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JPS6226797Y2 - - Google Patents

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Publication number
JPS6226797Y2
JPS6226797Y2 JP1980078593U JP7859380U JPS6226797Y2 JP S6226797 Y2 JPS6226797 Y2 JP S6226797Y2 JP 1980078593 U JP1980078593 U JP 1980078593U JP 7859380 U JP7859380 U JP 7859380U JP S6226797 Y2 JPS6226797 Y2 JP S6226797Y2
Authority
JP
Japan
Prior art keywords
string
piezoelectric element
output
strings
pickup device
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
JP1980078593U
Other languages
Japanese (ja)
Other versions
JPS573296U (en
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed filed Critical
Priority to JP1980078593U priority Critical patent/JPS6226797Y2/ja
Publication of JPS573296U publication Critical patent/JPS573296U/ja
Application granted granted Critical
Publication of JPS6226797Y2 publication Critical patent/JPS6226797Y2/ja
Expired legal-status Critical Current

Links

Description

【考案の詳細な説明】 この考案は、楽器自体の音響特性、弦相互間の
相違等による出力レベルのバラツキを補償すると
共に特定の弦振動を強調し得るようにしたギター
等の弦楽器用ピツクアツプ装置に関する。
[Detailed description of the invention] This invention is a pickup device for stringed instruments such as guitars that compensates for variations in output level due to the acoustic characteristics of the instrument itself, differences between strings, etc., and can emphasize specific string vibrations. Regarding.

一般に電気ギター等の電気弦楽器においては、
同一特性を有する複数個のピツクアツプ装置をそ
れぞれの弦に対応して配置することにより、各弦
の振動をこれらのピツクアツプ装置で独立にピツ
クアツプして電気信号に変換しているが、弦楽器
から外部に出力される場合にはいずれの電気信号
も共通のリード線を経て信号処理回路に送られる
ため、楽器自体の特性あるいは弦相互間の相違に
よる出力レベルのバラツキを補償したり、特定の
弦振動のみを調整したり、また弦全体をアタツク
しながら鮮明な和音の電気音を得るような演奏方
法をとることは困難であつた。
In general, electric stringed instruments such as electric guitars,
By placing multiple pick-up devices with the same characteristics in correspondence with each string, these pick-up devices pick up the vibrations of each string independently and convert them into electrical signals. When output, all electrical signals are sent to the signal processing circuit via a common lead wire, so it is possible to compensate for variations in output level due to the characteristics of the instrument itself or differences between strings, or to suppress only specific string vibrations. It was difficult to adjust the strings, or to use a playing method that produced clear electric chords while attacking the entire string.

そこで、最近ではこのような不都合を解決する
手段として信号送出用リード線を各ピツクアツプ
装置毎に接続して、各ピツクアツプ装置からの電
気信号を相互に独立して取り出すことにより、弦
相互間のバラツキおよび各弦の出力を調整するよ
うにした発明が提案(例えば、特公昭54−4250号
公報)されている。しかしながら、このようなピ
ツクアツプ装置を用いた電気ギターにあつても、
演奏方法によつてはミキシング回路が必要となる
ため、いたずらに電気回路を複雑にしているに過
ぎず、しかも前述の特公昭54−4250号公報に開示
された弦振動変換器ブリツジにおいては1つのブ
リツジ基台に各弦に対応するピツクアツプが共通
に配置されているので、弦それぞれの振動が相互
に移つてしまい、したがつて前述の調整範囲がほ
とんど取れず、構造が複雑なわりには十分な効果
を期待することができないという欠点を有してい
る。
Recently, as a means to solve this problem, a signal sending lead wire is connected to each pick-up device, and the electrical signals from each pick-up device are taken out independently from each other, thereby reducing the variation between strings. Also, an invention has been proposed (for example, Japanese Patent Publication No. 54-4250) in which the output of each string is adjusted. However, even with electric guitars that use such a pickup device,
Depending on the performance method, a mixing circuit is required, which simply makes the electric circuit unnecessarily complicated.Moreover, the string vibration transducer bridge disclosed in the aforementioned Japanese Patent Publication No. 54-4250 requires a single mixing circuit. Since the pickups corresponding to each string are commonly placed on the bridge base, the vibrations of each string are transferred to each other, so the adjustment range mentioned above is almost impossible, and although the structure is complex, it is not enough. It has the disadvantage that no expected effects can be expected.

この考案は上記事情に鑑みてなされたもので、
圧電性素子の大きさ、配置位置等を適宜に変えて
各ピツクアツプ装置自体の特性を異ならすという
極めて簡単な構成により、楽器自体の特性および
弦相互間の相違による出力のバラツキを調整する
と共に特定の弦振動を強調し得るようにしたギタ
ー等の弦楽器用ピツクアツプ装置を提供するもの
である。
This idea was made in view of the above circumstances,
With an extremely simple configuration in which the characteristics of each pickup device itself are varied by appropriately changing the size and placement position of the piezoelectric element, it is possible to adjust and specify variations in output due to the characteristics of the instrument itself and differences between strings. The present invention provides a pickup device for a stringed instrument such as a guitar, which is capable of emphasizing string vibrations.

以下、この考案を図面に示す実施例に基づいて
詳細に説明する。
This invention will be described in detail below based on embodiments shown in the drawings.

第1図はこの考案に係る弦楽器用ピツクアツプ
装置の一実施例を示す縦断面図、第2図は同装置
の主要構成部材を取り出して示す斜視図である。
これらの図において、弦楽器の共鳴胴を形成する
響板(表板)1の表面所定個所には下駒2が接着
固定されており、この下駒2の上面に形成された
凹部3に弦枕を構成するピツクアツプ装置4がケ
ース5を介して収納されている。
FIG. 1 is a longitudinal sectional view showing an embodiment of a pickup device for a stringed instrument according to the invention, and FIG. 2 is a perspective view showing the main components of the device.
In these figures, a lower bridge 2 is adhesively fixed to a predetermined location on the surface of a soundboard (top board) 1 that forms the resonance body of a stringed instrument, and a string pillow is inserted into a recess 3 formed on the upper surface of the lower bridge 2. A pickup device 4 constituting the device is housed through a case 5.

前記ピツクアツプ装置4は、その両面に「+」
および「−」の電極8,9がそれぞれ接合された
圧電性素子7と、エポキシ樹脂等からなりその頂
面で全部の弦、例えば6本の弦6に共通に支持す
る弦受部材10とを一体的にモールド成形するこ
とにより形成されるもので、前記圧電性素子7と
しては弦6の数と同数個からなり、これらの圧電
性素子7a〜7fが弦6の並設方向に各弦6に対
応して並列配置され、前記弦受部材10内に埋設
されている。
The pick-up device 4 has "+" on both sides.
and a piezoelectric element 7 to which "-" electrodes 8 and 9 are respectively connected, and a string support member 10 made of epoxy resin or the like and whose top surface commonly supports all the strings, for example, six strings 6. It is formed by integral molding, and the number of piezoelectric elements 7 is the same as the number of strings 6. They are arranged in parallel in correspondence with each other and are embedded within the string receiver member 10.

この場合、各圧電性素子7a〜7fは第2図に
示す如く弦6の出力差に応じてその厚みが異なつ
ている。すなわち、電気ギターの場合、1弦が最
も細く6弦側に至るほど外径が増大するため、弦
相互間で出力が相当異なり、これを補償して均一
にすべく各圧電性素子7a〜7fの厚みを1弦側
が最大で、6弦側が最小になるように少しづつ変
化させている。なお、各圧電素子7a〜7fの面
積(電極接合面の面積)は同一に設定される。
In this case, each of the piezoelectric elements 7a to 7f has a different thickness depending on the output difference of the strings 6, as shown in FIG. That is, in the case of an electric guitar, the first string is the thinnest and the outer diameter increases as it reaches the sixth string, so the output varies considerably between strings, and in order to compensate for this and make it uniform, each piezoelectric element 7a to 7f is used. The thickness is changed little by little so that it is maximum on the 1st string side and minimum on the 6th string side. Note that the area (area of the electrode bonding surface) of each piezoelectric element 7a to 7f is set to be the same.

前記「+」および「−」の電極8,9は全部の
圧電性素子7a〜7fに対応して共通に延在する
ように長尺板状に形成され、各圧電性素子7a〜
7fと対応する部分が半田付け、導電性接着剤等
により各圧電性素子7a〜7fに接合されてい
る。「−」の電極9の幅は「+」の電極8よりも
十分大きく設定されている。そして、「+」およ
び「−」の電極8,9の一端にリード線11a,
11bの一端が半田付け等により接続されてお
り、これらリード線11a,11bの他端はケー
ス5、下駒2および響板1を貫通して共鳴胴内に
導かれた後外部に導出されて電気回路に接続され
る。なお、前記ケース5は導電性金属により構成
され「−」の電極板9と同電位に保たれている。
この場合、ケース5の代りに弦受部材10の外表
面を導電性塗料等でコーテイングすることも可能
である。
The "+" and "-" electrodes 8 and 9 are formed in a long plate shape so as to extend in common to correspond to all the piezoelectric elements 7a to 7f, and correspond to all the piezoelectric elements 7a to 7f.
A portion corresponding to 7f is joined to each piezoelectric element 7a to 7f by soldering, conductive adhesive, or the like. The width of the "-" electrode 9 is set to be sufficiently larger than the "+" electrode 8. Then, a lead wire 11a is attached to one end of the "+" and "-" electrodes 8, 9,
One end of the lead wire 11b is connected by soldering or the like, and the other ends of the lead wires 11a and 11b pass through the case 5, the lower bridge 2, and the soundboard 1, are guided into the resonator body, and then led out to the outside. connected to an electrical circuit. The case 5 is made of a conductive metal and is kept at the same potential as the "-" electrode plate 9.
In this case, instead of the case 5, the outer surface of the string receiving member 10 may be coated with a conductive paint or the like.

しかして、このようなピツクアツプ装置4を備
えた電気ギターにおいて、或る弦6をはじいて振
動させると、その弦6の振動は弦受部材10を介
して振動している弦6に対応する圧電性素子7に
伝達される。この結果、「+」および「−」の電
極8,9間には弦振動に応じた電気信号が発生
し、この電気信号はリード線11a,11bを介
して信号処理回路に導かれて増幅された後、スピ
ーカから電気音として発音される。
Therefore, in an electric guitar equipped with such a pickup device 4, when a certain string 6 is plucked to vibrate, the vibration of the string 6 is caused by the piezoelectricity corresponding to the vibrating string 6 via the string receiving member 10. is transmitted to the sexual element 7. As a result, an electrical signal corresponding to the string vibration is generated between the "+" and "-" electrodes 8 and 9, and this electrical signal is led to the signal processing circuit via the lead wires 11a and 11b and amplified. After that, an electric sound is emitted from the speaker.

第3図a,bは圧電性素子7の厚みと出力およ
び面積(電極接合面)と出力の関係を示す図であ
る。同図aから明らかなように厚みが増大すると
出力も曲線的に増大するので、前述したように1
弦側から6弦側に各圧電性素子7a〜7fの厚さ
を漸次減少させておけば、各圧電性素子7a〜7
fの出力をほぼ均一にすることができる。
FIGS. 3a and 3b are diagrams showing the relationship between the thickness and output of the piezoelectric element 7, and the relationship between the area (electrode bonding surface) and output. As is clear from figure a, as the thickness increases, the output also increases in a curved manner, so as mentioned above, 1
If the thickness of each piezoelectric element 7a-7f is gradually decreased from the string side to the 6th string side, each piezoelectric element 7a-7
The output of f can be made almost uniform.

この場合、例えば第4図に示す如く各圧電性素
子7a〜7fの厚みは一定とし、面積のみを6弦
側から1弦側に漸次減少させても、第3図bから
して上記実施例と同様各圧電性素子7a〜7fの
出力を均一にすることができることは明らかであ
ろう。
In this case, for example, as shown in FIG. 4, even if the thickness of each piezoelectric element 7a to 7f is constant and only the area is gradually decreased from the 6th string side to the 1st string side, it is clear from FIG. 3b that the above embodiment It will be obvious that the outputs of the piezoelectric elements 7a to 7f can be made uniform in the same manner as in FIG.

また、例えば楽器自体の特性に見合つた出力の
調整を行なう場合とか弦相互間の出力のバラツキ
を是正したい場合あるいは演奏者の好みに合つた
出力を得たい場合には、第5図に示すように各圧
電性素子7a〜7fの厚み、面積、取付け位置等
を適宜に変えてやればよい。
For example, if you want to adjust the output to match the characteristics of the instrument itself, correct variations in output between strings, or want to obtain an output that matches the player's preference, use the method shown in Figure 5. The thickness, area, mounting position, etc. of each piezoelectric element 7a to 7f may be changed as appropriate.

以上説明したようにこの考案に係るギター等の
弦楽器用ピツクアツプ装置は、大きさ、取付位置
等を適宜に変化させることによりそれぞれ特性が
異なる複数個の圧電性素子を有し、これらの素子
を各弦に対してそれぞれ配設して構成したので、
楽器自体の特性にしたがつて出力を調整したり、
弦相互間の出力のバラツキを是正したりさらには
演奏者の好みに合せて弦ごとに出力を調整したり
することができ、従来にない優れた効果を奏す
る。
As explained above, the pick-up device for stringed instruments such as guitars according to this invention has a plurality of piezoelectric elements each having different characteristics by appropriately changing the size, mounting position, etc. Since it is arranged and configured for each string,
Adjust the output according to the characteristics of the instrument itself,
It is possible to correct variations in output between strings, and even adjust the output for each string according to the player's preference, producing excellent effects never seen before.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図はこの考案に係る弦楽器用ピツクアツプ
装置の一実施例を示す縦断面図、第2図は同装置
の主要構成部材を取り出して示す斜視図、第3図
a,bは圧電性素子の特性を示す図、第4図およ
び第5図はこの考案の他の実施例を示す主要構成
部材の斜視図である。 4……ピツクアツプ装置、6……弦、7……圧
電性素子、8,9……電極、10……弦受部材。
Fig. 1 is a longitudinal cross-sectional view showing an embodiment of a pickup device for a stringed instrument according to this invention, Fig. 2 is a perspective view showing the main components of the device, and Figs. 3a and 3b show a piezoelectric element. The characteristics diagram, FIGS. 4 and 5, are perspective views of main components showing other embodiments of this invention. 4... Pickup device, 6... String, 7... Piezoelectric element, 8, 9... Electrode, 10... String receiving member.

Claims (1)

【実用新案登録請求の範囲】 (1) 各弦に対応して1個宛配設された複数個の圧
電性素子を具備してなり、各圧電性素子はそれ
ぞれ異なつた特性を有し、これらの圧電素子に
電極を接合したことを特徴とするギター等の弦
楽器用ピツクアツプ装置。 (2) 前記電極は全部の圧電性素子に対して共通に
延在するようにそれぞれ長尺板状に形成され、
各圧電性素子と対応する部分において各素子に
接合されていることを特徴とする実用新案登録
請求の範囲第1項記載のギター等の弦楽器用ピ
ツクアツプ装置。
[Claims for Utility Model Registration] (1) The device is equipped with a plurality of piezoelectric elements, one of which is arranged corresponding to each string, and each piezoelectric element has different characteristics. A pick-up device for a stringed instrument such as a guitar, characterized in that an electrode is bonded to a piezoelectric element. (2) each of the electrodes is formed into a long plate shape so as to extend commonly to all piezoelectric elements;
A pickup device for a stringed instrument such as a guitar as claimed in claim 1, wherein the pickup device is connected to each piezoelectric element at a portion corresponding to each piezoelectric element.
JP1980078593U 1980-06-05 1980-06-05 Expired JPS6226797Y2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1980078593U JPS6226797Y2 (en) 1980-06-05 1980-06-05

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1980078593U JPS6226797Y2 (en) 1980-06-05 1980-06-05

Publications (2)

Publication Number Publication Date
JPS573296U JPS573296U (en) 1982-01-08
JPS6226797Y2 true JPS6226797Y2 (en) 1987-07-09

Family

ID=29441100

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1980078593U Expired JPS6226797Y2 (en) 1980-06-05 1980-06-05

Country Status (1)

Country Link
JP (1) JPS6226797Y2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA1268641A (en) * 1985-02-13 1990-05-08 Keiji Yamaguchi Blood pressure measuring apparatus
JPS62129033A (en) * 1985-11-29 1987-06-11 テルモ株式会社 Blood pressure measuring apparatus

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS55144396U (en) * 1979-04-03 1980-10-16

Also Published As

Publication number Publication date
JPS573296U (en) 1982-01-08

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