| 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 | 音响装置 | CN03142385.X | 2003-06-04 | CN1469341A | 2004-01-21 | 宫本克纪; 吉村克彦; 伊坂明彦; 上野升 |
| 一种音响装置,包括:发音体(1);将该发音体(1)发出的可听振动音放大的扩音构件(5);支承扩音构件(5)的保持构件(4);以及将发音体(1)发出的振动向扩音构件(5)传递的传递构件(6),其特征在于,传递构件(6)设置成可与发音体(1)及扩音构件(5)抵接或分开,并且,通过改变与发音体(1)及扩音构件(5)的抵接状态,可调节从发音体(1)向扩音构件(5)传递后再从扩音构件(5)发出的声音大小。通改进从发音体向扩音构件的振动传递部的构造,可获得不受弹性构件等材质的左右、可有效地进行音压调节的音响装置。 | ||||||
| 2 | 一种组合式节能环保LED音乐盒 | CN201710314702.0 | 2017-05-06 | CN106952634A | 2017-07-14 | 江秋明 |
| 本发明涉及音频设备技术领域,且公开了一种组合式节能环保LED音乐盒,包括上壳体和下壳体,所述上壳体的底部通过卡块与卡槽的内部卡接,所述卡槽开设在下壳体的顶部,所述上壳体的顶部螺纹连接有固定螺栓,所述固定螺栓的一端依次穿过上壳体并与第一螺纹套和第二螺纹套螺纹连接,所述第一螺纹套固定连接在第一壳体一侧的内壁上。该组合式节能环保LED音乐盒,通过卡块、卡槽、固定螺栓、第一螺纹套和第二螺纹套的设置,使音乐盒可以更好的进行拆装,解决了现有的音乐盒都是一体的问题,从而使音乐盒内部的零件在损坏的时候可以更好的进行拆卸维修,这样增加音乐盒的使用寿命,使音乐盒可以更好的进行使用。 | ||||||
| 3 | 音乐盒 | CN01822175.0 | 2001-01-22 | CN1486485A | 2004-03-31 | 伊坂明彦; 永井淳 |
| 提供具有大音量和极佳音质的一音乐盒。一盒子由用于传送从音乐盒的一机构所产生的声音的一发声板、用于支承发声板的三根立柱、一底板、多块侧板和多个辅助木件形成。垫圈设置在该机构的一基架和发声板之间,腿部设置在底板的下表面处,以及由螺钉体将腿部整体地固定于立柱。由垫圈和腿部形成的诸空间起到有效传送声音的作用。 | ||||||
| 4 | MUSIC BOX | EP01901489.3 | 2001-01-22 | EP1361565A1 | 2003-11-12 | ISAKA, Akihiko, Sankyo Seiki Mfg. Co., Ltd.; NAGAI, Makoto |
There is provided a music box of great volume and excellent sound quality. A box 101 is formed of a sounding board 102 for transferring a sound produced by a movement R of a music box, three columns 105 for supporting the sounding board, a bottom plate 104, side plates 103, and supplementary wood pieces 114. Spacers 106 are disposed between a base frame 107 of the movement R and the sounding board 102 and leg portions 110 are disposed at a lower face of the bottom plate 104 and are integrally fixed to the columns 105 by screw bodies 108, 111. Spaces formed by the spacers 106 and the leg portions 110 function effectively for transmitting the sound. |
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| 5 | 楽音発生装置 | JP2016560434 | 2015-04-14 | JP6389272B2 | 2018-09-12 | オダリー リアム ブライアン |
| 6 | 発音装置 | JP2006513993 | 2005-05-30 | JPWO2005116988A1 | 2008-04-03 | 伸二 笠井 |
| 曲を奏でるオルゴール装置1の発音機構2から発する音の振動エネルギーを保持スタンド12を介して和紙製の板状紙14に伝え、板状紙14を振動させることによって音を発するようにしてやわらかく心地良い音を奏でる。また、受部16の調整により板状紙14の湾曲面の曲率半径を変化させることができ、音量の調整を可能にする。 | ||||||
| 7 | Method for Mounting a Solenoid Above a String of Stringed Instrument | US15491838 | 2017-04-19 | US20170221461A1 | 2017-08-03 | Vladimir A. DEMIN |
| This invention relates to musical instruments. Its use for mounting a solenoid above a string of stringed instrument for pressing this string to a specific fret of finger-board allows to simplify that mounting and ensure the absence of the knock at a moment of actuating the solenoid. The method is implemented in a stringed instrument bearing, above a finger-board thereof, a common plate having through-holes under each solenoid comprising a coil, within which coil a plunger adapted for axial movement being disposed, the plunger tapering to an output stud thereof for limiting a working travel of the plunger with a stopper ring displaced at a coil edge facing the string, the output stud having thickening at an end with elastic washers at both the side facing the string and reverse side. The method includes steps of: securing the solenoid at a separate plate; disposing the separate plate above the common plate so that the thickening of the output stud permeates the respective through-hole; fixing the separate plate above the common plate, using adjusting screws with elastic spacers put thereupon between the separate plate and common plate, until the string being pressed with the stud on supplying a working current to the solenoid coil; shifting the separate plate using the adjusting screws in such a location that the pressure of the string occurs, on supplying the working current to the solenoid coil, without a knock arisen from an impact made by the plunger taper with the stopper ring. | ||||||
| 8 | Sound Generating System with Calibration | US15413376 | 2017-01-23 | US20170148426A1 | 2017-05-25 | Eric Aaron Langberg |
| A system for remotely generating sound from a musical instrument includes a calibration system to improve the quality of the sound produced by the musical instrument. In one embodiment, the system includes an input configured to receive a signal representative of the sound of a first musical instrument, an exciter for converting the signal to mechanical vibrations, a coupling interface for coupling the mechanical vibrations into a second musical instrument, and a calibration system for altering the signal sent to the exciter. | ||||||
| 9 | MUSICAL SOUND GENERATOR | US15302243 | 2015-04-14 | US20170032771A1 | 2017-02-02 | Liam Bryan O'DALY |
| A musical sound generator is provided including a tube defining a resonant cavity, the tube having a plurality of sound producing chimes configured to produce an audible sound when at least one object impacts on at least one of the chimes; a reservoir configured to hold a number of objects; and a transfer mechanism configured to transfer the objects from the reservoir to an elevated position within the resonant cavity, wherein the objects fall down from the elevated position within the resonant cavity by gravity after being transferred by the transfer mechanism, to strike the plurality of sound producing chimes; and wherein the position of the reservoir is configured to be moved depending on the level of the objects held in the reservoir. | ||||||
| 10 | Addressable pneumatic valve system | US10930341 | 2004-08-30 | US20050188811A1 | 2005-09-01 | Spencer Chase; Eugene Gerety |
| An addressable valve system is described wherein a plurality of valves are embedded into a single, compact valve block. Each valve comprises a piston moving in a bore in the block. A magnet embedded in the piston is positioned within a coil. When energized, the coil attracts the magnet and the plunger upwards away from a valve seat. Magnetic shields disposed between the pistons provide magnetic isolation between the pistons and simultaneously apply a closing force to the pistons by drawing the magnets downward towards the valve seat. When energized, the coild overwhelm the closing force and open the valves. Electronics for the valve block and the coils are provided on a circuit board overlying the pistons and bores. The electronics provide addressability of the valves and automatically generate “pick” and “hold” timing whereby the initial motivating force (voltage) applied to the current is higher to get the valves moving quickly when valve is first commanded to open. After a brief period of time, the coil voltage is lowered to a level that provided a lower maintaining force to keep the valve open. | ||||||
| 11 | 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. | ||||||
| 12 | Musical postage stamp display device | US643901 | 1991-01-18 | US5461187A | 1995-10-24 | Roger W. Dudley |
| A musical display combination comprises a postage stamp display mounted on a music box that reproduces an audible rendition of a music composition having a theme that substantively and correspondingly relates to a particular subject matter theme depicted by the visual image of the postage stamp. The postage stamp display includes a postage stamp disposed on a rigid planar thin sheet substrate. An envelope defined by two pliable sheets having an outer edge is secured on the rigid planar thin sheet substrate. A postage stamp is disposed between the sheets within the envelope allowing a visual examination of the postage stamp therethrough. A clear material forms a transparent overlay structure over the postage stamp through which the postage stamp may be viewed. | ||||||
| 13 | Player-piano case | US31175328 | 1928-10-11 | US1774514A | 1930-09-02 | JANSSEN WEBSTER E |
| 14 | Player piano | US16301627 | 1927-01-24 | US1745850A | 1930-02-04 | GULBRANSEN AXEL G |
| 15 | Player piano | US39108020 | 1920-06-23 | US1500565A | 1924-07-08 | HULDER JOSEPH P |
| 16 | MUSICAL SOUND GENERATOR | EP15779216 | 2015-04-14 | EP3132439A4 | 2017-11-15 | O'DALY LIAM BRYAN |
| 17 | Method for mounting a solenoid above a string of stringed instrument | US15491838 | 2017-04-19 | US09865238B2 | 2018-01-09 | Vladimir A. Demin |
| This invention relates to musical instruments. Its use for mounting a solenoid above a string of stringed instrument for pressing this string to a specific fret of finger-board allows to simplify that mounting and ensure the absence of the knock at a moment of actuating the solenoid. The method is implemented in a stringed instrument bearing, above a finger-board thereof, a common plate having through-holes under each solenoid comprising a coil, within which coil a plunger adapted for axial movement being disposed, the plunger tapering to an output stud thereof for limiting a working travel of the plunger with a stopper ring displaced at a coil edge facing the string, the output stud having thickening at an end with elastic washers at both the side facing the string and reverse side. The method includes steps of: securing the solenoid at a separate plate; disposing the separate plate above the common plate so that the thickening of the output stud permeates the respective through-hole; fixing the separate plate above the common plate, using adjusting screws with elastic spacers put thereupon between the separate plate and common plate, until the string being pressed with the stud on supplying a working current to the solenoid coil; shifting the separate plate using the adjusting screws in such a location that the pressure of the string occurs, on supplying the working current to the solenoid coil, without a knock arisen from an impact made by the plunger taper with the stopper ring. | ||||||
| 18 | Sound Generating System with Linear Exciter | US15413954 | 2017-01-24 | US20170178610A1 | 2017-06-22 | Eric Aaron Langberg |
| A system for remotely generating sound from a musical instrument includes a linear exciter which may be configured as a brace for a sound board of the musical instrument. In one embodiment, the system includes an input configured to receive a signal representative of the sound of a first musical instrument, a linear exciter for converting the signal to mechanical vibrations, and a calibration system for altering the signal sent to the exciter. | ||||||
| 19 | System for Remotely Generating Sound from a Musical Instrument | US14215066 | 2014-03-17 | US20140196593A1 | 2014-07-17 | Eric Aaron Langberg |
| A system for remotely generating sound from a musical instrument. In one embodiment, the system includes an input configured to receive a signal representative of the sound of a first musical instrument, an exciter for converting the signal to mechanical vibrations, and a coupling interface for coupling the mechanical vibrations into a second musical instrument. | ||||||
| 20 | Addressable pneumatic valve system | US10930341 | 2004-08-30 | US07247778B2 | 2007-07-24 | Spencer Chase; Eugene Peter Gerety |
| An addressable valve system is described wherein a plurality of valves are embedded into a single, compact valve block. Each valve comprises a piston moving in a bore in the block. A magnet embedded in the piston is positioned within a coil. When energized, the coil attracts the magnet and the plunger upwards away from a valve seat. Magnetic shields disposed between the pistons provide magnetic isolation between the pistons and simultaneously apply a closing force to the pistons by drawing the magnets downward towards the valve seat. When energized, the coils overwhelm the closing force and open the valves. Electronics for the valve block and the coils are provided on a circuit board overlying the pistons and bores. The electronics provide addressability of the valves and automatically generate “pick” and “hold” timing whereby the initial motivating force (voltage) applied to the current is higher to get the valves moving quickly when valve is first commanded to open. After a brief period of time, the coil voltage is lowered to a level that provided a lower maintaining force to keep the valve open. | ||||||
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