BE511010A - - Google Patents

Description

       

   <Desc / Clms Page number 1>
 



  PROCEDURE FOR OBTAINING REPRODUCTIONS BY CONTACTS: .. FROM DRAWINGS TO
PENCIL NOT INKS.



   This invention relates to a novel, simple and inexpensive process for obtaining reproductions, blueprints and the like, of non-inked pencil drawings, characterized by excellent contrast, precision of reproduction and readability which does not exist. 'had been obtained until now only when these prints were printed using clichés drawn in ink.



   In general, the main object of the invention is to solve a problem which has long been posed in the industry, that is, how to obtain inexpensively reproductions of art. a great degree of perfection, of non-inked drawings drawn in pencil.



   In other words, a main object of the invention is to obtain excellent reproductions of drawings while avoiding the expensive and / or time-consuming processes which were heretofore considered necessary to obtain such. reproductions of comparable quality.



   The losses of time avoided by the present invention are those of ironing in ink or of tracing in ink all the lines in pencil of an original drawing, operations which required great skill and wasted a great deal. time consuming and which always presented difficulties when it came to correcting, modifying or developing a finished drawing or layout.



   In recent years, urgent demands from the war industry to obtain, regardless of price, the best achievable reproductions obtainable from uninking industrial designs, have revived the print. reproductions starting from negatives or photographic positives made on special films capable of offering greater contrast between

 <Desc / Clms Page number 2>

 lines and background than that obtained on a paper-backed light-sensitive layer, employed in the same way.

   There are kinds of light sensitive films prepared with some care for the purpose just mentioned, some of these films being of the reflection type, on a surface of which there is a removable screen provided with lines or of extremely fine divisions. These special films reproduce the dark gray of a pencil line as if it were a black line, due to the contrasting nature of the sensitive layers of the film. In other words, these light-sensitive layers are made to produce a black or white image, virtually devoid of intermediate tones. This is why, frequently, gray pencil lines, too weak to be reproduced in solid black, could not (completely or partially) be recorded on these films.

   Consequently, these special films, despite the relatively high cost of their use, have not provided a satisfactory solution to the problem of the rapid and perfect reproduction of uninked drawings made in pencil.



   Another object of the invention is to avoid the use, and the excessive cost, of light sensitive films as intermediaries between inkless pencil drawings and their reproductions.



   Yet another object of the invention is to effectively protect, against soiling, non-inked pencil drawings made by the present method.



   The invention, as it is preferable to realize it, consists in carrying out a drawing by means of a special pencil, the strokes of which contain an ingredient which is an effective absorbent of a certain band of light waves. pre-selected and appropriate, or which is intended to react and reacts with an ingredient of a coating subsequently applied to the surface of the pencil drawing, to become an effective absorbent of that particular waveband, that coating being preferably of the nature of a lacquer or varnish applied by spraying and being, after application, slightly mobile for the reasons which will be explained below.



   The drawing is not inked. The final effect of the co-operation of the filler and the pencil line ingredient which is or can become an absorbent. of the pre-selected band of light waves, is to give vigor and sharpness as well as continuity to the reproduction of the pencil lines of the drawing reproduced on a "blue", a "diazotype" or other equivalent sensitized sheet, by passing the appropriate pre-selected band of light waves through the design sheet.



   Other objects, characteristics and advantages of the invention will emerge from the description which is given below with reference to the accompanying drawings.



   Fig. 1 of the drawings reproduced in A a photo-micrograph, enlarged approximately 32 times, of a line drawn by one of the special pencils according to the invention (that is to say a pencil having in the latent state in its "lead" or tracer element, an absorbent of ultraviolet light) onto a sheet of ordinary drawing paper or tracing paper, and onto which has been sprayed one of the special suitable coating compositions according to the specification. invention. Micro-photograph A was taken in visible light and with visible light.

   Fig. 1 also reproduces in B a micro-photograph of the same line as A, with the same magnification and identical in all other respects, except that for the execution of micro-photograph B the drawing was illuminated only with ultra light -violet (wavelengths in the range of 3500 Ang to 4000 Ang.).



   Fig. 2 shows, on a considerably enlarged scale and in cross section, a line drawn with the same pencil on a sheet of drawing paper or ordinary tracing paper. The line width is indicated in C and the paper thickness in D.



     Fig. 3 shows in a similar way the elements of FIG. 2 after a coat of plaster E has been sprayed onto

 <Desc / Clms Page number 3>

 the surface of the sheet bearing the pencil drawing and after the desired chemical reaction between the spray coating layer and the particles of the pencil line, indicated at F, has taken place. It can be assumed that the completed reaction is limited to the cross-hatched cross-section G and is highlighted by these cross-hatching.



   Fig. 4 is a view similar in general to Figure 3, but showing a variant of the invention which gives contact reproductions of the type with dark lines on a light background.



   The expression pencil drawing "used here means any uninked drawing of a mechanical or architectural character or other industrial or artistic design executed in pencil on a sheet of drawing paper or tracing paper, cardboard, canvas or the like. appropriate drawing sheet.



   The word "pencil" used here means any tractor device, usable for the execution of drawings, which leaves a speckled and not continuous trace, characteristic of pencils and pastels, as opposed to the unspeckled and continuous trace characteristic of the lines with the. ink.



   The term "contactga reproduction as employed herein means any kind of" blue "," diazotype "or other reproduction of a design obtained by the action of light passing through a sheet of design to reproduce the images. features of the design on a suitably supported light sensitive sheet or layer.



   The prerequisite for the preferred embodiment of the present invention is the use of a pencil which, in the execution of a design, leaves in its traces an ingredient of the nature of an active or latent absorbent. a pre-selected band of light waves, which cooperates as explained below with a suitable coating which is applied to the surface of the drawing drawn in pencil, before the execution of a contact reproduction .



   The tracer or "lead" element of the pencil preferably does not include lead in its composition and belongs to one of the well known kinds of compositions or ceramics usually containing graphite as a pigment. The latent or active ingredient, with absorbing power of light, that the pencil leaves in its lines or marks (in addition to the pigment) can, as has been said previously, be advantageously incorporated into the lead. pencil, in either of two practical ways, namely: 1) A lead free of wax and sufficiently porous can be impregnated with this ingredient by immersion for several hours or more in a solution of this ingredient. ingredient;

   2) This ingredient may be contained as the initial constituent of the pencil lead along with other of its initial constituents, which constitutes a method which has been found desirable for the manufacture of non-ceramic leads. which do not require high temperatures for their production. Heretofore best results have been obtained by employing leads of the non-ceramic composition type comprising a binder of tragacanth, methyl cellulose or the like; these leads and the processes for their manufacture are well known in the manufacture of pencils.



   The lead of the special pencils according to the invention can be enclosed in a wooden casing or be used in a mechanical pencil, or otherwise.



   When the contact reproduction is to be drawn in bright lines on a dark background, for example an ordinary "blue" and an ultraviolet light band (3000-4000 Ang) is the light to be used for the reproduction. pull, it remains in the marks left by the pencil, as an ingredient to cooperate with the covering composition which is to be applied subsequently, an ultraviolet light absorber, for example a latent ultraviolet light absorber or a active absorbent of ultraviolet light, or such a latent absorbent accompanied by such an active absorbent.



  Presently, the best results have been obtained by employing either a latent ultraviolet light absorber or a latent ultraviolet light absorber.

 <Desc / Clms Page number 4>

 ultraviolet material accompanied by an active absorber of this light, as an element or characteristic elements of the pencil lead, and it is preferable to do so.



   As an ingredient of the pencil lead constituting an ultraviolet light absorber, it is currently preferred to use beta-methyl umbelliferone (7-hydroxy-4-methyl coumarin), but instead of the latter, it is possible to use: other compounds of the class of hydroxy coumarins which absorb light in the range of 3000 Ang to 4000 Ang; or naphthylamine sulfonic acids, for example amino acid G, which absorbs light in the same range; or vanillin (3-methoxy-4-hydroxy-benzaldehyde).



   As an ingredient of the pencil lead constituting an active absorbent of ultraviolet light, any yellow dye (a) having a high tinctorial power, (b) having a solubility in the dissolving component of the coating applied subsequently to the coating can be employed. surface of the drawing drawn in pencil, and (c) having the property of absorbing light in the range of 3000 Ang to 4800 Ang. Examples of these dyes are picric acid; N du Pont Oil Yellow, dye index n 19, which is a simple monoazo dye without sulfonic or other water soluble groups, and para nitrophenol.



   As a latent absorber of ultraviolet light accompanied by an active absorber thereof, excellent results have been obtained by employing about 80% by weight of beta-methyl umbelliferone or benzyl-beta-methyl umbellifera ( 3-benzyl-4-methyl-umbelliferone) or amino acid G (2 naphthylamine-6,8-disulfonic acid) and about 20% of N du Pont Oil Yellow.



   Generally speaking, the pencil lead contains the greatest amount of absorbent or ultraviolet light absorbers compatible with the desired properties of the pencil from the point of view of writing and drawing.



   In the case of latent ultraviolet light absorbers, these preferably constitute from 8% to 30% approximately, by weight, of the pencil lead in which they are incorporated. In the case of active ultraviolet light absorbers, they preferably constitute from about 5% to 20%, by weight, of the pencil lead in which they are incorporated.



  When a latent ultraviolet light absorbent is accompanied by an active absorbent of that light, the two absorbents preferably constitute a little more than 5% to a little less than 30% by weight, of the pencil lead. .



   When the drawing contact reproduction is of the type with clear lines on a dark background, drawn on a sheet sensitive to infrared rays, and an infrared light band is the light to be used in drawing this reproduction, the lead of the pencil may contain, preferably as described above, Naphthol B du Pont green, dye index No. 5, which is a nitroso dye containing an iron complex and is a potent absorber of infrared rays of the iron. wavelength band from 7000 Ang to 9000 Ang. Naphthol B green preferably constitutes 40% or more, by weight, of the lead of the pencil in which it is incorporated and is suitable to cooperate with a water-based coating composition applied to a drawing executed by hand. using this pencil.



   As an alternative, instead of Naphthol B green, Luxol B du Pont solid green can be employed, which is derived from Naphthol B green by a manufacturing process described in US Pat. No. 1,674,128. It is insoluble in water and soluble rapidly and to a large extent in alcohol and / or in the product "Cellosolve" mentioned below. It is suitable for co-operating with a non-aqueous coating composition applied to a design executed with the aid of a pencil lead of which it is an ingredient.



   When the contact reproduction is to be of the type with clear lines on a dark background, drawn on a sheet sensitive to visible light, and a wavelength band of visible light is to be taken

 <Desc / Clms Page number 5>

 Folded for the performance of this reproduction, it is preferable to employ one of the papers sensitized with silver salts in gela- tin emulsion, which are sensitive to light in the range of about 3500 Ang to in- around 5400 Ang, with a very high sensitivity in the "blue" band from 4000 Ang to 5000 Ang. As a band of light waves to be used for making a contact reproduction on such paper, it is presently recommendable, with a view to minimize the printing time, the blue light, abundantly provided by a blue filter, such as the Wratten n 49 filter,

     which is characterized by peak transmission in the 4000 Ang to 5000 Ang band.



   A pencil lead suitable for carrying out a drawing, which is to be reproduced according to the invention by contact of the type envisaged in this paragraph, advantageously comprises the maximum practical percentage, by weight, of the '' one of the following colorings:
Luxol G du Pont Solid Yellow from the Colorant Index 636 dye as described in U.S. Patent No. 1,674,128
Orangé Huile du Pont, a monoazo dye, color index 24.



   Pont Oil Yellow, a monoazo dye, dye index 19.



   Yellow Rotalin G du Pont, a mechanical mixture of Auramine, dye index 655, and tannic acid.



   Another condition of the preferred embodiment of the invention is the use of a composition suitable for coating the surface bearing the pencil line of each of the un-inked drawings before drawing a contact proof therefrom. This composition is (a) a remover of the special ingredient of the pencil line, which is an absorbent (active or latent) of the band of light waves to be used for the performance of the reproduction by contact, and (b) is only weakly mobile when applied to the drawing. Further, when this light absorber is of the latent variety, the coating composition contains a chemical agent which reacts with this light absorber to change its light absorbing charac- ter. latent state to active state.

   Further, this plaster composition is made in such a way that when applied to the surface of the drawing drawn in pencil as previously said, it cooperates with the special light absorbing ingredient of the brush strokes. pencil to act on the drawing in regions and only in regions where the pencil lines are typically speckled, comprising three-dimensional non-speckled areas which are effectively opaque to the particular band of light waves to be used to make one or more reproductions by contact of the design. Areas of the design on which the coating does not cooperate with the special light absorbing ingredient of pencil lines actually remain translucent in that light.

   It is possible to ensure, in either of the two methods of proceeding, that the coating is only slightly mobile after its application to the design and before its drying. One of these ways is to adjust the viscosity of the coating; the other way is to spray the coating onto the design in the form of tiny globules having individual surface tensions which reduce mobility to a negligible minimum. These two ways of proceeding are to be preferred.



   One of the coating compositions according to the invention preferably comprises: a solvent such as an alcohol, a keytone or a hydrocarbon, and a resinous substance such as a vinyl, cellulose or a gum

 <Desc / Clms Page number 6>

 natural. Among the vinyls, vinyl butyral is admirably suitable. As cellulose, methyl or ethyl cellulose is suitable. As the natural gum, shellac is preferred, although Kauri gum or adra: glove gum can also be used for the intended purpose.



   Coating compositions which have been found to be very satisfactory for use as set forth below are those given below (percentages are given by weight)
COMPOSITION n 1.
 EMI6.1
 
<tb>



  Toluene <SEP> 35 <SEP>% <SEP>
<tb>
<tb>
<tb> Butanol <SEP> 5 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb> Monoethyl ether <SEP> ethylene <SEP> <SEP> glycol <SEP> (by
<tb>
<tb>
<tb> example <SEP> "Cellosolve") <SEP> 15 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb> Ethanol <SEP> denatured <SEP> commercial <SEP> 41 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb> Butyral <SEP> vinyl <SEP> 4 <SEP>%
<tb>
 COMPOSITION n 2
 EMI6.2
 
<tb> Toluene <SEP> 33 <SEP>% <SEP>
<tb>
<tb> Butanol <SEP> 5 <SEP>%
<tb>
<tb> Monoethyl ether <SEP> ethylene <SEP> <SEP> glycol <SEP> (by
<tb> example <SEP> "Cellosolve") <SEP> 13 <SEP>%
<tb>
<tb> Ethanol <SEP> denatured <SEP> commercial <SEP> 40 <SEP>%
<tb>
<tb> Diethyl <SEP> ethanolamine <SEP> 5 <SEP>%
<tb>
<tb> Butyral <SEP> vinyl <SEP> 4 <SEP>%
<tb>
 COMPOSITION n 3
 EMI6.3
 
<tb> Distilled <SEP> water <SEP> 97,

  8 <SEP>% <SEP>
<tb>
<tb> Glycerin <SEP> 0.2 <SEP>% <SEP>
<tb> Methyl <SEP> cellulose <SEP> (from <SEP> preference <SEP> 100 <SEP> cps) <SEP> 2,0 <SEP>% <SEP>
<tb>
 COMPOSITION n 4
 EMI6.4
 
<tb> Shellac <SEP> after <SEP> extraction <SEP> from <SEP> the <SEP> wax <SEP> 13.5 <SEP>% <SEP>
<tb>
<tb> Ethanol <SEP> denatured <SEP> commercial <SEP> 86.0 <SEP>%
<tb>
<tb> Aqueous <SEP> solution <SEP> to <SEP> 40 <SEP>% <SEP> of sodium <SEP> <SEP> <SEP> 00.5 <SEP>%
<tb>
 COMPOSITION n 5
 EMI6.5
 
<tb> Toluene <SEP> 72.4 <SEP>%
<tb>
<tb> Ethanol <SEP> commercial <SEP> denature <SEP> 18.9 <SEP>%
<tb>
<tb>
<tb> Octyl <SEP> phenol <SEP> 0.2 <SEP>% <SEP>
<tb>
<tb>
<tb> <SEP> commercial plasticizer <SEP> (by <SEP> example
<tb>
<tb> plasticizer <SEP> Dow <SEP> n <SEP> 5) <SEP> 1,

  5 <SEP>% <SEP>
<tb>
<tb>
<tb> Ethyl <SEP> cellulose <SEP> (from <SEP> preference <SEP> 7 <SEP> cps) <SEP> 7.0 <SEP>% <SEP>
<tb>
 
Other conditions for carrying out the method according to the invention are: A suitable drawing sheet, for example a sheet of paper

 <Desc / Clms Page number 7>

 or tracing paper which is preferably normally translucent to the particular band of light waves employed, and a suitable device for illumination (irradiation). pencil drawing 'not inked by means of this band of light waves during the printing of a contact reproduction.



   As shown in an amplified manner in Figs. 1 and 2 of the drawings, a pencil line F on a drawing sheet, appears speckled under the microscope. This is because a pencil line consists of a series of small deposits of the pencil lead on a weakly rough or unglazed surface. These small deposits do not overlap and are not continuous, but take the form of small isolated or grouped islands, of various shapes and of variable spacing along the pencil line.



   These islands are black in the case of an ordinary drawing pencil, and the spaces between the islands are white - or are the color of the area on which the line was drawn. It gives the illusion. gray as the overall color of the line - that is, dark gray where the islands are grouped in tight order (as in the case of a soft drawing pencil) and light gray when the islets are grouped in a sparse fashion (as in the case of a hard drawing pencil).

   Hard pencils are generally preferred for mechanical or architectural drawings and for many other drawings because of the large number of thin lines which can be drawn with precision before reshaping the tip of the chalk and also because lines drawn with hard pencils are less prone to smearing than lines drawn with soft pencils.



   Owing to the relatively large proportion of white (intermediate spaces) to black (sparse islands) these light gray lines do not reproduce, to much near, on the blues, or any other contact reproductions, as well. than lines drawn in soft pencil or lines in black ink.



   Since ink drawings are expensive to make, and soft pencils are quite unsuitable for tracing many kinds of drawings, the special coating composition for drawings according to the invention, of which some have been given some number of examples, is employed for the purpose of extending the light absorbing material of the sparse islands of the lines drawn with hard pencil, in the relatively large spaces between these lines.



   Assuming that a drawing has been made on a suitable drawing paper using one of the special pencils mentioned above, the lead of which acts as a latent absorber of ultra-violet light, the beta methyl umbelliferone, or another compound of the class of hydroxy karin which absorbs light in the range of 3000 Ang to 4000 Ang, or a naphthylamine sulfonic acid, for example amino acid G, which absorbs light in the range of same range.



   The drawing is not inked.



   Before making a reproduction of this drawing and preferably very shortly after its completion, its surface bearing the pencil lines is covered with a coating composition which cooperates, as the invention is aimed at, with a latent absorbent ultra-violet light made up of an ingredient in pencil lines. Such a coating composition has been described above under No. 2 and No. 4. Although this composition can be applied by means of a roller, brush, or the like, or by immersion, it is better to project it in the form of a mist, on the surface of the drawing drawn in pencil, using a sprayer or a gun using air under a pressure of 40 to 50 pounds per square inch (2.80 to 3.50 kg. per cm2) at the nozzle.

   In this way, and using only simple and inexpensive equipment, the surface of the pencil drawing is covered with a coating of substantially uniform thickness which dries quickly and does not noticeably "run". 'absorbing ultraviolet light from the parts covered by the pencil lines.

 <Desc / Clms Page number 8>

 



   The first effects of the application of the coating are (a) to transform into an active absorbent of the ultra-violet light, the ingredient of the pencil lines which until then was only a latent absorbent of this light and (b) to run a certain quantity of this absorbent from the above-mentioned islands of the pencil lines in the spaces between these islands.



   In Fig. 3, the area G hatched in a grid can be considered to correspond to the approximate area of the cross section of a pencil line covered with plaster and on which the ultraviolet light absorber, left by the pencil in the islets or speckled deposits F was well distributed.



   The change in character of the ultraviolet light absorbent from the latent state to the active state is attributable to the alkalinity of the coating, - the latent ultraviolet light absorbents, which the applicant prefers. currently being employed, being more efficient absorbers of ultraviolet light when they are in the basic state, although they can transmit this light when they are acidic or neutral.



   The fact that a certain amount of ultraviolet light absorbent from the islets flows into the interlayers thereof can be explained as follows: Solvents for the resinous element of the plaster are also solvents of the absorbent, for example beta methyl umbelliferone, present in the pencil lines. The application of a fluid solvent of the absorbent forms around each islet a small pool of absorbent which extends well beyond the periphery of this island. These small pools overlap several times in the center or middle of each stroke, while nearer the outer edges of it overlaps are less frequent, while there is virtually no overlap anywhere. or the outer edges of the line.

   The ratio of absorbent to solvent is thus considerably higher towards the middle or the axis of each line than at its edges. When such a feature is reproduced on a contact reproduction, any amount of absorbent which comes to be poured beyond the edges of the line is diluted to such an extent that it becomes ineffective, and quite insignificant when the reproduction by contact is fully exposed.



   The resinous component of the coating (and each of the coating compositions according to the invention advantageously contains a resinous component) serves two purposes. The first of these purposes is to prevent the light absorbing element, i.e. beta-methyl umbelliferone, of the pencil lines, dissolved in the coating, from returning to its crystalline form when the solvents of the plaster evaporates. The resinous component of the coating is clear or nearly clear, and one of its important purposes is to absorb or assimilate the dissolved absorbent, so that upon evaporation of the solvents the absorbent remains well dispersed and distributed in the resulting surface layer of resin or dry gum. This prevents the absorbent from reverting to its crystalline form.



   Obviously, certain light absorbing compounds which are well suited for the purposes of this invention may remain crystalline, semi-crystalline, or solid, without a resinous or thickened coating. For example, pH indicators such as para nitrophenol, ortho nitrophenol, alpha dinitrophenol, purple bromocresol, blue bromophenol, etc., only require the physical application of acids or bases under a strong force. - subject me to react with the indicator to change color and cause absorption of the pre-selected band of light waves described above.



   The above four pH indicators, for example, may, for the purposes of the invention, be sprayed onto the drawing together with simple 10% alcohol solutions of morpholine to immediately take on their basic color. , or 10% phosphoric acid to take on their acid color. These colors thus produced are sufficiently stable in the presence of carbon anhydride or other atmospheric actions to maintain the desired spectral characteristics for a sufficient time.

 <Desc / Clms Page number 9>

 ment long.



   As discussed previously in connection with beta-methyl om- belliferone deposited in pencil lines, the application of spray alcohol to these indicators deposited in a similar manner forms around each islet of the line. pencil a small pool of light absorber which extends well beyond the periphery of each island, thus filling the spaces between these islands.



   Likewise, compounds, such as certain pH indicators (eg para-nitrophenol) and dyes (such as dia- zo dyes) are so reactive that they produce a marked color change simply when are brought into contact with gases such as hydrochloric acid, hydrobromic acid, ammonia, sulfur trioxide, etc.



  The gases are applied so as to be adsorbed or absorbed by the color modifying compound. The support, for example the tracing paper, when it is suitably moistened, is thus colored by the compound which has reacted under the action of the gas, so that this hue can propagate or extend into the interposed spaces. between the islands of the pencil line.



   Another very important purpose of the resinous component of the plaster is to form a uniform light absorbing body or layer on each of the pencil lines of the drawing. This body or layer constitutes a third dimension in which a dissolved light absorber, for example beta-methyl umbelliferone, can expand or sink. In other words, a light absorbent from a pencil line propagates not only horizontally across the plane of the pencil line, but also vertically in the depth of the surface layer. Such a three-dimensional body including the light absorber becomes extremely effective as a "blocking filter" on subsequent printing of the contact reproduction.

   It very effectively fills the flat spacings between the "islands" of the pencil line with an effective absorber of the specific light wave band, for example ultra-violet light, which is to be used for the print. reproduction by contact.



   An important added benefit of the plaster is to protect un-inked pencil lines from smearing the design, while still allowing the design to be quickly corrected or changed or further detailed whenever the occasion requires. If the plaster is formed by either of the compositions 1, 2 or 4 described above, the erasing can be done much more conveniently by simply rubbing the design with a cloth or absorbent paper, for example "Kleenex" impregnated with a 50/50 mixture of alcohol and acetone. When the coating is formed by composition 5, erasing is carried out properly by rubbing the design with a cloth or absorbent paper moistened with alcohol.



   The pencil drawing, not inked, after having been coated, is brought into contact, for example in a printing frame, with a light sensitive sheet, for example a sheet of paper for printing blueprints. One face of the design, which is preferably that opposite to the side where the sensitive sheet is located, is then subjected to the rays of ultra-violet light, preferably in the range of 3500 Ang. at 4000 Ang. This ultra-violet light passes more or less freely through the background of the drawing to strike the light-sensitive sheet, but the parts of the drawing covered by the pencil lines - and by this we mean not only the islands of the lines. pencil, but also the spaces between these islands - are effectively opaque to ultra-violet light.

   As a result of these new and optimum conditions, an excellent reproduction by contact of the non-inked clay design can be obtained. Of course, the light sensitive sheet is then developed, or developed and secured, in any suitable manner.



   When the ultraviolet light absorber that the pencil leaves in its lines is vanillin or beta-methyl umbelliferone or benzyl-beta-methyl umbelliferone, or amino acid G, the element diethyl ethanolamine of plaster n 2 can very well be replaced by another base or

 <Desc / Clms Page number 10>

 alkanolamine such as monoethanolamine, diethanolamine or triethanolamine.



   When the un-inked drawing is drawn, using a pencil which leaves picric acid in its lines as an active absorbent of ultra-violet light, the surface of the drawing bearing the pencil lines is preferably covered. of coating n 1 or coating n 5, described previously. When the drawing has been carried out with a pencil which leaves para-nitrophenol in its lines as an active absorbent of ultraviolet light, the surface of the drawing drawn in pencil is preferably covered with plaster no.2 or No. 4 plaster specified above. When the drawing is carried out using a pencil which leaves in its lines Oil Yellow N du Pont, as an active absorbent of ultra-violet light, the surface of the drawing drawn in pencil is preferably covered with plaster n 1 or plaster n 5.

   When the drawing is executed by means of a pencil which leaves in its lines a mixture of Jaune Huile N du Pont with one or other of the substances (a) beta-methyl umbelliferone or (b) benzyl-beta -methyl umbelliferone or (c) amino acid G or (d) vanillin, the drawing is preferably covered with coating n 2 or coating n 4. The pencil lines containing N du Pont Oil Yellow accompanied by of one of the latent ultraviolet light absorbers mentioned in the last preceding paragraph give very good results when the contact printing has to be carried out on blueprint paper or equivalent reproduction paper, sensitive to light. visible light only in the range between approximately 4000 Ang and 5000 Ang,

   and more sensitive to ultra-violet light in wavelengths between 3500 and 4000 Ang.



   A bruise or other contact reproduction of a drawing drawn in pencil and coated with a coating as described in the previous paragraph, is obtained by placing the drawing in contact with the light-sensitive sheet and subjecting then to the radiation of ultra-violet light, preferably in the range of 3500 Ang to 4000 Ang. the face of the design on the side opposite to that on which the light-sensitive sheet is located.

   In this case, the background coated with plaster of the drawing sheet remains translucent in ultra-violet light, but the parts of the drawing constituted by the pencil lines and coated with plaster - and which include not only the islands of the pencil lines covered with plaster but also the intercalary spaces also covered with these waves - are indeed opaque to this light, and because of these new and optimum conditions, an excellent reproduction can be made. by contact.



   When the non-inked drawing is performed using a pencil which leaves in its lines Naphtol B du Pont Green, colorant index no.5, as an infrared light absorber, the surface of the drawing drawn in pencil is preferably covered with plaster # 3, mentioned above. When the drawing is drawn with a pencil which leaves in its lines Luxol B du Pont Solid Green, the surface of the drawing drawn with a pencil is preferably covered with plaster n 1.



   A drawing executed and coated with coating as we have just said is brought into contact with a reproduction sheet sensitive to infrared light. The face of the design situated on the side opposite to that on which the light-sensitive sheet is located is then subjected to the radiation of infrared light, in the wavelength band from 7000 Ang to 9000 Ang. In these cases, the parts covered with plaster which constitute the background of the drawing sheet remain translucent in infra-red light but the parts drawn in pencil and covered with plaster, that is to say both the islands of pencil lines covered with plaster that the intercalary spaces also covered with these islands are effectively opaque to this light, and by virtue of these new and optimum conditions an excellent reproduction can be obtained by contact.



   When the un-inked drawing is drawn using a pencil which leaves in its lines solid Yellow Luxol G du Pont or Orange Huile du Pont, or Jaune Huile du Pont or Jaune Rotalin G du Pont, the surface of the drawing drawn in pencil is preferably covered with no. 1 plaster or

 <Desc / Clms Page number 11>

 plaster n 5.



   A drawing drawn in pencil and coated with plaster as described in the last paragraph above is contacted with a light sensitive film in the range of about 3500 Ang to about 5400 Ang. face of the design located on the side opposite to that on which the light-sensitive sheet is located is then subjected to the radiation of blue light, abundantly supplied by a blue filter, for example the Wratten filter n 49, which is characterized by state-of-the-art transmission in the 4000 Ang to 5000 Ang band.

   In these cases, the coated surface of the bottom of the drawing sheet remains translucent to the waveband (visible blue) of the light used, but the parts drawn in pencil and coated with coating, that is- that is to say both the islands of the pencil lines covered with plaster and the intermediate spaces also covered with these islands are effectively opaque to this light, and because of these new optimum conditions an excellent reproduction can be obtained by contact.



   Most light-sensitive (silver-free) papers in common use for the reproduction of mechanical, industrial or architectural designs, etc. are sensitive in a relatively narrow wavelength range. The maximum sensitivity of these papers is usually found in the wavelength band from about 3500 to 4500 Ang. Although many papers are sensitive beyond these limits, this sensitivity is considerably lower and drops rapidly as the wavelengths of light move in either direction.



   Thus, whatever the total range of the illuminating source, no light effects the impression except that to which the covering is specifically sensitive. Consequently, the intermediate spaces between the islands of the pencil line according to the invention should have the property of absorbing light only in the range to which the coating covering the reproduction paper employed is sensitive. or reacts.



   Although at present it seems preferable to trace the design on a sheet or paper which is strongly translucent to the particular waveband of the light employed for the printing of the reproduction by contact, it is evident that it is not it is not essential that the drawing sheet used be translucent in this light if the reproduction by contact is obtained by reflection according to the well-known "reflex" technique.



   Although preference is presently given to printing contact reproductions of the lighter line type on a darker background, it is of course possible to apply the invention so as to obtain contact reproductions of the highly desirable type on a darker background. dark lines on a lighter background. By way of example, it is possible to introduce into the lead of the pencil, as a reactive constituent element, an acid such as citric acid. A drawing made with such a pencil is coated, for example with a sprayer, with a coating normally having strong ultraviolet light absorption properties and composed as follows:
COMPOSITION n 6.
 EMI11.1
 
<tb>



  Toluene <SEP> 20 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb> Butyl alcohol <SEP> <SEP> 7 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb> Ether <SEP> monoethyl <SEP> of <SEP> glycol <SEP> ethylene <SEP> 45 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb>
<tb> Butyral <SEP> vinyl <SEP> 6 <SEP>%
<tb>
<tb>
<tb>
<tb>
<tb> Isopropyl alcohol <SEP> <SEP> (from <SEP> preference <SEP> containing
<tb>
<tb>
<tb> nant <SEP> 5 <SEP>% <SEP> water) <SEP> 21.6 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb>
<tb> Benzyl-beta-methyl <SEP> umbelliferone <SEP> 0.35 <SEP>% <SEP>
<tb>
<tb>
<tb>
<tb> Sodium <SEP> hydrate <SEP> <SEP> '<SEP> 0.05 <SEP>%
<tb>
 

 <Desc / Clms Page number 12>

 
In this composition, the benzyl-beta-methyl umbelliferone is made basic and therefore very absorbent for ultraviolet light, by sodium hydrate.

   However, when this coating composition absorbs the acid component of the pencil lines in solution, it becomes non-absorbent for ultra-violet light. In Fig. 4, the area J can be considered to correspond approximately to the area of the cross section of a pencil line covered with a plaster in which the citric acid has been suitably distributed to remove benzyl-beta-methyl umbelliferone its basic character and therefore its ability to absorb ultraviolet light.



   To make a blue or other contact reproduction of a drawing drawn and coated as described in the previous paragraph, the drawing is placed in contact with the light sensitive sheet and then irradiated with ultra light. -violette, preferably in the range of 3500 Ang to 4000 Ang the surface of the design located on the side opposite to that where the light sensitive sheet is located.

   In this case, the pencil lines - and by that is meant the entire surface of the chalk lines, including the islands and the intervening spaces - are effectively translucent in ultra-violet light, while the background of the drawing is practically and effectively opaque to this light-, the particles of the pencil lead located in the islands of the different chalk lines not offering any appreciable obstacle to the transmission of ultraviolet light over the entire length, the width and depth of each pencil line coated with plaster. Due to these new and optimum conditions, excellent reproduction in dark lines on a light background can be obtained.



   CLAIMS
1. - Method of reproduction by contact of a pencil drawing, not inked, characterized in that the drawing is drawn on a sheet which is translucent to a preselected band of light waves, using a pencil which leaves in its features an absorbent of the light of this wave band, the surface of the sheet bearing the pencil drawing is treated with the aid of a dissolving composition in which the aforementioned absorbent is rapidly soluble to to form a liquid dye, the treated drawing sheet is placed in contact with a sheet sensitive to this band of light waves and the face of the design sheet located on the side opposite to that is irradiated with this band of light waves. where the sensitive sheet is located.



   2. - Process consisting in performing on a translucent drawing sheet a band of preselected light waves a drawing with chalk in which the speckles of the pencil lines contain an absorbent of this band of light waves, in treating the surface of this sheet bearing the drawing drawn in pencil by means of a dissolving composition in which the aforesaid absorbent rapidly dissolves to form a liquid dye, for placing the treated drawing sheet in contact with a sheet sensitive to the waveband the aforementioned luminous waves, and irradiating with this band of light waves the face of the design sheet situated on the side opposite to that on which the sensitive sheet is located.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

3. - Process consisting in performing on a translucent drawing sheet with a preselected band of light waves a drawing with chalk in which the speckles of the pencil lines contain a soluble coloring substance, in treating the surface bearing the drawing with pencil with the aid of a dissolving coating in which the coloring substance is easily soluble and which disperses this coloring substance by extending it from the flecks of the pencil lines to the spaces between these speckles, this solvent and this coloring substance being such and reacting in such a way that the areas of the background and the areas of the pencil lines of the drawing sheet acquire different properties with respect to the tape <Desc / Clms Page number 13> of waves considered, the areas of one kind being effectively opaque to this band of light waves and those of the other kind being effectively translucent to this light, to place the drawing sheet covered with the coating in contact with a sheet sensitive to the band of light waves in question, and to irradiate therefrom the face of the drawing sheet located on the side opposite to that on which the sensitive sheet is located. 4. - A method of reproducing by contact a non-inked pencil drawing, characterized in that the drawing is traced on a sheet which is translucent to a pre-selected band of light waves, using a pencil which leaves in its lines an absorbent of the light of this wave band, the surface of the sheet bearing the pencil drawing is treated with the aid of a dissolving composition which, when applied, is little movable and in which the aforementioned absorbent is easily soluble, the treated drawing sheet is placed in contact with a sheet sensitive to the above-mentioned light waveband, and the face of the drawing sheet situated on the side is irradiated therefrom. opposite to where the sensitive sheet is located. 5. - Method of reproduction by contact of an uninked pencil drawing, characterized in that the drawing is drawn on a translucent sheet at a pre-selected band of light waves, using a pencil which leaves in its traces an absorbent of the light of this wave band, the surface of the sheet bearing the pencil drawing is treated with the aid of a resinous solvent composition, in which the absorbent is soluble, the treated drawing sheet is placed in contact with a sheet sensitive to said band of light waves and the face of the drawing sheet located on the side opposite to that on which is located is irradiated therefrom. ve the sensitive leaf. 60 - Method of reproducing by contact an un-inked pencil drawing, characterized in that the drawing is traced on a sheet which is translucent to a pre-selected band of light waves, using a pencil which leaves in its tracks an absorbent of the light of this wave band, we spray on the surface of the sheet bearing the pencil drawing, in tiny droplets, a dissolving composition in which this absorbent is soluble, we place the drawing sheet thus coated in contact with a light-sensitive sheet of the waveband in question, and the face of the drawing sheet located on the side opposite to that on which the sensitive sheet is located is irradiated, the light comprising this pre-selected waveband. 7. - Process consisting in tracing on a drawing sheet translucent to a pre-selected band of light waves a pencil drawing, the speckles of the pencil lines of which contain an absorber of the light of this band of waves, to spraying onto the surface of the sheet bearing the pencil drawing, in tiny droplets, a resinous dissolving composition, in which the aforementioned absorbent is soluble, placing the drawing sheet thus coated in contact with a tape sensitive to the tape. light waves considered, and in irradiating the face of the drawing sheet situated on the side opposite to that on which the light sensitive sheet comprising this pre-selected waveband is located. 8. - In order to facilitate the reproduction by contact of a drawing, the combination of a drawing drawn in pencil on a translucent drawing sheet with a certain band of light waves and a resinous layer which covers the surface of the sheet bearing the pencil drawing, the parts of the layer contiguous with the speckles of pencil pigment and the spaces between these speckles of the pencil lines being effectively opaque to said band of light waves while the parts of the adjacent layer at the bottom of the drawing are effectively translucent to this band of light waves. 90 - In order to facilitate the reproduction by contact of a drawing, the combination of a drawing drawn in pencil on a drawing sheet <Desc / Clms Page number 14> translucent to a pre-selected band of light waves and a resinous layer that covers the surface of the sheet bearing the pencil drawing, this layer having some parts acting as transmission filters and some other parts acting as blocking filters , with regard to the light of the waveband considered, the parts of the layer corresponding to one of these kinds of filters being contiguous with the speckles of pencil pigment and with the spaces between these speckles of the lines of pencil of the drawing, while the parts of the layer corresponding to the other kind of filter being contiguous with the bottom of the drawing. 10. - In order to facilitate the reproduction by contact of a drawing, the combination of a drawing drawn in pencil on a translucent drawing sheet with a certain band of light waves and a resinous layer which covers the surface of the sheet bearing the pencil drawing, the parts of the layer contiguous with the speckles of pencil pigment and the spaces between these speckles of the pencil lines being effectively translucent in the light of this waveband, while the parts of the layer contiguous to the background of the drawing are effectively opaque to this light. 11. - Process consisting in tracing a drawing on a sheet of translucent drawing to a band of pre-selected light waves. pencil containing in the speckles of pencil lines a soluble coloring substance, to be treated the surface bearing the drawing drawn in pencil with the aid of a dissolving composition in which this coloring substance is soluble and which disperses this substance by spreading it speckles of pencil lines at the spaces between the speckles, this dissolving composition and this coloring substance being such and reacting in such a way that the background of the drawing remains effectively translucent in the light of the waveband considered while the lines of pencil in the drawing remain opaque in this light, placing the treated drawing sheet in contact with a sheet sensitive to the light of said waveband, and irreparing therefrom the surface of the drawing sheet located on the side opposite to that on which the sheet is located sensitive. 12. - Process consisting in tracing on a translucent drawing sheet to a pre-selected band of light waves a pencil drawing containing in the speckles of the pencil lines a modifier 'of coating, in treating the surface bearing the drawing with pencil using a dissolving coating composition in which this modifier is soluble and which disperses this modifier by extending it from the speckles of the pencil lines to the spaces between these speckles, this dissolving composition and the modifier being such and reacting in such a way that the background of the drawing is effectively left opaque to the light of the wave band considered, while the pencil lines of the drawing are left effectively translucent in the light of this band. waves, placing the coated drawing sheet in contact with a film sensitive to this light, and irradiating the face of the drawing sheet located on the side opposite that on which the sensitive sheet is located, with light comprising the waveband pre-selected. 13. - Method of reproduction by contact of an uninked pencil drawing, characterized in that the drawing is traced on a translucent sheet in ultra-violet light, using a pencil which leaves in its traces an ultraviolet light absorbent, the surface of the sheet bearing the pencil drawing is treated with a dissolving composition in which the aforementioned absorbent is soluble, the treated drawing sheet is placed in contact with a sheet sensitive to ultraviolet light, and the face of the drawing sheet located on the opposite side to that on which the sensitive sheet is located is irradiated with ultraviolet light. 14. - Method of reproduction by contact of an uninked pencil drawing, characterized in that the drawing is traced on a sheet translucent under infrared light, by means of a pencil which leaves in its <Desc / Clms Page number 15> traces an infrared light absorber, the surface of the sheet bearing the pencil drawing is treated with a dissolving composition in which the aforementioned absorbent is soluble, the treated drawing sheet is placed in contact with a sheet sensitive to infrared light, and the face of the design sheet located on the opposite side to that on which the sensitive sheet is located is irradiated with infrared light. 15. - Method of reproduction by contact of an uninked pencil drawing, characterized in that the drawing is drawn on a sheet which is translucent in visible blue light, by means of a pencil which leaves in its traces a absorbent of visible blue light, the surface of the sheet bearing the pencil drawing is treated with a dissolving composition in which this absorbent is soluble, the treated drawing sheet is placed in contact with a sensitive sheet. visible blue light, and the face of the design sheet located on the opposite side to that on which the sensitive sheet is located is irradiated with visible blue light. 16. - Method of reproduction by contact of an uninked pencil drawing, characterized in that the drawing is traced on a translucent sheet in ultra-violet light, using a pencil which leaves in its lines absorbing ultraviolet light, we spray on the surface of the sheet bearing the pencil drawing, in small droplets, a dissolving composition in which the aforementioned absorbent is soluble, we place the drawing sheet thus coated in contact with a sheet sensitive to ultraviolet light and the face of the design sheet situated on the side opposite to that where the sensitive sheet is located is irradiated with ultraviolet light. 17. - Process consisting in performing on a translucent drawing sheet in ultraviolet light a pencil drawing containing in the speckles of the pencil lines an ultraviolet light absorber to be sprayed on the surface of the sheet bearing the drawing in pencil, in small droplets, a resinous dissolving composition in which the abovementioned absorbent is soluble, to place the drawing sheet thus coated in contact with a sheet sensitive to ultraviolet light, and to irradiate with ultraviolet light the face of the drawing sheet on the opposite side to that on which the sensitive sheet is located. 18. - Drawing drawn in pencil on a drawing sheet translucent in ultra-violet light with a resinous layer covering the surface of the sheet which bears the drawing drawn in pencil, the parts of the layer adjacent to the speckles of pigment of the pencil lines and the spaces between these speckles being effectively opaque to ultraviolet light, and the parts of the layer contiguous to the bottom of the drawing being effectively translucent to ultraviolet light. 19. - Drawing drawn in pencil on a drawing sheet translucent in ultra-violet light, with a resinous layer covering the surface of the sheet which bears the drawing drawn in pencil, the parts of the layer contiguous to the speckles of pigment of the pencil lines and the spaces between these speckles being effectively translucent to ultra-violet light, and the parts of the layer contiguous to the background of the drawing being effectively opaque to ultra-violet light. 20. - Method of reproduction by contact of a pencil drawing, characterized in that the drawing is drawn on a suitable sheet using a pencil which leaves in its lines a soluble absorbent of the light of a pre-selected waveband., the surface of the sheet which bears the drawing drawn in pencil is treated with a dissolving composition in which the aforementioned absorbent is soluble, the drawing sheet is placed treated in contact with a sheet sensitive to light of the waveband in question ,, and one side of one of the sheets which is on the side opposite to that on which is located is irradiated with light from this waveband. other sheet. 21. - A method of reproduction by contact of a pencil drawing, characterized in that the drawing is traced on a suitable sheet using <Desc / Clms Page number 16> with a pencil which leaves in its lines an absorbent of the light of a pre-selected waveband, the surface of the sheet which bears the pencil drawing is treated with the aid of a dissolving composition which when it is applied is not very mobile and in which the abovementioned absorbent is soluble, the treated design sheet is placed in contact with a sheet sensitive to the light of the aforementioned waveband and irradiated with light of this waveband a face of one of the sheets which is on the side opposite to that where the other sheet is located. 22. - Method of reproduction by contact of a pencil drawing, characterized in that the drawing is drawn on a suitable sheet using a pencil which leaves in its lines an absorbent of the light of a ban - from pre-selected waves, the surface of the sheet which bears the pencil drawing is treated with the aid of a resinous solvent composition in which the aforementioned absorbent is soluble, the treated drawing sheet is placed in contact with a light-sensitive sheet of the waveband considered, and light comprising this waveband is irradiated a surface of one of the sheets which is on the side opposite to that on which the other is located. leaf. 23. - Method of reproduction by contact of a pencil drawing, characterized in that the drawing is traced on a suitable sheet with the aid of a pencil which leaves in its lines an absorbent of the light of a pre-selected waveband, is sprayed on the surface of the sheet which bears the pencil drawing, in the form of small droplets, a dissolving composition in which the aforementioned absorbent is soluble, the sheet is placed drawing thus coated in contact with a sheet sensitive to the light of the waveband considered, and one side of one of the sheets is irradiated with this light which is on the side opposite to that on which the other is located. leaf. 24. - Process consisting in tracing on a drawing sheet a pencil drawing of which the speckles of the pencil lines contain an absorber of the light of a pre-selected band of waves, one sprayed on the face of the sheet which bears the design, in small droplets, a resinous solvent composition in which the abovementioned absorbent is soluble, the design sheet thus coated is placed in contact with a sheet sensitive to the light of said strip of 'waves, and one side of one of the leaves which is on the opposite side to that on which the other leaf is situated is irradiated with this light. 25. - Process for facilitating the photo-reproduction of a copy made with the aid of a pencil or a drawing instrument, characterized in that it is used in the pencil or the drawing instrument of a substance capable of changing spectral characteristics by reaction with another substance applied thereto, so as to increase its absorption of the light used to obtain the reproduction. 26. - Process for facilitating the reproduction by transmitted light of a drawing or an inscription drawn on a translucent material using a drawing or writing instrument, consisting in tracing on the translucent material lines which contain a substance capable of changing spectral characteristics by redissolving in another substance, and of producing dissolution of the first substance in the second substance without noticeably extending the features. 27. - The method of claim 26, characterized in that the first substance is a substance usable as a pH indicator. 28. - A method according to claim 26, characterized in that the first substance is an azo dye. 29. - The method of claim 26, characterized in that the first substance is an absorbent of ultraviolet light. 30. - A method according to claim 26, characterized in that the second substance is ammonia. <Desc / Clms Page number 17> 31. - Process for facilitating and improving the reproduction by transmitted light of a drawing or an inscription drawn on a translucent material using a drawing or writing instrument, consisting in drawing lines on the translucent material which contain a substance capable of changing spectral absorption characteristics, and causing the spectral absorption characteristics of lines to change by treatment with another substance. 32. - Process for facilitating and improving the reproduction by transmitted light of a drawing or an inscription traced on a translucent material using a drawing or writing instrument, consisting in tracing on the translucent material lines which are composed of tiny deposits of a soluble substance having predetermined spectral absorption characteristics and spaces between these deposits, and applying to the lines a second substance in which the first substance is so - readable so as to change the spectral characteristics of the spaces between the deposits of the lines. 33. - Method and / or design for reproduction by contact using light from a wave band, characterized by any one of the new features described below. in appendix 1 drawing.