US1704084A - Sound reproducer - Google Patents

Sound reproducer Download PDF

Info

Publication number
US1704084A
US1704084A US158954A US15895427A US1704084A US 1704084 A US1704084 A US 1704084A US 158954 A US158954 A US 158954A US 15895427 A US15895427 A US 15895427A US 1704084 A US1704084 A US 1704084A
Authority
US
United States
Prior art keywords
armature
magnet
magnets
poles
permanent magnet
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US158954A
Inventor
Harvey C Hayes
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US158954A priority Critical patent/US1704084A/en
Application granted granted Critical
Publication of US1704084A publication Critical patent/US1704084A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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

  • My invention relates broadly to apparatus for imparting Vibrations to sonic diaphragms and more particularly to apparatus for imparting vibrations to tensioned sonic diaphragms.
  • My invention is of particular application in an electromagnetic device where both a push and a pull thrust is exerted on a diaphragm in response to fluctuations of current acting in the energizing coils.
  • the object of my invention is to construct sound reproduction units that are more sensitive to small current fluctuations than those in present use.
  • Another object of my invention is the con- 5 struction of a sonic reproduction unit that gives a more faithful translation of the current fluctuations in the electrical circuit than "is now obtained.
  • My invention consists substantially in the construction, combination and arrangement of parts associated therewith as will be more fully hereinafter set forth, as shown by the accompanying drawing and finally pointed out in the appended claims.
  • the device consists of two telephone magnets of the bipolar type so mounted that the unlike poles 3 and 5, and, 4 and 6, of the two magnets are directly opposite each other.
  • Each of the telephone magnets consists of a permanent magnet and a lurality of electromagnets.
  • t 1e lower telephone magnet consists of a permanent magnet 7 and two electromagnets 1.
  • Each of the electromagnets consists of an L-shaped soft iron member with the angle of the L placed upon one of the poles of the permanent magnet and one leg of each L extending toward the electromagnet upon the other pole of the permanent magnet. Upon each one of the electromagnets is wound a coil of wire 13.
  • the upper and lower telephone magnets are so spaced that a tensioned armature 14 of high permeability and low hysteresis and eddy current losses can be centered between the poles 3 and 4 of magnet 1 and the poles 5 and 6 of magnet 2.
  • the magnets 7 and 8 are such that they will be of sufiicient strength to prevent the telephonic currents in the electromagnets 1 and 2 from reversing their polarity and alsoof such strength that the magnetic flux between the poles 3 and 5 and the poles 4 and 6 will be equal. Also the strength of the poles 9 and 10 of the magnet 8 will be equal to the strength of the poles 12 and 11 of the magnet 7 respectively.
  • the magnets 1 form a link for the magneticfiux between the poles 11 and 12 of permanent magnet 7.
  • magnets 2 form a link for the magnetic flux between the poles of magnet 8.
  • the operation of my device depends upon shunting through the armature 1Q a portion of the magnetic flux created in one or the other of magnets 1 and 2.
  • the amount so shunted is dependent upon the strength of the current through the coils 13 of the two magnets 1 and 2.
  • the direction of the current in the coils 13 determines which of the permanent magnets 7 or 8 has its flux linked with the armature.
  • the coils 13 of the two magnets 1 and 2 are connected in series or in parallel in such a way that a current passing through the coils will strengthen the magnetic flux of one magnet, for example 1, and weaken the magnetic flux of the other magnet, for example 2.
  • the particular effect which prevails upon the magnets at a single instant depends upon the direction of the ture 14, across the small air gap between the armature and pole 5 of magnet 2 through the metal of magnet 2 to pole 9 of permanent magnet 8, through magnet 8 to pole 10 of magnet 8, through the metal of magnet 2 to pole 6 of magnet 2, across the small air gap between the pole 6, and the armature, perpendicularly through the armature and across air gap between the armature 14 and pole 4 of magnet 1, through the metal of agnet- 1 to pole 12 of permanent magnet 7, through magnet 7.to pole 11 of magnet 7, through the metal of magnet 1 and to pole 3 of magnet 1.
  • the varying flux in the electromagnets produced by the varying currents flowing in the coil 13 produces the equivalent of this mechanical displacement. Assuming that the armature 14 is again in its centered position, and that the first half cycle of an alternating current traverses the coils 13. This flow of current produces an increase in the attraction of the arplature toward the electromagnets 1, for example, and a decrease in the attraction of the magnets 2 for the armature 14. This slight force is sufiicient to displace the armature from its centered position. A portion of the flux from the ermanent magnet 7 then passes longitudinal y through the armature 14 due to the decreased reluctance of this path.
  • the tensioned armature has as great restoring force per unit displacement as the heavier untensioned ones in present use, and in many cases has a greater restoring force per unit displacement than the heavier untensioned ones, the time required to build u or vary the amplitude or frequency of the lig ter armature will be much less with the result that the current fluctuations will give a more faithful reproduction of the sound that it is desired to produce.
  • the maximum sensitivity is reached when the air-gap between the armature and each pair of poles is made only of sufiicient size for the armature to This normally reduces the clearance between armature and pole pieces to 7 to 10 thousandths of an inch.
  • the reluctance of the magnetic circuit (including for each set of coils, the soft iron pole-pieces, the armature and three small air gaps) is then sufiiciently i low to permit the change in ampere turns or demagnetize the permanent magnets, the
  • a permanent magnet disposed upon one side of the armature. a. like permanent magnet disposcd upon the other side of the armature, the unlike poles of the two magnets disposed opposite to each other, the lux between the two magnets passing perpendicularly through the armature, and a plurality of electromagnets disposed between the permanent magnets and the armature.
  • a permanent magnet disposed upon one side of the armature, a like permanent magnet disposed upon the other side of the armature, the unlike poles of the two magnets disposed opposite to each other, the flux between the two magnets passing perpendicularly through the armature, and a plurality of electromagnets disposed between the permanent magnets and the armature one electroinagnet disposed between one permanent magnet and the armature, the other electromagnet disposed between the other permanent magnet and the armature.
  • a permanent magnet disposed upon one side of the armature a like permanent magnet disposed upon the other side of the armature, the unlike poles of the two magnets disposed opposite to each other, the flux between the two magnets passing perpendicularly through the armature, and a plurality of electromagnets disposed between the permanent magnets and the armature one electromagnet disposed between one permanent magnet and the armature, the other electromagnet disposed between the other permanent magnet and the armature, the elect romagnets being 7 so wound that a flow of current through the coils of the electromagnets increases the efi'ect upon the tensioned armature of one of the permanent magnets and decreases the'eflfect of the other permanent magnet.

Landscapes

  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Engineering & Computer Science (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Electromagnets (AREA)

Description

March 5, 1929. H. c. HAYES I SOUND REPRODUCER Filed Jan. 1927 alikoz vwq Patented Mar. 5, 1929.
UNITED STATES HARVEY G. HAYES, 01E WASHINGTON, DISTRICT OF COLUMBIA.
SOUND REPRODUCER.
Application filed January 4, 1927. Serial No. 158,954.
My invention relates broadly to apparatus for imparting Vibrations to sonic diaphragms and more particularly to apparatus for imparting vibrations to tensioned sonic diaphragms. My invention is of particular application in an electromagnetic device where both a push and a pull thrust is exerted on a diaphragm in response to fluctuations of current acting in the energizing coils.
The object of my invention is to construct sound reproduction units that are more sensitive to small current fluctuations than those in present use. p
Another object of my invention is the con- 5 struction of a sonic reproduction unit that gives a more faithful translation of the current fluctuations in the electrical circuit than "is now obtained.
Further objects of my invention will appear more fully hereinafter.
Faithful reproduction of sound over a wide range of frequencies, such as is desired in telephones and loud speakers, demands that the vibrations of the diaphragm producing the 2 sound he of a forced type, that is, the resonant frequency of the diaphragm should be outside the range of frequencies that the diaphragm iscalled upon to reproduce.
This condition normally requires that large restoring forces be brought into action when the diaphragm or other moving parts are displaced from their position of equilibrium.
The mass required to give the necessary rigidity in the instruments now in use, tends to make the inertia. of the moving parts so great that the sensitivity of the apparatus is unnecessarily low. I have discovered that I can overcome this inherent difliculty by making the restoring force of the moving parts great in proportion to their mass. This I have accomplished by the utilization of a tensioned armature, the restoring force of which is independent of the mass and may be increased at will.
My invention consists substantially in the construction, combination and arrangement of parts associated therewith as will be more fully hereinafter set forth, as shown by the accompanying drawing and finally pointed out in the appended claims.
Reference is to be had to the accompanying drawing forming a part of this specification, which shows a diagrammatic arrangement of the parts of a sound reproducer unitconstructed in accordance with my invention.
The device consists of two telephone magnets of the bipolar type so mounted that the unlike poles 3 and 5, and, 4 and 6, of the two magnets are directly opposite each other. Each of the telephone magnets consists of a permanent magnet and a lurality of electromagnets. For example t 1e lower telephone magnet consists of a permanent magnet 7 and two electromagnets 1. Each of the electromagnets consists of an L-shaped soft iron member with the angle of the L placed upon one of the poles of the permanent magnet and one leg of each L extending toward the electromagnet upon the other pole of the permanent magnet. Upon each one of the electromagnets is wound a coil of wire 13. The upper and lower telephone magnets are so spaced that a tensioned armature 14 of high permeability and low hysteresis and eddy current losses can be centered between the poles 3 and 4 of magnet 1 and the poles 5 and 6 of magnet 2. I Y
The proper selection of the magnets 7 and 8 would be such that they will be of sufiicient strength to prevent the telephonic currents in the electromagnets 1 and 2 from reversing their polarity and alsoof such strength that the magnetic flux between the poles 3 and 5 and the poles 4 and 6 will be equal. Also the strength of the poles 9 and 10 of the magnet 8 will be equal to the strength of the poles 12 and 11 of the magnet 7 respectively. When the magnets are mounted in the manner shown the magnets 1 form a link for the magneticfiux between the poles 11 and 12 of permanent magnet 7. In a similar manner, magnets 2 form a link for the magnetic flux between the poles of magnet 8.
The operation of my device depends upon shunting through the armature 1Q a portion of the magnetic flux created in one or the other of magnets 1 and 2. The amount so shunted is dependent upon the strength of the current through the coils 13 of the two magnets 1 and 2. The direction of the current in the coils 13 determines which of the permanent magnets 7 or 8 has its flux linked with the armature.
To produce this effect the coils 13 of the two magnets 1 and 2 are connected in series or in parallel in such a way that a current passing through the coils will strengthen the magnetic flux of one magnet, for example 1, and weaken the magnetic flux of the other magnet, for example 2. The particular effect which prevails upon the magnets at a single instant depends upon the direction of the ture 14, across the small air gap between the armature and pole 5 of magnet 2 through the metal of magnet 2 to pole 9 of permanent magnet 8, through magnet 8 to pole 10 of magnet 8, through the metal of magnet 2 to pole 6 of magnet 2, across the small air gap between the pole 6, and the armature, perpendicularly through the armature and across air gap between the armature 14 and pole 4 of magnet 1, through the metal of agnet- 1 to pole 12 of permanent magnet 7, through magnet 7.to pole 11 of magnet 7, through the metal of magnet 1 and to pole 3 of magnet 1.
, When'the armature is exactly centered 1n the gaps between the magnets by the adjustment of the tension thereon which, in the em- 'bodiment herein disclosed is accomplished by 'the means of the thumbscrew 19 which is threaded into the armature supporting member 20 which consists of non-magnetic matetion, that is there is no magneto-motive force tending to cause flux in the armature 14. It will be seen that when the armature is so posi tioned it is in a critically unstable condition.
It is. to be understood that the showing in the drawings of the supporting means and the thumbscrew adjustment for the tension upon the armature 14 is but oneembodiment of such means, and that any type of tensioning and supporting means may be used without departing from the spirit of my invention and without departing from the scope of the appended claims. If, from its centered position, the armature is mechanically displaced slightly toward one magnet for example 7 then the air gaps between the armature and the two poles 3 and 4 are less than those between the armature and the two poles 5 and 6 and a certain portion of the flux of magnet 7 will pass through the armature in preference to passing across the gaps to poles 5 and 6 because of the diminished reluctance given by this path along the armature. This linkage of flux between the armature and poles 3 and 4 causes the armature to be attracted toward these poles more than it is attracted toward poles 5 and 6 with the resultant pull toward magnet 7 increasing rapidly as the armature approaches pole 3 and 4.
This movement continues until the tensional restoring forces exerted upon the armature equals the pull of the magnet upon the armature.
The varying flux in the electromagnets produced by the varying currents flowing in the coil 13 produces the equivalent of this mechanical displacement. Assuming that the armature 14 is again in its centered position, and that the first half cycle of an alternating current traverses the coils 13. This flow of current produces an increase in the attraction of the arplature toward the electromagnets 1, for example, and a decrease in the attraction of the magnets 2 for the armature 14. This slight force is sufiicient to displace the armature from its centered position. A portion of the flux from the ermanent magnet 7 then passes longitudinal y through the armature 14 due to the decreased reluctance of this path. This change in flux then increases as the armature moves away from its centered position to the position in which the tension exerted upon the armature counterbalances the attraction of the magnet for the armature. Then when the other half cycle of alternating current passes through the coil 13 the attraction of the electromagnets 1 for the armature 14 is decreased and the attraction of the elcctromagnets 2 iis increased. This change in flux together with the restoring tensional force causes the armature 14 to leave-the position just described and pass through the centered position of unstable equilibrium to a position in close proximity to the clectromagnets 2 where the flux from the permanent magnet 8 exerts a pull upon the armature 14 that is equal to the restoring forces exerted upon the armature by the tension placed thereon. As the cycles of the current in the coils 13 are repeated the vibrations of the diaphragm 17 are producedby the vibrations of the armature 14.
Since the tensioned armature has as great restoring force per unit displacement as the heavier untensioned ones in present use, and in many cases has a greater restoring force per unit displacement than the heavier untensioned ones, the time required to build u or vary the amplitude or frequency of the lig ter armature will be much less with the result that the current fluctuations will give a more faithful reproduction of the sound that it is desired to produce.
Since the sensitivity of the magnetic driver becomes greater as the design and adjustments are so arranged that the comparatively small current fluctuations through the coils produce a maximum change inmagnetic' flux linkage betweenthe fixed and movable parts of the magnetic circuit, the maximum sensitivity is reached when the air-gap between the armature and each pair of poles is made only of sufiicient size for the armature to This normally reduces the clearance between armature and pole pieces to 7 to 10 thousandths of an inch. The reluctance of the magnetic circuit (including for each set of coils, the soft iron pole-pieces, the armature and three small air gaps) is then sufiiciently i low to permit the change in ampere turns or demagnetize the permanent magnets, the
purpose of which is to keep the polarity of poles 5 and 3 and G and 4 constant.
It will be understood that the above description and accompanying drawings co1n prehend only the general and preferred embodiment of my invention and that minor detail clmnges in construction and arrangement of parts may be made within the scope of the appended claims and without sacrificing any of the advantages of my invention.
I claim as follows:
1. In combination with a tensioned armature, a permanent magnet disposed upon one side of the armature. a. like permanent magnet disposcd upon the other side of the armature, the unlike poles of the two magnets disposed opposite to each other, the lux between the two magnets passing perpendicularly through the armature, and a plurality of electromagnets disposed between the permanent magnets and the armature.
2. In combination with a tensioned armature, a permanent magnet disposed upon one side of the armature, a like permanent magnet disposed upon the other side of the armature, the unlike poles of the two magnets disposed opposite to each other, the flux between the two magnets passing perpendicularly through the armature, and a plurality of electromagnets disposed between the permanent magnets and the armature one electroinagnet disposed between one permanent magnet and the armature, the other electromagnet disposed between the other permanent magnet and the armature.
3. In combination with a tensioned armature, a permanent magnet disposed upon one side of the armature, a like permanent magnet disposed upon the other side of the armature, the unlike poles of the two magnets disposed opposite to each other, the flux between the two magnets passing perpendicularly through the armature, and a plurality of electromagnets disposed between the permanent magnets and the armature one electromagnet disposed between one permanent magnet and the armature, the other electromagnet disposed between the other permanent magnet and the armature, the elect romagnets being 7 so wound that a flow of current through the coils of the electromagnets increases the efi'ect upon the tensioned armature of one of the permanent magnets and decreases the'eflfect of the other permanent magnet.
HARVEY C. HAYES.
US158954A 1927-01-04 1927-01-04 Sound reproducer Expired - Lifetime US1704084A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US158954A US1704084A (en) 1927-01-04 1927-01-04 Sound reproducer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US158954A US1704084A (en) 1927-01-04 1927-01-04 Sound reproducer

Publications (1)

Publication Number Publication Date
US1704084A true US1704084A (en) 1929-03-05

Family

ID=22570437

Family Applications (1)

Application Number Title Priority Date Filing Date
US158954A Expired - Lifetime US1704084A (en) 1927-01-04 1927-01-04 Sound reproducer

Country Status (1)

Country Link
US (1) US1704084A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437270A (en) * 1943-11-05 1948-03-09 Bell Telephone Labor Inc Magnetostrictive compressional wave transmitter or receiver
US2773223A (en) * 1955-05-16 1956-12-04 Gen Dynamics Corp High impedance telephone substation ringer

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437270A (en) * 1943-11-05 1948-03-09 Bell Telephone Labor Inc Magnetostrictive compressional wave transmitter or receiver
US2773223A (en) * 1955-05-16 1956-12-04 Gen Dynamics Corp High impedance telephone substation ringer

Similar Documents

Publication Publication Date Title
US1784517A (en) Motor for loud-speakers
US3798391A (en) Movable magnet loudspeaker
US2951190A (en) Electro-mechanical transformer
US2412123A (en) Electromagnetic device
US1573739A (en) Telephonic device
US1704084A (en) Sound reproducer
GB1409789A (en) Magnet assembly
US2402985A (en) Magnetic recorder
US1632332A (en) Electromagnetic sound reproducer
US1704511A (en) Electromagnetic vibrating device
US2587983A (en) Electromagnetic device operable by alternating current
US2494918A (en) Inductively energized electro-dynamic loud-speaker
US1876164A (en) Magnetic device
US1661829A (en) Dynamo-electrical vibrating unit
US1828284A (en) Vibratory system
US3584161A (en) Balanced magnetic transducer
US2523775A (en) Electromagnetic transducer
US1525182A (en) Sound transmitter and receiver
US2890289A (en) Ribbon-type magnetic armature transducer
US2479231A (en) Alternating current relay
US1823603A (en) Sound reproducing apparatus
US1682866A (en) Electrical instrument of the telephone type
US1780349A (en) Apparatus for radiating sound waves
US1986984A (en) Amplifying device
US1051113A (en) Telephone.