EP0871928B1 - Arrangement for turning or displacing a web of continuous recording material - Google Patents

Description

The invention relates to a device for turning and moving a web of continuous recording material, in particular a paper web in an electrographic printer. Furthermore, the invention relates to a device in which the Web of continuous recording material only parallel is transferred.

Such devices are important components of a electrographic printing device for printing on band-shaped Record carriers of different bandwidth. A such a printing device is for example in WO / 94 27193 described. The printing device has an electrographic working intermediate carrier, for example a photoconductor drum, with a usable width corresponding to double Width format of a standard form, e.g. DIN A4 or letter-size format. The other aggregates, like the Fuser, developer station, cleaning station, etc. are also designed for this usable width.

With this known printing device there are different operating modes possible. In single-color duplex operation, the Web of endless recording material during transport the printing device turned so that two web sections result: The first side is the front the path of the transfer printing station opposite a printing unit, while in a second section of the track the back printed on the web at the same transfer location at the same time becomes. By using different colored color particles in different developer units the printing unit is too two-color duplex operation possible. Another one The mode of operation, the two-tone simplex mode, becomes the web during transport in the printing device by at least one Web width offset parallel. The offset track sections are juxtaposed together at the transfer location passed by. The first time the train passes the The transfer point becomes the image and text elements with a first Color printed; on the second pass of the track with sideways Image and text elements are offset with the second Color printed.

For the sake of completeness, the simplex mode will be used and parallel simplex operation. With the former Simplex operation becomes a record carrier with up to twice the width of a DIN A4 sheet or a sheet with Letter-size format printed in conventional form. In parallel simplex operation two separate lanes, e.g. each with a width according to A4 or letter-size format, juxtaposed by the printing device led and printed.

When printing on a single web, the parallel in the printer offset or offset in parallel and additionally turned and fed to the transfer location of the printing unit and printed it must be ensured that the parallel movement or the parallel movement with simultaneous turning without any problems and runs with high precision. When using a Device for turning and / or moving a web in a high performance printer, the web transport speeds Measures are achieved in the range of 0.1 to 2.5 m / s to provide for a fast run of the web Use of foldable endless material with folds enable.

From patent application 94 112 973.6 is a turning device known for tape-shaped recording media in which Deflection elements for deflecting the web arranged in a W-shape are. The web is fed taut through the turning device and is in close contact with the deflection units.

From another German patent application P 44 35 756.7 is a turning device for tape-shaped recording media known, the deflection elements form two turning triangles. The Turning triangles are relative to each other by an angle of spread twisted arranged so that the entire turning device takes up little space.

It is an object of the invention to provide a device for moving or to specify how to move and turn a path that is easy is set up and guarantees trouble-free operation.

This task is for a turning and moving facility a web of continuous recording material solved the features of claim 1. For an interior only for moving a web without turning it this object is achieved by the features of claim 12. Advantageous developments of the invention are in the dependent claims specified.

According to the first aspect of the invention, in which the web is turned and is displaced, this web becomes loose around a deflection device led around with the first edge from the top fed obliquely downwards to the deflection device and there coming from below is discharged diagonally upwards. The edge lies on the first guide surface of the deflection device so that a natural loop formation of the web feed device forms up to the web delivery device. Because this first edge is loose on the first guide surface the web loop can be in the vertical direction Execute deflection movements and thus fluctuations in the transport speed compensate in the area of the deflection device. Such fluctuations can e.g. by changing the Frictions or wrinkles. The Invention is both for webs of continuous material without cross running folds as well as for sheets with folds (fan-fold sheets) suitable.

In the invention, the web surface comes with only a few Elements in frictional contact. This eliminates the risk of Railway congestion due to different friction conditions or injury to the web is reduced. The in contact with the The surfaces of the mechanical guides that are in contact with the surface can very low-friction surfaces or by surface treatment be designed to be wear-resistant. Operational security the facility is thereby further increased.

In practice it has been shown that web speeds of up to 2.5 m / s and higher and the Requirements for use in high-performance printers met become. In the upper range of the web speed is Web run particularly stable.

The first guide surface is preferably convex. she is thus due to the curvature caused by the weight of the web and its elasticity, self-forming geometry of the web loop adapted and supports the natural formation of loops.

An embodiment of the invention is characterized in that that the elongated body of the deflection device in its upper area has a second guide surface, which the first edge opposite second edge of the web leads and stops when the orbit wraps up around the body rises and exceeds a predetermined height. Through this The vertical deflection movement of the loop will take measures Loop base limited to a predetermined size. If due to a disturbance the regularity of the rail transport is disturbed, for example by buckling the web to the Folds of a fan-fold web, so the web loop is shortened, what happens in a climb up the train at the first Leadership area. The top, second edge of the web comes to the second from a predetermined height Guide surface, whereupon the tension on the second edge of the Web is enlarged and the web tightens and unfolds. Disruptions in the passage of the web are thus automatically balanced.

According to a further embodiment of the invention the height of the first and second guide surfaces can be adjusted. In this way, on the one hand, the deflection device can be attached to different Widths of the web can be adjusted. On the other hand the height adjustment enables adjustment to the length the web loop from web feed device to web delivery device. This web loop also serves as a web storage, its length depends on the length format of the sheets used the web and set by the printer controller or is given to the operating personnel.

According to another aspect of the invention, a device for moving a web of continuous recording material provided with the features of claim 12. With this facility, the web is not turned. The Device is designed so that the web is hanging loosely Web loop forms. The track is run so that the web delivery device facing the first edge of the fed web on the web feed device facing away Side along a second transport path approximately in the direction of transport is removed. The top side the lane on the second transport lane and the top of the Path on the first transport path match. This Setup is therefore for two-tone simplex operation used.

The solution of the task according to this aspect of Invention is surprisingly simple and is based on the Weight force of the web naturally forming web loop enables the offset by at least one web width. Because of the weight of the web remains the web loop high transport speed stable in shape. It can both sheets with folds and smooth sheets transported and moved.

In a preferred embodiment of the invention the web removal device is at least approximately in a horizontal element arranged with a guide surface over which the web passes after passing through the Web loop is guided, the longitudinal axis of the guide surface with the longitudinal axis projected into the horizontal plane the web feed device an angle in the range of Includes 15 ° to 25 °, preferably 20 °. This guide element allows through its oblique arrangement that the natural loop shape is preserved and small radii of curvature when diverting into the parallel transport path, which can cause wrinkles to be avoided become. When using folded recording material the guide element causes the web to buckle Folding prevented.

About wrinkling or wrinkling in the recording material to avoid, is the one leaving the guide elements Web fed directly to a deflection element from below, which deflects the web in the direction of the web loop. The deflecting element has a longitudinal axis that is at least approximately parallel to the longitudinal axis of the web feed device. The deflecting element prevents curvature of the web, which is due to the displacement of the web by at least one web width can.

In one embodiment, the guide element and preferably also the deflection element on the web feed device facing side each have a stop on which there is an edge of the web. This results in printing defined edge positions of the web and precise guidance.

Figur 1

einen Hochieistungsdrucker in der Betriebsart Duplexbetrieb mit einer Wendeeinrichtung,

Figur 2

den Hochleistungsdrucker in der Betriebsart zweifarbiger Simplexdruck mit einer Versetzeinrichtung,

Figur 3

eine schematische Darstellung einer Wendeeinrichtung nach der Erfindung,

Figur 4

die Wendeeinrichtung nach Figur 3 in einer Draufsicht,

Figur 5

mehrere Ausführungsbeispiele für eine Umlenkvorrichtung,

Figur 6

eine Ausführungsform der Bahnleitvorrichtung,

Figur 7

ein Leitelement zum Zuführen eines ersten Bahnabschnitts während des Einlegebetriebs,

Figur 8

ein Ausführungsbeispiel für eine Versetzeinrichtung,

Figur 9

die Versetzeinrichtung nach Figur 8 in einer Draufsicht, und

Figur 10

Varianten der Papierzuführung für eine Versetzeinrichtung nach der Erfindung.

Embodiments of the invention are explained below with reference to the drawings. In it show:

Figure 1

a high-performance printer in duplex mode with a turning device,

Figure 2

the high-performance printer in the two-color simplex printing mode with an offset device,

Figure 3

2 shows a schematic representation of a turning device according to the invention,

Figure 4

3 is a top view of the turning device according to FIG. 3,

Figure 5

several exemplary embodiments for a deflection device,

Figure 6

one embodiment of the web guiding device,

Figure 7

a guide element for feeding a first web section during the insertion operation,

Figure 8

an embodiment of a displacement device,

Figure 9

the displacement device of Figure 8 in a plan view, and

Figure 10

Variants of the paper feed for a transfer device according to the invention.

The following are details of the invention using a high-performance printer described in the operating modes already described works. Such a high-performance printer is from WO-A-94/27193 known. In FIG. 1 the high-performance printer is shown in duplex mode, with a single lane 8 on its front and back is printed. The printer has a transport device 10 arranged near a printing unit 12 through the web 8 the printing unit 12 conveys one on a photoconductor drum 14 applied, toner-colored charge image by means of a corona device (not shown) on the Lane 8 is transmitted. Then the web 8 becomes one Fixing station 16 supplied in which the still smearable Toner image with the help of pressure and temperature the carrier material is connected. The web 8 is with a first web section A starting from a first stack 22 fed to the printing unit 12. After printing and the The web 8 is fixed via a deflection unit 20 Turning device 18 supplied. This turning device 18 turns the web 8 and moves it laterally by at least a web width, so that now the back of the web 8 as Web section B of the printing unit 12 fed for printing can be. The printed web section B is also the Fuser 16 fed to the printed image on the back the web 8 smudge-proof with the surface of the carrier material connects. The web 8 is then placed on a stack 24 piled up.

The transport unit 10, the printing unit 12, the photoconductor drum 14 and the fixing station 16 have a working width of at least twice the web width of web 8. In the present The case is the printer with a photoconductor drum 14 equipped. Instead of the photoconductor drum 14, a ribbon-shaped intermediate carrier, e.g. an OPC tape or one Magneto-style arrangement can be used. Around the photoconductor drum 14 group further units for electrographic Printing process. These aggregates as well as the structure of the entire printer are in the German patent application P 44 35 756.7 described in more detail, the disclosure content in the present application is included.

Figure 2 shows the printer in two-color simplex mode, at the front of the web 8 at a first pass the printing unit 12 with a first color and one followed by a second pass on the printing unit 12 is printed with a second color. As with both rounds each the front of the web 8 are printed is at the point of separation between the web sections A and B a transfer device 26 is provided, which the web 8 offset by at least one web width in parallel, this however does not apply.

In Figures 1 and 2, the web 8 is in stack form. For high performance printers, web 8 is often on a roll wrapped. Both folded webs (fan-fold webs) as well as smooth sheets can be processed without folds.

Figure 3 shows schematically an embodiment of the turning device 18 for the printer, which is in duplex mode is working. The path 8 is along a first transport path 30 (Details of this transport path 30 are shown in the figures Omitted for a better overview) from one transport direction according to arrow 32 via a web feed device 34 fed. This web feed device 34 is in the Example shown here realized by a role. The Web feed device 34 can, in practice, have multiple rolls and deflection units included to a special web feed depending on the geometric conditions of the printer to realize. Lane 8 has one through circles 35 marked front and one marked by circles 36 Back.

The web 8 is perpendicular to one below the web feed 34 arranged deflection device 40 loosely guided, so that its edge 38 loosely on a guide surface 42 of the deflection device 40 is present. The front of web 8 is this Facing guide surface 42. The web 8 is inclined upwards led to a web delivery device 44 and there in a deflected second transport path 46, which is parallel to the first Transport path 30 is arranged. The edge 38 is the web feed device 34 facing. The direction of transport (arrow 48) the transport path 46 coincides with the transport direction (Arrow 32) of the transport path 30 approximately. Both Transport tracks 30, 46 convey the track 8 downstream into Direction to the printer's printing unit.

The axes 48, 50 of the web delivery device 44 and the web feed device 34 are aligned parallel to each other. The longitudinal axis 52 of the deflection device 40 is vertical arranged.

As can be seen in Figure 3, is formed under the effect of Weight of the web 8 is a natural, loose web loop 54 whose shape is also high during rail transport Speed remains relatively stable. This is because the inner edge 38 is guided on the guide surface 42, which has a convex curvature. This bulge supports the formation of a loop, even if the web 8 folds Has.

The formation of a stable web loop 54 is achieved by a Web guiding device 56 further supports which is a concave curved baffle 58 and a movable support element 60 that is fixed at one end. The baffle 58 is arranged just below the web feed device 34 and has a width of at least the web width of web 8. Das Support element 60 can be arranged by a number arranged side by side Spiral springs can be formed (not shown). The Support element 60 lies with friction on the front of the Lane 8 on and moves it against the guide plate 58. As a result becomes bulging of the recording material which can occur in particular at fold points of the web 8, counteracted, and the web run in the beginning area of the web loop 54 is calmed down.

FIG. 4 shows a top view of the turning device 18 according to Figure 3. The deflection device 40 is in this case cylindrical and can be realized for example by a tube his. However, there are other shapes for the deflection device conceivable; it is only essential that the guide surface 42 is convex to form a round, to support natural web loop 54. The web dispenser 44 has on the web feed device 34 facing Side a stop 62 on which the edge 38 of the Lane 8 is present. This is a precise alignment the web 8 possible for their further transport.

5 shows further embodiments a, b, c of the deflection device 40 shown. The embodiment a has one lower cylindrical portion 64 which is the domed Provides guide surface 42. In the upper area of the deflection device 40 two arms 66, 68 are flanged, which at an angle of approximately 45 ° to the longitudinal axis of the deflection device 40 spread apart. These arms 66, 68 have the function of preventing the web 8 from rising. Such an increase can occur when the friction fluctuates Guide surface 42 or when folding the web 8 on folds arise. The arms 66, 68 form second guide surfaces for the top of the web 8 and stabilize the shape of the Web loop 54.

The cylindrical portion 64 is opposite a base 70 height adjustable, as indicated by the double arrow 72. The height adjustment can depend on the required length the web loop for a web storage function as well as dependent of the form length of the lane 8.

The embodiment b of Figure 5 shows a composite Rotational body, the rotating surface of which is an ellipse 74 and is a rectangle 76.

The exemplary embodiment c in FIG. 5 shows a composition from a truncated cone 78 and a cylinder 80. The Truncated cone 78 has the same function as that of arms 66, 68 according to embodiment a, with its upper guide surface is enlarged.

Figure 6 shows an embodiment of the web guiding device 56. On the side opposite the guide plate 58 is a Cloth flap 82 movably attached at one end 84. The other end 86 lies on the surface of the web 8 and calms down transport movements of the web 8 Cloth flap 82 can also be a felt cloth or a rubber blanket be used.

A guide element 90 is shown in FIG. This guiding element 90 is radially spaced from the deflection device 40 arranged below the web feed device 34. This Guide element 90 has an approximately upright, concave curved guide surface 92 with an approximately in the lower region vertically protruding contact edge 94. The guide element 90 is used to insert an initial section of the web 8 to guide around the deflection device 40. In insert mode the beginning section becomes via the web feed device 34 fed and reaches with its edge 38 the contact edge 94, along which he continues to feed the web 8 moved. The surface of the web 8 lies on the curved one Guide surface 92 so that a curvature of the web 8 is established and their leading edge past the deflection device 40 becomes. An operator can now have this leading edge take the web 8 and form the web loop 54 insert the web 8 into the web delivery device 44. By the guide element 90 becomes a web traffic jam during the insertion operation avoided and the insertion activity of an operator facilitated.

In Figure 8, the displacing device 26 for displacing one Web 8 shown by at least one web width. Same, Parts already described are identified in the same way. The train 8 along the first transport path 30 from the transport direction 32 fed by the web feed device 34. The Transport roller of the web feed device 34 has counter pressure rollers 96, which prevent the web 8 from rising. The train 8 with its outer edge 38 becomes a guide element 98 fed with the formation of the web loop 54 so that the edge 38 of the web feed device 34 faces. The web 8 slides over a guide surface 100 of the guide element 98, which is convex. In the present case the guide member 98 has a cylindrical surface. Immediately after the deflection on the guide element 98, the Web 8 fed to a deflection element 102. The deflecting element 102 has an axis 104 which is parallel to the axis 50 of the web feed device 34 is arranged.

The guide member 98 is in a horizontal plane an angle according to the double arrow 106 is pivotable. By the oblique arrangement of the guide element 98 becomes the shape of the Web loop 54 kept stable. By arranging the Deflection element 102 takes place in the vicinity of the guide element 98 a deflection of the path 8 with a relatively large radius of curvature, so that the web 8 is wrinkled or wrinkled is avoided. The web 8 then becomes optionally guided further conveyor elements of the web delivery device 44.

The deflection element 102 has the web feed device on it 34 side facing the stop 62, which is used for precise Edge guidance serves. Likewise, the guide element 98 can provide an appropriate stop on its right side his. The stop 62 can be designed so that it is displaceable in the direction of the axis 104 in order to the Width to be adjusted.

FIG. 9 shows the displacement device 26 in a plan view according to Figure 8. The projected in a horizontal plane Axes 99, 104 of the guide element 98 or the deflecting element 102 form an angle of w = 20 °. At this angle w can guide element 98 in FIG. 9 towards Deflection element 102 are pivoted so that its axis 99th with the axis 104 in a vertical plane. In this The state consists of the guide element 98 and the deflection element 102 formed unit a guide device for guiding the Lane 8. This unit can in a turning device 18 according to Figure 3 as part of the web delivery device shown there 44 can be used. In Figure 9 is also in plan view To recognize web guiding device 56, as already mentioned to calm the web run and the formation of the web loop 54 serves.

Figure 10 shows different variants of the web feed and the web removal for the transfer device 26. Die aus Arriving in the direction of arrow 32 along the transport path 30 After passing through the web loop 54, web 8 is passed over a web further deflection roller 106 in the same transport direction (Arrow 48) promoted. The deflection roller 106 is part the web removal device 44 with the other components Guide element 98 and deflecting element 102. Others Variants not specifically claimed the web feed are shown in dashed lines in FIG. One from the right according to arrow 108 or one from above (arrow 110) fed web 8 is followed by the deflection roller 106 output on the left according to arrow 112. As can be seen the transport directions are generally determined so that the Web 8 is conveyed downstream in the direction of the printing unit become.

It should also be pointed out that the deflecting element can be adjusted 102. In order to facilitate the loading process for web 8, the deflecting element 102 can be perpendicular about an axis of rotation 113 be pivoted upward in the direction of arrow 114. The Operator can then the beginning section of the web 8 in Guide insertion operation around the deflection roller 106 and then pivot the deflection element 102 back into the position shown in FIG. 10.

Components of the turning device shown in Figures 3 to 10 18 and displacement device 26 can be together be combined. For example, in the embodiment according to FIG 10 a deflection device of the type shown in FIG. 3 Deflection device 40 are included. The web loop 54 is then placed around the deflection device 40, the guide element 98 pivoted back to an angle w = 0 and the path between the guide element 98 and the deflection element 102 passed through. Such an arrangement then has Function of a turning device. Depending on the desired operating mode, Duplex unit or two-color simplex operation, can in a relatively short time the device of Figure 10 in converted a turning device or a transfer device become.

Claims (26)

1. Means for turning and displacement of a web (8) of endless recording material, in particular a paper web in an electrographic printer,

   having a web supply means (34) that guides the web (8) along a first transport path (30) from a transport direction (32),

   and having a web carry-off means (44) that carries away the web, displaced by at least a web width, after its circuit about a diverting means (40) that is arranged underneath and after the web supply means (34) (seen in the direction of transport), said carry-off means being arranged above the diverting means (40) and next to the web supply means (34), whereby a first edge (38) -- facing the web carry-off means (44) -- of the supplied web (8) rests loosely on a first guide surface (42) of the diverting means (40), and the web is guided upwards at an angle to the web carry-off means (44) with this first edge (38), and on which the side facing the web supply means (34) is carried off along a second transport path (46), approximately in the direction of transport (48).
2. Means according to claim 1, characterized in that the diverting means (40) has an oblong body whose longitudinal axis (52) runs approximately vertically, and in that the first guide surface (42) is convexly curved.
3. Means according to claim 2, characterized in that the body has a cylindrical lower segment.
4. Means according to one of the preceding claims 2 or 3, characterized in that the body has a second guide surface in its upper region,
   which surface guides and holds down the second edge -- facing the first edge (38) -- of the web, when the web (8) climbs up during its circuit about the body and exceeds a predetermined height.
5. Means according to claim 4, characterized in that the second guide surface is formed by spread-out arms (66, 68) in the manner of a Y, and in that the arms (66, 68) lie within a plane that is at least approximately parallel to the web segment shortly after the supplying by means of the web supply means (34).
6. Means according to claim 5, characterized in that the arms run spread out at an angle of 30° to 60°, preferably 45°, from the longitudinal axis of the body.
7. Means according to claim 4, characterized in that the body is fashioned as a rotational body (74, 76; 78, 80).
8. Means according to claim 7, characterized in that the rotational surface of the rotational body is Y-shaped.
9. Means according to claim 4, characterized in that the body has, at least in its upper part, the shape of an inverted truncated cone.
10. Means according to one of the preceding claims 4 through 9, characterized in that the first (42) and the second guide surfaces are adjustable in height.
11. Means according to claim 10, characterized in that the height adjustment takes place dependent on the required length of the web loop (54) for a loop storage unit.
12. Means for displacing a web (8) of endless recording material, in particular a paper web in an electrographic printer,

    having a web supply means (34) that supplies the web along a first transport path (30) from a direction of transport (32),

    and having a web output means (44) that carries off the web (8) -- displaced by at least a web width -- after it passes through a loosely hanging web loop (54), said output means being arranged above the web loop (54) and next to the web supply means (34),

    whereby the web output means (44) carries away the web along a second transport path (46), approximately in the direction of transport (48), with a first edge (38) -- facing the web output means (44) -- of the supplied web (8) on the side facing the web supply means (34).
13. Means according to claim 12, characterized in that the web carry-off means (44) contains a guide element (98) that is arranged approximately in a horizontal plane and that has a guide surface (100) via which the web (8) is guided after passing through the web loop (54), and in that the longitudinal axis (99) of the guide surface (100) encloses an angle (w) in the range of 15° to 45°, preferably 20°, with the longitudinal axis (104) -- projected in the horizontal plane -- of the web supply means (44).
14. Means according to claim 13, characterized in that the guide surface (100) is convexly curved.
15. Means according to one of the preceding claims 12 to 14, characterized in that the web output means (44) contains a diverting element (102) to which the web (8) guided via the guide element (98) is supplied directly, and in that the web (8) is supplied to the diverting element (102) from below, coming from the direction of the guide element (98), and is diverted in the direction of transport (46).
16. Means according to one of claims 13 to 15, characterized in that the guide element (98) can be pivoted by the angle (w) out of a first position, in which the guide surface (100) is arranged parallel to the axis (104) of the diverting element (102), and can be fixed in this pivoted position.
17. Means according to one of the preceding claims 13 through 16, characterized in that the guide element (98), and preferably also the diverting element (102), each have a stop (62) on the side facing the web supply means (34), on which stop the edge (38) of the web (8) rests.
18. Means according to one of the preceding claims 1 to 17, characterized in that the web supply means (34) contains a transport roll, as well as at least one counterpressure roll (96), between which the web (8) is supplied.
19. Means according to one of the preceding claims, characterized in that a web guide means (56), which enables a calmed and loose supplying of the web (8), is arranged underneath the web supply means (34).
20. Means according to claim 19, characterized in that the web supply means (56) has a support surface (58), preferably concavely curved, with a width that corresponds to at least the width of the web (8).
21. Means according to claim 18 or 19, characterized in that the web guide means (54) contains a movable support element (60) that moves the front side of the web (8) against the support surface (58) with friction.
22. Means according to claim 21, characterized in that the support element (60) is fashioned by a number of spiral springs arranged next to one another.
23. Means according to claim 21, characterized in that the support element (60) is fashioned by a felt tab or a material tab (86).
24. Means according to one of the preceding claims, characterized in that a guide element (90) is arranged underneath the web supply means (34), said guide element guiding the front segment of the web (8) during the supply thereof in a predetermined direction, preferably in the direction of an operator.
25. Means according to claim 24, characterized in that the guide element (90) has a curved support surface (92) for the first segment of the web, as well as a lower contact surface (94) for an edge of the web (8).
26. Means according to claim 25, characterized in that the support surface (92) is made of a material that does not become electrostatically charged during the movement of the web (8).

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