EP3431643A1 - Circular loom - Google Patents

Abstract

Circular loom (1; 19; 41) with warp guide elements which are arranged around a round reed (2; 20; 42) of the circular loom (1; 19; 41) for feeding warp tapes (4a, 4b) with a cam carrier (US Pat. 3; 21; 43) in which a control cam (6, 7; 22; 44) is formed, with shedding means (5; 23; 45) dividing the warp tapes (4a, 4b) into two warp bands (10a, 10b) and the two Kettbändchenscharen (10a, 10b) give each other opposite alternating movements, whereby between the two Kettbändchenscharen (10a, 10b), a shed (11) is opened and closed. The shed forming means (5; 23; 45) comprise pivoting members (12, 13; 30; 54; 55) and warp lift means, the at least one control cam (6,7; 22; 44) being associated with each pivot member (12,13; 30; 54) , 55) upon rotation of the cam carrier (3; 21; 43) imparted a pivoting movement and a lifting movement and wherein the pivoting elements (12, 13; 30; 54, 55) give the Kettfadenhubmitteln alternating movements by the pivoting movement and the lifting movement.

Description

The invention relates to a circular loom with the features of the preamble of claim 1.

There are generally circular looms for the production of fabrics known from the prior art, which have a Rundriet, which is arranged coaxially to a main shaft of the circular loom. The main shaft forms a main axis of the circular loom. Kettbändchen guide elements are arranged around the Rundriet around, which are designed to supply a plurality of Kettbändchen to the circular loom. Web training facilities group the supplied warp ribbons into two sets of warp bands and give them opposing alternating movements, whereby a shed between the two Kettbändchenscharen is opened and closed. A shooter moves in an orbit in the open shed and thereby enters a weft ribbon in the shed, whereby a tissue is formed. The fabric is pulled off through a Webring. In modern circular weaving machines, several weaving machines usually run simultaneously in a respective shed in a round pile. On the main shaft of the loom a cam holder is formed, which has at least one undulating around the cam holder circumferential cam, and around the cam holder around control levers are arranged, which engage with one of its ends in the at least one control cam. By rotation of the main shaft and thus of the cam holder the ends of the control lever is given a deflection movement, which are transmitted by the control lever gegengleich equal to the shed forming means whereby this is given a reciprocating motion and wave-shaped sheds are formed in the circumferential direction. A cross section of a wave-shaped shed in the circumferential direction parallel to the main axis substantially corresponds to the cross-section of a convex lens. If the shed forming means for guiding the warp strips by eyelets held by half shafts, two control levers are usually provided per shed forming means. Assign the shed forming means for guiding the Kettbändchen by a stretched around two pulleys band with eyelets, usually only one control lever is provided per shed forming device. A circular loom with shed forming devices with half shanks is known, for example, from the document IN 159848 A1. A circular loom with shed forming devices with a tensioned around two pulleys band is for example from the document EP 2 829 645 A1 known.

In the operation of the known looms, however, has proven to be disadvantageous that the circular looms are subjected to frequent maintenance intervals by the large number of control levers and due to the large number of moving parts-related friction in the machine have a high energy demand. Furthermore, it has proved to be disadvantageous that the known looms are very noisy and build very large due to the amount of arranged around the cam carrier control levers. Because of this, there have been initial efforts to minimize the number of control levers. This has been achieved by grouping several adjacent shingling devices into groups which, depending on the design, are articulated simultaneously by one or two control levers. In this way, although the number of control levers has been reduced, but it forms by the simultaneous articulation of several shing forming a stepped shed, which has the disadvantage that it is shortened due to the step shape in the end and it seen due to the lower usable space over the entire length offers less space for the weaver. In addition, a dead space between two successive sheds is increased by the step shape, whereby in such looms a smaller number of weavers can circulate simultaneously in Rundriet. However, a small number of weavers leads to a reduction in the production speed of the circular loom, whereby the output of the circular loom is reduced.

It is the object of the present invention to provide a circular loom, which overcomes the disadvantages of the prior art and has a high production reliability, as well as a high production speed.

The stated object is achieved by the features of the characterizing part of claim 1. Preferred embodiments of the invention are the subject of the dependent claims.

The shed forming means of the circular loom according to the invention comprise a plurality of pivot elements and the Kettbändchen leading Kettfadenhubmittel, wherein each pivot member is connected to at least two, preferably a plurality of Kettfadenhubmitteln. Upon rotation of the cam holder gives the control cam, either directly or indirectly, each pivot member pivotal movement about a substantially radially to the main axis arranged pivot axis and a lifting movement. The Swivel elements issue the Kettfadenhubmitteln depending on the gradient and thus the course of the at least one control cam by the pivoting movement and the reciprocating motion changes, whereby the shed is opened and closed. Advantageously, a pivot axis extends centrally through a pivoting element.

Indirect or direct in this context means that the pivot elements can either be coupled directly to the at least one control cam, or that the pivot elements can be coupled via connecting elements, such as levers, rods or gears with the at least one control cam.

In this context, substantially radial to the main axis means that the pivot axes of the pivot elements can also be arranged slightly inclined to axes arranged radially to the main axis.

As a result, the circular loom according to the invention comprises shed forming means, which are very simple in construction and form a shed-shaped shed in cross-section. Thus, the circular loom invention is not only very efficient, but also low maintenance and economical in operation. Due to the lenticular cross-section of the shed / sheds, the number of shuttlers simultaneously circulating in the round shave can be maximized or, with the same number of shovers, the distance between the shifters and the warp bands at the ends of the shed / sheds can be increased. whereby the risk of collisions of the weaver with Kettbändchen is reduced and thereby conditional Kettbändchenrisse be avoided. As a result, the circular loom according to the invention can be operated at a higher speed than conventional circular looms. Furthermore, the advantage obtained by the lenticular shed that the gradient of the cam at the ends of the shed may turn out lower than step-shaped sheds, which leads to lower accelerations at deflections of moving parts, whereby the production speed of the circular loom according to the invention can be further increased and the moving parts are spared.

Due to the pivoting movement and the lifting movement of the pivoting elements, the course of the at least one control cam in the circumferential direction substantially corresponds to the course of the shed. As a result, the course of the shed can be adjusted very easily by changing the at least one control curve.

Preferably, the at least one control cam is formed by a groove, a groove or a protruding web.

• Figur 1 eine erste Ausführungsvariante einer erfindungsgemäßen Rundwebmaschine in einer schematischen Schnittansicht zeigt;
• Figuren 2 und 3 Ausschnitte der Rundwebmaschine gemäß Figur 1 in einer schematischen Seitenansicht zeigen;
• Figuren 4 und 5 Detailansichten von Schwenkelementen der Rundwebmaschine gemäß Figur 1 zeigen;
• Figur 6 eine weitere Ausführungsvariante einer erfindungsgemäßen Rundwebmaschine in einer schematischen Schnittansicht zeigt;
• Figur 7 eine weitere Ausführungsvariante einer erfindungsgemäßen Rundwebmaschine in einer schematischen Schnittansicht zeigt; und
• Figuren 8 und 9 Detailansichten von Schwenkelementen der Rundwebmaschine gemäß Figur 7 zeigen.

Further advantageous embodiments of the circular loom according to the invention are explained in more detail below with reference to the figures, wherein:

• FIG. 1 shows a first embodiment of a circular loom according to the invention in a schematic sectional view;
• FIGS. 2 and 3 Cutouts of the circular loom according to FIG. 1 in a schematic side view show;
• FIGS. 4 and 5 Detail views of pivot elements of the circular loom according to FIG. 1 demonstrate;
• FIG. 6 shows a further embodiment of a circular loom according to the invention in a schematic sectional view;
• FIG. 7 shows a further embodiment of a circular loom according to the invention in a schematic sectional view; and
• FIGS. 8 and 9 Detail views of pivot elements of the circular loom according to FIG. 7 demonstrate.

FIG. 1 shows a first embodiment of a circular loom 1 according to the invention in a schematic sectional view. For the sake of simplicity shows FIG. 1 only one of a main axis of the circular loom 1 seen from right part of the circular loom 1. The main axis is arranged concentrically to Rundriet 2 of the circular loom 1 and is not in place for reasons of space FIG. 1 shown. The circular loom 1 comprises said Rundriet 2, which is formed by Rietstäbe 32, which are laterally bordered by two annular ring rings 33. The reed rods 32 and the rings 33 are in FIGS. 2 and 3 shown.

Furthermore, the circular loom 1 comprises a cam carrier 3, which is arranged coaxially to the main axis of the circular loom 1 and which has substantially the shape of a hollow cylinder. The cam carrier 3 is rotatably connected by means not shown spokes with a main shaft of the circular loom 1, not shown. In the cam holder 3 two circumferential to the cam holder 3 wave-shaped control cams 6 and 7 are formed. The cams 6 and 7 are each formed by grooves, wherein the control cam 6 is formed on a jacket outer surface 8 of the cam carrier 3 and the control cam 7 is formed on a shell inner surface 9 of the cam carrier 3.

Around the Rundriet 2 of the circular loom 1 around not shown Kettbändchen guide elements are arranged, which are formed for feeding a plurality of Kettbändchen 4a and 4b to the circular loom 1. In addition, around the Rundriet 2 a plurality of shed forming means 5 are arranged, which divide the supplied Kettbändchen 4a and 4b in a first Kettbändchenschar 10a and a second Kettbändchenschar 10b and the two Kettbändchenscharen 10a and 10b - controlled by the cams 6 and 7 - opposite to each other Lend change movements. As a result, a shed 11 is opened and closed between the two Kettbändchenscharen 10a and 10b. In the open shed 11 runs in the direction of rotation, not shown Web contactors, which during its rotation in Rundriet 2 a Schussbändchen enters into the shed 11, whereby a fabric is formed. Advantageously run in the circular loom 1 at the same time several weavers in corresponding open looms 11. The circulation direction leads along the Rundriets 2.

The shed forming means 5 spaced from first guides 34 parallel to the main axis guided first pivot members 12 and spaced from second guides 35 parallel to the main axis guided second pivot elements 13. Furthermore, the shed forming means 5 comprise warp thread lifting means guiding the warp tapes 4a and 4b. The Kettfadenhubmittel are formed by half shafts 14 and 15 and by eyelets 16 and 17, wherein in each case one eyelet 16 is fixedly connected to a first half shaft 14 and an eyelet 17 is fixedly connected to a second half shaft 15. Through the eyelets 16 through the Kettbändchen 4 a of the first Kettbändchenschar 10 a threaded and through the eyelets 17 through the warp 4 b of the second Kettbändchenschar 10 b are threaded. The half shafts 14 and 15 are slidably mounted in Rundriet 2 trained guides 18 in the direction of an axis parallel to the main axis.

The first pivot elements 12 are in engagement with the control cam 6 and the second pivot elements 13 are in engagement with the control cam 7. The first pivot elements 12 are respectively coupled to first half shafts 14 and the second pivot elements 13 are respectively coupled to second half shafts 15, wherein half stems 14 and 15 are rotatably coupled respectively to the respective pivot members 12 and 13.

By driving the main shaft of the circular loom 1 of the cam carrier 3 is set in rotation, wherein by rotation of the cam holder 3, the pivot elements 12 and 13 guided along the guides 34 and 35 along the cams 6 and 7 and slide them through the cams 6 and 7 a lifting movement in main axis direction and a pivoting movement about a pivot axis, which is arranged radially to the main axis granted. Due to the shape of the cams 6 and 7, the lifting movement of the pivot elements 12 takes place in opposite directions to the lifting movement of the pivot elements 13. By the lifting movements of the pivot elements 12 and 13 are the Kettbändchenscharen 10a and 10b lent opposite reciprocating movements of the partial shafts 14 and 15, whereby the shed 11 is opened and closed. Due to the pivotal movement of the pivot elements 12 and 13 about their pivot axes a wavy shed 11 is formed due to the respective coupling of the pivot elements 12 and 13 with a plurality of Kettfadenhubmitteln, whereby the distance between successive weavers can be kept very low and a high number of shifters at the same time in Rundriet 2 can circulate.

The guides 34 and 35 are each formed by running parallel to the main axis sliding rods. On the slide rods sliding elements 38 and 39 are slidably mounted, wherein each a first pivot member 12 is pivotally coupled to a sliding member 38 and a second pivot member 13 is pivotally coupled to a sliding member 39. The slide bars are advantageously fixedly connected to a frame of the circular loom 1 and / or the Rundriet 2. The sliding elements 38 and 39 are advantageously aerostatically mounted on the guides 34 and 35.

FIGS. 2 and 3 show sections of the circular loom 1 according to FIG. 1 in a side view, wherein in the FIGS. 2 and 3 For reasons of clarity, only a limited number of shedding devices are shown.

In FIG. 2 the shed 11 is just opened, in FIG. 3 the shed is substantially closed or at the transition from closing a shed 11 to opening a subsequent shed 11.

In a further embodiment, the pivot elements 12 and 13 in the control cams 6 and 7 slide-mounted, roller bearings or mounted by means of magnets.

Adjacent first pivot elements 12 and / or adjacent second pivot elements 13 may be coupled to each other by means of at least one guide tab 31 or be guided independently of each other in the cams 6 and 7. FIG. 4 shows each other with guide plates 31 coupled first pivot members 12, wherein each two adjacent first pivot elements 12 are coupled to a guide plate 31, whereby the first pivot elements 12 in a kind of endless chain with each other are connected. The guide plates 31 are coupled with their associated pivot elements 12 advantageous pivot and adjustable length.

Further, there is the possibility that a plurality of adjacent first pivot elements 12 and / or a plurality of adjacent second pivot elements 13 are coupled together and are grouped together. FIG. 5 shows two adjacent, coupled by two guide plates 31 first pivot members 12, each forming a pair. By at least a partial coupling of the first pivot elements 12 to each other and / or the second pivot elements 13 with each other has the advantage that an indirect tap of the gradient of the control cam can be realized and a torque of the pivot members 12 and 13 are intercepted around the guides 34 and 35 can. For clarity, the guides 34 and 35 in the FIGS. 4 and 5 not shown.

In addition, there is the possibility that the circular loom 1 has third pivot elements and fourth pivot elements. Third pivot elements are each spaced on the first guides 34 and are arranged pivotably parallel to the arranged on the same guides 34 first pivot members 12 and coupled to the same half shafts 14. Fourth pivot elements are each spaced on the second guides 35 and pivotally arranged parallel to the arranged on the same guides 35 second pivot members 13 and coupled to the same half-shafts 15. The third and fourth pivot elements are advantageously mounted displaceably on the guides 34 and 35 by means of further sliding elements. The third or fourth pivoting elements are in this case coupled to the half-shafts 14 or 15 such that the third or fourth pivoting elements move in synchronism with the pivoting element 12 or 13 arranged on the same guide 34 or 35. As a result, a parallelogram is formed by a respective third or fourth pivoting element, a pivoting element 12 or 13 and the half shafts 14 or 15. This has the advantage that it is possible to dispense with the guides 18.

Advantageously, a sleeve is additionally provided as a spacer between a pivoting elements 12 or 13 and a third or fourth pivoting element, which is arranged on the guides 34 and 35 respectively between the sliding elements. In this way, the advantage is obtained that a distance between a arranged on the same guide 34 or 35 pivot member 12 or 13 and a third or fourth pivot member is maintained by the sleeve and a load of the half shafts 14 and 15 can be further reduced.

FIG. 6 shows a further embodiment of a circular loom 19 according to the invention in a schematic sectional view. For simplicity's sake FIG. 6 only one of a main axis of the circular loom 19 seen from right part of the circular loom 19. The main axis is arranged concentrically to Rundriet 20 and is not due to space in FIG. 6 shown. The circular loom 19 comprises said circular rake 20 and a main shaft, not shown, which are arranged coaxially to the main axis of the circular loom 1.

Furthermore, the circular loom 19 comprises a cam carrier 21, which is arranged coaxially to the main axis of the circular loom 19 and which has substantially the shape of a hollow cylinder. The cam carrier 21 is rotatably connected by means not shown spokes to the main shaft. In the cam holder 21, a control cam 22 is formed. The cam 22 is formed by a groove which rotates about the cam holder 21 with a varying gradient wavy.

To the Rundriet 20 of the circular loom 19, not shown Kettbändchen guide elements are arranged, which are formed for feeding a plurality of warp tapes 4a and 4b to the circular loom 19. In addition, around the Rundriet 20 a plurality of shedding means 23 are arranged, controlled by the control cam 22, the supplied warp tapes 4a and 4b split into a first Kettbändchenschar 10a and a second Kettbändchenschar 10b and the two Kettbändchenscharen 10a and 10b give each other opposite alternating movements. As a result, a shed 11 is opened and closed between the two Kettbändchenscharen 10a and 10b. In the open shed 11 runs in the direction of rotation, not shown weavers around who enters a round ribbon 20 in the round shed 20 during its circulation in the shed 11, whereby a fabric is formed. Advantageously, in the circular weaving machine 19, a number of weavers simultaneously move in corresponding open sheds 11. The circulation direction leads along the Rundriets 20.

The shed forming means 23 comprise guide means 30 guided along guides 36 parallel to the main axis, and the warp tapes 4a and 4b comprise leading warp lifting means. The Kettfadenhubmittel are each formed by a circulating belt 40 which rotates about two spaced-apart guide rollers 28 and 29, which divide the band 40 into a first strand 24 and a second strand 25. In a further embodiment, the band is formed by a strand. There is also the possibility that the band or the strand are partly made rigid.

Eyelets 26 are attached to the first strand 24, each leading to a warp ribbon 4a of the first Kettbändchenschar 10a and on the second strand 25 eyelets 27 are attached, which each lead a warp 4b of the second Kettbändchenschar 10b. Due to the advantageous construction of the Kettfadenhubmittel the circular loom 19 comes with only one control cam 22.

The pivot members 30 are engaged with the one cam 22 and are each connected to a plurality of bands 40 via the second strands 25, wherein the second strands 25 are rotatably connected to the pivot members 30.

The guides 36 are each formed by running parallel to the main axis sliding rods. On the slide rods sliding elements 37 are slidably mounted, wherein each pivot member 30 is pivotally coupled to a sliding member 37. The slide bars are advantageously fixedly connected to a frame of the circular loom 19 and / or the Rundriet 20. The sliding elements 37 are advantageously aerostatically mounted on the guides 36.

By driving the main shaft of the loom 19 of the cam carrier 21 is rotated, wherein by rotation of the cam holder 21, the pivot elements 30 guided by the guides 36 slide along the cam 22 and them by the control cam 22 a lifting movement in the main axis direction and a pivoting movement about a pivot axis is issued, which is arranged radially to the main axis. Due to the lifting movements of the pivoting elements 30, the warp bands 10a and 10b are given opposite alternating movements via the first strands 24 and the second strands 25, whereby the shed 11 is opened and closed. By the pivotal movement of the pivot member 30 about the pivot axis radially to the main axis a wave-shaped shed 11 is formed, whereby a distance between successive weavers can be kept very low and can circulate a large number of weavers simultaneously in Rundriet 20.

It should be noted here that even in the embodiment of FIG. 6 the pivoting elements 30 may be coupled together by means of guide straps or may be coupled in groups.

FIG. 7 shows a further embodiment of a circular loom 41 according to the invention in a schematic sectional view. For simplicity's sake FIG. 7 only one of a main axis of the circular loom 41 seen from right part of the circular loom 41. The main axis is arranged concentrically to Rundriet 42 of the circular loom 41 and is not in space reasons FIG. 7 shown.

Furthermore, the circular loom 41 comprises a cam carrier 43, which is arranged coaxially to the main axis of the circular loom 41 and which has substantially the shape of a disk. The cam carrier 43 is rotatably connected to a main shaft of the circular loom 41, not shown. At the cam holder 43, a control cam 44 is formed. The cam 44 is formed by a protruding from the cam holder 43 web which rotates about the cam holder 43 with a changing gradient undulating.

To the Rundriet 42 of the circular loom 41, not shown Kettbändchen guide elements are arranged, which are formed for feeding a plurality of Kettbändchen 4 a and 4 b for loom 41. In addition, around the Rundriet 42 a plurality of shedding means 45 are arranged controlled by the cam 44, the supplied warp tapes 4a and 4b in a first Kettbändchenschar 10a and a second Kettbändchenschar 10b split and give the two Kettbändchenscharen 10a and 10b opposite reciprocating movements. As a result, a shed 11 is opened and closed between the two Kettbändchenscharen 10a and 10b. In the open shed 11 runs in the direction of rotation, not shown weavers to who enters a round ribbon during its rotation in Rundriet 42 a ribbon in the shed 11, whereby a fabric is formed. Advantageously, in the circular weaving machine 41, several weavers simultaneously move in corresponding open sheds 11. The circulation direction leads along Rundriets 42.

In addition, the loom 41 includes radially arranged about the main axis tiltable control lever 46 and the control levers 46 associated bands 47, which bands 47 to two pulleys 48 and 49 rotate, which divide the bands 47 each in a first strand 50 and a second strand 51. The control levers 46 are pivotally mounted on a frame of the loom 41 and each have two opposite ends 52 and 53. At the one end 52 - hereinafter referred to as the first end 52 -, rollers 63 are formed, which roll on the web of the cam 44. The other end 53 - hereinafter referred to as the second end 53 - is rotatably coupled to the band 47.

The shed forming means 45 include first pivot members 54 and second pivot members 55, and the warp tapes 4a and 4b carrying warp lift means. The first pivot elements 54 are each on a first strand 50 and the second pivot elements 55 are each formed on a second strand 51 pivotally about a main axis arranged radially pivot axis. The strands 50 and 51 guide the pivot members 54 and 55 in the major axis direction.

Further, spaced apart on the first run 50 and the second run 51 and pivotally mounted parallel to the pivot members 54 and 55, third and fourth pivot members 56 and 57. Advantageously, a rigid spacer is formed between a first pivot element 54 arranged on a first strand 50 and a third pivot element 56 and / or a second pivot element 55 arranged on a second strand 51 and a fourth pivot element 57.

The Kettfadenhubmittel are formed by first half shafts 58 with eyelets 59 for passing Kettbändchen 4a of the first Kettbändchenschar 10a and second half shafts 60 with eyelets 61 for passing Kettbändchen 4b a second Kettbändchenschar 10b. Each first pivot member 54 is rotatably coupled to at least two first half stems 58, wherein the at least two first half stems 58 are rotatably coupled to form the third pivot member 56 to form a parallelogram. Each second pivot member 55 is rotatably coupled to at least two second half shafts 60, wherein the at least two second half shanks 60 are rotatably coupled to form the fourth pivot member 57 to form another parallelogram.

As a result of this, a third pivoting element 56 arranged on a belt 47 moves synchronously with a first pivoting element 54 and a fourth pivoting element 57 arranged on a belt 47 synchronously with a second pivoting element 55. This has the advantage that provision is made for provision of additional guides 18 can be dispensed with to guide the half shafts 58 and 60.

FIGS. 8 and 9 show detailed views of pivot elements of the circular loom according to FIG. 7 ,

Adjacent first pivot elements 54 and / or adjacent second pivot elements 55 will be coupled to each other by means of guide plates 62. FIG. 8 shows two adjacent, coupled by two guide plates 62 first pivot members 54, each forming a pair. FIG. 9 shows coupled to each other with guide plates 62 first pivot elements 54, wherein each two adjacent first pivot elements 54 are coupled to a guide plate 62, whereby the first Swivel elements 54 are connected together in a kind of endless chain. The guide plates 62 are pivotally and length-adjustable coupled with their associated pivot elements 62.

By driving the main shaft of the loom 41 of the cam carrier 43 is rotated, wherein the first ends 52 of the control lever 46 is given a deflection movement by rotation of the cam holder 43. Via the control lever 46, the deflection movement is transmitted to the second end 53 and thus to the belt 47, whereby the strands 50 and 51 each perform an opposite lifting movement in the main axis direction. As a result, the pivoting elements 54 and 55 and consequently also the half shafts 58 and 60 are given a lifting movement. Due to the lifting movements of the half shafts 58 and 60, the warp bands 10a and 10b are given opposing alternating movements, whereby the shed 11 is opened and closed. By the coupling of the pivot members 54 and 55 through the guide plates 62, the pivot members 54 and 55 is given a pivotal movement, whereby a wave-shaped shed 11 is formed.

It should also be pointed out here that the half shafts 58 and 60 can also be guided with additional guides fixed, for example, on the round pile 42.

Furthermore, it should be pointed out here that elements or functions of elements described for one embodiment variant can also be transferred or applied to other embodiments described herein.

Claims (13)

Circular loom (1; 19; 41)
with warp-tape guide elements which are arranged around a circular rake (2; 20; 42) of the circular loom (1; 19; 41) for feeding a plurality of warp tapes (4a, 4b) to the circular loom (1; 19; 41),
with a control cam carrier (3; 21; 43) rotatable about a main axis, on which at least one control cam (6,7; 22; 44) is formed with a varying gradient,
with shed forming means (5; 23; 45), which - controlled by the at least one control cam (6, 7; 22; 44) - divide the supplied warp tapes (4a, 4b) into two warp bands (10a, 10b) and the two warp bands ( 10a, 10b) give each other opposite alternating movements, whereby between the two Kettbändchenscharen (10a, 10b) a shed (11) is opened and closed,
with at least two weavers, which circulate in the direction of rotation in the open shed (11) and during their rotation in Rundriet (2; 20; 42) enter a weft ribbon in the shed (11), whereby a fabric is formed, characterized in that the shed forming means (5; 23; 45) pivotal members (12, 13; 30; 54; 55) and the warp tapes (4a, 4b) having leading warp lift means, each pivot member (12, 13; 30; 54, 55) connected to at least two warp lift means wherein the at least one control cam (6, 7; 22; 44) directly or indirectly pivots about each pivoting element (12, 13; 30; 54, 55) as the control cam carrier (3; The pivoting elements (12, 13, 30, 54, 55) rotate through the pivoting movement and the lifting movement of the warp thread lifting means as a function of the course of the at least one control cam (6, 7, 22, 44) give impulses. Circular loom (1; 19; 41) according to claim 1, characterized in that a pivot axis runs centrally through a pivoting element (12, 13; 30; 54, 55). A circular loom (1; 19; 41) according to claim 1 or 2, characterized in that in each case at least two adjacent pivoting elements (12, 13; 30; 54, 55) are coupled together by at least one guide lug (31; 62). Circular loom (1; 19; 41) according to claim 3, characterized in that the guide straps (31; 62) are pivotally and length-adjustable coupled to their associated pivoting elements (12, 13; 30; 54, 55). Circular loom (1; 19; 41) according to claim 3 or 4, characterized in that the pivoting elements (12, 13; 30; 54, 55) are coupled together in pairs by the guide straps (31; 62). A loom (1; 19; 41) according to claim 3 or 4, characterized in that all the pivoting elements (12, 13; 30; 54, 55) are connected in the manner of an endless chain. Circular loom (41) according to one of the preceding claims, characterized in that the circular loom (41) radially arranged around the main axis tiltable control lever (46) and the control levers (46) associated bands (47), which bands (47) around two pulleys (48, 49) which divide the bands (47) into a first run (50) and a second run (51), wherein the control levers (46) each have two opposite ends (52, 53), wherein the control cam (44) upon rotation of the cam carrier (43) deflects one end (52) of the control levers (46) and one control lever (46) guides the deflection to a run (51) of the one connected to the other end (53) of the control lever (46) associated bands (47) transmits, whereby the strands (50, 51) each perform an opposite lifting movement, said first pivot elements (54) with a first strand (50) and second pivot elements (55) pivotally coupled to a second strand (51) are and wherein each z at least two juxtaposed first pivot elements (54) and at least two juxtaposed second pivot elements (55) are coupled by guide straps (62),
and in that the warp thread lifting means comprise first half shafts (58) with eyelets (59) for passing warp tapes (4a) of a first warp warp sheet (10a) and second half shanks (60) with eyelets (61) for passing warp tapes (4b) of a second warp warp pile (4b). 10b), wherein a first pivot element (54) is coupled to at least two first half stems (58) and wherein a second pivot element (55) is coupled to at least two second half stems (60). A loom (41) according to claim 7, characterized in that the loom (41) comprises third and fourth pivotal elements (56, 57), wherein third pivotal elements (56) are spaced apart and parallel to the first pivotal elements (54) on the first strand (50 ) are arranged pivotably and fourth pivot elements (57) spaced and parallel to the second pivot elements (55) on the second run (51) are pivotally mounted, wherein the third and fourth pivot elements (56, 57) are rotatably coupled to the Halbschäften (58, 60), that the third and fourth pivot elements (56, 57) in each case synchronously with their associated first and second pivot elements (54, 55). Circular weaving machine (1) according to one of claims 1 to 6, characterized in that the cam holder (3) has substantially the shape of a hollow cylinder, wherein in a jacket outer surface (8) of the cam carrier (3), a first control cam (6) is formed and wherein a second control cam (7) is formed in an inner shell surface (9) of the cam carrier (3), and in that the Kettfadenhubmittel (5) by first half shanks (14) with eyelets (16) for passing Kettbändchen (4a) of a first Kettbändchenschar ( 10a) and second half shafts (15) are formed with eyelets (17) for passing warp tapes (4b) of a second Kettbändchenschar (10b), said first pivot elements (12) during rotation of the cam holder (3) along first guides (34) out slide directly along the first control cam (6) and are coupled to at least two first half shafts (14) and second pivot elements (13) upon rotation of the control cam carrier (3 ) guided along second guides (35) slide directly along the second control cam (7) and are each coupled to at least two second half shafts (15). A circular weaving machine (1) according to claim 9, characterized in that the circular loom (1) has third and fourth pivot elements, wherein the third pivot elements on the first guides (34) spaced and parallel to the first pivot elements (12) are arranged and the fourth pivot elements spaced apart on the second guides (35) and pivotally arranged parallel to the second pivot elements (13), the first pivot elements (12) and the third pivot elements each having the same first half shafts (14) and the second pivot elements (13) and fourth pivotal elements are each rotatably coupled to the same second half shafts (15), the third and fourth pivotal elements being coupled to the half shafts (14, 15) such that the third and fourth pivotal elements synchronously with the respective one on the same guide (34, 35) arranged first or second pivoting element (12, 13) move. A loom (19) according to any one of claims 1 to 6, characterized in that the Kettfadenhubmittel each by a band (40) are formed, which rotates about two pulleys (28, 29), which the band (40) in a first strand ( 24) and a second run (25), wherein a pivot member (30) each having at least two bands (40) via a run (25) is coupled, wherein upon rotation of the cam carrier (21) the pivot elements (30) guided by the guides (36) slide directly along the control cam (22), wherein at the first run (24) a An eyelet (26) is designed for passing through warp ribbons (4a) of a first warp sheet bundle (10a) and wherein an eyelet (27) for passing warp tapes (4b) of a second warp sheet bundle (10b) is formed on the second run (25). Circular weaving machine (1; 19) according to claim 9 or 11, characterized in that the pivoting elements (12, 13; 30) are slidably mounted on or in the at least one control cam (6, 7; 22), supported by rollers or supported by magnets. Circular loom (1; 41) according to claims 7 to 10, characterized in that the guides (34, 35; 36) are formed by sliding bars on which sliding elements (37; 38, 39) are mounted aerostatically.

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