EP3180283B1 - Winding device for winding a material to be wound and method for operating a winding device for winding a material to be wound - Google Patents

Description

State of the art

The invention relates to a winding device according to the preamble of claim 1 and a method for operating a winding device according to the preamble of claim 13.

From the DE 20 2013 105 817 U1 For example, there is known a winding machine for winding a winding stock onto a sleeve having a spool mounted on a pivot arm adapted to support the sleeve in a winding operation, the pivot arm being movable in two fixed axial positions and pivotable into two fixed pivot positions ,

In addition, from the JP H06 206665 A and the EP 0 950 628 A1 Winding devices for winding a winding material on a sleeve known, with spool pins of the winding devices for gripping Wickelgutträgern perform an axial movement.

The object of the invention is in particular to provide a generic winding device with improved properties in terms of flexibility. The object is solved by the characterizing features of claims 1 and 13, while advantageous embodiments and modifications of the invention can be taken from the dependent claims.

Advantages of the invention

The invention relates to a winding device for winding, in particular winding, unwinding and / or rewinding, a winding material, in particular a removable Wickelgutträger and / or a removable Wickelgutträger, with a spreader, which is intended to a Wickelgutträger during a winding process wear, with a transport unit to which at least a part of the Spuldorns arranged and is preferably attached, and with a positioning unit, which is intended to change a spatial position of the transport unit and / or preferably adapt, wherein the positioning unit is provided to set a spatial end position of the transport unit at least substantially arbitrarily, wherein the transport unit as a pivot arm is trained.

It is proposed that the transport unit is provided in at least one operating state to receive a winding material carrier arranged and to be processed in a winding material carrier supply unit and to transport it by means of an axial translational movement and a pivoting movement into a winding operating position in which at least one winding operation takes place in which the winding material is applied the winding material carrier is wound and / or unwound from the winding material carrier, wherein the transport unit is in the Spulbetriebslage during the winding process.

In this context, a "winding device" should be understood as meaning, in particular, at least a part and / or an assembly of a winding machine. In particular, the winding device may also comprise the entire winding machine. In particular, the winding device may comprise a control unit, a winding material supply unit, a winding material supply unit and / or at least one drive unit. A "wound material supply unit" should be understood to mean, in particular, a unit which, in at least one operating state, is intended to provide the winding material and in particular to supply it to the winding material carrier. A "winding material" is to be understood, in particular, as a windable good, which can be wound up in particular for storage and / or transport. The winding material may be, in particular, any winding material that appears sensible to a person skilled in the art, such as, for example, a thread, a wire and / or a band, which may consist in particular of any material that appears sensible to a person skilled in the art, for example of plastic, Metal, textile fibers and / or paper. Furthermore, a "winding material carrier" should be understood to mean, in particular, a carrier and / or a body which is intended to receive the winding material, in particular on an outer surface, which is in particular at least partially, preferably at least a large part and particularly advantageously completely convexly curved. Preferably, the winding material support is designed as a sleeve, in particular as a hollow body, preferably as a hollow cylinder, in particular with an annular base surface. Alternatively, however, it is also conceivable that a winding material support is designed as a solid body, in particular a solid cylinder. The term "at least a large part" is intended in particular to at least 60%, advantageously be understood to be at least 70%, preferably at least 80% and particularly preferably at least 90%.

Under the turn that the winding material is "exchangeable" formed, should in particular be understood that the winding material, in particular after a complete processing, against another, in particular of the winding material different, preferably identical to the winding material, Wickelgutträger is interchangeable and / or replaced. In particular, a, in particular completely, processed winding material carrier is exchanged for a further wound material carrier to be processed. Preferably, the further winding material carrier, advantageously a plurality of, in particular identical to one another, in particular to be processed, further winding material carrier in the Wickelgutträgerzufuhreinheit arranged. In this context, a "processed" winding material to be understood in particular a winding material, on which, in particular in a directly preceding lying winding process, a predetermined amount of the winding material wound and / or from which, in particular in a directly preceding lying winding process, a predetermined amount of the winding material was unwound. A "winding material carrier to be processed" is to be understood in particular as a winding material carrier, on a soft, in particular in a directly subsequent winding process, wound a predetermined amount of the winding material and / or of which, in particular in an immediately subsequent subsequent winding process, a predetermined amount of Wickelguts should be unwound. Furthermore, a "winding material carrier supply unit" is to be understood as meaning in particular a unit which is provided in particular for supporting wound goods carriers to be processed. By "provided" is intended to be understood in particular specially programmed, designed and / or equipped. The fact that an object is intended for a specific function should in particular mean that the object fulfills and / or executes this specific function in at least one application and / or operating state.

Preferably, the spool is formed as a mandrel and in particular provided to take the winding material, in particular by means of a positive, a frictional and / or preferably a frictional connection, in particular by means of at least one clamping jaw. In addition, the spool is advantageously designed rotatable and in particular provided to transmit a rotational movement and / or torque, in particular about a winding axis, on the winding material, in particular by means of the positive, the frictional and / or preferably non-positive connection. For this purpose, the winding device has in particular a drive unit, which is provided to the spool in at least one operating condition, in particular during the at least one Winding process to put in a rotary motion. In this context, a "winding axis" should be understood to mean, in particular, an axis about which a rotation of the spool and / or the winding material carrier can be carried out, in particular for winding and / or unwinding the winding material.

Furthermore, a "transport unit" is to be understood in particular to mean a unit which, in at least one operating state, is intended to carry the winding material carrier, in particular a processed and / or a winding material carrier to be processed, in particular completely, and in particular at least one location to at least one to move and / or transport other, in particular of the at least one place different location. Preferably, the transport unit is intended to be moved in at least one operating state, in particular by the positioning unit, in a defined position, in particular an end position. In this case, the transport unit is preferably movably and / or movably mounted along a straight line and / or pivotably mounted about a pivot axis. In this context, a "position" is to be understood as meaning, in particular, a position and / or an orientation, in particular a pivot position, of the transport unit, preferably axially and / or linearly offset from a starting position. Furthermore, an "end position" should be understood to mean, in particular, a position of the transport unit in which a movement of the transport unit stops and / or at least one process, such as the winding process, a settling process and / or a picking process, takes place. In this context, a "winding operation" is to be understood as meaning, in particular, a process in which the winding material, in particular by the winding machine device, is wound onto the winding material carrier and / or unwound from the winding material carrier. In this context, a "settling process" is to be understood as meaning, in particular, a process in which the winding material carrier and / or another winding material carrier is removed from the winding device and / or removed. Vorzugsswise the settling takes place in time immediately after the winding process. In this context, a "receiving process" is to be understood as meaning, in particular, a process in which the winding material carrier and / or a further winding material carrier are fed to the winding device. Preferably, the recording process takes place in time immediately before the winding process.

In particular, the positioning unit comprises at least one positioning means, which is provided to adjust the position of the transport unit. The at least one positioning means preferably comprises one, in particular of the drive unit differently formed, another drive unit and in particular a transmission, which is connected indirectly and / or directly in particular with the further drive unit and / or the transport unit. The drive unit and / or the further drive unit can be embodied as any drive unit that appears meaningful to a person skilled in the art, for example as a hand and / or foot drive, internal combustion engine, Stirling engine, hydraulic motor and / or preferably as an electric motor. Furthermore, the transmission can be designed as any one skilled in the art seem appropriate gear, such as example as a hydraulic, pneumatic and / or preferably mechanical transmission. In particular, the at least one positioning means may also comprise a plurality of drive units and / or transmissions. Preferably, the positioning unit is free from a mechanical stop.

A "mechanical stop" is to be understood in particular as a component which is specially designed to form a stop for an object. In particular, the mechanical stop is different from a bottom, a wall, a machine housing, in particular a winding machine housing, and / or a grid, in particular to a fencing of the winding machine. The term "adapting" should in particular be understood to mean optimization and / or equalizing to an advantageous operation. Furthermore, a "maximum possible freedom of movement of the transport unit" should be understood to mean, in particular, a freedom of movement of the transport unit in a fully functional state of the winding device. The term "at least substantially arbitrary" should be understood to be arbitrary and / or at least essentially stepless, in particular within the scope of a resolution accuracy of the positioning unit and / or the transport unit. In this context, the term "at least substantially stepless" is intended to mean, in particular, a setting with at least 10, preferably at least 100, and particularly preferably at least 500, preferably uniformly distributed, steps and / or positions, in particular within a defined range an angle range between 0 ° and 360 °, preferably in an angle range between 10 ° and 180 ° and / or a length range between 0 cm and 1 m, more preferably a range of the maximum possible freedom of movement of the transport unit to be understood. Furthermore, the winding machine device may in particular also comprise a plurality of winding material carriers, spool arbors, transport units, winding material supply units, winding material carrier supply units and / or positioning units.

By means of this embodiment, a generic winding device with improved properties in terms of flexibility can be provided. In particular, an adjustment effort, in particular possible mechanical stops, in particular when changing a winding material carrier size and / or a winding material, can be minimized.

If the transport unit is designed as a swivel arm, a stable and structurally simple transport unit can be provided.

Preferably, the positioning unit comprises a first positioning means, which is provided to change an axial position of the transport unit and in particular at least substantially set arbitrarily. In this case, the first positioning means preferably has a gear which converts a rotational movement into a translatory movement, such as, for example, a trapezoidal threaded spindle and / or preferably a ball screw drive. As a result, an arbitrary axial position of the transport unit can advantageously be adjusted simply and precisely.

If the positioning unit comprises a second positioning means which is intended to change a pivoting position of the transport unit and in particular to adjust it at least substantially, a repeating movement of the transport unit and thus in particular a versatility of the winding device can be improved. In addition, any pivot position can be achieved. In particular, it is also conceivable in this context that the first positioning means and the second positioning means are at least partially formed in one piece. In this context, it should be understood in particular that the first object and the second object share at least one component, such that a first object and a second object are formed "at least partially in one piece".

In one embodiment of the invention, it is proposed that a maximum pivoting angle of the pivoting unit is at least 10 °, advantageously at least 40 °, preferably at least 60 ° and particularly preferably at least 100 ° and in particular at most 360 °, advantageously at most 320 °, preferably at most 280 ° and especially preferably a maximum of 220 °. In this way, in particular, an advantageously flexible transport unit can be provided.

In particular, the positioning unit is intended to move the transport unit from the Spulbetriebslage in a Absetzbetriebslage. In this context, a "winding operation position" is to be understood as meaning, in particular, an end position and / or a location in which the at least one winding operation takes place. A "Absetzbetriebslage" should be understood in particular an end position and / or a place in which the transport unit is intended to settle, in particular completely, processed winding material, in particular to store the, in particular completely, processed winding material. Preferably, a pivot angle of the transport unit between the Spulbetriebslage and the Absetzbetriebslage is at least 10 °, preferably at least 40 ° and more preferably at least 80 °. Furthermore, a "winding material storage depository" should in particular be understood to mean an object which is intended in particular to receive and / or store, preferably, completely, processed winding material carriers. In this way, in particular a compact winder can be provided. In addition, components can advantageously be saved, as can be dispensed with an additional Wickelgutträgerwechseleinheit.

Preferably, the transport unit is in at least one operating state, in particular another, different in particular from the operating state, operating state, in particular a receiving operation, provided to a arranged in a Wickelgutträgerzufuhreinheit and processed Wickelgutträger, in particular directly from the Wickelgutträgerzufuhreinheit, record and / or to grab, in particular by means of the positive and / or preferably non-positive connection, and to transport in a Spulbetriebslage, in particular by means of an axial translational movement and / or a pivoting movement. In particular, the positioning unit is intended to move the transport unit from a receiving operating position into the Spulbetriebslage. A "receiving operating position" is to be understood, in particular, as an end position and / or a location in which the transport unit is intended to receive the wound goods carrier to be processed. Preferably, a pivoting angle of the transport unit between the receiving operating position and the Spulbetriebslage is at least 10 °, preferably at least 40 ° and more preferably at least 80 °. Preferably, a pivot angle of the transport unit between the picking operating position and the Absetzbetriebslage is at least 10 °, preferably at least 40 °, preferably at least 80 ° and more preferably at least 160 °. In this way, in particular, a flexibility can be further increased and a required space of the winding machine can be further reduced, whereby a compact and particularly simple winding machine can be provided with a reduced number of components. In addition, advantageously a susceptibility to interference can be minimized and costs reduced.

In addition, it is proposed that the spool comprises a first mandrel unit and a second mandrel unit, wherein the first mandrel unit is attached to a winding machine housing of the winding device and / or the winding machine, preferably directly, and the second mandrel unit arranged on the transport unit, in particular fixed, preferably immediately attached, is. In this context, a "mandrel unit" should be understood to mean in particular a unit which forms at least part of the spool. Preferably, the first mandrel unit and the second mandrel unit are formed separately from each other. In this case, the first mandrel unit and the second mandrel unit are advantageously insertable from opposite sides into the winding material carrier. In this context, it should be understood in particular that the first mandrel unit and the second mandrel unit, in particular at least substantially along the winding axis, are oriented in opposite directions in FIG the Wickelgutträger are movable into it. In this case, the first mandrel unit and the second mandrel unit form, in a state completely inserted into the winding material carrier, in particular the spool mandrel. This can advantageously a Increased working speed and / or operability, in particular handling of the winding material, can be improved.

Furthermore, it is proposed that the positioning unit has a first position detection unit which is provided to detect an axial position and / or a position of the transport unit that is offset in a linear manner, in particular to an initial position. A "position detection unit" should be understood to mean, in particular, a sensor unit which, in at least one operating state, is intended to detect and / or sense a position of the transport unit. Preferably, the position detection unit is provided to provide an actual position of the transport unit as a digital output signal and in particular to supply the control unit. The control unit is in particular provided to compare the actual position and / or the digital output signal with a desired position of the transport unit, preferably stored in a memory unit of the control unit, and in particular to control the positioning unit in a suitable manner. Preferably, the desired position corresponds to an end position of the transport unit. An "actual position" is to be understood in this context, in particular a current position of the transport unit. The position detection unit can be embodied as any position detection unit that appears sensible to a person skilled in the art, for example as a laser sensor, in particular as a laser tracking sensor, as a magnetic sensor, as a gyro sensor, as an inclination sensor, as an azimuth sensor and / or preferably as a rotary encoder and / or angular position sensor. In this way, in particular an axial position of the transport unit can be detected and adapted to a desired value.

In a preferred embodiment of the invention, it is proposed that the positioning unit has a second, preferably identical to the first position detection unit, position detection unit, which is provided to detect a pivot position of the transport unit. In this way, in particular a pivot position of the transport unit can be detected and adapted to a desired value.

If the first position detection unit and the second position detection unit are at least partially formed in one piece, in particular costs and a required installation space can be reduced. In particular, the first position detection unit and the second position detection unit may also be integrally formed. In this In particular, the term "integral" should be understood to mean that the winding device comprises exactly one position detection unit which is provided to detect an axial position and a pivot position of the transport unit.

In a particularly preferred embodiment of the invention, it is proposed that at least one of the position detection units, in particular the first position detection unit and / or the second position detection unit, is arranged on a pivot axis of the transport unit. By "arranging a position detection unit on a pivot axis of the transport unit" it should be understood, in particular, that at least one point of the position detection unit contacts and / or intersects the pivot axis at least in a viewing direction perpendicular to the pivot axis. Preferably, the at least one point corresponds to at least one center of the position detection unit. As a result, a control algorithm can advantageously be simplified and space can be saved.

In addition, advantageously simple detection can take place if at least one of the position detection units, in particular the first position detection unit and / or the second position detection unit, is designed as an absolute value encoder.

In a further embodiment of the invention, it is proposed that at least one of the position detection units, in particular the first position detection unit and / or the second position detection unit, is designed as a relative value transmitter, in particular as an incremental encoder. In this way, in particular a particularly cost-efficient solution can be provided.

Furthermore, the invention is based on a method for operating a winding device for winding a winding material, with a spool, which is intended to carry a winding material during at least one winding winding, and with a transport unit on which at least a part of the spool is arranged, wherein a spatial position of the transport unit, in particular by means of a positioning unit of the winding device, is changed, wherein a spatial end position of the transport unit is set at least substantially arbitrarily, wherein the transport unit is designed as a pivoting arm.

It is proposed that the transport unit receives in at least one operating state arranged in a Wickelgutträgerzufuhreinheit and to be processed winding material and transported by an axial translational movement and a pivoting movement in a Spulbetriebslage in which at least one winding process takes place in which wound the winding material on the winding material and / or is unwound from the winding material, wherein the transport unit is in the Spulbetriebslage during the winding process._Hierdurch a flexibility can be improved and advantageously an adjustment effort can be minimized

The winding device according to the invention should not be limited to the application and embodiment described above. In particular, in order to fulfill a mode of operation described herein, the winding device according to the invention can have a number deviating from a number of individual elements, components and units specified herein.

drawings

Further advantages emerge from the following description of the drawing. In the drawings, an embodiment of the invention is shown. The drawings, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Fig. 1

Eine Spulmaschine mit einer Spulvorrichtung in einer perspektivischen Ansicht,

Fig. 2

die Spulvorrichtung während eines Spulvorgangs,

Fig. 3

die Spulvorrichtung während eines Absetzvorgangs und

Fig. 4

die Spulvorrichtung während eines Aufnahmevorgangs.

Show it:

Fig. 1

A winding machine with a winding device in a perspective view,

Fig. 2

the winding device during a winding process,

Fig. 3

the winding device during a settling process and

Fig. 4

the winding device during a recording process.

Description of the embodiment

FIG. 1 shows an exemplary winder 32 in a perspective view. The winding machine 32 comprises a winding machine housing 34. The winding machine 32 comprises a winding device. For controlling an operation of the winding machine 32, the winding device comprises a control unit (not shown). The control unit has an arithmetic unit, a memory unit and an operating program stored in the memory unit, which is intended to be executed by the arithmetic unit. In addition, the winding device comprises an operating unit 36 for inputting process parameters and / or for selecting an operating program stored in the storage unit by an operator. The operating unit 36 is in contact with the control unit, for example via an electrical connection and / or a radio connection.

In addition, the winding device comprises a spool 12. The spool 12 is cylindrical. The spool 12 is made of stainless steel. Further, the spool 12 is rotatably formed. The spool 12 is rotatably mounted about a winding axis 38. The spool 12 is formed as a mandrel. As a result, the spool 12 comprises a plurality of jaws (not shown). The spool 12 is provided in at least one operating state to carry a winding material carrier 14, 15 by means of a non-positive connection (see also FIG. 2 ). In addition, the winding device has a drive unit (not shown). The drive unit is provided to enable the spool 12 to rotate during a winding operation and to transmit the torque generated thereby to the winding material carrier 14, 15. In the present case, the spool 12 is also formed in two parts. The spool 12 comprises a first mandrel unit 40. The first mandrel unit 40 is cylindrical. The first mandrel unit 40 forms a first half of the spool 12. The first mandrel unit 40 is attached to the spool housing 34. The first mandrel unit 40 is free of jaws in the present case. Alternatively, however, a first mandrel unit 40 may have at least one clamping jaw. The spool 12 comprises a second mandrel unit 42. The second mandrel unit 42 is cylindrical. The second mandrel unit 42 forms a second half of the spool 12. The second mandrel unit 42 comprises a plurality of clamping jaws. The first mandrel unit 40 and the second mandrel unit 42 are provided in at least one operating state to be inserted from opposite sides into the winding material carrier 14, 15. The first mandrel unit 40 and the second mandrel unit 42 are provided in the present case to be inserted at different times from opposite sides into the winding material carrier 14, 15.

Furthermore, the winding device comprises a transport unit 16. The transport unit 16 is designed as a pivoting arm. The transport unit 16 is made of stainless steel. A part of the spool 12 is arranged on the transport unit 16. In the present case, the second mandrel unit 42 is attached to the transport unit 16. Alternatively, it is also conceivable to form a spool in one piece and, in particular, to fasten it completely to a transport unit. Furthermore, the transport unit 16 is movably mounted. The transport unit 16 is mounted on rails 44 in the present case. The transport unit 16 is displaceably mounted in the axial direction 46. The transport unit 16 is displaceable along a straight line. In the present case, the transport unit 16 is displaceable parallel and / or along the winding axis 38. As a result, is an axial position of the transport unit 16 changeable. In addition, the transport unit 16 is mounted on a rotary shaft 48. As a result, the transport unit 16 is mounted pivotably about a pivot axis 30. The pivot axis 30 extends parallel to the winding axis 38. Consequently, a pivot position of the transport unit 16 is variable. A maximum pivot angle of the transport unit 16 in the present case is about 190 °. Alternatively, it is also conceivable to form a transport unit such that an axial position or a pivot position of the transport unit are invariable.

In addition, the winding device comprises a positioning unit 18. The positioning unit 18 is provided to change a spatial position of the transport unit 16. In the present case, the positioning unit 18 is provided to set a spatial end position of the transport unit 16 at least substantially arbitrarily. For this purpose, the positioning unit 18 comprises at least one positioning means 20, 22. In the present case, the positioning unit 18 comprises two positioning means 20, 22. The positioning means 20, 22 are provided in a known manner to adjust the position of the transport unit 16. The first positioning means 20 is provided to change the axial position of the transport unit 16. The first positioning means 20 comprises a first drive unit (not shown) designed as an electric motor. In addition, the first positioning means 20 comprises a ball screw (not shown), which is intended to convert a rotational movement of the first drive unit in a translational movement of the transport unit 16. The second positioning means 22 is provided to change the pivot position of the transport unit 16. The second positioning means 22 comprises a second drive unit (not shown) designed as an electric motor. In addition, the second positioning means 22 comprises a gear (not shown), which is intended to implement a rotational movement of the second drive unit in a pivoting movement of the transport unit 16. Alternatively, it is conceivable that a first positioning means and a second positioning means are at least partially formed in one piece and / or in one piece. In addition, it is conceivable to use any other positioning means which would appear meaningful to a person skilled in the art, for example at least one pneumatic and / or at least one hydraulic positioning means.

For detecting a position of the transport unit 16, the positioning unit 18 further comprises at least one position detection unit 26, 28. In the present case, the positioning unit 18 comprises two position detection units 26, 28. The first position detection unit 26 is provided to detect the axial position of the transport unit 16. The first position detection unit 26 is arranged on the pivot axis 30. The first position detection unit 26 is at least partially attached to the rotary shaft 48. The first position detection unit 26 is designed as a rotary encoder. In the present case, the first position detection unit 26 is designed as an absolute value encoder. The second position detection unit 28 is provided to detect the pivot position of the transport unit 16. The second position detection unit 28 is arranged on the pivot axis 30. The second position detection unit 28 is at least partially fixed to the rotary shaft 48. The second position detection unit 28 is designed as a rotary encoder. The second position detection unit 28 is designed as an absolute value encoder. In the present case, the first position detection unit 26 and the second position detection unit 28 are formed at least partially in one piece. Alternatively, it is also conceivable to form at least two position detection units in one piece and / or completely separate from one another. In addition, it is conceivable to design at least one position detection unit as a relative value transmitter, in particular an incremental encoder. Also, at least one position detection unit could be arranged at a position deviating from a pivot axis.

The position detection units 26, 28 are provided to detect an actual position of the transport unit 16, and to supply as a digital signal to the control unit. The control unit is provided to compare the digital signal with a stored in the memory unit desired position of the transport unit 16 and the positioning unit 18 to control such that the actual position of the transport unit 16 at least substantially corresponds to the desired position. In the present case, at least substantially any end positions of the transport unit 16 can be stored and / or programmed in the memory unit of the control unit.

In addition, the winding device can comprise further units. In the present case, the winding device comprises a Wickelgutträgerzufuhreinheit 24. The Wickelgutträgerzufuhreinheit 24 is provided to store to be processed Wickelgutträger 14, 15 to store and provide for processing. This includes the Wickelgutträgerzufuhreinheit 24, in particular in the winding machine housing 34 arranged Wickelgutträgerzufuhröffnung 50. In addition, the winding device comprises a Wickelgutzufuhreinheit 52. The Wickelgutzufuhreinheit 52 is provided to provide a winding material 10 and the Wickgutträger 14, 15 supply (see also FIG. 2 ). For this purpose, the Wickelgutzufuhreinheit 52 comprises in the present case, at least one delivery mechanism 54 and a guide roller 56 and an electrically adjustable, in particular along the winding axis 38 movable, Publisher 58. To sever the Wickelguts 10, the winding device further comprises a movably mounted separation unit 60. Alternatively, a Delivery mechanism also be designed as a deflection roller. Furthermore, it is conceivable to completely dispense with a delivery mechanism.

In addition, the winding device comprises a filming unit 62. The filming unit 62 is provided to package a completely processed winding material carrier 14, 15. For this purpose, the filming unit 62 comprises a take-up shaft 64 for receiving a film spool 66 (cf. FIG. 2 ). The receiving shaft 64 is rotatably mounted about a rotation axis 68. In addition, the foil unit 62 comprises a foil 70. The foil 70 is intended to align a foil of the foil bobbin 66 and, after a winding operation, in particular a winding process, to be applied to the wadding 10 of the completely processed bobbin 14, 15. For a functional check and / or for a maintenance check, the foliation unit 62 further comprises a foil detector unit 72. The foil detector unit 72 is provided to detect a movement of the foil coil 66. The Folierererfassungseinheit 72 is designed as a rotary encoder. The Folierererfassungseinheit 72 is designed as a relative value, in particular as an incremental encoder. The foil detection unit 72 is disposed on the rotation axis 68. The foil detection unit 72 is at least partially attached to the take-up shaft 64. By means of the foil-collecting unit 72, a packaging process of the completely processed winding material carrier 14, 15 can be monitored and controlled in a simple manner. In this case, a predetermined amount of film on the winding material 10 of the winding material carrier 14, 15 are attached. In particular, can advantageously be detected by detecting the rotational movement of the film reel 66, whether a packaging process takes place and / or if an error occurs in the packaging process, for example, if the film of the film reel 66 is consumed. Alternatively, a foil detection unit could also be embodied as an absolute value transmitter, laser sensor and / or other sensor that appears sensible to a person skilled in the art. In addition, conceivable is a Folierererfassungseinheit to arrange at a different position and / or to dispense with a completely Folchererfassungseinheit.

FIG. 2 shows the winding device during a winding operation, wherein the transport unit 16 is in a Spulbetriebslage. In the present case, the winding device is used to wind the winding material 10 on the exchangeable Wickelgutträger 14, 15. Alternatively, it is also conceivable to use the winder for unwinding a winding material of a winding material. The winding material 10 corresponds in the present case a band-shaped winding material. However, it is also conceivable to use other winding goods with a geometry deviating from a belt shape.

For winding of the winding material 10, the spool 12 and thus the winding material support 14,15 is driven to rotate about the winding axis 38. During a winding operation, a mass of the winding material 10 already wound on the winding material carrier 14, 15 is determined continuously and / or in discrete steps. For this purpose, the control unit has a mass sensor (not shown) which is provided to determine a mass characteristic value and / or the actual mass of the already wound up winding material 10. Alternatively, other suitable to a person skilled in the sense sensors for determining a wound-winding material conceivable, such as a Wickelgutlängenmesssensor and / or a peripheral sensor for determining a diameter of the already wound up winding material.

If a predetermined amount of winding material 10 is located on the winding material carrier 14, 15, the spool 12 is stopped and the wound winding material 10 is separated from the remaining winding material 10 by means of the separating unit 60. Subsequently, the coiled winding material 10 is packed by means of the filming unit 62. Alternatively, it is also conceivable to dispense with packaging by means of a filming unit.

This is followed by a settling process (cf. FIG. 3 ). In this settling operation, the transport unit 16 is provided for transporting the completely processed winding material carrier 14, 15 out of the winding operating position into a wound material carrier depository 74. In this case, the positioning unit 18 is provided to move the transport unit 16 by means of an axial translational movement and a pivoting movement from the Spulbetriebslage in a Absetzbetriebslage. The Absetzbetriebslage corresponds in the present case of at least substantially any spatial Location, which can change in particular between two winding operations and depending on a quantity of wound winding material 10. According to the invention, the spatial end position of the transport unit 16 can be set at least substantially arbitrarily, so that a manual position adjustment of possible mechanical stops between the winding processes can be dispensed with. Alternatively, it is also conceivable that a positioning unit is provided to move a transport unit by means of an axial translational movement and a pivoting movement from a receiving operating position and / or an at least substantially any other position, preferably end position, the transport unit in a Absetzbetriebslage.

When removing the winding material carrier 14, 15, the winding material carrier 14, 15 is completely supported by the second mandrel unit 42. First, there is the transport unit 16 and thus the Wickelgutträger 14, 15 in the Spulbetriebslage. In a first step, the distance between the first mandrel unit 40 and the second mandrel unit 42 is increased. In this case, the first positioning means 20 is provided to increase the axial position of the transport unit 16 and thus the second mandrel unit 42 relative to the winding machine housing 34 and / or the first mandrel unit 40. In a second step, the second positioning means 22 is provided to change the pivot position of the transport unit 16 by about 90 °, in particular in the positive direction of rotation. In a third step, the first positioning means 20 is provided to reduce the axial position of the transport unit 16 relative to the Spulmaschinengehäuse 34 and / or the first mandrel unit 40 until the transport unit 16 and thus the Wickelgutträger 14, 15 is in the Absetzbetriebslage. Subsequently, the frictional connection between the second mandrel unit 42 and the Wickelgutträger 14, 15 are released so that the Wickelgutträger 14, 15 is mounted in the Wickelgutträgerverwahrstelle 74.

This is followed by a recording process (cf. FIG. 4 ). In this recording process, the transport unit 16 is provided to receive a further winding material carrier 14, 15 arranged in the winding material carrier supply unit 24 and to be processed from the winding material carrier supply unit 24 and to transport it to the winding operating position. In this case, the positioning unit 18 is provided to the transport unit 16 by means of an axial translational movement and a To move pivoting movement from the Absetzbetriebslage in a recording operating position. The recording operating position corresponds in the present case to an at least substantially arbitrary spatial position, which may change depending on a winding material carrier 14, 15 used, in particular. Alternatively, it is also conceivable that a positioning unit is provided to move a transport unit by means of an axial translation movement and a pivoting movement from a Spulbetriebslage and / or an at least substantially any other position, preferably end position, the transport unit in a Aufnahmeabetriebslage.

When feeding the further winding material carrier 14, 15, the further winding material carrier 14, 15 is completely supported by the second mandrel unit 42. In the present case, the transport unit 16 is initially in the Absetzbetriebslage.

In a first step, the first positioning means 20 is provided to increase the axial position of the transport unit 16 and thus the second mandrel unit 42 relative to the winding machine housing 34 and / or the first mandrel unit 40, whereby the second mandrel unit 42 in particular from the winding material carrier 14, 15 is removed. In a second step, the second positioning means 22 is provided to change the pivot position of the transport unit 16 by about 180 °, in particular in the negative direction of rotation. In a third step, the first positioning means 20 is provided to reduce the axial position of the transport unit 16 relative to the winder housing 34 and / or the first mandrel unit 40 until the transport unit 16 is in the picking operation position, whereby the second mandrel unit 42 in the another winding material carrier 14, 15 is introduced. Subsequently, a further frictional connection between the second mandrel unit 42 and the further winding material carrier 14, 15 can be produced, in particular by an actuation of the clamping jaws. In a fourth step, the first positioning means 20 is provided to increase the axial position of the transport unit 16 and thus the second mandrel unit 42 relative to the winding machine housing 34 and / or the first mandrel unit 40, whereby the further winding material carrier 14, 15 from the winding material supply unit 24th Will get removed. In a fifth step, the second positioning means 22 is provided to change the pivot position of the transport unit 16 by about 90 °, in particular in the positive direction of rotation. In a final step, the first positioning means 20 is provided to the axial position of the To reduce transport unit 16 relative to the winding machine housing 34 and / or the first mandrel unit 40 until the transport unit 16 and thus the further winding material 14, 15 is in the Spulbetriebslage, so that a further winding process can take place.

The exemplary winding machine described and its mode of operation serves merely as an example illustration of the invention and is in no way intended to represent a limitation of the invention.

Claims (13)

1. Winding device for winding a material to be wound (10), with a winding mandrel (12) that is configured for carrying a carrier of material to be wound (14, 15) in a winding process, with a transporting unit (16) on which at least a portion of the winding mandrel (12) is arranged, and with a positioning unit (18) that is configured for changing a spatial position of the transporting unit (16), wherein the positioning unit (18) is configured to at least substantially adjust a spatial end position of the transporting unit (16) according to requirement, wherein the transporting unit (16) is embodied as a pivot arm,
   characterised in that the transporting unit (16) is, in at least one operating state, configured for receiving a carrier of material to be wound (14, 15) that is arranged and is to be processed in a feed unit for carriers of material to be wound (24), and for transporting said carrier of material to be wound (14, 15) via an axial translational movement and a pivot movement into a winding operative position, in which at least one winding process is carried out in which the material to be wound (10) is wound onto the carrier of material to be wound (14, 15) and/or is wound off from the carrier of material to be wound (14, 15), wherein the transporting unit (16) is in the winding operative position during the winding process.
2. Winding device according to claim 1, characterised in that the positioning unit (18) comprises a first positioning element (20), which is configured for changing an axial position of the transporting unit (16).
3. Winding device according to claim 1, characterised in that the positioning unit (18) comprises a second positioning element (22), which is configured for changing a pivot position of the transporting unit (16).
4. Winding device according to one of the preceding claims, characterised in that a maximum pivot angle of the transporting unit (16) is at least 10°.
5. Winding device according to one of the preceding claims, characterised in that the transporting unit (16) is in at least one operating state configured for transporting a processed carrier of material to be wound (14, 15) away out of a winding operative position.
6. Winding device according to one of the preceding claims, characterised in that the positioning unit (18) comprises a first position capturing unit (26), which is configured for capturing an axial position of the transporting unit (16).
7. Winding device according to one of the preceding claims, characterised in that the positioning unit (18) comprises a second position capturing unit (28), which is configured for capturing a pivot position of the transporting unit (16).
8. Winding device according to claims 6 and 7, characterised in that the first position capturing unit (26) and the second position capturing unit (28) are embodied at least partly in a one-part implementation.
9. Winding device according to one of claims 6 to 8, characterised in that at least one of the position capturing units (26, 28) is arranged on a pivot axis (30) of the transporting unit (16).
10. Winding device according to one of claims 6 to 9, characterised in that at least one of the position capturing units (26, 28) is embodied as an absolute-value encoder.
11. Winding device according to one of claims 6 to 10, characterised in that at least one of the position capturing units (26, 28) is embodied as a relative-value encoder.
12. Winding machine with at least one winding device according to one of the preceding claims.
13. Method for operating a winding device for winding a material to be wound (10), in particular according to one of claims 1 to 11, with a winding mandrel (12) configured for carrying a carrier of material to be wound (14, 15) in a winding process, and with a transporting unit (16), on which at least a component of the winding mandrel (12) is arranged, wherein a spatial position of the transporting unit (16) is changed, wherein a spatial end position of the transporting unit (16) is at least substantially adjusted according to requirement, wherein the transporting unit (16) is embodied as a pivot arm, characterised in that the transporting unit (16) in at least one operating state receives a carrier of material to be wound (14, 15) which is arranged and is to be processed in a feed unit for carriers of material to be wound (24), and transports said carrier of material to be wound (14, 15), via an axial translational movement and a pivot movement, into a winding operative position in which at least one winding process is carried out in which the material to be wound (10) is wound onto the carrier of material to be wound (14, 15) and/or is wound off the carrier of material to be wound (14, 15), wherein the transporting unit (16) is in the winding operative position during the winding process.

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