EP1083252A2 - Weft preparation device for air jet looms - Google Patents

Abstract

The invention relates to a prewinding device for air jet weaving machines, with a drum store, the drum of which consists of a plurality of drum segments which can be adjusted in the radial direction, on which the weft thread is wound up and pulled off again. Particularly in the case of yarns with a high dimensional resistance, which form only a very small thread balloon, there is the problem that the thread gets into the empty spaces between the drum segments when it is drawn off and collides with the rounded corner region of the drum segments. This causes energy losses in the thread and disruptions in weft insertion and thread transport. In order to prevent the weft thread (2) from penetrating into the spaces (8) between the drum segments (7), the invention provides for a protective disk (10) to be arranged fixedly or rotatingly in the region of the trigger-side end face of the drum (6) the circumferential edge of the weft thread (2) is pulled off. <IMAGE>

Description

The invention relates to a prewinder for air jet looms, with a weft storage drum, which consist of several drum segments adjustable in the radial direction exists on which a weft thread by means of a drive shaft Thread guide is wound up and by means of the weft thread in a shed register, is subtracted again,

Spooling devices, also referred to as weft storage devices, for air jet weaving machines fulfill the task of continuously withdrawing the weft thread from the supply bobbin and preparing a specific, adjustable yarn length for each weft insertion of the weft thread into the shed. In practice, pre-winding devices with a so-called drum store are used, see for example DE 35 34 599 A1, in which the weft thread is cut to length, and wound up on a drum and temporarily stored. The weft insertion length results from the circumference of the drum multiplied by the number of turns specified for each insertion process.
Another possibility of adjusting the weft insertion length results from the fact that the drum consists of several drum segments distributed around the circumference, the diameter of the drum being changed by a radial displacement of the drum segments, and the weft insertion length consisting of several turns can thus be adjusted. Between the drum segments there are more or less large gaps distributed over the circumference of the drum.

By pulling the weft thread from the drum when inserting the weft, a so-called thread balloon is formed between the trigger area on the drum and a trigger eye arranged downstream. The trigger eyelet can be arranged in a so-called balloon crusher, which limits the balloon formation, attached to a separate holder or connected directly to the weft insertion nozzle.
The shape of the thread balloon depends on various parameters. In the case of smooth filament yarns, a larger thread balloon is created, the limitation of which by the balloon breaker is advantageous for the weft insertion. Voluminous yarns or yarns with a ribbon-like cross-section have a higher dimensional resistance in the air and in the direction of rotation, which results in a smaller thread balloon. As a result, the thread enters the empty spaces between the drum segments when it is drawn off and collides with the rounded corner region of the drum segments. This causes energy losses in the thread and disturbances during the weft insertion and during the thread transport over the weft thread insertion length, whereby the time window in which the thread arrives at the arrival side of the weaving machine is considerably enlarged. In order to ensure trouble-free operation of the weaving machine, higher energy must be supplied to the thread and / or the speed of the weaving machine must be reduced. Both measures affect the efficiency of the weaving machine.

The object of the invention is to provide a prewinder of the type mentioned specify in which a trouble-free withdrawal of the weft thread, in particular one Weft thread with high form resistance is achieved, so that the above adverse effects on the web operations are eliminated.

The object is achieved by the characterizing features of Claim 1 solved.

The essence of the invention is the penetration of the weft into the spaces to prevent between the drum segments in the area of the trigger side A rotationally symmetrical protective disk is arranged over the front of the drum Peripheral edge of the weft is pulled off.

The diameter of the disk preferably corresponds approximately to the current diameter of the drum.
Due to the possible change in diameter of the drum by radial adjustment of the drum segments, the invention provides that the protective disk can be replaced and the distance of the protective disk from the end face of the drum can be changed. This allows the diameter of the disc to be adapted to the current diameter of the drum.

To reduce the frictional resistance between the weft thread and the protective screen are the Circumferential edges of the protective screen rounded, preferably the edge surface of the Protective screen adapted to the yarn quality to be processed and is accordingly smooth to rough.

In a first embodiment, the protective disk is fixed with a non-rotating part the pre-winding device, e.g. the drum. The protective screen is therefore rigid arranged and the weft strokes when pulling over the outer surface of the Protective screen.

In order to further reduce the frictional resistance between the weft thread and the protective disk, it is provided in a second embodiment that the protective disk is fastened to the drum or the drive shaft of the yarn guide so that it can rotate about its center.
The direction of rotation of the protective disk corresponds to the direction of rotation of the thread guide, ie the direction of rotation of the protective disk is equal to the direction of rotation of the rotating elements of the pre-winding device. This can significantly reduce the frictional resistance, which is particularly advantageous for sensitive yarns.
The speed of rotation of the protective disk is preferably adjustable and can thus be adapted to the speed at which the yarn is drawn off.

One drive variant provides that the protective disk is driven by on the Protective pane arranged wing is made with a blow nozzle on the side Media can be blown. This causes the protective disk to rotate.

In another drive variant, the protective disk is driven by the Drive shaft that drives the thread guide in rotation.

In a third drive variant, the protective disk is driven by a Electric motor that is firmly attached to a non-rotating part of the pre-winding device, e.g. the drum, is arranged.

Preferably, the protective screen is made of light metal or plastic, which with a Hard coating is provided.

Figur 1:

eine Seitenansicht eines Vorspulgeräts mit fest an der Trommel angeordneter Schutzscheibe;

Figur 2:

einen Schnitt durch die fest an der Trommel angeordnete Schutzscheibe gemäß Figur 1;

Figur 3 bis Figur 5:

Antriebsvarianten für die am Vorspulgerät drehbar angeordnete Schutzscheibe.

The invention is explained below using several exemplary embodiments with reference to several drawing figures. Show it:

Figure 1:

a side view of a prewinding device with a protective disk fixed to the drum;

Figure 2:

a section through the protective disk fixed to the drum according to Figure 1;

Figure 3 to Figure 5:

Drive variants for the protective screen rotatably arranged on the pre-winding device.

Figure 1 shows a side view of the basic structure of a prewinder 1 with attached protective disc 10 according to the invention from the supply spool (not drawn) weft thread 2 is formed in a guide tube 21 Thread guide 4 (see Figure 4) through the motor housing 3 of the prewinder 1 and emerges from a thread guide eyelet 5 of the thread guide 4. The thread guide 4 is rotating in Direction of rotation 25 driven and is part of one shown in Figures 3 to 5 Drive shaft 16. A drum 6 is arranged on the drive shaft 16, but the drum itself not rotating. About the rotating thread guide 4 and the thread guide eyelet 5 is the Weft thread 2 is wound onto the non-rotating drum 6, the drum 6 being off there are several drum segments 7, which are distributed over the circumference of the drum are arranged. The diameter of the drum 6 can by a radial displacement of the Drum segments 7 are changed. Each remains between the drum segments 7 a space 8, which can be made larger or smaller, depending on which radial position, the drum segments 7 are. There are 7 on each drum segment So-called separating brackets 9 are arranged, which ensure that the drum 6 wound weft thread 2 from the thread guide side of the drum 6 to the side facing away from it Side of the drum 6 is transported, where it is then withdrawn via a removal eye 15 and is introduced from the weft insertion nozzle 29 into the shed of the weaving machine. At the Pulling off the weft thread from the drum 6 forms a so-called in a known manner Thread balloon 11 from, the diameter of the yarn quality used and others Parameters. To the formation of the thread balloon 11 between the drum 6 and to reduce the draw-off nozzle 15 and to improve the draw-off behavior of the thread is in a balloon breaker 14, e.g. in the form of a funnel, which is slidably disposed on a bracket 13.

As shown in FIG. 1 in connection with the enlarged representation according to FIG according to the invention between the drum 6 and the balloon breaker 14 or the trigger eye 15 a protective disc 10 is arranged, the diameter of which is approximately the set diameter corresponds to the drum 6 or the drum segments. In the example according to FIGS. 1 and 2 the protective disc is arranged directly on the trigger-side end of the drum 6. The Weft thread 2 is thus from the drum 6 over the peripheral edge of the protective disk 10 and withdrawn via the pull-off eye 15, the protective disk 10 preventing the weft thread 2 when pulled into the spaces 8 between the drum segments 7 arrives and the withdrawal behavior is disturbed. Figures 1 and 2 show a fixed on the non-rotating drum 6 arranged protective disc 10, the distance between the drum segments 7 and the protective disk 10 through the use of Spacer elements can be adjusted if necessary. The protective disk 10 is releasably and interchangeably attached to the drum 6, so that this by replacing the Diameter of the drum 6 can be adjusted.

To reduce the additional frictional resistance between the Weft thread 2 and protective disk 10 are the peripheral edges of the protective disk 10 rounded, as can be seen from the drawing figures. Furthermore, the edge surface the protective pane 10 can be adapted accordingly to the game quality to be processed, i.e. the surface can be both smooth and roughened.

To further increase the frictional resistance between the weft thread 2 and the protective screen 10 reduce, it is provided in a second embodiment that the disc around their The center is rotatably arranged, preferably itself driven.

According to Figure 3, the protective disk 17 is rotatably arranged on the drive shaft 16 on the the drum 6 is also seated. For this purpose, the protective disk 17 on a bearing 18 on the Drive shaft 16 is mounted and can thus be independent of the rotation of the drive shaft 16 rotate. To drive the protective pane 17, several of them are perpendicular to the pane Surface projecting wing 19 arranged laterally via a blowing nozzle 20 with compressed air or another pressure medium can be applied. This will make the Protective disk 17 in the direction of arrow 30 corresponding to the direction of rotation 25 of the drive shaft 16 driven. This has among other things the advantage that the speed of the protective disk 10 is independent can be selected from the speed of the drive shaft 16.

A further variant for driving the protective pane 22 is shown schematically in FIG shown. The drive shaft 16, which partially receives the thread guide 4, can be seen which sits the self-rotating drum 6 mounted on roller bearings 21. To one To avoid rotation of the drum 6 in the sense of the drive shaft 16, this is by means of strong holding magnet 24 held in position. A protective disk 22 is in the area of trigger-side end of the drum 6 fixedly arranged on the drive shaft 16 and rotated in the direction of arrow 30, which corresponds to the direction of rotation of the drive shaft. The distance d is between the drum 6 and the protective disk 22 by appropriate positioning Protective pane 22 can be changed and can e.g. adapted to the yarn quality to be processed become. In this embodiment, the protective disk 22 is fixed to the drive shaft 16 coupled and rotates at their speed.

FIG. 5 shows a further embodiment for driving the protective pane 27 Electric motor 26 arranged on the drum 6, the rotor of which carries the protective disk 27 and this rotating in the direction of arrow 30 in the same direction as the direction of rotation 25 of the drive shaft 16 drives. Since the motor 26 and the drum 6 are opposed to the rotating parts, e.g. the Thread guide 4 of the prewinder 1, are fixed, the power is supplied to the Electric motor 26 e.g. via sliding contacts 28, which between the rotating parts of the Feeding device 1 and the fixed drum 6 are arranged. A power supply by a drive shaft designed as a hollow tube would also be conceivable, the Slider contacts would then have to be arranged between shaft 16 and electric motor 26. This variant, like the first-mentioned drive variant, has the advantage that the Rotation speed of the protective disc 27 is set independently of the drive axis can be.

DRAWING LEGEND

1

Fast forward device

2nd

Weft

3rd

Motor housing

4th

Thread guide

5

Thread guide eyelet

6

drum

7

Drum segment

8th

Space

9

Separation bracket

10th

Protective screen

11

Thread balloon

12th

Dimension module

13

Holder (for balloon breaker)

14

Balloon breaker

15

Trigger eye

16

drive shaft

17th

Protective screen

18th

camp

19th

wing

20th

Blow nozzle

21

roller bearing

22

Protective screen

24th

Holding magnets

25th

Direction of rotation

26

Electric motor

27

Protective screen

28

Sliding contacts

29

Weft insertion nozzle

30th

Arrow direction

Claims (14)

Winding machine for air jet looms, with a weft storage drum that comes out there are several drum segments adjustable in the radial direction, on which one Weft thread is wound up by means of a thread guide having a drive shaft and is pulled off again by means of entering the weft thread into a shed, characterized in that in the area of the trigger-side end face of the drum (6) Protective disc (10; 17; 22; 27) is arranged, over the peripheral edge of the weft thread (2) is subtracted. Feeding device according to claim 1, characterized in that the diameter of the Protective disc (10; 17; 22; 27) corresponds approximately to the diameter of the drum (6). Feeding device according to claim 1 or 2, characterized in that the protective disc (10; 17; 22; 27) is interchangeable. Feeding device according to one of claims 1 to 3, characterized in that the distance (d) the protective disk (10; 17; 22; 27) can be changed from the end face of the drum (6). Feeding device according to one of claims 1 to 4, characterized in that the The peripheral edges of the protective screen (10; 17; 22; 27) are rounded. Feeding device according to one of claims 1 to 5, characterized in that the Edge surface of the protective pane (10; 17; 22; 27) corresponding to the one to be processed The yarn quality is adjusted and accordingly smooth to rough. Feeding device according to one of claims 1 to 6, characterized in that the Protective disc (17; 22; 27) rotatably driven about its center on the drum (6) or the drive shaft (16) of the thread guide (4) is attached. Feeding device according to claim 7, characterized in that the direction of rotation of the Protective disc (17; 22; 27) corresponds to the direction of rotation of the thread guide (4). Feeding device according to claim 7 or 8, characterized in that the Speed of rotation of the protective disk (17; 22; 27) is adjustable. Feeding device according to one of claims 7 to 9, characterized in that the drive the protective pane (17) is made by wings (19) arranged on the protective pane, which can be blown laterally via a nozzle (20) with a pressure medium. Feeding device according to one of claims 7 to 9, characterized in that the drive the protective disc (27) via an electric motor (26), which is fixed to the non-rotating part the drum (6) is arranged. Feeding device according to one of claims 1 to 6, characterized in that the Protective disc (10) rotatable about its center with a non-rotating part of the Feeding device (1) is connected. Feeding device according to one of claims 1 to 6, characterized in that the Protective disc (10) is firmly connected to a non-rotating part of the prewinding device (1). Feeding device according to one of claims 1 to 13, characterized in that the Protective screen (10; 17; 22; 27) made of light metal or plastic with a hard-coated Surface exists.

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