion. An edge lower sheet sensor 6 which is an example of an operation sensor according to the present invention is provided between the cover 2 which is indented. In the edge lower sheet sensor 6, the pressure due to the mute operation by the player is detected, and the hit is not detected.
[0034]
Further, an edge upper sheet sensor 7 is provided between the upper surface of the outer peripheral edge 3b of the first frame 3 and the cover 2 covering the upper surface of the outer peripheral edge 3b.
[0035]
The edge upper sheet sensor 7 detects pressure due to striking or the like on the edge portion 32 at the outer peripheral edge shown in FIG.
[0036]
In addition, a cup portion sheet sensor 8 is provided in contact with the upper surface of the first frame 3 at a location where the base portion 30a of the center cup portion 30 of the electronic pad 1 and the first frame 3 are close to each other. .
[0037]
Further, the cup portion 30 of the electronic pad 1 shown in a dome shape in FIG. 2 is formed by the cover 2 in which the core material 19 is integrally formed.
[0038]
In the core member 19, when the cup part 30 is hit, the peripheral part of the core member 19 presses the cup part sheet sensor 8 through the inner surface of the peripheral part of the cup part 30 of the cover 2.
[0039]
Thereby, in this cup part sheet | seat sensor 8, the hit | damage with respect to the cup part 30 is detected.
[0040]
As described above, the lower surface of the center of the head portion 4a of the second frame 4 is formed with the concave portion 4e that has a wedge shape extending in a predetermined direction, and is shown in FIG. 2 (b). As shown, the anti-rotation member 9 has a tip portion 9a that is fitted in the recess 4e and protrudes in a wedge shape extending in a predetermined direction.
[0041]
Further, the rotation stop member 9 has an insertion hole 9b shown in FIG. 2B through which a pole 10 for supporting the electronic pad 1 from below is inserted. The insertion hole 9b has a shape in which the diameter is once reduced on the way from the bottom to the top.
[0042]
On the other hand, the pole 10 has a tip portion 10b having a shape that fits into the insertion hole 9b, that is, a shape in which the diameter becomes smaller on the way to the tip. The rotation stop member 9 is fixed to the pole 10 by a fastener 15 shown in FIG. 3 in a state where the tip end portion 10b of the pole 10 is inserted.
[0043]
Furthermore, a screw portion 10 a is provided at the very tip of the pole 10, and this screw portion 10 a protrudes above the upper surface of the head 4 a of the second frame 4, and between the anti-rotation member 9, The head 4 a of the frame 4, the felt washer 11 and the metal washer 12 are sandwiched and screwed with a wing nut 13, and the electronic pad 1 is fixed to the pole 10 by the wing nut 13.
[0044]
That is, the electronic pad 1 is supported from below by the pole 10 to which the rotation stopping member 9 having the front end portion 9a fitted in the concave portion 4e of the second frame 4 is fixed.
[0045]
Here, since the concave portion 4e of the second frame 4 and the tip end portion 9a of the rotation stopping member 9 are fitted, the rotation of the electronic pad 1 around the pole 10 as the rotation axis is prevented. Accordingly, it is possible to prevent a situation in which an output cable 14 (to be described later) of the electronic pad 1 is entangled with the pole 10 or pulled by the pole 10.
[0046]
3 is a cross-sectional view of the electronic pad 1 shown in FIG.
[0047]
FIG. 3 shows the above-described fastener 15 for fixing the rotation stop member 9 to the pole 10 and the screw 16 for fixing the second frame 4 to the first frame 3.
[0048]
In FIG. 3, the lower edge sheet sensor 6, the upper edge sheet sensor 7, and the cup portion sheet sensor 8 are arranged on both the left and right sides of the electronic pad 1. This is because the cross-sectional view shown in FIG. 3 is 90 ° different from the cross-sectional view of FIG. 2, and shows a cross-section when the electronic pad 1 is viewed from the player's position. That's why.
[0049]
3 shows an output jack 18 for transmitting output signals from the piezoelectric sensor 5, the edge lower sheet sensor 6, the edge upper sheet sensor 7, and the cup portion sheet sensor 8 to a sound source device (not shown). And output cable 14 is shown.
[0050]
The output jack 18 is disposed in a space between the arm portion 4 c of the second frame 4 and the lower surface of the first frame 3 and is fixed to the second frame 4 via the output jack holder 17. . Since the second frame 4 is formed of a material such as rubber, which is softer than the first frame as described above, the second frame 4 is somewhat resistant to pulling on the output cable 14 and vibration of the electronic pad 1. It can be deformed to prevent damage to the output jack. The output jack 18 is composed of two jacks, that is, a first output jack 110 and a second output jack 120 (see FIG. 7). The output signals from the sensors are the first output jack 110 and the second output jack 110, respectively. The sound is output from the second output jack 120 and transmitted to the sound source device (not shown) via the output cable 14. In this embodiment, the number of sensors and the number of terminals are different from each other as described above, but signals from each sensor can be transmitted to the sound source device. This point will be described later.
[0051]
FIG. 4 is a perspective view when the electronic pad 1 is viewed obliquely from below.
[0052]
FIG. 4 illustrates the cover 2 that wraps downward so as to wrap around the outer periphery of the first frame 3 described above.
[0053]
FIG. 4 shows a state in which the electronic pad 1 is supported by a pole 10 to which the rotation stop member 9 is fixed.
[0054]
As shown in FIG. 4, the second frame 4 is fixed to the lower surface of the first frame 3 by screws 16 at several locations.
[0055]
FIG. 5 is a diagram conceptually showing the impact of the stick 20 on the central cup portion 30, the intermediate bow portion 31, and the peripheral edge portion 32 of the electronic pad 1 shown in FIG. 1, and FIG. It is a figure which shows notionally a mode that the muffling operation by pinching the outer periphery periphery of is performed with a finger | toe.
[0056]
When the electronic pad 1 is struck or silenced as shown in FIGS. 5 and 6, the piezoelectric sensor 5, the edge lower sheet sensor 6, the edge upper sheet sensor 7, and the cup portion sheet shown in FIG. Each sensor of the sensor 8 detects vibration and pressure. The output signals from these sensors are combined in the circuit shown in FIG. 7, output from the output jack 18, that is, the first output jack 110 and the second output jack 120, and output to the sound source device (not shown) via the output cable 14. Communicated.
[0057]
In the sound source device, when the parts corresponding to the center cup part 30, the intermediate bow part 31, and the peripheral edge part 32 shown in FIG. The sound of typical tones of each part, so-called cup sounds, bow sounds, timbre sounds simulating edge sounds are stored, and based on the combination of output signals transmitted via the output cable 14 Thus, the tone of the timbre corresponding to the hitting part is generated or the tone is muted.
[0058]
Next, the correspondence between the output of each sensor, the striking position, and the mute operation (edge choke) will be described. Table 1 shows the correspondence.
[0059]
[Table 1]

[0060]
The piezoelectric sensor 5 outputs a signal when hitting any of the cup part 30, the bow part 31 and the edge part 32 in FIG. 1, and remains off in the case of an edge part choke. Moreover, the cup part sheet sensor 8 is turned on only when the cup part 30 is hit. The edge upper sheet sensor 7 remains off during the performance of the cup part 30 and the bow part 31, and is turned on when the edge part 32 is hit and when the edge part is choked. Further, the edge lower sheet sensor 6 is turned on only in the case of the edge choke.
[0061]
That is, the edge lower sheet sensor 6 does not react to the impact, but detects only an operation on the peripheral edge of the electronic pad 1 called edge choke.
[0062]
FIG. 7 is a wiring diagram of a jack portion for transmitting an output signal from each sensor to a sound source.
[0063]
Here, two terminals A1 and A2 connected to the first output jack 110 and two terminals B1 and B2 connected to the second output jack 120 are shown. The output signal from the piezoelectric sensor 5 is transmitted to both the terminal A1 and the terminal B1. Further, both the edge lower sheet sensor 6 and the cup portion sheet sensor 8 are connected to the terminal A2, but as shown in Table 1, both the edge lower sheet sensor 6 and the cup portion sheet sensor 8 are simultaneously turned on. It is possible to determine which of the edge lower sheet sensor 6 and the cup part sheet sensor 8 is on by looking at the output of the piezoelectric sensor 5 without the presence of the timing. Therefore, both of the output signals from the edge lower sheet sensor 6 and the cup sheet sensor 8 can be output from the terminal A2.
[0064]
The edge upper sheet sensor 7 is connected to the terminal B2 of the second output jack 120.
[0065]
Table 2 is a table showing the correspondence between the output of each terminal and the assigned sound.
[0066]
[Table 2]

[0067]
Here, only the first output jack 110 or only the second output jack 120 can be connected to the sound source device. When only the first output jack is connected, the cup sound and the bow sound are generated and muted. When only the second output jack is connected, only the edge sound is produced and silenced.
[0068]
When there is an output of the piezoelectric sensor 5 from the terminal A1 of the first output jack 110 and there is no output from the terminal A2 of the first output jack 110, a bow sound is assigned as a sound to be generated. When there is an output from both the terminal A1 and the terminal A2 of the first output jack 110, a cup sound is assigned. When there is no output from the piezoelectric sensor 5 from the terminal A1 of the first output jack 110 and there is an output from the terminal A2 (in this case, the edge lower sheet sensor 6 is turned on), the sound is silenced.
[0069]
When there is an output from the terminal B1 of the second output jack 120 and there is no output from the terminal B2, no sound is generated and the sound is kept silent, and there is an output from both the terminal B1 and the terminal B2. When an edge sound is generated. Further, there is no output from the terminal B1, and when there is an output from the terminal B2, that is, when the edge upper sheet sensor 7 is ON, the sound is silenced. At this time, without using the edge lower sheet sensor 6, an operation for muting (edge choke) can be immediately detected by a combination of the output of the piezoelectric sensor 5 and the output of the edge upper sheet sensor 7. . However, the electronic pad 1 as a whole requires the edge lower sheet sensor 6 that detects the choke at the edge without detecting the hitting in order to instantaneously detect the mute operation (choke at the edge).
[0070]
As described above, when the cup portion 30 of the electronic pad 1 in FIG. 1 is hit, signals are transmitted from the terminals A1, A2, and B1, and the sound generator generates a cup sound. Similarly, when the middle bow portion 31 is hit, a signal is transmitted from both the terminal A1 and the terminal B1, and the sound generator generates a bow sound. Further, when the outer peripheral edge 32 is hit, a signal is transmitted from each of the terminal A1, the terminal B1, and the terminal B2, and the sound source device generates an edge sound. As shown in Table 2, when the edge sound is pronounced, the bow sound is also pronounced at the same time, but the edge sound is often used as an accent, and the volume is set to be large. Since the sound is masked by the edge sound and the edge sound originally includes the characteristic of the bow sound, even if the edge sound is overlaid with the bow sound, the influence can be almost ignored.
[0071]
Further, as shown in FIG. 6, the edge lower sheet sensor 6 and the edge upper sheet are respectively detected from the terminals A2 and B2 by an operation of picking the edge of the striking surface of the electronic pad 1 with a finger (edge choke). The signal of the sensor 7 is transmitted, and the sound source device is silenced.
[0072]
Further, the sound source device monitors not only the presence or absence of output of the pressure sensor 5 but also the magnitude of its output signal, and the sound output of each of the above-mentioned sounds depends on the magnitude of the output signal of the piezoelectric sensor. Pronunciation at a certain volume. In general, a sheet sensor detects on / off in the same manner as a switch. Compared to a conventional method of selecting a timbre after monitoring a vibration by a piezoelectric sensor or the like and determining a striking position, the sheet sensor. The timbre can be selected more quickly by using the signal to monitor the on state of the sheet sensor. In the present embodiment, a sheet sensor is used, and therefore, it is possible to deal with pronunciation such as a cup sound that is used as an accent, that is, a quick sound is necessary for performance, and the edge sound described above. In this case, the sound generation of the sound is quickly performed at a certain volume, and then an envelope process for adjusting the volume according to the hitting force is performed.
[0073]
Thus, in the above-described embodiment, the sound of the timbre corresponding to the striking portion is sounded at a volume corresponding to the striking force by striking the striking surface and the perimeter of the striking surface of the electronic pad 1, and by the mute operation shown in FIG. The sound being pronounced will be muted more quickly than before.
[0074]
Here, even when only the first output jack 110 of the first output jack 110 and the second output jack 120 is connected to the sound source device, the edge lower sheet sensor 6 disposed at a position avoiding the position that reacts to the hitting. By turning on the sound by the mute operation, the performer can mute the cup sound and bow sound that are being generated more quickly than before. It should be noted that control may be performed so as to suppress the sound of the bow sound when the sound source device performs sound generation of the edge.
[0075]
FIG. 8 is a view showing a state where the electronic pad 1 supported by the pole 10 is hit by the stick 20 and tilted.
[0076]
The anti-rotation member 21 shown in FIG. 8 has a wedge-shaped tip portion 21a as compared with the anti-rotation member 9 shown in FIG. For this reason, the wedge shape of the distal end portion 21a of the rotation stop member 21 is in a loosely fitted state without completely fitting with the concave portion 4e of the second frame 4, and is easily received when hit as shown in FIG. Will tilt.
[0077]
In this way, several types of anti-rotation members with different wedge-shaped angles are prepared, and by using different anti-rotation members depending on the size and weight of the acoustic cymbal to be simulated, the rotation of the striking surface is prevented and the cymbals are different. The degree of shaking due to the impact can be adjusted, and it is possible to perform with a feeling close to that of an acoustic cymbal. The degree of shaking can also be adjusted by the degree of tightening of the wing nut 13 of the threaded portion 10a of the pole 10.
[0078]
Alternatively, the anti-rotation member is fixed to one kind of anti-rotation member that can be sufficiently shaken, and the clearance between the anti-rotation member and the recess 4e of the second frame 4 is adjusted by a spacer or an adapter. While preventing the striking surface from rotating, it is possible to perform with a feeling similar to an acoustic cymbal to be simulated.
[0079]
Further, the center axis of the shaking of the electronic pad 1 that occurs when the electronic pad 1 is struck is in the cross section when the cross section is taken along the arrow BB shown in FIG. Here, since the output jack 18 is disposed in the vicinity of the center axis of the shaking, the vertical movement of the output cable 14 due to the shaking is suppressed. Therefore, overloading to the output cable 14 itself and the portion to which the output cable 14 is connected due to the weight of the output cable is prevented, and the life of the electronic pad 1 can be extended.
[0080]
Next, a second embodiment of the present invention will be described.
[0081]
FIG. 9 is a diagram showing an electronic pad 41 used as an electronic cymbal according to the second embodiment of the present invention.
[0082]
FIG. 9 shows a frame 43 and a cover 42 that covers the upper surface of the frame 43, and the left half surface of the cover 42 is removed to make it easy to see the later-described features of the frame 43.
[0083]
An outer peripheral peripheral edge 43a similar to the electronic pad 1 is provided on the outer peripheral peripheral edge of the frame 43 of the electronic pad 41. The outer peripheral peripheral edge 43a is shown in a portion 43b that avoids the hitting range by the player. Thus, the shape is cut off.
[0084]
A portion 42b of the outer peripheral peripheral edge portion 42a of the cover 42 is in close contact with the portion 43b. For this reason, the portion 42b of the cover 42 has a shape in which a space portion corresponding to 43b that is partially cut off of the frame 43 is clogged. Is formed.
[0085]
The electronic pad 41 is different from the electronic pad 1 of FIG. 1 in two points, namely, the partial cut-off of the outer peripheral edge 43a of the frame 43 and the partial shape change of the peripheral edge 42a of the cover 2. Accordingly, as shown on the frame 43 of FIG. 9, the head 4a and the insertion hole 4d of the second frame 4 protruding in the center, the cup seat sensor 8 near the center, and the frame 43 are shown. As the upper edge sheet sensor 7 on the outer peripheral edge 43a, the same type as shown in FIG. 2 is used. Although not shown in FIG. 9, the lower edge sheet sensor 6 is also provided on the lower surface of the outer peripheral edge 43a of the frame 43, as in the electronic pad 1 of FIG.
[0086]
The arrows CC and DD in FIG. 9 correspond to the arrows AA and BB in FIG. 1, and the edge upper sheet sensor 7 in FIG. 9, the edge lower sheet sensor 6 not shown, and the cup portion The sheet sensor 8 is arranged in the same range as the arrangement range of the sensors in the electronic pad 1 described above.
[0087]
That is, these sensors are arranged in the right half of FIG. 2, that is, in the lower half of D from D to D in FIG. 9, and are not arranged in the upper left of D to D. For this reason, the manufacturing cost is reduced by arranging the sensors only on the player side half circumference.
[0088]
Furthermore, by partially cutting off the outer peripheral edge 43a of the frame 43, the shape becomes a rotating body and the balance of rigidity is lost. In contrast, since the shape of the cover 2 is partially different as described above, the weight balance of the electronic pad 41 centered on the insertion hole 4d of the electronic pad 41 is not lost, and the balance of rigidity of the frame 43 is delicately balanced. This collapses and suppresses acoustic resonance, and in the electronic pad 41 of the second embodiment, unnecessary vibration generated in the frame 43 is further suppressed.
Further, the center of gravity of the electronic pad 41 is deviated from the center of the appearance of the electronic pad 41, that is, the insertion hole 4d in FIG. On the other hand, the electronic pad 41, like the electronic pad 1 of FIG. 1, is inserted from the bottom by inserting a pole 10 (not shown) to which the anti-rotation member 9 is fixed into the insertion hole 4d shifted from the center of gravity. It is supported. For this reason, the weight balance of the electronic pad 41 centering on the insertion hole 4d of the electronic pad 41 is slightly broken, and in the electronic pad 41 of the second embodiment, unnecessary vibration generated in the cover 42 and the frame 43 is lost. However, it is further suppressed.
[0089]
【The invention's effect】
As described above, according to the present invention, it is possible to mute the mute operation more quickly than before.
[Brief description of the drawings]
FIG. 1 is a perspective view of an electronic pad used as an electronic cymbal according to a first embodiment of the present invention.
FIG. 2 is an AA cross-sectional view of an electronic pad.
FIG. 3 is a cross-sectional view of the electronic pad taken along the line BB.
FIG. 4 is a perspective view of the electronic pad as viewed obliquely from below.
FIG. 5 is a diagram conceptually illustrating a state in which an electronic pad is hit.
FIG. 6 is a diagram conceptually showing a state in which a sound-muffling operation is performed by sandwiching the outer peripheral edge of an electronic pad with a finger.
FIG. 7 is a wiring diagram of a jack portion for transmitting an output signal from each sensor to a sound source.
8 is a view showing a state in which an electronic pad using a rotation stop member having a sharper tip than the rotation stop member of FIG. 1 is hit and tilted. FIG.
FIG. 9 is a diagram showing the electronic pad of the second embodiment in a state where a part of the outer peripheral edge of the frame is cut off and the left half surface of the cover covering the upper surface of the frame is cut off.
[Explanation of symbols]
1 Electronic pad
1a Opening in the center of the electronic pad
2 Cover
2a Edge of cover
2b Slide part of cover
3 First frame
3a Step on the outer periphery of the first frame
3b 1st frame outer periphery peripheral part
3c Central opening of the first frame
4 Second frame
4a Head of second frame
4b shoulder of second frame
4c Arm of second frame
4d Mounting hole at the center of the head of the second frame
4e A recess around the mounting hole on the lower surface of the center of the head of the second frame
5 Piezoelectric sensor
6 Edge lower sheet sensor
7 Edge upper sheet sensor
8 Cup seat sensor
9 Anti-rotation member
9a Tip of rotation stopper
9b Insertion hole of rotation stopper
10 Paul
10a Pole thread
10b The tip of the pole
11 Felt washer
12 Metal washer
13 Wing nut
14 Output cable
15 Fastener
16 screws
17 Output jack holder
18 Output jack
19 Core
20 sticks
21 Anti-rotation member with sharp tip
21a The tip of the anti-rotation member with a sharp tip
30 cups
30a The base of the cup
31 Bow
32 Edge part
41 Electronic Pad of Second Embodiment
42 Electronic Pad Cover of Second Embodiment
42a Periphery peripheral edge of cover of electronic pad of second embodiment
42b A part of the outer peripheral edge of the cover of the electronic pad according to the second embodiment that is in contact with the cut-out part of the frame
43 Frame of Electronic Pad of Second Embodiment
43a Periphery peripheral part of frame of electronic pad of second embodiment
43b A part of the peripheral edge of the frame of the electronic pad according to the second embodiment, cut off
110 1st output jack
120 2nd output jack
A1 terminal of the first output jack to which the output from the piezoelectric sensor is delivered
A2 Terminal of first output jack to which output from lower edge sheet sensor and cup sheet sensor is delivered
B1 Terminal of the second output jack to which the output from the piezoelectric sensor is delivered
B2 Terminal of the second output jack to which the output from the edge upper sheet sensor is delivered

Claims (2)

In an electronic pad that receives a hit on the upper surface and detects and outputs the hit,
A first frame;
A cover covering the first frame;
A striking sensor for detecting striking vibration on the upper surface of the first frame;
An electronic pad, comprising: an operation sensor disposed on a lower surface of the peripheral edge of the first frame and detecting whether or not an operation is performed on the lower surface of the peripheral edge. The first frame is supported from below and has a mounting hole penetrating vertically in the center, and the mounting hole is inserted with the pole of a stand having a pole that supports the electronic pad, A second frame made of a soft material compared to the first frame having an inverted V-shaped recess around the mounting hole;
It has a through hole in the center and a convex part whose upper surface protrudes in an inverted V shape. The pole is inserted into the insertion hole and fixed to the pole, and is fitted or loose with the concave part of the second frame. The electronic pad according to claim 1, further comprising an anti-rotation member to be fitted.

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