US1925659A - Acoustic device - Google Patents

Acoustic device Download PDF

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US1925659A
US1925659A US266147A US26614728A US1925659A US 1925659 A US1925659 A US 1925659A US 266147 A US266147 A US 266147A US 26614728 A US26614728 A US 26614728A US 1925659 A US1925659 A US 1925659A
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Prior art keywords
coil
diaphragm
gap
secured
acoustic device
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US266147A
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Leonard W Giles
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AT&T Corp
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Bell Telephone Laboratories Inc
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Priority to US266147A priority Critical patent/US1925659A/en
Priority to GB2347/29A priority patent/GB308776A/en
Priority to DEE38660D priority patent/DE525850C/en
Priority to FR669581D priority patent/FR669581A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R9/00Transducers of moving-coil, moving-strip, or moving-wire type
    • H04R9/02Details
    • H04R9/04Construction, mounting, or centering of coil
    • H04R9/041Centering
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R9/00Transducers of moving-coil, moving-strip, or moving-wire type
    • H04R9/02Details
    • H04R9/04Construction, mounting, or centering of coil
    • H04R9/041Centering
    • H04R9/042Centering by pressurised air

Definitions

  • This invention relates to acoustic devices and more particularly to such devices employing an electro-dynamically actuated vibrating element.
  • acoustic dev-ices of the type in which a 5 cylindrical coil positioned in an annular magnetic field is employed to drive a piston type diaphragm it is desirable to have as small a clearance as possible between the poles ofY 'the magnet forming part of the magnetic circuit and the coil in order to utilize efliciently the flux in the field.
  • the coil executes large amplitudes in response to voice currents through the coil, it is essential that the coil move linearly With respect to the axis of the coil, in order that it may not rub against the pole pieces. Difficulty hasbeen experienced hitherto in centering the coil in a magnetic gap of this type, in such .a manner as not to impair the free vibration of the coil and the diaphragm attached thereto.
  • An object of this invention therefore is to increase the operating efficiency of electro-dynamic acoustic devices and to transmit sound With high and substantially uniform efficiency over a wide frequency range.
  • Another object ofthe invention is to enable the coil'in devices of this type to move with substantially no restraint in a linear direction with respect to the aXis of the coil and the air gap in which the coil oscillates.
  • Another object of the invention is to simplify and improve the .method of carrying the lead-in Wires from Vthe coil to the circuit ⁇ terminals therefor.
  • the coil is centered in the annular magnetic gap by means of substantially elliptically shaped springhlike members which offer substantially no restraint to axial movements of the coil but offer great resistance to transverse movements of the coil.
  • the diaphragm is made up of a conical portion with a reinforcing member joined to the inner side of the conical portion intermediatel its base and its top.
  • Fig.- l is a side elevational View, partly in crosssection, of a loudspeaker illustrative of one embodiment of this invention
  • Fig. 2 is a perspective view of the driving. coil and the supports therefor;
  • Fig. 3 is an enlarged detail View in cross-section showing the electrical connection between the driving coil and a terminal of the loudspeaker; and Y Fig. 4 is a fragmentary View showing the tangential disposition of the centering springs with respect to the driving coil andthe association of one of the springs with a terminal.
  • a diaphragm l comprising a frusto conical section 2 and a conical section 3, thev conical section being invertedly disposedwithin and secured at its base to the frusto-conical secu tion, intermediateV thebase and the smaller end of the frusto-conicalsection.
  • the diaphragm may be made ofpaper orrother light material.
  • Onev function of the conical section is to stiifen or reenforce the diaphragm so that it will be capable of vibrating as a whole through the audible frequency range.
  • the conical section of the diaphragm also serves to prevent interference or to act as a baffle between the air pressures at the top and bottom of the inside surface of the frusto-conical section, Whatever the function of the conical 'section may be, it has been discovered that the addition of it to the diaphragm vimproves the eiiciency of the device by causing a substantially even response throughout the audible frequency range. It will be understood that instead of using a that it Ymay be of insulatingmaterial, for
  • this member may assume other shapes and may even be flat.
  • the outer edge or base of the diaphragm 2 is secured between supporting ringv 5 and clamping ring 6 by means ol a ring Il oi flexible material suoli as ⁇ silk, rubber, thin leather or the like, which may be glued or joined to the diaphragm in any suitable manner.
  • the actuating means i'or the diaphragm ine cludes a coil 8 surrounding a light thin cylinn drical member 16 having integral therewith or secured thereto a plurality oi lugs 15.
  • the member 16 is a metallic member. t will be understood, however, exv ample, bakelite or other similar material.
  • the member 16 may be secured tothe top or" the rusto-conical section 2 of the diaphragm in any suitable manner, for example, by a cement, such as Du Ponts cement.
  • the coil is disposed in the annular air gap formed by concentric pole pieces l1 and 13.
  • the pole piece 13 is integral with the Vcore 10, which is surrounded ,by a coil 12 through which direct current may besupplied for producing a strong magnetic leld in the annular area. If desired a permanent magnet may be usedV to supply the ilux in the air gap.- rFer-- minals such as S12-'may be used iorconnecting the direct current from a suitable source to the ends of the coil 12.
  • the pole piece 11 is detachable from the core 10 to permit assembling the winding l2 on the core 10 and is secured to core 10 byscrews such as 58.
  • a ring 36 is secured to the pole piece l1 by means of screws-'34,v and has a plurality of arms preferably integral therewith;
  • the supporting ring 5 is preferably integral with the arms 30. t will be understood, however, that the rings 36 and 5 and the arms 30 may be separate pieces suitably secured together.
  • 1n response to variable currents supplied tothe coil 8, the coil and diaphragm will be caused to vibrate substantially as a whole.
  • the coil and diaphragm will be caused to vibrate substantially as a whole.
  • the coil and diaphragm will be caused to vibrate substantially as a whole.
  • the coil and its support fill substantiallyall oi the space in the gap. Due to the diaphragm being flexibly supported1 at its edge, there is a tendency for lateral movement oi the coil.
  • a plurality of substantially elliptically shaped light springs such as le, shown in Figs. 2 and 3, are
  • One end ci spring 14 is iastened to the lug 15 and the other end to the annular pole piece 11.
  • the springs le are preferably made of a single piece oi'thin bronze or the like with curved portions atv their ends, and with their extremities iolded over as shown [at 56.
  • One end or" the spring 14 is insulatabl'y mounted on the lug 15 by means of the screw 21, insulating bushing 22, insulating washer 23, metallic washer 1li and nut 24.
  • the bottom of spring Y14 is mounted on terminal 54 by screw 42.
  • the terminal 54 is insulatably mounted on pole piece 11 by screw 39, insulating bushing i3 and insulating member 41.
  • the two ends of the coil 8 are soldered to slots in screws 21 oi r two of the springs. It desired the ends of coilv can of course be placed under the head o'screw 21.
  • the springs thus form alinkY in the electrical circuit of the movable coil'. rThis method of bringing out the ends or" the coils avoids bends and consequently breakage due to crystallization in the fragile electrical conductor of the coil. From the terminal 54 wires 50 are run to contacts 51 mounted on angle iron 52 which is in turn mounted on ring 36.
  • An acoustic device comprising a diaphragm, a coil secured thereto, an annular magnetic air gap, and means for centering said coil in said gap comprising a plurality of elliptical shaped spring members arranged to limit the movement of the coil to a rectilinear motion in the axial direction oi theair gap.
  • An acoustic device comprising a diaphragm, a coil secured thereto, an annular magnetic air gap, and means for lcentering said coil in said gap comprising a plurality oi elliptical vshaped flexible members having their Vfulcra so disposed as to conne the movement of the coil to a truly rectilinear motion in the axial direction of the air gap, said members being equally ⁇ spaced around the coil.
  • An acoustic rdevice comprising a diaphragm, an annular magnetic ⁇ air gap, a coil.y secured thereto and positioned in said gap,- and means ior centering said coil in said gap comprising a plurality of spring-like members tangentially positioned with respect to said coil.
  • An acoustic device comprising aV a coil secured thereto, an annular magnetic air gap in which said coil is positioned, and means for centering said coil in said gap comprising a plurality of spring-like members equally spaced around said coil and tangentially positioned "5'" with respect to said coil.
  • An acousticdevice comprising a diaphragm, a coil secured thereto, an annular magnetic vair gap in which said'coil is positioned, and means for centering said coil comprising a plurali-ty of substantially elliptically shaped spring-like members.
  • An acoustic device comprising-r a relatively lighty and stili diaphragm, a pair of rings, a flexible coupling between said diaphragm and said rings to permit relatively large amplitudes l of the diaphragm, an annular magnetic air gap,
  • An acoustic device including a diaphragm,
  • electro-dynamic means includingl a coil forfvibrating it; said diaphragm comprising two conical shaped members of diierent altitudes, the base of one of said members being secured to the plurality of spring-like inner side of the other of said members and,v
  • An acoustic device including la diaphragm, j
  • a diaphragm a coil secured thereto, concentric circular shapedip'ole if pieces spaced apart and forming an annular iis magnetic gap, and a plurality of substantially elliptically shaped springs for centering said coil in said gap, a portion of said springs being insulatably mounted on said pole pieces and serving as part of the electrical circuit of said coil.
  • an air gap a diaphragm, a coil connected to said diaphragm and positioned in said gap for driving said diaphragm, and means comprising .a spring for centering said coil in said gap comprising a single strip of light flexible metal bent to form an ellipse.
  • An acoustic device comprising a frustoconical diaphragm, pole pieces forming a magnetic gap, a coil positioned in said gap for driving said diaphragm, a member secured to one end of said diaphragm for supporting said coil, said member having lugs extending therefrom, and bowed springs arranged around the periphery of said member having their center portions iixed to said lugs for centering said coil in said gapf 12.
  • An acoustic device comprising a diaphragm, a driving coil secured thereto, pole pieces spaced to form a magnetic gap, and means including a plurality of spring members disposed in pairs around said coil and secured together at corresponding ends for supporting said coil in said gap.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Audible-Bandwidth Dynamoelectric Transducers Other Than Pickups (AREA)
  • Reciprocating, Oscillating Or Vibrating Motors (AREA)
  • Electrostatic, Electromagnetic, Magneto- Strictive, And Variable-Resistance Transducers (AREA)

Description

Sept. 5, 1933. W, G1155 1,925,659
ACOUSTIC DEVICE Filed March 3l, 1928 2 Sheets-Sheet l L. W. GILES ACOUSTIC DEVICE Filed March 3l, 1928 2 Sheets-Sheet 2 ATTORNEY Patented Sept. 5, 1933 ACOUSTIC DEVICE Leonard W. Giles, Brooklyn, N. Y., assignor to Bell Telephone Laboratories, Incorporated, New York, N. Y., a corporation of New York Application March 31, 1928. Serial No. 266,147
12 Claims. (CLUB-115.5) y
. This invention relates to acoustic devices and more particularly to such devices employing an electro-dynamically actuated vibrating element.
In acoustic dev-ices of the type in which a 5 cylindrical coil positioned in an annular magnetic field is employed to drive a piston type diaphragm, it is desirable to have as small a clearance as possible between the poles ofY 'the magnet forming part of the magnetic circuit and the coil in order to utilize efliciently the flux in the field. When the coil executes large amplitudes in response to voice currents through the coil, it is essential that the coil move linearly With respect to the axis of the coil, in order that it may not rub against the pole pieces. Difficulty hasbeen experienced hitherto in centering the coil in a magnetic gap of this type, in such .a manner as not to impair the free vibration of the coil and the diaphragm attached thereto.
Diaphragms of the piston type, for example,
those comprising a stiff central conicalportion of light material and a fiexible portion for connecting the conical portion to a supporting member, are intended to vibrateas a piston, or as a Whole, throughout the audible frequency range. In making frequency` response tests of such diaphragm, it has been found, however, that dips in the frequency response curves occur fairly well upY in the scale, say at 1800 cycles where a conical diaphragmA of light paper and of approximately 8 in diameter at its base is used. The portion of the curves at whichA the dips occurwill of course vary according to the material used and according to the size of the diaphragm. The dips indicate that, at or around the frequency they occur, the diaphragm ceases to operate as a plunger but operates around that frequency and possibly at higher frequencies as a wave transmission device.
An object of this invention therefore is to increase the operating efficiency of electro-dynamic acoustic devices and to transmit sound With high and substantially uniform efficiency over a wide frequency range. f
45 Another object ofthe invention is to enable the coil'in devices of this type to move with substantially no restraint in a linear direction with respect to the aXis of the coil and the air gap in which the coil oscillates.
50' Another object of the invention is to simplify and improve the .method of carrying the lead-in Wires from Vthe coil to the circuit` terminals therefor.
r In accordance with. one feature of the inven- "5 tion, the coil is centered in the annular magnetic gap by means of substantially elliptically shaped springhlike members which offer substantially no restraint to axial movements of the coil but offer great resistance to transverse movements of the coil.
In kaccordance with another feature of the .invention the diaphragm is made up of a conical portion with a reinforcing member joined to the inner side of the conical portion intermediatel its base and its top.
A further feature of the invention resides inA utilizing the springs which center the coil as a link in the electrical circuit connecting the movable coil to a Xed terminal, thereby incorporating all flexural leads in the springs themselves. p K l y The invention and the features thereof will be understood more clearly and fully from the following detailed description with reference to the accompanying drawings, in which:
Fig.- l is a side elevational View, partly in crosssection, of a loudspeaker illustrative of one embodiment of this invention;
Fig. 2 is a perspective view of the driving. coil and the supports therefor;
Fig. 3 is an enlarged detail View in cross-section showing the electrical connection between the driving coil and a terminal of the loudspeaker; and Y Fig. 4 is a fragmentary View showing the tangential disposition of the centering springs with respect to the driving coil andthe association of one of the springs with a terminal.
Referring now to Fig. 1 of the drawings'there Y is shown a diaphragm l comprising a frusto conical section 2 and a conical section 3, thev conical section being invertedly disposedwithin and secured at its base to the frusto-conical secu tion, intermediateV thebase and the smaller end of the frusto-conicalsection. The diaphragm may be made ofpaper orrother light material. Onev function of the conical section is to stiifen or reenforce the diaphragm so that it will be capable of vibrating as a whole through the audible frequency range. It is believed that `the conical section of the diaphragm also serves to prevent interference or to act as a baffle between the air pressures at the top and bottom of the inside surface of the frusto-conical section, Whatever the function of the conical 'section may be, it has been discovered that the addition of it to the diaphragm vimproves the eiiciency of the device by causing a substantially even response throughout the audible frequency range. It will be understood that instead of using a that it Ymay be of insulatingmaterial, for
conical section for stiffening the diaphragm, this member may assume other shapes and may even be flat.
The outer edge or base of the diaphragm 2 is secured between supporting ringv 5 and clamping ring 6 by means ol a ring Il oi flexible material suoli as` silk, rubber, thin leather or the like, which may be glued or joined to the diaphragm in any suitable manner.
The actuating means i'or the diaphragm ine cludes a coil 8 surrounding a light thin cylinn drical member 16 having integral therewith or secured thereto a plurality oi lugs 15. ln Vthe particular embodiment oi the invention illustrated in the drawings, the member 16 is a metallic member. t will be understood, however, exv ample, bakelite or other similar material. The member 16 may be secured tothe top or" the rusto-conical section 2 of the diaphragm in any suitable manner, for example, by a cement, such as Du Ponts cement. The coil is disposed in the annular air gap formed by concentric pole pieces l1 and 13. The pole piece 13 is integral with the Vcore 10, which is surrounded ,by a coil 12 through which direct current may besupplied for producing a strong magnetic leld in the annular area. If desired a permanent magnet may be usedV to supply the ilux in the air gap.- rFer-- minals such as S12-'may be used iorconnecting the direct current from a suitable source to the ends of the coil 12. The pole piece 11 is detachable from the core 10 to permit assembling the winding l2 on the core 10 and is secured to core 10 byscrews such as 58. A ring 36 is secured to the pole piece l1 by means of screws-'34,v and has a plurality of arms preferably integral therewith; The supporting ring 5 is preferably integral with the arms 30. t will be understood, however, that the rings 36 and 5 and the arms 30 may be separate pieces suitably secured together. 1n response to variable currents supplied tothe coil 8, the coil and diaphragm will be caused to vibrate substantially as a whole. ln order toeiiiciently use the ilux in the air gap it is desirable that'the coil and its support fill substantiallyall oi the space in the gap. Due to the diaphragm being flexibly supported1 at its edge, there is a tendency for lateral movement oi the coil. To center the coil and to insure a linear movement of the coil with respect to i-tsaxis and the axis oi the air gap, a plurality of substantially elliptically shaped light springs such as le, shown in Figs. 2 and 3, are
. spacededually and tangentially around the coil. One end ci spring 14 is iastened to the lug 15 and the other end to the annular pole piece 11. The springs le are preferably made of a single piece oi'thin bronze or the like with curved portions atv their ends, and with their extremities iolded over as shown [at 56. One end or" the spring 14 is insulatabl'y mounted on the lug 15 by means of the screw 21, insulating bushing 22, insulating washer 23, metallic washer 1li and nut 24. The bottom of spring Y14 is mounted on terminal 54 by screw 42. The terminal 54 is insulatably mounted on pole piece 11 by screw 39, insulating bushing i3 and insulating member 41. The two ends of the coil 8 are soldered to slots in screws 21 oi r two of the springs. It desired the ends of coilv can of course be placed under the head o'screw 21. The springs thus form alinkY in the electrical circuit of the movable coil'. rThis method of bringing out the ends or" the coils avoids bends and consequently breakage due to crystallization in the fragile electrical conductor of the coil. From the terminal 54 wires 50 are run to contacts 51 mounted on angle iron 52 which is in turn mounted on ring 36.
What is claimed is: Y
1. An acoustic device comprising a diaphragm, a coil secured thereto, an annular magnetic air gap, and means for centering said coil in said gap comprising a plurality of elliptical shaped spring members arranged to limit the movement of the coil to a rectilinear motion in the axial direction oi theair gap.
2. An acoustic device comprising a diaphragm, a coil secured thereto, an annular magnetic air gap, and means for lcentering said coil in said gap comprising a plurality oi elliptical vshaped flexible members having their Vfulcra so disposed as to conne the movement of the coil to a truly rectilinear motion in the axial direction of the air gap, said members being equally `spaced around the coil. f
3. An acoustic rdevice comprising a diaphragm, an annular magnetic `air gap, a coil.y secured thereto and positioned in said gap,- and means ior centering said coil in said gap comprising a plurality of spring-like members tangentially positioned with respect to said coil. Y
ll. An acoustic device comprising aV a coil secured thereto, an annular magnetic air gap in which said coil is positioned, and means for centering said coil in said gap comprising a plurality of spring-like members equally spaced around said coil and tangentially positioned "5'" with respect to said coil. I
5. An acousticdevice comprising a diaphragm, a coil secured thereto, an annular magnetic vair gap in which said'coil is positioned, and means for centering said coil comprising a plurali-ty of substantially elliptically shaped spring-like members.
6. An acoustic devicecomprising-r a relatively lighty and stili diaphragm, a pair of rings, a flexible coupling between said diaphragm and said rings to permit relatively large amplitudes l of the diaphragm, an annular magnetic air gap,
a cylindrical coil secured to` said diaphragm and diaphragm,
ffl
iis
positioned in said gap, and means for centering said coil'fin said gap comprising a substantially elliptically shaped members, said members being equally spaced andv tangentially arranged around said air gap;
A7. An acoustic device including a diaphragm,
electro-dynamic means includingl a coil forfvibrating it; said diaphragm comprising two conical shaped members of diierent altitudes, the base of one of said members being secured to the plurality of spring-like inner side of the other of said members and,v
bowed springs secured together in pairs and disf posed around one' end of said-diaphragm to pre vent movement of the coiltransversely to its axis and to permit tree movement in an axial direction of the coil.
8*. An acoustic device including la diaphragm, j
electro-dynamic means including va coil in an annular magnetic air gap=for driving it, saidV diaphragm comprising a irusto-conical member, a conical member having its base secured to said truste-conical member intermediate itstop and bottom, and means ,at the smaller end of said irusto-conicalmember for centering said coil in said air gap.
9. In an acoustic device, a diaphragm, a coil secured thereto, concentric circular shapedip'ole if pieces spaced apart and forming an annular iis magnetic gap, and a plurality of substantially elliptically shaped springs for centering said coil in said gap, a portion of said springs being insulatably mounted on said pole pieces and serving as part of the electrical circuit of said coil.
10. In an acoustic device, an air gap, a diaphragm, a coil connected to said diaphragm and positioned in said gap for driving said diaphragm, and means comprising .a spring for centering said coil in said gap comprising a single strip of light flexible metal bent to form an ellipse.
11. An acoustic device comprising a frustoconical diaphragm, pole pieces forming a magnetic gap, a coil positioned in said gap for driving said diaphragm, a member secured to one end of said diaphragm for supporting said coil, said member having lugs extending therefrom, and bowed springs arranged around the periphery of said member having their center portions iixed to said lugs for centering said coil in said gapf 12. An acoustic device comprising a diaphragm, a driving coil secured thereto, pole pieces spaced to form a magnetic gap, and means including a plurality of spring members disposed in pairs around said coil and secured together at corresponding ends for supporting said coil in said gap. Y
LEONARD W. GILES.
US266147A 1928-03-31 1928-03-31 Acoustic device Expired - Lifetime US1925659A (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
US266147A US1925659A (en) 1928-03-31 1928-03-31 Acoustic device
GB2347/29A GB308776A (en) 1928-03-31 1929-01-23 Improvements in or relating to acoustic devices
DEE38660D DE525850C (en) 1928-03-31 1929-01-25 Resilient voice coil mounting for electrodynamic sound devices
FR669581D FR669581A (en) 1928-03-31 1929-02-13 Improvements to acoustic devices

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US266147A US1925659A (en) 1928-03-31 1928-03-31 Acoustic device

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US1925659A true US1925659A (en) 1933-09-05

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US (1) US1925659A (en)
DE (1) DE525850C (en)
FR (1) FR669581A (en)
GB (1) GB308776A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2512323A (en) * 1946-09-09 1950-06-20 Radio Frequency Lab Inc Reentrant diaphragm with central closure member
US2548235A (en) * 1947-03-13 1951-04-10 Rca Corp Transformerless audio output system
US2835832A (en) * 1954-05-03 1958-05-20 Calidyne Company Inc Vibration generating apparatus
US3076520A (en) * 1959-05-21 1963-02-05 Claude C Farwell Loud speaker

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE836808C (en) * 1950-05-07 1952-04-17 Friedrich Skwarczynski Loudspeaker membrane for distortion-free reproduction of a wide frequency band with uniform radiation and scattering in the room as well as suppression of the middle frequency range
DE971442C (en) * 1954-08-29 1959-01-29 Standard Elek K Lorenz Ag Dynamic speaker
DE1132833B (en) * 1959-02-16 1962-07-05 Zoellner & Co Bell for acoustic signal devices
US8540049B2 (en) 2010-12-23 2013-09-24 Bose Corporation Acoustic diaphragm suspending

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2512323A (en) * 1946-09-09 1950-06-20 Radio Frequency Lab Inc Reentrant diaphragm with central closure member
US2548235A (en) * 1947-03-13 1951-04-10 Rca Corp Transformerless audio output system
US2835832A (en) * 1954-05-03 1958-05-20 Calidyne Company Inc Vibration generating apparatus
US3076520A (en) * 1959-05-21 1963-02-05 Claude C Farwell Loud speaker

Also Published As

Publication number Publication date
FR669581A (en) 1929-11-18
DE525850C (en) 1931-05-29
GB308776A (en) 1930-04-23

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