DE933142C - Straight pulling device for sickle-shaped weft threads - Google Patents

Description

Straightening device for sickle-shaped weft threads The invention relates on straightening devices for sickle-shaped weft threads in the form of a two end shields provided revolving reel, their diameter in their half Length can be changed between a maximum and a minimum during operation can, and relates to a type in which the reel is of a number of curved, is formed in the end shields rotatably mounted rods that are driven by a motor a gear arranged in one end shield can be set in revolutions can.

Devices serving the same purpose are already known. Some of these consist of rods that are bent and filled with rollers, which are covered in their entirety with a rubber tube. Such devices are expensive and subject to great wear and tear. With other straightening devices an opto-electrical device is available which, if crooked Wefts causes the rotation of a curved rod to correct the wefts.

Furthermore, straightening devices are known which consist of a drum exist, the diameter of which can be changed, such that the diameter of the Drum is different in the middle of the same than at the two ends. The drum has two end shields and between them a coat of strips that attach to the End shields are attached by rivets or the like. The change in diameter is caused by conical bodies that are shifted within the drum can. The move the same happens with the help of a with the drum rotating handwheel. Grabbing and twisting this with the drum rotating handwheel during operation is difficult to imagine and on everyone Case more difficult than turning a motor on and off on a device according to the invention. The devices of the known type mentioned could be because of the adjustment by means of the handwheel, especially for a rough, partially Do not enforce wet operation in practice.

Compared to these last-mentioned older devices is a such according to the invention a much simpler and more reliable solution the task. The curved round rods rotatable about their axes can so be dimensioned so that they can withstand high speeds perfectly. That Drive unit, which is arranged laterally outside of the material web, can do a lot can be designed simply and is housed in a completely enclosed housing.

A device according to the invention consists of a reel whose curved rods are rotatably mounted in the end shields and by a common Drive device can be rotated in their bearings at the same time. At one of the two end shields is a gearbox that provides a driving force, which can for example be supplied by an electric motor to the. Journal of the bent rods. This arrangement enables simultaneous rotation of all rods while the reel rotates. The bars can be placed so that the reel has the largest diameter in the middle, and you can. by starting of the gearbox are rotated so that the reel is cylindrical or in the middle of the has the smallest diameter. The goods operating the machine and the goods passing through observing man can as soon as he sees that the weft threads in one way or the other Direction show a sickle-shaped deflection, switch on the motor and the Turn bent rods so that the length of fabric is in the middle or as required runs faster at the edges.

An exemplary embodiment is shown in the drawing.

Fig. I shows a device according to the invention in a central longitudinal section seen in the direction of arrow P1 in Fig. 2; Fig.2 shows the same device seen in a central cross-section in the direction of arrow P from Fig. i; Fig. 3 shows the right end on a larger scale than the previous two figures Fig. i; Fig.4 shows a cross section from Fig.3 in the direction of the arrow P2 seen; Fig. 5 shows a section according to V-V from Fig. 3 in the direction of the arrow P3 seen.

In the side walls 1 and 2 of the machine, which can stand on carriers or some other substructure, two rollers 3 and 4 are mounted, which serve to guide the goods 13. Furthermore, the reel, which consists of two end plates 7 and 9 and of the bent rods 5 and 5 ', is mounted in the side walls 1 and 2. The latter are rotatably mounted with the pins 6 in the end shield 7 and with the pins 8 and 8 'in the box-shaped end shield 9. The end shield 9, which receives the gear, is shown in Fig. I without this. Figs. 3, 4, 5, on a larger scale, show the transmission. The pins 6 and 8 or 8 'are parallel to the axis of rotation of the reel. The latter has a fixed axis io in the end shields 7 and 9, which is rotatably mounted with the pin ii in the side wall i and with the pin 12 in the side wall: 2. The goods 13 are pulled through the machine in the direction of the arrows shown in FIG. 2. It is first guided over the roller 3, then wraps around the reel, laying down on the curved rods 5 and is then guided over the roller 4. It sets the reel in motion. At the. An electric motor 14 is attached to the side wall 2, the direction of rotation of which is the same as that of the reel. The motor drives a sprocket 15 via a freewheel device not visible in the drawing, from which a chain 16 leads to a sprocket 17. The latter forms one piece with a bush 18 rotatable on the bearing journal 12, the other end of which is designed as a worm 19. The socket 18 can, if necessary; be provided inside in a known manner with a lining made of bearing metal. The worm i9 engages in a worm wheel 2o which is seated on an axle 21. A sprocket 22 is attached to the same axle. A chain 23 runs over the chain wheel 22, over a tensioning wheel 24 and over a chain wheel 25 which is fastened on an axle 26. On the same axis, a worm 27 is fastened, which engages in the worm wheel 28 fastened on the bearing journal 8 'of a curved rod 5. Only the bearing pin 8 'of the one bent. Rod 5 is so long that it can accommodate worm wheel 28 and is mounted in both end walls of box-shaped end shield 9. The bearing journals 8 of the other curved rods 5 are shorter and only supported in one end wall of the box-shaped end shield 9. Chain wheels 29, over which a chain 3o runs, are attached to all bearing journals 8 and 8 '. This chain runs over a tensioning wheel 31 which is mounted eccentrically at 32. A worm wheel 33 is attached to the axis 32. A bolt, which can be clamped by a nut and whose free end 34 is designed as a worm, engages with this in the worm wheel 33, which is fastened on the axis 32. After loosening the nut, the worm 34 can be rotated and thereby the tensioning wheel 3 i can be adjusted.

In the illustration in Fig. I, the position of all bent rods 5 is such that the reel has the largest diameter in the middle. If the motor 14 is running, all of the rods 5 connected to one another by the chain 30 are rotated about their bearing journals via the transmission described. This reduces the diameter of the reel in its center until the curved rods have assumed the position 5 'indicated by dotted lines in Fig. I, in which the reel has the smallest diameter in its center. As soon as the diameter of the reel is changed to the desired position of the rods, the operator switches off the motor 14: if he starts it again, all bent rods are rotated again and, if necessary, the reel diameter in the middle is increased again.

Claims (1)

Claim: straightening device for sickle-shaped weft threads in the form of a revolving reel provided with two end shields, the diameter of which can be changed in half its length between a maximum and a minimum during operation, characterized in that the reel has a number of curved ends in the end shields (7 , 9) rotatably mounted rods (5 or 5 ') is formed, which are set in rotation by a motor (14) via a gear (15 to 30) arranged in one end shield (9). Cited publications: German patents No. 846 o86, 525 491.