Part 7 (1/2)

The reduction of the hand-lever movement to its simplest and most powerful form is now seen in the Was.h.i.+ngton hand press, devised by Samuel Rust, of New York, in 1827. His patent was later purchased by R. Hoe & Co., who made nearly seven thousand of these presses in different sizes and still make many of a greatly strengthened pattern for taking fine proofs from photo-engraved plates. Some of these presses made before 1850 are still in use, and occasionally one hears of a Was.h.i.+ngton hand press being used for printing upon handmade paper an edition of a small and limited number of copies of a book. Of all the hand presses, this is the only one that has survived to the present day.

With the introduction of other means for applying power than the hand-lever, a distinction came to be drawn between printing _presses_ and printing _machines_. The term ”machine” might perhaps be more appropriately used for the huge printing presses of the present day, yet, as the first essential is the impression power, all other features being subordinate, the term ”press” is still the proper one to apply, even to the greatest combination of printing units yet devised.

The ”bed and platen” system of printing as first used in hand presses occupies such an important place in the history of the book-printing press that a further description of its career is necessary.

In December, 1806, Friedrich Koenig, a Saxon, who later gave to the world the first practical cylinder press, went from Germany to England to seek a.s.sistance in carrying out his plans for the construction of a greatly improved printing press, having failed in his efforts in his own country and in Russia. He succeeded in enlisting the support of Thomas Bensley, a London printer, and constructed a press in which all the operations but laying on and taking off of the sheet were performed mechanically.

An accurate description of this press is not extant, but it is known to have consisted of a large wooden frame, a platen worked by a vertical screw and gears, a type-bed drawn forward and backward by means of straps fastened to a large roller underneath the bed, a tympan frame and frisket arranged to open and close automatically with the movement of the bed, and an inking apparatus, consisting of an ink-box with a narrow slit in the bottom through which the ink was forced by a piston upon a roller below, from which it was transmitted by two intermediate rollers to another and lower roller which inked the form as it pa.s.sed underneath. The two intermediate rollers had an alternating, lateral motion which spread or distributed the ink sideways before it reached the lowest roller.

This press was the first to have ink-distributing rollers and the first to be run by steam power. In April, 1811, the ”Annual Register”

for 1810 was printed on it by Mr. Bensley at the rate of eight hundred impressions an hour. Nothing further is recorded about this press, and it was probably abandoned as being too complicated.

In the following year, Koenig's first cylinder press was completed, to be followed two years later by an improved cylinder press made for the _London Times_, which will be referred to farther on.

In his experiments, the Earl of Stanhope had tried, without success, to find a subst.i.tute for inking-b.a.l.l.s by making rollers covered with different kinds of skins. He also tried other materials, such as cloth, silk, etc., but the unavoidable seam and the impossibility of keeping these materials soft and pliable defeated his purpose. About 1813 inking-rollers made of a composition of glue and mola.s.ses came into general use, and this important invention was of great a.s.sistance in the further improvement of the printing press.

Other cylinder presses with mechanical inking appliances were devised and patented, the most notable of which were those of Rutt, Bacon, Cowper, Applegath, and Napier, but the mechanical imperfections of these presses unfitted them for the better grades of book printing.

Further efforts were, therefore, directed to increasing the output of the bed and platen presses by the application of improved inking devices, sheet-feeding, and impression mechanisms. About 1825 there was constructed by D. Napier, a machinist in London, a press containing such appliances which produced six to seven hundred impressions an hour. Other presses constructed upon the same principle, but with two type-beds, two sets of friskets, two inking mechanisms--and only one platen, in the centre of the press--were made by Hopkinson & Cope and by Napier, and were known as ”double platen machines,” though this is really a misnomer as there was only one platen.

Napier's invention achieved the greatest popularity and came into general use. At each end of his press there was an inking device, a type-bed, and a frisket, each set of which operated alternately with the other, but either could be made inoperative if the ”feeder,” or ”layer-on,” failed to place the sheet in time. Four boys, besides the printer, were required--two to lay on, and two to take off the sheets.

When the type-bed and the frisket carrying the sheet of paper were in position under the platen, the latter was drawn downward to make the impression by means of a ”toggle” joint which acted upon two strong rods, one on each side, and was then raised again by a counterbalance weight. Owing to the awkward method of handling the paper, the working speed of the press was necessarily slow, and the size of the sheets limited to double royal, or 25 40 inches.

The best presses of this type were those devised and patented by Isaac Adams, of Boston, in 1830 and 1836, and by Otis Tufts, also of Boston, in 1834. R. Hoe & Co., of New York, acquired Adams' business in 1858 and continued the manufacture of his presses. Over one thousand in many different sizes were made by this firm, the largest printing a sheet 33 46 inches at a working speed of one thousand impressions an hour. The last Adams press was made in 1882, but quite a number are still in use in prominent printing-offices in New York, Boston, and a few other cities, where the results on fine book work are still considered better than from the faster cylinder presses. The mechanical principle employed in the Adams press for exerting a flat, parallel pressure has now been generally adopted for heavy stamping and embossing presses.

To go back to the early part of the nineteenth century, when Koenig found his bed and platen press impracticable, he immediately set to work, a.s.sisted by one of his countrymen, Andreas Bauer, a mechanic who had helped him formerly, and in the latter part of 1812, the first flat-bed cylinder press was erected by them in Bensley's office. The cylinder of this press had three impression surfaces with s.p.a.ces between them, and each covered with a soft blanket. With each forward movement of the type-bed the cylinder made one-third of a revolution and then came to a standstill, while the bed returned to its starting-point. The s.p.a.ces between the impression surfaces allowed the type-form to pa.s.s under the cylinder without touching the blankets. At the end of the cylinder and at equal distances along its circ.u.mference were hinged three frisket frames, each fitted with tapes having reel springs at one end. The frisket frame of the uppermost impression surface rested in a vertically inclined position against the high framework of the inking mechanism. The sheet of paper was placed upon the blanket, and the cylinder then turned forward, drawing the frisket frame down with it, while the tapes, kept taut by the reel springs, adjusted themselves to the curvature of the cylinder and held the sheet upon it. After one-third of a revolution, the cylinder came to a stop to let the type-bed return. On the next forward movement of the bed and the next one-third of a revolution of the cylinder, the impression was made, and on the next repet.i.tion of these movements, the sheet was taken off by hand, and the cylinder returned to its original position to have another sheet placed on the first frisket.

At every complete revolution of the cylinder and three complete reciprocating movements of the bed, three sheets were printed.

The inking mechanism was similar to that employed on the bed and platen press, but the mechanism for forcing the ink through the slit in the bottom of the fountain was improved. The inking-rollers were covered with leather as before. The type-bed was moved by a very ingenious mechanism which is in use even at the present time, and is described farther on, when the two-revolution press is mentioned. The different parts were not connected with each other, the cylinder, the type-bed, the inking-rollers, and the fountain being operated independently by separate driving mechanisms. This press printed eight hundred sheets an hour, on one side. A part of Clarkson's ”Life of William Penn” was printed on this press, and was the first book ever printed on a cylinder press.

Printers and publishers were sceptical as to the practical value of this novel invention, but Mr. John Walter, the proprietor of the _London Times_, with better foresight than the others, and needing increased facilities for printing his paper, contracted for two presses, each to have two impression cylinders. These were constructed for him with great secrecy in a building adjoining the pressroom of the _Times_, and on November 28, 1814, the entire edition of that paper was printed on them,--the first cylinder presses driven by steam power.

The mechanical principles were the same as in the first cylinder press. There were two impression cylinders, but only one type-bed, and the latter had, therefore, to travel a greater distance than in the single-cylinder press. This made it impossible to obtain quite double the output of the single-cylinder press, but each of these new presses produced eleven hundred impressions an hour, a very respectable performance for that early stage. The threefold motion of the cylinders was retained, but the frisket frames were displaced, and tapes running over rollers and underneath the cylinders held the sheets against the impression surfaces. An improvement was also made in the inking mechanism by the addition of an intermediate roller between the fountain and the upper distributing cylinder roller.

The next step in advance was the construction of the first of the so-called perfecting presses, which was patented, December 24, 1814, and erected in Mr. Bensley's office in 1815 or 1816. This press had two type-beds and two impression cylinders, one of each near either end of the press. The cylinders instead of having a threefold motion revolved continuously. The circ.u.mference of each corresponded approximately to the distance traversed by one of the beds. The part of the cylinder which made the impression was a little larger in diameter than the remainder, the low portion giving the necessary room for the type-bed to return without touching it. The board from which the sheets were ”fed” was near the centre of the press, and at the top adjoining the feed board was an endless belt made of cloth as wide as the board and running with an intermittent motion over two rollers.

The sheet of paper was laid upon this belt, which then moved forward, carrying the sheet between the tapes and leading it to the top of, down and around, the first cylinder where it received the first impression. Thence the sheet was conveyed by the tapes to the top of and around the second impression cylinder and was printed on the reverse side, that is ”perfected,” and it was then taken from the lower side of the second cylinder by hand and laid upon a board in the centre of the press, between the two impression cylinders and underneath the feed board. This press printed both sides of a sheet 21 34-1/2 inches at a speed of nine hundred to one thousand an hour.

Shortly afterward a single-cylinder press was constructed upon the same principle, the forerunner of what is now known as the single large or drum cylinder press.

Within the next few years, Applegath and Cowper greatly simplified the presses in the _Times_ and in Bensley's office by removing many of the gear wheels. They also invented the first inking-table, a flat, iron plate attached to the type-bed which enabled the rollers to distribute the ink more evenly than before. They placed rollers at an angle across the ink-table and introduced the revolving roller and the sc.r.a.ping blade in the ink-fountain.

More important, however, were Napier's inventions about 1824, of ”grippers” which seized the sheet of paper at its front edge and drew it from the feed board, while the cylinder was in motion, and of a method of alternately depressing and raising the impression cylinders on the forward and backward stroke of the type-bed, making it unnecessary to have a part of the cylinders of smaller diameter than the rest to allow the type to pa.s.s under it as the bed returned. This made it possible to use cylinders of a smaller diameter. These improvements were first embodied in a perfecting press made for Hansard, a London printer.

Although a number of presses were already being operated by steam power, Hansard, in his description of the Napier bed and platen press (the ”Nay-Peer,” he called it) finds a peculiar advantage in that ”it supersedes the necessity of steam power, as the motion of this machine is gained by two men turning a fly-wheel which acts as the impelling power.”

I have described the development of the printing press up to this state with considerable detail, because it discloses the main principles of the book press of the present day. During the first quarter of the last century, the manufacture of cylinder presses was confined to England, not only because London was then the leading centre of civilization, but because nowhere else could be found the mechanical facilities for constructing the large metal frames and parts. Koenig left London for his native land in 1817, dejected by the treatment he had received at the hands of Bensley, both in financial matters and in the attempts to disparage his achievements. He was followed two years later by his friend Bauer, and together they founded the firm of Koenig & Bauer at Oberzell, where it still thrives as one of the largest factories in Germany.

It was not long, however, before the United States took the lead in the number of presses manufactured as well as in their improvement, and the present high state of efficiency of American presses makes them models which are copied in all other countries. These improvements and the perfections of details often presented problems which were more difficult to solve than those of the earlier inventors, and thousands of patents have been granted to Americans for new and ingenious devices.

The firm of R. Hoe & Co., which as early as 1822 was already engaged in the manufacture of hand-presses in New York, commenced about 1832 to manufacture flat-bed cylinder presses, beginning with the single large or drum cylinder press which was followed soon afterward by the single small cylinder and the double small cylinder press, the flat-bed perfecting press, the stop-cylinder press, the two-revolution press, and the rotary book press. They also made and are still making large newspaper and color presses which are used all over the civilized world, but of these we will not treat here.