CS221105B1 - Patterning of circular knitting machine equipment - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a circular knitting machine with a pattern comprising a swiveling lever acting in one position on the swiveling stalks located under the needles in the needle cylinder groove. with a needle cylinder, wherein the pivoting levers are provided with springs restrained by their second end into the receiver body and associated with the actuating solenoid.

Description

The invention relates to a patterning device of a circular knitting machine, in particular a small diameter.

Patterning devices are known which comprise levers and pitch drums with associated protrusions. The disadvantage of these devices is that any change in pattern must be done by mechanically replacing the cams or by withdrawing the cauldrons for each row of stoppers, which is very lengthy and laborious. In addition, these devices are relatively complex. Also, there are devices which have pivoting levers or sliding gate valves operated by an electromagnet and which act on the knees of the sliding or swinging stoppers.

It is also known a device in which the actuation of the slide or pushbuttons acting on the stoppers is carried out mechanically by a simple fixed cam and by means of a latch actuated by an electromagnet always determines which slide or pushbuttons remain inactive and which are in operation.

All these devices have high demands on the actuating force of the control solenoid due to the relatively large weights of the actuated components and, in particular at high speeds, are thus limited in their operation. Another disadvantage of the design of the valves controlled directly electromagnetically or electromechanically is the possibility of an accident in the event of failure or displacement of the electronic sensing of the needle cylinder position.

This device also has the need to operate the latch lever with an electromagnet, which places demands on the size of the electromagnet and the energy required.

SUMMARY OF THE INVENTION It is an object of the invention to overcome these disadvantages and to provide a more reliable operation of the patterning device while simplifying it.

This is achieved by the patterning device according to the invention, characterized in that the pivoting levers are associated with the cam-operated stops, coupled to the needle cylinder, and the pivoting levers are provided with springs inserted into the carrier body by their other end and associated with the control electromagnet.

Further advantages and features result from the description of the exemplary embodiment and the drawing, in which Fig. 1 shows a cross-section of the patterning device in the idle position, perpendicular to the axis of the needle cylinder; Fig. 4 is a cross-sectional view of the patterning device taken along the axis of the needle cylinder; and Fig. 5 is a cross-sectional view of the patterning device in another exemplary embodiment perpendicular to the axis of the needle cylinder.

The circular single-cylinder knitting machine is provided with a needle cylinder 1, in which knitting needles and control tracks 3 are slidably mounted between the fixed ribs 2. One knee 4 is formed on each track 3 (Fig. 4). The tracks 3 with the same node 4 can be mounted in the grooves of the needle cylinder 1 only in part of its circumference, for example in one half of the circumference. The needle cylinder 1 is supported on a carrier 5 with which it is connected by a spring B. Cams 8, 8 upev are fastened to the flange 7 of the needle cylinder carrier 5. On the rigid frame 9 of the knitting machine is arranged a pick-up device controlling the needles by means of stoppers or; other elements with double-arm levers 10.

The patterning device consists of a body 11 which is fixed on one side to a fixed machine frame 9, the other side is closed by a cap 12. Concentric holes are formed in the body 11 and in the cap 12 in which the sliding bearings 13, 13 ‘are fixed. A sleeve 14 is rotatably mounted in the sliding bearing 13 na on which the thumb 15 is fixedly arranged. A sliding bearing 13 is rotatably mounted about 16 and 16 so that it extends through the tube 14 on which it is supported by a turntable. The thumb 15 'is fixedly arranged on the axis 16. A lever 10 is mounted at the end of the pipe 14, a lever 10 * is attached at the end of the axis 16.

Into the openings in the body 11 is further inserted an axle 17 on which the two-arm levers 18 are pivoted arranged so that their spacing corresponds to the pitch of the shanks 4 of the control feet 3. At the end of the shorter arm a spring 20 is inserted, which is clamped at its other end to the body 11 by pressing the pivot lever 18 against the stop 21 formed in the body 11 (FIG. 1). In this basic polio, the pivoting double-arm 18 does not come into contact with the knees 4 of the control treads 3 with its longer arm, on which both a shaped surface 22 intended to actuate the treads 3 is formed and the wedge surface 23 comes into contact with the thumb 15 or 15 *. On the fingers 15, 15 *, the springs 24 are fixed at one end to the grooves formed in these fingers 15, 15 ‘, the other end of the springs 24 being free. These springs 24 are spaced at the same distances as the pivoted twin-arm levers 18, so that each pivotable twin-arm lever 18 is associated with one spring 24, which secures it in a tilted semi-axle (FIG. 3). In FIG. 5 shows another way of securing the pivoting double-arm levers 18 * in the tilted position by fixed plate-shaped queries 25 firmly connected to the fingers 15, 15 *.

A portion of the pivoting two-arm levers 18 is actuated by the thumb 15 rigidly connected by the pipe 14 to the lever 10 controlled by the cam 8. The remaining portion of the pivoting two-arm levers 18 is actuated by the thumb 15 * firmly connected to the axis 18 and the cam 10 * by the cam 8 *. Knitting needles in the entire circumference of the needle: cylinders 1 designed for the same function are controlled by stoppers 3, whose knees 4 in the periphery of the needle cylinder 1 are opposed to the double-lever arm 18 operated by the thumb 15, 15 ' *. The knees 4 of the feet 3 in the remaining part of the periphery of the needle cylinder 1 are located opposite the pivoting double-arm lever 18 operated by the thumb 15, 15 ‘, the lever 10, 10 * and the cam 8, 8 *. This distribution of the knees 4 of the control stitches 3 around the periphery of the needle cylinder 1 is also accommodated for the control of the knitting needles in all other technological operations. The functional shape of the cams 8, 8 * is the same, but phase shifted according to the distribution of the nodes 4 of the control tracks 3. For example, if the nodes 4 of the control tracks 3 are divided into two equal parts around the needle cylinder 1. offset by 180 °, ie by half of the revolution of the needle cylinder 1.

In addition to the spring 20, a magnet 28 is mounted in the body 11, which by its pole piece 27 exerts a magnetic force on contact with the spring 20. The magnet 26 is formed as a permanent ferrite magnet and electromagnet assembly. The electromagnet is controlled, for example, by an electronic control center and exerts an electromagnetic force of the same size but of the opposite sense to the permanent magnet. Each spring 20 or the fixed stop 25 each has a magnet 26.

The device according to the invention works as follows:

The needle cylinder 1, the carrier 5 and the cams 8, 8 * are shredded by means of a drive (not shown) in the direction "S" (Fig. 1). The knitting needles deposited slidably between the ribs 2 of the needle cylinder 1 are actuated by the swinging stoppers 3. These swinging stoppers 3 with the knee 4 are actuated by a swinging twin arm 18 operated eg by a thumb 15 * fixed to each other 14 * with a lever 10 * operated. needles in the remainder of the periphery of the needle cylinder 1, for example in the second half of the circumference, perform the same function, the trackers 31 with the knee 4 formed against the pivoting double arm 18 operated by the thumb 15 firmly connected to each other by tube 14 and the lever 10 the shape of the cams 8, 8 * is phase shifted. The phase displacement corresponds to the distribution of the nipples 4 of the track 3 in the circumference of the needle cylinder 1 controlling the needles with the same function, the phase displacement in this example being 180 °.

If, when the needle cylinder 1 is rotated, the last of the group of trackers 3 misses the gray elbow 4 of the end of the longer arm 22 of the swing arm 18, the cam 8 * tilts the lever 10 * firmly connected by sharp 14 * with thumb 15 * against spring pressure 30. displaces the pivot lever 18 against the force of the spring 20 or 20 * so that the end of the longer arm 22 reaches the surface of the needle cylinder 1 and the shorter arm presses the spring 20 of its shorter end 28 of the double arm 18 * to the pole 26 (Fig. 2). The permanent magnet holds the spring 20 or the end of the pivoting double arm 18 '* and thereby the double arm lever 18 in the inclined cover until the cam 8 * allows the lever 10' and the thumb 15 * to return to the starting position so that the pivoting double arm 18, 18 * is in the tilted position secured by a spring 24 or a fixed stop 25. Then, the knee 4 of the first of the group of stoppers 3 can hit the shaped surface 22, 23 formed on the longer arm of the pivoting double-arm lever 18, 18 *. By pushing the feet of the track 3 between the ribs 2 of the needle cylinder 1, the track 3 is tilted, which is used to control the knitting needles.

When the last of the group of stoppers 3 pushed into the needle cylinder 1 passes the end of the longer arm 22 of the pivoted arm 18, the cam 8 deflects the lever 10 and the thumb 15 again to the position indicated in FIG. again touches the pole 27 of the magnet 26. If the knitting needles are not to be brought into operation again at this rotation of the needle cylinder 1, an electrical voltage is applied to the electromagnet from the control center causing the electromagnet to cancel its permanent magnet electromagnetic sewing on the spring 20; a shorter end 28. Once the cam 8 allows the lever 10 and the thumb 15 to return to the original position under the action of the spring 20, 20 ', the pivoting two-arm lever 18, 18 * also begins to return to the initial position shown in FIG. 1. The stoppers 3 with their knees 4 pass the pivoting double-arm lever 18, 18 'without being pushed between the ebra 2 of the needle cylinder 1. However, even if the knitting needles are to be actuated at this revolution of the needle cylinder 1, the voltage is not applied to the electromagnet from the control center and the knitting needles are actuated by the stoppers 3 as described above.

If they have to be selected to perform the same function of the knitting needle in the entire circumference of the needle cylinder 1, the remaining track needles 3 'must be actuated, whose knees 4 are located at the same location against the double-arm lever 18, 18 *. a lever 10 operated by the cam 8 in a manner identical to that described above.

Claims (3)

SUBJECT A patterning device of a circular knitting machine, in particular a mall diameter, comprising oscillating levers actuated by an electro-magnet and acting in one position on the oscillating tracks, located under the needles in the groove of the needle cylinder, characterized in that the oscillating levers (18) 15 ') with stops (24, 25) actuated by a cam (8, 8') coupled with a 9 needle cylinder (11), these pivoting levers (18) being provided with springs (20) fixed by means OF THE INVENTION with its other end in the carrier body and associated with the control solenoid (26). The patterning device according to claim 1, characterized in that the fingers (15, 15 *) are provided with stops formed by springs (24) for securing the pivoting levers (18) in the development position. Patterning device according to claim 1, characterized in that the fingers (15, 15 ‘) are provided with fixed stops (25) formed by a fixed plate.