WO2013110108A1 - Device for clamping and releasing a bobbin housing - Google Patents

Abstract

The invention relates to a device for clamping and releasing a bobbin housing (3), comprising a mounting (2) for the bobbin housing (3), which mounting is rotatable by means of a spindle motor (33), and clamping means (4) for fixedly clamping the bobbin housing as said bobbin housing rotates, wherein the clamping means are connected to spring means (5) by means of force-transfer means (7) and the clamping means (4) clamp the bobbin housing to the rotatable mounting due to the spring force acting on the clamping means via the force-transfer means. According to the invention, clamping means (4a, 4b) for the bobbin housing are connected to a spring (5) by means of force-transfer means (7), wherein the clamping means clamp the bobbin housing (3) so as to prevent the rotation thereof due to the spring force acting on the clamping means via the force-transfer means, and a release device (13, 18, 15) designed as a freewheel mechanism in the winding direction which remains in an inactive position upon rotation of the mounting in the winding direction is provided and is configured to move the force-transfer means against the spring force upon rotation of the mounting (2) opposite to the winding direction in order to release the clamping of the bobbin housing.

Description

 DEVICE FOR TENSIONING AND RELEASING A SLEEVE

The invention relates to a device for tensioning and releasing a winding tube, with a rotatable holder for the winding tube and with a clamping means for clamping the winding tube during its rotation, wherein the clamping means is connected via a power transmission means with a spring means and the clamping means due to on this spring force acting on the force transmission means, the winding tube clamps on the rotatable support.

A device of this type has become known from US 4,767,077, in which a sleeve for receiving a web by means of a number of split, the Spuldorn surrounding rings can be held if these rings widened by provided on the circumference of the mandrel, cooperating with inclined ramp surfaces rollers become. Furthermore, a pressing unit for generating an axial force is provided, which can press the rings together in the axial direction. The structure shown is very complex and has a large number of items, with a hydraulic power generation is also provided.

It is an object of the invention to provide a device by means of which coils or bobbin tubes can be reliably clamped onto a spinneret without additional actuators or manually operable levers and can also be released quickly and automatically.

This object is achieved with a device of the type mentioned, in which according to the invention a tensioning means for the winding tube is connected via a power transmission means with a spring, wherein the clamping means due to the spring force acting on this via the force transmission means clamps the winding tube to rotation and a in Winding direction designed as a freewheel release device is provided which remains in an inactive position upon rotation of the holder in the winding direction and which is adapted to move the power transmission means against the spring force upon rotation of the holder against the winding direction to cancel the clamping of the winding tube. Thanks to the invention, a freewheel is created, which makes it possible that the holder for the winding tube can be driven freely in the winding direction, however, in a rotation in the opposite direction blocking and thus releasing the winding tube takes place. The turning against the winding direction is conveniently done by means of the spindle motor, but it can also be done by hand, with only a short turn necessary to allow the release.

In an expedient variant, it is provided that the force transmission means is designed as a tubular sleeve, which sits on a driven by the spindle motor spool, with this connected to rotation and with respect to the same is longitudinally displaceable.

The release of the winding tube is particularly simple if the direction of rotation of the spindle motor is reversible, the spindle motor to release the winding tube whose holder rotates against the winding direction.

In expedient variants, the tube sleeve is loaded with spring force with respect to the spool in the direction of its receiving end by means of the spring means.

For safe and secure with little effort can be provided that in an annular gap, which is formed by the free end of the tube sleeve and an all-round, with respect to the spool fixed clamping surface as clamping means an elastically deformable clamping ring is arranged, which upon compression by the Spring force evades radially outward and presses against the inner surface of the winding tube. It makes sense if the free end of the tube sleeve and the fixed clamping surface with respect to the chuck are chamfered.

Another expedient embodiment provides for the clamping of the winding tube, that the winding tube is clamped with its two ends between two circular rotatable cones, a first cone stationary, the second cone, however, is displaceable in the axial direction, and at the free end of a hollow shaft provided as a force transmission means sits, which is driven and rotatable and limited slidable in the axial direction. In a practice-proven robust development of the invention, it is provided that the release device has a turntable connected to the power transmission means, the turntable, leaving a disc-shaped gap opposite a stationary, plate-shaped abutment is arranged in the turntable, the abutment facing with respect to the axis of rotation substantially arcuate Recesses for receiving a ball are formed, wherein the bottom of each recess in a direction of rotation is so far rising, that upon rotation of the spool and the turntable against the winding direction balls supported supported on the abutment and push the turntable against the spring force of the abutment, whereby the winding tube is released. In this case, it is advantageous if the turntable is arranged at the end remote from the coil receiving side end of the tube sleeve and it can also be provided that the turntable is arranged at the end remote from the coil receiving side end of the shaft. Furthermore, the recesses can expediently extend radially outward in the direction of their deepest end region.

In a mechanically expedient embodiment, it is provided that the spring means is a helical spring, which is arranged between a flange of the spool and the turntable, comprising the spool.

In order to avoid, inter alia, the penetration of foreign bodies, it is advantageous if the turntable has a circumferential, the disc-shaped gap on its circumference covering collar.

In a variant with another embodiment of the freewheel is provided that the release means connected to the power transmission means, displaceable in the longitudinal direction of the winding axis and connected to the spool on rotation rotary ring with a toothing, at least one stationary but pivotally mounted pawl lift is provided, the a with respect to its pivot axis eccentrically extending teeth, which is associated with the teeth of the rotary ring, and upon rotation of the rotary ring in the winding direction, the teeth can slide together, is taken on rotation of the rotary ring against the winding direction of the latch lever by cooperation of the teeth of the rotary ring and him pushes away against the force of the spring, whereby the winding tube is released. Yet another variant with another embodiment of the freewheel provides that the release device has a turntable connected to the power transmission means, the turntable is leaving a gap opposite a stationary abutment is arranged on the turntable pivotable pawls are arranged, which can be supported on projections of the turntable are and can cooperate with stages of the abutment so that upon rotation of the spool and the turntable against the winding direction, the pawls are supported on the projections and on the steps and push away the turntable against the spring force of the abutment, whereby the winding tube is released However, when turning the turntable in the winding direction, the pawls can slide freely over the stages, the corresponding approximation of the turntable (35) leads to the abutment for holding the winding tube.

A field-proven variant is characterized in that the tubular sleeve is connected to the spool on a formed in the tubular sleeve longitudinal slot and engaging in this, sitting on the spool pin on rotation.

The invention together with further advantages is explained in more detail below with reference to an exemplary embodiment, which is illustrated in the drawing. In this show

1 is a schematic sectional view of a device according to the invention, partially shown, with its clamping means in clamping position,

2 in a view like Figure 1 device according to the invention with its clamping means in the release position,

3 is a turntable of the release device of the device according to the invention in a schematic and perspective view,

3a shows a schematic development of one of the recesses shown in FIG. 3,

4 is a view corresponding to FIG. 1, a variant in which two cones are provided as a holder for the winding tube,

5 shows a perspective partial view of another embodiment of the invention in a release position for a winding tube, Fig. 6 shows the embodiment of FIG. 5 in a clamping position for a winding tube and

7 and 8 show a detail of a freewheel of a further embodiment of the invention in an unwound representation in two working positions.

According to FIGS. 1 and 2, a device 1 according to the invention has a spool 2 for receiving a winding tube 3, on which, for example, plastic threads can be wound up. The winding tube 3 and the spool 2 are shown only partially here. The spool 2 is connected to a spindle motor 33, which is mounted on a stationary frame 34.

In order to tension the winding tube 3 on the spool 2, a clamping means is provided, which in the present case has an elastically deformable clamping ring 4, which preferably consists of a rubber-elastic material or may be formed as a circumferential spiral spring.

For the purposes of the invention, the clamping means is loaded by a force transmission means with the force of a spring means to tension the winding tube 3 on the spool 2. In the embodiment shown, the spring means is a coil spring 5, which is arranged between a flange 6 of the spool 2 and one end of a tube sleeve 7, which serves as a force transmission means.

The tubular sleeve 7 is connected to the spool 2 via a formed in the tubular sleeve longitudinal slot 8 and engaging in this, sitting on the spool pin 9 on rotation, in the axial direction of the mandrel axis a, however, limited longitudinally displaceable.

The clamping ring 4 is located in an annular gap 10, on the one hand - in the drawing on the left - from the free end 11 of the tube sleeve 7 and on the other hand by an all-round, with respect to the Spuldorns 2 fixed clamping surface 12 is formed. The clamping surface 12 may be formed directly on the spool 2 or on a fixedly connected to the latter sleeve.

It is obvious that now a displacement of the displaceable tubular sleeve 7 in the direction of the receiving end of the mandrel 2 to a constriction and a displacement in the opposite set direction, left in the drawing, leads to a broadening of the annular gap 10. In a narrowing of the clamping ring 4 is squeezed and he deviates radially outwards, which leads to a proper clamping of the relevant dimensions to a clamping of the winding tube 3 with proper design. This, the normal operating case when winding corresponding state is achieved by a spring means, namely in the present case by the coil spring 5, which urges the tube sleeve 7 in the direction of the receiving end and thereby squeezes the clamping ring 4.

The invention is not limited to the use of a single clamping ring, but also several such clamping rings can be provided for a winding tube 3. In Fig. 1 and Fig. 2, a further clamping ring 4 'is located, wherein between the clamping ring 4 and this clamping ring 4' on the spool a longitudinally displaceable sleeve piece Ί 'is arranged. A displacement of the tube sleeve 7 then presses not only the clamping ring 4 but, on the sleeve piece Ί 'and the clamping ring 4' together.

In order to enable a release of the winding tube, the invention provides a release device is provided, which is adapted to move upon rotation of the spool 2 against the winding direction of the force transmission means, namely the tube sleeve 7 against the force of the spring to the clamping of the winding tube. 3 repealed.

In the embodiment shown, the release device on a turntable 13 which is disposed on the side facing away from the Spulenaufnahmeseite end of the tube sleeve 7, wherein the turntable 13, leaving a disc-shaped gap 14 opposite a stationary, plate-shaped abutment 15 is arranged, the stationary and for example connected to the frame 34. The turntable 13 has a circumferential, the disc-shaped gap 14 at its periphery covering collar 16, which as such is not essential to the invention.

As can be seen in detail from FIG. 3 and FIG. 3 a, in the turntable 13, facing a flat surface of the abutment 15, substantially circular-arc-shaped recesses 17, in the present case four, each for receiving a ball 18 are formed relative to the axis of rotation a, It can be seen that the bottom 117 of each recess 17 is increasing in one direction of rotation and the recesses 17 have in their lowest end portion a radially outwardly extending portion 217 .. At the other end, each recess has a respect to the oblique, rising to this end bottom portion flat flattening 317. Furthermore, in the area of In Figs. 5 and 6, for example, a design is shown which uses an eccentrically mounted pawl lever, with a Gear ring cooperates. Since the construction is largely similar to that of Figs. 1 and 2 or 3, like reference numerals are used for the same or similar parts for the sake of simplicity.

In this embodiment, a rotary ring 23 is provided instead of the loaded with the spring 5 turntable 13 of FIG. 1 and 2, which has a circumferential toothing 23z. The rotary ring 23 is connected to the tube sleeve 7 and together with this displaceable in the axial direction. The rotary ring 23 cooperates with a pawl lever 24 which is pivotable, e.g. by means of a pin 25, is mounted on a stationary support 26 and has a toothing 24z. The toothing 24z of the pawl lever 24 is arranged eccentrically with respect to the pin 25 and its pivot axis and the pivoting movement of the pawl lever 24 is limited by two stops 24a, 25b, which cooperate with a stop pin 26a of the carrier 26. The eccentric mounting of the lever 24 also ensures that it can come into contact with the teeth 23z of the rotary ring solely by gravity. However, the latch lever could also be spring-loaded and it can be several such latch lever are used.

The working position shown in Fig. 5 corresponds to that of Fig. 2, i. the spring 5 is compressed, since upon rotation of the spool 2 in a first direction (indicated by an arrow) the pawl lever 24 is entrained by cooperation of the teeth 23z, 24z and pushes the rotary ring 23 against the force of the spring 5 until its stop 24b abuts against the stop pin 26a of the carrier 26. With the rotary ring 23, the tube sleeve 7 shifts, the clamping ring 4 is applied to the spool 2 and it can be a winding tube (not shown here) are pushed (see Fig .. 2).

Turns the spool 2, however, in the other direction shown in FIG. 6, it can run freely because the latch lever 24 is rotated so that the two teeth 23z, 24z can slide together, now the other stop 24a of the ratchet lever 24 on the Stop pin 26a is applied and a defined position of the lever 24 ensures. The spring 5 can now move the tube sleeve 7, so that the clamping ring 4 is pressed apart and can fix a winding tube, not shown here, according to the situation of Fig. 1.

Another possibility of a freewheel in one direction of rotation is shown in Figs. 7 and 8 outlined. On a turntable 35, of which only a portion is shown in development, pivotable pawls 36 are provided and the turntable 35 opposite a fixed ring 37. The turntable 35 is analogous to the turntable 13 of FIG. 1, 2 and 4 with a suitable clamping means connected via a power transmission means, with corresponding possibilities have already been shown above.

Upon rotation of the turntable 35 in a first, indicated by an arrow direction, the pawls 36 are supported on the one hand on projections 35a of the turntable 35 and with their free ends on the other hand on steps 37a of the fixed ring 37. In this position, the turntable 35 is kept at a distance from the ring 37 by means of a power transmission means, e.g. the tube sleeve 7 of Fig. 1, 2 and 4, causes a winding tube is released. On the other hand, turning the turntable 35 in the other direction causes the pawls 36 to slide freely over the steps 37a, with the corresponding approach of the turntable 35 to the ring 37 for holding the winding tube. The pawls 36 may be spring loaded to ensure co-operation with the steps 37a under all circumstances. It is also possible to hold the pawls firmly, i. not pivotally mounted to anchor on the turntable, but they form as resilient pawls, so that in this way a cooperation with the steps 37 a is secured. Flattening 317 of each recess 17 a small magnet 417 may be provided which is just so strong that it has a ball 18, provided that it is made of a magnetizable material, such as e.g. Steel, holds, in the area of this recess holds. Such magnets 417 may be cast or glued, for example, in the turntable 13.

The described design of the release device has the consequence that upon rotation of the spool 2, the tube sleeve 7 and the turntable 13 in one direction, which is selected against the winding direction, the balls 18 are supported during rolling on the abutment and the turntable 13th push away from the abutment 15 against the force of the spring 5. As a result, but also sitting on the turntable 13 tube sleeve 7 is pushed away from the receiving end of the spool 2, in the drawing to the left, and the clamping ring 4 receiving annular gap 10 increases, so that the clamping ring 4 is no longer is squeezed and contracts radially inward. This leads to the release of the winding tube 3. which ensures the relaxation of the sleeve in one direction of rotation and a frictional connection in the other direction of rotation.

Upon rotation of the turntable 13 in the other direction, namely the winding direction, however, the balls 18, due to the centrifugal force migrate to the outside and finally reach the lowest point of the recesses 17, as shown in Fig. 3 and in Fig. 3a far left drawn in dashed lines. In this way, a permanent friction and associated with wear and noise in the winding direction is prevented and one arrives at a kind of "freewheel".

After switching off the motor 33, the spool 2 is rotated by means of the motor, possibly also by hand, briefly in the opposite direction, whereby the balls reach again 8 to the other end of the recesses 17. The flattening 317 makes it possible for the balls 18 to remain in place without the action of a torque of the spindle motor 33, which is expediently designed as a torque-controlled electric motor, so that the spring 5 remains compressed and the winding tube 3 is removed or retracted Wrapping can be exchanged for a blank.

Let it still be considered the case that no winding tube sits on the spool 2. As can be seen from FIG. 1, when the winding tube 3 is attached, the disk-shaped gap is already relatively small. However, if the winding tube is removed, then the spring 5 can move the turntable a little further in the direction of the free end of the spool 2, the clamping ring 4 still moves slightly outwards and the turntable is pressed against the abutment 15 and the spool 2 can become no longer move freely. This condition can easily be evaluated by evaluating e.g. the motor current or signals of a rotary encoder can be detected, so that a winding of the spool 2 without patch winding tube 3 can be avoided.

Referring now to Fig. 4, in which like reference numerals are used for like or comparable parts of the preceding figures, it will be seen that in this variant no spool is provided for receiving the winding tube 3, but a driven shaft 19 via a pin slot - Connection 9, 8 as a force transmission means provided hollow shaft 20 carries along rotation, which is thus driven and rotatable and limited in the axial direction displaceable. The winding tube 3 is in this Ausfüh- tion with its two ends between two circular rotatable cones 21, 22 can be clamped, wherein a first cone 21 in the drawing in a manner not shown fixed and rotatably mounted (Fig. 4, right). The second cone 22 is seated at the free end of the hollow shaft 20 and is therefore rotatably driven and displaceable in the direction of the axis a.

In the position shown in Fig. 4, the spring 5 presses the hollow shaft 20 and thus the cone 22 against the one, left in the drawing end of the winding tube 3 and thus this with its other, right in the drawing end against the fixed, but rotatable Cone 21. The loosening of the winding tube 3 is carried out in analogy to the process described above in connection with FIG. 2, wherein the hollow shaft 20 together with its cone 22 by the release device 13, 18, 15 is moved - in the drawing to the left - and the Winding tube 3 is released thereby.

When the holder is rotated against the winding direction, the release device is intended to move the force transmission means against the spring force in order to release the clamping of the winding tube. The above example of a freewheel with balls on inclined treads is just one of many options available to those skilled in the art. It is essential that by briefly rotating the spindle by the drive motor or manually against the winding direction, the coil is released or is clamped by a short turn in the winding direction. Thus, embodiments can be used in which also only a circular arc-like recess, similar to the recess 17 of FIG. 3 and only one ball is used. Likewise, other freewheel constructions are possible in which the compression or release of a spring depending on the direction of rotation, for example by means of an eccentrically mounted lever which engages in a toothing on a turntable, or by means of a pin on a turntable, with an oblique Bump surface cooperates, is effected. Also pawls, which are provided either on a fixed plate or on a turntable, with a toothing on a turntable or on a fixed plate to ensure the desired freewheeling properties. A freewheel without teeth, as it is used for example in bicycles, is also applicable.

In FIGS. 5 and 6, for example, an embodiment is shown which uses at least one eccentrically mounted pawl lever, which cooperates with a toothed ring. Because the Similar construction to those of Figs. 1 and 2 or 3, like reference numerals are used for the same or similar parts for the sake of simplicity.

In this embodiment, a rotary ring 23 is provided instead of the loaded with the spring 5 turntable 13 of FIG. 1 and 2, which has a circumferential toothing 23z. The rotary ring 23 is connected to the tube sleeve 7 and together with this displaceable in the axial direction. The rotary ring 23 cooperates with a pawl lever 24 which is pivotable, e.g. by means of a pin 25, is mounted on a stationary support 26 and has a toothing 24z. The toothing 24z of the pawl lever 24 is arranged eccentrically with respect to the pin 25 and its pivot axis and the pivoting movement of the pawl lever 24 is limited by two stops 24a, 25b, which cooperate with a stop pin 26a of the carrier 26. The eccentric mounting of the lever 24 also ensures that it can come into contact with the teeth 23z of the rotary ring solely by gravity. However, the latch lever could also be spring-loaded and it can be several such latch lever are used.

The working position shown in Fig. 5 corresponds to that of Fig. 2, i. the spring 5 is compressed, since upon rotation of the spool 2 in a first direction (indicated by an arrow) the pawl lever 24 is entrained by cooperation of the teeth 23z, 24z and pushes the rotary ring 23 against the force of the spring 5 until its stop 24b abuts against the stop pin 26a of the carrier 26. With the rotary ring 23, the tube sleeve 7 shifts, the clamping ring 4 is applied to the spool 2 and it can be a winding tube (not shown here) are pushed (see Fig .. 2).

Turns the spool 2, however, in the other direction shown in FIG. 6, it can run freely because the latch lever 24 is rotated so that the two teeth 23z, 24z can slide together, now the other stop 24a of the ratchet lever 24 on the Stop pin 26a is applied and a defined position of the lever 24 ensures. The spring 5 can now move the tube sleeve 7, so that the clamping ring 4 is pressed apart and can fix a winding sleeve, also not shown here according to the situation of FIG. 1. It is understood that two or more with the teeth of the rotary ring cooperating pawls may be provided. Another possibility of a freewheel in one direction of rotation is shown in Figs. 7 and 8 outlined. On a turntable 35, of which only a section is shown in development, pivotable pawls 36 are provided and the turntable 35 is opposite a fixed, annular abutment 37. The turntable 35 is analogous to the turntable 13 of FIG. 1, 2 and 4 connected with a suitable clamping means via a power transmission means, with corresponding possibilities have already been shown above.

Upon rotation of the turntable 35 in a first, indicated by an arrow direction, the pawls 36 are supported on the one hand on projections 35a of the turntable 35 and with their free ends on the other hand on steps 37a of the fixed abutment 37. In this position, the turntable 35 is held at a distance from the ring 37, wherein via a power transmission means, e.g. the tube sleeve 7 of Fig. 1, 2 and 4, causes a winding tube is released. On the other hand, turning the turntable 35 in the other direction causes the pawls 36 to slide freely over the steps 37a, with the corresponding approach of the turntable 35 to the abutment 37 for holding the winding tube. The pawls 36 may be spring loaded to ensure co-operation with the steps 37a under all circumstances. It is also possible to hold the pawls firmly, i. not pivotally mounted to anchor on the turntable, but they form as resilient pawls, so that in this way a cooperation with the steps 37 a is secured.

It should be understood that many variations are available to those skilled in the art within the scope of the claims claimed by the claims. Thus, the spring means may also be designed as magnetic springs or pneumatic springs.

Claims

1. A device for tensioning and releasing a winding tube (3), with a means of a spindle motor (33) rotatable holder (2; 22, 21) for the winding tube (3) and with a clamping means (4) for clamping the winding tube during its rotation in which the tensioning means is connected to a spring means (5) via a force transmission means (7) and the tensioning means (4) clamps the winding tube on the rotatable support due to the spring force acting thereon via the force transmission means (7; 20), characterized in that a tensioning means (4, 4a, 21, 22) for the winding tube is connected to a spring (5) via a force transmission means (7, 20), the tensioning means, due to the spring force acting thereon via the force transmission means, the winding tube (3). clamped on rotation and designed in the winding direction as a freewheel release device (13, 18, 15, 23, 24, 35, 36, 37) is provided, which in turning the holder in the winding direction in an inactive Ste remains and is adapted to, upon rotation of the holder (2; 22, 21) against the winding direction to move the power transmission means against the spring force to cancel the clamping of the winding tube.

2. Apparatus according to claim 1, characterized in that the force transmission means is designed as a tubular sleeve (7) which sits on one of the spindle motor (33) driven spool (2), connected thereto with rotation and with respect to the longitudinally displaceable.

3. Apparatus according to claim 1 or 2, characterized in that the direction of rotation of the spindle motor (33) is reversible, wherein the spindle motor for releasing the winding tube (3) whose holder (2; 22, 21) rotates against the winding direction.

3. Apparatus according to claim 2 or 3, characterized in that the tube sleeve (7) with respect to the spool (2) in the direction of its receiving end by means of the spring means (5) is loaded with spring force.

5. Device according to one of claims 2 to 4, characterized in that in an annular gap (10) which is formed by the free end (11) of the tubular sleeve and an all-round, with respect to the Spuldorns fixed clamping surface (12), as clamping means an elastically deformable clamping ring (4) is arranged, which evades when compressed by the spring force radially outwards and presses against the inner surface of the winding tube (3).

6. Apparatus according to claim 5, characterized in that the free end (11) of the tubular sleeve (7) and with respect to the Spuldorns fixed clamping surface (12) are chamfered.

7. The device according to claim 2, characterized in that the winding tube (3) with its two ends between two circular rotatable cones (21, 22) can be clamped, wherein a first cone (21) stationary, the second cone (22) but in Axial direction is displaceable, and at the free end of a force transmission means provided as a hollow shaft (20) sits, which is driven and rotatable and limited in the axial direction displaceable.

8. Device according to one of claims 1 to 7, characterized in that the release device has a turntable (13) connected to the power transmission means, the turntable, leaving a disc-shaped gap (14) opposite a stationary, plate-shaped abutment (15) is arranged, in the turntable, facing the abutment with respect to the axis of rotation (a) substantially circular arc-shaped recesses (17) for receiving a respective ball (18) are formed, wherein the bottom of each recess (17) in a direction of rotation is so far increasing that upon rotation of the spool (2) and the turntable against the winding direction rolling supported balls on the abutment and push the turntable against the spring force of the abutment, whereby the winding tube (3) is released.

9. Apparatus according to claim 8 and one of claims 2 to 6, characterized in that the turntable (13) is arranged at the end facing away from the coil receiving side end of the tubular sleeve (7).

10. Apparatus according to claim 8 and claim 7, characterized in that the turntable (13) is arranged at the end remote from the coil receiving side end of the shaft (20).

11. The device according to claim 8, characterized in that the recesses (17) extend in the direction of its deepest end portion radially outward.

12. The device according to claim 2, characterized in that the spring means is a helical spring (5), which between a flange (6) of the spool (2) and the turntable (13), the spool (2) is arranged.

13. The apparatus according to claim 8, characterized in that the turntable (13) has a circumferential, the disc-shaped gap (14) on its circumference covering collar (16).

14. Device according to one of claims 1 to 7, characterized in that the release device connected to the power transmission means, displaceable in the longitudinal direction of the winding axis and the spool (2) connected to rotation rotary ring (23) having a toothing (23z) , at least one stationary but pivotally mounted pawl lever (24) is provided which has a with respect to its pivot axis toothing (24z) which is associated with the toothing (23z) of the rotary ring, and upon rotation of the rotary ring in the winding direction, the teeth can slide together , Upon rotation of the rotary ring against the winding direction of the latch lever by interaction of the teeth (23z, 24z) is taken from the rotary ring and pushes it against the force of the spring (5) by itself, whereby the winding tube (3) is released.

15. Device according to one of claims 1 to 7, characterized in that the release device has a connected to the power transmission means rotary plate (35), the turntable leaving a gap opposite a stationary abutment (37) is arranged on the turntable pivotable pawls (35). 36) are arranged, which are supported on projections (35 a) of the turntable and with steps (37 a) of the abutment can cooperate such that upon rotation of the spool (2) and the turntable (35) against the winding direction, the pawls (37 a ) on the projections (35 a) and on the steps (37 a) and push away the turntable against the spring force of the abutment, whereby the winding tube (3) is released, however, when turning the turntable (35) in the winding direction, the pawls freely over the Can slide steps (37a), wherein the corresponding approach of the turntable (35) leads to the abutment (37) for holding the winding tube.

16. Device according to one of claims 2 to 6, characterized in that the tubular sleeve (7) with the spool (2) via a formed in the tubular sleeve longitudinal slot (8) and engaging in this, sitting on the spool pin (9) connected to rotation.