EP0352720A2 - A continuous processing machine for photographic sheet material - Google Patents

Abstract

According to the invention, a continuous processing machine for photographic material, in particular sheet-shaped photo paper, an input unit (A) for the sheet material to be treated and a variable number of treatment units (B, B ') of the same structure, which can be assembled together according to the modular principle. Each treatment unit is equipped with a set of transport rollers (18-22) and a line-frequency synchronous motor (75) as a drive, with a gear transmission, the transmission ratio of which can be set in accordance with predetermined values for the feed speed of the sheet material. A screw conveyor (32) driven by the same motor in the bath tank of each treatment unit ensures effective bath circulation.

The modular structure makes it possible to assemble a variable number of treatment units that are identical to one another to form a device unit that is suitable for different treatment processes, depending on the configuration level.

Description

The present invention relates to a continuous processing machine for photographic material, in particular sheet-shaped photographic paper, comprising an input unit for the exposed sheet material, a plurality of bath containers arranged one behind the other for receiving different treatment baths, transport means for conveying the material through the baths and means for bath movement.

Development machines of this type are known and are available on the market in various designs which are mainly based on the required performance, that is to say the number of copies to be produced per unit of time. Development machines for copy shops or professional photo laboratories, where high productivity is required, are complex and expensive and the purchase price and the operating costs are unaffordable for the amateur or professional photographer who wants to process his pictures himself. The known development machines are also mostly designed for a specific treatment process, so that different machines are required for processing material with different treatment processes. This contradicts the requirements of an amateur who works with different materials and processes or who just wants to keep the way open for experimenting with new materials.

DE-A 32 09 262 discloses a development device with a plurality of bath containers which have essentially the same structure with one another and can be connected to one another. There are transport rollers inside each container arranged, which, in cooperation with appropriate guiding means, form a circular, closed orbit for the material being conveyed, which passes through the bath repeatedly until it reaches the container exit after the operator has changed a deflecting element. The arrangement enables the residence time of the material in each bath to be regulated in accordance with the treatment time prescribed for a particular process. This brings greater flexibility with lower device costs, thanks to the possibility of adapting the device to different treatment processes. On the other hand, it is disadvantageous that, owing to the discontinuous passage of the material through the successive treatment units, the device is not suitable for automatic operation with the input of the material to be treated. By limiting the adjustable treatment times to a multiple of the material's circulation time in the closed orbit, the programmability of various processes is also limited. Finally, the dynamic coupling of the transport rollers of the individual units to a common drive is relatively complex and complicates the disassembly of the device into its individual components or its assembly, so that the advantages of the inherently flexible construction of the device are partially lost.

The object of the invention is to realize a development machine of the type mentioned at the outset which can be adapted to different treatment processes, for which it delivers consistently satisfactory results and which is distinguished by simple, space-saving construction and low production costs.

According to the invention, this task is accomplished through a development Machine with the features specified in the characterizing part of claim 1 solved.

Thanks to the modular design based on the modular principle, a variable number of individual treatment units of the same structure can be connected to one another and to an input unit, so that a development machine can be made to measure for a particular treatment process. Due to the form-fitting nature of the connecting parts, the individual units and the developing machine itself can be disassembled and assembled easily and quickly and without the aid of tools.

The regulation of the throughput speed of the material by simply repositioning gears in the drive system while the speed of the drive motor remains constant creates a simple means of adapting the developing machine to treatment processes with different treatment times.

A screw conveyor in the treatment bath, which is driven by the same motor for material transport, forms an effective and at the same time inexpensive circulating agent for the bath, because it eliminates the need for an actual circulating pump.

• Figur 1 - einen senkrechten Teilschnitt der erfindungsgemä­ßen Entwicklungsmaschine bestehend aus einer Ein­gabeeinheit und zwei Behandlungseinheiten;
• Figur 2 - eine Schnittansicht einer Behandlungseinheit normal zur Durchlaufrichtung des Behandlungsgutes;
• Figur 3 - eine Stirnansicht des Zahnradsystems zum Antrieb der Transportwalzen;
• Figur 4 - eine vereinfachte Schnittansicht der Antriebsein­heit.

Further advantages and details of the invention emerge from the dependent claims in conjunction with the following description of a preferred exemplary embodiment with reference to the accompanying drawings. These show:

• Figure 1 - a vertical partial section of the developing machine according to the invention consisting of an input unit and two treatment units;
• Figure 2 is a sectional view of a treatment unit normal to the direction of flow of the material to be treated;
• Figure 3 - an end view of the gear system for driving the transport rollers;
• Figure 4 - a simplified sectional view of the drive unit.

The developing machine shown in Fig. 1 comprises an input unit A and two treatment units B and B ', only a fragment of the latter being visible in the drawing.

The input unit comprises a box 1 with a lid 2, which in turn has a hinged lid 3 as access to the inside of the box for the input of a sheet. In its upper area, the box has a pair of feed rollers 4-4 ', which conveys an inserted sheet to an exit opening 5 and through this into the inlet channel of the subsequent treatment unit. A contact plate 6 points the sheet into the nip, while guide vanes 7 protruding from the inside of the cover 2 feed the sheet leaving the rollers to the exit. Edge projections 8 and 9 of the hinged lid 3 interact with form-fitting edge parts 10 and 11 of the box or the lid and prevent the light from entering the box when the lid is closed.

With reference to FIGS. 1 and 2, the treatment unit B has a trough-shaped container 12 with a front wall 13, a rear wall 14, end walls 15 and 16 and a curved bottom 17. The container is suitable for holding a certain amount of treatment liquid and has an overflow not shown in the figures see who determines the maximum level of the bath. In the container there is a set of rollers consisting of pairs of rollers 18-18 ', 19-19', 20-20 ', 21-21' and 22-22 ', which are arranged so that they have a continuous path for the sheet material to be treated Form from the inlet side through the treatment bath to the opposite outlet side. Elevations 23 and 24 in the bottom 17, together with correspondingly shaped packing elements 25 to 30, take over the guiding of the sheet material in the areas between pairs of rollers lying on top of one another. A separate baffle 31 has the sheet emerging from the treatment bath to the pair of rollers 22-22 located on the outlet side, which, in contrast to the others, lies outside the liquid bath and has the function of a pair of squeeze rollers, with which liquid residues are removed from the sheet material before it enters a next treatment phase is transferred. The central area of the container is filled by a screw conveyor 32, which is rotatable about an axis of rotation 33 and causes a liquid circulation in the direction of the axis of rotation, the liquid flow in the area of the screw conveyor in one direction and in the area of the tank bottom, the backflow in the opposite direction . The transport rollers and the screw conveyor are supported at the ends in end shields 35 and 36, which are held together by the packing elements 25 to 30, at the ends of which they are anchored. The roller system and the screw conveyor form a structural unit, which is releasably carried in the container by means of suitable guide and holding means.

A removable cover 37 covers the container 12 upwards, but leaves an inlet and outlet channel open on the front and on the rear container wall for the sheet material to be treated. The cover 37 has on the input side on its inside guide ribs 38, the profile of which is shaped such that an incoming sheet is directed onto the first pair of transport rollers. Similarly, the cover 37 has ribs 39 on the outlet side in such an arrangement that a sheet is guided to the outlet when it has finished its passage through the treatment bath and leaves the pair of nip rollers. In the area in between, the lid 37 has a projection on the inside, the curved surface 40 of which surrounds the part of the screw conveyor 32 lying outside the bath in a bowl shape and dips into the bath with the end parts 41 and 42 on both sides of the screw conveyor. In this way, the contact of the treatment liquid with the ambient air is kept to a minimum and premature degeneration of the bath due to oxidation is prevented.

The treatment unit is constructed in such a way that several units that are identical to one another can be assembled into different device configurations, depending on the type of treatment process envisaged. For this purpose, the rear wall 14 of the container 12 has an envelope 43 at the upper edge, which fits in shape and position in the upper edge of the front wall 13. A container is thus connected to a second, the same, by hanging the envelope of the rear wall of the first in the front wall of the second, as illustrated in Fig. 1 with respect to the treatment units B and B '. Likewise, the lid 37 at the rear end has an edge projection 44 which fits in shape and position in a corresponding groove 45 along the front edge of the lid, so that when the lid is closed, the rear edge projection 44 into the groove 45 'of the lid 37' of a subsequent treatment unit B 'intervenes. In the same way, the input unit A can be connected to a treatment unit B because it has the same connection elements on the output side as the treatment unit itself.

The drive of the transport rollers and the screw conveyor can be seen from FIG. 2 in conjunction with FIG. 3. The roll neck extend from the end of the end shield 36 and are provided with gear pairs 46-46 ', 47-47', 48-48 '49-49' and 50-50 'for each pair of rollers. The gear pairs are in engagement with one another via intermediate gears 51 to 54, which are rotatably mounted on fixed bolts 55 to 58 of the end shield 36. With the gear pair 46-46 'of the first pair of rollers another gear 59 is in engagement, which is rotatable about a fixed pin 60 and in turn meshes with a gear 61 which is rotatable about a fixed pin 62 and in the case of connection of the treatment unit with the input unit drives a corresponding gear pair of the feed rollers 4-4 'of the input unit.

A multi-stage gear 63 is rotatably mounted in the upper part of the end shield 36 about a fixed bolt 64. Two rotatably connected gears 65 and 66 are rotatable about a common pin 67 in such a position that one engages in the step gear 63 and the other in one of the intermediate gears 51 to 54, whereby the transmission of movement from the step gear to the transport rollers is established. The pin 67 is optionally displaceable in one of several bores 68 to 71 arranged on the end shield and provided with a thread, the gears 65 and 66 of the gear pair rotating about the pin depending on the position of the pin in the step gear 63 at a specific step and engage a specific one of the intermediate gears 51 to 54. To engage the step gear 63 To enable steps in different levels, the axial distance between the gears 65, 66 is adjustable. For this purpose, the outer gear 65 is displaceable on a support sleeve 72, which has suitable locking elements. It is readily understandable that the individual bores 69 to 71, each of which defines a position for the gear pair 65, 66, correspond to as many gear ratios and thus different rotational speeds of the transport rollers. The feed rate of the material to be treated can thus be changed from one position to another simply by moving the pin of the gear pair 65, 66.

The screw conveyor 32 is driven from the step gear 63 via a gear 73 on the axis of rotation of the screw. The gear 73 is preferably interchangeable in order to enable the engagement in the step gear 63 optionally on one of the two innermost steps and thus to achieve two different rotational speeds of the screw conveyor.

A drive unit 74 (FIG. 2) comprises an electric motor 75, on the rotary shaft 76 of which a gear 77 is seated, which meshes with the step gear 63 from above. The drive unit 74 also forms a removable modular unit which can be connected to the treatment unit by means of suitable connection elements in its housing. The housing rests on a bearing surface 78 protruding from the end wall 16 of the container 12 and is held on the latter by means of an eyelet hook 79 which extends from the housing base and engages in an eyelet 80 of the bearing surface. A longitudinal groove 81 in the housing bottom fits into a strip-shaped elevation 82 of the support surface, so that a light-tight connection ent with the end wall 16 of the container ent stands. A wall extension 83 of the housing rests on the bearing plate 36 and has an envelope 84 at the lower end, which receives an edge projection 85 of the cover 37 in the closed position. The power supply circuit 86 for a heating coil 87, which is part of the modular, removable unit and is immersed in the treatment bath, is also accommodated in the housing of the drive unit.

FIG. 4 shows the drive unit in a simplified cross section and limited to the parts for illustrating the mutual connection of drive units of successive treatment units. As can be seen from the figure, the housing of the drive unit has an extension 88 on the front at the bottom, which receives the plug 89a of an electrical connector, while the housing on the rear side has a step 90 which is adapted in shape and position to the extension 88 , which receives the socket 89b of the same connector. The plug and socket of the same drive unit are electrically connected to one another. The arrangement is such that when the drive units of two successive treatment units are connected, the rearward withdrawal 90 of one drive unit corresponds to the front extension 88 'of the other and the plug 89a engages in the socket 89b, as a result of which the electrical connection between the two drive units is established. Similarly, the input unit has a similar withdrawal 90 'on the output side, which in turn receives a socket 89'b of the connector and fits into the extension 88 of a subsequent drive unit. The connector of the input unit is connected to a power supply cable, so that with the connection of several, to successive treatment units belonging drive units and the input unit with a first treatment unit, the electrical power supply for the entire device is automatically established. A switch on the input unit is therefore the main switch for the electrical parts of all treatment units.

The top wall 91 of the housing of the drive unit has a longitudinal groove 92 at the front edge and an edge projection 93 at the opposite end, which form positive connection elements for successive units. Similarly, the bottom 94 has a groove 95 into which an elevation 96 of the bearing surface 78 fits (FIG. 2).

The electric motor 75 is a mains frequency synchronous motor, which ensures that the feed speed of the sheet material is rigorously the same in the individual treatment units. Equipping each treatment unit with its own drive unit has the advantage, among other things, that the electric motor is to be dimensioned exclusively with regard to the individual unit, regardless of the number of treatment units joined together. The same applies to the heating device, which is also dimensioned after the bath of the individual treatment unit. The combination of the electric drive and the heating device to form a removable modular drive and heating unit brings about a complete separation of the electrical parts from the rest of the device with obvious advantages in terms of care and maintenance of the device.

From the preceding description it is clear how the individual treatment unit consists of a bath container, a roller unit, a drive and heating unit and a cover is partially assembled and how several identical treatment units composed in this way can be connected to one another and to an input unit. The assembly begins with the treatment unit, which is ultimately intended to form the device closure, and proceeds to the previous units in each case until the input unit is placed last on the device head side. Conversely, the disassembly of the device begins with the removal of the input unit and continues in sequence to the final unit. It should be noted that the mandatory sequence of placing the input unit last and removing it first ensures that all treatment units are de-energized during the assembly and disassembly of the device, since only the input unit can be connected directly to the network .

In an expansion stage intended for the processing of black and white material, the development machine is composed of the input unit and two treatment units, of which the first contains a developer solution and the second wash water, preferably running water, which flows in via an inlet and flows out via the overflow. In an expansion stage provided for the processing of color material of a certain type, the treatment unit with the developer bath is followed by a treatment unit with a bleach-fix bath and the latter again by the washing unit. Other treatment processes for coloring material require separate baths for bleaching and for fixing, so that a further treatment unit is added. Other processes may involve an even greater number of separate treatment phases and may require the addition of further treatment units with appropriate treatment solutions. An additional, specially set up unit can be connected to the watering Unit can be provided as a dryer for the sheet material after the washing phase. The treatment times can be adapted to the different processes by changing the throughput speed of the material to be treated by selecting the appropriate transmission ratio in the drive of the transport rollers, as described above.

Thanks to the light-tight coupling of the individual treatment units to one another and the light-tight closure of the same to the outside, the exposed sheet passes through the successive treatment units in a light-protected path, so that with the exception of the sheet input, the entire workflow can be carried out in the bright room. The input unit also offers space for a whole sheet and the hinged lid can be closed as soon as the sheet is gripped by the feed rollers.

Claims (13)

1. Continuous processing machine for photographic material, in particular sheet-shaped photo paper, characterized in combination by:
- an input unit (A) for introducing the exposed sheet material;
- A number of treatment units (B, B ') of substantially the same construction, each comprising a bath container (12) for receiving different treatment baths;
- Connection means (13, 43) on each treatment unit for coupling a treatment unit to a next and a first treatment unit to the input unit and suitable for building the development machine as a modular system consisting of the input unit and the number of treatment units; and
Transport means in each treatment unit for conveying the sheet material to be treated through a treatment bath, comprising a set of transport rollers (18-22) and an electric drive (75-77) for the same, wherein the electric drive of a first treatment unit from the input unit and the electric drives successive treatment units are fed from the previous treatment unit. 2. Development machine according to claim 1, characterized in that each treatment unit (B, B ') has mechanical adjusting means for adjusting the transmission ratio between the electric drive (75-77) and the set of transport rollers (18-22), corresponding to a discrete series of different ones Feed speeds for the leaf material to be treated. 3. Developing machine according to claim 1, characterized in that each bath container (12) has a removable lid (37) which closes the bath container light-tight with the release of an inlet and an outlet channel for the sheet material and that container and lid on in the direction of flow of the material have positive connection elements (43-45) on opposite sides for the light-tight connection of a bath container to a next one. 4. Development machine according to claim 3, characterized in that the connecting elements have form-fitting sheet parts at the connection points. 5. Development machine according to claim 1, characterized in that each roller of a roller set (18 - 22) has a gear and the gears (46 - 50) of the roller set via a gear transmission with each other and with the electric drive are motionally connected. 6. Development machine according to claim 5, characterized in that the gear transmission with a step with the electric drive (75 - 77) engaged gear (63) and a coupling member (65 - 66) between this and the gears (46 - 50) of the roller set has, the step gear has several stages and the coupling member can be used to achieve different gear ratios to the different stages of the step gear. 7. Development machine according to claim 6, characterized in that the coupling member from two rotatably ver together tied coaxial gears (65, 66) which are rotatable about a common, displaceable pin (67), one of the gears (65) with the step gear (63) on one of the position of the pin (67) determined Stage and the other (66) is engaged with the row of roller gears. 8. Developing machine according to claim 1, characterized in that each treatment unit has a housing which can be placed on the bath tank with mutually positive connection elements (79-82; 95, 96) and the housing for the electric motor (75) and an electric heating device (86) receives the treatment bath, wherein the electric motor, the electric heating device and the housing together form a removable drive and heating unit. 9. Development machine according to claim 8, characterized in that the housing at opposite ends to each other complementary, electrically interconnected connectors (89a, 89b), via which the drive and heating unit of a bath container receives the power supply from a previous unit and to a subsequent one forwards. 10. Development machine according to claim 1, characterized in that the electric drive comprises a line frequency synchronous motor. 11. Development machine according to claim 1, characterized in that each treatment unit has means for circulating the treatment bath, which by the electric drive the transport rollers are operated mechanically. 12. Development machine according to Ansoruch 11, characterized in that the circulating means comprise a screw conveyor (32) which is rotatable in the central region of the bath container (12) about an axis (33) parallel to the transport rollers and is driven by the gear mechanism of the transport rollers. 13. Development machine according to claim 1, characterized in that the input unit has a light-tightly closable receiving space for a sheet of photographic material to be processed with a hinged cover (3) and is equipped with a pair of feed rollers (4-4 ') which is driven by the gear drive of the subsequent treatment unit becomes.

Images