DE854887C - Photographic exposure process - Google Patents

Description

Photographic Exposure Process The invention is an improvement the light sources for photographic work. Your essential Merkreal consists in the use of an almost cold light of higher actinity.

The invention is described below in several examples.

Example t In liiiros, copying on halogen silver is al) ier has become very important, mainly due to reflex copying to moderate photosensitive material. With the recent introduction of diffusion copying has this meaning gradually grown.

Up to now the light source that is related to it has been the incandescent lamp. In addition, the light of the high-pressure mercury lamp was sometimes used. In both In some cases, the lamp radiation had to be filtered, otherwise none in the negatives satisfactory contrasts were achievable.

Incandescent lamps and Quedks high-pressure lamps are not just light, but also heat radiators and can therefore not be used in any copier Strength come into play. Therefore, the reduced sensitivity to light was allowed Previously related relevant halogen silver paper not reduced so far %% - earth, as required by general office traffic. The - it known paper could nowhere near as carefree as blueprint paper.

The fluorescent lamp compensates for this deficiency with its own radiation the end. The halogen silver papers intended for reflex copying are for yellow-green Light around 540 m, u maximally sensitized. Even the brightest shines in this area of all phosphors. A low pressure mercury lamp essentially sends that for copying purpose unsuitable light from 254 m, u off, on however, the luminescent material applied to its inner wall converts it into a longer wave Radiation of about 54o m u um.

The increase in performance achieved in this way is considerable. An ordinary incandescent lamp shines about i So with a power consumption of io W Lumen, this radiation is considerably reduced by the necessary filters. A low-pressure mercury lamp, on the other hand, has its inner wall covered with a suitable one Phosphor for yellow-green is coated, emits with a power consumption of io W. about 75o lumens. This actinity can be full because the special filter is omitted be exploited. The extra power is around ten times.

This extra power can either be for shortened exposure times or used to further reduce the light sensitivity of the halogen silver paper will. For office practice, it is more advantageous to evaluate the second possibility, in order to be able to carry out reflex copying in every normally lighted room from now on.

Example e The fluorescent lamp has the pleasant property of being on to shine evenly at every point of its usable wall, that's why it is allowed to Copies are brought very close, which also improves their performance. These Property can be exploited in three ways. Either there are multiple lamp tubes placed side by side to form a grate, or a lamp tube is placed in the axis of one Cylinder hung around which the copy material comes to lie, or it becomes a lamp tube moved evenly over the copied material lying flat. Example 3 The relationships do not change if instead of the contact copy in the reflex or in the review optical reproduction is used. Only one requirement is then for the process is sufficiently sensitive silver halide or silver bromide emulsion that for -the resonance line 54o m, u is sensitized. Here, too, there are three irradiation routes open: either the original is illuminated from two sides, -which the lamps are from the template must be arranged quite far away, or the tubular fluorescent lamps are guided directly over the template according to the running light procedure and to the Optics shielded, or with transparent originals (plates, films, etc.) die.Lamperohre put together to form a grate, which because of its uniform and cool radiation may be hung close behind the template.

Example 4 In addition to facsimile using halogen silver or Bromide silver paper blueprints are often used, preferably on diazo material. Mercury low-pressure fluorescent lamps are already used for the blueprints. that shine intensely blue. For the copying process outlined in the above three examples Blue light is unsuitable for sensitized silver paper. To still be the same In order to be able to use a copier, an artifice must be employed that aims has to let the fluorescent lamps shine effectively in both spectral ranges. The simplest measure is to mix the inner walls of the lamp tubes with a mixture of the two phosphors for radiation in short and medium wavelengths cover and filter out one of the two radiations if necessary. At the The filter cis does not need blueprints where the green radiation does no harm. Only in the other case must the blue light be placed between the lamp and the material to be copied switched filter disk, which can pass essentially 54o my, shielded will. Blueprint paper requires a lot of light, but halogen silver paper requires a lot less what circumstances are taken into account when mixing the two phosphors must become. Example s The strong radiation of the phosphor layers on the inner walls The lamp tubes are exposed to the invisible ultraviolet radiation of the mercury vapor caused at low pressure. A luminophore outside the lamp tube to the same @ strong Bringing lights can only be achieved with a lamp tube made of quartz, because it is ordinary Glass swallowed the particularly violently exciting radiation of 25.4 mu. But then the power of the lamp can be fully utilized when the phosphors are separated on two different carriers, e.g. B. flat panes of glass are applied.

The luminophores for fluorescent lamps and the sensitizing dyes for light-sensitive papers can be used for fairly sharply delimited spectral segments coordinate with each other with pronounced resonance lines, resulting in a fully exploitable Luminous flux leads: To do this, the luminophores are driven by the very short-wave rays of light The low-pressure mercury lamp, which requires little electricity, is most strongly stimulated.

Claims (2)

CLAIMS: i. Photographic exposure process, characterized by using a luminophore excited by mercury vapor light with a pronounced Resonance line and a silver halide material, which is essentially for-this resonance line is sensitized. 2. Luminophore for performing the method according to claim i, consisting of the brightest of the known phosphors, the one in the green part of the spectrum shine.