DE1785685A1 - DEVICE FOR ELECTRICALLY CONTROLLING MACHINERY FOR THE MANUFACTURE OF MACHINERY - Google Patents

Description

DR. ING. E. HOFFMANN · DIPL. IXG. W. EITLE · DK. RER. NAT. K. HOFFMANN

PATENTANWÄLTE D-8000 MÖNCHEN 81ARABELLASTRASSE 4. TELEPHONE (0811) 911087 '

Universal Maschinenfabrik Dr Rudolf Schieber KG, Westhausen

Device for the electrical control of machines for

Manufacture of knitted fabrics

The invention relates to a device for the electrical control of machines for the production of knitted fabrics, in which the information on the sample program carrier is scanned one after the other, and in each case the needles are divided into groups and the needles of a group are each divided into groups of magnets controlled by a distributor element of a distributor ₀

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It is known to design sample program carriers for such machines so that they, for example, by Light control (photo cells), induction current (Hall generators, Field plate) or can be read through mechanical contacts. It is also known that the impulses through manifold transferred to groups of magnets. However, the previously known devices need for the production of Sample program carrier made from punched tape, exposed Film, magnetic tapes, etc. are formed at such a considerable expense that it is not used by every knitting mill economical ways can be carried out. Also accommodating the great variety of characters to be read is very difficult on the sample program carrier. A patterned piece of knitting has up to 16 million characters read off.

If the characters are applied in a known manner to a film tape as a sample program carrier, then due to of the great variety of characters a very long movie would need. Because the film is only transported continuously in one direction it is nifot possible to shorten the film by reading repeated characters several times. A separate film is required for each size of a fitted piece of knitting. The application of the light signals in short distances from one another require a high level of precision. The chemical treatment of the film can only be carried out by specialists be carried out with the necessary special equipment.

From CH-PS 217 ^ 53 a device is the initially named type known. From this CH-PS 217 ^ 53 is further known as a pattern program carrier, a tape that has patterned holes which allow light to pass through for controlling photocells. Since such holes must have an even greater distance from one another than the exposed points of a film tape,

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the perforated tape becomes even longer than the film tape. True are Distributors provided, which distribute the pulses to groups of needles. As a result, however, the signals of the individual are grounded Salary points moved longer, making the tape even longer and the pulse train even shorter. In addition, the Movement bound by the armature of the magnet to a certain time, so that the machine has a lower power than the machines that are mechanically controlled in the usual way. The power transmission through sliding contacts brings on top of that the risk that contact errors occur when dirty.

The invention aims to improve the device of the type mentioned at the beginning, in particular a device for the electrical control of flat, flat-round and Circular knitting machines as well as flat and circular knitting machines, in which the reading of the original template, for example by light control (photo cells), induction current (Hall generators, field plate) or by mechanical contacts.

The aim of the invention is achieved according to the invention by that several needles of a group are controlled at the same time, and that the selection points on the lock are arranged in this way are that each selection point is at a certain point in time in the area of a different needle in the group.

Each group of magnets is expediently connected to a further distributor, which controls the circuit according to stops even after switching on, interrupts. Here is the device advantageously constructed so that the switching elements present in the distributor are divided into sectors and each sector of a distributor is assigned a further distributor, in which switching points are provided that are connected to the switching points of the main distributor run synchronously and

ItAp

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connect to each sector the reading element that corresponds to the magnet groups associated with the sector cooperates.

Further details of the invention emerge from the following description of the drawings shown Embodiments. Show in the drawing

Fig. 1 the division of the needles into sections and subsections and the position of the selection parts in the lock,

FIG. 2 shows a detail from FIG. 3 to illustrate the sequence a circuit for switching a group of magnets on and off.

Pig 3 (1 * 2.5) the circuit diagram of a machine, e.g. in the Fineness E 6, for reading and distributing switching pulses,

4 shows the arrangement of the switching elements and the sequence of the distributor,

P Fig. 5 shows the arrangement of two adjacent opposite directions Apertures and the reading elements that can be switched to both apertures, and

Flg. 6 shows a circuit diagram like FIG. 2, but for reading off two shift chains.

In order not to have a switching point with an amplifier for every magnet, which increases the cost of the machine considerably would affect, and also in the case of a carriage run, e.g. on a flat knitting machine, on several Select each needle independently of each other to be able to, these selection points must AS to the

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Needles at certain intervals. The needle space is therefore, as shown in FIG. 1, into several sections or groups NA e.g. 24x3 ". With a fineness E means Io that in each group of 3 "there are ^ o needles. These groups are again divided into 6 subgroups UA I-VI. At the fineness E Io there are So the needles from Nl to n5 in UA I, from Νβ to NIo in UA II, from NIl to N 15 in UA III, from Nl6 to N2o in UA IV, from N21 to N25 in UA V and N26 to N ^ o in UA VI, these Selection points AS in the lock are now in such a way that, firstly, each is facing a different needle N within a group NA and second, that each is in a different subgroup UA of some group NA. In Fig. 1 is located the selection point AS 1 on the needle Nl of the group NA V and in the subgroup UA I,

AS 2 is located on needle N25 of NA IV and in UA V AS 3 on N 14 of NA III and in UA III AS 4 to N 8 from NA III and in UA II AS 5 to N 2o from NA I and in UA IV

The distance in the order in any NA the So needles is equal to e.g. 6 needles with gauge E lo. This means that the switching process takes place on a needle in the example chosen can extend over 6 needles without affecting the process at another switching point will. It is also possible to control all needles N with the same priority number together, that is with a needle space of e.g. 72 "in the gauge E Io not 72o, but only Jo switch required for the magnet control are, and that also the switching reliability compared to a passing circuit is increased by 6 times. There if each selection point AS is in a different subgroup UA, the respective reading element of the respective

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Selection position can be switched on. When the slide moves in the opposite direction, the selection points then occur AS, which are marked with a comma, in action, they are in the same proportion to the needle sequence, only in reverse order. The circuit is therefore reversed polarity or, as shown in FIG. 2o, offset to a distributor rotating in the opposite direction.

In order to ensure that in machines with reciprocating drive elements the sequence of the reading units is continuous can continue, the route UK at the turnaround must be exactly a fraction of the route AB of the work area be. If, in the example 1/3, the edge 9o of AS leaves the last needle J5o, the group NA XXIV, then the line is finished UK (= 3/24) the edge 91 of AS l 'also on this needle.

The sequence of a circuit for a group of magnets (eg MQ IV) in the example Io piece is shown in FIG. 2 as follows. One of two readers LV Ia or LV Ib runs over a sample card and scans it, while the other turns around and is laterally displaced during this time. "Every pulse received by one of the two readers LV Ia or LV Ib reads and passes it on to a line LV 1. This line LV 1 is connected to an AND gate 94. The line of a group switch GSA 1, which is switched in rhythm in the distributor, now comes at the same time a pulse from the line LV 1 and from the line GSA 1, then the AND gate 94 sends a pulse to an OR gate 95, which forwards this via a line LVA to an AND gate 96. To the same gate 96 also gives an individual switch ES1 over a line pulses and in fact in the rhythm as it is switched in the distributor.If both pulses now coincide, the gate 96 forwards a pulse to an OR gate 97. This pulse arrives from there

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via a control line SLIV to the base 98 of a transistor 99. At this moment, the base 98 lifts the lock for the emitter current loo on, so that this over the collector lol to the switching line. Ll can flow and the entire magnet group MGIV, in which Io solenoid coils 92 are connected in parallel, turns on.

At the same time, current also flows through a holding current line St. 1, which is inverted in a gate Io2 and flows to an AND gate Io3. On the AND gate Ioj5 there is also a single switch ESlX power. This switch ESlX is normally open and is only used in rhythm of a distributor VX. Since ESlX normally gives current to the AND gate Io2, this gives the Power to the OR gate 97 # if power comes from HL1. Will So the magnet group MGIV switched on by LVA, this power current, which also flows through HL1, holds this magnet group MGlV until the element of the individual switch ESlX is interrupted. Then the AND gate Ioj5 gives the current from HL1 no longer and the base 98 in the transistor blocks the emitter current loo. The magnets fall off and over the line HLl no longer flows current to the gate 103.Wenn then the individual switch ESlX emits power again, this no longer goes through the gate I03. The magnet group MGlV remains switched off until it receives another pulse via the LVA line.

For example, on a flat knitting machine the sequence rhythm the selection point AS1 is the same at the back and front, but the needle selection can be different at the back and front the switching of the individual switches ES, ESX and the group switches GS for the front and rear in parallel, while the lines L are connected to their respective groups (Fig. 3). This makes it possible to change the number of switches, e.g. a switch group Io4 on a machine with 72 "working width and a

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To reduce the fineness of EIo from l44o to e.g. 60 and at Working with distributors to bring the number of distributor elements from e.g. I80 to 9o.

According to FIG. 4, the elements of the individual switches are in the distributor V ES attached in a circle. In the middle there is a light source I05 * around the one aperture Ιοβ, which is firmly attached to the drive shaft for the chains is connected, runs. This aperture I06 has openings V1 and V2, which are indicated by arrows are. The direction of rotation is also indicated in FIG. 4 by arrows.

A second diaphragm I08, with the same cutout V1 and V2 (FIG. 5), runs over the same light source I05 in the opposite direction of rotation. So if a holder Io7 with the elements ES, ESX and OS is above the cover lofjV, the distributor distributes the pulses in the order ES1, ES2, ESJ5, etc., ES 16X, ESI7X, ESI8X, ESI9X, ES2oX, ESlX etc. , GSAl, GSBl etc., GSC2, GSD2, GSAl etc. If you move the holder Io7 with the cables ES, ESX and GS via the cover I08V ¹ , the distributor distributes to ES1, ES2o, ESI9 etc., ESoX, ES5X, ES4x etc., GSDl, GSCl, GSBl etc. It is switched once to the left via the diaphragm I05 and once to the right via the diaphragm Ιοβ with each slide reversal, so that the same magnets on the needles N always match the reading element LV during the return movement . Moving is not necessary for machines with continuous throughput.

If two or more sample chains are running on one machine, there is a reading device for each chain. While e.g. the two reading elements or readers LV Ia and LV Ib read the card in belt A, the chain is transported on in belt B. At this moment, the all-round element is Ul opened and the switching element U2 blocked. So impulses come from one of the readers LV Ia or LV Ib des

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Band A to an AND gate Io9 * so this is because the Line UL 2 also carries current, the pulse on line LVIA to an OR gate 111 on. From there it goes on the line LVl. The further course is the same as in Fig. 2. Is in the same time of one of the two Reader LV Ia or LV Ib of volume B given a pulse to an AND gate Ho, this pulse does not go on, there the element U2 is blocked and thus no current flows in the line UL 2. If the reading in volume A is now finished, Reading begins immediately in band B · The changeover element Ul is blocked and the switching element U2 is opened. Now the pulses from band B go to the line LV1, while the pulses from band A are blocked at gate I09. During this time, chain A is switched on.

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Claims (3)

Claims (l.l device for the electrical control of Machines for the production of knitted goods, in which the information on the sample program carrier are scanned sequentially, and in which the needles are divided into groups and the needles of a group each via groups of magnets from a distribution element a «distributor are controlled, characterized in that at the same time several needles a group are controlled, and that the selection points are arranged on the lock such that each selection point is in the range of another needle in the group at a given point in time. 2. Apparatus according to claim 1, characterized in that each magnet group with one Another distributor is connected, which interrupts the circuit that holds itself after switching on. 3. Apparatus according to claim 2, characterized in that g e that the switching elements present in the distributor are divided into sectors and each sector A distributor is assigned a further distributor, in which switching points are provided that correspond to the switching points of the main distributor run synchronously and connect to each sector the reading element which is connected to cooperates with the magnet groups associated with the sector. 509819/0016