SE531554C2 - Braking mechanism for retractor - Google Patents

Description

Another disadvantage of many conventional spring-loaded blinds is that the spring has a tendency to rattle against the tube of the blind when unrolling and unrolling the blind.

Another feature that in some cases may be desirable is if the blind can be easily adjusted to be rolled up to a certain level, for example as a curtain coat.

US 6 135 189 and US 6 003 584 describe a roller blind device which uses a threaded metal bar with variable thread pitch and a spring fastener with internal threads which move laterally along the threaded bar in connection with the roller blind rolling up or down. A tension spring (alternatively a compression spring) is attached to the spring retainer and the spring will be pulled out (alternatively compressed) when the blind is pulled down and the spring force is then used to roll up the blind. The spring force is balanced by the spring fastener moving after a screw with variable thread pitch.

BRIEF DESCRIPTION OF THE INVENTION It is an endpoint of the present invention to eliminate or at least minimize the above-mentioned problems, which are achieved with a roller blind comprising a tube on which a roller blind can be attached, the roller blind is arranged to be attached to two outer roller fasteners, a spring-controlled drive mechanism which is tensioned when the roller blind is rolled down in order to be able to roll back the roller blind, the roller blind further comprises a rod arranged in the tube to connect to at least one of the outer fixed shaft, and the tube is further arranged to rotate about the inner rod, and further one inside the tube laterally for a removable brake nut enclosing the inner rod and arranged to rotate with the tube, said brake nut when the tube rotates is arranged to move laterally along the inner rod where the direction of lateral displacement depends on the direction of rotation of the tube. work e required to move the brake nut laterally. This aspect of the invention thus solves the problem of braking a spring-loaded blind.

According to further aspects of the present invention: - That the tube has a longitudinal guide and that the brake nut has an outer guide groove adapted for said guide wherein the brake nut is arranged to rotate with the tube.

- That the brake nut has at least one contact surface against the inner walls of the pipe, whereby friction arises in said at least one contact surface when the brake nut moves laterally, whereby the braking effect arises between the well nut and the inner walls of the pipe. 10 15 20 25 30 531 554 That the brake nut is arranged to be able to move between two end positions, a first end position when the blind is rolled down and a second end position when the blind is rolled up, where the area between the two end positions constitutes a brake area, which has the advantage that it The spring-loaded drive mechanism can be pre-tensioned already in the manufacture of the blind and further has the advantage that the blind can be easily adjusted so that a curtain is obtained - by rolling out the blind to the desired length before inserting it into the fasteners when the brake nut is in its second end position.

That the inner rod has knife threads at least in the brake area and that the brake nut has at least one inner thread adapted for the screw threads, which means that the bridge nut will move laterally when the tube rotates around the inner rod.

That at least one of the end positions is created by ceasing the screw threads on the inner rod.

That the screw threads on the inner rod have a variable thread pitch, where preferably the thread pitch increases gradually from one end position to the other end position, which has the advantage that the brake nut will move longer per rotational turn of the pipe, when the thread pitch is higher, and vice versa , whereby the braking action against the inner walls of the pipe can be controlled via the variable thread pitch.

That the brake nut has an inner resilient mechanism, where the resilient mechanism exerts a spring pressure against the inner rod.

That brommuttems at least one thread is resilient.

The fact that the brake nut has at least one thread is flexibly rotatable to be able to adapt to a variable angle of attack of the thread groove, which has the advantage that the brake nut adapts to a varying thread pitch and thus does not fall stuck when the thread pitch changes.

That the brake nut is divided into two halves, which has the advantage that the brake nut can expand when it moves and press out against the inner walls of the pipe and act as a drum brake.

That the two halves of the brake nut are loosely joined together, enabling the brake nut to widen and at the same time retaining the brake nut around the inner rod.

That the inner rod can be slightly conically shaped at least in the braking area, where an increased conicity in the braking area results in an increased braking effect.

That the drive mechanism comprises a torsion spring where said torsion spring is connected at its one end to the inner rod at one end of the tube and the other end of the spring spring is fixed to a movable spring bracket arranged to rotate with the tube, which has the advantage that turn the spring clamp as the tube rotates around the inner rod.

- That the movable capercaillie bracket is not fixed laterally other than through the rotary spring, which has the advantage that the loads on the rotary spring are reduced so that the rotary spring rattles less when the roller blind is rolled up and down.

- That the brake nut is arranged at the first end position when the torsion spring is most tense and that the torsion spring is preloaded with a dry number of turns when the brake nut is at the second end position.

According to further aspects of the invention, an outer fastening device for the blind with an over-rotation protection, the over-rotation protection consists of a lower projecting part of the outer fastening device with a longitudinal extension in relation to a tube arranged in the outer fastening device, the longitudinal extension parallel to the tube below the center line of the tube, which has the advantage that the blind is prevented from rotating over.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows an exploded view of a preferred embodiment of the present invention, where Fig. 2A shows a view of the halves of the brake nut seen from the inside, where Fig. 2B shows the brake nut seen from the side, where Fig. 2C shows a three-dimensional view of the halves of the brake nut, where Fig. 2D shows the brake nut enclosing the inner rod, where half of the brake nut half has been cut away to clarify how the resilient parts and the threaded part are arranged, where Fig. 3A shows a simplified cross section of the roller blind and an external fastening device. is in the rolled-up position, where Fig. 3B shows a simplified cross-section over the roller blind and an outer fastening device, where the roller blind is in the rolled-down position.

Fig. 4A shows a schematic cross-section of the screw threads of the inner rod.

Fig. 4B shows a schematic view of the screw threads of the inner rod.

DETAILED DESCRIPTION Figure 1 shows an exploded view of a preferred embodiment of a blind according to the present invention. The roller blind comprises an elongate tube 1 on the outside of which a roller blind 24 (see figure Ba, 3b) can be attached. The tube has a first 14 and a second end (not shown in the figure) and an inner longitudinal guide 10 extends from the first end 14 to the second end 15. Preferably, the guide 10 has a rectangular cross-section. - nitt. An inner rod 2 is arranged inside the tube 1 and the tube 1 is arranged to be able to rotate around the inner rod 2. The first end 5 of the inner rod opens at the first end 14 of the tube intended to connect to a first outer fastening device 16 (see Figure 3a, Bb ), preferably in that the first end 5 of the inner rod has two rectangular projecting parts adapted for corresponding rectangular holes in the first outer fastening device 1 6.

The other end of the tube (not shown in the clock) can be inserted into a second outer fastening device 17 (see Figure 5b, 3b). The attachment at the other end of the tube is of conventional section and is not the focus of the invention, but the tube 1 is arranged to be able to rotate in relation to the second outer fastening device 17. Ie. when the blind is set up between the outer fastening devices, the tube can rotate relative to the outer fastening devices 16, 17 while the inner rod 2 is kept fixed.

A central locking mechanism 7, 8, 9 encloses the inner rod 2 at the first end of the tube 14. The centrifugal locking mechanism 7, 8, 9 is preferably of conventional section and comprises an inner locking part 7, two metal balls 8 and an outer locking part 9. The inner locking part 7 is arranged to rotate with the inner rod 2, the outer locking part 9 is arranged to rotate with the tube 1 and the metal balls 8 interact with the inner locking part 7 and the outer locking part 9 to achieve the centrifugal locking functionality. A fixed capercaillie bracket 11 encloses the inner rod 2 in connection with the first end 5 of the inner rod and the centrifugal locking mechanism 7, 8, 9. The fixed capercaillie bracket 11 is fixed to the inner rod 2. A torsion spring 12 is attached at one end to the fixed spring bracket 11 and thus to the inner rod 2. The rotating spring 12 encloses the inner rod 2 and the other end of the rotating spring 12 is fixed in a movable spring bracket 13. The movable spring bracket 13 encloses the inner rod 2 and is free to rotate around it and is also allowed to move laterally (when the spring is tensioned, it will lengthen slightly laterally and vice versa). Furthermore, the movable capercaillie fastener 13 is arranged to rotate with the tube 1 of the roller blind, which is preferably provided with an outer groove of the movable spring bracket 13 which interacts with the guide 10 of the tube 1. When the tube 1 rotates by the roller blind cloth (see Figure Ba, 3b) is pulled down, while the inner rod 2 is fixed to the first outer test device 16 (not shown in the figure), the swivel spring 12 will be tightened as the movable spring bracket 13 rotates with the tube 1 while the fixed spring bracket 1 1 is fixed to the non-rotating inner rod 2. Turn the spring 12 is preferably lubricated with Lubricant. 10 15 20 25 30 35 531 554 The inner rod 2 is further provided with a brake area 3 along which a brake nut 4 acts. The brake area 2 is limited by two end positions 19, 20, a first end position 19 and a second end position 20. The brake area 3 is provided with screw threads 6 and the brake nut 4 is provided with corresponding internal threads. The end positions 19, 20 of the braking area are preferably created by the cessation of the threaded threads 6 on the inner rod 2.

The brake nut 4 is provided with an outer insert 4i (see Figure 2B) adapted for the guide 10 of the tube 1, the interaction between the guide 10 and the outer insert 4i of the brake nut resulting in the well nut 4 rotating with the tube 1 as the tube 1 rotates.

When the tube 1 rotates around the inner rod 2, the internal threads of the brake nut 4 interact with the screw threads 6 of the brake area so that the brake nut 4 moves between the end positions 19, 20 of the brake area. the current direction of rotation and the curtain cloth can consequently not be rolled up or down more depending on which of the two end positions 19, 20 the brake nut 4 is located at. The work required to move the brake nut 4 slows the rotation of the pipe. When the bronze nut 4 moves along the brake area 3, the friction between the brake nut 4 and the inner rod 2 and between the brake nut 4 and the inner walls of the tube 1 will slow down the rotation. Since you normally want a smooth braking effect, it is advantageous if the work required to move the brake 4 varies depending on the degree of winding of the blind, since the capercaillie force of the rotating spring 12 varies. When the swivel 12 edem 12 is most tense (ie when the roller blind is rolled down), the capercaillie force is greatest and therefore you want a greater braking effect when the roller blind is rolled down and gradually reduce it at the same time as it is rolled up. To increase the friction between the brake nut 4 and the inner wall of the pipe 1, the brake nut row 4 is divided into two halves 4a, 4b to enable the brake nut 4 to expand when that brake nut 4 acts. In the preferred embodiment, for practical reasons, the brake nut halves 4a, 4b are partially joined together so that the nut nut 4 and its parts do not fall apart if the inner rod 2 with the brake nut 4 is moved out of the tube 1. However, the joint still allows the brake nut 4 to widen itself and the joining area acts as a hinge where the brake nut 4 can open in the same way as a clam. The brake nut 4 is further provided with resilient parts 4c and a threaded part 4d. The resilient parts 4c press the threaded part 4d against the inner rod 2 with the screw threads 6 and thus also the halves 4a, 4b of the brake nut are pressed apart - against the inner wall of the tube 1. Furthermore, when the rotation is high, the threaded part 4d tries to climb on the walking walls of the screw threads 6 and since the brake nut 4 can expand, the brake nut halves 4a, 4b will be pressed outwards against the inner wall of the tube 1 to an increasing extent. This leads to an increase in the friction against the inner wall of the tube 1 and the braking effect is thus greater (ie the brake nut 4 acts as a drum brake). 10 15 20 25 30 35 531 554 To further control the braking action, the thread pitch of the blade threads 6 in the brake area 3 is varied. Figures 4A and 4B show schematically how the thread pitch s1, s figure l. In this text the thread rise S1, sz, is defined. ., sn as the distance between the centers of two adjacent gangway tracks. In the preferred embodiment of the invention, the thread pitch s 1 at the first end position 19 is lower to gradually increase to the thread pitch sn at the second end position 20, i.e. sl <sn. In a cross section, the thread grooves have a U-shape where the thread walls slope obliquely outwards, ie. where the upper width t1 of the thread groove is larger than the lower width t1. The width of the threaded groove t1, t2 is the same upper whole braking area 3. If you look at the angle of attack of the threaded groove a1, 012 ,. . ., un + 1, it will change from the first end position 19 to the second end position 20 as the thread pitch s1, 52 ,. . ., s ,, changes. Ie. angles of attack a; at the first end position will gradually increase to the angle of attack dm at the second end position 20, i.e. (11 <am. For a given number of revolutions as the tube rotates, the brake nut 4 moves a shorter distance horizontally along the brake area 3 when the thread pitch is lower compared to when the thread pitch is higher. A large part of the braking work arises from the force halves 4a, 4b press against the inner wall of the tube 1 combined with the distance on which the force acts (ie the distance on which the brake nut moves along the inner walls of the tube 1) and with the variable thread pitch this distance can be varied. in the rolled-down position and to be rolled up, the spring force of the torsion spring 12 is greatest and the halves 4a, 4b of the brake nut will be pressed out as much as possible against the inner wall of the tube 1. In the preferred embodiment the thread pitch increases, successively from the first end position 19 to the second end position 20.

The brake nut 4, when the roller blind is in the rolled-down position, is located at the first end position 19 and fl moves as the roller blind is rolled up towards the second end position 20. Ie. in the preferred embodiment, the variable thread pitch is adapted to dampen the braking action when the roller blind is rolled down to gradually increase the braking action as the roller blind is rolled up, at the same time the spring force is greatest - and thus the drum braking action from the brake nut 4 due to thread climbing the blind is rolled down to gradually reduce. Ie. the variable thread pitch is used to fine-tune the braking action so that a smooth winding is obtained.

We will now describe the brake nut 4 with reference to Figures 2A, 2B, 2C and 2D. Figure 2A shows the two halves 4a, 4b of the well nut seen with the insides upwards.

Figure 2B shows the brake nut halves 4a, 4b joined from the side, but without the inner rod 2 (see figure 1 or fi gur 2D). Figure 2C shows a three-dimensional view of the bridge nut halves 4a, 4b. Figure 2D shows the brake nut 4 enclosing the inner rod 2, where half the brake nut half 4a has been cut away to clarify how the resilient 104 parts and the threaded part 4d are arranged. The brake nut 4 consists of two brake halves 4a, 4b. Preferably, the brake nut halves 4a, 4b are molded in plastic. The brake nut halves 4a, 4b each have longitudinal and corresponding recesses 4f adapted for the inner rod 2 with the screw threads 6 so that the brake nut halves 4a, 4b can enclose the inner rod 2. In the first half 4a of the brake nut a diagonal space 4e is arranged as a 4a arch and in the second brake orifice half 4b a transverse space 4k is arranged. In the diagonal space 4e, first the resilient parts 4c and then the threaded part 4d are placed, which interact with the screw threads 6 of the inner rod 2 in accordance with Figure 2D and where the resilient parts 4c press the threaded part 4d against the threaded groove. The transverse space 4k acts as a collecting vessel for dirt and reduces the risk of dirt adversely affecting the interaction between the threaded part 4d and the screw threads 6. Seen from the inside of the brake nut 4 (see Figure 2A), the diagonal space 4e has an hourglass shape. The hourglass shape allows the threaded part 4d to adapt, in that the threaded part 4d can rotate laterally around its center point, according to the angle of attack of the threaded groove. .., a ,, (see figure 4B) which changes over brake area 3. Without this possibility, for the thread of the brake nut, to be able to adapt to the angle of attack az of the thread groove,. ., a ,, the brake nut 4 would get stuck. The resilient parts 4c can for instance consist of one or more leaf springs where the suspension can be adjusted with the number of leaf springs, with the material on the leaf springs (the leaf springs can for instance consist of plastic or metal) and the thickness of the leaf springs. The first brake nut half 4a is provided with four projecting rods 4g, 4h one in each corner, and the second brake nut half 4b has corresponding holes 4j for the rods 4g, 4h.

The rods on one side of the recess 4f are shorter, the short rods 4g, than the two opposite rods on the other side of the recess 4f, the longer rods 4h. The brake nut halves 4a, 4b can be joined when enclosing the inner rod 2, by compressing the top of the rods 4g, 4h under heat so that they can no longer be carried out through the holes 4j in which they are inserted. In the shorter rods 4g the clearance will be smaller than with the longer rods 4h and the side with the shorter rods will function as a passage The brake nut is thus allowed to flex (ie the brake nut 4 can expand and function as a drum brake). The advantage of attaching the brake nut 4 with a smaller clearance on one side of the brake nut halves 4a, 4b along that inner rod is above all that to ensure that the brake nut 4 is held in place around the inner rod 2 even when the brake nut 4 and the inner rod 2 are not installed inside the tube 1, which simplifies the method of assembling the blind and that if someone disassembles the blind, the brake nut 4 is kept in place, at the same time as the brake nut 4 obtains a flexibility to be able to expand. Once the brake nut 4 is installed in the tube, the inner walls of the tube 1 prevent the brake nut from falling apart and once in the tube 1, it would therefore be fully sufficient if the rods 4g, 4h were inserted into the corresponding holes 4j without having to squeeze the top of any rods 4h, 4g. In the preferred embodiment, the screw threads 6 are lubricated so that the friction between the brake nut 4 and the screw threads 6 is kept down.

Figures 3A and 3B show a schematic cross-section of the blind and the outer fastening device 16, 17. The inner parts of the blind are not shown. The cross-sections of the first and the second outer fastening device 16, 17 are the same in the preferred embodiment, but of course the fastening devices can be made with different cross-sections, for example where only one fastening device 16, 17 has an over-rotation protection 16c, 17c. Furthermore, it is conceivable that the blind is inserted into a cassette. In general, the main function of the blind according to the present invention is not dependent on the outer fasteners, however, the outer fasteners have the advantage that they prevent blinds from over-rotation and the over-rotation protection also works on a spring-loaded blind of conventional cut. Figure 3B shows the roller blind when the roller blind fabric 24 is fully rolled down and Figure 3A when the roller blind is rolled up. The fastening device 16, 17 has two surfaces 16a, 16b parallel to the blind; l7a, l7b with a mutual angle of 90 degrees. Both of these surfaces 16a, lobe; 17a, 17b are met by a transverse surface 16d, 17d (not shown in the clock) in which transverse surface the ends of the blind are arranged. All these three surfaces 16a, 16b, 16d; 17a, 17b, 17d are provided with holes intended for screws so that the fastening devices 16, 17 can be fixed in walls (parallel to the blind or transverse - for example in corners) and in the ceiling. One of the surfaces 16b, 17b has a concave with the tube longitudinal bulge, over-rotation protection 16c, 17c. The figures show a string 27 which at its lower end has a knob 28 and which at its upper end is attached to the curtain cloth 24, by grasping the string with the knob a user of the blind can pull down the curtain cloth 24. The curtain cloth 24 has at its lower end an elevated thickness 25, which is achieved, for example, by folding the fabric 24 at its lower end and sewing it into the fabric thereby creating a longitudinal pocket into which a stick can be inserted. Such a construction creates an elevated thickness 25 at the lower end of the fabric 24, this stabilizes the fabric 24 in the horizontal direction and acts as a weight for the fabric 24, which makes it easier for the fabric 24 to hang straight. An increased thickness of the lower part of the fabric 24 is commonly found in conventional blinds. Furthermore, the figure shows the tube 1, to which the cloth 24 is attached. The guide 10 is seen in the figure, but the inner parts of the blind have been omitted to simplify the figure. When the curtain cloth 24 is rolled up and the tube 1 stops (ie when the brake nut 4 reaches the second end position 20) and if the tube 1 has a rotational speed which is too high before the stop, the lower part of the curtain cloth 24 may want to continue its rotation due to the centripetal force. thus risking rotating over. The lower part of the fabric 24 with the increased thickness 25 will then interact with the rounded over-rotation guards 16c, 17c of the outer fasteners 16, 17, resulting in the fabric 24 being prevented from continuing its rotation. thus preventing over-rotation. The rounded over-rotation guards 16c, 17c have a concave bulge longitudinally with the tube 1 arranged at a distance from the blind so that a small gap space arises (but not so large that the lower part of the cloth 24 with the dry-raised thickness 25 can pass) between the whole wound-up fabric 24 and the over-rotation protection lock, 17c, the gap space prevents the fabric 24 from wedging. Furthermore, the over-rotation protection is preferably located below the center line of the tube 1.

The invention is not limited to the above-mentioned exemplary embodiment but can be varied within the scope defined by the claims. For example, it will be appreciated that although the braking action in the preferred embodiment largely arises from the friction between the brake nut 4 and the inner walls of the tube 1, of course the friction between the brake nut 4 and the inner rod 2 can also be used to a greater extent. For example with a non-expanding brake nut 4 where instead the diameter of the inner rod 2 changes over the brake area 3, preferably by giving the inner rod 2 a conical shape.

Of course, a varied diameter of the inner rod 2 can also be used when a split brake nut 4 is used, whereby the brake nut 4 will press more against the inner wall of the tube 1 the larger the diameter of the inner rod 2.

The brake nut 4, the inner rod 2, the spring fasteners 1 1, 13, the inner and outer locking parts 7, 9 and the outer test devices 16, 17 are preferably molded in plastic but can of course be formed from other materials. For example, the leaf spring 4c may consist of a metallic material and the inner rod 2 could be turned, milled or cast in a metallic material.

The two variable air gaps between the brake nut 4 and the movable spring bracket 13 and between the brake nut 4 and the other end of the pipe 1 could also be used individually or together for braking purposes by sealing these respective parts - for example when the brake nut 4 moves towards the other end of the pipe the air is forced out as the volume between the brake nut 4 and the other end of the pipe decreases and if this air outflow is made more difficult, the braking effect increases.

Furthermore, the invention is of course not limited to the use of a brake nut 4, but it is conceivable to have separate brake nuts running parallel along the inner rod 2. Furthermore, it will be appreciated that instead of being fixed to a movable capercaillie bracket 13 at the other end of the torsion spring 12, could be attached to the inner rod 2 and then with a rotatable capercaillie bracket at the first end 5 of the inner rod. can fl exa laterally in the same way as with the movable capercaillie bracket 12.

Furthermore, it is understood that one or both end positions 19, 20 on the brake area 3 can be created in other ways than that the screw threads 6 cease. For example, stop block can be inserted.

It will also be appreciated that the invention is not limited to blinds but could also be used for other purposes where a rotating tube needs to be braked, such as blinds and projector screens.

It will be appreciated, of course, that the roller blind would be braked even if the thread pitch was constant instead of gradually increasing and those skilled in the art will recognize that the thread pitch may be varied to adjust for the properties of the torsion spring. Furthermore, it is understood that the threads on the inner rod can be either right-handed or left-handed and that this does not affect the principle of the invention.

It is further understood that the inner rod 2 and the thread function of the brake nut 4 together with the inner rod 2 could be used in a construction similar to those in US 6 135 189 and US 6 003 58 and thereby improve these constructions. Ie. by replacing the torsion spring 12 in the present invention with a tension / pressure cap and surface the movable spring fixture 13 to the threaded area 3 of the inner rod 2, the movable spring cap 13 is then suitably provided with an internal thread so that it can pull out or compress the capercaillie when that capercaillie moves along the threaded area 3. The brake nut 4 could in this case be removed, or remain and then run parallel to the capercaillie bracket 13. Alternatively, the brake nut 4 and the movable spring test 13 could be beaten together, by removing the capercaillie attachment 13 and pulling / pressing] the spring instead of attaching it to the brake nut 4.

Claims (1)

1. 531 554 12 PATENT REQUIREMENTS 1. 5 10 15 2. 20 3. 25 4. 30 5. 6. 35 Winding device comprising a tube (1) on which a cloth (24) can be attached, the winding device is arranged to be able to be fastened in two outer fixed devices (16, 17), the winding device further comprises a spring-controlled drive mechanism (1 1, 12, 13) which is tensioned when the screen (24) of the winding device is rolled down in order to be able to roll up the screen (24) again, the winding device further comprises one in the tube (1 ) inner rod (2) arranged to be able to connect to at least one of the outer mounting devices (16, 17) and the tube (1) is further arranged to be able to rotate around the inner rod (2) characterized by a laterally dry surface inside the tube (1) brake nut (4) enclosing the inner rod (2) and arranged to rotate with the tube (1), that said brake nut (4) when the tube (1) rotates is arranged to move laterally along the inner rod (2) where the direction on the lateral driver fl the surface area depends on the direction of rotation of the pipe (1), whereby the brake The effect arises from the work required to move the brake nut (4) laterally. Winding device according to claim 1, characterized in that the tube (1) has a longitudinal guide (10) and that the brake nut (4) has an outer guide groove (4i) adapted for said guide (10). Winding device according to one of the preceding claims, characterized in that the brake nut (4) has at least one contact surface against the inner walls of the pipe (1), friction occurring in said at least one contact surface when the brake nut (4) moves laterally. Winding device according to one of the preceding claims, characterized by the brake nut (4) is arranged to be able to move between two end positions, a first end position (19) and a second end position (20), the area between the two end positions (19, 20) constituting a brake area. (3). Rewinding device according to claim 4, characterized in that the inner rod (2) has screw threads (6) at least in the brake area (3) and that the brake nut (4) has at least one internal thread (4d) adapted for the screw threads (6). Winding device according to one of Claims 4 to 5, characterized in that at least one of the end positions (19, 20) is created by terminating the screw threads (6) on the inner rod (2). Winding device according to one of Claims 5 and 6, characterized in that the screw threads (6) on the inner rod (2) have a variable thread pitch (_s1, s2 ,. .., s ,,), where preferably the thread pitch (s1, s2, ..., s ,,) gradually increases from the first end position (19) to the second end position (20). Winding device according to one of the preceding claims, characterized in that the brake nut (4) has an inner resilient mechanism (4c), the resilient mechanism (4c) exerting a spring pressure against the inner rod (2). Winding device according to one of Claims 5 to 8, characterized in that the at least one thread (4d) of the bromine nut (4) is resilient (40). Winding device according to one of Claims 5 to 8, characterized in that the brother nut (4) of at least one thread (4d) is flexibly rotatable to be able to adapt to a variable angle of attack (ou, (12, ann) of the thread groove. characterized in that the brake nut (4) is divided into two halves (4a, 4b). The winding device according to any one of claims 4 to 12 is characterized in that the inner rod (2) is slightly conically shaped at least in the brake area (3), where an increased conicity in the brake area (3) The winding device according to any one of the preceding claims is characterized in that the drive mechanism (11, 12, 13) comprises a torsion spring (12) where the rear end is rotated. springs (12) at one end are connected to the inner rod (2, 11) at one end of the tube (14) and the other end of the torsion spring (12) is attached to a movable spring bracket (13) arranged to rotate with the tube (1) . . Winding device according to Claim 14, characterized in that the movable spring fastener (13) is not fixed laterally other than by a rotating spring (12). Winding device according to one of Claims 14 to 15, characterized in that the brake nut (4) is arranged at the first end position (19) when the rotating spring (12) is most tense. Winding device according to one of Claims 14 to 16, characterized in that the torsion spring (12) is dry-tight with a dry-determined number of turns when the brake nut settles at the second end position (20). Outer fastening device for winding device according to one of the preceding claims, characterized in that an over-rotation protection (16c, 17c), the over-rotation protection (16c, 17c) consists of a lower projecting part (160, 17c) on the outer fastening device (16, 17). longitudinal extension in relation to a pipe (1) arranged in the outer fixed device (16, 17), the longitudinal parallel parallel to the pipe (1) below the center line of the pipe (1).