CS267104B1 - Circular knitting frame - Google Patents

Abstract

The invention relates to a circular knitting machine, especially a multi-system small circular knitting machine, which is equipped with an electronically controlled needle-selection device, in which an elastic pattern pusher is assigned to each knitting needle, these elastic pattern pushers being assigned electromagnetic converters and cam tracks for the position of rest and working position of these elastic pattern pushers. The object of the invention is to provide an arrangement of the knitting machine which allows this electronic pattern device, working at a high selection working frequency, to be used also for a very fine needle gauge. According to the invention, at least two electromagnetic converters working in succession are assigned to each knitting system, and the cutout in the region of the first electromagnetic converter, which separates the cam track for the working position of the elastic pattern pushers and the cam track for the position of rest of the elastic pattern pushers from one another, is deeper than the cutout in the region of the second electromagnetic converter.

Description

(57) The invention relates to a circular knitting machine, in particular a small diameter multi-system with an electronic glow for selecting knitting needles. In each knitting system, at least two successive electromagnetic transducers are disposed. from the idle position it is deeper in the first electromagnetic transducer than the slot in the second electromagnetic transducer *

CS 267104 BI

26? <04

The invention relates to a circular knitting machine *, in particular to a small diameter, multi-system * provided with an electronic device for selecting knitting needles.

Small diameter circular knitting machines are equipped with a patterning device which is controlled either from a mechanical or electronic carrier of the knitting program. Sampling devices operated by an electronic control system are generally much more advantageous for their more versatile use.

One such known device is described in the description of the invention to CSA 223 457, where a cam operated horizontal slide and an electromagnetically operated latch are used to select knitting needles in one of the operative positions. Other arrangements of mechanical gate valves and electromagnets are also known. The main disadvantage of such a patterning device is the relatively small range of the usable pattern or, conversely, the low operating frequency, which negatively affects the production of the knitting machine. Also disadvantageous is the relatively high mechanical complexity which is the greater the larger the desired patterning range. In addition, this device occupies a considerable height.

In another known device described in the description of the invention to CS A 224 224, each knitting needle is associated with a resilient and pivotable stopper housed in the body of the intermediate tracks. These flexible and oscillating stoppers are equipped with a common control electromagnetic converter. While this device is advantageous in terms of its mechanical simplicity and its considerable working frequency, it is also very disadvantageous because it is very difficult to use on small diameter circular knitting machines for the manufacture of women's hosiery, since these knitting machines have a high density of knitting needles. _ф

Another known electromagnetic patterning device described in the description of the invention to DE-OS 35 03 219 comprises only one electromagnetic transducer at the patterning point of each knitting system acting on the flexible actuating means associated with the knitting needles. 267 104

This device occupies a considerable amount of space near the needle cylinder and cannot be used for the high operating frequencies of circular knitting machines knitting fine women's hosiery.

SUMMARY OF THE INVENTION It is an object of the invention to provide a knitting machine arrangement which makes it possible to use an electronic patterning device operating at a high operating frequency even at very high density of knitting needles.

The task is accomplished by a circular knitting machine, which is characterized in that each patterning point of the knitting system is assigned at least two successive electromagnetic transducers, wherein the cut-out separating the lock paths for the active position of the resilient patterning tracks from the idle position of the first electromagnetic transducer is deeper than cutout at the second electromagnetic converter.

The big advantage of this solution is the possibility of serial arrangement of electromechanical converters. This maintains a low overall height with all the known advantages, and at the same time controls only one part of the total number of patterning tracks to each of the electromechanical transducers, thereby providing a prerequisite for increasing the needle rotation speed and the possibility of applying the invention at very high knitting needles. which is particularly characteristic of circular small-diameter knitting machines intended for the manufacture of fine women's hosiery.

1 shows the arrangement of the resilient patterning tracks and the electromechanical transducer, FIG. 2 shows a view of the arrangement of the interlocking path of the resilient patterning tracks of one knitting system.

FIG. 1 shows an arrangement of flexible pattern trackers and an electromagnetic transducer. In the needle cylinder 11, there are arranged the track 2, which is associated with a lock system (not shown). On the needle cylinder 1 is placed a body 2 of intermediate tracks and in it horizontally intermediate tracks 5 and vertically and parallel to the grooves of the needle roller 1 flexible pattern tracks 5. A push-on lock 9 is mounted at the outer end of the intermediate tracks. Under the resilient patterning tracks 5 is a lock 7 mounted on the lock body 7. An electromechanical transducer 8 is associated with the resilient pattern trackers 5. The resilient patterning tracks 6 may be in two positions, the active position 5.1 and the inactive position 5.2.

Two tracks are formed on the lock 2, the track 7.1 for the active position 5.1 of the flexible pattern tracks 2 ^{and the} lock track

7.2 for the idle position 5.2 of the flexible pattern track 2 · In the idle position 5.2, the flexible pattern track 5 is a cam track

7.2 is inclined from the body of the 3 intermediate supports and is maintained in this inclined position either by the cam track 7.2 ^ or by the action of an electromechanical converter 2 ·

FIG _. 2 shows a view of the arrangement of the cam track of the elastic patterning tracks 5 of one knitting system as seen in the direction of the arrow 6 of FIG. 1. The direction of rotation of the needle cylinder is indicated by the arrow R1. Here, in an exemplary embodiment, two successive electromechanical transducers 8A and 8B are provided. The first electromechanical transducer 8A is located above the slot 10, the second electromechanical transducer 8B is located above the slot 12. The depth of the slot 10 is determined by the measure H1, the depth of the slot 12 is determined by the measure H2, where H1 is greater than H2. The slots 10 and 12 separate the track 7.1 for the resilient patterning tracks 5 located in the operative position 5.1 from the track 7.2 for the resilient patterning tracks 5 located in the idle position 5.2. On the track 7.1, elevators 11 and 13 are located behind the slots 10 and 12. The resilient patterning tracks are located either in the raised position or ^{with the} lowered position 16. In the lowered position, the lower end of the resilient patterning track 5 is in the plane of the bottom of the slot 10 or 12. vzorovací

The track 5A, whereas in the second cut-out 12 all even patterning track 5B are placed at the bottom of the latter. In the first cutout 10, all the even patterning tracks 5B are located at the elevated position 15, while in the second cutout 12 the odd patterning tracks 5A are either in the lowered position 16 at the bottom of the first cutout 10 or in the raised position 15.

The device according to the invention operates as follows: When the needle cylinder 6 is rotated, all the odd elastic patterning tracks 5A are lowered to the raised position 15 and the cam track 7.2 is tilted to the idle position 5.2. By the known action of the first electromagnetic transducer 8A, when passing around the slot 10, they are either held in the idle position 5.2 or moved to the operative position 5.1, thereby moving to the jack 11 and subsequently raised to the raised position 15. in the raised position 15 and cannot be affected by the electromechanical converter 8A.

In the second cutout 12, the notch locking system (not shown) reduces the even elastic patterning tracks 5B, this time to the bottom of the cutout 12, which is located higher than that of the cutout 10. The even flexible patterning tracks 5B are similar to 10 can be moved to the operative position 5.1 and subsequently lifted by the elevator 13 to the raised position 15. Because the depth H1 of the slot 10 is greater than the depth H2 of the slot 12, for obvious reasons, the slot 12 has an odd elastic the patterning tracks 5B cannot move from the idle position 5.2 to the operative position 5.1 in the slot 12 _; regardless of the operation of the electromechanical transducer 843. The resilient patterning tracks 2, which in the push-in lock 2 extend at an elevated position 15, cause the known pushing of the intermediate support 6 onto the vertical track 2 and the subsequent known splitting of the knitting needles into two working positions.

By the fact that in the arrangement of the knitting machine according to the invention it is

2 (Л «> Ч allowed at least two electromechanical transducers .8Д and 8B to be placed behind one another, the low cylinder height of the needle cylinder is kept, as in the case of one electromechanical transducer. of the patterning tracks independently of one another, the operating frequency of the electromechanical transducer is reduced by at least half, and so the spacing between the resilient patterning tracks is at least doubled in the separation by the electromechanical transducers.

This achieves both the possibility of increasing the rotation speed of the needle cylinder and the possibility of using the invention even at a high density of knitting needles, while at the same time increasing the reliability of the function of the electromechanical transducers.

The arrangement according to the invention is not limited to the description of an exemplary embodiment of two successive electromechanical transducers. In this way, three or more electromechanical transducers can advantageously be arranged while maintaining all the advantages described.

Claims (2)

A circular knitting machine, in particular a small diameter multi-system, provided with an electronic device for selecting knitting needles, each knitting needle being associated with a flexible pattern track, these flexible pattern trackers being associated with electromagnetic transducers and lock paths for the active and idle position of the flexible pattern trackers. that each patterning point of the knitting system is associated with at least two successive electromagnetic transducers (8A, 8B), the cut-out (10) separating the lock paths for the active position (5.1) of the flexible patterning tracks (5) from the idle position (5.2) of the first electromagnetic the transducer (8A) is deeper than the notch (12) of the second electromagnetic transducer (8B). 2 drawings 267 W4 Giant. 1