EP1225045A2 - Conditioning device for changing the moisture content of documents - Google Patents

Abstract

This invention relates to a conditioning device (1) for changing the moisture content of print media (2), in particular flat paper products, by bringing the print media into contact with at least one moisture-absorbing endless fabric (12), the endless fabric being heated by heated transport rollers (11). is heated. A reduction in the moisture content contributes in particular to the reduction of distortions in the printed image in the case of two-sided printing, in particular in digital printing machines. <IMAGE>

Description

This invention relates to a conditioning device for changing the Moisture content of print media, in particular flat paper products, by the Print medium in contact with at least one moisture absorbing endless cloth is brought, the endless fabric being heated by heated transport rollers. A such a conditioning device is used, for example, within printing machines used. With the conditioning device according to the invention Reduce moisture content of print media from approx. 10% to approx. 5%.

EP 0 771 904 relates to such a drying device in the Papermaking that removes large amounts of moisture from paper have to. A paper web is attached to a moisture absorbing cloth, e.g. made of felt, passed by and exposed to infrared radiation in a limited area. simultaneously is the vacuum emerging from the underside of the cloth from the paper web Moisture is drawn into the felt cloth, which improves drying contributes.

EP 0 078 382 relates to a drying device in offset printing. there infrared emitters are used to evaporate moisture from sheets of paper, and a blower is used to blow the humid air off the sheets of paper and cool the paper sheets at the same time.

The moisture content of paper is an essential parameter that determines the dimensions of a Paper sheet or a paper web determined and has a not inconsiderable Influence on print quality within a printing press. The application of pressure and heat can cause a paper carrier to shrink. special This has an impact on double-sided printing, if between printing the Front and back a change in the moisture content of the print medium arises and thus causes a change in the size of the print carrier. Thereby the so-called front-to-back error occurs. This happens regularly Digital printing machines used to fix a toner image heat and pressure use. This effect can be reduced by pre-drying the print carrier, because the lower residual moisture means that the print carrier can only shrink a little. This increases the print quality.

It is therefore an object of the invention to provide a device of the type mentioned create, which ensures that the print carrier with a defined geometry and a defined moisture content for subsequent processing steps of the Printing machine arrives. According to the invention, this object is achieved through the features of Claim 1 solved.

In an advantageous embodiment of the idea on which the invention is based, a Print medium in contact with at least one moisture absorbing endless cloth led that around a plurality of transport rollers, the movement of the endless cloth serve, is excited and is heated by means of a heating device, causing the moisture passes into the endless fabric within the printing medium which is also heated thereby.

In a particularly advantageous embodiment, the heating device is located within the Roll and heat them from the inside. This will prevent the Heating device acts directly on the print carrier, which leads to changes, can have, for example, in the printed image or the color composition and thereby especially causes a deterioration in print quality.

Print media in contact with the endless fabric warmed by the heating device advised, are heated and thereby give their moisture to the environment and especially from the endless cloth. The moisture continues inside the endless cloth transported and removed from the cloth at a suitable point. This will be further Contact of the endless cloth with the heated transport rollers supports one Promote evaporation of moisture from the endless fabric.

In addition to the evaporation of moisture from the endless cloth can in one Continuation of the inventive concept, an air flow can be generated, in particular by a blower that is at least one horizontal to the surface of the endless fabric has directed flow component and is guided past the endless cloth. The resulting change in local vapor pressure causes evaporation supported by moisture from the endless cloth. This process can be done according to the invention preferably supported by the fact that the endless cloth outside the contact zone is dried in this way.

In a further embodiment, an air flow, in particular through a Blower is generated and at least one perpendicular to the surface of the endless fabric directed flow component has to be passed through the endless cloth and so Entrain liquid particles, which also accelerates the drying of the Endlostuch contributes. According to the invention, the air flow through the endless cloth or a continuous fabric deviating from the ambient temperature is passed past the endless fabric Temperature, especially an elevated temperature.

In the area of the conditioning device, the paper is advantageously by the mechanical contact between the endless fabric and the printing medium is conveyed forward. Alternative funding methods that drive on the endless cloth opposite side of the print carrier are also conceivable.

In a further advantageous embodiment of the device according to the invention the print medium is guided between two identical endless cloths on both sides of the Print carrier are arranged. This allows a more even removal of the Moisture can be guaranteed from the print medium, since here the evaporated Moisture completely passes into the endless cloths.

A considerable advantage of this configuration according to the invention results in that elaborate paper guides are eliminated. At the same time, the Forward movement, which is transmitted to the printing medium by the endless cloths, one Relative movement between the printing medium and the endless cloth reduced and a Prevents contact with stationary paper guides. This can avoid that the surface of the print carrier changes, in particular is damaged.

It is within the inventive concept of the device disclosed here that the Heating of the conveyor rollers of the endless fabric across the width is not uniform must take place, but can be overlaid with a temperature profile. At the same time a variation of the temperature profile in the longitudinal direction can be realized by the Power of the heaters can be varied over time, especially in correlation with the format of the print media.

In a further advantageous embodiment there is another one at the tempering zone Evaporation zone connected in which the pressure medium due to its heating Releases moisture and thereby due to the heat of evaporation given off cools. Advantageously, the pressure carriers can be guided in this area lattice-like structures occur that allow a maximum evaporation area.

In a further embodiment variant, a cooling device can advantageously be located behind the tempering and / or evaporation zone are attached. This is the same in their construction of the tempering zone. However, unheated or cooled Transport rollers used. It can thereby be achieved that the print carrier, after Leaving the cooling device has a temperature substantially the same as before the drying device. It is within the scope of the invention shown here The idea of the cooling device also without a preceding tempering zone to use other purposes, in particular for cooling print media.

Another advantage results from the elasticity, in particular compressibility Moisture absorbing endless wipes, causing differences in thickness from individual Media types are balanced and therefore no corresponding adjustments is necessary or unnecessary loads on the rollers due to different thicknesses of the Media types can be prevented. Through the contact of the print medium with the Endless cloth and the associated discharge of the evaporated liquid from the In addition, print media become traces on the print media such as water stains avoided.

In some cases, print media become a result of storage or the manufacturing process deformed, especially pre-rolled, the so-called "paper curl". Another advantage of the device according to the invention is that pressure carriers that are deformed are kept flat and smoothed by the close contact with the endless cloth.

Electromagnetic devices can advantageously be used as heating devices Radiation sources, in particular infrared radiation sources for heating the Transport rollers are used. However, other principles are equally applicable Heating the transport rollers is conceivable, such as steam, electrical heating or others.

Fans or air nozzles in particular can be used as blower devices different arrangement and mode of operation are used.

The device according to the invention is used in digital printing presses but beyond that in any other printing press or other paper processing Devices are used where there are differences in paper size during passage avoided or at least reduced by the device and its components should be.

Functionally and constructively advantageous developments of the invention The method and the device according to the invention are mentioned in the subclaims and result from the following description of preferred exemplary embodiments and the associated drawing:

Figur 1

schematische Ansicht einer repräsentativen Baugruppe mit einer erfindungsgemäßen Konditioniervorrichtung mit einer Temperierungszone und einer vorteilhaften Gebläsevorrichtung,

Figur 2

schematische Ansicht einer repräsentativen Weiterbildung der erfindungsgemäßen Konditioniervorrichtung mit einer Temperierungszone, Verdunstungszone und Kühlzone.

In this shows:

Figure 1

schematic view of a representative assembly with a conditioning device according to the invention with a temperature control zone and an advantageous blower device,

Figure 2

schematic view of a representative development of the conditioning device according to the invention with a tempering zone, evaporation zone and cooling zone.

1 is a schematic of a representative assembly with an inventive Conditioning device 1 with a tempering zone 10 shown. Within the Temperature control zone 10 there are at least two stationary transport rollers 11, over which a moisture absorbing endless cloth 12 is stretched. Not by one Drive shown, the transport rollers 11 are coupled or individually in the same direction in Rotation set. As a result, the transport rollers 11 drive the moisture-absorbing material Endless cloth 12. Within one, preferably all, of the transport rollers 11 there is one Heating device 13, which heats up the surrounding transport rollers 11. The of the Heating device 13 generated heat is on the transport rollers 11 to the moisture receiving endless cloth 12 transferred.

Due to the mechanical contact between the printing medium 2 and the endless cloth 12 the print carrier 2 is moved forward by the conditioning device 1.

A print carrier 2 leaves an upstream one, not shown Print carrier processing device and is in frictional contact along a grid-like Print carrier guide 14 on the moisture absorbing endless cloth 12 and thus comes into thermal and mechanical contact with the heated moisture receiving endless cloth 12 and is also warmed thereby. Through the Condition of the endless cloth 12, and the pressure between the print media 2 and Endless cloth 12 and moisture in the print carrier 2 passes over to the endless cloth 12.

In addition, the heating of the print carrier 2 causes moisture in the print carrier 2 evaporates, which can escape through the grid-like pressure carrier guide 14.

The moisture absorbed by the moisture-absorbing endless cloth 12 leaves the endless cloth 12 by evaporation on the side facing away from the print carrier 2 and the endless cloth 12 is dried.

In an advantageous development of the invention, within the Temperature control zone 10, a fan 15 is arranged, the air flow along the Moisture-absorbing endless cloth 12 is produced by at least one horizontally Surface of the endless cloth has directed flow component and thereby the Evaporation process of the moisture absorbing endless cloth 12 and Print media 2 supported.

In an alternative, particularly advantageous embodiment, at least one Blower 16, the at least one directed perpendicular to the surface of the endless fabric Flow component has between the transport rollers 11, with the advantageously tempered air in and in particular by the moisture receiving endless cloth 12 is blown. In an advantageous development of the Invention, the blower 16 consists of a plurality of blower units which are evenly distributed over the area between the transport rollers 11 and individually or controlled in groups and regulated in their performance and in particular switched off can be.

A particularly advantageous development of the device according to the invention is shown in FIG shown. Here is another instead of a grid-like print carrier guide 14 Moisture-absorbing endless cloth 12 with at least two transport rollers 11 and internal heating devices 13 arranged. The print carrier 2 will transported only by the endless sheets 12. Due to the symmetrical structure The drying of the print carrier 2 can be improved in an advantageous manner.

The pressure carrier 2 is from the temperature control zone 10 to an evaporation zone 20 passed on and guided by means of a grid-like pressure carrier guide 21. As Transport means for the printing medium 2 are preferably used for contact rollers or others known mechanisms, not shown. The one coming from the tempering zone 10 Print carrier 2 cools with further release of moisture due to this emitted heat of evaporation.

In the embodiment variant shown in FIG Run through another pair of moisture absorbing endless cloths 32 recorded and conveyed through a cooling zone 30. The cooling zone 30 is similar to that Tempering zone 10 constructed from transport rollers 31, advantageously two each, over the moisture-absorbing endless cloths 32 are stretched. In this advantageous embodiment, further transport rollers 31 are dispensed with to create the largest possible evaporation area. Between the endless cloths 32 a blower 33 is arranged, which in turn by utilizing the output Evaporation heat the pressure carrier 2 essentially to the initial temperature of the Print carrier 2 cools down before entering the conditioning device 1.

After the cooling zone 30, the pressure carrier 2 is removed from the conditioning device 1 output.

LIST OF REFERENCE NUMBERS

1

conditioning device

2

print carrier

10

Temperierungszone

11

transport roller

12

Moisture absorbing endless cloth

13

heater

14

Grid-like print carrier guide

15

fan

16

fan

20

evaporation zone

21

Grid-like print carrier guide

30

cooling zone

31

transport roller

32

Moisture absorbing endless cloth

33

fan

Claims (20)

Device for conditioning printing media (2), in particular paper sheets or paper webs, with a temperature control zone (10) in which the printing media (2) are in contact with at least one moisture-absorbing endless fabric (12), at least two transport rollers (11) on which the endless fabric is stretched and with at least one heating device (13),
characterized in that the moisture-absorbing endless cloth (12) is heated and the heating device (13) is located within the space wrapped in the endless cloth (12) Device according to claim 1,
characterized in that at least one heating device is arranged within at least one of the transport rollers (11). Device according to one of claims 1 to 2,
characterized in that a grid-like print carrier guide (14) is formed on the side of the print carrier facing away from the endless fabric (12). Device according to one of claims 1 to 2,
characterized in that a further moisture absorbing endless cloth (12) is arranged opposite the transport path of the print carrier (2). Device according to one of claims 1 to 4 with an evaporation zone (20),
characterized in that the evaporation zone (20) is located behind the temperature control zone (10) in which the pressure carrier (2) is guided and the pressure carrier (2) cools down at least through the evaporation of moisture. Device according to claim 5,
characterized in that the guide in the evaporation zone is a grid-like pressure carrier guide (21). Device according to one of claims 1 to 6 with a cooling zone (30) consisting of at least one moisture-absorbing endless cloth (32) and at least two transport rollers (31),
characterized in that the cooling zone (30) is located behind the temperature control zone (10). Device according to one of claims 1 to 7,
characterized in that the print carrier (2) is in contact with at least one endless cloth (32) during transport through the cooling zone (30). Device according to one of claims 1 to 8,
characterized in that at least one blower (15) is arranged within the conditioning device (1) in such a way that it produces an air flow which has at least one flow component directed horizontally to the surface of the endless fabric along the moisture-absorbing continuous fabric (12, 32) and thus the Evaporation of moisture from the moisture-absorbing endless cloth (12, 32) is supported. Device according to one of claims 1 to 9,
characterized in that at least one blower (16, 33) which is arranged between the transport rollers (11, 31) generates an air flow which has at least one flow component directed perpendicularly to the surface of the endless fabric, the continuous fabric (12, 32) which absorbs moisture is pressed. Device according to one of claims 1 to 10,
characterized in that the moisture-absorbing endless fabric (12, 32) moves the print carrier (2) forward, and in particular a relative movement between the endless fabric (12, 32) and the print carrier (2) is avoided. Device according to one of claims 1 to 11,
characterized in that the moisture absorbing endless cloth (12, 32) is compressible. Device according to one of claims 1 to 12,
characterized in that the air flow is generated by at least one of the blowers (15, 16, 17, 33) arranged within the conditioning device (1), in particular heated in comparison with the moisture-absorbing endless cloth. Device according to one of claims 1 to 13;
characterized in that the flow rate of the air flow can be regulated, in particular switched off, by at least one, preferably all, of the blowers (15, 16, 17, 33) arranged within the conditioning device (1). Device according to one of claims 1 to 14,
characterized in that the heating power of the heating device (13) is variable over the length of the transport roller. Device according to one of claims 1 to 15,
characterized in that the heating power of the heating device (13) can be regulated, in particular switched off, individually or together within at least one, preferably all, of the transport rollers (11). Device according to one of claims 1 to 16,
characterized in that the moisture content of the printing medium is reduced from approximately 10% to approximately 5%. Method with a device according to one of claims 1 to 17,
consisting of the steps Heating transport rollers (11) with a heating device (13), Heating an endless cloth (12) stretched around the transport rollers (11), Heating a printing medium (2) by contact with a moisture-absorbing endless cloth (12), Releasing the moisture of the heated print medium (2) onto a moisture-absorbing endless cloth (12), Transport of the print medium (2) through a temperature control zone (10) by contact with the endless cloth (12), Blowing out the endless fabric by a blower (15, 16). Method with a device according to one of claims 1 to 17,
consisting of at least one of the following steps, Heating transport rollers (11) with a heating device (13), Heating an endless cloth (12) stretched around the transport rollers (11), Heating a printing medium (2) by contact with a moisture-absorbing endless cloth (12), Releasing the moisture of the heated print medium (2) onto a moisture-absorbing endless cloth (12), Transport of the print medium (2) through a temperature control zone (10) by contact with the endless cloth (12), Blowing out the endless fabric by a blower (15, 16), Transport of the pressure medium (2) through an evaporation zone (20), Cooling of the pressure medium (2) in the evaporation zone (20) by evaporation. Method with a device according to one of claims 1 to 17,
consisting of at least one of the following steps, Heating transport rollers (11) with a heating device (13), Heating an endless cloth (12) stretched around the transport rollers (11), Heating a printing medium (2) by contact with a moisture-absorbing endless cloth (12), Releasing the moisture of the heated print medium (2) onto a moisture-absorbing endless cloth (12), Transporting the printing medium (2) through a temperature control zone (10) by contact with the endless cloth (12), Blowing out the endless fabric by a blower (15, 16), Transport of the pressure medium (2) through an evaporation zone (20), Cooling of the pressure medium (2) in the evaporation zone (20) by evaporation, Transporting the print medium (2) through a cooling zone (3), Cooling of the printing medium (2) by contact with at least one moisture-absorbing endless cloth (32), Blowing out the endless cloth with a blower (33), Output of the print medium (2) from the conditioning device (1).

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