DE1522856A1 - Process for keeping constant the chemical composition of the processing baths in developing machines for photographic material and apparatus for carrying out the process - Google Patents

Description

Walter Hostert
Düsseldorf-Gerresheim
Under the oaks 108

Process for keeping the chemical composition of the treatment baths constant in developing machines for photographic material and apparatus for carrying out the process

The economics of photographic development processes Material depends to a large extent on the consumption of the various treatment baths. Here comes it is important not to use more chemicals than absolutely necessary used, while on the other hand, care must be taken to ensure that the baths are always the required ones Contain chemicals in sufficient quantities. It is common to keep the baths used up during machining operations, in any case within a certain time, by adding additional chemicals to keep working, whereby one endeavors to maintain a quality that is as constant as possible reach.

Up to now, however, the consumption of the various chemicals can only be determined in a laborious and time-consuming manner, for example by titration. One has therefore started to deduce the consumption of chemicals from the length of the processed material. However, this determination only provides a very roughly approximate value because the total area of the developed material is not taken into account or largely not taken into account. The area of the developing material can be very different for the same length of material - if, for example, when developing photographic

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Papers and sheets of various formats pass through the developing machine one after the other.

The invention has therefore set itself the task of providing a method for much more accurate determination of the consumed To create chemicals and thus an exact basis for the addition of regenerated material. To the solution According to the invention, this object is proposed that the surface of the material to be developed by scanning mechanically, with the help of air or light rays or determined by ultrasound as a function of the throughput speed of the goods and the determined here Characteristic value is used to control a known regenerate metering device. '

The sufficiently precise determination of the area of the development material passing through is in different ways possible. A number of mechanical, pneumatic or optical or ultrasonic devices are used at right angles to the direction of travel of the development material and at sufficiently short intervals next to each other, it is possible from the number of each at the same time the passage of devices reporting development goods taking into account the transport speed of the Development good to draw conclusions about the approximate area of the good and accordingly the regeneration supply to control.

However, it has been shown that a sufficiently accurate determination of the surface of the machine passing through Good to be developed can also be achieved in that the scanning is carried out continuously or discontinuously moved transversely to the direction of flow of the goods, if necessary. there- and moved measuring point is carried out. The more often

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sieve, the measuring point in the unit of time across the material to be developed moved, the more accurate the surface measurement will be.

Although the surface of the undergoing development Good already provides a much better reference point for assessing the consumption of chemicals than the previous ones Method results, the measurement accuracy can still be significantly improved that the development material scanned with the help of light beams and the blackened area of the material to be developed is determined. Of course, the fluoroscopy or illumination of the development material must be carried out after fixing, i.e. after the product is no longer sensitive to light. In this way of doing the measurement, knowledge becomes uses that chemical-consuming precipitation of silver salts took place on the blackened areas to have.

A further refinement of the measurement result can be finally achieve that during the scanning the blackening intensity by determining the light permeability it / is determined. The measurement result is more accurate because the blackened areas are more Chemicals used in the implementation of the silver salts than the less blackened areas.

The device proposed for carrying out the method is extremely simple and can also be retrofitted to existing machines. According to a proposal of the invention, it consists in that the scanning device on at least one carrier movable transversely to the direction of passage of the material to be developed, e.g. an endless belt or chain. '' If the width of the development good passing through

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that "in larger machines in several rows, which is often are irregularly occupied, can be run through, determined with the help of a mechanical button, which only has the Presence or absence of development assets realizes, one gets by with an endless revolving belt or an endless chain. When the two strands of the chain lie in a plane perpendicular to the plane of the goods passing through, the aster always moves only from one side to the other across the development good, while it retreats out of touch with the good. But it is also possible, the endless Band or to arrange the endless chain in a plane lying parallel to the plane of the development material. In this In the case of the case, the button moves back and forth and creates a zigzag path relative to the material to be developed return.

If the button consists of a nozzle that emits an air jet, it is necessary to activate one synchronously with the nozzle to arrange the moving organ on the other side of the development material, each time the air jet hits it the absence of development material reports, while in the absence of the air jet, which then from the development material being swept over, reports the presence of development material.

If the device according to the invention is equipped with an ultrasonic transducer and receivers operated, the reflection method can be used. That means givers and Receivers are arranged on the same support next to one another and inclined to one another so that the from The sound reflected from the development material that has just been swept hits the receiver. However, they are givers and recipients Arranged on the different sides of the development material passing through, two are in turn synchronized

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"Moving carriers required. Same goes for the use of a photocell.

In this latter case, as already mentioned, niclfc only the width of the development goods passing through, but its degree of blackness as the basis for the feed to be added Regeneration fluids are determined; As is well known Light-sensitive cells deliver a stronger current, the brighter the light that hits them.

The messages coming from the various buttons about the presence or absence of development grid at the scanning point are stored in a counter, for example. As soon as sufficient storage of messages ^{11 "} development material available" has been made, corresponding amounts of regeneration liquids are fed to the various baths. Since it is known that not all baths are used up equally, it is possible to coordinate the various metered quantities so that the composition The number of metering processes can be recorded by a separate counter from which the actual consumption of chemicals can be read off.

Different embodiments for device and for Implementation of the method according to the invention are in Drawings shown schematically.

It shows:

Fig. 1 is a front view of a working with mechanical or electrical buttons Contraption,

Pig. 2 a measuring device working with air jets,

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Pig. 3 a measuring device, "consisting of transmitter and receiver, which are on opposite sides Pages of the development material are movably arranged, and

4 shows a modified embodiment of the device according to the invention.

As evidenced by Pig. 1 results, are above the development material 1 passing through in several rows side by side large number of buttons 2 arranged side by side. The! Easter, for example, consist of? a springy arm the free end of which is provided with a slider. Each within the width of the individual strands of continuous Development good 1 v / ground the buttons 2 from their rest position diverted. The deflection movement of the relevant buttons can be given in a mechanical way on a registration device by capturing the breadth of the development goods passing through and plague of the time and so that the length of the surface of the goods is registered and the regeneration device is actuated depending on the area .

The buttons 2 can also be designed as contact tongues, which are normally attached to one corresponding in the number of buttons Sections subdivided contact bar 3 below the Concern for development good. The one when the development good passes through separate contacts indicate the width of the goods. The measuring accuracy is of course greater, the the buttons 2 are narrower.

According to Pig. 2 can also be determined pneumatically. For this purpose is below the transport route of the development material1 a nozzle box 4 is provided, on the top of which is sealed

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Blow nozzles 5 are arranged at intervals next to one another. At the The upper side of the development material 1 are in the division of the nozzles 5 with a corresponding division of membranes or other Devices 6 responsive to the pressure of the incoming air jets are provided. The bodies 6 speak in each case only in the areas in which the air jets exiting the nozzles are not affected by the development material 1 are covered. In this way, too, the width of the development material passing through can be determined possible.

The width of the development material 1 passing through can be determined according to Pig. 3 also with the help of a transverse direction of the development material moving! button can be determined. The illustrated embodiment is a Encoder 9 and a receiver 10, of which the encoder 9 is attached to an endless chain 7, which is below the Movement path of the development material is guided over two chain wheels. In a corresponding way, the receiver is 10 attached to an endless chain 8 which runs over the sprockets 12. The chains 7 and 8 are at the same speed driven and move in the adjacent strands, i.e. in the upper strand of the chain 7 and in the lower strand of chain 8, in the same direction. The sprockets 11 and 12 rotate about horizontal axes. As a result the chains 7 and 8 lie in a common, perpendicular to the surface of the material to be developed 1 and perpendicular to it Running direction lying plane. The scanning of the width of the goods passing through takes place in the case of the one shown Embodiment only when the transmitter and receiver move to the right. When returning the two institutions mentioned stand out from the development good away. The faster the chains 7 and 8 in relation to the transport speed, the more accurate the measurement of development good 1 run.

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The devices 9 and 10 can be mechanical or electrical, as explained in connection with FIG. 1, or

• pneumatic, as in Pig. 2 shown, work. It is also possible to use the device 9 as a light source and the Design device 10 as a light-sensitive cell.

, An ultrasonic source can also be used as a transmitter, to which a corresponding receiver is assigned as device 10.

Finally, it is also possible to get by with just one endless chain, for example 7, when on optical Ways or when using ultrasound is worked according to the reflection principle. In this case, givers and Receivers attached next to each other on the chain 7, so that the reflected light or the reflected ultrasound falls into the receiver.

When measuring the width of the product to be developed optically, the degree of blackening of the product to be developed can also be measured if a light source is used as the device 9 and a light measuring cell is used as the device 10 will. The degree of blackening, which gives a guide value for the consumption of the developing baths, can finally be determined according to the reflection principle, with the light source and the light-sensitive cell next to each other attached to the same chain.

The device shown schematically in FIG. 4 allows movement in both directions transverse to the path of movement of the development material 1 to carry out measurements: For this purpose, the test device indicated at 14 is on a endless chain 13 attached, which revolves in a plane parallel to the plane of the development material. The necessary Sprockets 15 rotate about axes perpendicular to the surface of the material to be developed. Even with this

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Order is possible with both sides of the development property provided facilities to work, each at a speed and directional driven chain are attached.

Instead of chains, of course, endless belts, V-belts or the like can also be used.

Finally, it is possible as a! Carrier of the movable Probe devices to use threaded spindles. If the The distance to be covered by the scanning device is relatively long, several devices can also be used be attached at intervals to the same carrier.

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Claims (8)

-. ίο - claims 1. Method of keeping the chemical composition constant the treatment baths in developing machines for photographic material, characterized in that that the surface of the material to be developed (l) is mechanically scanned, with the help of air or light beams or by ultrasound depending on the throughput speed of the goods is determined and the characteristic value determined in this way for controlling a known regenerate metering device is used. 2. The method according to claim 1, characterized in that the sampling is carried out continuously or moved discontinuously transversely to the direction of passage of the goods, possibly moved back and forth Measuring point is carried out. 3. The method according to claims 1 and 2, characterized in that when scanning with Light rays only the blackened area of the development material is determined. 4. The method according to claim 3, 'characterized in that that . the blackening intensity during scanning by determining the light transmittance or reflection is detected. 5. Device for performing the method according to claim 1, characterized in that that a large number of close together, in one at right angles to the direction of flow of the development material (1) stationary scanning device arranged in a horizontal row 909844/0884 ' • Functions (2; 5; 9, 10; 14) on at least one page of the development good is provided. 6. Device for performing the method according to the Claims 1-4, characterized in that that the scanning device (14) on at least one transverse to the direction of passage of the 'development material (l) movable carrier (13), for example an endless belt or chain, is attached. 7. Apparatus according to claim 6, characterized that the scanning device consists of a transmitter (9) and a receiver (10), which move at the same speed and direction transversely to the direction of movement of the material to be developed (l). 8. Device according to claims 6 and 7, characterized ze ichnet that the encoder (9) and the receiver (10) on opposite sides of the development material (l) on endless chains (7, 8), Ribbons or the like .. Are attached. 165 d 9098U / 0884