DE1422762C - Color copier - Google Patents

Description

design according to the invention makes it possible, despite the use of additive color filters only with get by with a white light source.

The object of the invention is described below, for example, with reference to the drawing, which is a schematic representation of the color copier 'apparatus according to the invention.

With reference to the drawing, the operation of the devices will now be described in

Basic color are assigned and, when excited, the exposure initially taking place with white light complete and arrange the remaining exposures in the remaining two basic colors.

It is known from German Auslegeschrift 1,068,108, color-sensitive photographic material to expose successively in the three basic colors additively, whereby the duration of the individual

The invention relates to a color copier with
a white copier light source, in the beam path of which three additive color filters can be switched on
a lens for imaging the illuminated negative on the copy material to be exposed, with
three electrical time switch devices, each sensitive to a base color let through by the negative, which set the exposure time in the individual
Define basic colors, and with three electromechanical devices connected to the time switching devices within the area of the dash-dotted line, filter actuators can be seen, each of which is one.

The reference numeral 10 denotes a white light source, which is located below the negative holder 11, the the negative 12 carries. Above the negative holder 11 is a lens 13 in a suitable holder, which an image of the negative 12 throws onto the photosensitive material 14. There is also a beam splitter 15 arranged so that part of the light passing through the lens 13 is worded onto a lens 16 controlled by photocells. This is done by driving the light onto the cathode of a photo is, however, because of the successive- electrical cell 17 throws, whereby it was previously through the exposures time consuming; the quality of the analysis filters 18, 19 and 20 occurs, the red, green or 'However, the color images produced are very good. are colored blue. Filters 18, 19 and 20 are in

Furthermore, from the German patent it is mounted on a cylindrical holder 21, which has become known from a 972 204, the color-sensitive photo motor 22 can be rotated around the photocell 17, graphic material initially with white light. The motor 22 continues to drive in accordance with all three basic colors at the same time with the holder 21 a distributor 23, which the eleklichten. On the basis of an automatic photometric output of the cell 17, each with one of three controls, the three basic colors are then connected according to the timer circuits 24, 25 and 26, with each other switched off, so that the light 30 "red" circle 24 with the photocell 17 is connected during the time of three basic colors, then the light of two times in which the red filter 18 sees two basic colors and finally only the light of one basic color of the cell 17 and the beam splitter 15 is on the photographic material up. The "green" circle 25 is where the photocell 17 meets. Although this known method allows a connected during the time in which the greener work faster than the aforementioned method; 35 filter 19 between the cell 17 and the beam splitter but the quality of the color images produced was not 15, and the "blue" circle 26 is the same as the quality of the color positives produced by the additive process. This is essentially because
that in the latter known method
used subtractive color filters imperfect 40
and do not produce satisfactory filtering. In particular, the spectral ranges of the overlap
subtractive filters, which lead to color distortions
can.

Finally, there is already a color copier 45 of the type mentioned with three additive ones Filters have been proposed (German Patent 1,261,392). However, this earlier patent does not concern any Details of the circuitry for controlling the filter actuators.

The invention is based on the object of providing a color copier of the type mentioned at the beginning create which color images of the quality of the color images achieved with the additive color exposure process

Photocell 17 in connection when the blue filter 20 is between the cell 17 and the beam splitter 15 is located.

The circle 24 supplies an output signal that actuates a relay 27, while the "green" circle 25 turns on Output signal is generated which actuates a relay 28, and the "blue" circle delivers in a corresponding manner 26 a signal for actuating a relay 29.

The mode of operation of the control device for the course of the exposure process will now be explained. The process is initiated by actuating the switch 31, which is operated via a relay in the control device 30 supplies power 50 to a shutter solenoid 32 which is an opaque shutter 33 takes out of the beam path and the light through the lens 13 to the light-sensitive Material 14 and to the photocell 17 can occur. the

Exposure is terminated by signals from Kontakbilder supplies, but with a considerable 55 th 34, 35 and 36 of the relays 27, 28 and 29 Exposure time. borrowed three normally closed contacts 34,

To solve this problem, it is proposed that each of the three time switching devices have a relay actuated, which has two contacts, one of which is open in the non-energized state of the relay, 60 the other is closed, and that each of the filter actuators has a common voltage source to one pole of the open contacts and each directly to one pole of the closed

Contacts is applied, each of the other pole 65 solenoids bring copy filters 46, 47 and 48, which the change one of the open contacts of a relay directly with light into the beam path that of the other pole of the closed contacts of one of the light source 10 goes out. The filters are red, green of the other two relays is connected. The aus and colored blue.

35 and 36 must be open so that a signal indicating the end of the exposure process is sent to the control device 30 can get.

Contacts 37, 38 and 39 are also provided which connect a voltage source T & via contacts 40, 41 and 42 to solenoids 43, 44 and 45, the outputs of the solenoids being led to the other terminal of voltage source 39 '. the

During an actual exposure, the color content of the negative 12 may be such that any of the three timing circuits 24, 25 or 26 is the first to generate an output value. Hence any of relays 27, 28 or 29 are the first to be actuated. This will make a random selection of the filter order depending on the color balance of the negative 12. Depending on the color balance The negative can have the required exposure of the three colors red, green and blue during exposure to white light, which is the first step in exposure. This step is followed by an additional exposure with the remaining color or colors, as is the case with color balancing of the negative in question.

A complete exposure process will now be described. Assume that during exposure to white light, the requirements for red exposure are met first. Thereupon the "red" circle 24 generates an output signal which actuates the relay 27 in such a way that the contacts 37 are closed, the voltage source 39 'via the normally closed contacts Connect 41 to the solenoid 44 which inserts a green copy filter 47 and the next step initiates the process. This green exposure continues until the request for green exposure is fulfilled and the "green" circle 25 has generated an output signal which actuates the relay 28, the by opening the normally closed contacts 41, the solenoid 44 switches off, which the Removes green filter 47 from the beam path. Furthermore, by actuating the relay 28 the voltage source 39 'is connected via the contacts 38 and the contacts 42 to the solenoid 45, the pushes the blue filter 48 into the beam path. The blue exposure continues until the "blue" circle 26 generates an output signal which operates the relay 29 which is the normally closed contacts 42 opens, which switch off the solenoid 45 and thereby remove the blue filter 48 from the beam path. By actuating the relay 29, the contacts 36 are opened and connected to the contacts 34 and 35, which are open since the actuation of the relays 27 and 28, is the control device 30 affects, which switches off the solenoid 32 and thereby the shutter 33 in the closed position brings, which ends the exposure. After this process the relays 27, 28 and 29 are again de-energized, and the circuits 24, 25 and 26 are again in the starting position for the next exposure. This process resulted in a sequence of exposures of white light followed by green and then blue light from a negative with a color balance in which the red light requirement during exposure to white light could be met.

Another possible consequence is that during exposure to white light the green requirement is met first. In this case the "green" circle 25 generates an output signal that the relay 28 is actuated, which closes the contacts 38, which the voltage source 39 'via the contacts Connect 42 to the solenoid 45 so that the blue filter 48 is inserted. The blue exposure is continued until the requirement for blue exposure is met and the "blue" circle 26 a signal has generated, which actuates the relay 29, which switches off the solenoid 45 by opening the contacts 42 and removes the blue filter 48 from the beam path. At the same time, by pressing the Relay 29 the voltage source 39 'is connected via the contacts 39 and 40 to the solenoid 43, the Red filter 46 pushes into the beam path. The red exposure continues until the "red" circle 24 generates an output signal by which the relay 27 is actuated, which opens the contacts 40, which the Switch off solenoid 43 and remove the red filter from the beam path.

By actuating the relay 27 also open the contacts 34, and in connection with the Contacts 35 and 36, which have been open since relays 28 and 29 have been actuated, become the control device 30 affects, which turns off the solenoid 32 and brings the shutter 33 in the closed position, whereby the exposure stops. The relays 27, 28 and 29 are de-energized and the timing circuits 24, 25 and 26 are returned to the starting position for the next exposure, the mode of operation the control device 30 can again be found in detail in the earlier application mentioned. at this resulted in an exposure to white light followed by a blue and then red exposure followed, from a negative with a color balance in which the green light requirement during exposure to white light could be met.

For the last possible sequence, assume that during exposure to white light first the requirement for blue exposure is met. The »blue« circle 26 then generates an output signal, by which the relay 29 is operated so that the contacts 39 are closed and the voltage source 39 'via the contacts 40 with the solenoid 43, which the red filter 46 in the beam path pushes in. The red exposure continues until the red exposure requirement is met and the "red" circle 24 has generated an output signal which actuates the relay 27, which is triggered by When the contacts 40 open, the solenoid 43 switches off, which in turn removes the red filter 46 from the beam path takes out. By actuating the relay 27, the voltage source 39 'continues through the Contacts 37 and contacts 41 are connected to the solenoid 44, which the green filter 47 in the beam path pushes in. This green exposure is continued until the "green" circle 25 has a starting value has generated, which actuates the relay 28, whereby the contacts 41 opened and the solenoid 44 switched off will. As a result, the green filter 47 is removed from the beam path.

By actuating the relay 28, the contacts 35 open, so that in connection with the contacts 34 and 36, which are open since the actuation of the relays 27 and 29, actuates the control device 30 is, which turns off the solenoid 32 and brings the shutter 33 in the closed position, whereby the Exposure stops. The relays 27, 28 and 29 are de-energized again, and so are the timing circuits 24, 25 and 26 are returned to their original position. The mode of operation of the control device 30 in detail can again be found in the earlier application mentioned. With this one The process resulted in an exposure to white light, on which a red and then blue exposure followed, from a negative with a color balance,

where the blue light requirement during exposure could be filled with white light.

It is clear that by changing the connections between the relays 27, 28 and 29 three more, possible consequences can be realized, namely white, blue, green; white, green, red and white, Red Blue.

Claims (3)

Patent claims: 1. Color copier with a white copier light source, in the beam path of which three additive color filters can be switched on, with an objective for mapping the illuminated negative onto the
copy material to be exposed, with three electrical time switch devices each sensitive to a basic color let through by the negative, which determine the exposure time in the individual basic colors, and with three electromechanical filter actuators connected to the time switch devices, which are each assigned to a basic color and, when excited, initially with white light complete the exposure taking place and cause the remaining exposures in the remaining two basic colors, characterized in that each of the three time switching devices (24, 25, 26) actuates a relay (27, 28, 29) which has two contacts (37, 40; 38, 41; 39, 42) of which one (37, 38, 39) is open in the non-energized state of the relay, the other (40, 41, 42) is closed, and that each of the filter actuators (43, 44, 45) over a common voltage source (39 ') to one pole of the open contacts (37, 38, 39) and each directly to one pole of the total closed contacts (40, 41, 42), the other pole of one of the open contacts (37, 38, 39) of a relay (27, 28, 29) being connected directly to the other pole of the closed contacts (41, 42, 40) one of the other two relays (28, 29, 27) is connected. 2. Apparatus according to claim 1, characterized by a further relay (32) which responds to the signals the time switch devices (24, 25, 26) responds and the luminous flux to the copy material to be exposed (14) Shuts off the exposure with that transmitted by the second filter Color is complete. 3. Apparatus according to claim 2, characterized in that the time switching devices (24, 25, 26) actuated relays (27, 28, 29) each have two further contacts (34; 35; 36) which are in in the non-excited state of the relays are closed and connected to a control device (30) are to which the relay (32) and the timing devices (24, 25, 26) are connected are. 1 sheet of drawings