US1916223A

US1916223A - Sound translating device

Info

Publication number: US1916223A
Application number: US592498A
Authority: US
Inventors: Kalin Walter
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1932-02-12
Filing date: 1932-02-12
Publication date: 1933-07-04
Anticipated expiration: 1950-07-04

Description

July 4, 1933. w. KALIN fi,916,223

SOUND TBANSLATING DEVICE Filed Feb. 12, 1932 4 Sheets-Sheet l INVENTOR W. KAL/N Wm 157M A T TORNE Y July 4, 1933.

W. KALIN SOUND TRANSLATING DEVICE Filed Feb. 12, 1932 4 Sheets-Sheet 2 INVENTOR l4. KALIN BY ATTORNEY July 4, 1933. w. KALIN. 1,916,223

SOUND TRANSLATING DEVICE Filed Feb. 12, 1952 4 Sheets-Sheet 3 Ill/110171711 III/Ill! ATTORNEY July 4, 1933.

RESPONSE RESPONSE RESPONSE IN 05 W. KALIN 1,916,223

SOUND TRANSLATING DEVICE Filed Feb. 12,

1932 4 Sheets-Sheet 4 FIG. 9

FREQUENCY- CYCLES PER SECOND FIG. /0

FREQUENCY CYCLES PER SECOND FREQUENCY-CYCLES PER SECOND w. mu/v BV mam/U 6. Mud.

A TTORNEV Patented July 4, .1933

-NITE STATES PATENT OFFICE WALTER KALIN, OF BROOKLYN, NEW YORK, ASSIGNOR 'ro BELL TELEPHONE LABOEA- TORIES, INCORPORATED, OF NEW YORK, N. Y., A CORPORATION OF NEW YORK SOUND TRANSLATING DEVICE Application filed February 12, 1932. Serial No. 592,498.

This invention relates to sound translating devices and more particularly to such devices known as loud speakers and employing direct-acting diaphragms.

Large direct-acting diaphragms embodied in present day loud speakers are usually adapted to vibrate as a whole analogous to a piston over the lower portion of the audiofrequency spectrum, say up to about 800 or 1 1000 cycles. Above this frequency and throughout the upper portion of the audiospectrum, these diaphragms break up and vibrate locally analogous to a wave transmission device.

sponse, and hence the fidelity and uniformity with which speech and music are translated by a device embodying such diaphragms is dependent among other factors upon the manner in which the diaphragm breaks up at the higher frequencies.

- In devices incorporating a large directacting single piece diaphragm, such as of paper and having a central angle of the order of 90, theresponse is irregular and an objectionable peak is present at the higher frequencies. and peak may be overcome to some extent by increasing the central angle of the diaphragm. However, so varying the angle materially decreases the range of frequencies which the diaphragm will reproduce satisfactorily, that is, a low upper cut-off effect is produced. i

This cut-off effect and the resultant deficiency at the higher frequencies may be overcome in part by forming the diaphragm of several sections of different materials, one of which is particularly adapted to reproduce the higher frequencies. For example,

a diaphragm may be composed of two joined right frusto-conical sections, one of paper and one of a suitable light-weight metal, such as duralumin, the latter of which is particularly effective at the higher frequencies.

It has been found, however, that a diaphragm of such construction introduces subharmonies in the response, particularly at the higher power levels, with a resultant unfaithful reproduction of speech and music.

One object of this invention is to improve The character of the re- The undesirable irregularity the acoustic characteristics of di'aphragms cured together at the oblique edges to form a right frustum of a conoid. The several sections may have dilferent acoustic characteristics; for example, one section may be of paper and another section'may be of a suitable lightweight'metal, such as duralumin.

The free edge of one of the sections is provided with an integral cylindrical flange which carries a driving coil for use in actuating the diaphragm, the coil and the flange being disposed within. aconforming air gap in a magnet assembly. c

In a diaphragm constructed in accordance with this invention the entire diaphragm, which is flexibly supported at its outer edge, is adapted to reproduce the lower frequencies of the audio-range, and one section: is adapted particularly to reproducethehigher frequencies. The diaphragm vibrates :as a whole analogous to a piston over a portion of the lower frequency range and breaks up to vibrate locally at the higher frequencies. The oblique truncation-of the several sections provides a non-uniform radial transmission through the diaphragm along the elements thereof and insures desirable breaking up of the diaphragm whereby speech and music may be translated faithfully and efficiently over a large portion of the audiofrequency spectrum.

The invention will be understood more fully and clearly from the following de-' tailed description with reference to the ac companying drawings in which:

F1g. 1 1s a side elevational v1ew 1n crosssectlon of a movlng c011 actuated loud speaker illustrating one embodiment of this in vention; i

Fig. 2 is a perspective view of the diaphragm of the loud speaker shown in Fig. 1, with a portion broken away to show the construction more clearly;

driving coil leading-in wires;

Fig; 6 is an enlarged detail view in crosssection showing the manner in which the driving coil is associated with terminals therefor;

F ig. 7 is an exploded view showing the relation of the spider for supporting the diaphragm at one end and the mounting there-- i for, and. the current supply wires for the driving coil, in the loud speaker shown in Fig. 1;

Fig. 8 is a detail view partly in cross-section of the external terminal and mounting assembly for thedriving coiland for the field coil of the magnet; and

Figs. 9 and 10 show comparative response characteristics for loud speakers embodying diaphragms of forms known heretofore and Fig.111 a response characteristic for a loud speaker embodying a diaphragm constructed in accordance with features of this invention.

Referring now to the drawings, in one embodiment of this invention the loud speaker comprises a casting of magnetic material having a central pole 10 and an outer pole 11 disposed about the pole 10. A. circular pole piece 12 is positioned on the central pole 10 by dowel pins 13, only one of which is shown,

and is secured in position by bolts 14 extending through thepole piece. 12 and threaded intothe central pole 10. A pole piece 15 having a circular openingis concentrically positioned about, the pole piece 12 by dowel pins 16,0nly one of which is shown,.to form a narrow annularair gap'and is secured to the outer pole 11 by a plurality of bolts 17 threaded int-o the pole 11. The dowel pins 13 and 16, accurately position the

pole pieces

12 and 15 with respect to each other and insure the proper relation thereof if the pole pieces are removed and then replaced upon the poles 10 and 11, for example to'allow repair or replacement of a field or magnetizing coil 18, which. encircles the center pole 10. The coil 18 is electrically connected to terminals 1 9 by leading-in conductors 20. The terminals 19 .are mounted upon an insulating block 21 'which is disposed in a pocket or chamber formed in the magnetic casting and divided by a partition 22 and is secured to the outer pole 11 by a single bolt 23. The conductors 20 extend through a bore 24 in the pole 11 and are connected to the terminals 19 as shown more clearlyin Fig. 8. The pocket; in which the terminal block 21 is disposed may be closed by a plate 25 having a suitableaperture thereinfor passage of leading-in wires for the terminals, and secured to the casting by screws 26. i

A dished metallic member 27 having a plurality of spaced apertures 28, as shown more clearly in Fig. 3, is mounted upon the annular pole piece 15 by the bolts 17 and houses and supports a large direct-acting diaphragm 29, to be described in detail hereinafter. The area of the apertures 28 is preferably such that. free outward and inward flow of the air adjacent the face of the diaphragm 29 contiguous with the member 27 is allowed so that substantially no air damping of the diaphragm 29 is effected.

The diaphragm29, as shown more clearly in Fig. 2, comprises two obliquely truncated" frusto-

conical sections

30 and 31 which are suitably secured together, as by cement, at the oblique edges to form a right frustum of a cone. One ofv the sections, for example the section30, as shown. in Fig. 3 may have a serrated edge. Although but two sections are 1 shown, it is of course to be understood that The section31 is provided with acylin drical flange 32 which may be integral therewith. The fiange 32 extends into the air gap between the pole pieces 12' and 15 and carries a cylindrical driving coil 33. The driving coil 33, as shown more clearly in Figs. Land 5, may comprise a plurality of edge-wound turnsof insulated metallic'ribbon, such as disclosed in A. L. Thuras Patent 1,707,544,,

April 2, 1929 and is suitably attached, as by cementing to an insulating sleeve 34 secured to. the flange 32.

The spider, which may be of a suitable lightweight, metal such as duralumin, includes a hub portion 35, an annular flange portion 36 which is secured to the section 31 of the diaphragm, and a plurality of flexibleradially extending arcuate arms 37 connected to the hub and

flange portions

35 and 36, respectively, and integral therewith. I The spider is mounted. upon the pole piece 12 by a bolt 38 extending through a metallic cap 39 and threaded into the pole piece 12 and accurately locates the driving coil 33 within the air gap between the

pole pieces

12 and 15. The arcuate arms 37 are flexible radially of the spider so that the coil 33 may execute rectilinear movement within the air gap.

.An extension 40 of the driving C011 33, as

shown in Fig. 4, passes through an aperture 41 in the flange 32 and is secured as by cementing, and Q3 attached to the flange 32 and to one of the arms 37 of the spider. Another extento' overlapping insulating strips 42' sion '44 of the driving coil'33, as shown in Fig. 5, passes through a slot 45 in the flange 32 and is secured to overlapping insulating strips 46. and 47 likewise attached to the fiange32 and to one of the arms 37, respectively. The extensions40 and 44 pass between insulating

washers

48 and 49, as shown clearly in Fig. 7, and through

corresponding apertures

50 and 51 in the washers 48 and hub 35, respectively, and are attached to terminal eyelets 52 mounted upon an insulating disc 53, which is seatedupon the hub 35 of the spider. The disc 53, hub 35, and washer's 48 and 49 are clamped as av unitary pileup upon a raised hub- 54 of the pole piece 12 by the cap 39 through the bolt 38.

Insulated leading-in conductors 55 are attached at one end to the eyelets 52 and pass through aligned apertures in the disc 53, hub

35 and

washers

48 and 49, throughan oblique bore 56 in the pole piece 12,and through a bore 57 in the pole 11. The conductors 55 are attached at their other ends to terminal clips 58 mounted upon an insulating block 59 secured to the pole 11 adjacent the partition 22 by a single bolt 60.

The driving coil 33 and field coil 18 may be connected in external circuits through

conductors

61 and 62, respectively which are connected to terminal clips 63 and 64 associated with the

terminals

19 and 58, respectively. I

The circumferential edge of the secton 30 of the diaphragm 29 is supported in thehou sing member 27 by an aperiodic annulus 65 of vibration absorbing material, such as felt, which is clamped between a peripheral flange 66 of the member 27 and a ring 67 by eyelets 68. The member 27 may be mounted on a bafile board or wall 69 by bolts and nuts 70 and 71, a sealing andbufi'er ring 72 of felt or the like being disposed between the clamping ring 67 and thebafile or wall 69.

The diaphragm is freely vibratile substantially as a whole in response to impulses produced by currents of speech and music frequencies flowing in the driving coil 33. The

sections

30 and 31 of thediaphragm are effective for frequenciesin the lower portion of the audio-frequency range, while the section 31 is particularly effective at the higher frequencies. Because of the oblique truncation of the

sections

30 and 31 the time of propagation ofwaves along diflferent radial elements of the diaphragm is-unequal in contrast with a single piece diaphragm or one composed of joined right frustums of conoids. Furthermore, a diaphragm constructed in accordance with this invention is capable of eiiectively reproducing speech and music with uniformity and fidelity over a wide range of frequencies without the introduction of objectionable subharmonics.

Some ofthe features of a diaphragm constructed accordance with this invention,

will be seen that a pronounced peak occurs in the response at about 3000 cycles and that the response between approximatelylOOO and 2000 cycles varies greatlyfrom the mean response between 60 and 1000 cycles. It will be evident thata device having a characteristic of the general form shown in Fig. 9 will reproduce the frequencies in the upper portion of the audio-frequency range with greater efiect than the lower frequenciesand that an unfaithful and non-uniform transmission of speech and music will necessarily result. 1

Fig. 10 illustrates the response characteristic of adevice embodying a diaphragm of a greater solid angle than that of the diaphragm of the device corresponding to Fig. 9. It will be seen that although the responsecurve shown in Fig. 10 is less irregular than that shown *in- Fig. 9, a sharp cut-01f efi'ect occurs at about 3000 cycles and that the diaphragm is satisfactorily efi'ective only between about 60 and 3000 cycles. i r Fig. 11 illustrates the response characterlSl'ilC'Of a loud speaker of the general construction shown in 1, embodying a diaphragm in accordance with this invention. From this characteristic it will be evident that a very uniform response is obtained between substantially 60 and 5000 cycles and that the mean response for the'upper portion of the translated range, say between 1000 and 5000 cycles is substantially equal to the mean re sponse between say 60 and 1000 cycles. The mean attenuation between say 100. and 5000 cycles is substantially negligible and the maximum variation between 100 and 5000 cycles is less than 10 decibels. (The term decibel is a unit for expressing telephone 7 transmission efliciencies and levels and is discussed and defined in an article entitled, Decibel-The Name for the Transmission Unit by W. H. Martin, Bell System Technical Journal for January 1929, page 1'). A loud speaker incorporating a diaphragm constructed in accordance with this invention will, therefore,reproduce speech and music uniformly and with fidelity over a wide range of frequencies. 7 i

The acoustic characterlstics of the diaphragm'are dependent to some degree upon the relative dimensions of the sections and 31 and upon the angle of the frusto-cone. It has been foundthat a diaphragm having an angle of approximately 120 between diametrically opposite elements thereof, and in which the average major axis of the elliptical edges of the'sections 30 and 81 is substantially one half the diameter of the base of the section 30 gives a particularly good response.

In a specific embodiment, the diaphragm 29rmay have an overall height of 2%, with bases of 1 and 12", the average major axis of the joined edges of the sections being apbases.

proximately 6".

V The mechanical motional resistance of the driving coil 33 and the mechanical impedance of the vibrating element,i. e. the diaphragm 29, drivingcoil 33, the spider, and the annulus 65, may be made substantially equal at a frequency in the lower portion of the audio range, whereby the diaphragm is substantially resistance-controlled at the lower frequencies and is substantially mass-controlled.

at the higher frequencies.

What is claimed is:

f 1. An acoustic diaphragm comprising a plurality of obliquely truncated conoidal sections joined at the oblique edges.

2. ,An acoustic diaphragm comprising a plurality of obliquely truncated conoidal sections joined at the oblique edges, said sections tapering in the same direction.

3. A large direct-acting acoustic diaphragm comprising a plurality of obliquely truncated conoidal sections joined at the oblique edges to form aright frustum of a conoid.

L-A large direct-acting acoustic dia phragm comprising a plurality of obliquely'trunca-tedsections of. circular cones, said sections being joined at theoblique edges to form right frusto-cone having concentric -5. A large direct-acting acoustic diaphragm comprising 'a plurality of obliquely truncated conoidal sections joined at the oblique edges to form a right frustum of a conoid', said sections having different acoustic characteristics.

6. A large direct acting acoustic dia-v device. 1

phragm com-prising a pair of obliquely truncated sections of right circular cones, said sections being joined at the oblique edges to. form a right frustum of a right circular cone,

ments of said frustum being substantially the angle between diametrically oppositeele one of said sections being of paper, and

the other of said sections being of a lightweight metal, the mean major axis of the joined edges being substantially one half the diameter of the larger base of said frustum.

9. A large direct-acting acoustic diaphragm comprising a plurality of obliquely truncated conoidal sections joined at the oblique edges, one of said sections having a cylindrical flange extending from the free edge thereof for attachment to an actuating 10. A sound translating device including a large direct-acting diaphragm comprising a.

plurality of obliquely truncated conoidal sections joined at the oblique edges to form a frustum ofa 'conoid, aperiodic mounting means securedt'o the baseof said frustum, and

actuating means attached to the other end of said .frustum. I V

11. A sound translating device includin a diaphragm comprising a plurality o obliquely truncated conoidal sections joined at the oblique edges to form a right frustum of a conoid, one end section having an integral cylindrical flange extending from the free edge thereof,'actuat ing means secured to saidflange, a support, and an aperiodic mounting member connecting the'free edge of the other end section and said support.

' 12. A sound translating device comprising a large direct-acting diaphragm consisting of a pair of obliquely truncated sectionsof right circular cones, said sections being joined at the oblique edges to form a right frustum of a right circular cone, the larger of saidsections being of paper and the other of said sections being of lightweight metal, said other section having an integral cylindrical flange extending from the free edge thereof, means for applying an actuating force to said flange, a support adjacent the larger base of said frustum, and an aperiodic annulus of vibration absorbing material connecting said support and said larger base.

13. A large direct-acting acoustic diaphragm comprising a plurality of obliquely truncated frusto-conoidal sections, said sections being joined at the oblique edges to form a continuous surface in which the stiffness along diametrically opposite elements is unequal. i

14. A sound translating device includingv a large direct-acting diaphragm comprising a plurality of truncated sections of right cones, said sections being joined to form a right frustum of a right cone, in which the stiffness along diametrically opposite elements is unequal, means for applying an actu-' ating force to the smaller edge of said diaphragm, and aperiodic Vibration absorbing means engaging the larger edge of said diaphragm.

15. An acoustic device including a large direct-acting diaphragm comprising a plurality of obliquely truncated frusto-conoidal sections joined at the oblique edges to form a right frustum of a conoid, means for supporting said diaphragm so that it isvibratile substantially as a whole, actuating means connected to said diaphragm, the mechanical motional resistance at said actuating means and the mechanical impedance of said diaphragm and said means being substantially equal at a frequency in the lower portion of the audio range, the acoustic characteristics of said sections being proportioned so that said diaphragm will reproduce sound energy with substantially negligible mean attenuation between 100 and 5000 cycles.

16. A loud speaker including a large direct-acting diaphragm comprising a plurality of obliquely truncated frusto-conoidal sections joined at the-oblique edges to form a right frustum of a conoid, said sections being of materials having different mechanical and acoustic properties, means supporting said diaphragm so that it is Vibratile as a whole, actuating means connected to one end of said diaphragm, the mechanical motional resistance at said actuating means and the mechanical impedance of said diaphragm and said first means being substantially equal at a frequency between 100 and 400 cycles, said diaphragm being adapted to propagate sound energy between 100 and 5000 cycles with a maximum variation less than ten decibels. I p p In witness whereof I hereunto subscribe my name this 11th day of February, 1932.

WALTER KALIN.