DE1944462A1 - Jacquard knitting unit - Google Patents

Abstract

The electro-magnets used to control the operation of the needles are switched on and off through a contact shaft operating in conjunction with the pattern card. Each magnet directs a group of moving parts, with the magnet pole manipulating the needle push rods in and out of the operation position.

Description

Knitting machine with a device for jacquard patterning. The invention refers to a knitting machine with a device for jacquard patterning, the one information reading out device corresponding to the pattern and one contains controlled device for electromagnetic selection of the needles, the one assigned to the selected needles, towards the magnetic pole and into a working position directs moving parts into a guide that leads them into the working position.

In the known one described in British Patent 1,088,413 Circular knitting machine becomes a read-out device from the rotating needle cylinder and a pattern wheel driven synchronously, which is inclined to the plane of the needle cylinder. This pattern wheel has on its circumference radially in front and teeth that can move backwards. The teeth in the working position grip the foot the sinkers arranged behind the needles in the needle channel of the cylinder. By the inclination of the pattern wheel lead these teeth during the rolling movement of the With the pattern wheel on the cylinder, the circuit board in the needle cylinder upwards and thus in Work position.

In this known arrangement, the inner end is the sliding Teeth attached to one end of a bar spring, the other end of which is in the sample wheel is attached.

The bar spring extends upwards beyond the suspension, where it engages in a fixed guide channel. This guide channel forks in the direction of the rotation of the sample wheel immediately behind the poles of two also fixed magnets. That between the two fixed canal branches lying intermediate piece has the shape of one bent around the axis of the sample wheel Wedge on which the spring ends guided in the outer channel radially outwards and thus also leads the sample tooth to the outside. The magnets belong to the Electromagnetic selection device controlled by the readout device to the needles that cause the rod springs of the unselected mother teeth enter the one, concentric and the sample wheel axis running channel branch, the bar springs of the selected sample teeth, however, in the eccentric ones Enter branch of the guide channel.

For this purpose, the pole of one magnet extends over one Length of the channel that extends over several bar springs. This magnet pulls the bar springs constantly against their spring force. In the middle of the pole this one Magnet is a very small one, just about the width of a single one Rod spring extending pole of a second connected to the readout device Magnets. Is this second magnet magnetized in the same direction as the first Magnet, the spring ends stay in the area of the pole of the second magnet tightened and the bar springs enter the concentric guide branch. Generated However, the second magnet has a magnetic field that is the same as the Llagnetfeld of the first magnet is opposite, then in the area of the very narrow pole of the second one moves away Magnets the bar spring with a high remanence under the action of their own Spring force and under the effect of the repulsive force of the second magnet from the l'olflache and gets into the eccentric through the rotary movement of the sample wheel extending branch of the guide channel, so that the sample tooth is advanced.

In this known device, the needles are synchronized with the Circulation of the needle cylinder selected so that the rotational speed of the needle cylinder depends on the speed at which the needles are selected able Since with the known arrangement there is only one single bar spring in the area of the narrow magnetic pole making the selection is the selection speed limited by the time within which a rod end swings out so far, that it safely enters the eccentric canal branch as it continues to move.

This known arrangement therefore has the disadvantage that the rotational speed of the needle cylinder because of the time required for the selection process is small. The bar springs also wear out relatively quickly during operation must therefore be renewed about once a year in the Hegel, making unpleasant Downtimes and high costs are caused. Finally, the mechanical one The effort involved in setting up the entire sample is quite considerable.

The invention is based on the object of providing a sample device develop which avoids the disadvantages of this known arrangement.

According to the invention, this object is achieved in that the selection device has a plurality of electromagnets controlled by the readout device, the poles of which in the direction of the relative movement between the parts associated with the needles and the magnet extend over a length comprising several of these parts that the magnets lined up next to each other at right angles to the direction of relative movement and each magnet is intended to control a group of parts, where Each part oinor group of dom other part belonging to the same group one Has distance, tor at least corresponds to the length of the poles of the magnets, and that the parts have an armature responding to the associated magnet at the point that moves with the smallest distance past the pole of the magnet.

With the device according to the invention, it is therefore not necessary that the relative movement is so slow that the next one assigned to a needle Part only then enters the area of the magnetic pole responsible for the selection process, if the part assigned to the preceding needle has already left this area and can no longer be influenced by a reversal of the magnetic flux. In the device according to the invention, those performing the selection process extend Magnetic poles, for example, over a distance of 18 adjacent one another, the Needles associated parts and for each of these 18 parts is a special one to which Read-out device connected magnet provided. So each magnet only works on one of these 18 parts. So much time is available for the selection process, how a part remains in the area of the magnetic pole. The next part that is its anchor in the area of this magnetic pole, i.e. the next part of this group, will only be then thrown a selection impulse if the previous part of this group has left the area of the magnetic pole.

This makes it possible with the device according to the invention, with to drive much higher working speed than with the known arrangement. The distance required for influencing the parts assigned to the needles Is available, can be chosen arbitrarily large within a certain framework, it increases As the length of this distance increases, only the number of necessary Magnets.

A particular, further advantage of the invention is that this arrangement not just to choose from of sample teeth on one Can use pattern wheel for circular knitting machines, in which the needles assigned Parts that are selected by the magnets, which are bar springs, but quite general can be applied. The parts associated with the needles can in one embodiment the invention be designed as rod-shaped plates guided in a bed, which has a board head made of magnetically non-conductive material in which a sinker body is pivotably guided, which has an armature made of magnetically conductive Material carries.

In particular, the invention is suitable for embodiments in which the magnets are arranged directly behind the needles and assigned to them Acting dividers, commonly referred to as pushers. The special one The advantage of this embodiment of the invention is that a pattern wheel and the entire technical required when using such a sample wheel Effort is saved.

This embodiment is not only suitable for use in Circular knitting machines, but also for needle selection on flat knitting machines. Man thus receives a universally applicable, even retrospectively, already sold machines with minor changes attachable pattern device.

It is not absolutely necessary that the boards if they are immediate serve as a pusher for the needles, in a sinker head! and one through with him a joint connected board body are divided. If the Angle. is sufficiently small that the boards are closer to theirs when selected Long direction can be moved, sufficiently small, 50 can serve as a pusher Board also be in one piece.

In the following, the parts assigned to the needles to which the Magnets act during the selection process, always referred to as circuit boards. So that should However, the use of the features of the embodiments may be included, where the parts on which the magnets act are not plate-shaped, for example in the form of a rod spring in the known arrangement. Of the The term "boards" is intended to include, in particular, those embodiments in which the sinkers are designed directly as pushers for the needles.

For execution forms in which the sinkers do not move radially but along surface lines in a needle cylinder on a circular knitting machine or at right angles to the cam movement on a flat knitting machine, the guide runs, which advances the blanks in the working position, of course not eccentrically to an axis, as in the well-known an-order, but it forms any one that are best adapted to the circumstances, for example linear ones in places Elevation curve. In one embodiment of the invention, the boards have on their rear end a cutout into which the profile of the lift-up curve engages. In other embodiments of the invention is the set-up curve designed as a groove in which the rear end of the sinkers is guided.

In embodiments of the invention, a pitch curve is provided, the sinkers through the slative movement between the sinkers and the pitch curve the Magnetpale approaches. One advantage of this embodiment of the invention is remember that the magnets do not have to use any force to oppose the plates to pull springs attacking them to the magnetic poles, but the magnets only have to hold on to the boards brought up to them by the pitch curve. Care is taken that the anchors of the plates do not touch the magnetic poles, thus not by gluing the armature to the magnetic poles the coefficient of friction between the magnets and the plates moved relative to them is increased too much. this can be done, for example, in that stops are provided that the pivoting movement limit the sinkers in a position in which the anchors still - a small distance, for example 1/100 mm away from the surface of the pole.

The pitch curve must be in the direction of the relative movement between boards and magnets can of course be arranged in front of the magnets. In the application the invention in flat knitting machines this means that before each ram lock a pitch curve must be provided, that is, for the one taking place in one direction Forward movement and one adjustment curve each provided for the return movement of the slide have to be. It must Care must be taken that the pitch curve, dlo in dor a flow control device of the slide runs behind the dome ram lock, does not interfere with the function of the slide. Dios can in one embodiment of the Invention can be achieved in that the trailing pitch curve is ineffective is made, for example, in that the Anatellkurven is movably arranged are, for example, each pitch curve is pivotably mounted about an axis.

The movable pitch curves intended for the two lock movements can be connected to one another in a further development of the invention so that only one of the two pitch curves is in the effective position. On a Such a mechanism can, however, be dispensed with if one follows the pitch curve on the the end adjacent to the magnet gives an inclined surface on which the circuit boards run up can when the carriage moves in the direction in which the Antellkurve dem The ram lock continues to run. In this case the pitch curve can be fixed.

Two systems are generally provided for flat knitting machines, so that with every movement of the carriage across the working width, two rows of stitches be knitted. Each needle can then be controlled and knitted twice in a row will.

Since so far the program containing the pattern selection for two courses must have already been entered into the pusher before the carriage moves out of its reverse position When you reach the needle bed, you need two rows of pusher corresponding to the preceding one System (lock) and the lagging system (lock). In the In accordance with the invention, the board corresponding to the pusher drops immediately back to the starting position when the needle is brought into knitting position is. When the leading system has passed the circuit board, the one in progress drops Board again and only then comes into the area of the trailing system, where it is then selected again. In the flat knitting machine according to the invention You don't need as many rows of pushers as there are systems, you can keep up with them a row of jacks, so that the additional upper rows of jacks and their needle beds omitted. This simplifies the construction of such flat knitting machines quite considerably.

In embodiments of the invention, the magnetic poles extend over the end of the slope curve and / or the edge on which the two guides meet forks, out.

So they extend over the electromagnetic on both sides Move out. The length in which the magnet poles the pitch curve or that of guides overlaps, preferably dejil guide branch in which the sinkers under the action of a Working pulse of the magnet can occur in embodiments of the invention a tenth to a third of their total length. In embodiments of the Invention can this Benich, in which the circuit boards are brought up to the magnetic pole are, however, still inevitable with regard to their possible movement transversely to the magnetic pole are used to put one in the magnet and / or the to the Anchors are still in the sinker existing remanence .by demagnetizing to destroy. In this case, the demagnetization takes place in the pauses between two successive selections take place. The invention therefore has the further Advantage that due to the larger number of magnetic poles arranged parallel to one another the time available for the selection process is so greatly extended that that even a demagnetization process between two successive selections can be switched on. By increasing the number of magnets, any one can still Selection speed can be achieved.

The demagnetization can be done in various ways, for example the working current of the magnets is a direct current pulse, so the demagnetizing current can be at least one DC pulse of reverse polarity. For example, can be used to demagnetize pulsating direct current, its amperage for example a. Corresponds to one third of the strength of the working current. Can also be in demagnetized in this case with alternating current of constant or decaying strength will.

This demagnetization takes place within the guide sections, in which the poles are in the area of the pitch curve and / or in the direction of movement seen behind the branch of the. Extend leadership branches.

The magnets can be designed in various ways. For example they can be U-shaped be so that the hitherto considered a Magnetic pole marked 1> ol in reality from two run close to each other the pole faces of opposite polarity exists. Then the one on the boards attached anchor suitably designed so that it is unequal between these two Pole faces runs or the two pole faces completely or partially covered. These U-shaped magnets have a relatively large space requirement and their Winding is difficult to accommodate. In addition, the leakage flux cannot be used relatively large. In another embodiment of the invention the cores are magnetic leaf-shaped and straight, so that the pole face facing the armatures the greatest possible distance from the opposite pole face at the other end of the Having core. Such a training on the magnet has the advantage that it occupy a very small space and the winding can be accommodated easily.

As in this embodiment of the invention, the cores in a relatively small distance from each other are traversed by a magnet lines of force generated preferentially the neighboring nuclei because the lines of force are based on this path running through the neighboring cores because of the high magnetic levels Conductivity of these cores has a relatively low magnetic resistance find. However, this flow of force through the neighboring magnets induces them neighboring cores a magnetic induction, the polarity of which is opposite the polarity of the magnet producing the field strength.-If this is adjacent Core is excited by a work pulse, eo reduced this from the first-mentioned magnetic core, the flux generated the working flS3 in the neighboring one Core. If the winding of the neighboring core is de-energized, it cannot be ruled out that that the flux generated by the former magnet in the adjacent core one Leaves remanence. One embodiment of the invention is therefore precautionary taken that regardless of the number of each energized with the working current or non-excited magnets always have the same magnetic conditions in the Puket are present and no disturbing magnetization builds up even if individual Cores are energized with the working current for a long time or not energized for a long time will. If the same magnetic conditions are always present in the package, so the spring force acting on the boards is certainly sufficient to allow independent on the number of magnets excited by the working current, the circuit boards are safe for Bringing garbage to be dropped.

In one embodiment of the invention, therefore, acts on the magnetic cores an external magnetic field that passes through the nuclei in the same direction as that The field generated by the working current runs and its field strength is less than the attraction field strength is. This magnetic field compensates for the magnetic induction caused by the field lines a magnetic core excited by the working current in the adjacent cores the backflow of the field lines is generated.

This external magnetic field can be created by permanent magnets or electromagnets be generated. With a preferred Embodiment of the invention are the pole faces of the electromagnets that work together with the armatures Pole faces are opposed to each other by a common soft iron yoke connected and the magnetic flux of the external magnetic field is introduced into this yoke. The field lines of this external field are then closed by this soft iron yoke guided through the individual cores, they flow through these cores in the direction of the the flow generated in the working current, suppress that in the neighboring, not Magnetic induction arising from excited nuclei.

The readout device can read the information in each case by a special electrical channel transmitted to the magnets. This is usually An amplifier is required in every connection path1 because the readout device is in the generally only emits signals of low power. This type of connection between Readout device and selection device is generally useful when the read-out device for a magnet package and thus for a system of the machine reads the required information at the same time.

In one embodiment of the invention, however, there is a readout device provided that the information for the individual magnets of a machine system reads out one after the other and it is in front of the magnet package belonging to a machine system a distributor is provided, which distributes the information to dib einsolnon magnets. In this embodiment of the invention is therefore for the connection of the readout device with a machine system only requires one connection path and thus only one amplifier.

The prescaler can be designed in various ways, it can be constructed mechanically or electronically. In one embodiment of the L'rfindunr the distributor has a synchronous with the movement of an information store, So perforated strip or the like., revolving organ for actuating changeover contacts on, their normally closed contact with the generator of the demagnetization current, their normally open contact with the readout device and its movable contact tongue with the winding of the Magnet is connected. The distributor puts the tongue in via the movable contact the moment the connection between the winding of the magnet and the readout device by the read-out device from the information memory for this magnet reads out certain information. In their embodiments, it is useful if between the UD switch contact and the magnet winding, a preferably electronic one Relay is switched on, which is the duration of the output from the readout device Pulse prolonger. Such a lengthening of the pulse is necessary because yes, in the present invention, each magnet is excited much longer than that The period of time that elapses between the time in dom dio the board in don area iiiros magnets rush; -step, and the point in time at which the neighboring Board enters the area of the magnet assigned to it, at which point in time so the next piece of information must already be available. Such the impulse lengthening Devices are not required if the readout device already emits an impulse of sufficient duration and every single magnet without any intermediate ring a distributor is connected to the readout device.

In other embodiments of the invention, the running Organ does not actuate a changeover contact in every case, but rather the changeover depends on the information given by the readout device. In this In case, precaution is taken that the distributor by one of your switching process trailing organ moves the changeover contact back into its original circuit. In this case, too, a device which extends the pulse is not required.

You belong to the group of those embodiments in which the distributor actuates a changeover contact independently of the output signal of the readout device, includes an embodiment of the invention in which the orbiting member is a cam roller has, the cams in different, perpendicular to its axis plane carries, which is arranged in this plane with an actuator for the changeover contact work together. This embodiment can be further developed to the effect that that the flakes are exchangeably fastened in the roller.

In another embodiment, the revolving organ has a on a rotating arm attached to magnets, on its orbit on the Field strength of the Magnetic switching contacts arranged are. This embodiment of the invention can be further developed in such a way that that the Llagnet attached to the revolving arm is independent of the output signal the readout device is energized. In the two previous cases in which all working contacts directly or via an amplifier with this System-assigned output of the readout device are connected, each changeover contact only be closed as long as the house reading device is suitable for this magnet gives off certain information. After the changeover contact, as mentioned above, a device can be provided, which the limited by the switching pulse extended.

The changeover contacts are designed in such a way that they are activated by spring force return to their rest position as soon as they are no longer operated, they can in the case of mechanical actuation, it is designed as a pushbutton switch in a further development that embodiment of the invention in which the distributor has a rotating Has magnet attached to the arm, the magnet is not constantly excited, but depending on the output pulse of the readout device. In this case are the working contacts of the changeover switch with a current source for the working current the magnets are connected and the changeover switches do not switch immediately after being actuated back to their original position, but they are replaced by one of the former Orbit trailing organ again switched back to its rest position Of the The distance between the first circulating organ and the trailing organ is then determined the length of the work pulse that excites the magnet.

In one embodiment of the invention in which the manifold is a synchronous with the movement of the information memory having a revolving organ and the switch. for the magnets belonging to a knitting machine system in one Plane are arranged concentrically along the path of the circulating organ, several in different levels and each assigned to a knitting machine system Actuating devices for the switch can be provided and to form a system belonging toggle switch can also be arranged in this level, so that in different levels to the individual knitting machines.

systems belonging actuators and changeover switches are arranged. From the readout device only one electrical connection leads to the in one Parts arranged on a level and assigned to a system.

The anchors, 'which are arranged on the boards, can in embodiments the invention also consist of a permanent magnetic material and an IIagnetization have opposite to that of the magnets excited by the working current is.

Instead of a mechanical distributor, electronic circuits can also be used containing manifold be provided so that rotating mechanical parts in the Distributors are dispensable. The changeover contact by corresponding electronic circuits must be replaced.

Further features of the invention emerge from the following description of embodiments of the invention in conjunction with the claims and the drawing. The individual features can be used individually or in groups in the case of embodiments of the invention be realized.

In the drawing are those necessary to understand the invention Parts partially shown schematically.

-Sig. 1 shows a diagram important for understanding the invention Parts on a circular knitting machine.

FIGS. 2 to 4 show views according to arrow II in FIG. 1 in different phases of movement.

Fig. 5 shows a plan view of the essential parts of a carriage (SchloBbild) in a flat knitting machine in which the invention is implemented.

Fig. 6 shows a section along the line VI-VI of FIG. 5 in one different scale.

Fig. 7 shows a view of a detail in the direction of the arrow VII of FIG. 6.

FIG. 8 shows a section along the line VIII-VIII in FIG. 6.

9 shows, schematically and in a diagram, an embodiment the readout device and its connection with a mechanical distributor a selector.

FIG. 10 shows a circuit diagram of the embodiment according to FIG. 9.

11 shows an axial section through another embodiment of a distributor.

FIG. 12 shows a plan view in the direction of arrow XII in FIG. 11.

In the embodiment of the invention shown in FIG. 1 in a needle cylinder, not shown, the sinkers 1 in the direction of the surface lines Slidably guided in the plate bed. The boards consist of a board head 2 and an articulated plate body 3 connected to it, which counteracts the effect one again 4 can be pivoted out somewhat with respect to the needle cylinder in radial weighting is stored. The needle cylinder with the sinkers 1 runs in the direction of the arrow 5 # around. A package 6 is stationary opposite the rotating needle cylinder for example, 18 electromagnets 7 are provided, all of which are arranged one above the other and whose poles 8 are so long as seen in the direction of rotation of the needle cylinder, that they extend over 18 boards. A pitch curve is also stationary 9 is provided, which engages the lower ends of the sinkers and which during the orbital movement of the cylinder leads the rear ends of the sinkers radially outward, so that anchors 10 on the sinker bodies 3 on the pole faces 8 of the combined in the package 6 18 magnets 7 are brought up. The sinker head 2 is in the channels of the needle cylinder suitable, for example with a tolerance of 1 / 500th of a mm. The sinker body 3 are kept a little thinner so that they have as little friction as possible can be pivoted out of the needle channel.

The board head 2 consists of a non-magnetizable material. Of the Armature 10 consists of a magnetizable material whose permeability constant should not be extremely high and not extremely low. The material of the board should be mechanically resistant. The anchors 10 are arranged side by side at 18 Boards arranged at different heights to the board body 3. The 19th plate carries Your mic 10 again in the same place as the first board.

The arrangement of the armature 10 in the 18 boards is chosen so that Each armature with one of the stacked poles 8 of the magnets 7 in the Package 6 works together. In the embodiment shown in Fig. 1 is the Anchor of the next following board arranged somewhat toner than the anchor of the previous one i'latine; the anchor of the next following board therefore works with one above the the preceding board associated magnets lying magnets together.

In the area of the pitch curve 9, as mentioned, the sinkers inevitably become pivoted to the magnetic poles.

This pivoting movement is in an end position by a stop bar 13 limited in which the anchor by a distance of a few thousandths of a millimeter of the pole faces 8 of the magnets 7. At the end 11 of the pitch curve 9 adjoins a track section 12, within which the sinker body 3 around the Can pivot back pivot angle by which the pitch curve 9 the sinker body 3 has pivoted radially outward.

In the end of the 13ahnabschnittes 12 begins an upward curve 14, the is arranged so that they can only be reached by the swiveled plates 3 can. The sinkers have a preferably semicircular shape at their lower end Section 15 into which the cross-sectional profile of the raised cam 14 engages, so that the sinkers that run up on the lift-up curve and are pushed up by it remain in their pivoted position.

The length of the track section 12 corresponds approximately to the width of the twelve Take the sinkers in the needle cylinder. The poles extend over them Track section 12 out into the area of the setting curve in a length that is approximately Take five sinkers in the needle cylinder, and in the area of the lift-up curve into a length5 which corresponds approximately to the width of a plate, The in the Package 6 eighteen magnets 7 arranged one above the other are supplied with a degaussing current energized as long as the board assigned to the relevant 1: agneten is still in Area of the pitch curve. This demagnetizing current ends shortly before the board has reached the end 11 of the pitch curve 9. Then the magnet will ever after, as the information passed to him dictates, either with a Working current pulse excited so that the board in the area of the track section 12 remains swiveled out and then runs onto the raising curve 14 and from this Elevation curve 14 is pushed up in the axial direction of the needle cylinder. Or but this job There is no current impulse, then the circuit board swivels 3 under the action of the spring 4 in the region of the track section 12 in its starting position return. In this position he does not come into contact with the raising curve 14, see above that this board is not advanced into the working position. The one in working position The board that has been advanced is then detected by a ram lock 16, which is shown in FIG is designated and is arranged in a similar manner in circular knitting machines. The board 1 pushed forward by the pusher lock 16 then pushes it into the same Needle channel arranged needle in working position, which is then controlled by a knitting lock 17 is detected and advanced for knitting and returned again by a Magnet 7 is of the eighteen plates that the pole 8 of the magnet 7 overlaps, always only the circuit board assigned to the particular magnet is indicated. Nevertheless a period of time is available for the selection operation to allow for a circuit board through the; corresponds to cylinder section formed by twelve plates. The working current consists of a direct current pulse. The demagnetizing current consists of pulsating direct current of opposite polarity, its current strength is about a third of the working current pulse. This demagnetizing current is chosen depending on the permeability constant of the board material, that any remanence that may be present disappears and that there is no disturbing one Magnetization builds up in the board when this long time and is in standby when running through many systems or during them Time is constantly in working position.

The magnets have leaf-shaped, I-shaped cores, as shown in Fig. 8 are shown. The ends of the magnet plates opposite the poles 8 are inserted into an eicheisenjoch 18, the permanent magnets 19, 20 wears. These magnets are polarized so that you run through the magnet cores Flux runs in the same direction as that of the working current ion the magnetic cores generated flow. When of the magnets 19, 20 on the inside in the soft iron yoke a north pole is formed, a south pole is formed at the pole faces 8. Becomes a Magnet 7 is additionally excited, the magnetic flux is amplified accordingly and induced a north pole for the adjacent, not additionally excited magnetic cores. is the south pole formed by the magnets 19, 20 is as strong as that of the excited secondary magnet south pole induced north pole, the magnetic flux, the air gap is taken into account, equals zero.

The lines of force of this outer, overlapping field run roughly to the middle of the soft iron yoke 18 and run through the magnetic cores to their Pole face 8, where they exit into the air and back to the south poles of the magnets 19, 20 run back. This external field therefore increases the working flow of the excited Magnets and neutralizes the non-excited magnets. This makes it possible at the same time which have not yet been excited Magnets with one lower by two thirds to feed lying power with alternating or pulsating direct current, and thus to be used for demagnetizing purposes.

Thus it becomes a precisely delimited, effective electromagnetic Readout or demagnetization field created.

This external field does not necessarily have to be through the in FIGS. 2 to 4 illustrated arrangement of two permanent magnets 19, 20 generated it can also be done by a different arrangement of one. or more permanent magnets or electromagnets are generated. The total number provided in the needle cylinder needles must be an integer multiple of the number in the package 6 Be magnets that are assigned to a system of the knitting machine. Considering this condition can be any number of magnets assigned to a system be. The number depends on the speed at which the board is selected and the required rotational speed of the needle cylinder. The anchor 10 can also consist of a permanent magnet that creates a magnetic flux, which is the same direction as the flux created by the side current in the magnet having. In this case the magnet winding receives when it does not touch the board hold in their swiveled-out position and lead to the lift-up curve, one Stromirapuls opposing the working current, so that this generated Field is opposite to the field of the permanent magnet armature 10 and the armature 10 is repelled, so that this repulsive effect supports the action of the spring 4.

Every system of the circular knitting machine has such a pitch curve 9, raised cam 14 and magnet package 6 assigned existing unit. A circular knitting machine generally has up to 36 systems. The technical effort saved as a result is that the magnets are placed directly behind the needles in the needle channel Sinkers 3 act, is with such, many Having systems Circular knitting machine extraordinarily (i1 high.

FIG. 2 shows the view in the direction of arrow II in FIG. 1 onto the board 1 in its position a in FIG. 1. FIG. 3 shows the same view of the board 1 ilì the position b of FIG. 1. FIG. 4 shows the same view a board 1 in position c of FIG. 1.

Figs. 5 to 8 show the implementation of the invention in a Flat knitting machine. The application of the invention is explained on a system. If the flat knitting machine has two or more systems, the en @ corresponding one Arrangement provided on each of the systems. Fig. 5 shows a view the underside of the carriage 19 of a flat knitting machine. Except for the two ram locks 16, one of which is arranged in one of the two directions of movement of the carriage is, a knitting machine system still has the knitting cam 17, which the needles emotional. In the known machines, the so-called jacquard cards were used Pusher or sinkers 1 from their rest position, in which the pusher feet 20 below the web of the lower edge 21 of the pusher guides remain, advanced into a position provided that the assigned needles are to work in which they are removed from the inclined surface 22 of the ram channel 23 are detected and advanced so that the associated Needles are also pre-treated in the needle bed and then detected by the knitting lock 17 will. This advancement of the sinkers 1 in the position in which they are from the ram lock 16 are detected, takes place in flat knitting machines in the same way as they at the embodiment of FIGS. 1 to 1C is described for circular knitting machines suitable is. The only difference between these two embodiments is that in the first-mentioned embodiment, the needle cylinder moves and pitch curve, magnets and raised curve are fixedly arranged for Flat knitting machines suitable embodiment, however, magnets, pitch curve and Elevation curve move and the needle bed is fixed and that, since the carriage 19 moved back and forth, for each system two magnet packages 6 and associated lift-up curves and pitch curves are provided, since these elements are in the direction of movement of the Carriage must be arranged in front of the respective pusher lock 16.

In de carriages are therefore from the ram locks 1G to the outside seen in each case an Ilochstellkurve 24, a magnet package 6 and an adjustment curve 25 provided. Here, too, the boards are durcil the pitch curve 25 in the Movement of the carriage 19 is first raised and when they are advanced should be held in the raised position by the magnets and on the actuating curve pushed on, which then pushes the sinkers forwards so that the sinker foot 20 is detected by the ram lock 16 and is advanced and the sinker head 2 then the strike needle 26 advances into the area of the knitting lock 17 (FIG. 6). A Difference between this embodiment and the embodiment according to FIG. 1 up to 4 lies in the fact that precautions must be taken to ensure that the pitch curves 25 Do not disturb the return of the slide. The pitch curves are for this purpose 25 roughly triangular formed and around one in the middle Bearing pin 27 pivotally mounted. The contact surface that the circuit boards attach to the magnetic poles 8 is formed by the base of the triangle. The tips of the triangular Parts are connected by a rod 28 so that when the one Adjustment curve is in its effective position, the other adjustment curve 25 in its ineffective position. The rod 28 is automatic, for example by a corresponding stop at the reversal points of the carriage 19 in the one or other end position moved and locked there. Does the carriage move in In the direction of arrow 37, the magnet package shown at the bottom right in FIG. 5 operates 6. The magnet package shown below on the left works in the opposite direction.

9 and 10 is an embodiment of the oteuerorgane for the selector shown.

The information for the individual magnets in a system is in a row shown one behind the other in the direction of movement of the tape. Every band has as many rows as there are systems of the machine to be controlled.

The information is read out that a hole 29 a from a light source 33 emitted light beam to a photocell 34 either releases or, if there is no hole, covers. The information for the eighteen magnets, for example, are therefore successively passed through the readout device 31 read out. This information is not transmitted via a line 41 an amplifier 35 is given to the magnet package 6 of a system. Included one Flat knitting machine two magnetic packages 6 belong to one system, depending on the direction of movement of the Schlitin at least 19 work, a changeover switch is provided for the flat knitting machine, who, depending on the direction of movement of the carriage, the information to the one or lead another magnet package 6 of the system @@. The information 29 can be on the Band 30 can also be included in a form other than the form of holes and also the readout organs 33 and 34 could be designed in a different way.

The information for appears at the output of the amplifier 35 the eighteen magnets 7 of the magnet package 6 behind each other. To this information Distribute it to the eighteen magnets so that each magnet receives the information assigned to it receives, a distributor is provided, which in the illustrated embodiment of the invention, a mechanical part driven synchronously with dCirj belt 30, namely a cam roller 36, which carries helically distributed cams 37, the are exchangeably fastened in the cam roller 36. These cams work with actuation pins 38 each of a magnet 7 associated push-button switch 39 together so that the winding des, Liagneten 7 is connected to the normally open contact 40 of the switch 39 when the information determined for the relevant magnet 7 at the work contact 40, which is connected to the amplifier output. The normally closed contact 42 of the individual changeover switch 39 is connected to a line 43 leading to a power source which generates the demagnetizing current. The demagnetizing current exists from a pulsating direct current of an amperage that is only about a third as large is like the current strength of the working current acting on the magnets 7. The movable one Contact tongue 43 of the changeover contacts 39 is via a mechanical or electronic relay 44 connected to the winding 45 of the magnet 7. The task of relay 44 is the short, output from the amplifier 35 information in a current pulse of a Convert length that is required to get the sinkers 1 across the track section 12 to hold away in the swiveled-out position. By choosing the Cam 37, the duration can be varied during which the normally open contact 40 to the Relay 44 is applied.

The work impulse only acts on a board when it is brief before the end 11 of the pitch curve 9, 25 has arrived. It only ends when the board has threaded into the rest of the curve.

11 and 12 is another embodiment of the manifold shown. On a shaft 46 driven synchronously with the belt 30 is an arm 47, which at its outer end has a parallel to the axis of the shaft 46 arranged bar magnet 48 carries. On a plate 49 are just below the lower edge of the bar magnet 48 along the Umlaufbaiin of the magnet 48 contactless Switching contacts 50 (reed contacts) are arranged, which in turn are switched in the same way are like the changeover contacts in the embodiment according to FIGS. 9 and 10. These Changeover contacts are fused in glass tubes which are soldered onto the plates 49 which have a printed circuit and are designed in two parts (Fig. 12). The printed Circuit is from Fig. 1? to see. These contacts, which are necessary for a system, are on a plate, i.e. in one plane arranged. A changeover contact SO switches from the rest side to the working side, as long as the bar magnet 48 is above it.

The distributor according to FIGS. 11 and 12 thus has Vi (jlC arms 47, magnets 48 and plates 49, as systems and thus magnetic packages 6 have to be controlled. These planes are arranged perpendicular to the axis of the shaft 46.

The entire control system is therefore very space-saving.

Claims (1)

Patent claims 0 knitting machine with a device for jacquard patterning, the a device reading out information corresponding to the pattern and one thereof controlled device for the electromagnetic selection of needles containing the selected needles assigned to the magnetic pole and in a working position directs moving parts in a guide that fülirt them in the working position, thereby characterized in that the selection device provides several of the readout device Has electromagnets (7) whose poles (8) in the direction of relative movement between the parts (1) assigned to the needles and the I: iaLneten (7) extend over a length extend, which comprises several parts (1) that the magnets (7) perpendicular to the Direction of relative movement are lined up next to each other and each magnet (7) is intended to control a group of parts (1), each part (1) one The group is at a distance from the other part (1) belonging to the same group, which corresponds to at least the length of the poles (8) of the magnets (7), and that the parts (1) at that point a responsive to the associated magnetic pole (8) Armature (10) which is closest to the pole (8) of the magnet moved past. 2. Machine according to claim 1, characterized in that the parts (1) are designed as rod-shaped plates (2, 3) guided in a bed, which have a plate head (2) made of magnetically non-conductive material in which a sinker body (3) is pivotably guided, the one anchor (10) made of magnetically conductive material. 3. Machine according to claim 1 or 2, characterized in that the rileile are designed as a pusher for the needles (26). 4. Machine according to one of the preceding claims, characterized in that that the parts have a cutout (15) at their end facing away from the needles (26), in which the profile of a raised cam (14) - engages. 5. Machine according to one of the preceding claims, characterized in that that one of the line (1) during the relative movement to the magnetic poles (8) Adjustment curve (9) is provided. 6. Flat knitting machine according to claim 5, characterized in that each of the two pitch curves (25) in one of the two lock movements into one ineffective position are movable. 7. Flat knitting machine according to claim 6, characterized in that the movable adjustment curves (25) intended for the two lock movements with one another are connected in such a way that only one of the two pitch curves is in the effective Position. 8. Knitting machine according to one of the preceding claims, characterized characterized in that the pivoting movement of the parts (1) in the direction of the magnetic poles (8) is limited to by a stop (13). 9. Machine according to one of the preceding claims, characterized in that that the magnetic poles (8) over the end (11) of the pitch curve (9) and / or over the edge at which the two guides fork out. 10. Machine according to claim 9, characterized in that the magnetic poles (8) one tenth to one third of its total length over the end (11) of the pitch curve (9) extend out into the area of the pitch curve (9). 11. Machine according to one of the preceding claims, characterized in that that the magnets (7) in the rumen are connected to a demagnetizing current between the selection process are connectable. 12. Machine according to one of claims 9 to 11, characterized in that that the demagnetization takes place within the guide sections in which the Poles (8) are in the area of the start-up curve (9) and / or in the direction of movement seen extending beyond the branch of the guide branches. 13. Machine according to one of the preceding claims, characterized in that that the magnetic cores are shaped like a baltt and straight, that's the anchors (10) facing pole face (8) the greatest possible distance from the opposite one Having pole face at the other end of the core. 14. Machine according to claim 13, characterized in that on the Magnetic cores an external magnetic field (19, 20) acts, which in the cores in the same Direction of how the field generated by the working current runs, its field strength is less than the attraction field strength of the magnet and is therefore differentiated Represents magnetic reading field. 15. Machine according to claim 14, characterized in that the pole faces the electromagnet (7), which it the armatures (10) cooperating pole faces (8) are opposite, by a common soft iron yoke (18) with each other are connected and that the magnetic flux of the external magnetic field in this yoke is initiated, 16. Machine according to one of the preceding claims, characterized in that that the readout device the information for the individual magnets (7) one behind the other reads out and a distributor (36, 37 or 46 to 48) is provided, which the information distributed on the individual magnets (7). -17. Machine according to claim 16, characterized in that that the distributor is synchronized with the appearance of the information read out at the output of the read-out device revolving organ (36 or 47) for actuation of changeover contacts (39). 18. Machine according to claim 17, characterized in that the changeover switch (39) regardless of the signal emitted by the reading device - (31) Each revolution can be actuated by the circulating element and independently of this signal return to their rest position, and that the rest contacts (42) of the changeover switch with a generator of a demagnetizing current, the working contacts (40) of the Toggle switch with the Read-out device and the movable contact tongue of the switch are connected to the winding (45) of the magnet. 19. Machine according to claim 18, characterized in that between the tongue of the changeover contact and the magnet winding (45) are preferably electronic Relay (44) is switched on, which lasts the duration of the readout device (31) delivered pulse extended. 20. Machine according to claim 18 or 19, characterized in that the circulating element has a cam roller (36) which are at different right angles cams (37) arranged helically to its axis carries, each of which with an actuator arranged in this plane (38) for a changeover contact (39) cooperates. 21. Machine according to claim 20, characterized in that the cams (37) are fastened interchangeably in the roller (36). 22. Machine according to claim 18 or 19, characterized in that the revolving organ a magnet (48) attached to a revolving arm (47) has, on whose orbit to the field strength of the magnet responsive changeover contacts (50) are arranged. 23. The device according to claim 17, characterized in that the Circulation organ depending on the output signal of the reading device (31) with the The actuator of the switch (50) cooperates, that the working contact (40) of the switch (50) with a power source for the working current of the magnet is connected and that the switch by a trailing organ of the circulation Organ can be switched back. 24. Machine according to claim 22, characterized in that the distributor a shaft (46) rotating synchronously with the reading of the information memory, on the several revolving machines assigned to a knitting machine system in different levels Actuating devices (48) for changeover switches (5 #) are arranged on their orbit The changeover contacts for the magnets in a system are concentric around the shaft axis are arranged 25. Machine according to claim 1, characterized in that the on the anchors located on the boards consists of a permanent magnetic material and has an induction that corresponds to the induction of the magnet energized by the working current opposes. L e r s e i t e