DE4203265A1 - Colour printing or copying appts. for simplex or duplex working - has two intermediate carriers using electrostatic corona to transfer toner image - Google Patents

Abstract

Two motor-powered intermediate carriers (10, 18) face each other on opposite sides of a transport channel (T) for single sheets (16). A copying and developing station (2G, EY, EM, EC, EB) is assigned to the first carrier (10) for producing a series of toner images on both sides of separate sheets. The toner images assigned to the front side are transferred directly onto the single sheets in a front side transfer region (FT). The toner images assigned to the reverse side are first taken up in a transfer section (VE) on the second carrier (18) for intermediate storage before being transferred to the reverse sides of the sheets in a reverse side transfer region (RT). Transfer is electrostatic. The toner images on both sides are fixed together in a fixer station (26). Single sheets can be placed next to each other for processing together. ADVANTAGE - Optimum guiding and transfer of copy papers for high print quality in both simplex and duplex mode.

Description

The invention relates to a printing or copying machine with both arranged a recording medium transport channel Intermediate carriers for single or multi-colored simplex or Duplex printing and a method for operating such Printing or copying machine.

Are printing or copying machines for simplex or duplex printing e.g. B. from US-A-44 77 176 and US-A-45 37 493 known. Here are electrophotographic printing devices with a photoconductor with at least two charge images behind it can be arranged and the one transfer station with associated single sheet positioning device (turning unit direction), which enables the electrophotography to operate cal pressure device in two operating modes and in a first mode, in which the on the charge Colored toner images arranged one behind the other one above the other or side by side on one side of the single sheet tes are arranged and in a second mode, in which the result of the toner image on the charge image carrier arranged on the front and back of the single sheet becomes. The fixing of the toner images on the single sheets follows with the help of a roller fixing station using Pressure and high temperatures.

In duplex printing mode, with each side of the A toner image is arranged on the single sheet, the fixie takes place front and back at the same time. To do this, the single sheet printed on one side and again on the printed on the other side and then it is touched smoothly to the roller fixing station, e.g. B. over an air cushion, promoted.  

This requires a very high mechanical effort if at wide range of substrates high operational reliability should be guaranteed.

It is also from US-A-29 90 278 or GB-A-20 40 226 electrophotographic printing devices known where with the help of an exposure device on a Fo toleiter generated character-dependent charge images and a Ent winding station are fed. The developed charge pattern is then carried out with the help of a ribbon-shaped transfer element Mechanical pressure lifted from the photoconductor and onto one Transfer record carrier. To the toner image on the on To be able to fix the drawing medium, the toner image on the ribbon-shaped transfer element with the help of a heating device heated and the heated toner image over a roller assembly applied to the recording medium by pressure and heat. After the transfer of the toner image onto the recording medium the intermediate carrier is attached to a cleaning station toner cleaned.

Similar printing devices in which the transfer of the To Images from the photoconductor to the electrostatic transfer element table takes place are from WO-A-87/02 792 of DE-A-39 40 217 and US-A-36 97 170.

In known electrophotographic printing devices for one It is still common for single sheets to be consecutive  to transport and load sheets one after the other to press. As a result, device components are not optimally ge used when printing small sheet formats. For example the electrophotographic process has to be relatively quick, a specific print usually related to A4 size accomplish performance. But at the same time there is pressure designed for printing large formats and therefore only partially exploited. Unnecessarily high drain speeds, a side loading and considerable reduction in the achieved The lifespan of the individual components of the electrophotograph fish pressure device are the result.

Usually in such electrophotographic rapid pressure devices in the associated filing device the be printed sheet "face down" filed. This means the first one printed side is below and the last printed side is on top. The paper removal with this filing method is not possible without interruption. To ensure a sub chess-free handling can therefore be done with known devices two or more independent output units with automatic Switching can be arranged. However, the problem remains that the operator does not have the cut sheets at all times consequently can see, but only relatively large and un offered handy stacks, which they usually also has to turn around.

General is the design of the paper path at electrophotography pressure devices a crucial criterion for the secure processing of record carriers different ster Art. This can record a wide variety Weight classes, different formats, special papers, pre-printed record carriers, perforated or perforated Record carriers, etc. Furthermore, the devices Stability, device costs, diagnosis and service friendliness and handling in the event of a paper jam also strongly influenced by the type and the leadership of the Pa pierweges.

The aim of the invention is therefore a printing or copying machine to be provided with optimized guidance of the record carrier len, which is simple and reliable, a high Print quality guaranteed and simplex and duplex printing possible light.

The printer or copier should continue to be designed in this way be that the use of conventional known developments enables the process in the developed print image the toner can be arranged in several layers.

This task is the one with a printer or copier gangs mentioned type according to the features of claim 1 solved.

Advantageous embodiments of the invention are in the sub claims marked.

In the invention there is a straight transport on each side channels for the recording medium are each an intermediate carrier arranges. A first intermediate carrier is a recording and Developer station for single or multi-colored toner images arranges the toner images for the front and creates the back of a record carrier. The two The carrier label prints the front of the record carrier in a front transfer area. The other, second intermediate Carrier is used to print on the back of the recording medium gers in a rear transfer area. For this purpose he takes over from the first intermediate carrier that of the back assigned toner images in the manner of a mechanical intermediate memory before performing the recording medium through the transport channel. For simultaneous printing on the front the back and the back of the record carrier is then the on Drawing carriers through the transfer areas of the intermediate carriers passed through and at the same time on the front and Back of the recording medium a toner image over the Zwi applied beam. Then there is a simultaneous Fi  xation of these toner images when passing through a fixing sta tion. Both the transfer of the toner images from one to the other Intermediate carriers as well as the transfer from the intermediate carriers on the record carrier takes place via electrostatic over suspension means. So that the use of conventional be known development processes possible, in which th print image of the toner can be arranged in several layers can. The developer mixture can usually from a Ge mix of ferromagnetic carrier particles and toner particles consist.

The printer or copier has a very short straight Pa pierweg on and it is the simultaneous printing and processing of several single sheets arranged side by side possible. The simultaneous printing of the front and back of the record carrier without the use of overtaking and On hold enables an optimal print quality and a high printing performance.

In an advantageous embodiment of the invention contains the printing or copying machine a storage device for the one individual sheets to build up a stack of single sheets, the is designed such that the stack is built up from below becomes. The depositing device is a turning device for the Single sheets upstream.

This makes it possible to print the printed single sheets or sheets with the first printed side on top ppel that the stack grows from the bottom up and to each Single sheet without interruption of printing ter or sheet packs can be taken from single sheets nen.

In the printing or copying machine according to the invention the record carrier for both one-sided and double-sided printing the necessary stations - singles lung - aligning - transfer printing - fixing - storing only once  in the shortest possible way with a minimum of detours and without any overtaking, waiting and turning areas. This leads especially in view of the constantly changing and high requirements for the recording medium transport (Recy cling, special substrates, mailing applications, non-air-conditioned Papers, especially warped papers etc.) to an optimal Basic requirement for a high level of operational safety without pa piercing disorders.

Furthermore, due to the simple, straight and continuous Liche paper path only a minimum of mechanical and Electromechanical effort necessary, resulting in a cost-effective constant device design and very stable operation behavior leads. The simple and clear functional sequence begins makes a quick and correct diagnosis in the event of a fault and works favorably on the maintainability of the device.

The printing or copying machine can also advantageously be designed as a multicolor printing device. This is it z. B. possible, individually activated on an intermediate carrier Assign developer stations, the different colored To ner included. In the case of multi-color printing on one side the individual color separations are then immediately behind created on the first intermediate carrier and then one after the other other congruently transferred to the second intermediate carrier. The one that is now completely available on the second intermediate carrier Multi-colored print information is in the form of a multi-colored Toner image as a whole is printed on the recording medium. This procedure is the same as that required for multi-color printing high positional security and sharpness of contours.

An embodiment of the invention is shown in the drawing represents and is described in more detail below, for example.

The figure shows a schematic perspective view the construction of a single sheet electrophotographic print direction with two intermediate beams.

The illustrated electrophotographic single sheet printer device for single or multi-color printing of single sheets in the Simplex or duplex operation is divided into an actual one electrophotographic process and fixing area P, a pre advice and feed area for the single sheets V and an Ab Laying and stacking area A.

The electrophotographic process and fixing area contains a first intermediate carrier 10 in the form of a ribbon-shaped photo conductor, e.g. B. an OPC belt, which is guided via guide rollers 11 driven by an electric motor. Instead of the band-shaped intermediate carrier, however, a photoconductor drum can also be arranged. Grouped around the first intermediate carrier 10 are the various units for the electrophotographic process. These are essentially: a charging device LE in the form of a charging corotron for charging the intermediate carrier; a character generator ZG with a light-emitting diode comb for character-dependent exposure of the intermediate carrier 10 ; Developer stations EV, EM, EC and EB for coloring the charge-dependent discharged image on the intermediate carrier 10 using colored toner. The developer station EV contains yellow toner, the developer station EM toner with the color magenta, the developer station EC toner the color cyan and the developer station EB black toner. To remove the residual toner after development and transfer printing, a cleaning station RS is provided with an integrated cleaning brush 13 with associated suction device and a discharge device, not shown here. The developer stations EV, EM, EC and EB are designed to be exchangeable and can e.g. B. pulled out of the device via slide guides and inserted into the device who the. They are constructed in the usual way and contain developer rollers 14 for coloring the charge pattern and pivotable guide rollers 11/1 to 11/4 for pivoting the intermediate carrier 10 to and from the developer rollers 14 via electromagnetic swivel devices 15 . The pivoting devices 15 can, for. B. as diving magnets or z. B. be designed as a swing magnet. They serve the developer stations EV, EM, EC and EB controlled by a controller of the device to be coupled individually to the intermediate member 10, multi-colored so as to produce and monochrome toner images on the intermediate carrier 10th

Downstream of the developer stations in the direction of movement of the intermediate carrier 10 is an exposure station B, which serves to loosen the developed toner image before transfer printing. The first intermediate carrier 10 limits, guided by guide rollers 11 , a transport channel T for receiving and guiding a record carrier, in this case of individual sheets 16 to be printed. Associated with the first intermediate carrier 10 and the transport channel T is a front side transfer area FT with a transfer corotron 17 for transferring a toner image generated on the first intermediate carrier 10 to a recording medium guided through the front side transfer area FT.

On the other side of the transport channel T, the first intermediate carrier 10 arranged opposite, is a second intermediate carrier 18 , which consists of a suitable plastic tape with dielectric properties. However, it can also be designed as a thermoadhesive transfer tape with a temperature-resistant carrier fabric with an elastic cover layer made of elastomer arranged thereon or also as a conventional OPC tape. The band-shaped second intermediate carrier 18 is guided over guide elements 19 so that the elastic cover layer faces the first intermediate carrier 10 and touches it slightly. It is also guided so elastically that between the first intermediate carrier 10 and the second intermediate carrier 18 in the transport channel T, a record carrier can be passed, the record carrier being securely in contact with the intermediate carriers.

Associated with the second intermediate carrier 18 is a transfer cartridge 20 which acts on the first intermediate carrier 10 through the second intermediate carrier 18 and which forms a rear side transfer region RT in this region. It serves to transfer a toner image located on the first intermediate carrier 10 , which is assigned to the back of a single sheet 16 to be printed, onto the second intermediate carrier. To clean the second intermediate carrier belt 18 , a cleaning roller 21 is arranged. It is designed to be pivoted on and off via an electromotive drive device and serves to clean the second transfer belt of residual toner.

The electrophotographic process and fixing area P also contains a transport channel T assigned to the second intermediate carrier 18 opposite transfer corotron 22 , with which the transfer of the toner image on the second intermediate carrier 18 takes place on the back of the single sheet 16 to be printed, and one of the transfer corotron 22 downstream discharge corotron 23 , which electrostatically neutralizes the printed single sheet. Who fixes the toner images on the individual sheets 16 with the aid of a fixing station 24 . It consists of a fixing roller arrangement which is usually built up and consists of two heated fixing rollers 25 with a radiator heater 26 arranged therein. For the contact-free transport of the recording medium between the transfer areas and the fixing station, the transport channel T is assigned an air cushion generating device 27 . It contains a Ge blower with associated distributor device in the form of a distributor plate on which, in the operating state, an air cushion is formed which carries the recording medium without contact. The air flow is opti mized within this device so that the loose on the recording medium toner images are not mechanically removed or blurred.

The electrophotographic process and fixing area P upstream is a storage and feed area V. It contains several storage containers 28/1 to 28/3 for receiving stacking of individual sheets of different formats. The storage container 28/1 are assigned two stacks of single sheets in A4 format, which are processed in parallel, the storage container 28/2 a stack of single sheets of A3 format and the storage container 28/3 a stack of single sheets of large format A2. The single sheets of the format A2 are fed to the transport channel T in the longitudinal direction, the single sheets of the A3 format transversely and the single sheets of the A4 format in the longitudinal direction, however, a simultaneous supply of two A4 single sheets and a simultaneous loading of these single sheets is provided . Assigned to the storage containers, usual take-off devices in the form of take-off rollers or the like, furthermore contain the paper guide channel 29 , which serves as a feed channel to the actual transport channel T, usually in a plurality of paper transport rollers, which are not shown here for reasons of clarity. Between the storage containers 28/1 to 28/3 and the actual electrophotographic process and fi xing area P there is an upstream transport channel T, an alignment unit 30 . It is used to align the parallel A4 single sheets withdrawn from the stacks 28/1 with corresponding stops 31 and thus to feed the process and fixing area P to the electrophotographic fish. Such alignment units are generally known in the paper processing industry.

Downstream of the electrophotographic process and fixing area P in the process direction is a filing and stacking area A. It contains a paper transport channel 32 with two parallel sub-paper transport channels 33/1 and 33/2 , which can be individually controlled via a switch 34 , which is only shown schematically here are. The paper transport channel 32 is assigned a turning device 35 , the function of which will be explained later, as well as storage container 36 for storing the printed single sheets accordingly the different formats. Furthermore, a sub-paper transport channel 33/3 leads to a single-sheet depositing device ST with associated stacking device for building a job-offset single-sheet stack, from bottom to top. The single sheet filing device is described in the same day filed European patent application "Single sheet depositing device for printing devices to build a stack of single sheets". The content of this parallel European patent application is part of the disclosure of this application. The single sheet filing device ST contains two transport systems 1/1 , 1/2 designed in the form of roller cages for single sheets, which are arranged next to one another parallel to the axis. Each of the roller cages 1/1 , 1/2 has on its circumference in the axial direction of the roller cages 1/1 , 1/2 he stretching roller-shaped transport elements 3 , which are spaced apart by gaps. They loop around individually separate part storage surfaces 7/1 , 7/2 of a common, the two roller cages intersecting internal storage surface to take on the individual sheets to be filed 16th The roller cages are guided in scenes and each have an electromotive chain that connects the individual transport rollers 3 . By moving the roller cages 1/1 , 1/2 in opposite directions according to the direction of the arrow shown, the roller cages capture the individual sheets 16 to be stacked in the center and transport them into a storage position arranged above the roller cages. In this case, the transport elements 3 designed as transport rollers roll on the individual sheets 16 or on sheet packs made of individual sheets. The filing device is thus able to build a stack 2 from below, so that, as shown, the first printed side D of a sequence of printed and stacked single sheets comes to rest on top of the stack 2 .

Between the depositing device with the roller cages 1/1 and 1/2 and the sub-paper transport channel 33/2 , a turning device H is arranged, which is also filed in the European patent application filed on the same day "single sheet depositing device for printing devices for building up a stack Single sheet "is described. This turning device W contains a relatively steep storage compartment 40 in the form of an inter mediate compartment for receiving single sheets fed from above in the direction of the arrow. It is assumed that the printing device feeds the single sheets with the printed side down (face down). The first sheet of a job is therefore placed with the print side D down in the inclined intermediate compartment 40 . The filing of the sequence of single sheets of the same job is then built up in first place, likewise with the print side D down on this first sheet. This creates a first job 41 in a job-shifted, laterally shifted location. A corresponding device - which is not shown here for reasons of clarity - is assigned to the storage compartment 40 in the form of a slide or in the form of stops. However, it is also possible to use a device as described in WO-89/08 599. After the first job 41 has been stored, a corresponding laterally offset storage of a next job 42 takes place in the storage compartment 40 . Depending on the design of the capacity of the storage compartment 40 , several jobs 41 , 42 are arranged one above the other, in which the printed sides D of the single sheets point downward. So that with the storage device a stack can be formed, in which the sheets are arranged "face up", ie with the first side lying in the stack, it is necessary to rotate the sheet package thus formed in accordance with the direction of the arrow and on the here to deposit only schematically indicated feeder 43 . The feed device 43 may consist of a driven belt that the Bogenpa kete 41 , 42 supplies the partial storage surfaces 7/1 and 7/2 of the roller cages 1/1 and 1/2 . For turning, the turning device contains a motor-operated gripping system, as is usually used in printing technology, with lateral gripping elements which are guided in the guides and which grip the sheet package in the storage compartment 40 and with the printed sides D upwards on the belts of the feeding device 43 put down. The sheet package thus turned is now fed to the filing device and stacked in the manner described above via the roller cages 1/1 and 1/2, forming a stack 2 in which the most printed side of a sequence of individual sheets lies above. The individual jobs are also positioned in the stack from above according to their print order. This makes it possible to remove or remove the sheet packs or the jobs of any size from the stack 2 at any time and without interrupting the printing operation. During the turning of the sheet packs via the mechanics of the turning device, the storage compartment 40 can be filled again with single sheets in the manner described. This ensures a continuous turning and feeding of the sheet packs, which are moved to the depositing device, and thus a continuous depositing and printing operation.

Function of the electrophotographic printing device: Should a single sheet, e.g. B. of the A3 format or two sheets of A4 format are to be printed on one side and in one color. B. using the developer station EB a toner image on the first intermediate carrier 10 . The individual sheets 16 to be printed are then guided over the paper guide channel 29 from the supply area V to the transport channel T and aligned in the alignment zone 30 so that they meet the toner image located on the first intermediate carrier 10 in a precise fit. The transfer image 17 is transferred to the single sheets 16 by the transfer corotron 17 . The single sheets are then guided by means of air cushions 27 into the fixing station 25 . After the fixing, the individual sheets are cooled in a straight line, the continuation of the transport channel T forms the transport channel section 44 and the curvature is kept as low as possible. Then they are transported to the storage and stacking area A and stored there in the manner described.

If a single sheet or two parallel single sheets are to be printed on both sides, first the second, ie the back, is generated electrophotographically in the form of a toner image on the first intermediate carrier 10 . However, this back-side toner image is initially not transferred to the single sheet, but by means of the transfer corotron 20 to the second intermediate carrier 18 . Immediately following the back toner image, a toner image is then generated on the first intermediate carrier 10 , which is assigned to the front of the single sheet to be printed. This toner image must be shown or generated ge with known electronic means compared to the back toner image.

The single sheet to be printed or the parallel single sheets to be printed are guided in the transport channel in such a way that the toner image assigned to the front side can be transferred in a precisely fitting manner by means of transfer corotron 17 . Immediately after leaving the front side transfer area FT, the individual sheets meet with the toner image of the rear sides, which is initially printed on the second intermediate carrier 18, in a precisely fitting manner. The transfer of the toner image on the back to the single sheets takes place by means of transfer corotron 22 . The single sheets, which are now printed on both sides, are then electrostatically neutralized with the help of the discharge corotron 23 , fed to the fixing station on an air cushion, fixed and then deposited.

In this way, the record carrier becomes practical Printed from both sides at the same time without being turned to have to. Then both are fixed together Pages.

If the electrophotographic printing device is to be used to print multicolor one side of a single sheet or two parallel sheets, the individual color separations are generated electrophotographically one after the other on the intermediate carrier 10 by means of the developer stations EY, EM, EC and EB loaded with colored toner a sequence of toner images assigned to individual color separations. These toner images are first transferred one after the other to the second intermediate carrier 18 congruently with the aid of the transfer corotron 20 so that they are arranged there one above the other in an exact position. The now completely present on the second intermediate carrier 18 multi-colored toner image is then transferred as a whole in the manner described above with the aid of the trans ferkorotrons 22 to the single sheet fed to the transport channel T or the single sheets.

If the multicolored page printed in this way is the front of the single sheet, this single sheet printed in this way must be turned again in the turning station 35 in order to be able to be deposited in the filing device A consequently. The turning station 35 can be designed in a known manner as a stop turning station. However, it is also possible to use a z. B. via the switch 34 separately controllable paper guide channel directly to the feed device 43 for the roller cages 1/1 , 1/2 .

It is also possible to print a single sheet or several single sheets arranged side by side on both sides. For this it is necessary to provide a return channel - not shown here. The return duct leads the single sheet, which is printed and fixed on one side, to the electrophotographic process and fixing area P again in the turned state. In the embodiment described, the return duct contains a turning device and connects the transport duct section 44 to the alignment zone 30 .

Since the electrophotographic process and fixing area P and the storage and feed area V and the stacking and destacking area is designed for large formats (A3 landscape, A2), is through simultaneous transport of small formats (A4) side by side better use of the device. (The performance ability of an electrophotographic fast printing device is usually based on the print volume of small formats ten (A4) per unit of time.) The transport or printing of two small formats at the same time is cheap. It leads to one  relatively low process speed in electrophotographic Printing unit with immediate positive impact on the Le lifetime of the photoconductor, the exposure requirement of the time Chengenerators, the ozone formation and the performance at the Koro tron facilities and it leads to favorable constructive Be conditions for the developer station and the cleaning station. The relatively slow paper transport speed has no exception the favorable effects on the error rate in paper trans port, the accuracy of fit and the mechanical stress of the Construction elements. Furthermore, the printing of two leads Small formats for an inexpensive symmetrical mechanical loading load or optimal use of the fusing roller surface at relatively low throughput speeds Single sheets and therefore cheaper temperature transfer. Here the fuser roller life is based on the pressure performance influenced very favorably.

To ensure consistent filing, the correct page sequence must be observed when creating the electrophotographic print image using the ZG character generator (e.g. in duplex printing page 1 plus 3 and then page 2 plus 4 etc.). After fixation, the two parallel single sheets can be brought together by means of a suitably guided subpaper guide channel 33/4 and guided together into the storage and stacking area A. The subpaper guide channel 33/4 deflects the single sheet of the channel 33/1 laterally and thus guides the original sheets running one above the other.

The invention was based on an embodiment wrote that as electrophotographic single sheet printing direction is formed. However, it can also be used as a copier be trained. In this case, it is only necessary to Character generator ZG by an image common to copiers to replace generating device. With digital copiers is usually a scanner for the original image available, the scanning signals for copy generation of the character generator ZG are supplied.

Claims (8)

1. Printer or copier with

• a) a first, driven intermediate carrier ( 10 ) with assigned recording and developer station (ZG, EV, EM, EC, EB) for generating toner images on the first intermediate carrier ( 10 ) and with electrostatic means ( 17 ) for transmission of toner images on a front side of a recording medium ( 16 ) in a front side transfer area (FT);
• b) a second, driven intermediate carrier ( 18 ) with associated electrostatic means ( 20 , 22 ) for taking over toner images from the first intermediate carrier ( 10 ) in a takeover area ( 20 ) and for transferring the taken over toner images to a rear side of a recording medium ( 16 ) in a rear side transfer area ( 22 );
• c) a transport channel (T) for transporting the record carrier ( 16 ) through the transfer and transmission areas ( 17 , 20 , 22 ) arranged along the transport channel (T), the intermediate carriers ( 10 , 18 ) on both sides of the transport channel ( T) are arranged opposite each other;
• e) in a continuation of the transport channel (T) the transfer areas ( 22 , 17 , 20 ) downstream fixing station ( 26 ) for fixing the toner images on the recording medium ( 16 ) and
• f) with a storage device (A) for building a stack of single sheets, the storage device (A) having means ( 1/1 , 1/2 ) to build the stack (ST) from below.

2. Printing or copying device according to claim 1, with a plurality of along the first intermediate carrier ( 10 ) arranged individually activatable developer stations (EV, EM, EC, EB) for generating one or more colored toner images. 3. Printing or copying machine according to one of claims l or 2, with a fixing station with two fixing rollers ( 26 ) between de NEN of the record carrier is passed and at least one of which is heated. 4. Printing or copying machine according to one of claims 1 to 3, with a transport channel (T) with assigned transfer and transmission areas ( 22 , 17 , 20 ), for the simultaneous transport and printing of several juxtaposed recording media ( 16 ) is designed. 5. Printing or copying machine according to one of claims 1 to 4, with a transport channel (T) which extends in a straight line through the transfer and transmission areas ( 17 , 20 , 22 ). 6. Printing or copying machine according to one of claims 1 to 5, with a means ( 1/1 , 1/2 ) upstream Wendeeinrich device (W) for the storage device (A) supplied single sheets ( 16 ). 7. A method for double-sided printing of record carriers ( 16 ) with a printer or copier according to claim 1 with the following features:

• a) generating a sequence of toner images on the first intermediate carrier ( 10 ), a first toner image of the sequence of a rear side of the recording medium to be printed on ( 16 ) and a second, subsequent toner image of the sequence of a front side of the recording medium to be printed on ( 16 ) assigned;
• b) takeover of the first toner image on the second intermediate carrier ( 18 );
• c) transfer of the second toner image to the front of the record carrier ( 16 ) in the front side transfer area (FT);
• d) transfer of the first toner image to the back of the record carrier ( 16 ) in the back transfer area ( 22 );
• e) simultaneous fixing of both toner images on the record carrier ( 16 ) in the fixing station ( 26 );
• f) storage of the record carrier ( 16 ) in a Ablagvorrich device (A) having means ( 1/1 , 1/2 ) to build a stack (ST) of single sheets from below.

8. A method for the color printing of record carriers with a printing or copying device according to claim 2,

• a) generating a sequence of toner images on the first record carrier ( 10 ), each toner image representing a color separation partial image of an overall color image to be printed;
• b) congruent superimposed transfer of the color separation partial images on the second intermediate carrier ( 18 ) to generate a total toner image;
• c) transfer of the colored overall toner image from the second intermediate carrier ( 18 ) to the recording medium ( 16 );
• d) fixing the record carrier ( 16 ) in the fixing station ( 25 ).