DE1203116B - Lamp house for a photographic enlarger or copier - Google Patents

Description

Lamp house for a photographic The invention relates to a lamp house for an enlarger or copier, photographic enlarger or copier with a lamp and a reflector made of individual reflective, under different Sections arranged at angles.

It is already known that in lamp houses for photographic enlargement and copiers a uniform light intensity distribution in the positive plane to realize that between the light source and the negative one or several light-diffusing discs are arranged with a relatively high density. In known lamp houses, a uniform light distribution must be achieved also the projection lamp at a fairly large distance from the surface of the negative holder. This gives the lamp house a pretty large spatial expansion. Because of the high density of the lenses used is the light intensity available to illuminate the negative greatly reduced.

A reflector for enlargers is also already known, in which the individual reflective metal strips form a discontinuous profile are composed. In order to achieve a uniform light distribution in this known arrangement To achieve this, the reflectivity of the inner reflective surface is reduced. Such a reflector is on the one hand expensive to manufacture, on the other hand the reduction in reflectivity at certain points increases the efficiency degraded.

The aim of the invention is to create a lamp house of the opening mentioned genus, which does not have the disadvantages of the known lamp houses and using one or more diffusers with a considerably reduced Density results in a uniform light distribution. The need for arrangement Different reflective zones should be avoided.

For this purpose, the invention provides that the inclination of the individual reflector sections is chosen so that the virtual mirror images of the helix designed by them of the lamp near the optical axis are further apart than on the outside. By this training is achieved that the through the coil over the individual reflector sections Light spots designed in the image plane without a diffuser are further apart in the middle than on the edge of the picture plane.

In a preferred embodiment it is further provided that the Inclination of the individual reflector sections is chosen so that several virtual Mirror images of the coil are arranged like a network and that a diffuser with an overall density of less than 0.4 is provided. The reflector sections exist preferably made of flat reflective metal strips that form a discontinuous Profile are folded and close together exactly. The reflector sections can preferably grained and / or etched semi-matt.

The invention is described below, for example, with reference to the drawings; in this FIG. 1 is a schematic side view of a copier to which the invention can be applied, FIG. 1 a in a schematic representation of the beam path in the lamp house according to the invention, two mutually perpendicular sections in the optical axis are shown in the left and right halves of the figure, each of which only the part of the lamp house present on one side of the optical axis play back, FIG. 2 the light distribution in the copying plane when using a parabolic reflector, FIG. 3 shows the light distribution in the copying plane when using a lamp house according to the invention without a diffuser, FIG. 4 is a diagram which illustrates the distribution of the directly emitted and reflected light, FIG. 5 shows a longitudinal section along line VV in FIG. 6 of a practical embodiment of a lamp house according to the invention and FIG. 6 shows a section along line VI-VI in FIG. 5. Fig. 1 shows a copier which consists of a lamp house 11, a reflector 12, an iodine lamp 13, a frame 14 arranged in front of the reflector opening, light diffusion disks 15 and 16, a heat absorption filter 17 arranged in the frame 14 and a lens 19. The negative to be copied is denoted by 18 and the copying plane in which the copying material is arranged is denoted by 20.

In the copying plane 20 , even with the largest negative format that can be used, there must be a very uniform light intensity distribution, a minimum of diffusion material should be used because this not only diffuses the light but also weakens it.

The known parabolic reflectors have the property of combining all the light rays from the light source into a parallel bundle of light rays. However, the light distribution in a cross section of such a beam is not constant. If a parabolic reflector is used in the lamp house 11, a light distribution is obtained in the copying plane 20 as it is in the area 21 in FIG. 2 is illustrated. In this figure, the light spot 22 represents an increased light intensity in relation to the other locations of the surface 21, which is a result of the direct radiation from the light source. A similar light distribution is obtained when an elliptical reflector is used with the lamp and lens in the two focal points.

A representation of the light distribution of a copier is obtained when a sheet of photographic paper without a negative and a diffusing screen is in the copying plane 20 exposed by the light of the lamp house and then developed with high contrast will.

In Fig. 1 a illustrates the beam path in a lamp house according to the invention. The lamp filament is denoted by 43, while the individual reflector sections have the reference numbers 49, 50, 51, 52, 53 or 57, 58 . The virtual mirror images of the turn143 in the individual reflector sections are identified by the reference numbers 44, 45, 46, 47, 48 and 55, 56, respectively. The objective diaphragm 59 is shown schematically in the lower part of the figure.

As shown in FIG. 1 a can be seen, the arrangement of each Reflector sections according to the invention chosen so that the distance between the virtual Mirror images of the helix 43 in the vicinity of the optical axis are larger than that of the outer one Mirror images is. The effect of this choice of the location of the mirror images of the helix 43 is that in the plane of the positive to be produced the desired light distribution, which in Fig. 3 is achieved.

The light distribution of the lamp house constructed according to the invention is in Fig. 3 shown. The central light spot is through a large number surrounded by further light spots. These additional light spots result from the Reflection of the light emitted by the filament on the various reflector sections.

The distribution of the light spots is not even, but they are closer together when approaching the edges. According to the diagram according to F i g. 4 shows the distribution of the directly emitted light 4 and the reflected light Light 41 selected such that the total distribution 42 over the entire surface 21 is as largely constant as possible.

A practical embodiment of the lamp house according to the invention is shown in Figs. 5 and 6 shown.

In these figures, 13 denotes an iodine lamp, 29 a first frame and 14 another frame in which light diffusing panels 15 and 16 and a heat absorbing filter 17 are fitted and in which the line 23 for cooling air and the outlet openings 24 and 25 are provided for the cooling air.

15-he reflector consists of the aluminum strips 26, 27 and 28. The aluminum strip 26 arranged on the longitudinal axis of the reflector is folded in such a way that that it has five reflective surfaces. Each of the in the section according to FIG. 5 recognizable stripes 27 and 28 has four reflective surfaces.

The aluminum strips 27 and 28 are attached to the strips 26, by placing their pointed ends in slits in the horizontal part of the strip 26 will be introduced. The reflector becomes horizontal by means of the above provided Edges clamped between frames 14 and 29.

The frame 29 is made of insulating material with two pipe pieces 30 and 31 provided, in which contact elements 32 and 33 are arranged, on which the electrodes the iodine lamp 13 are applied. The reflector part 26 has two openings 34 and 35 provided through which the light source extends.

The inner wall 39 of the frame 14 has a reflective surface, what reduces the loss of light at the edges of the reflector opening and the softness of the copy light favorably influenced.

The number of reflective surfaces is not limited; Instead of 35 light spots ( 5-7) , any other number of light spots can be selected. However, one must always use the method shown in FIG. 4 correspond to the conditions expressed.

The greater the number of light spots, i. H. the number of reflective A surface is selected, the more an approximation to a one takes place continuously curved reflector surface and an exactly evenly illuminated surface. However, even with a smaller number of reflector sections, a good one is achieved Light intensity distribution obtained in the plane of the positive material. This distribution can through a grained and / or semi-matt etched inner surface of the reflector as well as further improved by two light-diffusing discs with low density will. The light-diffusing panes and the semi-matt etched reflector surface induced light loss can be kept very low.

The outside of the reflector and the protruding parts of the reflector part 26 are matt blackened to ensure good heat radiation.

The lens 16 is only a few millimeters away from the plane of the negative 18, thereby reducing the scattering of the caused by the negative passing light is increased, so that scratches and other defects on the negative material as blurred as possible on the copy.

A mask is placed in front of the Slid surface 18, which has an effective opening of e.g. B. 24.36 mm. if a mask is used that has an aluminum coated side instead of one usual matt black side facing the light source is achieved an increase in light intensity of about 20% and a softer copy light.

Because the light uniformity without using the diffuser 15 is sufficient for 35mm film, a clear disc can be used, so that an additional increase in light intensity of 3011 / o is achieved.

The embodiment described allows negatives to be copied on positive paper, making negatives and duplicate positives from positives etc.

You can also use the required color filters using the additive or subtractive color process, color prints on paper from color negatives, Color slides from color negatives, color prints on paper from color slides, color intermediate negatives etc. manufacture.

It is clear that the lamp house according to the invention for the additive Copying processes with successive partial exposures are particularly suitable is because this lamp house is a considerable cut in the relatively long one This method enables copying times.

Claims (7)

Claims: 1. Lamp house for a photographic enlargement or copier with a lamp and a reflector made of individual reflective, Sections arranged at different angles, characterized in that the inclination of the individual reflector sections is chosen so that the through them designed virtual mirror images (44, 45, 46, 47, 48 or 55, 56) of the helix (43) of the lamp in the vicinity of the optical axis are further apart than on the outside. 2. lamp house according to claim 1, characterized in that the inclination of the individual Reflector sections is chosen so that several virtual mirror images of the helix (43) are arranged like a network and that one or more lenses with a Overall density less than 0.4 are provided. 3. lamp house according to claims 1 and 2, characterized in that the reflector sections consist of flat reflective metal strips (26, 27, 28) which are folded into a discontinuous profile and close together exactly. 4. lamp house according to claim 3, characterized characterized in that the reflector sections are curved. 5. Lamp house after the Claims 3 and 4, characterized in that the reflector sections are grained and / or are etched semi-matt. 6. lamp house according to claims 3 to 5, characterized characterized in that part of the metal strips are on the outside of the reflector protrudes from the contours of the reflector. 7. Lamp house according to one of the claims 1 to 6, which contains a frame in front of the reflector opening, characterized in that that the inner walls of the frame are reflective in front of the reflector opening. B. Lamp house according to claim 7, characterized in that the frame opening is provided with a mask whose C) opening is smaller than the frame opening and the one facing the reflector Page is reflective. References considered: U.S. Patents No. 1253 813, 2 294 580.