DE4015936A1 - KNITTING MACHINE - Google Patents

Abstract

In a knitting machine with an electric needle selection system having a holder, a selector and an adjusting device for selection elements, the adjusting device has an adjusting magnet (41) arranged in such a way in relation to the selected knitting elements (5) that a shearing force is brought to bear on the corresponding knitting elements (5). An electric needle selection system is thus obtained that allows selection to be carried out in a reliable way even at high switching frequencies but that is nevertheless of simple design.

Description

The invention relates to a knitting machine with an elek trical needle selection system, which a holding device, a selection device and an adjustment device for Se has lesson elements.

Fig. 1 shows a schematic cross section through a conventional needle bed of a flat knitting machine to explain the operation of a needle selection system. In the needle bed channel 1 of a needle bed 2 are a needle 3 , an Ar beitsplatine 4 and a selection or selection board 5 in the order mentioned from the needle bed comb from one another. A lock carriage, which moves perpendicular to the direction of movement of the needle 3 , the work plate 4 and the selection board 5 over the needle bed, comprises a lock area 6 , which is located in the region of a needle foot of the needle 3 , a work board foot 8 of the work board 4 of a selection board foot 9 . At the end of the lock carriage facing away from the needle there is the needle selection system 11 which is used to selectively move the respective selection boards 5 in the direction of the work board 4 or the needle 3 .

Fig. 2 shows a schematic plan view of the needle bed in the region of the needle selection system 11 and the selection system on the needle 11 adjacent lock portion 6. Components and parts in FIG. 2 which correspond to those of FIG. 1 are provided with the same reference symbols.

When the carriage runs in the direction indicated by an arrow 21 over the needle bed, enters a Auswahlpla tine 5 in the area of the swivel foot in Fig. 2 and a non Ver 10 of the selection sinker 5 Auswahlsy shown stems. 11 As will be explained in more detail below, the selection boards 5 to be selected in the selection system 10 are optionally brought from their starting position (position 22 or 23 ) into a position (position 24 ) in which the foot 9 of the selection board 5 by one lock member 28 can be detected, the circuit board, the selection sinker 5, and thus the work 4 in a position control (position 26), in which the foot can be detected 8 of the work board 4 from a working board lock part 29 in order to in a corresponding manner, the Needle 3 or the needle foot 7 (see. Fig. 1) in a further lock area, not shown, in which the Na del 3 is controlled with corresponding lock parts in their movement ge. A trigger lock part 30 is used to withdraw the respective selection board 5 in the further course of the slide movement (position 27 ) and to return it to its starting position for a further selection.

For the needle selection two are on different princes pien based systems, namely multi-stage systems and one stage, so-called mono system known.

An example of a multi-stage system is that several hinged anchor magnets in the direction perpendicular to Lock sledge running direction next to each other in a row are not. The selection boards each point to each other put feet on that in each area of the row orderly hinged armature magnets are present. Become one of these When electromagnets are energized, its armature actuates an oblique one Level that in the neutral position of each board feet the selection boards swings in. The boards move on the inclined plane towards the needle bed ridge. Although the like needle selection systems with hinged anchor magnets satisfied work in a position and in practice to a considerable extent  are used, they still have disadvantages. The Folding in and out of the inclined plane is due to the Inertia of the hinged anchor mechanism and the electrical Time constant of the electromagnet with a relatively large one mechanical time constant and thus with a small one Switching frequency of the hinged anchor system connected. To this To avoid the disadvantage, as I said, several Klappan core magnets are used, which are triggered at different times with a gradation of the adjustable feet on the selection boards according to the number and grading of the cl Appankermagnete is provided. For this purpose, un Different selection boards with adjustable feet on different those positions should be provided that increase the manufacturing costs increase additionally.

Modern knitting machines are used to increase production vity as high as possible strives. Accordingly, the number of folding armature magnets and the number of different selection boards with staggered felt feet high. In addition, it is widespread Needle bed necessary and the selection system er overall requires a lot of space, quite apart from a high electrical expenditure due to the numerous Chen cable inlets and the control technical opening wall. Both in terms of effort and in terms of The technical possibilities are therefore regarding the Knitting speed with such a multi-system Na del selection system set limits.

Mono systems are an alternative to multi-stage systems known. In such systems, the selection board not by means of an appropriately swung in Level moved from the zero position, but the shift of the Selection elements are made by means of a spring or a  Magnets on the selected selection element acts and moves this in the needle channel. The through the Spring or magnet applied force must be able to the individual selection elements around the required selection onsweg to adjust. Before making a selection, everyone must first Selection elements brought into a zero position and ge there will hold. The counterforce required for this must be greater than the one exerted by the spring or the magnet tension with which the selection element ver is posed. At a selection point, this counterforce canceled at short notice, so that by the spring or the Magnetic biasing force a movement of the Selekti can initiate onselements from the holding force range.

Mono systems of this type are in a variety of forms have already been described. From DE-A1-22 17 115, the DE-A1-24 14 193 and EP-A1-2 49 203 are needle selection systems known in which the selection by the differ Chen tilted state of lifting boards. The lifting boards are held in place by a permanent magnetic holding arrangement Selection area pressed. The selection of the board by Än the tilting state on the selection device can in different ways: by energizing one at a time This electromagnet exerts a pulling force on the selecti on board. This tilts into the corresponding position or is held in the starting position. An alternative Embodiment is that the tightening force of one Permanent magnet is applied. By energizing the The attraction is canceled so that the Selek tion board tilts. In yet another embodiment are held on both sides by a permanent magnet. Here comes through a corresponding constructive structure only one electromagnet is used, depending on the current direction  in the coil weakens one permanent magnet while the attraction of the other is increased.

From DE-A1-12 69 762, DE-A1-13 03 938, DE-A1-15 85 001, DE-A2-19 20 531 or CH-A1-4 60 232 is another Known principle for a needle selection system in which the Se lesson boards in a selection channel to the selection point be concentrated. The selection itself is made according to densel ben options like this previously related to the Rocker arm board was explained. Through the behind the Aus permanent magnetic holding parts the boards are moved linearly. The selection is possible in both directions due to the symmetry. From the DE-A1-29 38 835 and 29 48 804, and DE-C1-36 14 220 Magnet selection systems are known in which the selection circuit boards have spring elements. By a mechanical connection the selection boards become a permanent magnet fed table holding area. The spring is ge tense. The holding force of the magnet assembly, preferably is generated permanently magnetically, compensates the leader by spring. To release the selection board, a Energized coil, so that the holding force is released. Becomes the holding force is generated electromagnetically, the exciter current of the electromagnet switched off to the circuit board to solve.

An alternative embodiment is from DE-A1-21 55 808 and DE-B1 21 15 332 known in which a spring as Selector element is provided. The featured on the selection board seen spring element, which be made of a magnetic material stands, is kept by a permanent magnetic area ten when the selection board from the selector is swept over. The spring elements are featured tensions by placing the selection boards over a slope  be pressed down. Will the spring element at the selection place released, the spring relaxes and follows the off choice board. The spring element is attached to the mechanical channel guided past. If there is no loosening, a second permanent magnetic holding device the spring in the upper part of the mechanical sewer system leads.

Finally, a needle selection principle is known from EP-A1-18 790 known in which the selection boards with an electromagnetic ten be magnetized. The sled with an electric magnet moves past the selection boards. Depending on the direction of the through the coil of the electromagnet flowing current lies at the selection point a north or South pole. The selection boards are accordingly as Magnetized south or north pole. Adjusting the plati NEN takes place according to their polarity on permanent magnets holding strips.

High switching frequencies are present in all mono systems suspension to address the individual selection elements to be able to. At high sled speeds, which today days to be reached and striven for and in the range of 1.3 up to 1.5 m per s result for fine needle bed eggs Switching frequencies around or above 800 Hz. In addition the adjustment device must change the selected board by one sufficiently large path from their starting position towards of the needle bed comb so that the sinker foot moves away from the lock can be detected. On the other hand, it must be ensured that unselected selection boards in their starting position and not with the adjustment device be adjusted. The conventional needle selection systems be it single or multi-stage systems, are not in  able to switch and adjust operations with sufficient closing to achieve reliability for high switching frequencies.

The invention is therefore based on the object of a rope machine with an electrical needle selection system fen, which is reliable even at high switching frequencies Selection allowed and yet a simple structure having.

The object is achieved according to the invention in that that the adjusting device comprises a magnet which be arranged in relation to the selection elements to be selected is that it has a shear force on the respective selections exercised elements.

The feature according to the invention, on the selectivity to be selected to select a magnetic shear force has the Advantage that the selection element is not as with conventional Chen systems on a magnet that is the selection element attracts, bounces, but on its magnetic pole surface tet and is braked magnetically. In the fiction According to the execution, there is a relative at the beginning of the movement great force available that causes the selected one Selection element strong and fast from the holding area is pulled. While in conventional arrangements Force and thus the speed of the selection element when pulling it off directly using a magnet on the End of the movement becomes high, and the board with high ener pour on the adjustment unit or the adjustment magnet hits - the consequence of this is high wear and tear slow demagnetization of the permanent magnet by the Shocks on impact - is in the Invention the selected arrangements, with high force initially subtracted selection element after passing through Ma  gnet plane of symmetry braked without it on any Object with the said consequences. Furthermore is by the shear force after the selected one is subtracted Selection element both in the direction of the needle bed comb also acts in the opposite direction to ensure that the selecti onselement is held in its defined position.

According to a preferred embodiment of the invention the adjustment magnet over at least one adjustment foot of the Se lesson element arranged.

A particularly advantageous embodiment of the invention consists in that one of the holding devices facing away from vertical side surface of the adjustable foot of the selection element with the vertical facing the holding device Side surface of the adjusting magnet is essentially aligned, when the selection element from the holding device is in ner starting position is held. This measure is special ders advantageous because the maximum adjustment force then on The selected selection element takes effect when the adjustment foot and the magnetic pole no longer coincide.

The width seen in the direction of movement is preferably correct of the adjustable foot of the selection element essentially with the width of the adjusting magnet. That way a very defined position of the adjustable foot of the selection elements and thus the selection element itself represents when the selection element from the holding device has been deducted.

Alternatively, it is also possible to change the width of the ver solenoids larger than the width of the adjustable foot of the Selection element to choose. This measure works  also apply a force to the selection element if this is already in register with the magnet.

It is also advantageous if the width of the adjustment magnets the double adjustment of the selection element corresponds.

An embodiment of the adjusting magnet is particularly important partial, in which the verti facing the holding device kale side surface of the adjusting magnet in the direction of Ver Leveling foot of the selection element runs obliquely. With Ver application of this embodiment has been found that a more constant due to the inclined magnetic shape Force-displacement curve results in what in some use cases is particularly advantageous.

Another embodiment of the present invention be is that the verti facing the holding device kale side surface of the adjusting magnet in the direction of Ver foot of the selection element has a projecting edge having. Studies show that the force is on the selection element in the first half of the cover between adjustment foot of the selection element and adjustment magnet is greatest. When using a protruding edge according to said embodiment, in which a type If there is an offset, it is possible to select the selected one to always keep the onselement in this maximum force range, if the sled over the selection elements tet. It is advantageous if the by the protrusion leading edge offset with the adjustment speed digkeit, d. H. with the speed with which the Selekti deducted onselement from the holding device, abge is true.  

According to a particularly advantageous embodiment of the Erfin The adjusting magnet has at least two magnetic shoes on, each one of at least two magnetic feet Selection element are assigned. This arrangement is the half of a great advantage because of the two magnets shoes of the adjusting magnet are essentially closed ner circle for the magnetic flux results. As a result, the the magnetic poles on the adjustable feet of the selection elements exerted shear forces particularly large because the magne tables flow over the needle bed onto the air gap and the Concentrated adjustable feet. Furthermore, this has execution form the advantage that the selection elements are small and can be easily trained, so that for the Bewe energy can be kept low.

In connection with an adjusting magnet with at least Two magnetic shoes, it is advantageous if one of the stops vertical side surface facing away from the device at least one egg Adjustable foot of the selection element to one of the brackets device facing vertical side surface of the ver setting magnet is spaced when the selection element held in its initial position by the holding device is.

Such an embodiment with an offset between at least one magnetic pole of the adjusting magnet and one Adjustment foot of the selection element results at the beginning of the Adjustment a slightly lower adjustment force, the however increases in the further course of the adjustment process and is higher than in an arrangement without such a Ver sentence. This measure has a favorable effect in operation because a more constant force over the required adjustment range course results.  

It is particularly advantageous if at least one pole piece surface with a small frictional resistance the material is coated. In this way, the Rei force caused by sliding the surface of the ver adjustable foot or the adjustable feet on the magnetic pole or the magnetic poles of the adjusting magnet occurs, reduced, without significantly influencing the course of the shear becomes. However, the sliding layer should not be too thick be carried out, otherwise the air gap between pole shoe and adjustable foot becomes too large and thus the shear force effect decreases.

Is preferably between the pole shoe surface and the Edge of the adjustable foot of the Se facing the pole shoe surface lesson element a plate made of non-permeable material intended. Preferably the non-permeable material Teflon. In this way there is little frictional resistance stood between the adjustable foot and the magnetic shoe surface.

According to a particularly advantageous embodiment of the Er are the outermost selection elements as blind Selection elements trained. Are namely for a be right knitting pattern immediately adjacent Se lesson elements selected, so that several of them at the same time be in the cover area of the adjusting magnet Find. The magnetic exterior is reduced accordingly resisted ordering with each additional selection element ment according to a parallel connection. Through it resulting flux increase decreases the magnetic clamps tension off. This will cause the shear force at each additional one additional adjusting element smaller, d. H. each additional additional board is due to a lower shear force than the previous one applied. At the same time, the magnetic tension in the adjustable foot of the selection element  a repulsive force between adjacent selection elements. This has the advantage that boards between two neighboring boards tines due to the repulsion forces with the same polarity in the needle channel be centered. If there are several boards, the two pressed against the outer wall of the needle bed, d. H. they become one repelled on one side, which increases the frictional forces in the needle enlarge channel. In this context, the invention appropriate measure, the last selection element as blind selection without function for the knitting process element.

The knitting machine with the Verstellvor invention direction can be used regardless of how the selection and / or holding device is executed. The fiction moderate adjustment device comes completely without Springs or without selection elements, the springs on sen or be acted upon by spring force. The one with Fe the associated disadvantages, such as relatively complex mechani cal arrangements, a reduction in spring action during the lifespan or the replacement necessary ner springs, therefore occur in the present invention not on.

The adjustment device according to the invention has in particular also the advantage that the adjustment elements over the entire Area of the castle in a fixed, defined position will hold, during which no lock parts on the Selek act element. The selection element can therefore do not accidentally slide out of its position or back. First then when a lock part is defined and controlled on the plati attacks the foot, the selection element or the circuit board led out of their position held by the shear force will. Due to the defined mounting of the selection lements in the adjustment device is not required  Lich, certain measures to brake the selection element to provide how to bend the selection element to it hold in position in the channel by frictional forces. There no braking measures need to be available occurs at Ver no use of the adjustment device according to the invention Wear and no heat build up, and that for that Forces required for carriage movement can be less be.

The invention is described below with reference to the drawings explained in more detail, for example. Show it:

Fig. 1 shows a schematic cross-sectional view through a needle bed along a needle channel,

Fig. 2 is a schematic top view diagram of one needle bed region in which the selection system is located,

Fig. 3 is a schematic diagram for explaining the operation of a so-called mono system,

Fig. 4 is a simplified schematic illustration of the adjustment device according to the invention force action with shearing,

Figure 5 is an embodiment of the invention having a two magnet shoes having adjusting elements and selection feet. Each with two adjustment,

Fig. 6 is a schematic representation of an embodiment with special erfindungsge MAESSEN assignment of the magnetic pole to the adjustable feet of a Selek tion elements,

Fig. 7 shows another embodiment of the adjusting magnet in a schematic representation,

Fig. 8 an advantageous training form of Verstellma and

Fig. 9 is a schematic construction drawing of an adjustment device according to the invention.

The schematic representation of a mono system according to FIG. 3 shows selection elements 5 in the form of selection boards which, as has already been described in connection with FIGS. 1 and 2, lie in the regions of the needle channels 1 of the needle bed 2 facing away from the needle bed comb. Haltvor devices 31 , which are arranged symmetrically to a selection device 32 , hold the selection elements 5 in the zero or starting position 35 when the slide and thus the needle selection system slides over the needle bed 2 . The carriage movement in Fig. 3 is indicated by the arrow 33 and leads from left to right.

The holding device 31 causes the selection elements 5 to be guided past the selection device 32 . If the selector 32 is controlled so that one of these selection elements to select 5 and releases them occurs adjusted in the following in more detail for explanatory adjusting device 34 in function, the lesson element the selected Se 5, ie from the Auswahlvorrich tung 32 is withdrawn and in brings a selection layer 35 , in which the foot of the selection element, as already explained with reference to FIGS. 1 and 2, can be grasped and moved in a controlled manner by lock parts.

Selection elements 5 , which were not selected by the selection device 32 and were therefore not adjusted or subtracted by the adjusting device 34 , are still held by the holding device 31 in their starting position.

Fig. 4 shows a schematic representation to explain the operation of the adjusting device according to the invention with shear force. Elements and parts that correspond to those of previous figures are provided with the same reference signs as in the previous figures and who will not be explained again.

In the needle channel 1 of the needle bed 2 , the selection element is in the form of a selection board 5 . In Fig. 4 of the selection board 5, only the rear part with the adjustable foot 11 is shown Ver. An adjusting magnet 41 of the adjusting device has exerted a force on the adjusting foot 11 of the selection board 5 , which moves the selection board in the direction of the needle bed comb after release by the holding device (not shown). The upper edge of the adjustable foot 11 of the selection board 5 slides on the pole surface of the adjusting magnet 41 . The further the upper edge of the adjustable foot 11 of the selection board 5 covers the pole face of the adjusting magnet 41 during the adjustment process, the smaller the shear force until it finally becomes zero when the center line of the adjustable foot 11 of the selection board 5 is aligned with the center line of the pole face of the adjusting magnet 41 is aligned. In this state, only the attractive force of the adjusting magnet 41 occurs perpendicular to the direction of the needle drive. The adjustable foot 11 of the selection board 5 is supported on the permanent magnet.

The maximum adjusting force occurs when the adjusting foot 11 and the magnetic surface of the adjusting magnet 41 no longer coincide. Due to the relatively high initial shear force, the selected selection element 5 is greatly accelerated at the beginning of the adjustment process, so that it covers a relatively large distance and leaves the selection or holding area safely. Since the force on the way - as shown - decreases to zero, the selection element runs out and does not have to be mechanically braked by a stop. The operation of the adjusting device according to the invention is practically wear-free.

Fig. 5 shows a preferred embodiment of the adjusting device in a schematic representation. Here, Fig 5a shows. 5b is a side view and a view in the direction of the needle channels. Here too, parts and elements which correspond to those in the figures described earlier are provided with the same reference symbols as in the previous figures.

In contrast to the embodiment shown in FIG. 4, the adjusting magnet in the embodiment according to FIG. 5 has two magnetic shoes 51 and 52 .

. As shown particularly in Figure 5b it can be seen, there are three selection elements 5 - 1, 5 - 2 and 5 - 3 delbettkanälen in adjacent Na 1 - 1, 1 - 2 and 1-3. The respective magnetic Schu hen 51 and 52 are two adjustable feet 53-1 and 54-1 associated with a selection element 51st Due to the doubling of the magnetic shoes and the doubling of the adjusting feet on the selection element, the shear force and thus the pulling force is significantly increased. In this embodiment of the invention, the shear force can even be more than the double of the embodiment shown in FIG. 4, since the arrangement of the magnetic shoes not only allows the use of two magnetic pole surfaces, but also a favorable magnetic force for the magnets Magnetic flux guidance represents.

As already explained, the selecting device (not shown) of the are also selected or freige passed selection elements 5 is pulled by the adjusting magnet in the direction of the needle bed comb until the adjusting feet 53-1 and 54-1 coincide with the magnetic pole.

. As shown particularly in Figure 5b it can be seen that, viewed in the carriage running direction dimension of the magnetic shoes 51 or 52 is so wide that a plurality of selection elements 51, 52, 5 - 3 can be detected simultaneously. As already leads out, the shear force is lower, the more Selekti onselemente are taken by the adjusting magnet 41 . In doing so, repulsive forces between the selection elements due to the same polarity of the flux guiding parts, ie the adjusting feet of the respective selection boards. This means that the selection elements are centered in the needle channel by the repulsive forces and the friction of the middle selection element in the needle channel is therefore less. Due to the feature of providing two magnetic shoes, the tendency of the circuit board to tilt out of the needle channel is also prevented.

Fig. 6 shows schematically an adjusting magnet assembly according to FIG. 5, in which the distances between the magnetic shoes 51 , 52 of the adjusting magnet 41 on the one hand and between the adjusting feet 11 - 1 , 11 - 2 of a selection element on the other hand is chosen so that between At least one magnetic shoe and the associated adjustable foot an offset 61 occurs. It could be shown that due to this Ver 61 at the beginning a slightly lower shear force occurs. In the course of the adjustment process, however, the shear force is higher than in the arrangement shown in FIG. 5 without an offset. The embodiment according to FIG. 6 therefore shows a more constant force curve over the adjustment path.

Fig. 7 shows a shape of the magnetic shoes 51, 52 of the adjusting magnet 41 with an obliquely extending edge, which the adjustable feet located in the starting position 11 - facing 2 - 1, 11. This shape of the magnetic shoes also leads to a more constant shear force curve over the adjustment path.

In Fig. 8 a shape of the magnetic shoes 51 , 52 ge is shown, the side surface facing the holding device is angled. This measure makes it possible to keep the selected selection element in an optimal magnetic force range when driving over the slide.

In Fig. 9 is a schematic design drawing egg ner adjusting device according to the invention schematically Darge presents. Here, too, elements and parts which correspond to those of previous figures are provided with the same reference symbols as in these figures and will not be explained again.

. 1, 11 - - As Figure 1 shows, in cross section, an adjustment element 5 with the two adjustable feet 11 2 is held by a holding or selector 31, which can be det any ausgebil and will not be explained further here.

Above the adjusting element 5 is the adjusting magnet arrangement 41 with two magnets 51 and 52 , and a flux guide part 53 . The holding device of the facing vertical side surfaces of the magnets 51 and 52 are aligned with the holding device facing away from the vertical Seitenflä chen the adjustable feet 11-1, 11-2 of the selection element. 5 The selection board base 9 is still in this position in the area of the needle selection system and cannot be shared by the lock. The adjusting magnet 41 is enclosed by an adjusting magnet carrier 93 , which in turn is flanged to an upper carrier part 92 . The upper carrier part 92 can also carry an arbitrarily designed selection and / or holding device 91 of the needle selection system according to the invention. The underside of Verstellmagnetträ gers 93 , in which the adjusting magnet 41 and possibly a spacer 95 is arranged, is completed by a wear plate 94 on which the adjusting feet 11 - 1 , 11 - 2 of the selection element 5 slide when released by them the selector 91 is subjected to a shear force. The non-magnetic wear plate 94 may, for example, from a lowest possible frictional resistance for the adjustable feet 11-1, 11-2 of the Selektionse lements 5 having material, such as flon carbide or Te, possibly with appropriate coating, best hen, so that a little wear and easy mobility is achieved.

The invention was based on preferred embodiments wrote. Numerous modifications and Embodiments of these embodiments possible without thereby leaving the concept of the invention.

Claims (13)

1. Knitting machine with an electric needle selection system ( 10 ), which comprises a holding device ( 31 ), a selection device ( 32 ) and an adjusting device ( 34 ) for selection elements ( 5 ), characterized in that the adjusting device ( 34 ) has an adjusting mechanism gnets (41) which (5) is arranged with respect to the selected lesson Se elements, that a shearing force is applied to the respective selection elements (5). 2. Knitting machine according to claim 1, characterized in that the adjusting magnet ( 41 ) over at least one Ver adjusting foot ( 11 ) of the selection element ( 5 ) is arranged. 3. Knitting machine according to claim 1 or 2, characterized in that one of the holding device ( 31 ) facing away from the vertical side surface of the adjustable foot of the selection element ( 5 ) with the holding device ( 31 ) facing th vertical side surface of the adjusting magnet ( 41 ) is substantially aligned when the selection element ( 5 ) is held in its starting position ( 30 ) by the holding device ( 31 ). 4. Knitting machine according to one of the preceding claims, characterized in that the width of the adjusting foot ( 11 ) of the selection element ( 5 ) seen in the direction of movement corresponds substantially to the width of the adjusting element ( 41 ). 5. Knitting machine according to one of the preceding claims, characterized in that the width of the adjusting magnet ( 41 ) is greater than the adjustment path of the selection element ( 5 ). 6. Knitting machine according to one of the preceding claims, characterized in that the holding device ( 31 ) facing vertical side surface of the adjusting gneten ( 41 ) in the direction of the adjusting foot ( 11 ) of the se lection element ( 5 ) extends obliquely. 7. Knitting machine according to one of claims 1 to 5, characterized in that the holding device ( 31 ) facing vertical side surface of the adjusting magnet ( 41 ) in the direction of the adjusting foot ( 11 ) of the selection element ( 5 ) has a projecting edge. 8. Knitting machine according to one of the preceding claims, characterized in that the adjusting magnet ( 41 ) we have at least two magnetic shoes 51 , 52 , each of which is assigned to one of at least two adjusting feet ( 53 - 11 , 54 - 11 ) of a selection element ( 5 ) . 9. Knitting machine according to claim 8, characterized in that one of the holding device ( 31 ) facing away from the vertical side face of at least one adjusting foot ( 11 - 1 , 11 - 2 ) of the selection element ( 5 ) to one of the holding device ( 31 ) facing vertical side face of the Verstellma ( 41 ) is spaced when the selection element ( 5 ) is held by the holding device ( 31 ) in its starting position ( 30 ). 10. Knitting machine according to one of the preceding claims, characterized in that at least one pole shoe surface is coated with a material having a small frictional resistance ( 94 ). 11. Knitting machine according to one of the preceding claims, characterized in that a plate ( 94 ) made of non-permeable material is arranged between the pole shoe surface and the edge of the adjusting foot ( 11 ) of the selection element ( 5 ) facing the pole shoe surface. 12. Knitting machine according to claim 1 or 2, characterized in that the plate ( 94 ) is made of non-permeable mate rial Teflon. 13. Knitting machine according to one of the preceding claims, characterized in that the outermost selection elements elements are designed as blind selection elements.