US835860A - Microtelephone. - Google Patents

Microtelephone. Download PDF

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Publication number
US835860A
US835860A US24779205A US1905247792A US835860A US 835860 A US835860 A US 835860A US 24779205 A US24779205 A US 24779205A US 1905247792 A US1905247792 A US 1905247792A US 835860 A US835860 A US 835860A
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diaphragms
casing
diaphragm
microphone
grains
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US24779205A
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Arvid Andersson Lind
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ELEKTRO-MILITAERA AB
ELEKTRO MILITAERA AB
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ELEKTRO MILITAERA AB
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R11/00Transducers of moving-armature or moving-core type

Definitions

  • Patented not. is, race.
  • the trans mitter and receiver are mounted on a common handle and form together the so-called microtelephone.
  • microtelephones In order, however, that such microtelephones may be practical in everiirespect, they must be so arranged that spea ng directly against the diaphragm of the transmitter-is prevented, as otherwise the said diaphragm is struck not only by the sound-waves, but also by air-currents from the mouth, which latter deaden the vibrations of the diaphragm effected by the soundwaves.
  • a still greater drawback of speaking against the diaphragm consists in thesapiece, the latter being thereby befouledand made injurious to the health. 1 it is true that the disadvantages mentioned above are removed in such microtelephon'es in which the transmitter and the receiver are mounted in' the same casing situated at one end of the handle and said handle being made hollow and adapted to serve as mouthpiece.
  • the said disturbing influence has been eliminated by combining with the receiver a double-diaphragm transmitter of great sening sound-waves will impinge on both the diaphragms and swing the same toward and from each other, thus producing great variations in the resistance of the microphone,- while the transversal local sound-waves have no influence upon'the said resistance.
  • the said great sensitiveness of'the micro phone may be reduced many of the ordinary ways well own by those skilled in the art.
  • a microphone of very great sensitiveness is provided by a special arrangement of the diaphragms, making superfluous the ring of felt or other soft material hitherto mounted between the I diaphragms for retaining the ordinary car: bon grains between the diaphragms. in this manner the diaphragms are permitted to vibrate freely when acted upon by the soundwaves.
  • phragms which will be fully described in the following specification, great variations in the resistance of the microphoneare produced durin the conversation, while at the same time the resistance of themicrophone when in rest'i. -e., when conversation is not going onis reduced compared with the resistance of microphones hitherto employed.
  • Figure l is a longitudinal sectional view and partly-a side view of a microtelephone arranged in ac- By the said arrangement of the diacordance with this invention.
  • Fig.2 is a back view of the same.
  • Fig. 3 is a longitu dinal sectional view and partly a side view,
  • Fig. 4 is a sideview oi the microphone shown in Fig; 3.
  • I Fig. 5 is a cross-section of the diaphragms ot a microphone comprising two diaphragms, one of which is arranged in accordance with this invention.
  • a and b, Fig. 1 designate the diaphragms of the microphone, and c the ring of felt or sitiveness in such a manner that the proceedother suitable soft insulating material which forms the cell, containing granulated carbon or carbon grains or balls c-.
  • the diaphragm a is electrically connected with the casing d.
  • the diaphragm b is insulated from the said casing d by a non-conducting ring e and from the diaphragm a by a non-conducting ring f, mounted between the diaphragm a and a ring 9, keeping the diaphragms' at a suitable distance from each other.
  • a conducting-ring h is mounted, and'inside the latter a conducting-ring 'i is rovid'ed, having a tongue 7r.
  • the receiver is arranged in a special casing m, inserted into the'ca'sing d andprovided with a contact-piece 1, bearing against the said tongue k.
  • a springy ring 0' is provided, portions of which are bent outward from the plane of the ring.
  • the rings h and i are insulated from the casingd by the ring e.
  • the casing of the receiver hasbeen inserted into the casing d and is fixed on its place, which is effected vby'means of the button p and the sockets q for the cords, which button andso'ckets are screwed into the said casings, both diaphragms a and b and all the rings are held in position.
  • the diaphragm of thecircuits' is the same as in ordinary microte'leph'ones.
  • r is the handle of theapparatus.
  • the said handle is hollow and serves simultaneously as mouthpiece,.forwliich' purpose its outer free end is preferably truncated obliquely, as shown.
  • the above -described double diaphragm transmitter which is made very sensitlve to serve the purpose, is according to this invention so mounted with regard to the hollow handle that the entering sound-waves impinge on both diaphragms'with the same force.
  • the transmitter is mounted in or substantially in the longitudinal center.
  • the diaphragms a and b are each provided with a central cup-shaped portion a 1), formed by the diaphragms being bent outward.
  • the said cup-shaped portions form together a cell containing the ordinary carbon grains or balls 0.
  • the diaphragms may be mounted close to each other, separated at their edges only by a thin ring f, of paper or other insulating material. Consequently the grains 0, having a diameter greater than the distance between the diaphragms, are retained in the said cell between the diaphragms without the aid of the ring of felt hitherto employed.
  • the numvber of grains arranged in series in the upper part of the cell is evidently dependent on the distance between the'bottom walls of the cell and may be more than two. In any case there will be only one grain in the lowermost row at each cross-sectionof the cellwith two contact-points, while, on the other hand, thereare two grains at least with three contact-points at the lower part of the cell in microphones hitherto employed. Owing to this fact, the resistance of the microphone, when in rest will be reduced, and thus the intensity of the current increased.
  • the said variation of the lines of magnetic force is dependent on the variations of the current generating the same. At a certain number of vibrations the said variation of the lines is directly proportional to the amplitude of the variation of the current.
  • the said variation of the current is directly proportional to the intensity of the current through the microphone when at rest and approximately pro ortional to the variation of the resistance of the microphone. From this it will be seen that the more intense the current through the microphone when the microphone is at rest and when at the same time the variations of the resistance of the microphone are great the more intense inductive currents are produced and the better reproduction of the conversation is attained.
  • the said conditions .for a powerful and distinct reproduction of the conversation are fulfilled in the microphone now in uestion, as has been shown above.
  • a metal strip u is mounted at its one end between the diaphragm and the ring a, and its other endlis fixed, by means of a screw '0,
  • the said strip and the screw are insulated from the casing.
  • the receiver is of any lmown construction, and is therefore not shown or described.
  • the diagram of the circuits is the same as in Fig. 1.
  • the primary current has passed through the induction-coil it passes through the strip at to the diaphragm b and from the latter through the grains c,the diaphragm a, and the casing d.
  • the microphone schematically shown in Fig. 5 one diaphragm only is provided with a cup-shaped portion a, the other diaphragm being plane.
  • the cell for containing the carbon grains 0 is shaped substantially in the same manner as shown in Figs. 3 and 4. )onsequently the manner of operation is substantially the same as stated above with are gained corresponding insome degree to those gained in the construction shown in these figures.
  • the ,diaphragms and grains may be of carbon or any other suitable material which will conduct the current, as, for instance, metal.
  • microtelephones arranged in accordance with this invention and employed in practice have shown, these instruments are fully suitable also fortelephoning very long distances.
  • the rattling sounds or the resonance existing in apparatus of this type hitherto emp oyed, especially when words withthe vowels a and o areuttered,will cease entirely when a double-diaphragm microphone mounted as stated above isemployed, while no deadening of such vowels as u, e, and i has been perceived.
  • the explanation of the great distinctness of the reproduction of the conversation gained by microtelephones constructed in accordance with this invention is found in the fact that the micro hone can be made extremely sensitive without the local transversal sound-waves 'i.
  • microtelephones the combination of a casing, a hollow handle for the same serving as mouthpiece, a receiver mounted in said casing, and a double-diaphragm transmitter in the casing, the diaphragms of which are constructed toform a cell containing grains and have the center plane, which is parallel with the diaphragrns, situated substantiall in the center plane of that end of the said andle onwhich the casing is mounted, substantiall as described and for the purpose set fort 3.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Engineering & Computer Science (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Electrostatic, Electromagnetic, Magneto- Strictive, And Variable-Resistance Transducers (AREA)

Description

PATENTED NOV. 13, 1906.
A. A. LIND. MIGROTELEPHONE.
APPLICATION FILED 13.28. 1905.
2 SHEETS-SHEET 1.
PATENTED NOV 13,1906.
A. A. LIND. MIGROTELEPHONB.
APPLICATION FILED FEB. 28. 1905.
2 SHEETS-SHEET 2.
D w y liva and the like being carried into the mouth- UNITED' PATENT @EFFllClil ARVID ANDERSSON LIND, @F MALMQ, SWEDEN, ASSIGNUR TU ELEKTRQ- MlLITAltA AKTIEBOLAGET, UP STOCKHOLM, Si l/EDEN.
' No. eeaeeo.
Specification of Letters Patent.
Patented not. is, race.
Application filed Febrpary 28, 1905. Serial No. z v ez.
To all whom it may concern:
Be it known that l, ARVID Annnasson LIND, a subject of the King of Sweden, and a phones, of which the following is a specification, reference being had therein to the accompanying drawings.
In many telephone apparatus the trans mitter and receiver are mounted on a common handle and form together the so-called microtelephone. In order, however, that such microtelephones may be practical in everiirespect, they must be so arranged that spea ng directly against the diaphragm of the transmitter-is prevented, as otherwise the said diaphragm is struck not only by the sound-waves, but also by air-currents from the mouth, which latter deaden the vibrations of the diaphragm effected by the soundwaves. A still greater drawback of speaking against the diaphragm consists in thesapiece, the latter being thereby befouledand made injurious to the health. 1 it is true that the disadvantages mentioned above are removed in such microtelephon'es in which the transmitter and the receiver are mounted in' the same casing situated at one end of the handle and said handle being made hollow and adapted to serve as mouthpiece. As,
however, these microtelephones hitherto.
have been constructed the disturbing influence which the transversal local soundwaves produced by the reflection of the sound-waves against the walls of the 'airchamber at the diaphragm of the microphone, and especially against the walls of the mouthpiece, have upon the distinctness of the reproduced Words is not eliminated. The said disturbing influence, which is perceived as rattling sounds when certain vowels are uttered, while other vowels are deadened, cannot be eliminated by reducing the sensitiveness of the microphone, as in such microphones in which one speaks directly against the diaphragm, as in such case the microtele phone would be unfit for telephoning on long-distance lines. According to my invention the said disturbing influence has been eliminated by combining with the receiver a double-diaphragm transmitter of great sening sound-waves will impinge on both the diaphragms and swing the same toward and from each other, thus producing great variations in the resistance of the microphone,- while the transversal local sound-waves have no influence upon'the said resistance. The said great sensitiveness of'the micro phone may be reduced many of the ordinary ways well own by those skilled in the art. According to this inventicn'a microphone of very great sensitiveness is provided by a special arrangement of the diaphragms, making superfluous the ring of felt or other soft material hitherto mounted between the I diaphragms for retaining the ordinary car: bon grains between the diaphragms. in this manner the diaphragms are permitted to vibrate freely when acted upon by the soundwaves. phragms, which will be fully described in the following specification, great variations in the resistance of the microphoneare produced durin the conversation, while at the same time the resistance of themicrophone when in rest'i. -e., when conversation is not going onis reduced compared with the resistance of microphones hitherto employed. Owing to the fact that the intensity of the current through the primary'wire of the induction-coil is increased in the mid manner and the variations of the said-intensity during the conversation are greater than inmi crophones of the class now in question hith erto employed, the advantage of inductive currents of greater intensity, and consequently a more distinct reproduction of the conversation in the receiver, is gained.
' In the accompanying drawings, Figure l is a longitudinal sectional view and partly-a side view of a microtelephone arranged in ac- By the said arrangement of the diacordance with this invention. "Fig.2 is a back view of the same. Fig. 3 is a longitu dinal sectional view and partly a side view,
on an enlarged scale, of a modified form of the microtelephone, the diaphragms of the microphone being provided with cup-shaped portions. Fig. 4 is a sideview oi the microphone shown in Fig; 3. I Fig. 5 is a cross-section of the diaphragms ot a microphone comprising two diaphragms, one of which is arranged in accordance with this invention.
a and b, Fig. 1, designate the diaphragms of the microphone, and c the ring of felt or sitiveness in such a manner that the proceedother suitable soft insulating material which forms the cell, containing granulated carbon or carbon grains or balls c-.
In the apparatus shown in Figs. 1 and. 2 the diaphragm a is electrically connected with the casing d. The diaphragm b, on the other hand, is insulated from the said casing d by a non-conducting ring e and from the diaphragm a by a non-conducting ring f, mounted between the diaphragm a and a ring 9, keeping the diaphragms' at a suitable distance from each other. Inside the diaphragm b a conducting-ring h is mounted, and'inside the latter a conducting-ring 'i is rovid'ed, having a tongue 7r. The receiver is arranged in a special casing m, inserted into the'ca'sing d andprovided with a contact-piece 1, bearing against the said tongue k. Between the casing m and a non-conducting ring a, mounted inside the ring i, a springy ring 0' is provided, portions of which are bent outward from the plane of the ring.
Also the rings h and i are insulated from the casingd by the ring e. When'the casing of the receiver hasbeen inserted into the casing d and is fixed on its place, which is effected vby'means of the button p and the sockets q for the cords, which button andso'ckets are screwed into the said casings, both diaphragms a and b and all the rings are held in position. The diaphragm of thecircuits'is the same as in ordinary microte'leph'ones. After the primary current has passed from one of the cords through the induction-coil it passes through the contact-piece Z, the tongue to the diaphragm b, and from the latter through the grains 0, the diaphragm'a, and the casingd, which is electrically connected with the electric source through another cord. .An'other pair "of cords is connected with the secondary wire oi the induction-coil and with the telephone-lines. r is the handle of theapparatus. The said handle is hollow and serves simultaneously as mouthpiece,.forwliich' purpose its outer free end is preferably truncated obliquely, as shown. The above -described double diaphragm transmitter, which is made very sensitlve to serve the purpose, is according to this invention so mounted with regard to the hollow handle that the entering sound-waves impinge on both diaphragms'with the same force. Thus it will be seen that in the apparatus shown in Fig. 1 the transmitter is mounted in or substantially in the longitudinal center.
plane of the handle r. In the back wall of the casing dahollow swelling sis provided, and in the back wall of the casing of the'receiver a corresponding cavity't'is provided, the said swelling 8 and cavity t allowing the soundwaves to pass to the diaphragms. The diaphragmsab are caused by the entering soundwaves to swing toward and from each other, thus producing great variations in the resistance of the transmitter.
In the microtelephone shown in Fig. 3 the diaphragms a and b are each provided with a central cup-shaped portion a 1), formed by the diaphragms being bent outward. The said cup-shaped portions form together a cell containing the ordinary carbon grains or balls 0. Owing to the said cup-shaped portions the diaphragms may be mounted close to each other, separated at their edges only by a thin ring f, of paper or other insulating material. Consequently the grains 0, having a diameter greater than the distance between the diaphragms, are retained in the said cell between the diaphragms without the aid of the ring of felt hitherto employed. Thus it will be seen that the deadening effect to which the diaphragms of microphones pro vided with such a ring of felt or other similar material always have-been subjected, owing to the bearing of" the said ring upon the diaphragms, does not exist in microphones in which the dia hra'gms are arranged as shown in Figs. 3 an 4. In consequence hereof the diaphragms can-swingmore freely than inmicrophones as hitherto constructed. More-.
edge of the diaphragm, so that the parts a l) of the diaphragrns io'rm together a corner. In thesaid corner a row of carbon grains or balls will gather,'which'grains all bear upon both 'diaphragms andform a bridge for the primary current. Consequently there areat each ball of the said row only two contactpoints for thecurrent'to pass. Above'the said row the grains will be'seated,"as shown in Fig. 3, sothat'there' arethree contact.-
points at least at 'eachpair of grains, as in.
microphones hitherto employed. The numvber of grains arranged in series in the upper part of the cell is evidently dependent on the distance between the'bottom walls of the cell and may be more than two. In any case there will be only one grain in the lowermost row at each cross-sectionof the cellwith two contact-points, while, on the other hand, thereare two grains at least with three contact-points at the lower part of the cell in microphones hitherto employed. Owing to this fact, the resistance of the microphone, when in rest will be reduced, and thus the intensity of the current increased.
In the microphone shown in Figs. 3 and 4 the grains or balls in the cell during the s35,seo
swinging movement of the ,diaphragms to- 'ward and from each other will be lifted by the oblique side walls a b acting uponthe lowermost row of grains and pressing the same upward. The variations of the resistance of the microphone are consequently efiected not only by thepressure between the grains and between the grains and the diaphragms being increased and decreased, but also by the moving of the grains relation to each other and to the diaphragms," which results in great variations in the resistance. As Well known, the intensity of the inductive currents generated in the secondary wire of the induction-coil is dependent on the total variation persecond in the flow of the lines of magnetic force. The said variation of the lines of magnetic force, on the other hand, is dependent on the variations of the current generating the same. At a certain number of vibrations the said variation of the lines is directly proportional to the amplitude of the variation of the current. The said variation of the current, on the other hand, is directly proportional to the intensity of the current through the microphone when at rest and approximately pro ortional to the variation of the resistance of the microphone. From this it will be seen that the more intense the current through the microphone when the microphone is at rest and when at the same time the variations of the resistance of the microphone are great the more intense inductive currents are produced and the better reproduction of the conversation is attained. The said conditions .for a powerful and distinct reproduction of the conversation are fulfilled in the microphone now in uestion, as has been shown above. The diap agm a,
is in leading connection with the casing (1,.
and the diaphragm b is insulated from the same by non-'conducting-rings e and e. A metal strip u is mounted at its one end between the diaphragm and the ring a, and its other endlis fixed, by means of a screw '0,
in a cavity'x, formed in an inner wall ac of.
the casingI The said strip and the screw are insulated from the casing. The receiver is of any lmown construction, and is therefore not shown or described. The diagram of the circuits is the same as in Fig. 1. After the primary current has passed through the induction-coil it passes through the strip at to the diaphragm b and from the latter through the grains c,the diaphragm a, and the casing d. In the microphone schematically shown in Fig. 5 one diaphragm only is provided with a cup-shaped portion a, the other diaphragm being plane. In the construction shown in Fig. 5 the cell for containing the carbon grains 0 is shaped substantially in the same manner as shown in Figs. 3 and 4. )onsequently the manner of operation is substantially the same as stated above with are gained corresponding insome degree to those gained in the construction shown in these figures.
In the practical execution of the invention the arrangements shown in the drawings may be modified in many respects without exceeding the limits of theinvention stated in the following claims. The ,diaphragms and grains may be of carbon or any other suitable material which will conduct the current, as, for instance, metal.
. As microtelephones arranged in accordance with this invention and employed in practice have shown, these instruments are fully suitable also fortelephoning very long distances. The rattling sounds or the resonance existing in apparatus of this type hitherto emp oyed, especially when words withthe vowels a and o areuttered,will cease entirely when a double-diaphragm microphone mounted as stated above isemployed, while no deadening of such vowels as u, e, and i has been perceived. The explanation of the great distinctness of the reproduction of the conversation gained by microtelephones constructed in accordance with this invention is found in the fact that the micro hone can be made extremely sensitive without the local transversal sound-waves 'i. e., waves perpendicular or substantially erpendicular to the longitudinal direction 0 'the mouthpiece and enerated throu h interference owing to t e reflection of t e soundwaves against the walls 8 and t, Fi s. 1 and 2, and s and m, Fig. 3, and especia ly against the walls ofthe mouthpiece 1", having any disturbing influence upon the vibrations of the dia hragms. It may be observed that the sai sound-waves are synchronous, and consequently when acting upon the diaphragms they cause both the same to swing in the same direction, so thatthe diaphragms keep company. Consequentlyv thev vibrations of the two diaphragms caused by the local transversal sound-waves will produce no variations in the resistance of the microphone, and consequentl no disturbing by- I sounds durin the telep oning. The vibrations of the iaphragm s, which produce the variations in the resistance, are consequentl effected exclusively by the proceeding soun waves, which, as mentioned above, cause the diaphragms to swing toward and from each other. As microtelephones constructed in accordance with this inventionare fully suitable for telephonin on long-distance lines and besides fulfil a 1 requirements sanitarily and can be manufactured very cheap, the are practical in every respect.
aving now described my invention, what A I claim as new, and desire to secure by Letters Patent, is 1. In microtelephones, the combination of a casing,"a hollow handle for the same serv-.
reference to Figs. 3 and 4, and advantages l ing as mouthpiece, a receiver mounted in 1 0 mitter inthe casing having its center plane,
which is parallel with the diaphragms, situated substantially in the center plane of that end of the said handle on which the casing is mounted, substantially as described and for the purpose set forth.
2. In microtelephones, the combination of a casing, a hollow handle for the same serving as mouthpiece, a receiver mounted in said casing, and a double-diaphragm transmitter in the casing, the diaphragms of which are constructed toform a cell containing grains and have the center plane, which is parallel with the diaphragrns, situated substantiall in the center plane of that end of the said andle onwhich the casing is mounted, substantiall as described and for the purpose set fort 3. In microtele homes, the combination of a casing, a hollow andle for the same serving as mouthpiece, a receiver mounted in 'said casing, and a double diaphra m transmitter in the casing, the diaphragms of which are constructed toform cells containing a casing, a hollow handle for the same serving as mouthpiece a receiver mounted in said casing, and a dbuble-dia hragmtransmitter in the casing, each of t "e diaphragms of which are constructed to form grain-containing cells with plane bottoms and have the center plane, which is parallel with the diaphragms, situated substantiall in the center plane of that end of the said andle on which the casing is mounted, substantially as described and for the purpose set forth. I
In witness whereof I have hereunto siined my name in the presence of two subscri ing witnesses ARVID ANDERSSUN LIND. Witnesses:
E. HnnENsKAe, A. Lassen.
US24779205A 1905-02-28 1905-02-28 Microtelephone. Expired - Lifetime US835860A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2485405A (en) * 1944-04-21 1949-10-18 Stromberg Carlson Co Dipole microphone
US3350988A (en) * 1961-06-23 1967-11-07 Frank L Schultz Method of making continuous form envelopes

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2485405A (en) * 1944-04-21 1949-10-18 Stromberg Carlson Co Dipole microphone
US3350988A (en) * 1961-06-23 1967-11-07 Frank L Schultz Method of making continuous form envelopes

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