US1848222A - Producing musical sounds - Google Patents
Producing musical sounds Download PDFInfo
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- US1848222A US1848222A US366866A US36686629A US1848222A US 1848222 A US1848222 A US 1848222A US 366866 A US366866 A US 366866A US 36686629 A US36686629 A US 36686629A US 1848222 A US1848222 A US 1848222A
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- light
- note
- shutter
- key
- cell
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10H—ELECTROPHONIC MUSICAL INSTRUMENTS; INSTRUMENTS IN WHICH THE TONES ARE GENERATED BY ELECTROMECHANICAL MEANS OR ELECTRONIC GENERATORS, OR IN WHICH THE TONES ARE SYNTHESISED FROM A DATA STORE
- G10H3/00—Instruments in which the tones are generated by electromechanical means
- G10H3/03—Instruments in which the tones are generated by electromechanical means using pick-up means for reading recorded waves, e.g. on rotating discs drums, tapes or wires
- G10H3/06—Instruments in which the tones are generated by electromechanical means using pick-up means for reading recorded waves, e.g. on rotating discs drums, tapes or wires using photoelectric pick-up means
Definitions
- the present invention relates in eneral to the production of musical notes 0 either simple or complex quality by the action of light upon alight sensitive electric cell. More particularly, it relates to 1m rovements 1n instruments which may be p ayed upon to furnish in any desired se u'ence notes of desired pitch and quality. or its understandin the invention may be consideredwith re erence to that disclosed in my previous application, Serial No. 78,733, filed January 2, 1926, now Patent No. 1,678,872, ssued January 31, 1928, of which the present DIVOR- tion is a further development.
- the present invention has for an ob ect an improvement over the invention disclosed in such earlier application to-the end that the. apparatus may be to some degree simplified, and furthermore capable of rendering more accurately the notes of a tempered musical scale.
- a single cylinder was provided which contained all of the note patterns or determinants whereby the pitch relationship of each note with reference to every other note was fixed for all times, the abso lute pitch being determined by the speed with which such cylinder was rotated.
- the number of vibrations per second of difierent notes of the tempered scale are incommensurate, this raised the difficulty in said prior construction that the cylinder had to be made fairly large to reduce the error incident upon the fact of such incommensurability.
- Further objects of the invention are to provide improved means for actuating the mechanism admitting light to the note patterns, as well as improved shutter mechanisms whereby the playing of the instrument may be facilitated, to provide improved means for regulating the action of the shutters and for modulating the note currents produced.
- Figure 1 is a more or less diagrammatic view, showing one illustrative embodiment thereof
- Fig. "2 is a view showing the arrangement of a keyboard and note units, this view showing the units for the twelve notes of the tempered scale;
- Fig. 3 is a view similar to Fig. 1, but showmg a modification
- Fig. 5 is a view showing the light valve or ihutter and the actuating mechanismthere-
- Figs. 6 and 7 are diagrammatic views of a further form of shutter
- Figs. 8 and 9. are views of a still further modification Fig. -10'is a view of an arrangement involva mirror for the purpose of valving the 1g t; I
- Fig. 11 is a view of a modification in which a separate light source is provided for each note determining band;
- Fig. 12 shows an improved means for producing a so-called tremolo effect
- Figs. 13 and 14 are, respectively, elevation and plan views of a mechanical means for controlling the shutters from the keyboard.
- each of said bands contains the determinant or pattern of the note such that when a band is moved across a beam of light a current will be set upin a light sensitive cell to be described.
- the other elements cooperatingto produce the sound current in addition to the cylinder 10 are shutters, denoted generally by 25, a beam limitin screen 26, a light concentrating lens 27 of elongated shape, an elongated light source 28, and finally a light sensitive cell 29 contained within the cylinder 10.
- the latter has trunnions 30 which turn upon shaft 31 whereby the cylinder 10 is mounted for rotation and is driven by means of gears 32, 33.
- the shutters 25 in the embodiment under description are actuated by' means of electromagnets 35 to be described in greater detail, such magnets in turn being operated by means of keys 37.
- Figs. 3 and 4 I have shown an alternative arrangement of the note patterns, this form being characterized by the employment of a plurality of disks 51, 52, 53, 54, 55, etc., such disks being similar in principle to the ,cylin ders 10, 11, etc., and containing circumferentially parallel bands a, b, 0, etc. (Fig. 4.).
- the shutters 25, beam limiting screen 26', lens 27', light source 28 and light sensitive cell 29' are all essentially similar to their counterparts in the embodiment first described.
- a feature of' the disks is that they are mounted upon concentric shafts 51a, 52a, 53a, 54a, etc., and are separately and respectively driven by pairs of gears 51?), 51c; 52?), 520; etc., gears having the exponent c bein directly connected to a motor 45'.
- the amplifier 41' and loud speaker 42' are the same as in said previously described embodiment, as is the key mechanism (key 37' and magnets 35) illustrated. 4
- circuit is made by depressing key 37 from a battery 370.
- the cir cuit is open as seen in Figure 5 since the end of arm 371 is no longer in contact with resistance 372.
- a condenser 352 and inductance 353 are shunted across the arm 371 andresistance 372 for the purpose of preventing sparking.
- solenoid 350 When solenoid 350 for example is energized, an armature 355 is drawn thereinto against the action of a spring 356 attach d to hell crank 357 and therebv actuating the shutter mechanism 25 consisting of stationary apertured guides 250 and an apertured shutter 251.. Due to the action of the resistance 372 the, armature 355 will be drawn into the solenoid a variable amount depending upon the force with which the key 37 was struck and thus varying the amount of light passed through the shutter mechanism 25.
- Spring 375 returns the key to its inoperative position.
- a stop 359 may also be provided to vary the limit of travel of the bell crank of 357 and thus the amount of light opening.
- a key 37 makes a circuit including a light valve 380, battery 381, resistance 382, and ground 383.
- Resistance 382 is common to a plurality of keys and has a contact 384 in wiping relation which contact is a contact forming part of a lever 385 which terminates in a p'edal 386, said lever being joined to the ground at 387 and also being provided with a spring 388' for returning same to its initial position.
- pedal 386 it is thus possible to vary the inke board.
- This arrangement includes means for continuously varying the flux through a plurality of solenoids 350 controlling the shutter mechanisms 25.
- th1s is accomplished by means of a resistance 60 which is of annular shape and is connected at either side thereof by means'of conductors 61, 62,
- Figsj6 to 9 I have shown various forms of light valves and actuating means therefor;
- depressing key 37 tilts a bellcrank lever 80 and thus causes a shutter 81 of flexible spring material to assume the shape shown in Fig. 7 whereupon it is pulled down so as to uncover the opening 82 in a stationary member 83.
- a depress1ng key 37 causes the shutter 85, also in the form of a bell crank. to tilt in the position shown in Fig. 9, suitable means being provided for limiting the throw of said shutter and for returning the key to initial position.
- Fig. 6 depressing key 37 tilts a bellcrank lever 80 and thus causes a shutter 81 of flexible spring material to assume the shape shown in Fig. 7 whereupon it is pulled down so as to uncover the opening 82 in a stationary member 83.
- a depress1ng key 37 causes the shutter 85, also in the form of a bell crank. to tilt in the position shown in Fig. 9, suitable means being provided for limiting the throw of said
- a shutter 85 in the form of a mirror which when in raised position, ,will cause light from a source 86' to be reflected through the aperture in member 87 and thence upon the note screen. It will be understood that the shutter arrangements above described, while in' the form shown, are primarily adapted for a form of cylinder in which the note patterns follow in order, i. e.,
- a plurality of units each corresponding to a glven note of amusical scale, each unit comprising a source of, light, a light sensitive cell, a screen interposed between said source and said cell, said screen having a dc .terminant for said note together with those of octaves of said note and arranged so that when moved with reference to the light from said source, a current corresponding to said noteor an octave thereof as the case may be will be set u in said cell, means for controlling the light admitted to each determinant andmeans for determining at will the sequence of notes to be played.
- each unit comprising a source of light, a light sensitive cell, a screen interposed between said'source and said cell, said screen having a determinant for said note together with those of octaves of said note and arranged so that when moved with reference to the light from said source, a current corresponding to said note or an octave thereof as the case may be will setu in said cell, and means for controlling the ight admitted to each determinant and means comprising a key board having the keys in pitch sequence for determining at will the sequence of notes to be played.
- each screen is in the form of a disk and the screens of the several units are arranged concentrically with respect to one another.
- each screen is in the form of a disk and the screens of the several units are arranged concentrically with respect to one another and spaced from each other longitudinally of the axis of rotation.
- a device according to claim 2 havin electrical means connecting the keyboar with said light controlled means.
- a light source a light sensitive cell, a llght screen interposed between said source and said cell, and a lightvalve between said cell and said source and means for actuating same comprising electric magnetic means, a key for making the current therethrough and means for varying the strength of said magnetic means in accordance with the amount of depression of said key.
- a device of the character described having a light source, a light sensitive cell in combination therewith of a shutter oi flexible material in the path of a light beam from said source, a key, and a connection be; tween said key and said shutter such that when said key is depressed said shutter will be flexed so as to be held in an inoperative position and thus allow the light to pass to its required destination.
- a device of the character described having a light source and a light sensitive cell, in combination therewith of a shutter between said cell and said light source acting as a valve for such light, said shutter being tiltably mounted, and means for actuating same.
- a controlled source of light for actuating same, means for producing a tremolo effect comprising a shutter element for valving the light to said cell, magnetic means controlling same, and means for continuously varying the position of said shutter element by continuously varying the flux of said magnetic means.
Description
March 8, 932. R. K; 'P'OT'II'ER 1,348,222
I PRODUCING MUSICAL sounns I Filed llay 29. 1929 s sheets-sheet 1 Mad; 8, 1932.,;- h 1mm 'TIMSZZZ" PRODUCING MUSICAL 'sounns Filedlay 29, 1929 6 SheeFa-Sheet 2 IN ENTOR. Y Ralph/NW1 ATTORNEY March 8, 1932. R, PQTTER r 1,848,222
PRODUCING MUSICAL SOUNDS Filed May 29, 1929 6 Sheets-Sheet 3 INVENTOR 8 m/ n/nmrrer.
(707,41 4 ATTORNEY R. K. POTTER PRODUCING MUSICAL SOUNDS March a, 1932.
Filed May 29, 1929 6 Sheets-Sheef. 4
INVENTOR BY Ralph fIfPo/fer:
ATTORNEY March a, 1932. 1 R. KI.QPOITTIE'R 1,848,222
Pnonucme MUSICAL vsoumas.
1 Fi led May '29, 1929 6 sheets-sheet. 5
INVENTOR' wit/(Mar:
ATTORNEY March 8, 1932. Y N POTTER I 1,848,222
PRODUCING HUS ICAL SOUNDS rned lay 29. 1929 v s Sheets-Sheet 6 ATTORNEY Patented Mar. 8, 1932 UNITED. STATES PATENT OFFICE RALPH K. POTTER, O1 MORRIS, NEW JERSEY, ASBIGNOR TO AMERICAN TELEPHONE AND TELEGRAPH COMPANY, A CORPORATION 01 NEW YORK PRODUCING MUSICAL SOUNDS Application filed my 29,
The present invention relates in eneral to the production of musical notes 0 either simple or complex quality by the action of light upon alight sensitive electric cell. More particularly, it relates to 1m rovements 1n instruments which may be p ayed upon to furnish in any desired se u'ence notes of desired pitch and quality. or its understandin the invention may be consideredwith re erence to that disclosed in my previous application, Serial No. 78,733, filed January 2, 1926, now Patent No. 1,678,872, ssued January 31, 1928, of which the present DIVOR- tion is a further development. In said application, I disclosed an instrument of the type mentioned, in which a 11 ht transmitting screen was moved between a ight source and a light sensitive cell, the screen being arranged so as to contain a note attern or note determinant, the arrangement eing such that the note pattern was moved with reference to the light beam in the manner so as to produce variations in the cell current corresponding to the desired note.
The present invention has for an ob ect an improvement over the invention disclosed in such earlier application to-the end that the. apparatus may be to some degree simplified, and furthermore capable of rendering more accurately the notes of a tempered musical scale. In the embodiment disclosed in said previous application, a single cylinder was provided which contained all of the note patterns or determinants whereby the pitch relationship of each note with reference to every other note was fixed for all times, the abso lute pitch being determined by the speed with which such cylinder was rotated. Inasmuch as the number of vibrations per second of difierent notes of the tempered scale are incommensurate, this raised the difficulty in said prior construction that the cylinder had to be made fairly large to reduce the error incident upon the fact of such incommensurability. In the present invention, I propose to employ a plurality of units each containing a single note and the octaves of such note which it is desired to employ and to employ as many of such units as there are notes in the tempered scale, or twelve in all. This,
1929. Serial No. 366,808.
while preserving the true octave relationship, enables each unit to operate at such a speed as is theoretically required to produce the pit lzh demanded of each note in the tempered sca e.
Further objects of the invention are to provide improved means for actuating the mechanism admitting light to the note patterns, as well as improved shutter mechanisms whereby the playing of the instrument may be facilitated, to provide improved means for regulating the action of the shutters and for modulating the note currents produced.
Other objects to be attained and advantages of my invention will be apparent as the description proceeds. My invention will be best understood by reference to the following detailed description taken with the annexed drawings in which:
Figure 1 is a more or less diagrammatic view, showing one illustrative embodiment thereof;
Fig. "2 is a view showing the arrangement of a keyboard and note units, this view showing the units for the twelve notes of the tempered scale;
. Fig. 3 is a view similar to Fig. 1, but showmg a modification;
in the arrangement according to Fig. 3;
Fig. 5 is a view showing the light valve or ihutter and the actuating mechanismthere- Figs. 6 and 7 are diagrammatic views of a further form of shutter;
Figs. 8 and 9. are views of a still further modification Fig. -10'is a view of an arrangement involva mirror for the purpose of valving the 1g t; I
Fig. 11 is a view of a modification in which a separate light source is provided for each note determining band;
Fig. 12 shows an improved means for producing a so-called tremolo effect; and
Figs. 13 and 14 are, respectively, elevation and plan views of a mechanical means for controlling the shutters from the keyboard.
Referring to Fig. 1, I have provided a plurality of note'determining elements in the Fig. 4 is a detail of a note disk employed 4 mentioned, and therefore need not be goneinto in detail here, it suificing for an understanding of the invention to state that each of said bands contains the determinant or pattern of the note such that when a band is moved across a beam of light a current will be set upin a light sensitive cell to be described. The other elements cooperatingto produce the sound current in addition to the cylinder 10 are shutters, denoted generally by 25, a beam limitin screen 26, a light concentrating lens 27 of elongated shape, an elongated light source 28, and finally a light sensitive cell 29 contained Within the cylinder 10. The latter, as will be seen, has trunnions 30 which turn upon shaft 31 whereby the cylinder 10 is mounted for rotation and is driven by means of gears 32, 33. The shutters 25 in the embodiment under description are actu ated by' means of electromagnets 35 to be described in greater detail, such magnets in turn being operated by means of keys 37.
It will accordingly be apparent that assuming the light 27 to be on and the cylinder 10, for example, to be in rotation, upon depressing a key 37 connected to said cylinder, a beam of light from the bulb 28 will be allowed to pass through the light valve operated by said k'ey through or across the moving beam opposite said valve and onto the light sensitive cell 29. Due to the variation roduced'in said light beam, a current will he set up in cell 29 which will be conducted throu h wires 39, 40, be amplified in amplif er 41 an actuate a loud speaker 42. As shown in Fig. 1, I may conveniently mount four of the note cylinders so as to be driven from a common shaft 44 which is connected to an electric motor 15. The manner of connecting the various keys with the various note elements 1s seen best'from Fig. 2, it being noted that due to the fact a given note and the octaves thereof are grouped together, the sequence of the note bands does not, of course, correspond with the keys of the keyboard. Due, however, to the special connecting mechanism employed by me, no structural difliculty arises because of this fact.
In Figs. 3 and 4 I have shown an alternative arrangement of the note patterns, this form being characterized by the employment of a plurality of disks 51, 52, 53, 54, 55, etc., such disks being similar in principle to the ,cylin ders 10, 11, etc., and containing circumferentially parallel bands a, b, 0, etc. (Fig. 4.).
The shutters 25, beam limiting screen 26', lens 27', light source 28 and light sensitive cell 29' are all essentially similar to their counterparts in the embodiment first described. A feature of' the disks is that they are mounted upon concentric shafts 51a, 52a, 53a, 54a, etc., and are separately and respectively driven by pairs of gears 51?), 51c; 52?), 520; etc., gears having the exponent c bein directly connected to a motor 45'. In addition, the amplifier 41' and loud speaker 42' are the same as in said previously described embodiment, as is the key mechanism (key 37' and magnets 35) illustrated. 4
The foregoing describes the general arrangement of the elements necessary for tone production by manual means such that any desired sequence of notes may be played similar to the piano.
A more detailed description of the means for valving the light to a given note screen may now be given. Referring to Fig. 5, circuit is made by depressing key 37 from a battery 370. key arm 371, resistance 372, conductor 373. solenoid 350, and thence to ground. When key 37 is not pressed the cir cuit is open as seen in Figure 5 since the end of arm 371 is no longer in contact with resistance 372. A condenser 352 and inductance 353 are shunted across the arm 371 andresistance 372 for the purpose of preventing sparking. When solenoid 350 for example is energized, an armature 355 is drawn thereinto against the action of a spring 356 attach d to hell crank 357 and therebv actuating the shutter mechanism 25 consisting of stationary apertured guides 250 and an apertured shutter 251.. Due to the action of the resistance 372 the, armature 355 will be drawn into the solenoid a variable amount depending upon the force with which the key 37 was struck and thus varying the amount of light passed through the shutter mechanism 25. Spring 375 returns the key to its inoperative position. A stop 359 may also be provided to vary the limit of travel of the bell crank of 357 and thus the amount of light opening.
In Fig. 11, I have shown a slightly difierent arrangement of elements wherein, in lieu of a single light source for which a plurality ofvalves are provided, such valve mechanism is dispensed with and separate light sources are provided for each note band. In this arrangement a key 37 makes a circuit including a light valve 380, battery 381, resistance 382, and ground 383. Resistance 382 is common to a plurality of keys and has a contact 384 in wiping relation which contact is a contact forming part of a lever 385 which terminates in a p'edal 386, said lever being joined to the ground at 387 and also being provided with a spring 388' for returning same to its initial position. By means of pedal 386 it is thus possible to vary the inke board.
of a plurality of 1i hts which may tensity e the lights for all t e notes on the inclu Fig. 12, I have shownmeans for, varying the quality of the notes produced partic-. ularly for producing the' so-called tremolo effect. This arrangement includes means for continuously varying the flux through a plurality of solenoids 350 controlling the shutter mechanisms 25. As shown, th1s is accomplished by means of a resistance 60 which is of annular shape and is connected at either side thereof by means'of conductors 61, 62,
- such that by means of the double contact 63 the amount of resistance in the circuit of said solenoids is continuously varied by rotating such contact by means of a motor 64 which is set into operation when the contact carried by arm 66 engages resistance 67. 4 At such time current from generator 65 also flows through the pedal arm 66, variable resistance 67 to solenoid 350 which thereby causes shutter 25 to have a vibratory movement and thus produce a tremolo effect in the tone produced.
.so that the aperture in said shutter will coincide with the apertures in guides 386 and thereby admit light to the note screen 10'.
In Figsj6 to 9, I have shown various forms of light valves and actuating means therefor; Thus, in Fig. 6 depressing key 37 tilts a bellcrank lever 80 and thus causes a shutter 81 of flexible spring material to assume the shape shown in Fig. 7 whereupon it is pulled down so as to uncover the opening 82 in a stationary member 83. In Figs. 8 and 9 a depress1ng key 37 causes the shutter 85, also in the form of a bell crank. to tilt in the position shown in Fig. 9, suitable means being provided for limiting the throw of said shutter and for returning the key to initial position. In Fig. 10, I have provided a shutter 85 in the form of a mirror which when in raised position, ,will cause light from a source 86' to be reflected through the aperture in member 87 and thence upon the note screen. It will be understood that the shutter arrangements above described, while in' the form shown, are primarily adapted for a form of cylinder in which the note patterns follow in order, i. e.,
similar to the strings of a piano, that the showing of the keys is merely conventional and that so far as the inventive concept of these arrangements is concerned, they are equally adapted either to mechanical actuation illustrated in Fi s. 13 and 14, or to an appropriate form 0 magnetic actuating means.
In a co-pending application, Serial No. 317,379, filed November 5, 1928, I have shown a modification in which the note determinants instead of being mounted on a cylinder are stationary and in which a movable light beam is provided. The element bearing such note patterns is arranged so that it may brought into operative position and removed therefrom and others of different tone quality substituted. Accordingly, I wish it understood that the device disclosed herein may be applied equally to such an arrangement.
I wish it understood that various devices constituting my improved system of producing musical notes are illustrative only and are susceptible to modification which will occur to those skilled in the art without, however,- departing from the spirit of my invention nor the scope of the appended claims. I claim:
1. In a device of the character described, in combination, a plurality of units, each corresponding to a glven note of amusical scale, each unit comprising a source of, light, a light sensitive cell, a screen interposed between said source and said cell, said screen having a dc .terminant for said note together with those of octaves of said note and arranged so that when moved with reference to the light from said source, a current corresponding to said noteor an octave thereof as the case may be will be set u in said cell, means for controlling the light admitted to each determinant andmeans for determining at will the sequence of notes to be played.
' 2. In a deviceof the character described, in
combination, a plurality of units, each corresponding to a given note of a musical scale, each unit comprising a source of light, a light sensitive cell, a screen interposed between said'source and said cell, said screen having a determinant for said note together with those of octaves of said note and arranged so that when moved with reference to the light from said source, a current corresponding to said note or an octave thereof as the case may be will setu in said cell, and means for controlling the ight admitted to each determinant and means comprising a key board having the keys in pitch sequence for determining at will the sequence of notes to be played.-
3. A device according to claim 1 in which each screen is in the form of a disk and the screens of the several units are arranged concentrically with respect to one another.
4. A device according to claim 1 in which each screen is in the form of a disk and the screens of the several units are arranged concentrically with respect to one another and spaced from each other longitudinally of the axis of rotation.
5. A device according to claim 2 havin electrical means connecting the keyboar with said light controlled means.
6. In a device of the character described, a light source, a light sensitive cell, a llght screen interposed between said source and said cell, and a lightvalve between said cell and said source and means for actuating same comprising electric magnetic means, a key for making the current therethrough and means for varying the strength of said magnetic means in accordance with the amount of depression of said key.
7. In a device of the character described, having a light source, a light sensitive cell in combination therewith of a shutter oi flexible material in the path of a light beam from said source, a key, and a connection be; tween said key and said shutter such that when said key is depressed said shutter will be flexed so as to be held in an inoperative position and thus allow the light to pass to its required destination.
8. In a device of the character described having a light source and a light sensitive cell, in combination therewith of a shutter between said cell and said light source acting as a valve for such light, said shutter being tiltably mounted, and means for actuating same.
9. The device according, to claim 8' in Y which the shutter has a reflecting surface which, when actuated, is operative eitherto reflect light onto said cell from said source or to reflect said light out of contact with said cell.
10. In a device of the character described having a light sensitive cell, a controlled source of light for actuating same, means for producing a tremolo effect comprising a shutter element for valving the light to said cell, magnetic means controlling same, and means for continuously varying the position of said shutter element by continuously varying the flux of said magnetic means.
In testimony whereof, I have signed my name to this specification this 27th day of May, 1929. a. I RALPH K. POTTER.
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US366866A US1848222A (en) | 1929-05-29 | 1929-05-29 | Producing musical sounds |
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US366866A US1848222A (en) | 1929-05-29 | 1929-05-29 | Producing musical sounds |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2452743A (en) * | 1942-12-14 | 1948-11-02 | Fuschi Antonio | Symphonic instrument |
US2469850A (en) * | 1944-03-14 | 1949-05-10 | Emeric M Spielman | Electric musical instrument |
US2539130A (en) * | 1948-03-04 | 1951-01-23 | Grudin Maurice | Electrical musical instrument |
US2559276A (en) * | 1947-05-09 | 1951-07-03 | Rollin E Campbell | Photoelectric musical instrument |
US2774272A (en) * | 1951-11-23 | 1956-12-18 | Watson D Harbaugh | Photoelectric musical instrument |
US2818761A (en) * | 1950-03-21 | 1958-01-07 | Wilbespan Res Labs Inc | Electronic tone generator |
US2960899A (en) * | 1956-02-01 | 1960-11-22 | Joseph R Kappel | Electrical musical instrument |
-
1929
- 1929-05-29 US US366866A patent/US1848222A/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2452743A (en) * | 1942-12-14 | 1948-11-02 | Fuschi Antonio | Symphonic instrument |
US2469850A (en) * | 1944-03-14 | 1949-05-10 | Emeric M Spielman | Electric musical instrument |
US2559276A (en) * | 1947-05-09 | 1951-07-03 | Rollin E Campbell | Photoelectric musical instrument |
US2539130A (en) * | 1948-03-04 | 1951-01-23 | Grudin Maurice | Electrical musical instrument |
US2818761A (en) * | 1950-03-21 | 1958-01-07 | Wilbespan Res Labs Inc | Electronic tone generator |
US2774272A (en) * | 1951-11-23 | 1956-12-18 | Watson D Harbaugh | Photoelectric musical instrument |
US2960899A (en) * | 1956-02-01 | 1960-11-22 | Joseph R Kappel | Electrical musical instrument |
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