EP1281799A2 - Warp knitting machine with at least one pattern inlay bar - Google Patents

Abstract

The warp knitter has at least one pattern guide bar (1) with a number of yarn guides (4), moved to and fro in the lapping direction (6) by cords (7) of wire or cable. Each yarn guide has a holder (17), with movement in the lapping direction at right angles to the guide shaft (14). The shaft is bonded to the holder, which is secured to the operating cord.

Description

The invention relates to a warp knitting machine with at least a pattern bar that has multiple thread guides has in the offset direction by a drive are reciprocable, the drive via a Tension element acts on the thread guide.

Such a warp knitting machine is from DE 41 14 012 C2 known. The thread guides are on pull ropes connected to a drive motor. The thread guides are hung articulated on a bar support. The movement the pull rope translates into a swivel movement the thread guide. In addition, stops are provided the the swivel angle of the end of the thread guide limit on which the guide eye is arranged. If this end abuts the stop, then the Deform the second lever of the thread guide.

DE 24 36 452 B1 shows a warp knitting machine with Weft device, at the thread guide, which as hollow needles are formed in mutually displaceable Strips are set. When the strips against each other will be moved, then groups of thread guides shifted against each other.

While in the latter case a relatively reliable motion control the thread guide is possible, but this is the case bought with a relatively cumbersome construction is a tendency to vibrate in the first case Watch thread guide.

The invention is based, with one simple construction a reliable movement control to allow the thread guide.

This task is the in a warp knitting machine type mentioned solved in that each thread guide an essentially in the direction of offset Holding part that is substantially vertical arranged to a shaft and with the shaft is rigidly connected, the holding part on the tension element is set.

With this configuration, it is possible to pull elements use that have a relatively small cross-section. These tension elements are only loaded and tension don't have to endure pressure forces. So that the movement the thread guide, more precisely the guide eyelets the thread guide to be able to steer is the thread guide T-shaped, i.e. they have a shaft at the lower end of which the thread guide eyelet is arranged is. The upper end of the shaft is rigid with connected to a holding part. This rigid connection means that even with fast movements of the thread guide basically no articulated movements between the Shaft and the holding part occur. The movement of the Holding part is thus directly on the movement of the thread guide eyelet transfer. Because the holding part has a certain Extends in the direction of offset is the holding part supported over a certain length on the tension element, i.e. by connecting the holding part with the tension element, it is possible to torque that over the forces acting on the shaft are initiated can record within certain limits. It follows an extraordinarily stable fastening of the thread guides on the tension element. This in turn means that, as stated above, the traction element with relative light weight can be dimensioned. Because with it reduce the moving masses, the working speed increase the warp knitting machine.

The tension element is preferably in the form of a wire or rope educated. A wire or rope can essentially be Transfer tensile forces while compressive forces come in handy are not transferable. It is for this purpose though required the wire or rope on both Hold ends or apply forces. A Motion control, with elements from both sides can be drawn from, but is known per se. One can either reset devices on one Use end or over the wire or rope return a pulley to the drive. A large Advantage when using a wire or one Seiles is that such a tension element has small weight and takes up little space, so that you have a plurality of tension elements side by side arrange and thus a corresponding variety of thread guides can control in different ways.

The shaft preferably has a cross section on, which is smaller than the cross section of the holding part. So the thread guide is stabilized, what themselves especially at higher speeds of movement turns out to be advantageous. The mapping between the tension element and the thread guide is due the larger cross section of the holding part with high reliability maintained and above all against Moments that affect the thread guide.

It is also beneficial if the length of the shaft is smaller is than double the length of the holding part. In order to remain moments on the holding part in an acceptable Area.

The holding part preferably has a clamping device with which the thread guide is clamped to the tension element is. This configuration has above all Advantages if you change the position of the thread guide want to change the tension element, for example by one insert a new repeat or a new pattern. For this it is only necessary to use the clamping device to solve and the tension element and the holding part relative to move to each other. Then if the clamping device is set again, is the thread leader in the desired position attached.

In a preferred embodiment, that the holding part and the tension element glued together are. So that the element and the holding part quasi inextricably linked, so that changes the position of the holding part on the tension element the gluing can practically no longer be effected. If a change in the position of the holding part on Tension element is required, for example by changing of the repeat, you may have to find a new one Use tension element and new thread guides. The design but has the advantage that the production of Thread guide becomes very easy. You don't have to be constructive Take measures to the clamping element, for example a screw to be able to fasten. About that it is also possible to save weight, so that the working speed of the warp knitting machine increases or reduces the stress on the control elements can be.

It is particularly preferred that the holding part is a Has recess in which the tension element is inserted is, the recess at least partially with a Fixing compound is filled. You can do that, for example Traction element in the recess, which is designed as an open groove insert, then inject an adhesive and harden it, for example under the Use of UV radiation. The recess can therefore be open about what material saves on the holding part. The Plastic that is used for gluing can be relative be light. With "glue" all connection types should be used be understood through which a permanent Connection between the holding part and the tension element is created. This connection can be with or without Auxiliaries are generated.

Preferably, several thread guides are provided, the Holding parts parallel to each other and towards them Shafts are arranged one above the other, the shafts have different lengths. Because of the different Lengths of the shafts, it is possible that the Guide eyes of all thread guides on an imaginary line can be arranged. Nevertheless, it is possible that individual thread guides individually within certain limits can be controlled.

Preferably longer shafts widen on the End that is connected to the holding part. So that is the same stiffness for the longer thread guides achievable as with the shorter thread guides. The broadening can lead to the fact that when fixing the longer thread guide on the tension element more Space needed. However, this is not critical because one the widenings, if necessary, triangular let stand beyond the group of thread guides can.

The holding part is preferably in a groove in one Bar carrier arranged. The groove in which the thread guide are kept with very little play, also serves to stabilize the movement of the thread guides. Basically, a movement is only parallel possible to extend the groove. This is another one Measure to absorb moments beyond the Shaft could be exerted on the holding part. by virtue of the rigid connection between the shaft and the holding part, for example by welding or soldering the shaft to the holding part or through an integral design of these two parts is achieved can be achieved that the shaft with the same kinematics is moved as the holding part.

Preferably, the holding part is interposed by Slide shoes guided in the groove. To the sliding properties to improve, it is advantageous if the Thread guide or its holding part no direct contact with the surface of the groove. This contact can be made via the sliders are made, which is a small one Generate distance between the holding part and the groove and can be formed from a material with the Material of the bar carrier interacts as little friction as possible. As a rule, plastics are well suited for this. The slide shoes are also wear parts trained so that by replacing the slide shoes have a long service life for the thread guides and can reach the associated barre.

The sliding shoes are preferably attached to the tension element. This training has two advantages. On the one hand there is a support of the holding part in the groove at the greatest possible distance. On the other hand, it also prevents that the tension element on the walls of the groove rubs.

It is favorable if the sliding shoes are U-shaped and clipped on and / or glued to the tension element are. The sliding shoes are then positioned as I said, close to the two ends of the holding part. The clip is a connection that is quickly released can be. Additional stabilization may occur but result from a permanent connection, such as gluing.

The bar carrier preferably has a cover on. The cover covers the groove and beyond an area in which the shaft of the thread guide extends. The coverage therefore leads to an increase the lateral stability. The cover can be made of sliding material exist or be coated with such.

It is particularly preferred that two bar supports with the cover interposed with its groove Pages lie against each other. Then here is enough a relatively thin intermediate plate with good sliding properties because the thread guides support each other, not only do not hinder their movement, but actually increase the lateral stability.

The tension element is preferably at at least one end provided with a thread with a drive element can be brought into engagement. So with the repeat adjustment new thread guides fed or redundant can be removed, the tension elements, i.e. No wires or ropes at their ends Have thick spots or eyelets that are no longer visible fit the groove through. One can therefore use the tension elements provided with threads on at least one side. The Thread enables a firm and space-saving connection with the drive of the tension element (or with a corresponding tensioning device on the other side). But it allows after removing the drive or the tensioning device that the tension element from the groove is pulled out. Of course you can instead of one Use a different fastening geometry, which are also not or not essential to one Enlargement of the cross-sectional area of the tension element contribute. For example, a type of bayonet lock is conceivable.

Fig. 1

eine Musterlegebarre mit Antriebsseite und Spannseite,

Fig. 2

eine vergrößerte Ansicht einer Musterlegebarre mit acht Fadenführerreihen,

Fig. 3

eine perspektivische Ansicht eines Fadenführers,

Fig. 4

einen Schnitt IV-IV nach Fig. 2,

Fig. 5

eine Querschnittsansicht durch eine Doppelbarre,

Fig. 6

eine Kupplung zwischen Antrieb und Zugelement,

Fig. 7

eine Fadenführergruppe mit acht Fadenführern,

Fig. 8

eine alternative Ausgestaltung eines Fadenführers,

Fig. 8a

einen schematischen Querschnitt durch ein Halteteil und

Fig. 9

eine Seitenansicht einer Wirkmaschine.

The invention is described below with reference to preferred embodiments in conjunction with the drawing. Show here:

Fig. 1

a sample bar with drive side and tension side,

Fig. 2

an enlarged view of a pattern bar with eight rows of thread guides,

Fig. 3

a perspective view of a thread guide,

Fig. 4

3 shows a section IV-IV according to FIG. 2,

Fig. 5

a cross-sectional view through a double bar,

Fig. 6

a coupling between drive and tension element,

Fig. 7

a thread guide group with eight thread guides,

Fig. 8

an alternative embodiment of a thread guide,

Fig. 8a

a schematic cross section through a holding part and

Fig. 9

a side view of a knitting machine.

Fig. 1 shows a sample bar 1 with several groups 2, 3 of thread guides 4. Thread guides corresponding to one another 4 of each group 2, 3, i.e. each first, second, third, etc. thread guide 4 of each group 2, 3, are driven together, i.e. they can be relative to a bar carrier 5 in an offset direction 6, which is marked by a double arrow, moves are provided, means not shown are with which the bar support 5 also in Offset direction 6 is movable.

Tension elements 7 are provided for driving the thread guides 4, which are designed as wire or wire rope, thus have a relatively small cross section. The Tension elements 7 are what is shown in FIG. 2 below and 4 will be explained in more detail, transverse to the direction of offset 6 arranged one above the other. Each tension element 7 stands over a drive belt 8 with a drive motor 9 in connection, with the drive belt 8 at its other End is set in a clamping element 10, the designed as a single-acting compressed air cylinder is. The clamping element 10 is a pressure source P pressurized.

The other end of the tension element 7 is with a strap 11 connected, which is guided over a deflection roller 12 is and also fixed in a clamping element 13 is. The tensioning element 13, which is also considered simple acting air cylinder is formed by a pressure source P1 supplied with compressed air. The pressures the pressure sources P, P1 and the effective pressure application areas the clamping elements 10, 13 are so on top of each other matched that on both ends of the tension element 7 same force is exerted. The drive motor 9 must therefore only apply forces to move the Tension element 7 are required. However, he does not have to Apply forces to tension a spring or a other clamping device are required.

Fig. 2 now shows the closer structure of the sample bar 1. It can be seen that in a thread guide group 2, 3 eight thread guides 4 are arranged. The Thread guides 4 are next to each other in the direction of offset 6 arranged and driven by tension elements 7, arranged transversely to the direction of offset 6 one above the other are. A thread guide 4 is now associated with Fig. 3 described.

The thread guide 4 has a shaft 14 on the a thread guide eye 15 is arranged at the lower end is located in a perforated needle 16 which is in the shaft 14 is attached.

The upper part of the shaft 14 is with a holding part 17 firmly connected, that is welded or soldered or the shaft 14 is formed in one piece with the holding part 17. The holding part 17 has a longitudinal bore, through which the tension element 7 is guided. A clamping screw 18 in the holding part 17 serves the holding part 17 to clamp on the tension element 7. If you have the Clamping screw 18 loosens, the holding part on the Move tension element 7 in offset direction 6 and on another position by tightening the clamping screw 18 again.

At the two ends of the holding part 17 are sliding shoes 19, 20 arranged. The sliding shoes 19, 20 have one U-shaped cross section. You are on the tension element 7 clipped on and can be used with a Adhesive should be fixed, the adhesive mainly the task is to fix the slide shoes 19, 20 at the ends of the holding part 17 during operation cause. If a displacement of the thread guide 4 on the tension element 7 is required, then you can simply bending the slide shoes 19, 20 a loosening the slide shoes 19, 20 reach from the tension element 7, so that the thread guide 4 is moved to a new position can be.

As is apparent from Fig. 4, the holding parts 17 in Grooves 21 arranged with a relatively small Game. The sliding shoes 19, 20 are on the grooves 21 adapted that a contact between the holding part 17 and the bar support 5 basically does not take place. At the same time, the sliding shoes 19, 20 also prevent that the tension element 7 comes into contact with the bar carrier and rub against it.

Since several grooves 21 are parallel to each other in the bar carrier 5 are available, you can also choose one large number of thread guides 4 per group 2, 3 accommodate. Eight thread guides of the fourth attempt are shown have shown that with such a bar can accommodate up to twelve thread guides per group.

The side of the bar support 5 into which the grooves 21 open, is covered by a cover 22. The cover 22 is so far in the direction of the thread guide eyelet 15 preferred that they also have a relative covers a large part of the shaft 14. The cover 22 can, for example, with the aid of a screw 23 Bar support 5 may be attached so that the cover 22nd can be removed if individual thread guides 4 have been serviced, are to be exchanged, removed or supplemented.

Fig. 5 shows a modified embodiment in which two bars 5a, 5b are provided. Both bars 5a, 5b lie between the cover 22 with the side into which the grooves 21 to open. The cover 22 is relatively flexible, i.e. it can be relatively thin. So that can individual thread guides 4 on the two bar supports 5a, 5b mutually stabilize in the transverse direction 24, too when it moves in the offset direction 6 relative to each other become. The cover 22 then ensures that thread guides of the bar carrier 5a not with thread guides Can support 5b collide.

The cover 22 can be made of sliding material, for example a plastic, consist of or coated with such his. In the case of the single bar, after Fig. 4, the cover 22 should have some mechanical Have stability to provide transverse stability to achieve.

So that you have new thread guides when adjusting the repeat can supply or remove superfluous, the Tension elements 7 at their ends no thick spots or Have eyelets. The tension elements 7 are therefore at least provided at one end with an external thread 25, onto which a towing eye 26 can be screwed in which the drive belt 8 or the tension band 11 hooked can be.

Fig. 7 now shows a situation in which all thread guides 4 rest in the direction of offset 6. It can be seen that the thread guide 4a, the holding part 17a is arranged in the lowest groove, one have a shorter shaft 14a than the thread guides 4b, the holding parts 17b arranged in the uppermost groove are. The shaft 14b of such a thread guide is much longer.

In order for a thread guide 4b with a longer shaft 14b to achieve the same mechanical stability as with a thread guide 4a with a shorter shaft 14a provided that the longer shafts 14b in Towards the holding part 17b a widening 27 of the shaft 14b results.

This widening 27 requires in the direction of offset a little more space. But this is not critical because the Widening 27 also angled relative to the shaft 14b can be, so that the widenings 27 in total can have the shape of a triangle.

By attaching the thread guide 4 via the holding part 17 on the tension element 7 and the support of the holding part 7 both on the tension element 7 and on the sliding shoes 19, 20 in the groove 21 is a very stable positioning the thread guide 4 reached on the bar carrier 5, i.e. Moments created by forces in the area of Thread guide eyelet 15 applied to the thread guide 4 are due to the relatively large width of the holding part 7 added.

Some dimensions are advantageous here. So the length of the shaft H should at most double the length of the holding part 17. It is also an advantage if the cross section of the shaft 14 outside the reinforcement 27 is smaller than the cross section of the Holding part 17.

Toothed belts can be used as the drive belt 8 and as the tension belt 11 or flat belts can be used with the drive motor 9 or the guide roller 12 a good engagement enable. The clamping elements 10, 13 can be used as Glass tubes with graphite pistons. The Graphite pistons run in glass at least almost without wear. The glass bulbs do not inflate and have a relatively small air loss. With an education the clamping elements 10, 13 as a single-acting Air cylinders can achieve that the preload properties are not length dependent, like this for example, would be the case if one as a tensioning device would use a spring. Accordingly the drive motor 9 only has to apply the force, which is required to drive the thread guides 4, but not the force required to tension a reset device would be required.

The elements used to drive the thread guides, namely the tension element 7, the drive belt 8, the Tension strap 11 and the sliding shoes 19, 20 are of relative low mass, so that you can use the shown Construction relatively high accelerations and thus Can reach operating frequencies.

8 shows an alternative embodiment of a thread guide, in the parts which correspond to those of FIG. 3, provided with reference numbers increased by 100 are.

The holding part 117 now has one in the offset direction 6 extending groove 29, which is open on one side. How can be seen from Fig. 8a, is in this groove 29 Tension element 7 inserted and with the help of a fixing compound 28, for example an adhesive. The attachment of the holding part 117 on the tension element accomplished simply by pulling the tension member 7 inserted into the groove 29, the fixing compound 28 is injected and then let it harden, for example under Use of UV radiation. It is not necessary that the fixing compound 28 the entire groove 29th fills. One can use the adhesive connection between the tension element 7 and the holding part 117 also on certain lengths restrict.

With this configuration there is a change in position of the thread guide on the tension element 7 no longer without further possible. For a new position of the thread guide on the traction element is therefore expediently one use new tension element. The manufacture is however extremely simple. Such a thread guide also has usually only a lighter weight.

The remaining parts, for example the sliding shoes 19, 20, can also with the thread guide shown in Fig. 8 be used.

In Fig. 9, the work area 37 is a warp knitting machine to the knitting needles 38 with sliders 39, a piercing comb 40 and a tee comb 41 belong. The goods are removed via a take-off roller 42. The laying bar 43 feeds basic threads, the laying bar 44 Picotfäden. Six bars 45, 46, 47 follow. 48, 49, 50, each with four to twelve sample bars Form of the described in connection with FIGS. 1 to 4 Construction included. Two jacquard bars follow 51, 52 and another laying bar 53 for Ground threads. The bars of the laying bars 45 - 50 are arranged in pairs and lie with their sides to each other, in which the grooves 21 are arranged.

Claims (16)

Warp knitting machine with at least one pattern bar, which has a plurality of thread guides which can be moved back and forth in the offset direction by a drive, the drive acting on the thread guide via a pulling element, characterized in that each thread guide (4) has an essentially in the offset direction (6 ) extending holding part (17, 117) which is arranged substantially perpendicular to a shaft (14, 114) and is rigidly connected to the shaft (14, 114), the holding part (17, 117) being fixed to the tension element (7) is. Warp knitting machine according to claim 1, characterized in that the tension element (7) is designed as a wire or rope. Warp knitting machine according to claim 1 or 2, characterized in that the shaft (14, 114) has a cross section which is smaller than the cross section of the holding part (17, 117). Warp knitting machine according to one of claims 1 to 3, characterized in that the length (H) of the shaft (14, 114) is less than twice the length (L) of the holding part (17, 117). Warp knitting machine according to one of claims 1 to 4, characterized in that the holding part (17) has a clamping device (18) with which the thread guide (4) is fastened in a clamping manner on the tension element (7). Warp knitting machine according to one of claims 1 to 5, characterized in that the holding part (117) and the tension element (7) are glued together. Warp knitting machine according to claim 6, characterized in that the holding part (117) has a recess (29) in which the tension element (7) is inserted, the recess (29) being at least partially filled with a fixing compound (28). Warp knitting machine according to one of claims 1 to 7, characterized in that several thread guides (4) are provided, the holding parts (17) of which are arranged parallel to one another and one above the other in the direction of their shafts (14), the shafts having different lengths. Warp knitting machine according to claim 8, characterized in that longer shafts (14b) widen at the end which is connected to the holding part (17b). Warp knitting machine according to one of claims 1 to 9, characterized in that the holding part (17) is arranged in a groove (21) in a bar carrier (5). Warp knitting machine according to claim 10, characterized in that the holding part (17, 117) is guided in the groove with the interposition of sliding shoes (19, 20). Warp knitting machine according to claim 11, characterized in that the sliding shoes (19, 20) are fastened to the tension element (7). Warp knitting machine according to claim 11 or 12, characterized in that the sliding shoes (19, 20) are U-shaped and are clipped and / or glued onto the tension element (7). Warp knitting machine according to one of claims 10 to 13, characterized in that the bar carrier (5) has a cover (22). Warp knitting machine according to claim 14, characterized in that two bar supports (5a, 5b) lie against one another with the sides of the cover (22) having the groove (21). Warp knitting machine according to one of claims 1 to 15, characterized in that the pulling element (7) is provided on at least one end with a thread (25) which can be brought into engagement with a drive element (26).

Images