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Publication numberUS2340777 A
Publication typeGrant
Publication dateFeb 1, 1944
Filing dateAug 21, 1940
Priority dateAug 21, 1940
Publication numberUS 2340777 A, US 2340777A, US-A-2340777, US2340777 A, US2340777A
InventorsStanley Harvey H
Original AssigneeKellogg Switchboard & Supply
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Throat microphone
US 2340777 A
Abstract  available in
Images(1)
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Claims  available in
Description  (OCR text may contain errors)

Feb. 1, 1944. H. H. STANLEY 2,340,777

THROAT MICROPHONE Filed Aug. 21, 1940 Patented Feb. 1, 1944 UNITED STATES PATENT OFFICE THROAT MICROPHONE Harvey H. Stanley, Chicago, 111., assignor to Kellogg Switchboard and Supply Company, Chicago, 111., a corporation of Illinois Application sum 21, 1 40. semi-so. 353,491

Claims. (01.179-126). V

- ing is shown with inter-engaging. annular grooves This invention relates to telephone instruments in which an electric current is modified by passing through a pair of relatively movable electrodes connected by granular microphonic material, such as carbon, the resistance or which is variable under the influence of relative movement of the electrodes which is effected by sound vibrations.

that the housing moves relatively with respect to the movable electrode.

A further object is to provide a microphone having a housing which precludes direct mechanical or direct air wave actuation.

A further object is to provide a throat microphone of high sensitivity and simple construction.

Further objects and advantages of the invention will appear from the following description taken in connection with the accompanying drawins.

In the accompanying drawing, wherein like reference characters indicate corresponding parts in the various figures, and in which all the figures are on an enlarged scale, Fig. 1 is a diametral cross-section showing a device incorporating features of this inventive concept.

Fig. 2 is a transverse section taken substantially on the line 2-2 of Fig. l.

' Fig. 3 is an elevational view partly broken away showing a partial section along the line 3-3 of Fig.2.

Fig. 4 is an enlarged detail view showing a variation in the construction.

Fig. 5 shows device applied to a human throat; Fig. 6 shows a further variation in certain details.

Considering the drawing ingreater detail, in Fig. 5 the device is shown in use. In Fig. l a throat microphone or transmitter is shown comprising, preferably, a sealed casing forming a base part l0 and a throat engaging part or cover I I. The base part I0 contains a hollowed central portion I2 for receiving the electrodes. The cas and flanges i3 and II which, by the aid of a sealing medium, can eil'ect a substantially air-tight ioint.

Fixed electrode II has a substantially flat,annular portion I l and is arranged to rest on a shoulder I! of the supporting base. The central portion 01' this electrode comprises a semi-spherical microphone chamber and may have its inner suriace coated with gold or other good conducting material. The semi-spherical chamber is filled with a microphonic material 19 comprising granular carbonpositioned between the two electrode members of the microphone. A felt rin or washer 20 rests upon the annular portion of the fixed electrode and has a central aperture for receiving the semi-spherical portion 2i of the movable electrode or diaphragm 22. This latter is' provided with a flat disc-like part 23.

which is resiliently supported upon shoulder 24 by spring washer 25, the latter havingportions 26 bent to rest upon the shoulder 24 and the portions 21 supporting the electrode.

The upper surface of the movable electrode 22 may be resiliently supported from the casing by spring washer members 25' as in Fig. 6 or it may be preferably positioned by means of spaced p'rotuberances 28 as seen in Figs. 1 and 3. The relatively movable electrode 22 in Fig. 1 is weighted by an appropriate weighted mass'28, which may, for example, consist of a body of lead supported by beeswax, so asto provide a relatively greater inertia to the movable electrode. The effect of this mass and the resulting increased inertia is to cause the casing to move due to sound vibrations, and more especially voice vibrations from the human throat wearing the microphone, and causes relatively movable electrode 22 to remain stationary in space. The result of the relatively fixed position 01' the electrode 22 and the movement of the casing and its relative movement to the fixed electrode It, causes a relative movement between the electrodes, and a variation in the electrical resistance of the circuit passing through the granular carbon, whereby current through the device is regulated in accordance with the sound or voice vibrations transmitted.

Terminal 30 is connected by conductor 3| to the movable electrode 22, and the second terminal 32 is connected to electrode I! by means of a conductor 33. The bushing 34 may serve to provide a threaded socket for the terminal member 30 and the conductors Stand 33 may be connected to conducting washers 35 to complete the conducting path.

irequencies throughout the voice range.

In the preferred embodiment, the fixed electrode l has its semi-spherical portion seated in a socket in the casing.

In operation, the entire casing will be vibrated by contact with the outer walls of a person's throat and the consequent transmission of voice or other sound-through the walls 01' the throat. The inertia of the mass 2! sets up a tendency for the movable electrode to resist motion. This results in relative movement between the electrode members 22 and I5 and a consequent change in the circuit resistance, as is well brown in the art. In Fig. 4, a slight variation in the microphone construction is illustrated wherein the mass 28' extends above. and to a limited degree upon th fiat, annular portion oi the movable electrode 22', as shown at 38. The upper element of the casing is provided with a recess 31 to receive this enlarged mass.

The transmitter depends upon the vibration of the object with which it is in contact for its actuating force. The weighted diaphragm avoids recording of fluctuations at low frequencies, but the weight aids in recording minute vibrations at The spring washer tends to hold the diaphragm or load of the transmitter housing while at the same time acting in unison'with the diaphragm to add to its resilience.

Other uses of the device will be apparent however.

Although a preferred embodimentof this in vention is illustrated and described, variations within the true spirit and scope or the invention are to be determined by the appended claims.

H Having thus described my invention, what I claim'as new and desire to secure by United States Letters Patent is:

1. In a microphone transmitter, a supporting casing member, a fixed electrode, a shoulder on said casing member receiving the marginal part oi said electrode, a flexible diaphragm, a movable electrode carried by said diaphragm and located adjacent the first electrode, microphonic material between said electrodes, a gasket clos ing the marginal space between said electrodes, a second and a third shoulder on said casing member, a casing cover fixedly abutting the third shoulder and sealing the microphone, and an annular spring lying on said second shoulder and effective to hold the periphery of the diaphragm against the cover.

2. A throat microphone comprising an enclosing casing including a cover forming a surface adapted to be pressed against the throat of the operator, means for holding said cover and casing together in fixed sealing engagement, an electrode supported in said casing, a flexible diaphragm in said casing, another electrode in said casing comprising the central portion of said diaphragm, microphonic material interposed between said electrodes. and spring means in said casing urging the peripheral portion of said diaphragm against said cover.

3. A throat microphone comprising a sealed casing composed of rigid insulating material, relatively movable electrodes mounted in said casing, one of said electrodes being rigidly in contact with said casing for vibration therewith, the other electrode being weighted and maintained free from rigid contact with the casing, microphonic material interconnecting said electrodes, said electrodes and microphonic material being sealed in by said'casing, and a pair or lead-in wires extending through said sealed casing and connected respectively to said electrodes, said structure providing a rugged hermetically sealed housing of insulating material for the contained electrodes and interconnecting microphonic material.

4. In a microphone including a casing having an electrode-receiving chamber therein, a cover plate adapted to be'placed on th casing to hermetically seal said chamber, said chamber being surrounded by a shoulder facing said cover plate, an electrode fixedly supported in said casing in firm contact therewith, a movable electrode lying between the fixed electrode and said cover, a diaphragm in said casing, said movable electrode being supported centrally on said diaphragm and having suflicient weight to cause relative movement of said electrodes to result from vibration of the casing as a whole along the axis of said diaphragm, the peripheral portion of said diaphragm lying between said cover plate and said shoulder, and an annular spring resting on said shoulder and urging the peripheral portion of said diaphragm into firm contact with said cover plate.

5. In a microphone including a casing having an electrode-receiving chamber therein, a cover plate adapted to be placed on the casing to hermetically seal said chamber, said chamber being surrounded by a shoulder facing said cover, an electrode fixedly supported in said casing in firm contact therewith, a movable electrode lying between the fixed electrode and said cover, a diaphragm in said casing, said movable electrode being supported centrally on said diaphragm and having suiiicient'weight to cause relative movement of said electrodes to result from vibration of the casing as a whole along the axis of said diaphragm, said cover and said shoulder defining an annular recess, the peripheral portion of said diaphragm lying within said recess, and an annular spring resting on one side of said recess and urgin the peripheral portion of said diaphragm into firm contact with the other side thereof.

6. In a microphone of the contact type adapted to be placed into contact with a vibratory body to vibrate as a whole in response to vibrations of such body, said microphone containing a pair of separated electrodes with microphone material lying between them, one of said electrodes being maintained in firm contact with the vibrating structure of the microphone, the other of said electrodes being yieldably supported on a diaphragm, said other electrode comprising a raised hollow portion of said supporting diaphragm, formed integrally therewith, the hollow portion of said other electrode having material secured therein to weight such electrode so as to increase relative movement between the electrodes when the structure as a whole is vibrated.

7. In a diaphragm for use within acontact type of microphone in which the microphone as a whole is vibrated in response to vibrations im parted thereto by a vibratory body with which the microphone is in contact, said diaphragm having a raised hollow central portion adapted to form a movable electrode within the microphone to cooperate with an electrode fixed therein, said diaphragm being adapted to be retained in position by contact therewith around its periphery, the hollow part of said raised portion having heavy material fixed therein to weight the electrode portion of the diaphragm, whereby such electrode portion has a greater tendency between the cover and the first-named electrode,

said second electrode being yieldably supported in the casing and being weighted to cause it to remain relatively stationary as the first-named electrode vibrates with the casing, microphonic material lying between said electrodes, and electrical connections with said electrodes passing through the portion of said casing opposite said cover.

9. In combination, a. microphone casing and an electrode adapted to be fixed in said casing,

said electrode having the general form of a hollow' hemisphere iormed or sheet material and provided with an outwardly turned peripheral flange,

the interior of said casing having a cylindrical I recess therein surrounded by a counterbore, said electrode being positioned within said casing with the hemispherical portion thereof within said recess and contacting the bottom thereof, and with said p ripheral flange lying within said counterbore.

10. In combination, a microphone casing, an electrode member of generally circular outline adapted to be fixed in said casing, the central and peripheral portions of said electrode member being maintained in contact with said casing, said casing being relieved, or cut away, in the region thereof intermediate said contact portions to confine the contact between said parts to the stated portions of said electrode member.

HARVEY H. STANLEY.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2420737 *Mar 23, 1943May 20, 1947Hartford Nat Bank & Trust CoGranulated carbon microphone
US2451317 *May 16, 1945Oct 12, 1948Automatic Elect LabMicrophone adapted to be actuated by a bone structure of a user
US2538026 *May 7, 1946Jan 16, 1951Univ Loudspeakers IncElectroacoustic transducer for actuating loud speakers
US2548947 *Mar 12, 1946Apr 17, 1951Socony Vacuum Oil Co IncPressure measuring device
US2581066 *Aug 12, 1948Jan 1, 1952Oliver W StoreyElectrometer transducer with dual mode of operation
US2847520 *Jul 26, 1954Aug 12, 1958Roanwell CorpDamped microphone
US3064089 *Jun 24, 1960Nov 13, 1962Ward Donald PWaterproof inertial type microphone
US3157852 *Feb 1, 1960Nov 17, 1964Int Research & Dev Co LtdVoltage generating seismic vibratory pickup device
US4607383 *Aug 18, 1983Aug 19, 1986Gentex CorporationThroat microphone
Classifications
U.S. Classification381/151, 381/361, 381/364
International ClassificationH04R21/02, H04R21/00, H04R1/14, H04R1/00
Cooperative ClassificationH04R21/021, H04R1/14
European ClassificationH04R1/14, H04R21/02A