US1597726A - Edmund edward fournier d albe - Google Patents

Edmund edward fournier d albe Download PDF

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US1597726A
US1597726A US1597726DA US1597726A US 1597726 A US1597726 A US 1597726A US 1597726D A US1597726D A US 1597726DA US 1597726 A US1597726 A US 1597726A
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light
record
screen
sound
fournier
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    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B7/00Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor

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  • This invention relates to an apparatus whereby sound can be permanently recorded and reproduced at will.
  • the reed is attached to the vessel by one end and its other or free end is disposed over an opening in the vessel and has a mirror or equivalent reflecting surface.
  • the pencils of light reflected by the mirrors are through an allotted perforation or through one of a row of transparent portions made in or on an opaque screen. Close behind this screen a photographic film is moved in l a direction arallel to the plane of the screen. and perpendicular to the row of transparent portions. During silencethe light will be reflected by the reeds through the transparent portions of the screen and the film exposed along a number of parallel lines corresponding to the number of resonating vessels with reflectors.
  • resonators Upon sound being received or analyzed each'projected so as to just completely pass by some or all of these resonating vessel:i hereinafter called resonators, the reeds W1 be set into sympathetic vibration and their pencils of light will be thrown on to the opaque screen and to a less extent through the transparent portions according to t e intensity and duration of the sound.
  • a photographic record will be produced in the form of parallel lines, each line representing an individual musical note and varying in intensity according to the vibration and duration of its exposing light.
  • I break up light from a suitable source into individual light pencils, each being constituted by a succession of. flashes having an intermittency per second equal to the frequency of vibration per second of an individual musical note, and I so arran e the record produced as above described 1n relation to these pencils of light that each arallel line of the said record, represent- 1ng an individual musical note, controls, because of its varying trans arency, the proortion in which a pencil 0 light representm an identical musical note, passes to a se enium cell or cells connected in substan-,
  • the light breaking up means may be of the type in which a disc is rotated and consists of concentric circles, each divided into different numbers of opaque and transparent portions so that when a streak of light is projected on to one side of this disc along a radial line the light emitted at the other side will be in the form of a row of pencils of light, each pencil constituted by a succession of flashes from the illuminated transparent ortions of the concentric circles and eacii having a different intermittency corresponding to the frequency of vibration of an individual musical note.
  • Each pencil of intermittent light representin an individual musical note is arrange to strike a parallel line of the record representing an identical note.
  • the record which is arranged parallel to the plane of the light-breaking up disc is moved perpendicularly to the row of intermittent light pencils and at the same speed as that at which it was made, the unexposed or broken parallel lines will allow of their assigned pencils of light each of different intermittency to pass to the selenium cell and thus the cell will be activated at the individual intermittency of each pencil of light, i. e.
  • Fig. 1 is a diagrammativ view of the recording apparatus with five resonators.
  • Fig. 2 is a diagrammatic view of the apparatus for reproducing.
  • Figs. 3 and 4 show two forms of resonators.
  • a source of light is provided at a and its rays are directed on to the reeds of the resonators as indicated by lines 03 and are reflected as lines e from the reeds to a light sensitive film f arranged behind a perforated screen 9.
  • the film 7 rotates on drum 7:. and as the light pencil strikes the film exposure lines are produced on it.
  • VYlien a reed is vibrated by a note its pencil oflight e is broadened out and strikes Elie screen and has little or no eflect on the After the exposed film is prepared it is introduced to the reproducer seen in Fig. 2.
  • the film f is arranged between a screen 5 having a slot and a selenium cell In.
  • a lightbreaking up device comprising an opaque disc Z having perforations m concentrically arranged.
  • a source of light 11. is caused to throw its rays on to a lens 0 from which they are redirected in parallel manner on to the perforated screen and pass through the perforations as the screen is rotated.
  • All the rays passing through the screen are projected by a second lens 7) and thrown forwardly, on to the screen i.
  • the slot 7" permits only the preselected rays, each corresponding to a different musical note, to pass on to the film f and through the transparencies in it to the cell which is correspondingly activated.
  • resonator b is shown of rectangular shape and has a reed 12, whilst in Fig. 4 the resonator is spherical and placed in a carrier 1- in which it can be set at any desired angle.
  • the screen 9 may be dispensed with, in which case the line on the negative is widened when the light pencil e vibrates.
  • What I claim is 1.
  • a record sheet sensitive to light rays ascreen arranged in front of the record sheet, said screen having a series of transparent portions, a light source, a series of resonators respectively responsive to separate musical notes, a light reflecting reed carried by each resonator and tuned to the resonator note and adapted to reflect light rays from the light source to the respective transparent portions of the screen, and thus effect the record, the respective notes of the sound to be recorded affecting the particular light rays through the responsiveness of the particular resonator to vary the effect of the light ray on the record through the screen.
  • An apparatus for photographically recording the constituent frequencies of sound consisting in a photographic record sensitive to light rays, means for reflectin light rays from the source of light towar the record, a screen interposed between the reflecting means and the record and formed to direct the light rays on to therecord in a series'of parallel lines and resonators each responsive to a musical note and operating to vary the effect of a particular light ray on the record through the screen to vary the intensity of the light effect in the respective parallel lines ofthe record, and means for 8 v reproducing sound from such record with the reproduction controlled by the intensity of light permitted to pass through the exposed lines of the record.

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Description

Aug. 31 1926. 1,597,726
I E. E. F. D'ALBE APPARATUS FOR RECORDING AND REPRODUCING SQUND Filed F'eb. 10, 1926 1720a zz 707* Patented Aug. 31,1926
UNITED STATES 1,597,726 PATENT OFFICE.
EDMUND EDWARD FOURNIER DALBE, OF FINCHLEY, LQNDON, ENGLAND, ASSIGNOR OF ONE-HALF TO ADAMHILGER LIMITED, 01 LONDON, ENGLAND, A. BRITISH COM- PANY.
APPARATUS FOR RECORDING AND BEPRODUCING SOUND.
Application filed February 10, 1926, Serial No. 87,373, and in Great Britain Cctober 23, 1924.
This invention relates to an apparatus whereby sound can be permanently recorded and reproduced at will.
When recording soundaccording to my 6 invention individual sound waves of a medley of sound waves are made to cause a corresponding number of pencils of light to vibrate for a duration of time equal to the duration of the sound wave. The distinctive feature of the invention is that I select these light vibrations from the medley by employing hollow resonating vessels each of which responds to one musical note and is provided with a reed tuned to the same or fundamental note of the hollow vessel to which it is attached.
Light-reflecting reeds or diaphrag-ms are known in connection with sound recording apparatus, but as far as I am aware theabove arrangement forms a novel combination for use with such apparatus.
I have found that by employing these hollow resonating vessels, each reed is confined to its own natural period of vibration. This combination greatly increases the response of the reed to the incident frequency, and at the same time prevents response to frequencies differing from the fundamental frequency of the combination, since the reed and the hollow vessel do not have the same natural overtones. A hi h selectivity is thus secured which lies within the range-of'one halfof a semitone or less in the higher octaves.
The reed is attached to the vessel by one end and its other or free end is disposed over an opening in the vessel and has a mirror or equivalent reflecting surface. The pencils of light reflected by the mirrors are through an allotted perforation or through one of a row of transparent portions made in or on an opaque screen. Close behind this screen a photographic film is moved in l a direction arallel to the plane of the screen. and perpendicular to the row of transparent portions. During silencethe light will be reflected by the reeds through the transparent portions of the screen and the film exposed along a number of parallel lines corresponding to the number of resonating vessels with reflectors.
Upon sound being received or analyzed each'projected so as to just completely pass by some or all of these resonating vessel:i hereinafter called resonators, the reeds W1 be set into sympathetic vibration and their pencils of light will be thrown on to the opaque screen and to a less extent through the transparent portions according to t e intensity and duration of the sound. By this means a photographic record will be produced in the form of parallel lines, each line representing an individual musical note and varying in intensity according to the vibration and duration of its exposing light.
To reproduce sound according ,to the invention I break up light from a suitable source into individual light pencils, each being constituted by a succession of. flashes having an intermittency per second equal to the frequency of vibration per second of an individual musical note, and I so arran e the record produced as above described 1n relation to these pencils of light that each arallel line of the said record, represent- 1ng an individual musical note, controls, because of its varying trans arency, the proortion in which a pencil 0 light representm an identical musical note, passes to a se enium cell or cells connected in substan-,
tially known manner with a telephone or the like. K
The light breaking up means may be of the type in which a disc is rotated and consists of concentric circles, each divided into different numbers of opaque and transparent portions so that when a streak of light is projected on to one side of this disc along a radial line the light emitted at the other side will be in the form of a row of pencils of light, each pencil constituted by a succession of flashes from the illuminated transparent ortions of the concentric circles and eacii having a different intermittency corresponding to the frequency of vibration of an individual musical note.
The sound reproduction in accordance with the invention may be carried'into practice as follows:
Each pencil of intermittent light representin an individual musical note is arrange to strike a parallel line of the record representing an identical note. When the record which is arranged parallel to the plane of the light-breaking up disc is moved perpendicularly to the row of intermittent light pencils and at the same speed as that at which it was made, the unexposed or broken parallel lines will allow of their assigned pencils of light each of different intermittency to pass to the selenium cell and thus the cell will be activated at the individual intermittency of each pencil of light, i. e. if the notes C, G were simultaneously recorded the two parallel lines representing C, G res ectively would be partly unexposed and therefore partly transparent and allow two pencils of light also respectivelyre resenting C, G to activate the selenium ce 1 at the intermittency of these light pencils. Thus the telephone or the like with which the cell is in electrical connection would simultaneously sound the notes'C, G
according to the duration of the unexposed lines.
If desired, the record'could be interposed between the light source and light breaking up means, in which case each parallel line representing an individual musical note ernce to the accompanying drawing inwhich:
Fig. 1 is a diagrammativ view of the recording apparatus with five resonators.
Fig. 2 is a diagrammatic view of the apparatus for reproducing.
Figs. 3 and 4 show two forms of resonators.
In Fig. 1 it will be assumed that sound emanates from the trumpet a and is directed on to the five resonators Z) havin sil vered reeds tuned to say, notes A B C 1% and E respectively.
A source of light is provided at a and its rays are directed on to the reeds of the resonators as indicated by lines 03 and are reflected as lines e from the reeds to a light sensitive film f arranged behind a perforated screen 9.
The film 7 rotates on drum 7:. and as the light pencil strikes the film exposure lines are produced on it.
VYlien a reed is vibrated by a note its pencil oflight e is broadened out and strikes Elie screen and has little or no eflect on the After the exposed film is prepared it is introduced to the reproducer seen in Fig. 2. In this drawing the film f is arranged between a screen 5 having a slot and a selenium cell In. In front of the screen is a lightbreaking up device comprising an opaque disc Z having perforations m concentrically arranged. A source of light 11. is caused to throw its rays on to a lens 0 from which they are redirected in parallel manner on to the perforated screen and pass through the perforations as the screen is rotated. All the rays passing through the screen are projected by a second lens 7) and thrown forwardly, on to the screen i. The slot 7" permits only the preselected rays, each corresponding to a different musical note, to pass on to the film f and through the transparencies in it to the cell which is correspondingly activated.
In Fig. 3 the resonator b is shown of rectangular shape and has a reed 12, whilst in Fig. 4 the resonator is spherical and placed in a carrier 1- in which it can be set at any desired angle.
The screen 9 may be dispensed with, in which case the line on the negative is widened when the light pencil e vibrates.
What I claim is 1. In an apparatus for photographically recording the constituent frequencies of sound, a record sheet sensitive to light rays, ascreen arranged in front of the record sheet, said screen having a series of transparent portions, a light source, a series of resonators respectively responsive to separate musical notes, a light reflecting reed carried by each resonator and tuned to the resonator note and adapted to reflect light rays from the light source to the respective transparent portions of the screen, and thus effect the record, the respective notes of the sound to be recorded affecting the particular light rays through the responsiveness of the particular resonator to vary the effect of the light ray on the record through the screen.
2. 'An apparatus for photographically recording the constituent frequencies of sound consisting in a photographic record sensitive to light rays, means for reflecting light rays from the source of light toward the record, a screen interposed between the reflecting means and the record and formed to direct the light rays on to the record in a series of parallel lines and resonators each responsive to a musical note and operating to vary the effect of the particular light ray on the record through the screen to vary the intensity of the light effect in the respective parallel lines of the record.
3. An apparatus for photographically recording the constituent frequencies of sound consisting in a photographic record sensitive to light rays, means for reflectin light rays from the source of light towar the record, a screen interposed between the reflecting means and the record and formed to direct the light rays on to therecord in a series'of parallel lines and resonators each responsive to a musical note and operating to vary the effect of a particular light ray on the record through the screen to vary the intensity of the light effect in the respective parallel lines ofthe record, and means for 8 v reproducing sound from such record with the reproduction controlled by the intensity of light permitted to pass through the exposed lines of the record.
In testimony whereof I have affixed my slgiiature.
EDMUND EDWARD FOURNIER dALBE.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3024079A (en) * 1959-01-21 1962-03-06 Western Geophysical Co Method and apparatus for oscillograph recording

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3024079A (en) * 1959-01-21 1962-03-06 Western Geophysical Co Method and apparatus for oscillograph recording

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