DE3143054A1 - Device for the winding of textile material - Google Patents

Abstract

A tension-measuring roller (4) which bears against the material and round which the material is looped has an operative connection to the winding-beam drive device (5). The operative connection possesses a correcting device (6) which compensates the differing looping of the material (1) round the tension-measuring roller (4) during the course of the winding operation. The correcting device (6) possesses a setting device (42) for the correction factor. The setting device (42) can, for example, have a holding star (51) pivotable about a centre axis (46), lockable in sensing positions and carrying sensing elements (47 to 50). <IMAGE>

Description

Device for winding up textile goods

The invention relates to a device for winding web-shaped guided textile goods on a winding beam, with a device for regulation the winding tension, the one lying with a manager on the good and from Tension measuring roller wrapped around the material with an operative connection to the lap beam drive device having, wherein the operative connection a different looping of the tension measuring roller correction device compensating for the material in the course of the winding process having. In the device for winding web-shaped textile goods on a winding tree, for example, it can be a beaming machine. the The tension measuring roller is arranged here in front of the winding beam. She will be about a part wrapped around its circumference in the form of a web loop of the winding material. The tension measuring roller is in the web loop with a guide corresponding to the winding tension pressed. A change in position of the tension measuring roller must remain within certain limits, so that the winding tension is maintained and is not lost because the tension measuring roller becomes ineffective because its brackets strike against end stops.

The task of the tension measuring roller is not only to monitor the winding tension It should also continuously measure the winding tension for the purpose of regulation. Every change in position of the tension measuring roller is carried out by the lap beam drive device converted into a change in the winding speed of the winding beam, so that the tension measuring roller constantly remains in a narrowly limited position. But since the wrap around the The good thing about the tension measuring roller during the change in diameter of the winding beam is not remains constant, it is known that the different wrapping around the tension measuring roller Provide compensating correction device.

Because the change in diameter per revolution of the winding beam depends on the winding tension and depends on the type of textile material to be wound, and because the angle of wrap on the tension measuring roller also from the direction of rotation of the winding beam depends, previously had to use the correction device when changing a lot or when a change in the direction of rotation.

The invention is based on the object of a universally applicable Device for winding web-shaped textile goods onto a winding beam to create with the changeover to other parts and to a different direction of rotation of the winding tree is problem-free and there is no need to change or change the correction device requires. This object is achieved according to the invention in that the correction device has an adjustment device for the correction factor. Depending on the type of winding Good things, according to the winding tension and the direction of rotation of the tree, allow the proposed adjustment device setting a linear or non-linear Correction factor that is determined empirically, for example.

In a further embodiment of the invention it is proposed that the Correction device a control unit that can be controlled according to the amount of lap has, consisting of control element, transmission element and correction element, wherein the transmission element is designed as an adjusting device for the correction factor is. The transmission element can be a cam gear, for example or act lever gear, whose transmission factor is adjustable respectively is changeable.

The control element is advantageous as a cam, the correction element designed as a lever controlled by the cam.

The adjustment device for the correction factor has advantageous a position-changeable scanning element arranged at the end of the lever. One chooses now as scanning elements scanning rollers and the existing scanning roller is exchanged for a scanning roller with a smaller or larger diameter changes in the process the position of the lever scanning the cam disk even in the basic position. That means a change in the correction factor determined by the control unit Switching to a different correction factor is made much easier if in Another embodiment of the invention, the setting device for the correction factor a scanning element which can be pivoted about a central axis and locked in scanning positions optionally having different size supporting holding star. One chooses for this purpose, scanning elements, for example scanning rollers, of the same size, it is the arms of different lengths of the holding star, which change the correction factor cause. It is of course also possible to use the holding star with arms the same or of unequal length and to be provided with scanning elements of different sizes. The number of arms of the holding star depends advantageously on the required Number of different correction factors.

In a further embodiment of the invention it is proposed that the Correction device a variable electrical resistance with two resistance changing elements has, wherein an operative connection from the tension measuring roller to the one resistance change element is present, the other resistance changing element is connected to the correction element and the variable electrical resistance is an operative connection to the winding beam drive device is available.

The changeable electrical resistance can, for example, be the shape have one of the well-known potentiometers. Both resistance changing elements or even only one resistance change element can, for example, be designed as a wiper be that slides along a winding made of resistance wire. That However, the second resistance change element can also be used as a resistance itself be designed as a supporting holder or as a housing supporting the resistor, whose position can be changed so that a relative movement between resistance and can be caused by the first resistance changing element. The measure of the the electric resistance set of the correcting device is for example a measure of the change in voltage on an electric motor in the winding beam drive device is included.

The advantages achieved with the invention are in particular: that with a few simple steps a lot change, winding tension change or The direction of rotation can be changed on the winding device without doing this Replacing larger components or complicated calculations to determine new ones Perform correction factors.

An embodiment of the invention is shown in the drawing. The invention is described and explained in more detail using this exemplary embodiment.

The drawing shows the schematic representation of a device for winding textile goods 1 guided in web form onto a winding beam 2. One Device for regulating the winding tension is denoted by 3 as a whole. These Device includes a tension measuring roller 4, from which an operative connection on which will be discussed later, consists of a winding beam drive device 5. In the course of the above-mentioned operative connection, a correction device 6 is arranged, the has the task of compensating for the different wrapping to compensate the tension measuring roller 4 by the material 1 in the course of the winding process.

The machine frame 7 of the winding device carries axes 8 to 14 and shafts 15 and 16 The axle 11 carries a take-off roller 17, and the waxes 10 one on the take-off roller 17 resting press roller 18 for the material to be wound 1, the is fed in the direction of arrow 19. The material first wraps around the press roll 18, then the take-off roller 17, last the tension measuring roller 4 and is then on the Tree 2 wound up, which already has a winding 20. The take-off roller 17 rotates with constant peripheral speed, so that the web-shaped guided textile Good 1 is fed to the lap beam 2 at a constant delivery speed.

The axis 21 of the tension measuring roller 4 is pivotably mounted, and with the aid of a support plate 22 which can be pivoted about the axis 9.

The winding beam 2 rotates around the axis 8. The winding beam drive device 5 has a motor 23 with a sprocket 24, which is driven by an endless chain 25 is connected to a sprocket 26, which in turn connects to the winding tree 2 owns. The winding beam 2 rotates in the direction of the curved arrow 27.

The tension measuring roller 4 lies with a manager on the item 1 caused by a pneumatic loading element 28. The pneumatic one Loading element 28 consists of a piston-cylinder combination that rotates around the axis 14th is pivotable, and the piston rod 29 engages a lever star 30 which on the shaft 15 is attached.

The lever star 30 is with a length-adjustable rod 31 the support plate 22 connected. A taring weight 32 is attached to the lever star with a chain 33 30 hung. The taring weight 32 is used to keep all of the shaft 15 unloaded To balance the attacking forces like a scale.

On the shaft 15, a lever 34 is also attached, which by a length-adjustable rod 5 is connected to a lever 36 on the shaft 16 seated. A lever is also on the shaft 16 with the aid of a clamping screw 37 38 fastened adjustably, which has a driving pin 39.

The parts 30 to 39 together form an operative connection between the tension measuring roller 4 and the correction device 6.

The correction device 6 has a corresponding to the winding volume of the winding beam 2 controllable control unit, which is designated as a whole by 40. The control unit 40 consists of a control element 41 in the form of a cam, a transmission element 42 and a correction element 43.

The control element 41 is through an operative connection 44, for example may consist of a gear connected to the winding beam 2. The control or the cam disk 41 therefore rotates at a rate proportional to the winding beam 2 Rotational speed. The control element 41 has a curved path 45 which is profiled so that that the correction element 43 is increasingly deflected as the bobbin volume of the tree 2 increases will.

The correction element 43 is here as one of the cam disk 41 controlled lever formed, at the end of which the transmission element 42 sits, which is designed here as an adjusting device for the correction factor. For this purpose, the adjustment device 42 has a correction factor pivotable about a central axis 46, lockable in scanning positions, changeable in position Holding stars 51 carrying scanning elements 47 to 50 of different sizes. The scanning elements 47 to 50 are designed here as roles, each of which has a role on the Curved path 45 is applied. By moving the holding star 51 into a different scanning position In each case a different scanning element lays itself against the cam track 45. As the lever 43 is pivotable about the axis 12, he already takes one in the rest position Another position when the holding star 51 is placed in a different scanning position.

The correction device 6 has a changeable electrical Resistor 52, which is arranged in a housing 53 and consists of a ring winding consists of resistance wire.

One end of the resistor 52 is by means of a passage 54 to out and connected to an electrical line 55, which the operative connection between the correction device 6 and the winding beam drive device 5.

The electric resistor 52 has two resistance changing elements. The one resistance change element 56 consists of a wiper, which is around the Axis 57 is pivotable and on the partially blanked annular winding of resistor 52 loops. The grinder 56 is extended by a fork 58, which engages around the driver pin 39 of the lever 38.

The other resistance changing element consists of the lever 43, on which the housing 53 is attached to the resistor 52 is. When panning of the lever 43, the resistor 52 changes its position in relation to the wiper 56. This also changes the resistance value tapped by the wiper 56.

Via the grinder 56 and fork 58 and those described above mechanical transmission parts there is an operative connection from the tension measuring roller 4 to the first resistance changing element 56.

Thus, all changes in position of the tension measuring roller 4 and all changes in position of the lever 43, due to the scanning of the cam 45, on the electrical resistor 52 and thus on the winding beam drive device 5 off.

As long as the scanning element 47 rests on the cam track 45 as it does As the drawing shows, the correction factor determined by this remains the same. Want you now wind up the textile material 1 with greater or lesser tension, so will it is necessary to change the correction factor. That happens here through that Adjustment of the holding star 51 in a different scanning position, whereby the basic setting of the resistor 52 is changed accordingly.

The invention is not limited to the illustrated and described embodiment restricted. Other embodiments are also conceivable within the scope of the claims.

Claims (5)

Claims: 1. Device for winding web-shaped out textile goods on a winding beam, with a device for regulating the winding tension, the one with a manager lying against the good and embraced by the good Having tension measuring roller with an operative connection to the lap beam drive device, the operative connection being the different wrapping around the tension measuring roller correction device compensating for the material in the course of the winding process has, characterized in that the correction device (6) an adjustment device (42) for the correction factor. 2. Apparatus according to claim 1, characterized in that the correction device (6) a control unit that can be controlled according to the amount of lap in the lap beam (2) (40), consisting of control element (41), transmission element (42) and correction element (43), wherein the transmission element (42) as an adjusting device for the correction factor is trained. 3. Apparatus according to claim 2, characterized in that the control element (41) as a cam, the correction element (43) as one of the cam (41) controlled lever is formed and the adjustment device (42) for the Correction factor at least one am The end of the lever (43), has changeable position scanning element (47 to 50). 4. Apparatus according to claim 3, characterized in that the adjusting device (42) for the correction factor a pivotable about a central axis (46) in scanning positions lockable, scanning elements (47 to 50) optionally of different sizes has supporting retaining star (51). 5. Device according to one of claims 2 to 4, characterized in that that the correction device (6) has a variable electrical resistance (52) with two resistance change elements (56,43), with an operative connection from the tension measuring roller (4) to the one resistance changing element (56) is, the other resistance changing element (43) with the transmission element (42) is connected and the variable electrical resistor (52) an operative connection (55) to the winding beam drive device (5) is present.