DE916413C - Process for making copies - Google Patents

Description

(WiGBI. P. 175)

ISSUED AUGUST 9, 1954

D 10548 IVa j 15k

This invention relates to a method of duplication. The subject of this invention is a new one and improved method of reproducing originals that is simple and convenient and with limited resources in terms of equipment or training and with materials that are readily available can be executed.

Another subject is the application of heat generation through absorbed radiant energy in a reproduction process for making copies of an original.

The invention relates to a method for making a copy from an original, which is characterized is that the side of the original opposite the side to be copied is in surface contact with a transfer sheet that has a fusible coating on the opposite side, and having a copy sheet in surface contact with the coated side of the transfer sheet brings that one irradiates the original, the ao radiation through the material on the original located lettering is absorbed and converted into heat, which causes corresponding Areas of the coating melt and transfer to the copy sheet.

These and other characteristic features and advantages of this invention will appear hereafter step. For the purpose of explanation,

but not the limitation, the following is shown in the drawing:

Fig. Ι is an enlarged part of a cross section, which shows the arrangement of the basic components necessary to practice the invention;

Fig. 2 shows a cross section through an apparatus that receives the arrangement of Fig. Ι and in the Can be used in the practice of this invention; Fig. 3 shows the part of a cross section which corresponds to the

ίο corresponds to Fig. ι, but illustrates the conditions which persist during reproduction according to this invention, and

Fig. 4 shows the part of the cross section which corresponds to that of Figs. Ι and 3, but the basic components in

·.? shows partially separated state to the manufactured Detach copy.

According to this invention, a sheet of paper or the like on which the copy is to be made is in surface contact with the coated side of a

Carbon paper or other transfer sheet that has a colored fusible on this side Having coating composition. The original that a copy is requested will be added to the Opposite side of the coated transfer sheet or carbon paper placed with the proviso that the to copying part shows to the outside. The original is irradiated in such a way that the radiation passes through the white or light areas of the original completely reflected or otherwise diffused and through the material in the is absorbed in dark areas or characters and converted into heat. The heat causes the melting of corresponding parts of the coating composition of the coated sheet or carbon paper, which is automatically transmitted and becomes part of the copy sheet.

The best results are obtained when vacuum, pressure, and other means are used to remove the Bring components in the pack into close contact with one another. When such close contact is maintained, the characters of the original become sharper in the melted areas of the charcoal coating and surrendered at

Transfer a sharply defined copy.

This invention can be applied to any original that absorbs radiation, be it heat generating materials in the characters or other representations. In support of the Endeavor to make copies of an original using the process of heat generation described, can use activators or substances that convert light rays into heat-generating rays fortune, incorporated into the material from which the characters of the original are made or later applied to accelerate the conversion of radiation into heat and to increase the amount of rays to be converted into heat.

To facilitate the practice of this invention, a coating is recommended which is substantially solid and non-tacky under room conditions, but ^{can be molten at a temperature above normal room conditions, such as above 50 0} , but below a maximum temperature which can be easily developed by the radiation process of the type described, e.g. B. about 250 to 300 ⁰ . It has been found that temperatures in the range from 150 to 200 ⁰ can be developed within a few seconds and that temperatures of 260 ⁰ or even higher by extensive irradiation or the use of accelerators and activators, provided that the matrix can reach such temperatures without damage can resist, can be achieved.

Suitable coating mixtures that are capable of, due to the radiation on the original in the described way to melt developed heat, can be put together from wax, Paraffin, bitumen or other hydrocarbons or fatty acids and their derivatives, with or without oils or plasticizers to achieve the desired melting properties. Coloring agents of various types, such as dyes and pigments and mixtures thereof, can be incorporated to impart any desired color characteristic. Instead of waxes and paraffins, other low-melting solids can be used, such as Gum arabic or other natural resins, including turpentine resin, shellac, elemi resin, copal, Dammar, sandarak, rosin, amber, and the like include, or thermoplastic, synthetic, resinous Materials of the types ethyl cellulose, nitrocellulose, polyacrylate, polyalkylacrylate, polyethylene, Polystyrenes, polyvinyl acetates and the like can be used with or without plasticizers, to achieve the required melting properties.

The process of generating heat by absorbing radiation in the characters of the original can advantageously be induced by radiation rich in infrared rays. This includes rays with a wavelength between 8,000 and 40,000 Å. Radiant energy that is in the described Able to convert into heat, exists in the normal rays of the sun and can be more effective Kind in sufficiently high concentration by a photographic flashlight lamp, a tungsten filament lamp, a carbon arc lamp, an infrared ray lamp and the like can be generated. The amount of heat which can be developed in the original depends both on the duration of exposure as well on the intensity of the radiant energy directed at the original. The amount of heat also depends the type of radiation absorption (the heat-generating material in the characters of the original and the presence of activators and accelerators therein).

The schematic diagram illustrates the principles of this invention. As the drawing shows, this is true Original 10 (with the blackened part 11 above) in the iao Surface contact on a carbon paper 12, the coated part 13 in surface contact on a Impression paper 14 is on which the copy is to be made.

Fig. 2 explains a device for securing the close contact between the described basic

elements to achieve better reproduction in the copy. A housing 15 is provided for this purpose provided, in which a plate 16 is fitted, which towards a glass cover plate 17 or away from it can be moved through a flexible base 18, which is adapted to the housing in its entire circumference is. In practicing this invention, the arrangement shown in FIG placed and then either pressure applied in the housing 15 or a vacuum in the through the flexible base 18 creates limited space to the plate 16 in the direction of the cover plate 17 to press. In this way, the arrangement is pressed against the cover plate 17, whereupon the original with a photographic flash lamp or an infrared ray lamp 19 so arranged is that it can penetrate to the copy at a uniform speed, around this Copy of substantially uniform intensities

ao to expose the radiant energy.

During this exposure, the rays are reflected back through non-blackened parts of the original and absorbed by material in the blackened parts and converted into heat. The so developed Heat flows almost immediately through the. sheets lying on top of one another as shown in FIG is to cause melting of the respective regions 20 of the carbon paper 13 that flow and impregnate or otherwise complement each other on the print or copy paper 14 to form a film 21, such as is shown in FIG. The components can then be removed from the irradiation apparatus and the carbon paper and detach the original from the copy sheet which is an accurate representation of the irradiated Originals shows.

Of course, the composition of the cover is not limited to the materials described and can be run with any substance that will melt and turn itself under working conditions able to transmit. The following examples of suitable coating mixtures for the carbon paper or transfer sheet are provided for explanatory purposes only and not for purposes of limitation given.

example 1
(purple colored coating)

Methyl violet 5

oleic acid 10

Montan wax, raw 60

Petrolatum 90

Example 2
(black coating)

Carnauba wax 9

Montan wax 6

Methyl violet 7

Mineral oil 63

Lamp soot 15

Example 3
(blue coating)

Carnauba wax 4

Paraffin wax 4

Ozokerite 1

Octadecyl alcohol 2

Cottonseed oil 2

Prussian blue 2

The intensity of the radiation and the exposure time should suffice to achieve the desired conversion of the coating into the molten state in those To effect districts that correspond to the characters or printing of the original. Generally it was found that the best copy was achieved when that developed from the absorbed radiation Warmth arose in a minimum of time. If prolonged exposure is applied to one accordingly To develop a large amount of heat, the heat tends to dissipate laterally, and thereby that Melting larger areas of the coating to ver- causes, creating excessively coarse and irregular Copies are made. To complete the desired time-temperature relationship, it is desirable, as a source for infrared light, a source similar to that used in industrial spot welding ge qo needed to use a device or a photographic flash lamp. Another kind of Apparatus that can be used obtain a relatively long and thin source of infrared radiation emerge, such as B. a hot wire or a tungsten filament tube lamp, the radiation through Lenses and reflectors are aimed at the original; it can be set up so that the original with constant velocity is flowed through, so that the irradiation of each row component of short Duration and of substantially equal penetration intensity. Other suitable sources of Radiant energy can also be used in the practice of this invention.

From the description it appears that we have a new and improved technique for making more accurate Have claimed copies of an original in a simple and convenient manner. The technology makes use of a source of energy that is readily available or readily made available can be made in suitable intensities and it allows copies to be made using cheaper Materials that, combined, make this system suitable for official copy work. The original is not attacked by the reproduction and came back again and again in the system of production any number of exact copies can be used. The copies made according to this invention are of consistent quality and can be produced in any desired color; of them iao If desired, copies can again be made.

Although best results are obtained with the part to be reproduced facing up and the source of infrared radiation facing, a satisfactory copy can also be made if that

Original is face down and the copy sheet is not made of fiber material, but made of a metal plate or a plastic film and the like.

It will be understood that numerous changes have been made in the details of construction, arrangement and execution can be made without thereby affecting the scope of the invention, as described in detail in is outlined in the following claims.

Claims (5)

Patent claims: i. Process for the production of copies directly from an original, characterized in that, that the original is in surface contact with a transfer sheet that is on the opposite side with a colored, edible one. Condition transferable coating is provided, and a Copy sheet brought into surface contact with the coated opposite side of the transfer sheet and that an amount of radiation is directed onto the original which is sufficient to penetrate into the black characters to generate heat and the corresponding areas of the coating in the melted state and transferred to the copy sheet. 2. The method according to claim 1, characterized in that that a coating is used which is strong and flexible at room temperature and at elevated temperatures Temperatures can pass into the flowable state. 3. The method according to claim 1 or 2, characterized in that the original with a The coated transfer sheet and the copy sheet closely with each other during the irradiation be brought into contact to ensure the transfer of heat and the molten coating at certain points. 4. The method according to claim 1, 2 or 3, characterized in that a thermoplastic material is used for the coating, which can be converted into the flowable state ^{at a temperature above 50 0.} 5. The method according to claim 1, characterized in that that the original with its unprinted side in surface contact with the Transfer sheet is brought. 1 sheet of drawings © 9536 7.54