EP0923502B1 - Yarn tensioning device and yarn feeding device - Google Patents

Description

The invention relates to a device according to the preamble of claim 1 and a yarn delivery device according to claim 16.

In a device of this type known from PCT / EP94 / 00476, the device is of small diameter End region of the membrane connected to the brake band in such a way that the ring membrane from the large-diameter edge of the brake band to the outside extends. By the ring membrane with its ring holder against the withdrawal direction of the thread is put under a bending and tensile load from which the axial force load for the brake band results with which the brake band is placed against the fume cupboard. The ring membrane unites the spring function for putting on the brake band and the function of a transmission body, which transmits the axial force load from the ring holder to the brake band. In practice, this arrangement can result from incorrect centering the brake band on the trigger surface along the approximately linear contact zone an uneven between the brake band and the trigger surface Set the braking effect for the thread. Furthermore, the brake band twists in the Passage area of the thread, under the frictional force and the push-off force of the Thread locally against the direction of withdrawal of the thread, which is an even tension level difficult in the pulled thread.

In other devices (US-A 5 409 043, US-A 5 316 051) is used a brake band the axial force load through a hollow body with the shape of a truncated cone to the brake band glued inside the hollow body. The hollow body is from the outside by a spring arrangement or an annular membrane supported, which is elastic in the axial direction of the storage body, in the radial direction however, is relatively rigid. The hollow body, however, is in the axial direction stiff and elastic in the radial direction, so that the flexible brake band despite the can deform axial force locally in the passage area of the thread. This Structure is multi-part. The hollow body is subjected to high loads and tends to tire. The device takes up a relatively large amount of space.

Another device known from DE-U 94 06 102 is on the outside of the brake band a foam ring glued in the large diameter end a rigid, frustoconical hollow body is held. On the hollow body attacks a spring device that generates the axial force load for the brake band. Due to the relatively strong spring arrangement, the soft foam ring badly deformed, which limits the mobility of the flexible brake band is. The brake band lies on the tapered withdrawal surface of the storage body.

The invention has for its object a device of the aforementioned Art as well as creating a thread delivery device, where along the contact zone an even braking effect between the brake band and the trigger surface can be generated and a largely constant tension level in the drawn thread is observable.

The stated object is achieved with the features of patent claim 1.

The device is space-saving and consists of only two parts. Because of the bend the small-diameter end area of the ring membrane becomes the brake band no longer pulled against the fume cupboard, but pushed against it. The brake band centers perfectly during operation thanks to the bend, which means the braking effect remains constant along the contact zone. It is imaginable, that the brake band under the frictional force and the pulling force of the thread Tendency developed to localize the cone tip angle in the passage area of the thread to enlarge, i.e. to twist in the withdrawal direction. This would result in a strong load exerted by the thread on the brake band, such as, for example with a strong acceleration of the thread or with a high take-off speed occurs between the trigger surface and the brake band a crescent Gap opened in which the pulling resistance for the thread decreases. In operating phases in which acceleration or acceleration anyway high take-off speed, the tension in the drawn thread would be increased only a negligible contribution to the voltage increase from the braking device added. On the other hand, with a small one from the thread to the Brake band exerted load on the cone tip angle of the brake band in Passage area of the thread is locally reduced and the braking effect is increased to by this increased braking effect to raise the thread tension, which is low per se. This can keep the thread tension in the drawn thread constant contribute. The device thereby provides a self-compensation effect, i.e. the braking effect is automatically reduced when the thread tension increases, and is increased automatically when the thread tension drops. Given external dimensions The ring holder is inserted through the cross-sectional profile of the ring membrane optimally large radial area of extension of the ring membrane for the deformation used. Since the connection area is on an optimally small diameter, the flexibility or flexibility of the brake band is as little as possible affected by the ring membrane, with the inward bend in Direction to the trigger area the correct self-centering of the brake band on the Deduction area favors.

The perfect centering of the brake band and keeping the tension level constant are pronounced according to claim 2.

According to claim 3, the main power transmission range is from the ring membrane to the brake band within the diameter of the contact zone between the brake band and the trigger surface. This twists the brake band, which is expediently a very thin, flexible metal body, in the passage area of the thread under greater thread loading under local enlargement of the cone apex angle in the withdrawal direction. This helps to keep it constant the thread tension at.

Favorable dynamic behavior results in the embodiment according to claim 4th

The force load is transmitted to the brake band according to claim 5 very evenly. The ring membrane is very flexible in the bend, so that the inherent mobility of the brake band under the load of the thread so little is hindered as possible. On the other hand, the arcuate bend supports the Self-centering of the brake band on the trigger surface.

Technically, it is expedient according to claim 6, at least the two Leave the edges of the brake band free.

According to claim 7, the self-centering of the brake band is improved.

According to claim 8, the flexibility or flexibility of the brake band only minimally disabled.

According to claim 9, the outer bend in the transmission of the Force load on the brake band significantly deformed. The deformation movements and the forces occurring in this area are so far from the brake band removed that the correct functioning of the brake band in its braking function do not interfere.

According to claim 10, so to speak, the two bends through the connecting section decoupled from each other.

According to claim 11, this decoupling by at least one further concentric Corrugation increased.

The bending of the ring membrane can according to claim 12 on the outside and / or attached to the inside of the brake band. Glue or vulcanize lead to very homogeneous and durable connection areas. Becomes the bend attached to the inside of the brake band, then the bend engages around the small diameter edge of the brake band. Possibly the connection is made directly on the small-diameter edge of the brake band.

The according to claim 13 in a range of about 120 °, e.g. between 90 and 140 °, lying cone tip angle of the brake band leads to a sensitive response the device for accelerations or decelerations of the thread. At there is a precise self-centering of the brake band on the trigger surface largely constant tension level in the drawn thread.

According to claim 14 is an approximate between the brake band and the trigger surface line-shaped contact area in which the thread is braked. To the Brake gap leads to a gradually narrowing inlet, which is what the trigger movement (Balloon formation) also moving thread transverse to its direction is cheap. Furthermore, there is a gradually widening outlet area downstream of the Brake gap in which the running thread can move.

Favorable kinematic conditions result in the embodiment according to Claim 15. The connecting section with the outer bend can be a perform an additional desirable function, namely that of a balloon restrictor, by which the thread is prevented from doing so at high take-up speed will stand out too far from the surface of the storage body.

In the yarn delivery device according to claim 16 is thanks to a perfect self-centering of the brake band a largely constant voltage level in the pulled thread reached. The device can be installed in a small space in the thread delivery device accommodate.

Fig. 1

einen Teil eines Längsschnittes eines Fadenliefergeräts mit einer Vorrichtung zum Bremsen eines Fadens,

Fig. 2a-d

Detailvarianten im Schnitt.

Embodiments of the subject matter of the invention are explained with the aid of the drawing. Show it:

Fig. 1

part of a longitudinal section of a thread delivery device with a device for braking a thread,

2a-d

Detailed versions on average.

A thread delivery device equipped with a device B for braking a thread Y. F, preferably a thread delivery device for projectile or rapier weaving machines, has a schematically indicated housing 1 with a drive motor 2 for Rewinder 3 and a stationary storage body S. On the housing 1 is a Housing boom 8 provided. The thread Y is from a supply spool, not shown withdrawn from the left in Fig. 1 in the housing 1 and through the winding member 3 passed, which during the rotary movement of the drive motor 2 Y thread winds tangentially onto the surface 5 of the storage body (Thread supply 4). Devices not shown issue the thread turns a feed movement in Fig. 1 to the right. At the free front end of the storage body S a convexly curved extraction surface 6 is provided, which is concentric with the Axis of the storage body S runs. A thread guide is coaxial to the storage body S 7 provided, through which the deflected over the trigger surface 6 and pulled through the device B and thereby like a clock hand around the trigger surface 6 circumferential thread is withdrawn axially.

A ring holder 11, which supports a support ring 12, is on a pivot pin 9 attached, which is approximately parallel in the boom 8 by means of an adjusting device 10 is adjustable to the axis of the storage body S. The support ring 12 supports a ring membrane R, e.g. Made of elastomeric or rubbery material, starting in cross section is approximately S-shaped. The small-diameter interior of the Ring membrane R is connected to a truncated cone-shaped brake band T, which Expediently consists of thin sheet metal 19 and is very flexible, however is tensile.

The ring membrane has an outer retaining ring flange 13, which with the Support ring 12 is connected, and to which an external bend 14 connects. The bend 14 is curved outward in the form of an arc Connecting section 15 connected to a further opposite bend 17, which is designed in the manner of a 180 ° arc and with an end part 18 by gluing or vulcanizing is connected to the brake band T. In the embodiment shown the inner and outer edges 20, 21 of the brake band T are free. At least one further corrugation W could be formed in the connecting section 15. The brake band T forms a continuous, wear and heat resistant in the circumferential direction Braking surface 22 that extends along a contact zone 23 on the trigger surface 6 lies on. The edges 20 and 21 of the brake band T, which is rectilinear in cross section, are located distance from the fume cupboard 6. The main part of the connection area is located between the bend 17 or the end part 18 and the brake band T. itself within the diameter of the contact area 23.

Function:

Depending on the thread quality processed with the thread delivery device, the axial position of the ring holder 11 set so that a predetermined axial Contact pressure for the brake band T results. As soon as the between the brake band T and the withdrawal surface 6 continuous thread Y is withdrawn, with it additionally rotates in a clockwise manner between the brake band T and the trigger surface 6, the brake band is deformed locally in the passage area of the thread Y. It can form a crescent-shaped opening adjacent to the thread. The end part 18 and the bend 17 impair this inherent mobility of the brake band T not. If the thread is accelerated strongly or at high speed subtracted, then the frictional force exerted by the thread on the brake band T. and the push-off force is relatively high. The brake band T tilts in the passage area of the thread slightly e.g. in the withdrawal direction (enlargement of the cone tip angle α), which reduces the braking effect. At low thread speed or when the thread speed decreases, the forces on the Brake band after that in the passage area of the thread with reduction of the cone tip angle α twists, for example, in the opposite direction to the withdrawal direction. As a result, the braking effect increases again automatically. The braking device adapts itself in this way to the respective requirements, in order to be as possible to maintain a constant tension level in the drawn thread.

According to FIG. 2a, the edge 21 of the braking edge T remains free Connection area between the end part 18 of the bend 17 and the brake band within the diameter of the contact area 23. According to FIG. 2b engages the bend 17 with the end part 18 even around the edge 21 of the brake band T. around. According to FIG. 2c, the transition from the end part 18 into the bend 17 is at Edge 21 of the brake band T. According to FIG. 2D, the end part 18 covers the bend 17 almost the entire outer surface of the brake band T.

Claims (16)

1. Device (B) for braking a yarn (Y), comprising a rotation symmetrical withdrawal surface (69 of a stationary storage body (S) for a yarn supply, from which yarn supply the yarn (Y) is withdrawn in an orbiting motion there around and further through a guide element (7) oriented coaxially relative to the withdrawal surface, a frustoconical and flexible braking band arranged generally coaxially relative to the withdrawal surface and axially biased by force with its circumferentially continuous braking surface (22) against the withdrawal surface (6), and an elastic annular membrane (R) connected at its small diameter end portion in force transmitting fashion with the braking band (T) which annular membrane (R) is supported at its large diameter end portion in an outer ring-shaped holder (11), characterised in that the small diameter end portion of said annular membrane (R) is bent inwardly in a direction towards said withdrawal surface (6), said bent end portion being connected to said braking band (T).
2. Device as in claim 1, characterised in that said annual membrane (R), when viewed in cross-section, extends from the outer side towards said braking band (T) and passes said braking band (T) with distance and extends inwardly essentially to the location of the small diameter edge (21) of the braking band and finally is extending with its bend (17) to the braking band (T).
3. Device as in claim 1, characterised in that the junction between said bend (17) and said braking band (T) is situated at least to a considerable part within the diameter of the contact zone (23) created between said withdrawal surface (6) and said braking band (T).
4. Device as in claim 1, characterised in that the transitional area from the junction into said bend (17) is provided close to or at the small diameter edge (21) of said braking band (T).
5. Device as in claim 1, characterised in that the small diameter end portion of said annular membrane (R) is arc-shaped and is bent inwardly through about 180°.
6. Device as in at least one of claims 1 to 5, characterised in that at least both edges (20, 21) of said braking band (T) are left free outside said junction area with said bend (17).
7. Device as in at least one of the preceding claims, characterised in that said annular membrane has a generally S-shaped cross-sectional configuration.
8. Device as in claim 7, characterised in that the wall thickness of said annular membrane (R) decreases gradually at least in said small diameter end portion being bent inwardly.
9. Device as in at least one of the preceding claims, characterised in that the large diameter end portion of said annular membrane (R), preferably adjacent to a holding ring flange (13), is bent outwardly and opposite to said bend (17) of said small diameter end portion.
10. Device as in the preceding claims, characterised in that an outwardly bent, arc-shaped connecting section (15) is provided in said annular membrane (R) between both bends (17, 14).
11. Device as in claim 10, characterised in that at least one concentric circumferential undulation (W) is provided in said connecting section (15).
12. Device as in claim 1, characterised in that said bend (17) is connected to the outer side and/or inner side of said braking band (T), preferably by gluing or vulcanisation.
13. Device as in claim 1, characterised in that the cone apex angle (α) of said braking band (T) amounts to about 120°.
14. Device as in claim 1, characterised in that said withdrawal surface (6) is convexly curved.
15. Device as in at least one of the preceding claims, characterised in that said connecting section (15) extends about in conformity to said withdrawal surface (6).
16. Yarn feeding device (F) having a device according to at least one of claims 1 to 15 for braking a yarn (Y) which is intermediately stored in turns on said storage body (S) and is withdrawn overhead of said storage body (S) with an orbiting motion between said withdrawal surface (6) and said braking band (T).

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