EP1012097B1 - Device for guiding a continuos paper strip - Google Patents

Description

The present invention relates to a device for guiding a continuous paper web and in particular on a Device for guiding a continuous paper web without the aid from perforated edges or transport spikes to a subsequent one Paper processing device.

Various devices for Guiding a continuous paper web, e.g. B. to a paper processing system, known. To make the run as straight as possible Paper, for example by a paper cutter or reaching a printer is an approach for one Paper guiding device therein, so-called tractor devices to use where to transport the paper Spikes punched in on both sides of the paper web Intervene in the transport holes.

There is a disadvantage with this paper guide device in that the paper web for introducing the hole edges from Manufacturers are first brought to a tailor must before it reaches the end user. Moreover the transport holes are often made of optical or other Reasons in the processing facilities laterally separated again, which in turn leads to unnecessary paper consumption and waste paper and an edge cutter makes necessary.

In a further device known in the prior art to run an endless paper web is the straight run the paper web by means of a web edge control with adjustable Guide or transport rollers reached.

With such a paper guide device is a very elaborate technical structure with adjustable guide or transport rollers required, it is also very expensive is the settings for guiding a paper web of the respective paper type.

A device is also known in the prior art, in the one paper guide device, which is shown in Fig. 6 in more detail is described, a trough structure 100 with a concave or convex surface 102 and shoulders 104. The Shoulders 104 are provided around opposite edges a paper web 106 to engage. The direct distance 108 of shoulders 104 on both sides of the tub structure 100 is smaller than a width 110 of the paper web 106. A corresponding one takes place through the tub structure 100 Deformation of the paper web 106 with respect to the width 110, see that the distance 108 between the edges along the broad sides the paper web 106 in the tub structure 100 less is as the width 110 between these edges. While in use, paper web 106 runs from an entrance 112 to an outlet end 114 through the tub structure 100. The shoulders 104 engage the paper edges to to keep the paper in the tub structure and in a straight line Line.

The paper web 106 runs through the trough structure 100 to one flat surface 116. Flat surface 116 extends from the concave surface 102 (support structure) of the exit end 114 of tub structure 100 to the alignment wipers 118. Flat surface 116 also has one therein centrally located opening 120. In the opening 120 the drive roller 122 is seated. The drive roller 122 is in the opening 120 arranged in a vertical plane, such that that an outer surface 124 made of rubber Drive roller 122 is a little above the flat surface 116 is located. The outer layer 124 of the drive roller 122 engages the underside of paper web 106, as well it runs over the flat surface 106 and conveys the Paper web 106 by rotation of the drive roller 122.

The alignment wipers 118 are at the end of the plane Surface 116 provided opposite the tub structure 100, such as it is shown in Fig. 6. Alignment wipers 118 include an upper lip 124 and a lower lip 126 In this arrangement, a pinch roller 128 is used to on a paper web between the pressure roller 128 and the drive roller 122 passes through to apply pressure, so that the paper web 106 makes contact with the drive roller 122 maintains.

The direction of movement of the paper web 106 through the tub structure 100 is represented by arrow 130 in FIG. 6.

Since the drive roller 122 is arranged to be the same protrudes through the recess 120 over the flat surface 116, is an axial displacement of the drive roller 122 not possible.

Such a device is for example from the US 5,213,246 known that by means of a tub structure in which the paper path runs, the paper guide reaches, the Tub structure is made from one piece. Because of that Structure is a separate tub structure for each paper web width required. In addition, with a very wide, thin paper web that runs through the tub structure, only with a very slight increase in the stiffness of the Calculate paper web.

Because of this, there are known paper transport devices only able to use paper webs with a specific Width and paper thickness, or it must either be on the use of so-called tractor devices or more complex Web edge regulations can be resorted to straight run of the paper web, for example, to a paper processing system to reach.

Based on this prior art, the present Invention, the object of a device for Run an endless paper web to create the paper web can handle regardless of their width and thickness, without using tractor equipment or web edge controls become.

This task is accomplished by a device for guiding a Continuous paper web solved according to claim 1.

The present invention provides an apparatus for guiding an endless paper web, the two side guides, the guide the paper web on its longitudinal edges, and a deflection device through which the paper web moves at least one distraction between the side guides experienced from their direction of movement.

The present invention is based on the finding that that by the vertical deflection of the paper web from the Direction of movement an increased stiffness of the paper web is brought about, causing the paper web to run up the side guides or damage to the paper web is avoided if the paper web laterally on the side guides starts.

An advantage of the present invention is that the paper costs can be significantly reduced since the Paper webs with unassembled edge are used, thereby avoiding that the transport holes from optical or other reasons in the processing facilities laterally have to be separated again, whereby there is no unnecessary paper consumption and waste and no additional device for cutting off the edge must be provided.

In a preferred embodiment of the present Invention is made by means of several round bars, between which the paper web runs through, a wavy course or a wavy deflection of the paper web from the Direction of movement reached. Because the deflection of the paper web by adjusting one of the round bars and the distance the side guides on different paper web widths, Paper thicknesses and strengths can be adjusted the device for guiding a continuous web of paper with any paper web width, paper thickness or strength handle.

Preferred developments of the present invention are defined in the subclaims.

Fig. 1

eine perspektivische Darstellung eines Ausführungsbeispiels der erfindungsgemäßen Vorrichtung zum Führen einer Endlospapierbahn mit einer ersten Transportrollenanordnung;

Fig. 2a

eine perspektivische Darstellung einer alternativen Transportrollenanordnung;

Fig. 2b

eine perspektivische Darstellung einer alternativen Anordnung zum Vorspannen einer Transportrollenanordnung;

Fig. 3

eine seitliche Schnittansicht der Vorrichtung zum Führen einer Endlospapierbahn, bei der eine Markierungsleseeinrichtung vorgesehen ist;

Fig. 4

eine Darstellung der in Fig. 3 gezeigten Markierungsleseeinrichtung;

Fig. 5

eine seitliche Schnittansicht der Vorrichtung zum Führen einer Endlospapierbahn mit einer alternativen Anordnung der Papierführungsstangen und der Markierungsleseeinrichtung;

Fig. 6

eine Papierführungseinrichtung gemäß dem Stand der Technik.

Preferred exemplary embodiments of the present invention are explained in more detail below with reference to the accompanying drawings. Show it:

Fig. 1

a perspective view of an embodiment of the device according to the invention for guiding an endless paper web with a first transport roller arrangement;

Fig. 2a

a perspective view of an alternative transport roller assembly;

Fig. 2b

a perspective view of an alternative arrangement for biasing a transport roller assembly;

Fig. 3

a sectional side view of the device for guiding a continuous paper web, in which a marker reading device is provided;

Fig. 4

an illustration of the marker reading device shown in Fig. 3;

Fig. 5

a sectional side view of the device for guiding a continuous paper web with an alternative arrangement of the paper guide rods and the marker reading device;

Fig. 6

a paper guide device according to the prior art.

Preferred exemplary embodiments are described below with reference to FIGS. 1 to 5 the device according to the invention closer described.

In Fig. 1, a first preferred embodiment is one Device according to the invention for guiding a continuous paper web shown. A plurality of round bars 10, 12, 14 is between two side walls 16 (only is shown a wall) stored. Also between the two side walls 16, two lateral side guides 18, 20 are arranged, attached to a cross bar 22 and related the same are axially displaceable. On the cross bar 22 are a plurality of guide strips 24 are also arranged.

1 also shows a first 26 and a second 28 Transport roller shown. The first transport roller 26 is non-rotatably attached to a shaft 30 which is in one direction of rotation, indicated by arrow 32 about an axis 34 the shaft 30 is rotatable. A drive roller 36 of the transport roller 26 is via a positive drive belt 38 with a drive roller 40, which on a shaft 42 of a feed motor 44 is attached, connected.

An L-shaped bearing block 46 is with respect to a central axis 48 a shaft 50 axially displaceable, a biasing spring 52 on a lower portion of the L-shaped bearing block 46 is attached. In a perpendicular to the L-shaped Bearing block 46 extending section 54 is a Shaft 56 arranged with a guide 58 for the second Transport roller 28 is connected, wherein the transport roller 28 about an axis 59 arranged in the guide 58 rotates.

The shaft 56 is perpendicular to a central axis 60 Shaft 56 has two pins 62 provided on it by two springs 64 a spring force is exerted. The central axis 60 is perpendicular to the axis of rotation 34 of the transport roller 26. The pivoting range becomes the second by means of the springs 64 Transport roller 28 about the central axis 60 determines how it is is represented by the double arrow 66 in FIG. 1.

1 also shows an endless paper web 68, that in the direction of movement represented by arrow 70 through the device for guiding a continuous paper web runs and provided on the optional reading marks 72 if they are for further processing of the continuous paper web 68 are required.

The technical mode of operation will now be described with reference to FIG. 1 the inventive device for guiding a Continuous paper web described in more detail. For simplification the device for guiding a continuous paper web hereinafter referred to as the paper transport device designated.

The paper web 68 is from a stack, a roll or online from a printer (not shown) to the paper transport fed. The paper web 68 through at least one of the round bars 10, 12, 14 experiences a deflection, becomes wavy through the transverse to the direction of movement of the paper web 68 arranged round bars 10, 12, 14 passed between the two side walls 16 (shown is only one wall) are stored.

The two side guides 16, 18 for the paper web 68 are attached to a cross bar 22 and with respect to the same axially displaceable. The laterally adjustable side guides 18, 20 are axially adjusted so that their distance only is slightly wider than paper web 68 wavy course through the round rods 10, 12, 14 receives paper web 68 is so rigid that it is the same when running sideways against the side guides 18, 20 is neither damaged nor can it run up to the same. One or more of the round bars 10, 12, 14, d. H. at three Round bars, preferably the middle round bar 12, is also adjustable in height with respect to the paper web 68, that the size of the paper wave amplitude is 0 (see also Fig. 4) adjustable up to several millimeters is, which makes the resulting stiffness different Paper types can be set.

A paper wave amplitude of 0 is preferably set, when a new continuous paper web is in the device is "threaded" for guiding a continuous paper web, or the paper web 68 running through the device is already one has such a high strength that no or only a slight one additional increase in strength to straight Guide the paper web 68 is required.

After the wavy passage through the guide rod 10, 12, 14, the paper web 68 on the on a cross bar 22 attached side guides 18, 20 the pair of transport rollers 26, 28 fed. The guide strips 24, on which the paper web rests, can, as it is in Fig. 1 is shown in the form of elongated ribs be, with any trained leadership requirements or support surfaces for the paper web 68 are conceivable.

By means of the first and second transport rollers 26, 28 a feed is applied to the paper web 68, the first Transport roller 26 is rotatably arranged on the shaft 30 and via the positive drive belt 38 from the feed motor 44 is driven.

The second transport roller 28 is on the L-shaped bearing block 46 attached to the axis 48 of the rod 50 is axially displaceable. By means of the biasing spring 52, which, as shown in Fig. 1, in an on the L-shaped bearing block 46 is arranged, the second transport roller 28 biased against the first transport roller 26, d. H. the Transport roller 28 is opened with a certain spring force the transport roller 26 pressed. The second transport roller 28 is also rotatable about the axis of rotation 60 in the bearing block 46 arranged, the axis of rotation 60 perpendicular and positioned centrally to the axis 34 about which the shaft 30 rotates is. By means of the two springs 64, each one Apply spring force to the two pins 60 that are perpendicular the shaft 56 and are arranged parallel to the axis 59, can be the rotational position or the swivel range for a pendulum movement when aligning the paper web 68 of the second Transport roller 28 can be set.

The lower transport roller 26 of the transport roller arrangement is preferably made of steel and has an exact Diameter so that it is guaranteed that there are deformations or thermal expansion, as with other materials occur to a greater extent, not negatively to one constant transport path of the paper web 68 per revolution of the Impact drive. The upper transport roller 28 of the transport roller assembly is with an elastomer coating with a high coefficient of friction to avoid a possible Slip between the upper transport roller 28 and to avoid the continuous paper web 68.

The upper transport roller 28, which has an elastomer coating is provided with a high coefficient of friction Biasing spring 52 against the L-shaped bearing block 46 lower transport roller 26 biased. The pair of transport rollers 26, 28 is axially displaceable on the shafts 30 and 46, so that the pair of transport rollers 26, 28 centered on the paper web can be aligned. The upper transport roller 28, which serves as a pinch roller, is also in the L-shaped Bearing block 46 rotatably supported, its axis of rotation 60 arranged perpendicularly and centrally to the axis of rotation 32 of the roller 26 is. About the adjustable compression springs 68, the over the two pins 60 on the shaft 58 act on the axis of rotation 60, is achieved that the axis of the roller 28th automatically aligns parallel to the roller 26. Will one diagonal paper web 68 through the side guide rails 18, 20 in the desired parallel to the machine center Location, i.e. in a parallel alignment of the paper web 60 aligned with respect to the lateral guide strips 18, 20, roller 28 can also be used during the alignment process perform the associated pendulum motion.

The following are elements that are identical in FIGS. 1 to 5 are arranged and formed with the same reference numerals designated.

In Fig. 2a is an alternative transport roller arrangement for Setting the rotational position of the transport roller 28 shown. Because with very thin paper a forced deflection paper web 68 is not possible, FIG. 2 shows Another embodiment in which the axis of rotation 60 Roller 28 via adjustable locking screws 74, d. H. by turning the screw heads 75, exactly to the barrel Side guides 18, 20 are aligned and determined can. This prevents the transport roller 28 from executes the previously described pendulum movement, by means of which is an inclined paper web 68 parallel to the lateral guide strips 18, 20 is aligned, whereby it is avoided that a paper web made of a very thin and sensitive paper is damaged, d. H. wrinkled or even tears.

The setting of the position of the transport roller 28 with respect axis 60, d. H. of the two pins 62 with respect to the In contrast, the swiveling range 66 of the transport roller 28 can to the embodiment shown in Fig. 1, in which two springs 64 are used by means of the two locking screws 74 can be achieved. The axis of rotation is preferably 59, around which the transport roller 28 rotates, parallel to the Axis of rotation 32 of the transport roller 26 aligned. How it works the transport roller arrangement of Fig. 2 is otherwise with that of the transport roller arrangement of FIG. 1 identical.

In Fig. 2b is an alternative arrangement for biasing the Bearing blocks 46 and thus the upper transport roller 28 against shown under the transport roller 26.

In this embodiment, the bearing block 46 is rotatably fixed connected to the shaft 50, the bearing block 46 additionally can be axially displaceable with respect to the shaft 50. In the Near the two ends of the shaft 50 are two connecting struts 75a arranged, the lower portions 75b a Have opening to receive the shaft 50, the lower sections 75b of the connecting struts 75a rotatably are connected to the shaft 50. The top sections of the Connecting struts 75a are two L-shaped stop members 75c opposite, which have a recess 75d to the L-shaped stop members 75c on a support structure to attach (not shown). Between the opposite Connecting struts 75a and the L-shaped stop members A compression spring 75e is provided in each case 75c.

By means of these compression springs 75e, a spring force can be exerted on the upper portion of the connecting struts 75a are exerted whereby a pivoting movement of the connecting strut 75a and to cause shaft 50 to rotate, by means of which the upper arranged on the bearing block 46 Transport roller 28 biased against the lower transport roller 26 becomes.

3 and 4, a paper transport device is shown, on which a reading device 76 is arranged, the preferably on the side facing the paper web 68 is provided above the adjustable round rod 12, wherein the reading device 76 corresponds to that perpendicular to that in FIG Direction of movement of the paper web 68 adjustable round rod 12 by means of an adjusting device 78 with respect to the direction of adjustment, that represented by the double arrow 80 is adjustable. The reading device 76 detects them Markings 72 located on the paper web 68 are preferably with an optical device 77. By means of the adjusting device 78 will both the vertical position of the Round rod 12, and thus the deflection of the paper web 68, as well as the position of the reading device 76.

In Fig. 4, the position of the round bar 12 is set such that the paper web 68 does not experience any deflection. The different, adjustable positions of the adjustable Round rod 12 and thus the deflection of the paper web 68 are provided to the deflection of the paper web 68 to the Speed at which the paper web 68 passes through the paper guide runs, taking into account the paper strength, paper rigidity, resilience or to be able to adjust the paper thickness.

By simultaneously adjusting the vertical position 80 the reading device 76 and the adjustable round rod 12 becomes a constant predefined distance between the over the adjustable round bar 12 running paper web 68 and of the reading device 76 with which the format length control, z. B. required in paper cutting devices Read marks 72 can be detected or read. The arrangement of the guide rods 10, 12, 14 and Reading device 76 can vary between a maximum Deflection of the paper web 68 and a minimal or no deflection of the paper web 68 (see FIG. 4) is set as already described above has been.

5 is a side sectional view of the paper transport device with an alternative arrangement of the paper guide rods 10, 12, 14 and the marker reading device 76 shown. FIG. 5 shows one compared to FIG. 4 Mirror-symmetrical attachment of the reading device 76 and the adjusting device 78 with respect to the direction of movement the paper web 68. This variant for arranging the reading device 76, the adjusting device 78 and the round bars 10, 12, 14 is used when the reading device 76 marks 72 to be detected on the Transport roller 28 facing side of the paper web 68.

Another arrangement of the reading devices 76 and Round bars 10, 12, 14 is the reading devices 76 on both sides of the paper web each on that of the paper web 68 facing side over any round bar 10, 12, 14 provide, whereby the to be detected Markings 72 on any side of the paper web 68 can be provided and reading the reading marks 72 is guaranteed. The attachment of the reading facilities 76, however, is not limited to the reading devices 76 absolutely above the adjustable round bar 12 are arranged, but the same can also over another round bar 10, 12, 14 are located.

In applications such. B. in cutting machines that a very exact recording of the paper feed or the paper position require the paper web to be guided as precisely as possible and thus the most exact recording and control of the The instantaneous position of the paper web 68 can be ensured. Therefore are minor slip or form length corrections carried out by means of a correction control, in which the position z. B. the cross cutting knife or another paper processing device and the Paper feed compared and changed if necessary can. For this control, the reading marks 72 periodically required on paper web 68, that during the passage of the paper web 68 by means of the reading device 76 detected and sent to an evaluation device (not shown) to be passed on in the positions of the detected reading marks 72 is evaluated accordingly and processed further. The evaluation device calculates from the detected positions of the reading marks 72 the required paper feed and controls based on the transport roller arrangement or the Transport roller 26, which feeds the continuous paper web 68 set exactly and correct further processing the continuous paper web 68 is guaranteed.

In the device according to the invention for guiding a continuous paper web can be contrasted to the three shown Round bars 10, 12, 14, of which only one round bar 12 with respect its position is vertically adjustable, any Number of round bars may be provided, including several adjustable round bars can be used to make a to allow multiple deflection of the paper web 68. Further can, for example, several corresponding deflection arrangements, which consist of several round bars or corresponding the first preferred embodiment are arranged at predefined intervals in order a straight and correct guidance of a continuous paper web too enable over longer distances.

Furthermore, the execution of the for the deflection of the continuous paper web 68 provided round bars with respect to the in 1 to 5 shown form may be changed. It can z. B. several roles are provided, the axial and evenly spaced rotatable on the round bars are, with two outer roles conclusively related the side guides or the side guide rails arranged are so that the edges of the paper web 68 are perpendicular to the side guides run, d. H. just perpendicular to the Start side guides. This means a smaller contact area, on which the continuous paper web 68 over the corresponding Rolling runs, reached.

Furthermore, the reading device 76 can be located at another location than over a round bar, for example the adjustable one Round rod, be arranged, but be guaranteed must be the distance between the paper web 68 and the corresponding Reading device 76 is kept constant an exact and error-free reading of the on the paper web 68 arranged reading marks 72 to ensure.

Claims (13)

1. An apparatus for guiding an endless paper web (68), comprising:

   two lateral guide means (18, 20) guiding the paper web (68) at the longitudinal edges thereof;

   a deflection means with the aid of which the paper web is deflected a least once from its direction of movement while the paper web is moving between the lateral guide means (18, 20); and

   a first transport roll (26) on a drivable shaft (30) and a second transport roll (28) for applying a feed force to the paper web (68) passing between said first (26) and said second (28) transport roll.
2. An apparatus for guiding an endless paper web (68) according to claim 1, wherein the paper web (68) passes in a wave shape through the deflection means of said paper web (68).
3. An apparatus for guiding an endless paper web according to claim 1 or 2, wherein the deflection means of the paper web (68) comprises a plurality of round bars (10, 12, 14).
4. An apparatus for guiding an endless paper web (68) according to claim 3, wherein the deflection means of the paper web (68) is composed of three round bars (10, 12, 14), at least one of said round bars (10, 12, 14) being adapted to be deflected at right angles to the direction of movement of the paper web (68) so as to guide said paper web (68) in a wave shape between said round bars (10, 12, 14) in the direction of movement.
5. An apparatus for guiding an endless paper web (68) according to claim 1, wherein the two lateral guide means (18, 20) for the paper web are implemented in the form of two guide strips arranged in parallel in the direction of movement of the paper web (68), the distance between these two parallel guide strips being axially adjustable.
6. An apparatus for guiding an endless paper web (68) according to one of claims 1 to 5, wherein the second transport roll (28) is pretensioned relative to the first transport roll (26) by means of a spring (52; 75e).
7. An apparatus for guiding an endless paper web (68) according to one of claims 1 to 6, wherein the second transport roll (28) is arranged such that it is rotatable relative to the first transport roll (26) about an axis of rotation (60) extending essentially at right angles to the drive shaft (30) of the first transport roll (26).
8. An apparatus for guiding an endless paper web (68) according to claim 7, wherein a rotary movement about the axis of rotation is limited by springs (64).
9. An apparatus for guiding an endless paper web (68) according to one of claims 1 to 8, wherein the second transport roll (28) is arranged such that it is displaced relative to the first transport roll (26) about an axis of rotation (60) extending essentially at right angles to the drive shaft of the first transport roll (26).
10. An apparatus for guiding an endless paper web (68) according to claim 9, wherein the position of rotary displacement of the second transport roll (28) relative to the first transport roll (26) can be adjusted by means of screws (74).
11. An apparatus for guiding an endless paper web (68) according to one of claims 1 to 10, wherein the first transport roll (26) consists of steel and the second transport roll (28) is provided with an elastomeric coating.
12. An apparatus for guiding an endless paper web (68) according to one of the preceding claims, wherein a reader (76) is provided for reading marks (72) arranged on the paper web (68).
13. An apparatus for guiding an endless paper web (68) according to claim 12 referring back to claims 3 to 12, wherein the reader (76) is provided on the side facing the paper web (68) above the adjustable round bar (12) of the plurality of round bars (10, 12, 14) and is adapted to be adjusted in accordance with said round bar(12), which is adjustable at right angles to the direction of movement of the paper web (68), so as to guarantee a predefined constant distance between the reader (76) and the paper web (68).

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