DE686737C - Method for determining the density of photographic negatives - Google Patents

Description

Method for determining the density of photographic negatives The invention relates to a method for determining the density of photographic Negatives by means of a photocell and an artificial measuring light source, the light of which is the The negative to be measured penetrates and from its rear side from the one with a Away-. The photocell connected to the reader is captured.

The known methods of this type have the deficiency that they are based on the copying surface of a copier cannot be performed without It is to be feared that measuring light next to the negative to be measured by it Through the support surface into the darkroom and paper supplies stored here can render useless.

In order to avoid this disadvantage, according to the invention, the measuring light reflected below the negative and thrown back on the photocell to here to take effect according to the density of the negative.

The invention also relates to devices for carrying out the method.

In the drawing is an apparatus for performing the method shown schematically in several exemplary embodiments.

Fig. 1 shows an embodiment of the measuring device on one with copier provided with artificial light source; Fig. 2 shows an independent Measuring device, and FIG. 3 also shows an independent measuring device, but in a different form Execution.

According to Fig. 1, the measuring device consists of a light-tight housing 1, which is open at its point for the exit and entry of the light rays is provided with a light-diffusing disc 2 (opalgias). In the housing I is located a measuring light source 3 connected to any power source, which is shown in a light-tight chamber 4 is housed, so that stray rays of the light source 3 cannot influence the photocell 5, which is also arranged in the housing I. For the passage of the light rays coming from the light source 3 is the chamber 4 an objective 6 upstream, through which the light beams are directed in parallel the negative 7 to be measured and the one consisting of a clear sheet of glass 8 Copy surface of a copier g hidt passed through on a mirror 10 and from this again through the negative 7: through being reflected, namely so that the light rays reach the photocell 5.

The photocell 5 is connected to a reading device 11 the density to be measured, the required amount of copier light or an equivalent Value can be read. The measuring device I to 6 can be used according to Fig. I is arranged on a pivotable arm 12 on the copier housing g and be coupled with the mirror 10 inevitably so that when pivoting the arm 12 the mirror 10 is also brought out of the area of the copying surface 8, so that the copy surface on which the measurement of the negative was made, for the copying process and the transillumination of the negative by means of the copying light sources IC is fully released. The inevitable coupling between the housing I and the mirror 10 reflecting the comparison light beams is in the exemplary embodiment taken so that the arm I2 is arranged with a pin 13 in a on the copier 9 Bushing 14 is pivotable and at the free end of the pin I3 a mirror 10 carrying Arm 15 is rigidly attached so that the mirror 10 when pivoting the housing I is inevitably swiveled with, but still always in the working position to the housing I remains.

When measuring the density of a negative, the copy light sources are k: switched off.

Bringing the mirror 10 out of the area of the copying surface 8 in connection with the housing I can also be used in any other way than in the Embodiment explained by Fig. I happen. For example, the mirror 10 can be controlled by an electromagnet when pivoting the housing 1. The mirror 10 can necessarily be moved sideways or downwards, as the case may be the structural design of the copier g allows this.

Referring to Fig. 2, the apparatus for determining the density of negatives designed as an independent hand-held device that is independent of an I copier can be used. Here, too, the housing I is provided with a light source 3, which is upstream of an objective 6 through which the light rays pass through the negative 7 pass through to the mirror 10, which is rigidly connected to the housing I on a Pad I6 rests in such a way that between the lower edge I7 of the housing 1 and the surface of the mirror IO so much space is left that a The negative to be measured can be easily moved in all directions; earth can.

According to Fig. 3 is also an independent of a copier To be used device shown, which consists of the housing I and a light source 3 and a photocell 5. The photocell 5 is located in front of the measuring light source 3, in such a way that light coming from the light source 3 has an opening I8 the photocell 5 must penetrate through the negative 7 to the mirror IO arrive, from which it is reflected on the photocell 5. About stray rays to avoid inside the housing I, which affect the photocell 5 harmful could, the light coming from the light source 3 is also in this embodiment passed through a lens 6, which also has the advantage that the light rays from it fall conically directed onto the mirror 10 and accordingly their angle of incidence are reflected back on the photocell 5. Even with this one Execution, a gap 19 is provided in the housing I so that the negative to be measured convenient in all directions above the base plate i6 and the mirror IO can be moved.

Claims (6)

CLAIMS: I. Method for determining the density of negatives by means of a photocell and measuring light source, the light of which penetrates the negative to be measured, characterized in that the measuring light reflects below the negative (7) and is reflected back onto the photocell (5). 2. Apparatus for practicing the method according to claim I, characterized characterized in that the measuring light source (3) and the photocell (5) in one housing (I) are arranged, which a mirror (Io) is arranged in front of. 3. Apparatus according to claim 2 for an artificial copy light source with provided copier, characterized in that the housing (I) with light source (3) and photocell (5) above the copying surface and the mirror (Io) below are arranged on the copy surface and inevitably coupled to one another in such a way that that the mirror (IO) when removing & bringing the housing (I) out of the area of the Copy surface (8) is also brought out of this area. 4. Apparatus according to claim 3, characterized in that the inevitable link between the housing (I) and the mirror (Io) through a common axis (I3) pivotable arms or links (I2, I5) is formed. 5. Apparatus according to claim 3, characterized in that the inevitable Coupling between the housing (I) and the mirror (Io) formed by electromagnets is. 6. Apparatus according to claim 3, characterized in that the housing (I) in a horizontal plane and the mirror (Io) inevitably in a vertical plane Level is pivotable.