US982027A - Method of making acoustic diaphragms. - Google Patents

Description

W. W. YOUNG.

METHOD OF MAKING ACOUSTIC DIAPHRAGMS.

APPLICATION FILED IA]. 2a, 1909.

Patented Jan.17,1911

WITNESSK 7 3 M 4. JNVENTOR. FIB? a/mkw. fl flaw/M I z 2 A TTORNE Y3.

WILLIAM w. YOUNG, or SPRINGFIELD, MASSACHUSETTS.

METHOD OF MAKING ACOUSTIC DIAPHRAGMS.

. Specification of Letters Patent.

Application filed January 23, 1909.

Patented Jan. 17, 1911.

Serial No. 473,819.

To all whom it may concern:

Be it known that I, \VILLIAM IV. YCUNG, a citizen of the United States of America, residing at Springfield, in the county of Hampden and State of Massachusetts, have invented a new and useful Method of Making Acoustic Diaphragms, of which the following is a specification.

My invention relates to improvements in methods of manufacturin acoustic diaphragms for talking-machines, telephones, and the like, and consists in the several steps hereinafter set forth.

The object of my invention is to produce an acoustic diaphragm, of the class indicated above, which possesses in a marked degree not only the'essential but the desirable characteristics and qualities of a device of this kind, such as durability and stability, resiliency and resonance, capability of giving out clear, loud and distinct tones of great volume and depth, and of evenly distributing the sound waves and quickly, completely and perfectly recovering its stableequilibrium, and immunity from blasts and scratching sounds and other alien and discordant noises.

In the accompanying drawings, which form part of this application, and in which like characters of reference indicate like parts throughout the several views Figures 1 and 2 are side views of two diaphragms made in accordance with the new method, showing different formations and arrangements of the lesser or minor diaphragms, and l igs. 3, 4, 5, G and 7 are sectional views of five diaphragms, on an enlarged or exaggerated scale, illustrating different combinations or arrangements of the diaphragmforming elements, incident to the put-ting into effect of said method.

Before explaining how the new diaphragm is produced, I wish to state that said diaphragm may be made individually, that is, by itself, or a sheet or strip may be prepared and the diaphragm cut from this, whichever way is most practical with any given material or materials. For the sake of brevity I will apply the following description to a single diaphragm, butas just stated this diaphragm might be a art of a strip or sheet from which it is to e cut at some particular stage or at the end of the manufacturing process.

First I take a disk of some suitable material and which has been perforated in some suitable manner and apply with a brush. or otherwise a compound, solution, mixture or emulsion which possesses the necessary quallfications; next I cover one or both sides of said disk with a thin diaphragmal integument or integuments and apply more of the compound, solution, mixture or emulsion as before; then I partially dry the disk thus prepared, by exposing it to air or subjecting it to heat; then I subject said disk to pressure between steel plates or the like, and finally I bake the disk. The only important changes in this method, that is to say, im portant as affecting the structure of the resulting product which is the finished diaphragm, consist-fir st, in using two disks, of what may be termed the base material of the diaphragm, instead of one, by placing the second disk over an integument on the first disk, the perforations inboth disks being in" correspondence and separated by said 'n':a terial-having perforations 2 therein, 3-3

represent integuments on both sides of said disk, and 4 represents a lesser diaphragm across each of such perforations, is the resulting product of the method-as first outlined. Slightly modified resulting products ofthe method as explained appear in the next three views, in which Fig. 4 shows a diaphragm proper which comprises two perforated disks 1 with a single integument 3 between to form the lesser diaphragm 4; Fig. 5 shows a diaphragm proper which comprises a perforated disk 1' and two integuments 3 and 5 of different materials on one side of said disk to form the lesser diaphragms 4; and Fig. 6 shows a diaphragm proper which comprises a perforated disk 1 and ,two integuments and 5 of diiferent materials on o iposite sides of said disk. That in so far as the merits of my invention are concerned one diaphragm is as good as another and that all are, to all intents and purposes and from a patentablestandpoint, substantially alike and produced in substantiall the same way are self-evident facts. In e Fig. 3 diaphragm the inte ments 3 at the time they are applied to t e disk 1 should be pressed into the perforations 2 and into contact with each other, so that in the finished diaphragm the rtlons of said integumerits that are in said perforations and which form the lesser diaphragms 4 will be firmly stuck or ,cemented together and will therefore be strong and durable. And in the Fig. 6 diaphragm the integument 3 is pressed into the perforations 2, at the time of manufacture, and caused to adhere to those portions of the integument 5 which cover said perforations, as shown.

Various materials for the disk 1 may be employed, among which mention is ma e of mica, wireauze, sheet-metals such as aluminum, stee ,etc., and fibrous materials such as more or less heavy paper and cardboard or bristol-board, blotting-paper, and the like. The employment of sheet-iron and some other metals renders the diaphragm fit for telephone purposes.

The perforations 2 should be clean-cut holes in the disk 1, and they may be of various shapes and sizes, arranged in any desired form regularly or irregularly, and more or less numerous. In the first two views there are shown lesser diaphragms 4 which are outlined by perforations that differ considerably, and from this it is clear that there is almost no limit to the different designs that may be given such perforations both as to outline and arrangement.

The material or combination of materials used for coating the disk or disks 1 and the integument or integuments 3 or 3 and 5 must be of such a nature that the same will adhere firmly to the base material of the diaphragm, that is, the disk or disks, and cause the integument or integuments also to adhere firmly to, said base material or to each other, and whereinteguments are employed on opposite sides of the disk to cause them to stick together in or through the perforations 2 furthermore, the nature of the coating must be such that it will so unite with the other elements and harden during the process of manufacturing the diaphragm as to produce the stable and otherwise excellent device sought for. I have found that a coating which consists of silicate of soda,

oxid of zinc, plaster of paris and Barytes, gives most excellent results, the silicate of soda comprising about 95 per cent. of the emulsion thus produced, and the other ingredients comprising the other 5 per cent. in proportions of about one-third each. This emulsion when properly applied to the other elements, pressed and baked, cements such elements together and unites with them, even when the base material or one of the integuments or both is or are metal, to form a diaphragm which possesses the qualities hereinbefore enumerated. I do not, however, intend to confine myself to any particular coating material or materials since the range of materials useful for this purpose is large. In this connection baking japans and varnishes may be mentioned as suitable materials for the coatin Tissue paper, silk, Ii nen, and various other thin fabrics are exceedingly well fitted for the integument or integuments 3 out of which may be formed or by means of which may be produced the lesser diaphra s 4. These fabrics take the coating nice y, adhere firmly to the base materlal, and furnish lesser diaphragms of the ri ht char acter. For the inte ent 5, w ich also may enter into the ormation of the lesser diaphragms 4, as stated, I prefer to employ very thin metal such as metal foil, because this takes the coating well, and the results obtained therefrom aoousticall are of the best, even when the foil is u alone without the fabric, as it may be.

The artial drying b either exposure to air which is substanti y free from mois ture or subjecting to direct heat is a step in the method which will be readily understood and needs no further explanation, and

the same is true of the pressing or compresplied to the diaphragmal members and pressed into or against them as the case may be, and thus firmly, completely and permanently to unite the several materials into an integrate structure. With some metal disks and integuments and the aforesaid emulsion, while the latter does not, of course, enter the metal as it does fiber and fabric to a greater or less extent, nevertheless said emulsion apparently forms a chemical combination with the metal when baked, and probably does so.

. The perforations 2 are made in the disk 1 when said disk consists of wireuze just the same as when it *consists'o material which is imperforate originally.

It is not imperative that two integuments, when that number is used, shall meet to be united in or through the perforations 2, although the structure is stronger when they are so united and it is thought that the desirable acoustic properties of the diaphragm as a whole are enhanced thereby.

Each of the diaphragms pro r or major diaphragms shown in the rawings includes a plurality of lesser or minor diaphragms, 4, but there might be only one minor diaphragm in each case and that one exceeded. As examples of such additional variations, I desire to call attention to the following, from which it is obvious that,

the different combinations or arrangements of disks and integuments that may be resorted to are quite'numerous. The metalfoil integument 5 may be substituted for the fabric integuments 3 in the Fig. 4 arrangement, or said integument may be introduced into the Fig. 4 arrangement while still retaining said integument 3. In this last example, however, instead .of combin ing only the twointeguments 3 and 5, as in Fig. 5, with the second disk 1 added, I may introduce a second integumentfi so that the integument 5 shall be betweenthe two in teguments 3 and these three between the two perforated disks. Fig. 7 illustrates the lastmentioned arrangement or combination. Foil integuments 5 may be used in the Fig.

3 arrangement, but they need not necessarily meet in or through the disk perforations.

What I claim as my invention, and desire to secure by Letters Patent, is-

The. method of making acoustic diaphragms, of the class described, consisting in applying a suitable moist coating to a perforated base material member and uniting a diaphragmal integument with such base material member, such integument being thinner than the base material member and extending across the perforation therein to form a lesser diaphragm, in applying such moist coating to the united parts externally, in partially drying, in pressing, and

in baking.

\NILLIAM V. YOUNG. Witnesses:

F. A. CUTTER, A. C. FAIRBANKS.

Images