DE1141046B - Sample wheel for circular knitting machines - Google Patents

Description

GERMAN

PATENT OFFICE

M 32332 VHa / 25a

REGISTRATION DATE: NOVEMBER 12, 1956

NOTICE THE REGISTRATION ANDOUTPUTE EDITORIAL: DECEMBER 13, 1962

The invention relates to a sample wheel for circular knitting machines with displaceable during operation, selectable by an electromagnet excited according to the pattern, wherein the selected sinkers are moved by tensioned springs, which are released according to the sample by the electromagnet through a gap at the selection point to act on their boards. step through. The selection activity of the magnet consists of these sample wheels in accordance with the sample Closing and opening of the gap by means of mechanical means operated by the solenoid. The ones from The mass acceleration to be handled by the magnet limits its frequency.

The invention is based on the object of eliminating this mass acceleration, what thereby what is achieved is that the pole piece or pieces of the electromagnet are arranged behind the gap and immediately act on the tensioned springs so that they are energized when the electromagnet prevented from passing through the gap.

An exemplary embodiment of the invention is shown in the drawing. It shows

Fig. 1 is a plan view of part of the sample wheel circumference,

FIG. 2 shows a cross section through the sample wheel along the section line BAC in FIG. 1.

The sample wheel sits on the sample wheel carrier 104, which is only partially indicated in FIG Way so shaped and with its surface 104 a on a horizontal surface on the fixed lock shell the circular knitting machine is attached so that the pattern wheel plane is at an angle to the knitting needles. A bolt 4, onto which the sample wheel is slipped, is fastened in the sample wheel carrier 104. The sample wheel consists of the sleeve 105, in which a downward protruding pin 106 is attached, which in a bore of the sample wheel carrier extends into it and thereby the rotation of the bushing 105 to the sample wheel carrier 104 prevented. The individual parts of the sample wheel are attached to this sleeve 105. Some of these parts are firmly seated on the sleeve 105, and on the other hand they can be rotated around this sleeve. A cover plate 5 is pushed over the sleeve 105 from below, which is attached to a collar on the the upper end of the sleeve 105 applies and in this position from the spacer sleeve 107 and one at the bottom End of the sleeve 105 screwed nut 108 is held and attached to the sleeve 105. The sample wheel base disk 3, in which the plate-like Sample wheel for circular knitting machines

Applicant:

FranzMoratK.G.,
Stuttgart-Vaihingen, Heßbrühlstr. 51

Dr. phil. Johann Albrecht Schaeder,

Merzhausen near Freiburg (Breisgau),

and Richard Schmidt, Stuttgart-Vaihingen,

have been named as inventors

Teeth 1 are attached. These teeth 1 together form the toothing of the pattern wheel, which engages between the needle shafts, so that the rotatable part of the pattern wheel receives its rotary motion through the rotation of the needle cylinder. Between the upper part of the teeth 1 store the radially displaceable sample sinkers 2, which with their offset free end 2a in the state in which they are advanced to the outer edge of the teeth 1, grip under the knitting needle feet and lift them in a known manner. The sliding plates 2 are guided in radial channels of the annular part 3 α , which is connected to the sample wheel base disk 3 by means of screws 109. A spring 6 is located behind each displaceable plate 2. These springs are bent approximately at right angles. At its lower horizontal portion 6a, they are firmly connected to the Musterradboden 3, by means of an annular disk 7, which is fastened with screws on the Musterradbodenscheibe la. 3 The lower horizontal surface of the annular disk 7 presses the feet 6 a of the springs 6 firmly against the sample wheel base disk 3. The other part of the springs is approximately vertical and is in the direction of displacement

209 747/11

Claims (1)

3 4 the board 2 resiliently in the channel of the associated boards remain in the inner rest position or the board out. The free end 6 if pushed forward on the vertical. Work position. Due to the part of the springs 6 protrudes over the upper edges of the further rotation, the sinkers and springs 6 sinkers 2 out into the area of curves 8 in the area of curve 14, where from the curve and 14, which is at the lower Hache of fixed 5 edge 14 c which be-cover disk 5 in the advanced working position are attached. Between the end sensitive sample sinkers 2 'are pushed back into the inner rest position 146 of the curve 14 and the beginning 8 r of the curve 8. At the same time there is a gap 10 that is only so slightly wider than the free ends 6 d of the springs 6 in the area of the free end 6 d of the springs 6, that the same inner curve 14 α and are there by comparison through this gap can move through. io swivel inwards, weakly stretched. At the front and rear of the gap 10, the pole pieces 17 end one move at the gap 10, the free electromagnets 16 are at such a distance from the ends 6 d of the springs 6 in the force field of the electrical inner edges 14 a and 18 a of the curves 14 and 8, magnets 16. If the electromagnet is not subject to the free ends 6d of the springs 6 being close to the current, the free end 6d of the springs 6 slips ends of the pole pieces 17 behind the gap 10, past the 15 through the gap 10 and rests on it that can be moved. The electromagnet 16 is at the rear edge of the board 2, to which it is assigned by means of a holding jaw 110 on which it is fixed. If the magnet is energized, then the standing sample wheel cover disk 5 is attached and protrudes end 6d of the springs 6 prevented from slipping through the gap 10 through an opening 5 α into the space below the. The cover disk 5 through the gap 10. The curve 14 has two effective 20 slipped springs 6 move with their edges 14 α and 14 c (see FIG. 1). The inner higher free end 6 rf on the outer edge of the curve 8b edge 14 a acts on the free ends 6 d of and push the plates 2, to which they are assigned springs 6. The front locally lower edge, into the working position 2 'outwards . Those 14 c acts on the front edge of the upward plates 2 to which the springs 6 are assigned, the standing foot 2 b of the sliding plates 2 25 do not slip through the gap 10 , remain (see FIG. 2). The curved edge 14c is used in front of it in its out of work position. Selection point, namely the gap 10, all of the The invention can also be used with sample sinkers 2 in their inner rest position, which instead of bringing them back radially in the sample wheel so that they can be selected pivotably mounted sinkers at the selection point. The inner curve edge 30 nen, radially displaceable pins, to the pattern device 14 a serves to have parallel displaceable pins in front of the selection point (gap 10) or all springs 6 in a slightly tensioned pivotable pins, stood inwardly to press. The curve 8 acts on the magnet 16 in this device only has the free ends 6 d of the springs 6. Its inner part exerts the force that is necessary, the resilient 8 a holds the free end 6 d on it To hold the needle in its spring 6 in front of the gap 10 (selection point) in the slightly tensioned state, slightly tensioned state, in order to move over to the end of the curve 8 k, which is behind the work gap 10 in the area of the inner part 8 a AS lies. After this end of the curve move the curves 8 to come. In the case of those springs 6, all springs 6 return to their uninfluenced position, that is to say the relaxed position through the gap 10 according to the pattern. The outer cam part 8 b hatch 40, the displacement of the boards 2 takes place purely of the cam 8 increases from the gap 10, so the mechanical curve b by means of the outer portion 8 8. curve beginning 8 r on, up to the work point AS in the fact that the magnet 16 is only slightly attracted-shifting direction of the plates 2 so far that force needs to be exerted, a relatively small magnet with high-frequency magnetizability, the springs 6 resting on this curve edge 8 b, can find the sliding plates 2 assigned to them in 45 use, ie , the magnet can push its forward operative position in the way it is set in the rapid changes energized and de-energized boards 2 'can be made at the job site sieht- aS in Fig. 1, that is cash on the speed with. which the springs 6 run past it, a spring around the device according to the invention works like the other attracted or not followed by the magnet: the rotatable part of the pattern wheel, namely 50, can be pulled so that it is behind the bottom disk 3 with its to it fixed gap 10 away in the area of the inner part 8 a teeth 1 and their sliding pattern plates 2, the electromagnet has only a selective function, is rotated in the direction of arrow X (Fig. 1). The boards are shifted by means of the At the work site AS are the ends 6 a * springs 6 and the outer part 8 b of the curve 8 purely of the springs 6, partly behind and partly in front of the 55 mechanically. Curve 8. Those boards that go to the one behind the The springs located in curve 8 belong to the PATENT CLAIM: at the workplace AS in the internal rest position. In this position you can use your corresponding sample wheel for circular knitting machines with Do not affect knitting needles. Those sinkers, 60 rend of operation, slidable by a where the springs 6 located in front of the curve 8 are arranged according to the electromagnetically excited are, are due to the rise of the selectable boards, with the selected outer curve 8 b shifted into the working position before sinkers by tensioned springs pushed. These circuit boards are to be used at the work site if approved by the sample AS in Fig. 1 denoted by 2 '. At the end 8 k of 65 the electromagnet through a gap at the off curve 8, the free ends 6 d of the springs 6 located behind the pattern parts to act on their plates curve 8 leave the curve 8 and pass through it, characterized in that the path return to her relaxed position. The pole piece (s) (17) of the electromagnet (16) are arranged behind the gap (10) and directly on the tensioned springs (6) so have the effect that these pass through the gap when the electromagnet is energized be prevented. Considered publications: German Patent No. 438,387; French Patent No. 600 354; British Patent No. 510 929. 1 sheet of drawings