EP0078493A1 - Device for winding a web - Google Patents

Abstract

In a device for winding a web (W) onto a winding core (16), the web (W) runs in a rising manner from a delivery conveying means (1, 1a, 2) through between two winding rollers (5, 6) to a winding core (16). The winding of the beginning of the web (W) onto the winding core (16) is effected by means of winding members (7, 8) which engage with the beginning of the web (W) until the latter is wound on to such an extent that free further winding is possible. For the purpose of feeding the winding cores (16), a store (21, 21a) for the winding cores (16) and a pivoting arm (23), which is arranged between the store (21, 21a) and the winding rollers (5, 6), are provided, by means of which arm individual winding cores (16) are transferred from the store (21, 21a) to the winding rollers (5, 6). The winding operation can then begin. All the operations take place automatically. The device is especially suited for the winding-on of floor coverings such as carpets. <IMAGE>

Description

The invention relates to a device for winding a web onto a winding core, with two winding rollers, between which the web to be wound is fed through to the winding core.

In a known device of this type, the beginning of the web to be wound between the winding rollers must be grasped by hand and also brought up to the winding core by hand or placed around it. This requires a large distance between the winding rollers so that you can reach through by hand, so that the winding rollers do not offer any guidance for the web to be wound up. So far, winding devices are known in which the horizontally arriving web is also guided horizontally onto the winding rollers and is wound there to the core. The winding of the material web on a winding core is therefore complex and cumbersome and, because of the necessary manual work, offers uncertainties and dangers for the operators. With a large width of the web, for example 4 or 5 m for floor coverings, at least 2 operators are required for the core formation and for the winding.

In contrast, the invention is based on the object of creating a device with which the start of a web of material can be wound up onto a winding core automatically, that is to say without any manual work. Feeding the web, introducing the web between the winding rollers, core formation and further winding should therefore take place completely automatically without manual labor, with the core forming and winding in one direction or the other, for example with the visible side facing inwards or outwards, being possible.

According to the invention, this is achieved by a device according to claim 1.

The material web is thus automatically fed into the winding rollers in the manner of a rising dock from bottom to top and introduced into the winding area. The winding area forms a closed space above the winding rollers, which, together with the winding auxiliary device, completely surround the winding core, so that a winding start is formed in a simple and completely automatic manner and further winding is possible. Depending on the direction of rotation of the winding rollers and the winding auxiliary device, one or the other side of the web can optionally be wound inwards or outwards on the winding core.

This results in a simple way an automatic feeding of the beginning of the web to the winding core, an automatic, absolutely parallel winding formation and the possibility of automatic winding further, whereby simple operation is possible without any manual work, so that there is good operational safety and versatility and labor savings can be. Even with the greatest widths of the web, it can be operated by one person.

The subclaims characterize advantageous refinements and developments of the invention.

According to a development of the invention according to claim 10, the winding core can not be fed by hand but automatically and inserted into the area above the winding rollers, which means that not only the winding process itself, but also its new beginning can be fully automated with each new winding core.

For this purpose, the device according to the invention essentially has a memory for winding cores and a swivel arm for transferring the winding cores from the memory to the winding area. With the help of this swivel arm, individual winding cores can be removed from the memory and brought into a position above the winding rollers by swiveling the arm, where the winding cores are released and get into the gusset above the winding rollers, so that the start of a web with the help of the winding rollers the winding core can be wound around.

• Fig. 1 zeigt eine schematisch vereinfachte Seitenansicht der Aufwickelvorrichtung;
• Fig. 2 zeigt eine schematisch vereinfachte Seitenansicht der Vorrichtung zum Zuführen der Wickelkerne.

Advantageous details and developments of the invention result from the following description of an embodiment with reference to the drawing.

• Fig. 1 shows a schematically simplified side view of the winding device;
• 2 shows a schematically simplified side view of the device for feeding the winding cores.

As shown in FIG. 1, a material web W to be wound is fed to the winding device via a conveyor. The conveyor consists of three deflecting rollers 1a, over which a conveyor belt 1 runs. The supply of the web W is more or less horizontal, while the continuation of the web W to the actual winding device is essentially vertical from bottom to top. For this purpose, the deflector immediately upstream of the winding device is lifted roller la arranged a stationary support roller 2. The web W is passed between these two latter rollers. The conveyor belt 1 is synchronous, ie with. driven at the same speed as the entire rewinder. So that webs W of different thicknesses are processed and cannot be pinched between the conveyor belt 1 and the support roller 2, the deflection roller 1a located on the inlet side is movably mounted and spring-loaded via a pendulum rocker. It is supported against a spring 3.

Above the conveyor 1, 1a, 2, two winding rollers 5 and 6 are arranged side by side, between which there is a distance or gap A through which the web W runs upwards. The winding rollers 5 and 6 are driven in the same direction of rotation, so that there is an opposite movement of the surfaces of the two winding rollers 5 and 6 on both sides of the gap A. The direction of rotation of both winding rollers 5 and 6 is reversible in order to enable winding of the material web W onto a winding core 16 above the winding rollers 5 and 6 in both directions of rotation. It is thereby achieved that on the winding core 16 either the side lying at the top of the web W or the bottom, with a floor covering or carpet z. B. the pile side or the bottom, can be wound inwards or outwards. A special insertion control enables the counter-rotation of the winding rollers 5, 6 with the conveying direction upwards, so that goods can also be transported upwards with a strong swirl.

The left winding roller 5 is mounted in a fixed position, while the right winding roller 6 is mounted with its axis between the positions 6a and 6b to be horizontally displaceable. In a modification of the device, the left winding roller 5 can also be mounted displaceably in the lateral direction. This displaceability of one or both winding rollers 5, 6 serves to have a narrow gap or distance A between the two winding rollers when inserting the beginning of the web W, so that the ascending web of goods does not tip over but is stabilized in its upward direction of movement. If, on the other hand, after some time of winding the material web W onto the winding core 16, the diameter of the winding becomes larger, it is advantageous to increase the distance A between the winding rollers 5 and 6, i.e. to shift one of the winding rollers outwards, so that the material web W can run at high speed and the winding lies securely in the trough above the winding rollers 5, 6. In contrast to known winding devices, it is not necessary for operators to reach into the gap or distance A between the winding rollers 5 and 6 with their hands in order to insert the web. Rather, with its start, it automatically runs upwards from the conveyor located below between the winding rollers 5 and 6 and initially tangentially past the winding core 16.

In order to improve the stabilization and guidance of the ascending web from the conveyor to the winding rollers 5 and 6 and to prevent the beginning of the web underneath the winding rollers 5 and 6 from tipping over, guide plates 4 are provided in this area, between which the web W is led upwards into the gap A. In addition, 4 air nozzles 41 and 42 are provided in the area of the guide plates, which blow an air flow into the gap A from bottom to top. These air nozzles are preferably provided in the guide plates 4. The air nozzles 41 and 4'2 can be controlled alternately or alternately, so that the air stream emerging from at least one of the nozzles causes the beginning of the web W to be applied to one of the two winding rollers 5 or 6, in the exemplary embodiment shown to the right winding roller 6 Depending on the desired winding direction of the web W on the winding core 16, an air cushion is thus built up below this winding core 16 on one side of the web, which determines the winding direction.

The illustrated embodiment offers a particularly simple and expedient construction, in which air nozzles 41 and 42 are provided only below the gap A at the upper ends of the guide plates 4.

On the winding rollers 5 and 6, a friction-increasing coating can be applied in a known manner, which improves the entrainment of the web W.

The support of the winding process by the air flow is only effective when the winding roller 6 is in the position 6a, that is, with a narrow gap A. This is only so wide that the web W is guided by the winding rollers running in opposite directions in the area of the gap A. 5 and 6 is not affected. In this case, the air support presses the web W onto the roll circumference of the winding roller 6 that runs upward. As a result, the area Z in the gusset above the gap A, which cannot be further controlled, becomes the smallest, so that the web W cannot become entangled in an uncontrolled manner.

A winding auxiliary device for winding is arranged above the winding rollers 5 and 6. This consists of three auxiliary rollers 7 which are connected to one another by means of a plurality of conveyor belts 8 distributed over their width. The axes of the three auxiliary rollers 7 form a triangle, preferably an isosceles triangle. The active parts of the winding members (auxiliary rollers 7 and conveyor belts 8) are thus roof-shaped over the winding rollers 5 and 6. The winding auxiliary device with the winding rollers 7 and the conveyor belts 8 can be moved up and down in the direction of arrow 13 with respect to the winding rollers 5 and 6 . For this purpose, the winding auxiliary device 7, 8 is slidably mounted in a frame, not shown, with a corresponding lateral guide. In addition, this device (auxiliary rollers 7, belts 8) is supported against a spring 12 which constantly exerts pressure on the device downwards.

Before the winding process begins, the winding auxiliary device is in the upper starting position. Before the beginning of the web W between the winding rollers 5 and 6 rises up through the gap A, a winding core 16 is inserted in the position 15a or 15b over these winding rollers 5, 6. The winding core 16 comes, for example, from a memory 21, 21a (FIG. 2). Depending on the desired winding direction, the winding core 16 is in the position 15a or 15b left or right above the trough or the gusset Z between the winding rollers 5 and 6, so that the beginning of the web can be guided upwards in the desired manner. In the illustrated embodiment, the top of the incoming web W is to be wound on the winding core 16 inwards. The winding core is therefore initially in the position 15a on the left above the winding roller 5. The air nozzles 41 and 42 are controlled so that the beginning of the web W lies to the right against the winding roller 6 and from there to a height of approximately 70 ° the horizontal is taken up. The device is stopped in this position. The winding core 16 is transferred from the position 15a to the central position above the gusset Z, as will be described below. The surface of the winding core 16 thus comes into contact with the top or outside of the beginning of the web W to be wound inwards. Now the winding auxiliary device with the auxiliary rollers 7 and the conveyor belts 8 is lowered onto the winding core 16. After the drive has been switched on, the start of the web W, carried along by the conveyor belts 8, automatically runs around the winding core 16, so that the winding process is initiated.

The three auxiliary rollers 7 with the conveyor belts 8 have the same peripheral speed as the winding rollers 5 and 6. Also the three deflecting rollers 1a, the conveyor belt 1 and the support roller 2 of the feed conveyor have the same peripheral speed, so that a synchronous winding of the web W is possible without slippage . The web W is thus frictionally wound on the winding core 16.

If the control of the air nozzles 41 and 42 and the direction of rotation of the winding rollers 5 and 6 as well as the direction of rotation of the auxiliary rollers 7 is reversed and if the winding core 16 is first inserted in the position 15b before it reaches the central position above the gusset Z, this takes place the winding of the web W in the opposite direction. If when entering the web W so z. B. the view side is on top, this view side is then wound out in contrast to the illustrated embodiment. Both types of winding can therefore be used optionally, for which only switching the drive is required. The riser winding with winding hardness determination is retained in any case.

When winding the material web W, the diameter of the wound roll gradually increases, so that the winding auxiliary device with the auxiliary rollers 7 and the conveyor belts 8 is pressed upwards against the spring 12. The arrangement can be such that a contact is actuated after only a few revolutions of the winding core 16, when the beginning of the winding has sufficiently tightened on the winding core 16, which causes the winding auxiliary device 7, 8 to automatically return upwards to the starting position . The further winding up to the desired thickness of the goods roll or up to the desired length of the web wound, the removal of the finished winding then takes place with the winding auxiliary device 7, 8 raised, so that this does not hinder the actual winding process and the removal of the winding.

At the same time, when the contact (not shown) for lifting the winding auxiliary device 7, 8 is actuated, a contact can also be actuated which moves the winding roller 6 from the position 6a to the position 6b, so that the distance between the winding rollers 5 and 6 increases and the material web W can be wound without a sharp deflection onto the winding, which increases in diameter.

The synchronous drive for all parts of the device is not shown in the drawing. Likewise, the devices and switching means for the displacement of one or both of the winding rollers 5, 6 and for the displacement of the winding auxiliary device with the auxiliary rollers 7 and the conveyor belts 8 are not shown.

According to FIG. 2, a storage container for winding cores 16 is located above the winding device, of which essentially only the two winding rollers 5 and 6 are shown. In the exemplary embodiment, the storage container consists of two separate stores 21 and 21a, which are arranged next to one another. A plurality of separate stores can be provided for winding cores 16 with different lengths and / or different diameters. Each store 21, 21a has a lower outlet opening 27, 27a. Through this individual winding cores 16 can emerge downwards. At the outlet openings 27, 27a, a retaining member 22, 22a for the winding cores 16 is provided. The retaining member 22, 22a can, for. B. have the shape of a cross slide closing the outlet openings 27, 27a. The retention members 22, 22a can be controlled separately from each other to release the associated outlet opening 27, 27a.

A pivot arm 23, which can be pivoted about a horizontal pivot axis 24, which extends laterally above the winding rollers 5 and 6 parallel to the winding rollers 5 and 6, is arranged underneath the stores 21, 21a as an essential part of the device. At its free end, the winding arm 23 carries a funnel-shaped receptacle 30 for an individual winding core 16.

The pivot arm 23 can be pivoted about the pivot axis 24 into a vertical position in such a way that its receptacle 30 passes under one of the outlet openings 27, 27a. When the associated retaining element 22, 22a is released, a winding core 16 falls out of the respective memory 21, 21a into the receptacle 30. After a winding core 16 falls, the retaining element 22, 22a locks the outlet opening 27, 27a again immediately.

As shown in FIG. 2, the swivel arm 23 or its receptacle 30 has a lateral passage opening 31 for the winding cores 16. This passage opening 31 is controlled by a control element 26, for example a slide. In the position shown, the control member 26 locks the passage opening 31 so that the winding core 16 cannot fall out.

When the swivel arm 23 is pivoted about the swivel axis 24 into a horizontal position, the passage opening 31 reaches the area above the gusset Z between the winding rollers 5 and 6. The control passage 26 releases the passage opening 31 here, so that the hole 30 in the receptacle 30 contained winding core 16 falls through the opening 31 down into the gusset between the winding rollers 5 and 6. The swivel arm 23 with the now empty receptacle 30 is pivoted back from the horizontal position into the vertical position in order to receive the next winding core 16 there.

2 also shows, the pivot arm 23 with its pivot axis 24, z. B. along a rail, not shown, in a direction transverse to the axis of the winding rollers 5 and 6 laterally displaceable. The pivot axis 24 can be locked in three displacement positions a, b and c. The position b corresponds to the position in which a winding core 16 is released to the winding rollers 5 and 6 by the horizontally positioned swivel arm 23. When the swivel arm 23 is in the vertical position, a winding core 16 is received from the right-hand memory 21a in the position. B and a winding core 16 from the left-hand memory 21 in the position a. In the right position c, the vertical swivel arm 23 could have a winding core from a third , record undrawn memory.

Finally, Fig. 2 shows that the pivot arm 23 carries on its right and lower side two rows of scraping members 28 and 28a, which are designed here as brushes. These brushes protrude from the horizontal position of the swivel arm 23 this down against the winding rollers 5 and 6. The scraping elements or brushes extend perpendicular to the plane of the drawing over a length which corresponds to the greatest width of the material web to be wound up with the aid of the winding rollers 5 and 6. The scraping elements or brushes 28, 28a are arranged in a row on both sides of the passage opening 31.

The scraping elements or brushes 28, 28a serve to press the beginning of the web running upwards between the winding rollers 5 and 6 in the desired direction and position at the beginning of the winding process and to hold it until it is carried along by the winding device.

• Wenn an einem Wickelkern 16 die Warenbahn im Uhrzeigersinn aufgewickelt werden soll, läßt man die Warenbahn mit den zuvor beschriebenen Mitteln auf dem Weg 10 an der Wickelwalze 5 nach oben laufen. Am Beginn des Wickelvorgangs liegt noch kein Wickelkern 16 oberhalb der Wickelwalzen 5 und 6. Der Schwenkarm 23 nimmt aus einem der beiden Speicher 21, 21a einen Wikkelkern 16 auf, wird mit seiner Schwenkachse 24 in die Stellung c verschoben und anschließend in die waagerechte Lage verschwenkt, so daß die trichterförmige Aufnahme 31 nach rechts versetzt oberhalb der Wickelwalzen 5 und 6 zu stehen kommt. Dabei kommt die linke Bürstenreihe 28 zur Anlage an der Wickelwalze 6. Der Wickelkern 16 ist noch im Schwenkarm 23 festgehalten. Bei einer Querverschiebung der Schwenkachse 24 aus der Stellung c in die Stellung b wird das obere freie Ende der längs des Weges 10 eingelaufenen Warenbahn durch die linke Bürstenreihe 28 gegen die Wickelwalze 5 gedrückt. Diese Stellung ist in Fig. 2 veranschaulicht. Durch das Steuerorgan 26 wird nun der Wickelkern 16 freigegeben und fällt nach unten, wobei er links zur Anlage an der Warenbahn auf der Wickelwalze 5 und rechts direkt zur Anlage an der Wickelwalze 6 kommt. Der Schwenkarm 23 wird nun in seine senkrechte Ausgangslage

zurückverschwenkt. Der automatische Aufwickelvorgang beginnt, wozu die oben beschriebenen Maßnahmen dienen. Von oben her senkt sich die Wickelhilfseinrichtung 7, 8, die in Fig. 2 nur durch ihr Führungsgehäuse dargestellt ist, auf die Wickelwalzen 5 und 6 und den Wickelkern 16, wodurch die Wickelorgane 7 und 8 mit dem Anfang der Warenbahn in Eingriff kommen und diese um den Wickelkern 16 herum aufwickeln.The device shown in FIG. 2 operates as follows:

• If the material web is to be wound clockwise on a winding core 16, the material web is allowed to run upwards on path 10 on winding roller 5 using the means described above. At the beginning of the winding process, there is still no winding core 16 above the winding rollers 5 and 6. The swivel arm 23 receives a winding core 16 from one of the two stores 21, 21a, is moved with its pivot axis 24 into the position c and then pivoted into the horizontal position , so that the funnel-shaped receptacle 31 is offset to the right above the winding rollers 5 and 6. The left row of brushes 28 comes to rest against the winding roller 6. The winding core 16 is still held in the swivel arm 23. With a transverse displacement of the pivot axis 24 from the position c to the position b, the upper free end of the web that has run in along the path 10 is pressed against the winding roller 5 by the left row of brushes 28. This position is illustrated in Fig. 2. The winding core 16 is now released by the control member 26 and falls down, coming to the left to rest against the web on the winding roller 5 and to the right to rest against the winding roller 6. The swivel arm 23 is now in its vertical starting position

pivoted back. The automatic winding process begins, for which the measures described above are used. From above, the winding auxiliary device 7, 8, which is shown in FIG. 2 only by its guide housing, lowers onto the winding rollers 5 and 6 and the winding core 16, as a result of which the winding members 7 and 8 come into engagement with the beginning of the web and these wind around the winding core 16.

If the material web is to be wound around the winding core 16 counterclockwise, the beginning of the material web runs in on the path 11 between the winding rollers 5 and 6. The swivel arm 23, which had previously received a winding core 16, is shifted into position a. The receptacle 30 with the winding core 16 is now located above the left winding roller 5. The right scraping element 28a thus comes to rest on the winding roller 5. If the swivel arm 23 is now moved from the position a to the position b, the free upper end of the web is gripped by the right scraping element 28a and pressed against the right winding roller 6. Now the winding core 16 is released via the control member 26 and falls down into the gusset between the winding rollers 5 and 6, whereby it bears directly on the winding roller ₅ and on the winding roller 6 via the intermediate beginning of the web. In this case too, the swivel arm 23 is now pivoted into the vertical position, and the winding auxiliary device 7, 8 is lowered in order to wind the beginning of the web onto the winding core 16.

The winding device described can be used wherever webs have to be wound or rewound, for. B. in carpets, weaving mills and similar companies. The use of the device for unwinding certain lengths of a material web from a supply and for winding up these measured lengths (coupons) on a winding core is particularly advantageous. The device can also be used to advantage in trade.

Claims (15)

1. Device for winding a web (W) on a winding core (16), with two winding rollers (5, 6), between which the winding web (W) is fed through the winding core (16), characterized in that the winding rollers ( 5, 6) are arranged next to one another at a distance (A) and can be driven with the same direction of rotation, such that below the winding rollers (5, 6) a conveying device (1, 6) feeding the web (W) from bottom to top of the winding rollers (5, 6) la, 2) is provided, and that above the winding rollers (5, 6) for winding the beginning of the web onto the winding core (16) a winding auxiliary device (7, 8) is provided, which is displaceable relative to the winding rollers (5, 6), with the beginning of the web (W) engaging winding members (7, 8). 2. Device according to claim 1, characterized in that the active parts of the winding members (7, 8) of the auxiliary device are arranged roof-shaped over the winding rollers (5, 6). 3. Apparatus according to claim 1 or 2, characterized in that the winding auxiliary device has three auxiliary rollers (7) connected by means of winding tapes (8), the axes of which lie at the corners of an imaginary triangle. 4. Device according to one of the preceding claims, characterized in that the winding auxiliary device (7, 8) in the vertical direction relative to the winding rollers (5, 6) is displaceable such that it for winding the beginning of the web (W) on the above Winding rollers (5, 6) between these lying winding core (16) can be lowered onto it, while they are used to insert the winding core (16) and to insert the beginning of the web (W) into the winding area (Z) and to continue winding and removing the finished winding can be lifted off the winding rollers (5, 6). 5. Device according to one of the preceding claims, characterized in that the winding core (16) at the winding rollers (5, 6) lifted winding aid (7, 8) in the space above the winding rollers (5, 6) insertable and for determining the The winding direction is initially held to the side of the winding area (Z) above one of the two winding rollers (5, 6), while to form the start of the winding and to continue winding the winding core (16) centrally in the space (Z) above the winding rollers (5, 6) and is located under the auxiliary winding device (7, 8). 6. Device according to one of the preceding claims, characterized in that in the region of the gap (A) between the winding rollers (5, 6), in particular below the narrowest point of the gap (A), lateral air nozzles (41, 42) for determining the Direction of movement of the beginning of the web (W) are provided. 7. The device according to claim 6, characterized in that below the gap (A) between the winding rollers (5, 6) baffles (4) for the web (W) are arranged, and that the air nozzles (41, 42) in the region Baffles (4) are arranged. 8. Device according to one of the preceding claims, characterized in that at least one of the winding rollers (5, 6) is mounted displaceably in the lateral direction. 9. The device according to claim 1 _; characterized in that the conveyor (1, la, 2) for feeding the web (W) below the winding rollers (5, 6) has a conveyor belt (1) and several deflecting rollers (1a) and that a stationary supporting roller (2) for the conveyor is provided. 10. Device according to one of the preceding claims, characterized in that for feeding the winding cores (16) to the winding rollers (5, 6), a memory (21, 21a) for winding cores (16) is provided and that between the memory (21, 21a) and the winding rollers (5, 6) a swivel arm (23) for transferring individual winding cores (16) from the store (21, 21a) into the space above the winding rollers (5, 6) is provided. 11. The device according to claim 10, characterized in that the memory (21, 21a) has a lower outlet opening (27, 27a), on which a retaining member (22, 22a) for the winding cores (16) is provided, which for releasing the Exhaust opening is controllable. 12. The device according to claim 10 or 11, characterized by one or more of the following features: - The swivel arm (23) has at its free end a funnel-shaped receptacle (30) for the winding cores (16), - The receptacle (30) has a lateral passage opening (31) for the winding cores (16), - At the passage opening (31), a control member (26) for releasing the respective winding core (16) is provided. 13. Device according to one of claims 10 to 12, _' characterized by one or more of the following features: - The swivel axis (24) of the swivel arm (23) can be displaced in the horizontal direction transversely to the winding rollers (5, 6), - The swivel axis (24) can be locked in at least three displacement positions (a, b, c). 14. Device according to one of claims 10 to 13, characterized by one or more of the following features: - On its lower side in the horizontal position, the swivel arm (23) carries scraping elements (28, 28a), in particular brushes, projecting into the region of the winding rollers (5, 6) in a width corresponding to the width of the material web, - The abrading members (28, 28a) are arranged on both sides of the passage opening (31) for the winding cores (16). 15. The apparatus according to claim 10 or 11, characterized in that several, in particular two or three stores (21, 21a) for winding cores (16) with adjacent outlet openings (27, 27a) and respectively assigned, separately controllable retaining members (22, 22a) are provided.

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