DE876805C - Photocomposing machine - Google Patents

Description

Photocomposing machine The invention relates to improvements in the Patent 867 651 described light typesetting machine, in particular the system for changing the font size.

The invention is shown below on the basis of exemplary embodiments Explained with reference to the drawings.

Fig. I; 2, 3 and q. show an embodiment of a disc with multiple font size sets; Fig. 5 shows letters obtained from the same die with different font.

Fig. I, 2 and 3 show in plan, in view and from the side seen a device for changing the font size and the font. It it is possible to arrange a large number of different font sizes on a drum; practical implementation, however, encounters difficulties, and it is particular difficult to photographic manufacture of such drums. The disks are easily transferable, however. With those described in the present patent specification One can mean on a disk z. B. accommodate four different print sets (style), each of which contains four alphabets, e.g. B. Antiqua, italics, bold font (grass) and small capital letters, or more if you so wish.

The disk is shown in Fig. I, 2 and 3 at Dl. She. is on a shaft D2 (Fig. i) attached, which is in a sleeve D3 stored is. On the same shaft DZ is one with a gear, D ° in engagement Gear D4 attached. The gear D5 is on one in two fixed bearings D6 and D 'bearing shaft attached to Da. The bushing D3, in which the shaft DZ is mounted is connected by arms D9 and D1 ° to a second sleeve D11 which is around a fixed shaft D12 held in two holders D3 and D4 is rotatable. The waves D12 and Da are in a curse, so that when swiveling through the cans D3, D11 and the arms D9, D16 formed arrangement around the shaft D12 the gear D4 on the gear wheel D5 rolls. The disc Dl can be adjusted without you Driven by the gear D4, the pinion D5. and the motor D15 stops. On the Wave De is where the decryption device D16 is located. From Fig. 3 it can be seen how the disk pivots about the axis Dl '. The flash lamp is shown at D1 $. The disc can assume eight different positions, which by one to one Shaft D2 ° rotatable and cooperating with an arm D21 rigidly connected to the bushing D3 Cam Dls are determined. The cam D19 carries adjustable parts D22, for example screws. Depending on the part on which the arm D21 rests, the disk brings one of the eight rows of letters arranged on its circumference in front of the discharge lamp D'8 (Fig. 2). If, as stated in patent 867,651, half a turn for the feed of the film, sixteen alphabets can be arranged on the disc. The device for controlling the receiving flash comprises on the periphery of the disc arranged, with a light source D24 (Fig. x) cooperating transparent slits D23 (Fig. 3), an optical system D25 and a photocell D26. The axis of the optical Systems D25 coincides with the axis around which the entirety of the disc supporting arms is pivotable, so that the operation of the recording system when changing the position of the disc Dl does not change, since the optical System designs a round luminous image centered on the axis of rotation Dl '. In fig. 3 the disc is shown in its middle position. A letter, a, is shown in three different positions, namely in the normal position and the two extreme positions so as not to overload the drawing. To avoid a shift of the brushes with respect to the deciphering device are the brushes D28 attached to a holder D29, which in turn is attached to an arm D3 °, so that the brushes of the angular adjustment of the disc when adjusting the same to change the font size. '.

The lenses 27 used for the photography of the letters are carried by a rotary head D31 which is mounted on one in two fixed bearings D33 and D34 mounted shaft D32. The font is changed by Rotation of the rotary head D31 to select the appropriate magnification Lens. The mechanism for adjusting the lens rotating head D31 is the same like that of cam D19. This mechanism has a gear D35, which with a pinion D36 is in engagement, the arrangement having a reduction ratio of = :. ¢ gives. The pinion D36 can be temporarily coupled to a drive shaft D3 ' which it is under control for an integer number of half revolutions a device that mounted three on the shaft of the cam D19 Disks D51 (Fig. 2). This device is shown in Fig. Q. shown in more detail.

As can be seen in Fig. Q. sees, drives the drive shaft D37 continuously rotating ratchet wheel D38. A disk D39 is attached to the pinion D36, which carries a pawl D49 pivotable on an axis D41. This jack comes with one Pivoting in the direction of the arrow under the action of an interior, not shown Spring in contact with the teeth of the ratchet wheel D38. The tilting movement of this Pawl D4 ° is normally made by the action of an angled arm D42 or D43 prevents pivoting about pivot pin D44; however, when the end of the Arm D42 is pushed forward by the plunger D45 of the electromagnet D46, the pawl D4 ° is released and swivels. It comes with the ratchet wheel D3 'in Engagement, and the disk D39 is taken until after the solenoid is released the pawl hits the arm D43 or D42, which lifts it out of the ratchet wheel D38 and so the disk D39 is decoupled from the ratchet wheel D38. One under the influence The retaining pawl D47 standing on the spring D48 acts to achieve an exact stop of the disk D39 with two teeth D49 and D5 ° together. The disc turns thus corresponding to the duration of the work of the electromagnet D46 by one certain number of half turns. For every half turn of the pinion D36 the shaft D32 rotates an eighth of a turn. The duration of the working of the electromagnet D46 is assigned cams by reversing contact blades D52 (Fig. Q.) D51 regulated. The control circuit of the solenoid D46 has the lever switch D55 and the three lever switches D53, which in practice are the contacts of the registration device can be on. When the combination of the actuated lever switches D53 and the the contact blades D52 actuated by the cams D51 are the same, closes the circuit of relay D54. This is in the position shown in the illustration the case in which the two left slats D52 and the two left lever switches D53 are actuated. When this position is reached, the relay, the electromagnet, works falls off and disengages the mechanism, which stops.

To change the lens, switch D53 to the selected Bred lens corresponding positions, whereupon switch D55 closed will. Since the relay D54 is in the rest position, the circuit is' des Electromagnet D46 closed, and this is energized and engages the clutch, which remains activated until the moment in which the circuit through the contacts D52 is closed and causes relay D54 to respond. The electromagnet D46 then drops out and disk D39 stops when the pawl D4 ° is disengaged by striking arm D43 or D42.

The device used to adjust the disc is the same Way trained. One of the main advantages of the photographic set is in the possibility of several different fonts from a single type matrix to get off. This result is obtained by photographic enlargement or reduction obtain. A simple means of achieving this result is to use it of a rotary head equipped with lenses of different focal lengths, as below Described with reference to Figs. However, it is well known to those skilled in the art that a flawless print is generally not made by using exactly similar letters can be obtained. In other words, the shape of a letter small font cannot simply reduce a letter to a larger font can be obtained. These difficulties are well known to type foundries, and the creation of a letter set from font 5 to font 16 generally requires the production of two or three different drawings, which serve as the basis for cutting the stamp.

This is done by enlarging the same, multiple alphabets different The letter taken from the font is clearly at the same height h (Fig.5). These The figure shows the result obtained by using the letter 6 font, io font and 1q font h. on the same Dimensions was brought. This drawing clearly shows the rule of disproportionality the letters of the different fonts. The greatest legibility is preserved; if the letters of the small fonts have a larger one in relation to their height Width is granted. Likewise, the thickness of the stems is generally also enlarged. This rule has arisen from practice, and it has been shown that that the widening to be given to the letters is not proportional to the font the smaller the font, the larger it must be.

According to one characteristic of the invention, these are represented by the above Rules set conditions fulfilled by simple means.

These results are achieved by combining various mechanical and optical means obtained. In order to understand the following explanations certain special features of the manufacture of the die are described.

The stencil support disks used are obtained by photographic means manufactured. The letters are drawn on a large scale on plates or sheets of paper.

The position of the letter is determined by two axes M2o and M21. The M2 ° axis determines the base, i.e. the horizontal alignment of the letters, while the axis M21 is the left gap, that is, the vertical alignment of the left end of the lines. If the letters are in the order of the sentence are photographed as described in the main patent, they stand up their left spaces, that is, on the axis M21. About the position of the letters in relation to the left margin for the different strengths not have to be changed the optical axis of the taking lens is the reference or space axis M21 cut, otherwise when changing the lens to achieve larger letters the enlarged letter would spill over to the edge. The same is for the through the axis MIO certain alignment of the case, which the optical axis also must cut. The intersection of axes M20 and M21 at point 11I22 is the point on which the optical axis of the projection lens is the letter at the moment must detect the skipping of the exposure flash.

The letters are projected individually onto a film for the sentence of the words. Each letter is projected to separate the letters from one another either the film or a reflective surface, e.g. B. a prism, a feed granted. In the following it is assumed that the feed is given to the fitting, and Let the distance s be called the feed rate by that of the fit according to the projection of a Letter must be moved forward. Let font c be the largest of the letters called the height taken, including the small amount to be left above and below Margin so that there is sufficient line spacing without the descenders interlocking and ascenders.

The usual fonts for common typographic work are 5, 6, 7, 8, g, io, ii and 14 typographical points. As already stated, requires the change of the font the change of the lens, which can be done by turning the Rotary head D31 (Fig. 3) is obtained to fit a lens with a different focal length Bring the projection axis of the letters. According to a characteristic of the invention are These lenses are designed in such a way that they do not produce images that are exactly proportional to the original but that, on the contrary, the ratio of the height to the width of the Images of one and the same letter of the die carrier disc decreases when the dimensions of the picture itself. The characteristics of each lens are also through determines the feed rates provided for each letter. It is clear that the use of special lenses that allow the desired results to be obtained, must be combined with a mechanical device which results in feed rates, which are not proportional to the font. Otherwise it would be a result of the enlargement of the areas M26 (Fig. 5), the larger the letters, the further apart Font is.

The mechanism used to control the advance is described in patent 867,651, particularly in FIG. If the letters in the different fonts were exactly proportional, it would be convenient to provide an adjustment of the drive rack by a number of teeth equal to the font, so that they are z. B. would be adjusted by six teeth for font 6, ten teeth for font io, and so on. According to a feature of the invention, this proportionality is not maintained, which - allows to obtain in an extremely simple manner the non-proportional changes in the width of the letters in the various fonts corresponding change in the feed.

If the font 14 is the largest that one wishes to obtain with the machine; one can proceed as follows: The drawings of the letters are carried out so that they correspond to the proportions desired for the font 14, and their advance is chosen so that it corresponds to a stroke of fourteen teeth of the drive rack. These letters are used to manufacture the die plate. Furthermore, the changes in the feed for the various fonts are provided so that this feed is equal to exactly the letter of the font 14 proportional feed plus z. B. is a tooth. The feed rates obtained or corrected are shown in the table below By adding percentages Pro or Writing- aler - 2 hne g report- Enlargement cone feed reduced feed of the feed the letter Teeth e teeth 5 5 6 1/5 = 20.00 / 0 6 6 7 1/0 = 17.00 / 0 7 7 8 1/7 = 14.00 /,) 8 8 9 1 / $ = 12-.5% 9. 9 io 1 / o = 1i, 0 0/0 10 1 0 il 1 / 1o = 10, 00/0 1I 11 12 1l11 = 9300/0 12 12 1 3 1/12 = 8.5 0/0 14 14 14 0 = 0.00 / 0 It can be seen from this table that the difference between the corrected advance and the proportional advance for a given font grows much faster for the small fonts, which corresponds to the result sought. Between the font 6 and the font s, the magnification is z. B. 3 0/0, while it is only 0.5 0/0 between the fonts 12 and ii.

The lenses D27 are calculated so that the widths of the letters correspond to these Corresponding to feeds. It is also possible to achieve the desired distortion to use uncorrected lenses D27 and to get the distortion by that a suitable cylindrical lens is assigned to each lens D27.

The bold letters generally require a larger feed rate than the corresponding antiqual types. This can also be achieved by increasing the displacement of the drive rack by letting it advance by n additional teeth. The increase in feed a is given by the formula a =, where c is the proportional feed or z. B. 'represents the font. The advantage of this system is that, for a given font, an increase in feed proportional to the width of the letter is obtained. The actual advance, i.e. the space provided for a letter on the film, is given by the formula S = u (-a -f- d), where u is the number of elementary units contained in the letter. This size is indicative of the relative width of the letter, e.g. B. a = 5 units, b = 10 units, w = 13 units, m = 15 units, etc .; and independent of the font. n represents. represents the number of additional teeth by which the drive rack advances, while d the proportional feed or z. B. represents the font. As an example, consider the letters i and m in font i2 (d = 12). One sets z. B. for Antiqua n = z and for i: s = 5 (1 -j- 12) = 65 elementary width units. For m in Antiqua we get s = 15 (i -f- 12) = 195 elementary width units. For the bold letters, on the other hand, we choose n = 2 and get for i: s = 5 (2 + 12) = 7o and for m: s = 15 (2 -r- 12) = 2io. Comparing these results with those given above, it is found that the increase in advance for the i is 5 additional units, while for the m it is 15 units.

It is clear that although the examples given refer only to the Increase in the ratio (Fig. 5) refer to an inverse deformation can choose to z. B. to get narrower letters. The normal feed can also be used for the antiqua for the italics by reducing the stroke of the drive rack can be reduced in size.

Claims (6)

PATENT CLAIMS: i. Light setting machine according to patent 867 651 with a continuously rotating letter carrier disk, characterized in that the disk (Dl) several series of letters or font sizes (fontes) bearing on to their axis (D2 in Fig. I) are arranged concentric circles, and that the selection of one Series of letters or font size by adjusting the axis (D2) of the disc takes place on an arc, the center of which is the axis (D17 in Fig. 3) of the holding mechanism the disk is set to the desired series or font size in the correct position to project the letters selected in this series. 2. Photosetting machine according to claim i, wherein the photography of the letters by a photoelectric Impulse is controlled, which is triggered by a photocell with a clear slit arranged on the disc and assigned to the letter cooperating light beam is generated, characterized in that the selection a series of letters by adjusting the axis (D2) of the disc (Dl) the optical axis connecting the light source (D24) to the cell (D20 in FIG. i) takes place in such a way that the same transparent slit carried by the disc (D23) to control the photography of lying on different concentric circles Letters are used. 3. Licbtsetzmaschine according to claim 2, characterized in that the disc (Dl) is made so that at the same time the determining the position slot (D23) and a letter is photographed in each of the concentric circles. q. Photocomposing machine according to claim i, characterized in that the letter disk (D1) is supported by an arrangement of arms (D9, D19), which around an axis (Dl ') is pivotable, and its angular adjustment is controlled by a cam (D19 in Fig. 3) which acts on one end (D21) of the arm arrangement and elevations (D22) various Height, each of which corresponds to a circle on which a letter series or Font size is arranged. 5. Light setting machine according to one of Claims i to q., characterized in that the change of the font is achieved by that during the production of the letter disk (D1) each letter is arranged in such a way, that their position on the disk is determined by two reference axes (M29, M21 in Fig. 5) is, and that the optical axis of the lens, which was used for recording, intersects the point of intersection (, 1T2'2) of these two reference axes. 6. Photosetting machine according to one of claims i to q., characterized in that the change of font by using a different lens (D2 'in Fig.2) for each font is obtained, which allows any desired letter, regardless of the series, in which it is located to assign the desired font.