CS251593B1 - Density device of circular knitting machine - Google Patents

Abstract

The solution relates to a density device of a circular knitting machine for the production of hosiery, etc., with an axially movable needle cylinder, mounted on a driven support sleeve, mounted on bearings in the machine plate, the axial displacement of the needle cylinder being controlled by a density screw, coupled to the needle cylinder via another bearing and rod members. The rod members are firmly connected to the density screw bearing and to the needle cylinder.

Description

BACKGROUND OF THE INVENTION The invention relates to a density knitting machine for a hosiery machine or the like with an axially displaceable needle cylinder mounted on a driven support sleeve supported on bearings in a machine plate, the axial displacement of the needle cylinder being controlled by a density screw coupled to the needle cylinder by another bearing and rod members.

A small diameter circular knitting machine is known with an axially movable needle cylinder mounted on a carrying case. The bearing bush is acted upon by a density bushing mounted on the bearing.

A density screw controlled by a stepper motor acts on this bearing. The mechanical transmission to the needle cylinder has a large number of production-intensive components requiring precise fit. During operation, this bearing has high resistances, which affects the density control.

Further, a small diameter circular knitting machine is known, wherein the needle cylinder is also axially movably supported on the support sleeve. The stroke of the needle cylinder to change the density of the knitted fabric is caused by a lever transmission from the imaging drum and through the lifting sleeve, bearing and lifting rod elements and the return movement of the needle cylinder is provided by a spring attached to the support sleeve.

This device has the disadvantage that considerable force is required for the axial movement of the needle cylinder in both directions. These force ratios essentially eliminate the use of electromagnetic or geared electric motors on machines having electronic control means in this type of device.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the aforementioned disadvantage, which is essentially achieved in that the rod-like members are rigidly connected to both the screw bearing and the needle cylinder.

The advantage of the invention is that the movement of the needle cylinder in both directions is very precisely corrected, for example by the spring, and in that means such as a density screw can be used controlled by the electronic control device of the machine carrying case with drive resistors.

1 shows an axial section through the needle cylinder and its bearing and control means, FIG. 2 shows section A-A according to FIG. 1, FIG. 2 shows section B-B according to FIG. 1.

The known single-cylinder circular knitting machine for the production of hosiery is provided with a needle cylinder 11 mounted axially displaceably on a carrying sleeve 2, driven by a gear (not shown) from the electric motor of the machine. The sleeve 2 s ^e mounted on bearings 3 ^{and A} board machine jj. From below, a flange with internal thread is fastened to the plate, in which the density screw 11 is screwed. The worm actuated by a known servo motor (not shown), which is an actuator of the fabric density servo system, engages the external toothing of the density screw 7. The servomotor is controlled by the machine's microcomputer data.

At its bottom, the density screw T forms one part of the thrust ball bearing. The bearing is provided with two rows of balls 9 and is closed from below by a circular bush 10 bolted to the density screw T. The inner bearing ring 11 is mounted axially displaceably on the tongue 12 of the bearing bush 2.

Longitudinal grooves are formed in the carrier sleeve 2, in which the rod-shaped members 13 (FIG. 2) are displaceably received and extend into the longitudinal grooves of the needle cylinder 1. The upper ends of the rods 13 are rigidly connected by screws 14 and a washer 15 to the needle cylinder. The lower ends of the rods 13 are rigidly connected to the inner ring 11 of the thrust bearing by a curved washer 16 and a clamp 17 (FIG. 3). The washer 16 and the clamp 17 are connected to the inner ring 11 by a bolt 18. The washer 16 then fits into the cutout of the rod-shaped element 13 and the clamp 17 extends below the rod-shaped element 13, the screw 18 pulling the washer 16 and the clamp 17 together. , washer 16 and clamp 17.

The function of the device described above is as follows. During knitting, the needle cylinder 7 is rotated away from the support sleeve 2. The rod elements 13 and the inner ring 11 also rotate with the support sleeve 2. If there is no change in density, the worm 2 is not driven and therefore the density screw 7 is at rest. If there is a change in density, the auger 2 ^is rotated either to the right or left as required knitting technology. The density screw 8 is thus forcedly rotated and screwed in or unscrewed in the thread of the flange 6. By this movement the density screw 7 is raised or lowered and hence height-controlled via the bearing balls 11 of the washer 16 and the clamps 17 needle roller 1. ·

Claims (3)

OBJECT OF THE INVENTION Density device of a circular knitting machine for the manufacture of hosiery or the like, having an axially displaceable needle cylinder mounted on a driven support sleeve supported on bearings in the machine plate, the axial displacement of the needle cylinder being controlled by a density screw coupled to the needle cylinder by another rod bearing; characterized in that the rod-like members (13) are rigidly connected to the bearing of the density screw (7) and to the needle cylinder (1). Density device according to claim 1, characterized in that the rod-like members (13) are connected to their inner ring (11) by means of clamps (17) and washers (16) with their lower ends. Density device according to Claims 1 and 2, characterized in that the clamps (17) extend below the ends of the rod-like elements (13) and the washers (16) into the notches of the rod-like elements (13).