DE2248545A1 - Thermo-copying - using auxiliary heating - Google Patents

Abstract

Copying process in which the whole surface of a thermally developable light-sensitive silver material is subjected, prior to the complete carrying out of the exposure at a temp. lying in the development temp. range suitable for the light-sensitive material, to a uniform auxiliary heat treatment, and after exposure is developed thermally.

Description

Copying method The present invention relates to a copying method when using a thermally developable photosensitive photographic Materials, especially a copying process to improve the photographic Property of a thermally developable, light-sensitive super salt material.

There are numerous methods of recreating or copying one Image known with the help of light. Among these methods is silver halide method Commonly, according to this method, a photosensitive silver halide film or a photosensitive silver halide paper for obtaining a latent image imagewise exposed. The resulting latent image is made with a chemical de-etching solution developed and fixed.

Another typical process is an electrophotographic process.

However, these copying methods require exposure, development and Fixation. The treatment process is disadvantageously complicated.

In addition, the film must be washed with water after the treatment, because several chemicals are used in the silver halide process.

Recently, a new photosensitive material has been developed that does not require chemicals and fixing treatments for development. Such photosensitive material is available as Dry Silver Film (trade name at Minnesota Mining & Manufacturing Co.) and all image recording, d. H. imagewise exposure and thermal development is carried out dry. Thus, the film treatment process can be simplified. With this photosensitive However, material are not several types of material with different photographic Properties are available, and therefore the scope is limited. In the microfilm area the original consists mainly of a written document, and therefore it is desirable that the r value of a photosensitive material great is. Since the above photosensitive material is limited Has scope, it is when using the photosensitive material in the Microfilm area necessary, the photographic properties of the light sensitivity To change the material by changing the development temperature and time.

However, this is only possible within a narrow range, and moreover is the treatment complicated.

There is also known a method in which to improve the photographic Properties an auxiliary exposure is used, but again it is not possible to change the photographic properties in a wide range.

It is the object of the present invention to provide a method for improvement the photographic properties of a material used in a copying process, to make thermally developable photosensitive material available. In particular should always be used in the dry process.

According to the invention, this is achieved with a copy process to the the total area of a thermally developable silver photosensitive material before the exposure is fully carried out at a temperature within the range the developing temperature range is suitable for the light-sensitive material, uniformly an auxiliary heat treatment and after exposure to a thermal one Undergoes development.

Thus, the present invention is a copying method for improvement the photographic properties made available, in which a thermally developable, light-sensitive material heated evenly before or during exposure will.

The drawings show: FIG. 1 graphically the relationship between a developed silver salt film and an exposure level; Fig. 2 schematically a read copier; and FIG. 3 is an enlarged cross-sectional view of a table of Fig. 2.

As a thermally developable light-sensitive one used in accordance with the invention Material, the following materials can be used: (1) A recording material with an overcoat layer comprising an imaging composition, wherein the composition has an oxidizing agent, a reducing agent and a relative contains a small amount of a radiation-sensitive heavy metal salt from which upon irradiation in contact with the imaging composition free Metal was formed (2) A recording material with a cover layer an organic silver salt with silver ions connected in a moleld in group form are, a catalytic amount of a photochemically reducing silver halide, that distributed in the entire volume of the organic silver salt and with almost all Silver ions of the organic silver salt is contacted, and a weak reducing agent Contains funds.

As typical of the above-mentioned oxidizing agents, organic Sill) salts such as orthosulfobenzime silver salt, silver-5-chlorosalicyamidoxime, silver 5-nitrosalicylam idoxime and the salt of a long-chain fatty acid such as silver behenate be considered.

Organic compounds can be used as a typical reducing agent may be mentioned, such as substituted pyrazolidone, substituted and unsubstituted Hydroxyl amin, aminophenol and dihydrinphenol (dihydric phenol).

Inorganic or organic salts of silver, copper, chromium and cobalt can be called. if these heavy metal salts are activated by radiation, they become free metal, ie. elemental metal, reduced.

The thermally developable silver salt photosensitive material according to of the present invention can be made by coating an on ze insulation material, such as wood flour paper, cellulose acetate and polyethylene terephthalate, with the image generating Composition and the radiation sensitive Salt by using an adhesive such as a copolymer of butadiene and styrene, polyethylene glycol, polyamide and the like.

Other thermally developable silver salt photosensitive material according to the above item (2) can be prepared by coating a polyethylene terephthalate support with an organic silver salt such as silver behenate, silver stearate and the like a silver halide and a weak reducing agent such as ilydroquinone, methylhydroxynaphthalene, Catechol and the like.

The thermally developable photosensitive material is used for a imagewise exposed for a short period of time. The entire area of the exposed Partly heated evenly to a suitable temperature for a suitable time, to get a permanent visible record.

According to the invention, the thermally developable light-sensitive Material before the complete implementation of the exposure on a temperature heated within the developing temperature range suitable for the light-sensitive material lies (auxiliary warming).

The auxiliary heating temperature changes: varies depending on the developing temperature suitable for light-sensitive material. In general a temperature of 90 ° C to 1600 C is used.

When the auxiliary heating temperature is over the limit of the developing temperature range is, the fog density of the photosensitive material increases, so that Veils and destruction form in the light-sensitive material.

The lowest auxiliary heating temperature depends on the lowest development temperature suitable for the photosensitive material. If the lowest auxiliary heating temperature is below the lowest temperature which the light-sensitive material can be developed is the Effect bad and no improvement can be achieved.

The II ilfs-Wärmeb ehandhmg can be carried out for a period of time at most twice as large as that for the photosensitive material suitable development time is.

Thus, the photographic properties of the photosensitive Materials can be improved, and the γ-value can be determined by applying a II auxiliary heat treatment under the temperature and duration conditions given above be changed.

In Fig. 2, the reference numerals 5, 6 and 7 relate to an illumination source with a wavelength in the range of 450 to 550 nm, a condenser lens or a reflective mirror. Between the reflecting mirror 7 and a projection lens 9, a microfilm is placed, and a reflecting mirror 10 is rotatable in the Light path of the projection lens 9 arranged. In front of a reading device is a transparent one Screen 11 is provided and above the reflecting mirror 10 is a film copy tray 12 arranged.

A thermally developable silver salt film 13 is on the table 12 arranged so that the surface is in close contact with the photosensitive agent with the exposing surface of the table 12 has. When the reflective level is 10 one with a solid line has indicated position, is the image of the microfilm 8 through the projection lens 9 and the reflective Mirror 10 projected onto screen 11 but not onto table 12. For the purpose of copying a microfilm image 8, the reflecting mirror 10 is turned into a shifted position indicated by a dashed line 10 'and the microfilm image 8 is projected onto the copying film 13 placed on the table 12.

As can be seen from Fig. 3, the table 12 comprises a transparent one Part 14, for example a glass plate, on which a Nesafilm 16 of uniform thickness lies. At both ends there are electrodes 15 and 15 'connected to a power source. intended. At one end of the transparent part 14 is a thermistor 17 for Temperature measurement provided to control the auxiliary heating temperature. if a voltage is applied to the two electrodes 15 and 15 ', is in Nesafilm 16 joule 'see heat generated, so that the temperature of the transparent part 14 increases. If after viewing a recorded microfilm image 8 on the screen 11 a copy is necessary, can be done by pressing a copy button (not shown) a voltage is applied to the two electrodes 15 and 15 'so that the table 12 heated becomes, and consequently that with the table 12 in close contact located thermally entrickeiiare silver salt filin 13, and thus the film experiences 13 an auxiliary heating. After completion of the auxiliary heating, the reflective Mirror 10 from the position shown in solid lines to the position shown in dashed lines 10 'and the silver salt film 13 is subjected to imagewise exposure.

After the exposure, the reflective mirror 10 returns to its original one Position back, and the silver salt film 13 is applied to a thermal developer (not shown) brought, and there you get a complete copy becomes the copier When film 13 is heated at the same time as exposure, the same effect as above. Since glass has a low thermal conductivity, it can easily be placed on a constant temperature, and development can be started immediately after heating.

Furthermore, a different heating plate than the transparent device can be used 12 can be used. In the event that the photosensitive properties of a copying film 13 can be changed by heating before and during exposure and the copying film is further heated for development, it is possible if the transparent device 12 in the above-mentioned device for Long Time is kept at a constant temperature to cause continuous heating before exposure, during exposure and for developing The following examples are intended to illustrate the present invention. However, it is not It is intended that the invention be limited to these examples.

Example 1 Dry silver type 796 (trade name, available from I, jnesota Mining and Manufacturing Co.) was developed as a thermally developable photosensitive Silver salt material used. This photosensitive film was made before exposure heated to 130 ° C for 10, 20 and 30 seconds. Then this one became photosensitive Film exposed with a fluorescent lamp (15 W) at a distance of 50 mm. After this Each photosensitive film was exposed by heating for 10 seconds 1300 C. The result is shown graphically in FIG. 1, in which the The abscissa is the logarithm of the exposure strength E and the ordinate the density of the thermally developable silver salt film after the exposure heat treatment shows.

Curve 1 shows a characteristic curve of a light sensitive Film that has been exposed and developed without auxiliary heating. With 2, 3 and 4 are characteristic curves of photosensitive films produced according to 10, 20 or 30 seconds long auxiliary heating exposed and developed sores. The results for the photosensitive films were values of 2, 0, 3, 0, 2, 5 and 1, 4. This result shows that the values increased from 2.0 to 3.0 are.

Example 2 Dry Silver Type 790 Varename available from Minesota Mining and Manufacturing Co.) was used as a photosensitive material. This Photosensitive paper was treated in the same way as in Example 1. The t-value of the photosensitive which was subjected to auxiliary heating before exposure Paper increased by a maximum of 50% compared to that before exposure to auxiliary heating subject photosensitive paper.

Claims (5)

PATENT CLAIMS Kqi erverfahr s, characterized in that the entire area of a thermally developable silver photosensitive material before complete Carrying out the exposure at a temperature suitable for the photosensitive Material suitable development temperature range, uniformly an auxiliary heat treatment and is subjected to thermal development after exposure. 2. copying method according to claim 1, characterized in that the Hills heat treatment between 90 and 1600 C is carried out. 3. copying method according to claim 2, characterized in that the Time for auxiliary heat treatment of the photosensitive material at most twice as big as the one for development the photosensitive Material is appropriate time. 4. copying method according to claim 1, characterized in that the photosensitive material subjected to the auxiliary heat treatment before exposure will. 5. copying method according to claim 1, since d u r C h g c k c n ii z e 1 c h n e t that the photosensitive material during the auxiliary heat treatment is subjected to exposure.