| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种带卡祖笛的拇指琴 | CN201610732588.9 | 2016-08-27 | CN106098025A | 2016-11-09 | 罗道仟 |
| 本发明公开了一种带卡祖笛的拇指琴。包括带弹性的钢片本体、木质方形垫板和木质方形底板,还包括压条、金属大圆柱和木螺钉;本发明的主要特点是:木质方形底板的右端中部设有与卡祖笛适配的通孔,卡祖笛的共鸣管插入通孔内,共鸣管的尾部端与木质方形底板的左端齐平,卡祖笛的吹嘴突出在通孔的右端的孔口外面;木质方形底板的右上端设有与共鸣管的右上端的膜孔对应的大圆通孔,膜孔圆管的下部向下插入大圆通孔内,膜孔圆管内设有匹配的笛膜,笛膜通过带小圆通孔的塞子压紧在膜孔圆管的上端。本发明具有卡祖笛的功能,便于同一个人进行拇指琴与卡祖笛的交替演奏。 | ||||||
| 2 | Playing control method, playing controller and musical tone generator | JP2001164989 | 2001-05-31 | JP2002358080A | 2002-12-13 | HAGIWARA YUTAKA; KAMATA KENJI; IWASE KATSUHIKO; HONDA HISAMITSU; NIITSUMA SHINJI; MATSUDA KAZUNORI |
| PROBLEM TO BE SOLVED: To provide a playing controller which enables players to make normal ensemble playing when the ensemble playing to get a player piano 203 automati cally played is carried out together with playing by an electronic sound source and even when playing information of a high density is inputted. SOLUTION: When the ensemble playing with the part side to make the electronic sound source 301 carry out automatic playing by getting the piano part automatically played in accordance with playing information is carried out, a DSP10 is disposed in the processing route of the automatic playing part on the electronic sound source 301 side and is made to provide delayed output in tune with the sound production timing on the piano part side in a state of musical tone data. COPYRIGHT: (C)2003,JPO | ||||||
| 3 | Keyed instrument | JP2523186 | 1986-02-06 | JPS62182797A | 1987-08-11 | TAGUCHI NORIZO; MANTANI ROKUROTA; MURAYAMA MASATOSHI; NISHINO TOSHIHIRO |
| 4 | Automatic piano player with touch strength estimator | EP94110627.0 | 1989-01-27 | EP0620544B1 | 1999-07-21 | Kaneko, Yasutoshi, c/o Yamaha Corporation; Tamaki, Takasi, c/o Yamaha Corporation |
| 5 | Automatic player piano touch strength estimator | EP89101473.0 | 1989-01-27 | EP0326969B1 | 1995-04-05 | Kaneko, Yasutoshi; Tamaki, Takashi |
| 6 | Automatic player piano touch strength estimator | EP89101473.0 | 1989-01-27 | EP0326969A3 | 1991-11-27 | Kaneko, Yasutoshi; Tamaki, Takashi |
An automatic player piano is implemented with an automatic player unit and a mechanical piano (21) having a keyboard (31) mounted on a key bed (32), and the automatic player unit has a controller (37) operative to memorizing pieces of a key touch information respectively representative of grades of intensity assigned to the sounds in the recording mode of operation and retrieve the pieces of the key touch information in the playback mode of operation, a plurality of actuators (30a) provided in association with the keyboard and responsive to the pieces of the key touch information for causing the keys to move, and a sensor unit (29) operative to detect key motions of the keys for producing the pieces of the key touch information in the recording mode of operation, wherein the sensor unit is provided between the keyboard and the key bed because the space therebetween is largely equal regardless of the model of the mechanical piano. |
||||||
| 7 | Automatic player piano touch strength estimator | EP89101473.0 | 1989-01-27 | EP0326969A2 | 1989-08-09 | Kaneko, Yasutoshi; Tamaki, Takashi |
An automatic player piano is implemented with an automatic player unit and a mechanical piano (21) having a keyboard (31) mounted on a key bed (32), and the automatic player unit has a controller (37) operative to memorizing pieces of a key touch information respectively representative of grades of intensity assigned to the sounds in the recording mode of operation and retrieve the pieces of the key touch information in the playback mode of operation, a plurality of actuators (30a) provided in association with the keyboard and responsive to the pieces of the key touch information for causing the keys to move, and a sensor unit (29) operative to detect key motions of the keys for producing the pieces of the key touch information in the recording mode of operation, wherein the sensor unit is provided between the keyboard and the key bed because the space therebetween is largely equal regardless of the model of the mechanical piano. |
||||||
| 8 | Automatic sound player system having acoustic and electronic sound sources | EP87104340.2 | 1987-03-24 | EP0239917A3 | 1989-03-29 | Isozaki, Yoshimasa |
An automatic music player system having an ensemble playback mode of operation using a memory disk having recorded thereon a piece of music composed of at least two combined parts to be reproduced separately of each other, the parts being recorded in the form of at least two data subblocks, comprising a first sound generator to mechanically generate sounds when mechanically or electrically actuated, at least one second sound generator to electronically generate sounds when electronically actuated and a control unit connected to the first and second sound generators, wherein (1) one of the two or more data subblocks of the data read from the disk is discriminated from another, whereupon the discriminated one of the data subblocks is transmitted to the first sound generator and another data subblock transmitted to the second sound generator, and wherein (2) the transmission of data to the second sound generator is continuously delayed by a predetermined period of time from the transmission of data to first sound generator so that the two sound generators are enabled to produce sounds concurrently and in concert with each other. |
||||||
| 9 | Automatic sound player system having acoustic and electronic sound sources | EP87104340.2 | 1987-03-24 | EP0239917A2 | 1987-10-07 | Isozaki, Yoshimasa |
An automatic music player system having an ensemble playback mode of operation using a memory disk having recorded thereon a piece of music composed of at least two combined parts to be reproduced separately of each other, the parts being recorded in the form of at least two data subblocks, comprising a first sound generator to mechanically generate sounds when mechanically or electrically actuated, at least one second sound generator to electronically generate sounds when electronically actuated and a control unit connected to the first and second sound generators, wherein (1) one of the two or more data subblocks of the data read from the disk is discriminated from another, whereupon the discriminated one of the data subblocks is transmitted to the first sound generator and another data subblock transmitted to the second sound generator, and wherein (2) the transmission of data to the second sound generator is continuously delayed by a predetermined period of time from the transmission of data to first sound generator so that the two sound generators are enabled to produce sounds concurrently and in concert with each other. |
||||||
| 10 | KEY ACTUATION SYSTEMS FOR KEYBOARD INSTRUMENTS | EP99946695.6 | 1999-09-03 | EP1110201A1 | 2001-06-27 | Meisel, David |
| The key actuation system is designed for use with a keyboard instrument of the type that has a key fulcrum (16) which pivotally supports multiple keys (10). Each key (10) has a front end (12) forward of the fulcrum (16) which is to be depressed by a player, and a rear portion (14) which is positioned rearward of the fulcrum (16) and it pivots upwardly when the front end (12) is depressed. The key actuation system includes a pull solenoid (120) with a coil portion (22) and a piston (122). When the coil portion (22) of the solenoid (120) is energized, the piston (122) is drawn into the coil portion (22). The solenoid (120) is mounted such that the coil portion (22) is above one of the keys (10) and behind the key fulcrum (16). The piston (122) is in mechanical communication with the rear portion (14) of the key (10) so that when the coil portion (22) is energized and the piston (122) is drawn into the coil portion (22), the rear portion (14) of the key (10) is lifted upwardly. | ||||||
| 11 | Automatic piano player with touch strength estimator | EP94110627.0 | 1989-01-27 | EP0620544A3 | 1995-01-04 | Kaneko, Yasutoshi, c/o Yamaha Corporation; Tamaki, Takasi, c/o Yamaha Corporation |
An automatic player piano is implemented with an automatic player unit and a mechanical piano (21) having a keyboard (31) mounted on a key bed (32), and the automatic player unit has a controller (37) operative to memorizing pieces of a key touch information respectively representative of grades of intensity assigned to the sounds in the recording mode of operation and retrieve the pieces of the key touch information in the playback mode of operation, a plurality of actuators (30a) provided in the association with the keyboard and responsive to the pieces of the key touch information for causing the keys to move, and a sensor unit (29) operative to detect key motions of the keys for producing the pieces of the key touch information in the recording mode of operation, wherein the sensor unit is provided between the keyboard and the key bed because the space therebetween is largely equal regardless of the model of the mechanical piano. |
||||||
| 12 | Automatic piano player with touch strength estimator | EP94110627.0 | 1989-01-27 | EP0620544A2 | 1994-10-19 | Kaneko, Yasutoshi, c/o Yamaha Corporation; Tamaki, Takasi, c/o Yamaha Corporation |
An automatic player piano is implemented with an automatic player unit and a mechanical piano (21) having a keyboard (31) mounted on a key bed (32), and the automatic player unit has a controller (37) operative to memorizing pieces of a key touch information respectively representative of grades of intensity assigned to the sounds in the recording mode of operation and retrieve the pieces of the key touch information in the playback mode of operation, a plurality of actuators (30a) provided in the association with the keyboard and responsive to the pieces of the key touch information for causing the keys to move, and a sensor unit (29) operative to detect key motions of the keys for producing the pieces of the key touch information in the recording mode of operation, wherein the sensor unit is provided between the keyboard and the key bed because the space therebetween is largely equal regardless of the model of the mechanical piano. |
||||||
| 13 | 종소리 피아노 | KR1020040019498 | 2004-03-22 | KR1020040033295A | 2004-04-21 | 안민희 |
| PURPOSE: A bell piano capable of generating sound of a bell is provided to generate various bell sounds by attaching wood, plastic or metal to a sound generating part of the bell piano. CONSTITUTION: A bell piano includes a large bell generating "la" sound and a plurality of small bells. The large bell is fixed to a long iron bolt, which is longitudinally fixed to a lower inner portion of a rectangular angle, by using a nut. Twelve small bells are fixed on the large bell by means of two nuts. Remaining small bells are longitudinally fixed to six long iron bolts, so total 84 small bells are longitudinally fixed. Four bells are fixed to a long iron bolt, thus total 88 bells are fixed to eight long iron bolts. Thus, 88 lots of piano keys(2) are supported by a wood supporter provided at a lower portion of the piano keys(2). | ||||||
| 14 | SYSTEM AND METHOD FOR MIDDLE C AND LOWER STRING TONE ENHANCEMENT FOR AN ACOUSTICAL PIANO | US11424753 | 2006-06-16 | US20060283313A1 | 2006-12-21 | Peter Basralian |
| A string tone enhancement system enhances the string tones of an acoustic piano within a user-specified key range from the note titled “middle “c”” and lower by electronically producing supplemental sounds to accompany acoustical sounds of the piano. Electronically synthesized voices (i.e., tones) are generated and played in unison with the notes of the acoustical instrument within the key range. Sensors produce analog signals corresponding to actuated keys and pedals. Analog signals from the sensors are communicated to a signal processing module, which produces, in real time, audio output corresponding to actuated keys within the key range, such that audible speaker output occurs while the corresponding note is being played. | ||||||
| 15 | Key actuation systems for keyboard instruments | US10155629 | 2002-05-24 | US06888052B2 | 2005-05-03 | David Meisel |
| A key actuation system that is designed for use with a keyboard instrument of the type having multiple keys. Each key is pivotally supported and has a front end that is depressed by a player to play a note. The actuation system includes multiple actuators that are operable to move at least some of the keys. The actuators together include a block of ferromagnetic material with a surface with multiple bores defined in the surface. Each of the bores has a diameter. A winding is positioned in each of the bores. Each of the windings has a hole. A piston is provided at least partially in each of the holes, with each piston being in mechanical communication with one of the keys such that movement of the piston causes movement of the key. Each piston has a width. A ferromagnetic flux plate with multiple openings is positioned on the surface of the block of ferromagnetic material with the openings aligned with the bores. The openings each have a width that is less than the diameter of the bores, such that the flux plate partially closes off the upper end of each bore. When the windings are energized, the corresponding piston moves, thereby moving one of the keys. | ||||||
| 16 | Musical performance control method, musical performance control apparatus and musical tone generating apparatus | US10156852 | 2002-05-30 | US06750389B2 | 2004-06-15 | Yutaka Hagiwara; Kenji Kamada; Masahiko Iwase; Hisamitsu Honda; Shinji Niitsuma; Toshinori Matsuda |
| When the performance by a piano part is automatically provided based on musical performance information so as to provide an ensemble performance with an automatic performance part by an electronic tone generator, a processing path for the automatic performance part on the side of the electronic tone generator includes a DSP to provided delayed output in the musical tone data so as to conform to a sound production timing of the piano part side. | ||||||
| 17 | Combined acoustic and electronic piano in which the acoustic action is disabled when played in the electronic mode | US474743 | 1995-06-07 | US5539142A | 1996-07-23 | George F. Emerson; Thomas E. Kimble |
| An improved combination acoustic-mode and electronic-mode piano is provided which includes a hammer shank stop rail that intercepts the hammer shank, when in the electronic mode, so that the hammer cannot complete its normal travel and cannot strike its corresponding string(s) when its piano key is actuated. The hammer shank stop rail is actuated by an intermediate crank that, in turn, is actuated by a pedal dowel attached to one of the pedals of the piano. When operated in the acoustic mode, the stop rail occupies a position that will not interfere with the hammer shank's movements, and when in the electronic mode, the stop rail intercepts the hammer shank so that its associated hammer will not be able to travel all the way into contact with their associated string. A second embodiment operates the stop rail by use of a cable and cam mechanism. A third embodiment uses a hand-actuator to operate the stop rail via a dowel and intermediate crank. In a fourth embodiment, a fluid-actuated hammer shank stop rail is located in a position similar to the mechanical hammer shank stop rail described hereinabove. The fluid-actuated hammer shank stop rail includes a rigid portion that provides support across the width of the piano and an expandable portion that is resilient and can be enlarged by the use of an internal fluid pressure, which intercepts the hammer shank before the associated hammer can strike their associated string. A fifth embodiment of a combination dual-mode piano is provided that utilizes a spring-loaded wippen-disabler to prevent the wippen from being actuated by the key tail when the associated key is struck. When placed into the electronic mode, the wippen-disabler is rotated into a position in which one of its extended members is forced against the bottom portion of the wippen and raises the wippen high enough into a position so that the capstan screw of the key tail cannot come into contact with the bottom surface of the wippen. In addition, a different portion of the wippen-disabler is rotated so that its associated spring comes into contact with the top of the key tail, thereby providing the person playing the piano with some mechanical feedback that will approximate the feel of a standard key action. | ||||||
| 18 | Acoustic keyboard musical instrument | US267722 | 1988-11-03 | US4939969A | 1990-07-10 | Hanzo Taguchi; Rokurota Mantani; Masatosi Murayama; Toshihiro Nishino |
| An acoustic keyboard musical instrument such as a piano includes a keyboard, a mechanical musical tone generating mechanism, a fallboard, and an operation panel for an external electronic musical tone generating unit. The keyboard includes a plurality of keys aligned on a musical instrument body. The fallboard is pivotally supported by the musical instrument body and to be closed/opened so as to cover/uncover the keyboard. The musical tone generating unit electrically generates a musical tone signal in response to a key depression on the keyboard under the control of control information which is provided by switches on the operation panel. The operation panel is located at a position opposite to a performer in the inner surface of the fallboard when the fallboard is open so that the performer can operate the operation panel during his performance at the keyboard. | ||||||
| 19 | Automatic sound player system having acoustic and electronic sound sources | US29804 | 1987-03-25 | US4744281A | 1988-05-17 | Yoshimasa Isozaki |
| An automatic music player system having an ensemble playback mode of operation using a memory disk having recorded thereon a piece of music composed of at least two combined parts to be reproduced separately of each other, the parts being recorded in the form of at least two data subblocks, comprising a first sound generator to mechanically generate sounds when mechanically or electrically actuated, at least one second sound generator to electronically generate sounds when electronically actuated and a control unit connected to the first and second sound generators, wherein (1) one of the two or more data subblocks of the data read from the disk is discriminated from another, whereupon the discriminated one of the data subblocks is transmitted to the first sound generator and another data subblock transmitted to the second sound generator, and wherein (2) the transmission of data to the second sound generator is continuously delayed by a predetermined period of time from the transmission of data to first sound generator so that the two sound generators are enabled to produce sounds concurrently and in concert with each other. | ||||||
| 20 | Electrically operated rhythm instrument | US3688627D | 1970-05-25 | US3688627A | 1972-09-05 | PETERSON RICHARD H |
| The rhythm instrument disclosed is primarily intended for use with a conventional electronic organ or similar instrument. A cymbal is provided with one or more striking devices and with a damping device, all of which are controlled from the playing keys (manuals) and/or the pedal keys (pedal clavier) of the organ. Sensing circuits associated with the playing keys of the various divisions provide electrical operating pulses to rhythmically operate the strikers and the damper simultaneous with the production of the conventional organ sounds. An Automatic Pulse Train Generator can also operate the strikers and damper automatically, according to a predetermined rhythm pattern.
|
||||||
