The Progress of Invention in the Nineteenth Century - Part 13
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Part 13

[Ill.u.s.tration: FIG. 130.--LINOTYPE MACHINE.]

[Ill.u.s.tration: FIG. 131.--LINOTYPE MATRIX.]

[Ill.u.s.tration: FIG. 132.--s.p.a.cING OF a.s.sEMBLED LINE OF MATRICES.]

_The Linotype._--The most revolutionary and perhaps the most important development in the printing art of this century has been the linotype machine. The laborious, painstaking, and expensive feature of printing has always been the setting and redistribution of the types, since each little piece had to be separately selected and placed in the composing stick, and the line afterwards "justified," which means an apportionment of the s.p.a.ce between the words so as to make each line of type about the same length in the column. The same separate handling of each piece was again involved in restoring the type to the case. Machines for thus setting and distributing the type had been devised, but the operation was so involved, and required so nearly the discretion of the thinking mind, that all automatic machinery proved too complicated and impracticable. In 1886, however, a machine was placed in the office of the _New York Tribune_ whose performances astonished and alarmed the old-time compositor. It rendered it unnecessary to handle the type, or even to have any separate type at all. It was the Mergenthaler Linotype machine, which automatically formed its own type by casting a whole line of it at a time. The first machine was invented in 1884, and patented in 1885, but it was subsequently reorganized and greatly improved in Pats.

No. 425,140, April 8, 1890; Nos. 436,531 and 436,532, Sept. 16, 1890, and No. 438,354, Oct. 14, 1890. It is shown in the accompanying ill.u.s.tration (Fig. 130). By manipulating the keyboard, which resembles that of a typewriter, each lettered key is made to bring down from an inclined elevated magazine a little bra.s.s plate of the shape shown in Fig. 131, and which plate is called a matrix, because it bears on its edge at _x_ a mould of the type letter. There is a matrix plate for every letter and character used. These little matrices are s.p.a.ced by wedges, as seen in Fig. 132, and are a.s.sembled, as in Fig. 133, along the side of a mould wheel having a slot in it which forms a channel between the aligned type-moulds or matrices on one side and the discharge mouth of a melting pot, in which molten type metal is maintained in a fluid state by a subjacent gas-burner. In the melting pot there is a cylinder and plunger, and when the plunger descends, it forces the molten metal up through the discharge spout into the slot of the mould wheel, and against the letter mould _x_ of each one of the composed or aligned matrices. The wheel is then turned with the matrices, and the metal in its slot is afterwards discharged in the form of a linotype slug, seen in Fig. 134, which is a metal plate bearing on its edge a completely moulded line of type ready for setting up in the form for printing. The jagged notches in the tops of the matrices (Fig.

131) are for co-operation with a distributer bar (not easily explained) for restoring the matrices to their appropriate magazines after being used. There are altogether about 1,500 of the little bra.s.s matrices. The machine is about five feet square, weighs 1,750 pounds, and costs $3,000 each. Notwithstanding this expense these Linotype machines have to-day made their way into nearly all the daily newspaper offices of the civilized world, even to Australia and the Hawaiian Islands. In the composing rooms of the daily newspapers and the larger book printing offices we find great rows of these Linotype machines, each doing the work of from four to five men. There are now in use in America something over 5,000 Linotype machines; and in other countries about 2,000, making 7,000 in all. Each machine may be adjusted in five minutes to produce any size or style of type, and it gives new, clean faces for each day's issue, with none of the ordinary troubles of distributing type. The cheapness of composition, due to the machine, has led to an enormous increase in the size of papers, in the frequency of the editions, and has correspondingly increased the demand for labor in all the attendant lines, such as paper-making, press-making, the attendants on presses, stereotyping, etc. In the Boston Library, which keeps its catalogues printed up to within 24 hours of date, the Linotypes print in 23 languages.

[Ill.u.s.tration: FIG. 133.--CASTING THE LINE.]

[Ill.u.s.tration: FIG. 134.--A LINOTYPE.]

When the Linotype machine was first patented it was not regarded by printers generally as a practical machine, but only one of the many complicated, theoretical, but impracticable organizations which the Patent Office has to deal with. Its history, however, has been unique.

It is practically the product of the brain of a single man, Ottmar Mergenthaler, a most ingenious and indefatigable inventor living in Baltimore. It was exploited under the powerful patronage of a syndicate of newspaper men, and hundreds of thousands of dollars were spent in perfecting it before any practical results were obtained. To-day it stands a triumph of human ingenuity, ranking in importance with the rotary web-perfecting press, and is probably the most ingenious piece of practical mechanism in existence.

Of the three forms of printing attention has been given thus far only to the leading branch of the art, which is _type printing_, or "_letter press_," as it is called, in which the characters are raised in relief and receive ink on their raised surfaces only. A second branch of the art is _plate printing_, in which the lines and characters are engraved in intaglio in a plate, and which, being covered with ink, and the surface of the plate wiped clean, leaves the ink in the undercuts, which is taken up by the paper when pressure is applied through a roller.

Plate printing is a very old art, the plate printing press having been ascribed to Toma.s.so Finiguerra, of Florence, in 1460. The reciprocating table bearing the engraved plate, and the superposed pressure roller turned by hand through its long radial arms, is an ancient and familiar form of press which has been in use for many years. This method of printing finds application in fine line engraving in works of art, card invitations, and bank note engraving. Very ingenious automatic machines have been invented and were in use a few years ago by the United States Government for printing its bank notes, but have since been displaced by the old hand machines. To the credit of the machine, it should be said, that it was from no fault in the machine that this retrograde step was taken, but rather the disfavor of the labor organizations.

_Lithography_ is another and quite important branch of the printing art, in which the lines and characters are drawn upon stone with a kind of oily ink to which printers' ink will adhere, while it is repelled from the other moistened surfaces of the stone. Lithography was invented in 1798 by Alois Senefelder, of Munich. It finds its greatest application in artistic and fanciful work in inks of various colors, and its development into chromo-lithography in the Nineteenth Century has grown into a fine art. Our beautifully colored chromos, prints, labels, maps, etc., are made by this process. A more recent and quite important development of this art is photo-lithography, which will be more fully considered under photography.

Many collateral branches of the printing art are interesting in their development, such as calico printing, the printing of wall papers, of oil cloth, printing for the blind, book binding, type founding, and folding and addressing machines, but lack of s.p.a.ce forbids more than a casual mention.

Printing is perhaps the greatest of all the arts of civilization, and the libraries and newspapers of the Nineteenth Century attest its value.

If Benjamin Franklin could wake from his long sleep and enter the composing rooms of our great dailies, and witness the imposing array of linotype machines, more resembling a machine shop than a printing office, and then visit the press room and see the avalanche of finished papers flying at the rate of 1,600 a minute, neatly folded, and counted for delivery, he would doubtless be overwhelmed with emotions of wonder and incredulity, for broad-minded man as he was, he could have no conception of such progress.

CHAPTER XIV.

THE TYPEWRITER.

OLD ENGLISH TYPEWRITER OF 1714--THE BURT TYPEWRITER OF 1829-- PROGIN'S FRENCH MACHINE OF 1833--THURBER'S PRINTING MACHINE OF 1843--THE BEACH TYPEWRITER--THE SHOLES TYPEWRITER, THE FIRST OF THE MODERN FORM, COMMERCIALLY DEVELOPED INTO THE REMINGTON--THE CALIGRAPH--SMITH-PREMIER--THE BOOK TYPEWRITER AND OTHERS.

Occupying an intermediate place between the old-fashioned scribe and the printer, the typewriter has in the latter part of the Nineteenth Century established a distinct and important avocation, and has become a necessary factor in modern business life. Chirography, or hand writing, reflecting, as it did, the idiosyncrasies of each writer, was not only slow, but when employed was, in most cases, in the haste and press of active business reduced to an illegible scrawl. For the use of reporters and others requiring extra speed, stenography, or short hand, was resorted to, but there was a distinct need for some easy, quick, legible, and uniform record of the busy man's correspondence and copy work, and this the modern typewriter has supplied.

Like most other important inventions, the typewriter did not spring into existence all at once, for while the practical embodiment in really useful machines has only taken place since about 1868, there had been many experiments and some success attained at a much earlier date. The British patent to Henry Mills. No. 395 of 1714, is the earliest record of efforts in this direction. At this early date no drawings were attached to patents, and the specification dwells more on the function of the machine than the instrumentalities employed. No record of the construction of this machine remains in existence, and it may fairly be considered a lost art. In quaint and old-fashioned English, the patent specification proceeds as follows:

"_ANNE_, by the grace of G.o.d, &c., to all whom these presents shall come, greeting: _WHEREAS_, our trusty and well-beloved subject, Henry Mills, hath by his humble peticon represented vnto vs, that he has by his greate study, paines, and expence, lately invented, and brought to perfection "_An Artificial Machine_ or _Method_ for the _Impressing_ or _Transcribing Letters Singly_ or _Progressively_ one after another as in _Writing_, whereby all _Writing whatever_ may be _Engrossed_ in _Paper_ or _Parchment_ so _Neat_ and _Exact_ as not to be Distinguished from _Print_, that the said _Machine_ or Method, may be of greate vse in _Settlements_ and _Publick Recors_, the Impression being deeper and more Lasting that any other _Writing_, and not to be erased, or _Counterfeited_ without _Manifest Discovery_, and having therefore humbly prayed vs to grant him our Royall Letters Patents, for the sole vse of his said Invention for the term of fourteen yeares."

"_Know Yee_, that wee," etc.

The first American typewriter of which any record remains is that described in the patent granted to W. A. Burt, July 23, 1829. It was called a "Typographer." It had a segment bearing the letters of the alphabet and corresponding notches acting as an index. A superposed lever, which could be worked up and down, and also moved laterally, was provided with a series of type, arranged in a segmental curve, so that any type could be brought into place on the subjacent paper by swinging the lever over to and down into the proper notch in the index segment below. A restored model of this is to be found in the U. S. Patent Office.

[Ill.u.s.tration: FIG. 135.--FRENCH TYPEWRITER, 1833.]

The first organized typewriter in which separate key levers were provided for each type is a French invention. It is to be found in the French patent to M. Progin (Xavier), of Ma.r.s.eilles, No. 3,748, Sept. 6, 1833 (Brevets d'Invention, Vol. 37, 1st Series, pl. 36). It was called a Typographic Machine, and is shown in the ill.u.s.tration (Fig. 135).

Upright key levers _s_ are arranged in a circle around a circular plate _n_. They have hook-shaped handles at the upper end, and terminate below in forks that are pivoted to the shanks of type hammers, to raise and lower them. These hammers are inked from a pad, and at a central point deliver a printing blow on the paper below. The paper is held stationary, and the whole nest of levers was moved over the paper for each letter printed. The circular index plate _n_ had marked on it opposite the respective levers the letters and characters represented by said levers. Besides printing letters, the device was to be used for printing music, and for making stereotype plates.

[Ill.u.s.tration: FIG. 136.--THURBER TYPEWRITER.]

On Aug. 26, 1843, Charles Thurber, of Worcester, Ma.s.s., took out Pat.

No. 3,228 for a Printing Machine. Under the patent he constructed the machine shown in Fig. 136. This differed somewhat from the form shown in his patent, in that the machine shows a paper feed roller which does not appear in the patent. This machine was found among the effects of Mr.

Thurber after having lain neglected and unnoticed for many years, and its damaged parts were restored by Mr. H. R. c.u.mmings, of Worcester. The types are carried on the lower ends of a circular series of depressible bars, which are spring seated in a horizontal rotatable wheel. By turning the wheel any type can be brought to the front, and a stationary guide controls its descent as it makes the impression. An inking roller is seen on the right, which inks the faces of the type. In front of the type wheel is a horizontal roller to which the sheet of paper is attached by clips. Finger pawls, working into ratchets at the ends of the roller, serve to rotate it after each line is printed. By means of a handle, seen projecting from the right hand side of the frame, the roller is shifted longitudinally on its axis rod after each letter has been printed. This appears to be the first embodiment of the feed roller rotating to bring a new line into range, and having also a longitudinal feed, but as these movements were required to be separately executed by the operator, the work of the machine was necessarily very slow. Just at what time this old Thurber machine was constructed it is impossible to state in the light of present information, but as the feed roller did not appear in Thurber's patent of 1843, it is possible that the claim to authorship of the feed roller having both a rotary and a longitudinal movement may be maintained in behalf of J. Jones, whose Pat. No. 8,980 of June 1, 1852, appears to be the first dated record of such a feed roller. Jones was also the first to provide a spring to automatically retract the paper carriage to the position for beginning a new line, the spring being put under tension by the movement of the paper carriage in printing.

[Ill.u.s.tration: FIG. 137.--BEACH TYPEWRITER.]

Prominent among those whose genius has served to perfect the typewriter occurs the name of A. E. Beach, for many years of the firm of Munn & Co., and well known to the readers of the _Scientific American_. Mr.

Beach's first model of a typewriter was made in 1847. It printed upon a sheet of paper supported on a roller, carried in a sliding frame worked by a ratchet and pawl. It had a weight for running the frame, letter and line s.p.a.cing keys, paper feeding devices, line signal bell, and carbon tissue. It had a series of finger keys connected with printing levers which were arranged in a circle, and struck at a common center. This machine was said to have worked well, but was laid aside for further improvement. In the meantime he constructed a typewriter to print in raised letters, without ink. This machine, which was intended primarily for the use of the blind, is ill.u.s.trated in Figs. 137 and 138. It was first publicly exhibited in operation at the Crystal Palace Exhibition of the American Inst.i.tute in the fall of 1856, where it attracted great attention and took the gold medal. The embossed letters were printed on a ribbon of paper which ran centrally through the machine. The printing levers were arranged in a circle in pairs, one riding on the top of the other. When the operator pressed a key, the two printing levers of each pair answering to the letter key were brought together, the paper being between them. The printing type were at the extremities of the levers, one lever having a raised letter, and its mate a sunken or intaglio letter, which, seizing the paper strip between them, like the jaws of a pair of pincers, impressed therein an embossed letter. The patent for this machine was granted June 24, 1856, No. 15,164, but the machine showed a much higher degree of development than appeared in the patent.

This machine was the earliest representative of the circular basket of radially swinging type levers, combined with finger keys a.s.sembled in a keyboard at one side, which is now an almost universal feature, and the suggestion which it handed down to subsequent inventors has doubtless done much to make the typewriter the practical machine that it is to-day.

[Ill.u.s.tration: FIG. 138.--CENTRAL SECTION OF BEACH TYPEWRITER.]

Up to the year 1868, however, typewriting machines were mere ill.u.s.trations of sporadic genius occuring here and there as the pet hobby of some humanitarian seeking to help the blind, or supplement the deficiencies of the tremulous fingers of the paralytic. It had not yet come to be regarded as of any special use, nor had even the demand for such a device been forcibly felt, until the last quarter of the Nineteenth Century began to acc.u.mulate its wonderful momentum of progress and prosperity. The man whose genius finally brought forth a practical typewriter, and made a permanent place for it in the daily business of the world, was C. Latham Sholes. As joint inventor with C.

Glidden and S. W. Soule, all of Milwaukee, he took out patents No.

79,265, of June 23, 1868, and No. 79,868, of July 14, 1868. These, together with Sholes' Pat. No. 118,491, of Aug. 29, 1871, formed the working basis of the first typewriters that went into office use. These typewriters were first introduced to the general public under the management of the original inventors (Sholes, Soule and Glidden) about 1873, and at first used only capital letters. On Aug. 27, 1878, a further patent. No. 207,559, was granted to Sholes, and about this time, after five years of uncertain and precarious business existence, the machine was taken for manufacture to E. Remington & Sons, at Ilion, N.

Y. Since this time the well-known "Remington" has built up for itself a reputation and a commercial importance that has given it first place among typewriters. In the nine years from 1873 to 1882, it is said that less than 8,000 machines had been manufactured. In the year 1882 Wyckoff, Seamans & Benedict obtained control of the machine, and during the fourteen years following it is said that nearly 200,000 "Remingtons"

were made and sold. It is said that 1,000 men are now employed in making this machine, and that the present output is about 800 machines a week, despite the fact that it has a half dozen worthy compet.i.tors for public favor. The modern Remington, seen in Fig. 139, is too well known to require special description. Besides the Sholes patents, it embodies the improvements covered by patents to Clough & Jenne, No. 199,263, Jan.

15, 1878; Jenne, No. 478,964, July 12, 1892, and No. 548,553, Oct. 22, 1895, and also a patent to Brooks, No. 202,923, April 30, 1878, a characteristic feature of which latter is the location of both a capital and small letter on the same striking lever, and the shifting of the paper roller by a key to bring either the large or small letter into printing range.

[Ill.u.s.tration: FIG. 139.--REMINGTON TYPEWRITER.]

The earliest rival of the Remington was the Caligraph, made by the American Writing Machine Co. This well-known machine, introduced in the decade of the eighties, was made under the patents of G. Y. N. Yost, March 18, 1884, No. 295,469; March 17, 1885, No. 313,973; and July 30, 1889, No. 408,061. The most modern form of the Caligraph is known as the "New Century," which is shown in the accompanying ill.u.s.tration, Fig.

140. The Caligraph uses a separate type lever and key for each letter, and by a system of compound key levers the touch is rendered easy, even, and elastic, and perfect alignment and freedom from noise are among the objects sought in its mechanical construction.

[Ill.u.s.tration: FIG. 140.--NEW CENTURY CALIGRAPH.]

Next among the earlier typewriters is to be mentioned the "Hammond,"

made under the patents to J. B. Hammond, No. 224,088, Feb. 8, 1880, and 290,419, Dec. 18, 1883. A distinguishing feature of the machine is that the printed work is in full view, so that the operator can see what he is doing. The impression is made by an oscillating type wheel, to which a variable throw is imparted by the key letters to bring any desired letter into printing position. When the letter is brought into printing position a hammer, arranged in the rear of the sheet of paper, is made to force the latter against the type to produce the impression by the same movement of the key that brought the type wheel into printing position.

[Ill.u.s.tration: FIG. 141.--SMITH-PREMIER TYPE BAR RING.]

Of later machines, none has met with more popular favor than the Smith-Premier, manufactured under the patent to A. T. Brown, No.

465,451, Dec. 22, 1891, and others. A leading feature of this is the type-bar ring of its printing mechanism. In all typewriters accurate location of the impression is essential to proper alignment of the letters, and proper alignment is the _sine qua non_ of typewriting. The old pivoted type bars were liable to wear at the joint, and the slightest looseness at this point would so multiply the lateral play at the end carrying the type that the letters would soon become irregularly placed and out of alignment. In the Smith-Premier this is reduced to a minimum by making a short type bar, and arranging each upon an oscillating rock shaft, the bearings at whose ends are so widely separated as to permit little or no lateral play in the type bar. A view of this type bar ring with tangentially arranged rock shafts disposed in circular series is seen in Fig. 141, while the full machine is given in Fig. 142. In this latter view there is also shown the cleaning brush for quickly cleaning at one operation all of the types of the outer ring. It is simply a circular brush mounted upon the end of a tool resembling a carpenter's brace, and is a useful and convenient adjunct to the machine.

[Ill.u.s.tration: FIG. 142.--SMITH-PREMIER AND CLEANING BRUSH.]

In 1891 the "Densmore" typewriter first made its appearance before the public. It was named after James and Amos Densmore, who had been connected with typewriting interests from the time of Sholes' first practical machine. The Densmore is made under patents to A. Densmore, No. 507,726 and 507,727, of Oct. 31, 1893. It has ball-bearing type bar joints, giving accurate alignment and light key action, the platen rolls to show the work, and the carriage locks at the end of the line, protecting the writing.

Noted for its clear, sharp print, the "Yost" typewriter comes in for its share of praise. It is made under the patent to Felbel and Steiger, March 26, 1889, No. 400,200. It does not employ an inked ribbon interposed between the type and the paper, as do most typewriters, but its type-bearing levers, when at rest, occupy a position in which the type are all arranged within and bear against a circular inking ring or pad, and when a key is struck, its lever, by a peculiar and ingenious movement, leaves the inking pad, moves inward and backward toward the center, and then rises and strikes an upwardly directed blow in the center, and prints the letter on the paper. As the printing is done directly from the type, the letters are formed with sharp and clear outlines that give beauty and neatness to the print. Alignment is insured by a center guide hole through which the type end of the lever pa.s.ses in striking the paper.

Among machines of simple organization may be mentioned the Blickensderfer, which is a wonderfully simple and effective little machine, first made under the patent to Blickensderfer, No. 472,692, April 12, 1892. Like the Hammond, it belongs to the cla.s.s of typewriters which employ a rotary type wheel, which is given a variable throw, from the depression of the keys, to bring the proper letter into printing position; but unlike the Hammond, its type wheel advances to contact with the paper, a little felt ink-roller being brought into contact with the type wheel to ink it as the latter moves. The printed work is in full view, the line s.p.a.cing may be varied to any fractional adjustment, and the action is quite free from noise. With its mechanism reduced to the fewest and simplest parts, the whole machine weighs only six pounds, and it differs in many respects from the ordinary typewriter. Since its introduction a few years ago, its growth in popularity has been very rapid.

Another recently appearing machine is the "Oliver." This has type bars which are normally above the work. Each bar is loop shaped, hinged at its lower ends, and bearing the type letter on the bend at the upper end. They are arranged in two series, one on each side of the center, and in printing each loop swings down like the wing of a bird. As the printing is from the top, and the ribbon is moved away from in front of the line immediately after the printing blow, the writing is always visible to the operator. This machine is manufactured under various patents to Thomas Oliver, the first of which was No. 450,107, granted April 7, 1891. Further improvements are covered by subsequent patents, Nos. 528,484, 542,275, 562,337, and 599,863. The Oliver has made many friends for itself by its fine alignment and visible writing, and shares with the other standard machines a considerable patronage.

It is not practicable to give a full ill.u.s.tration of the state of the art in typewriters, as it has grown to an industry of large proportions.