DE2847469A1 - Optical suppression of gaps during microfiche reader operation - uses variable intensity filter to even out screen illumination between microfiches or their parts - Google Patents

Abstract

The microfiche reader has a special filter which is pushed into the optical axis between slide changes to provide a screen illumination representing the mean intensity of the slides. This allows easy viewing without the eye having to adapt to either dark or bright spaces between slide insulation. The filter is either a special density type pushed into the optical axis between slides, or more simply a liquid crystal chip permanently mounted in the projection axis, which has its transmission coefficient altered by a control circuit operating between slide insertion.

Description

Method and device for optical suppression

the image change movement in transmitted light devices The invention relates to a method and an apparatus for optically suppressing the image change movement in the case of transmitted light devices, in particular slide projectors with a device for brightening the projection surface to a brightness value during the slide change process, which corresponds to the average transparency of normal slides, with one slide from one Slide transport device that removes slide magazine one after the other. The invention relates Also on microfiche readers, which use microfiches on picture stages in two Dimensions can be moved to show their saved image content on a Make projection screen visible.

With microfilm readers it is seen by the viewer as annoying and as in the long run considered tiring for his eyes when the pupil is sideways or moved up or down from the actual projection surface because the eye accommodated to the image just presented to details of the image remains attached without the observer consciously wanting to do so. The same disorder of the viewer's field of vision occurs when the new image (microfiche) enters the The picture stage is pushed. The eye then tends to notice the movement of the new image to continue beyond its central position. By DE-OS 27 36 458 a micro information reproducing device has become known, at by a relatively thin container, which has an opening on one edge The micro-information carrier is received by a device carried by the container for illuminating the micro-information and a device for step-by-step forwarding of the micro-information carrier relative to the container has these disadvantages be avoided that the image is not laterally led out of the projection surface but disappears as if in a cross-fading process within the projection surface and the new image disappears into the projection surface to the same extent as the old one appears. This step-by-step micro information reproducing device has but the disadvantage that they are difficult to manufacture lens plates (lensettes) and expensive Light guide paths required.

Furthermore, there are the dark pauses which are disturbing during slide projection To avoid during a slide change, measures have already been taken with which achieves a certain brightening of the screen during a slide change will. With DE-OS 19 12 229 a device has become known, which for protection the eyes, which tire quickly due to constant adaptation, during the slide change process allows the screen to be brightened up. So by means of an opposite to the Projection lamp light considerably weaker additional light source and one for the The duration of the slide change is the same as the return of the projected one Slides in the empty picture stage swiveling reflective bezel brightened up the screen.

Since the from an additional swivel device in the beam path pivoted reflection diaphragm is arranged between the stage and lens, remain the actual movement processes of the gripper jaw and slide frame edges to the eye, to which the eye would undoubtedly adjust, hidden, the pivoting movement the reflection diaphragm immediately before the slide change, however, also remains in this Device perceptible to the eye of the beholder, the benefit achieved stands thus in addition to a pivoting movement that is still clearly perceptible to the eye a considerable amount of moving parts in the projector with their susceptibility and the resulting additional costs.

The present invention is therefore based on the object of a method and to design a device of the type mentioned at the outset in such a way that the image change movement in the case of transmitted light devices, in particular microfilm readers by optical and / or mechanical means is suppressed and that especially in the slide projectors the avoidance of disruptive effects by brightening the screen during a Slide change both with the help of the existing projection light source and with very few components for the viewer, which are required for the projection anyway can be reached in a manner that is as easy on the eyes as possible. The aim is to solve this problem the means required to be simple to manufacture and the cost of a microfilm reader or a projector does not increase significantly.

According to the invention, this object is achieved in that at the beginning the image change movement mechanical and / or optical Means like that can be switched into the beam path that an occurring during the image change movement Migration of the viewer's eyes is excluded or at least largely prevented and that with the end of the image change movement the mechanical and / or optical Means to be switched off again. With this method it is achieved that no movement sequences across or upright to the projection surface during the image change, be it through the projected image itself or through the projection beam path caused by tilted panes or mirrors. The advantage of this driving lies in the fact that when a picture is changed by the projection of a brightness value, which corresponds to the average transparency of the image display surfaces, the adaptation state of the observer's eye is preserved and that in addition at the same time by the temporal coordinated switching on and off of the mechanical and / or optical means of the The state of accommodation of the observer's eye is preserved. The preservation of the once the adjusted state of the observer's eye during the individual image changes slower fatigue of the viewer.

An advantageous device for performing the method is designed so that a light attenuation device in the projection beam path is arranged. The image change process, which is inherently disturbing, is with a transmitted light device inevitable. It runs for a relatively short time compared to the viewing time for the image away. However, since the projection light source is also used during this short pause in the image change is available anyway, it is advantageous if it is in conjunction with a according to the desired degree of lightening or darkening the projection surface tinted light attenuation device a so-called cell pause when changing slides.

A first development of the invention is based on the fact that the light attenuation device comprises a liquid crystal cell. Lately they are occurring through exposure small electrical voltages in their light transmission or in their scattering power influenceable so-called diffusors appear more and more frequently and are therefore can also be used advantageously in an arrangement according to the present invention. A common embodiment of a liquid crystal cell then consists in that when a voltage is applied it shows a clouding of the liquid crystal and thus causes diffuse light scattering. With such a certain light transmission The liquid crystal cell adjusted or the scattering effect is the objectively intended one damped brightness of the projection surface during the image change very quickly and easily accessible.

According to a further embodiment of the invention, the liquid crystal cell in the projection beam path between an image stage and a projection lens arranged, the distance a to the projection lens compared to the distance b to the image stage depending on the size of the blurring and limitation of the projected image can be varied in the direction of the projection axis by an actuating gear. The liquid crystal cell is always in the projection beam path. This arrangement has the advantage that the distance a or b of the liquid crystal cell from the lens respectively. can be varied as desired by the presenter from the image change level in order to achieve the to achieve optimal dark pause setting for his demonstration possibilities. at Adjustment of the liquid crystal cell close to the image change plane are when changing the image Although the black boundary surfaces surrounding the pictures are still noticeable in a disturbing manner, for this, however, the image border remains sufficiently sharp for the beholder's eye obtain.

When setting the liquid crystal cell close to the projection lens if, on the other hand, this picture border is no longer so clearly present, make it for it but the black border areas of the picture rushing past when the picture changes no longer noticeable.

According to a particularly useful embodiment of the invention the liquid crystal cell in the projection lens is arranged around the image stage and projection lens available space for other important functional parts such as e.g. to use an autofocus device. The liquid crystal cell can thereby Depending on the application, between two partial lenses on the inner planar surfaces or be arranged between two lens groups. In a further development of the invention is the electrical voltage activating the liquid crystal cell as a function of switchable by the picture change movement so that the picture changer moving the picture stage one cooperating with a switch that activates the liquid crystal cell Has switching curve and the switch during the image change process a control pulse gives away. The switch can also be used, depending on the type of function of the liquid crystal cell be a changeover switch that reverses the polarity of the applied voltage. This controls the image change processes of the image changer also automatically performs the synchronous switching processes for the liquid crystal cell, without the switching means, which are also particularly complex here or even additional drive means for a switch are required.

In a further development of the invention is one that controls the image change process known electronic control circuit is provided which the liquid crystal cell switches on and continuously upregulates before the image shown is in the The stage moves and switches off after the continuous downregulation as soon as a new picture in the picture stage has come to a standstill. With this advantageous Embodiment is when the image is still in the stage on the projection surface the intended pause brightness simultaneously with a clouding of the image set for the duration of the image change and after the image change has taken place The clouding has already been lifted by a new picture that has already been fed back to the picture stage.

The applied to the liquid crystal cell becomes electrical Voltage regulated continuously between its two end values. Herewith is a your fade-in / fade-in process with a fading image change works in a similar manner created.

In this way, the last ones in particular will also be possible remaining inadequacies that were previously caused by a picture change process and in which the images were taken from a magazine arranged on the side and fed back in, avoided.

Two particularly advantageous areas of application of the device result in the microfilm enlargement range and in slide projection. It is in particular with slide projectors advantageous when the transverse movements of the slide frame and the slide can no longer be seen by the eye of the beholder.

In the case of a slide projector for carrying out the method mentioned at the beginning with a device for brightening the projection surface during the image change process to a brightness value that corresponds to the average transparency of the slides it is particularly advantageous if the light attenuation device is a transparent one gray or colored lens with grid lines running in the direction of the slide having. The transparency of the lens should be chosen so that it is the middle one Transparency of the slides corresponds. As a result, the adaptation state of the observer's eye remains obtain. Since the gripper movement is a horizontal, lateral movement performs, it is advantageous that the grid lines on the projection surface projected stripes on the surface of the lens run horizontally are shown, because the grid lines have the effect that the state of accommodation of the observer's eye is retained during the slide change. The maintenance both the adaptation and the accommodation state of the observer's eye thus reduces the premature fatigue of the viewer.

When using simple diffusing screens as light attenuating devices an advantageous embodiment of the invention is that the diffuser in the slide changing level on the side of the picture stage facing away from the magazine is arranged next to the gripper jaws in the slide gripper and with the slide change process is displaceable in the projection beam path. The arrangement of the Diffuser directly next to the respective opaque The edge of the slide reduces a barely perceptible very short darkening of the projection surface on one for the eyes. no longer perceived as particularly annoying value.

To the disturbance of a relatively wide slide frame area and the surface of the rear gripper jaw adjacent to this frame surface and even further on while the slide is being changed to reduce is in a further embodiment according to the invention between Slide frame edge and filter disc edge arranged gripper jaw surface of the gripper jaw formed narrow compared to the adjacent slide frame edge. This is the effect of the dark stripe during the slide change on the screen or on the viewer so slightly small that it is no longer noticeable.

Four exemplary embodiments according to the invention are based on the following explained in more detail by drawings.

It shows in a schematic perspective illustration Fig. La a Transversely movable slide in a projection beam path with a light attenuation device between the image stage and the projection lens in the form of a front of the projection lens arranged brightened liquid crystal cell in projection position, Fig. Ib the Arrangement in Fig. 1a, with cloudy liquid crystal cell and a slide gripper in change position, tig.2a a chute projector with clamping jaws for a slide in the image stage area -: with a light attenuation device as in Fig. 1a, 2b the arrangement as in Fig. 2a, in which the slides are in the changing position Fig. 3 shows the arrangement as in Fig. 2a with a light attenuation device, which by an actuator near the. The image stage is positioned, Fig. 4a only one projection lens with a light attenuation device arranged between two lens groups, 4b only a projection objective with one arranged between two partial lens surfaces Light attenuation device, Fig.5a an arrangement similar to Fig. 1a, with next to the Image stage in the slide gripper arranged light attenuation device, Fig. 5b the arrangement as in Fig. 5a with the slide gripper in the changing position.

From a slide projector with a slide magazine and a slide alternating planes arranged transversely to the projection beam path are shown in FIGS. ib, 5a and 5b for the sake of simplicity only the projection beam path and the Slide change level shown schematically. All not for Projection beam path and the slide change level, also related to known drives, related functional and housing parts that do not touch the subject matter of the invention are better for the purpose clarity has been omitted.

In Fig. 1a and 1b, 1 is the technical projection beam path designated. Starting at the lamp mirror 14 via projection lamp 15, first condenser 16, heat filter 17 and a second condenser 16 'hits the projection light beam in the change level marked by an arrow 3 on the slide 10. The slide 10 is held between the gripper jaws 6, 6 ′ of a slide gripper 4 in the image stage 5.

In front of the picture stage 5 is a so-called light attenuation device provided in the form of a liquid crystal cell 9.

In order to achieve the goal of the invention, a "liellpause" during each To achieve a slide change process, there is one between the image stage 5 and the lens 11 liquid crystal cell 9, also known as diffuser, which changes its scattering effect, provided, whose mode of action is as follows: By applying an electrical voltage the orientation of the molecules of the filter crystals is disturbed, which is called visually a diffuse scattering of the light is perceptible. In the case of parallel alignment of the crystal molecules, the light rays striking the cell almost pass through unhindered through them (Fig. 1a). Otherwise they will be on the cell incident light rays on the arbitrarily directed crystal molecules difus deflected (indicated in Fig. 1b by cross hatching). The corresponding activation the cell takes place centrally from one of the other electrical functions of the slide projector controlling electronics 21 from.

With a switch 12 is referred to, which is from a switching curve 13 on Slide gripper 4 is operated. The liquid crystal cell is via an actuating gear 33 to 36 arranged displaceably along the projection beam. The liquid crystal cell 9 is located in FIGS. 1a and 1b in the vicinity of the projection objective 11.

In a second embodiment of the invention, the training a light pause when changing slides in Figures 2a and 2b on a schematically illustrated so-called chute slide projector explained: The one from the upper storage container 20 reaching the picture stage 5 by gravity and the same when changing slides For example, slides 10, 10 ′ leaving the image stage in the direction of fall 25 fall in quick succession adjoining each other in fractions of a second to the respective following position (Fig.2b).

Should in such a slide change running in the direction of the case 25 the possibly annoying side effects of a dark break are eliminated, this is done by inserting a liquid crystal cell 9 into the projection beam path 1 possible. In Fig. 2a and 2b, as in the previous examples, the parts of the Illumination device 14, 15, 16, 16 '1 and 17 are shown identically. In the picture stage 5, the slide 10 is projected in the direction of the arrow 26 by means of clamping jaws 22, 22 ' fixed. The definition of the height of the slide and thus the alignment of the center of the image stops 23, 23 'are used on the projection axis. Swivel when changing slides the simultaneously laterally leading clamping jaws 22, 22 'apart and the stops 23, 23 'withdraw until the slide 10 has left the picture stage 10. The clamping jaws return to their position in order to remove the from the feed rails 24, 24 'directly above the picture stage 5 brought up new slide 10' after the successful Clamp the case in the picture stage 5. In this arrangement, too, the liquid crystal cell 9 via an adjusting gear 33, 34 and 37 with the aid of a motor 38 to the left of the projection axis arranged displaceably. The switch 12 for controlling the electronics 21 or the Liquid crystal cell 9 is actuated by the clamping jaw 22 during the changing process.

In Fig. 3 the same arrangement is shown as in Figures 2a and 2b, The liquid crystal cell 9 is here, however, right in front of the picture stage 5, so that the picture bounding frame of the liquid crystal cell 9 is sharp on the screen is mapped.

In Figures 4a and 4b are different embodiments of projection objectives 11 shown. In Fig.

4a is a liquid crystal cell 9 between two lens groups 31, 31 'and 31' '. The electrical leads 28 for the liquid crystal cell 9 are Via slip rings 29 and grinder 30 with control electronics (not shown) 21 connected.

In FIG. 4b, the liquid crystal cell 9 lies between two partial lenses 32, 32 '. The lens groups 311, 31 ″ are to the right of the partial lens groups 32, 32 '. The electrical leads are made as described in Fig. 4a.

In Fig. 5a and 5b, 1 is again the technical projection beam path designated. Starting at the lamp mirror 14 via the projection lamp 15, first The projection light beam hits the condenser 16, heat filter 17 and a second condenser 16 ' in the change level marked by an arrow 3 on the slide 10. The slide 10 is held between the gripper jaws 6, 6 'of a slide gripper in the Bidl stage 5. In addition to the side of the image stage 5 facing away from the magazine, there is a diffuser 18 intended. To the bracket the diffuser 18 is on the gripper jaw 6 'in a straight extension a rectangular holding frame 19 like a picture frame in one piece molded. When the slide gripper 4 moves alternately, the slide moves 10 and the lens 18 uniformly in the direction of the magazine and back. With the Projection objective 11 is indicated schematically that here the device-side projection beam path 1 ends towards the projection surface.

The diffuser entering beam path 1 when the slide is changed 18 has a fine parallel grid structure that appears on the canvas as a horizontal Horizontal stripes become visible (grid lines 8).

The following is intended to correspond to the execution games on the basis of the individual Figures show how it works to create a "light pause" during the slide change process explained. The already mentioned problem with the slide projection regarding the fatigue of the viewer is formed by the process of changing the slide, which depends on the type of projector so be careful that individual slides from a magazine or a storage container be removed and after the projection again in the magazine compartment or in a appropriate collecting container are returned.

In FIGS. 1a and 1b, one of the most frequently used types of projectors is shown assumed with slide magazine guided laterally next to the projection beam path. The slide gripper 4 holding the slide 10 in the image stage 5 moves when the slide is changed in the direction of arrow 3 of the change plane and takes the slide 10 out of its projection position in the picture stage 5 with. A liquid crystal cell 9 is used as a diffuser in the projection beam path 1 arranged. Via an already existing control electronics 21 (only schematically indicated as a box) the liquid crystal cell 9 depending on what is known per se Cell structure either by applying an electrical voltage, in the de-energized state or by Reversing the polarity of the voltage from the clouded diffuse, i.e. scattering the projection light in the crystal-clear state that allows the light rays to pass through with almost no loss. The level of the applied voltage, e.g. causing opacity, is determined the degree of light scattering and thus the amount still passing through the lens 11, the brightness of the pause light spot on the screen making up the diffuse part of the rays . In the liquid crystal cell arranged in the projection beam path 1 in FIGS 9 (cell) it is assumed, according to its type, that a voltage-free cell is translucent is (Fig. 1a) and a voltage applied cell becomes cloudy.

As soon as the slide change begins, the switch 12 gives the control electronics 21 a pulse and the control electronics 21 switches the cell 9 to opacity. Vice versa the open switch 12 causes a control pulse to de-energize the cell 9 again and thus to make it transparent.

Depending on the functional structure of the cells, the can be cloudy or crystal clear State by switching on, off or toggling the voltage that activates the cell. When the cell 9 is directly controlled, the switch 12 can therefore provide a working, Have break or changeover contact. In the case shown, the switch 12 is exercising always only one pulse output to the control electronics 21 and this determines the Type of wiring of the cell.

In FIGS. 1a and 1b, the distance between the cell 9 and the image stage 5 is shown considerably further than the distance from the objective 11. (in Fig. 1a with a and b). There is a reason for this peculiarity: if cell 9 would be closer to the picture stage 5 arranged, as indicated schematically in Figure 3, which is yet to be described, so would the Slide change rushing past the nearby cell Slide frame together with the gripper jaws 6 'possibly still as a slight dark spot noticeable because the slide frame is in or near the slide plane in the area of the picture stage 5 and the gripper jaws 6, 6 'are still clearly shown on the entry surface of the cell would. In the example shown in Fig. 1a, such a relatively sharp one takes place However, it is no longer shown and therefore there is one last possible noticeable disturbance the dark spots ("dark bars") on the projection surface are excluded.

On the other hand, arranging the cell 9 is effected according to the distance b (Fig. 3) one formed by the circumference of the cell is still sufficient sharp image delimitation on the projection surface, which in the case of the Fi. 1a) Can not reach distance a, so that the intended pause brightening would extend over the entire projection surface and beyond.

Depending on the slide changing system used and the ones used The distance a or b of the cell 9 from the lens 11 or from the slide change level as desired by the presenter can be varied in order to find the optimal dark pause setting for his demonstration possibilities to achieve.

If the demonstrator uses, for example, a projection screen that stands free in the room so he will endeavor to make the distance b large in order to avoid the one who flies by Dark bars "to suppress, but at the same time by the dimensions of the projection screen still maintain a sufficiently sharp image boundary. Uses the presenter against it a white wall of his projection room as a projection surface, so he will endeavor to keep the distance b so small that just at the dark pause a sufficiently sharp image border is shown on the white wall becomes, but at the same time the "dark bar" scurrying past is as blurred as possible - is shown.

These conditions that exclude each other due to the performance (dark bar " and "image limitation") can be made by the presenter by moving cell 9, which can be adjusted mechanically along the projection axis 1 via an adjusting gear 33 to 36 is to be brought into harmony that is as less tiring for the slide viewer as possible. The adjusting gear consists of the adjusting knob 36, the bearing 35 and the adjusting spindle 33 and the adjusting nut 34.

In a further embodiment, a so-called is shown in FIGS. 2a and 2b Fall shaft slide projector with the technical beam path as described above shown. A vertical slide change can, depending on the type of construction, e.g. in "Falling through" with adjoining slide frames occurs very quickly. Still would a dark crossbar scurrying vertically across the screen, albeit extremely marginally, still be perceived as annoying. Di.e arrangement of the cell 9 with regard to of the distances a and b as shown and described in FIGS. 1a and 1b is shown in FIG their intended mode of operation is almost identical to that in FIGS. 2a and 2b the formation of a disturbing dark spot is even less likely here.

In Fig. 3 is an alternative arrangement of the cell 9 with the low Distance b shown immediately next to the slide plane. The liquid crystal cell 9 is here by a Adjusting gear 37 by means of an electric motor 38 axially displaced in the direction of the projection beam path 1 via a spindle 33.

Since the existing between the picture stage 5 and the projection lens 11 Space is relatively small and mostly due to other important functional parts of a slide projector can be filled, there is the accommodation of the cell 9 within the projection lens 11 at. In Fig. 4 a and 4b are possibilities of the arrangement of the cell within the Projection lens shown. As shown in Fig. A, the cell 9 can both between two lens groups 31, 31 'and, as shown in FIG. 4b, between the plane surfaces of two partial lenses 32, 32 'can be arranged. In Fig.

4b each has a transparent electrode of the cell 9 directly on it applied to the flat surface of a partial lens 32, 32 '. The electrical supply of the Electrodes runs via leads 28 within the objective wall to the slip rings 29 and device-side sliders 30 for control electronics 21. Used for the control a cell: 9 a central electronic control unit 21 is also used, so would be Another modification of the mode of operation for longer breaks in slide changes of the projector types according to Fig. la and ib possible. At the beginning one triggered by the control electronics Commands 11Diawechsel11 begins one after the other, initially a continuously running one Turbidity of the cell 9, only after reaching the predetermined "tHellwert" sets up the slide gripper 4 in motion. As soon as the new slide is in the picture stage 5, it takes place the "lighten" command that completes the change process, so that a continuous Brightening takes place up to full brightness. Such by continuous Voltage regulation on the cell 9 caused process acts on the viewer a bit like a real fade process.

In FIGS. 5a and 5b, the most frequently used one is again used Projector type with slide magazine guided laterally next to the projection beam path 1 went out. In this embodiment of the invention, as a light attenuator no cell 9 but a diffuser 18 is used. This lens 18 is standing also not permanently in the projection beam path like the cell 9 but is on the Slide gripper 4 attached and only when changing into the projection beam path 1 pushed.

The slide gripper 4 holding the slide 10 in the image stage 5 moves when changing the slide in the direction of arrow 3 of the change level and takes the slide 10 out of its Projection position in the picture stage 5 with. With the help of this simple method it slides the integrally formed light attenuation device on the gripper jaw 6 ' the diffusing screen 18 into the projection beam path 1 at the same moment (FIG. 5b).

An essential functional feature of the lens 18 now exists therein, the projection rays impinging on the lens 18 in full strength as before so reduce that only one of the average transparency of an average slide corresponding proportion of radiation through the projection lens 11 onto the projection surface got. In the type of projector used in this embodiment of the invention a slide change process runs relatively slowly and the duration of the pause is therefore corresponding long.

The eye of a beholder notices the people scurrying past Contours of the slide on the projection surface and the following pause without slide until the next slide appears, with the contours again laterally in the Rush into the beam path, quite consciously and perceive this as annoying in the long run and for a longer period of time than exhausting.

To now a constant adaptation of the eye from a bright slide image To switch off a dark pause in contrast to the previously usual black remains on the projection surface a light spot corresponding to the transmittance of the diffusion disk 18, which so on The average transparency of the slides is adjusted to suit the eye of the beholder Adaptation no longer or only to a very small extent. To the accommodation too of the observer's eye during the slide change, i.e. around the observer's eye to give no cause to laterally emerge from the projection beam path To follow the slide or the diffusing screen 18, grid lines 8 are on the diffusing screen applied in the direction of the exit movement. In addition, there is the gripper jaw surface the light attenuation device is particularly narrow and almost encompasses the entire right edge of the slide 10, so that the transverse to the projection beam path 1 moving surfaces should be kept as small as possible. The remaining ones, as weak contours are noticeable from the vertical surfaces of the right slide frame and the left frame part of the light attenuation device or the gripper jaw 6 'originating and scurrying across the projection screen thus reduced to a bearable minimum. The right gripper bakcen 6 'is included designed so that it also has the left frame part of the light attenuating device forms, the gripper jaw base 7 reaching almost as far as the lens 18. This ensures reliable guidance of the slide 10 and a narrow one through the projection beam path 1 dark area to be passed through is reached. The smaller this is through the projection beam path 1 is the area to be passed through, the lower the possibility of 2 that the eye influenced by the viewer and thus torn out of his state of accommodation will. The result of these efforts, the state of adaptation and accommodation of Keep your eyes open when possible, even when changing slides, consists in the fact that the eye of the beholder is not even with a longer duration of the presentation more tired.

The exemplary embodiments described above according to the invention are not limited to the means used to weaken the skin solid glass or plastic diffuser 18 or a liquid crystal cell 9 limited. Light attenuating devices with other materials can also be used in this way and surface structure shapes and / or liquid crystal cells of other mechanical or electrical construction and modes of operation are used.

Claims (14)

Method for the optical suppression of the image change movement in the case of transmitted light devices with image reproduction surfaces to be enlarged that can be moved in the beam path and a projection lens, characterized in that with the beginning of the image change movement mechanical and / or optical means can be switched into the beam path in such a way that that the wandering of the eye, which inevitably occurs with the image change movement of the viewer is excluded or at least largely prevented that the Projection surface during the image change process for brightening or darkening is brought to a brightness value, the rier average transparency of the image display surfaces corresponds, and that with the end of the picture change movement the mechanical and / or optical means are switched off again. 2. Apparatus for performing the method according to claim 1, characterized characterized in that a light attenuation device in the projection beam path (1) is arranged. 3. Apparatus according to claim 2, characterized in that the light attenuation device a liquid crystal cell (9). 4. Apparatus according to claim 3, characterized in that the liquid crystal cell (9) in the projection beam path (1) between an image stage (5) and a projection lens (11) is arranged, the distance a to the projection lens (11) opposite the distance b to the image stage (5) depending on the size of the blurring and the delimitation of the projected Image can be varied in the direction of the projection axis by means of an actuating gear (33-38) is. 5. Apparatus according to claim 3, characterized in that the liquid crystal cell (9) is arranged in the projection lens (11). 6. Apparatus according to claim 5, characterized in that the liquid crystal cell (9) is arranged between two lens groups (31, 31 '). 7. Apparatus according to claim 5, characterized in that the liquid crystal cell (9) - is arranged between two partial lenses (32, 32 '), and the transparent electrodes of the liquid crystal cell (9) directly on the inner flat surfaces of both Partial lenses (32, 32 ') are applied. 8. Apparatus according to claim 7, characterized in that one the Liquid crystal cell (9) activating electrical voltage as a function of the Image change movement can be switched in such a way that the image changer moving the image stage (5) one with a switch (12) which activates the liquid crystal cell (9) Has switching curve (13), and the switch (12) during the image change process emits a control pulse. 9. Apparatus according to claim 8, characterized in that a den Electronic control circuit (21) controlling the image change process, known per se is provided, which turns on the liquid crystal cell (9) and continuously upregulated before the presented image (10) moves in the image stage (5) and switches off after continuous downregulation as soon as a new picture is added to the Bildbühne has come to a standstill. 10. The device according to claim 9, characterized in that the device is designed in the manner of a microfilm reader for enlarging microfiches. 11. The device according to claim 9 with a device for lightening the projection surface to a brightness value during the image change process, which corresponds to the average transparency of slides, characterized in that the Device is designed in the manner of a slide projector for projecting slides. 12. Slide projector for performing the method according to claim 1 with a device for brightening the projection surface during the image change process to a brightness value that corresponds to the average transparency of slides characterized in that a light attenuator is a transparent gray or colored diffuser (18) with grid lines (8) running in a slide pattern having. 13. Slide projector according to claim 12, characterized in that the transparent lens (18) in the slide changing level (3) on the one facing away from the magazine Side of the picture stage (5) immediately next to the right gripper jaws (6 ') in the slide gripper (4) is arranged, and njit the slide change process in the projection beam path (1) is slidable. 14. Slide projector according to claim 13, characterized in that the right gripper jaw (6 ') is designed so that he also the left frame part the light attenuating device forms, the gripper jaw base (7) almost reaches up to the lens (18).