RU42533U1 - SPINNING MACHINE FEEDER - Google Patents

Abstract

The proposed utility model relates to textile machinery, in particular to the feeding devices of textile machines. The technical task of the utility model is to reduce breakage due to further alignment of the tension of the material being wound. The solution to the technical problem lies in the fact that the position of the guide link is set relative to the fixed point O of the suspension swing, which is taken as the origin of the coordinate system. The OX axis of this coordinate system is directed parallel to the supporting beam, the OZ axis is vertically upward, and the OY axis is perpendicular to the OX and OZ axes towards the service front of the machine. The axis of the guide link coincides with the intersection line of the P and Q planes. The plane P is parallel to the OZ axis, normal to it is inclined to the OX axis at an angle α = 35 °. The plane P is separated from point O by a distance of Op = 115 mm. The plane Q is parallel to the OX axis, the normal to it is inclined to the OZ axis by an angle β = 300 °. The plane Q is separated from point O by a distance of Oq = 95 mm.

Description

The proposed utility model relates to textile machinery, in particular to the feeding devices of textile machines.

A feeding frame of a textile machine is known in which the packages are mounted on holders mounted on a horizontal load-bearing beam. A guide of filamentary material made in the form of a curved rod consisting of rectilinear links arranged with a step corresponding to the step of the package holders and installed obliquely to the vertical plane passing through the axis of the package holders is installed above the packages on vertical racks [1].

A disadvantage of the known feeding frame is the instability of the tension of the filamentary material during its winding from the coils, which is associated with a change in the angle of descent of the filamentary material during its winding. The instability of the tension of the filamentary material leads to a hidden hood, unevenness and breakage.

The prototype of the proposed utility model is [2]. Here, to equalize the tension, each link of the guide is installed obliquely to the horizontal plane, while the guide is located in front of a number of package holders on the machine service side, with the possibility of changing the tilt angle of the links. The disadvantage of the prototype is that it is impossible to ensure a minimum winding tension only by changing the angle of inclination of the bar to the horizontal plane.

It has been experimentally established that the change in tension during the movement of the reeling point along the package is also affected by the angle of inclination of the thread guide link to the vertical plane and its position relative to the reeled package.

The technical task of the utility model is to reduce breakage due to further alignment of the tension of the material being wound.

The solution to this problem is achieved by choosing a specific orientation of the thread guide link with respect to the reeling package

In FIG. shows a diagram of the proposed power device.

The feeding device comprises supports 1 with struts 2 fixed on them, on which a support beam 3 is mounted in the upper part with pendants 4 mounted on it, 4 packages with filamentary material 5, for example with roving. On the racks 2, brackets 6 are installed for fastening the horizontal ends 7 of the filament guide 8 therein. The guide 8 contains guide links 9 mounted opposite the packages, and supporting links 10 for these guide links 9, as well as horizontal support ends 7 for mounting the guide 8 in the brackets 6.

The position of the guide link is set relative to the fixed point O of the suspension swing, which is taken as the origin of the coordinate system. The OX axis of this coordinate system is directed parallel to the supporting beam 3, the OZ axis is vertically upward, and the OY axis is perpendicular to the OX and OZ axes towards the service front of the machine. The axis of the guide link coincides with the intersection of the planes P and Q. The plane P is parallel to the axis OZ, normal to it is inclined to the axis OX at an angle α °. The plane P is separated from point O by the distance Op. The plane Q is parallel to the OX axis, the normal to it is inclined to the OZ axis by an angle β. The plane Q is separated from point O by a distance Oq.

The position of the ends of the guide links 9 is limited by the spacing of the textile machine spindles. During the operation of the textile machine, the filamentary material is located on the guide link 9 of the guide 8 and is introduced into the exhaust device (not shown in Fig.). When you turn on the machine in operation, the filamentary material is drawn into the exhaust device with some effort, as a result of which it is wound from the package and enters the guide link 9 of the guide 8. In the process of winding the filamentary material due to the fact that it rests on the inclined link 9 of the guide 8, occupies a position on the inclined link, which depends on the position of the guide

link in space. Each position of the filamentary material on the guide link 9 corresponds to its own envelope angle. The magnitude of the envelope angle depends on the increment of tension during the passage of the guide link. The stability of the tension of the filamentary material can be ensured by choosing a position of the guide link at which the angle of envelope of its filamentary material remains constant when the position of the point of vanishing of the filamentary material from the package changes. Calculations show that this condition corresponds to the position of the guide link at Op = 115 mm, Oq = 95 mm, α = 35 ° and β = 300 °. It was experimentally established that at the indicated position of the guide link, tension is reduced in comparison with the horizontal arrangement of the guide link by 1.5 times when winding the filamentary material from the bottom of the package. When the vanishing point of the filamentary material moves, its tension remains practically unchanged. The coefficient of variation in tension of the material being wound is reduced by 30%, which indicates a decrease in dynamic loads on it.

A useful effect from the use of the inventive device is to stabilize and reduce the tension of the roving when it is unwound, which allows to reduce breakage, increase machine productivity and the quality of the produced yarn.

List of sources used

1. Patent of England No. 1372553, cl. Dl j, publ. 1974.

2. R.A. Mangutov, M.S. Sabirov, O. B. Romanov, M. M. Butovsky, M. P. Vladimir, A. P. Sorkin. The feeding frame of the textile machine. A.S. USSR No. 787499, D 01 H 1/18

Claims (1)

A spinning machine feed device comprising a load-bearing beam with package holders and a winding material guide mounted on vertical racks made in the form of a curved rod consisting of straight links arranged in steps corresponding to the spacing of the package holders and set obliquely to the horizontal and vertical plane, passing through the axis of the package holders, characterized in that the position of each link of the guide coincides with the line of intersection of the two planes, flat tee parallel to the vertical axis, the normal to which is inclined to the horizontal axis passing through the swing points of the package holders at an angle of 35 °, and separated from the swing point of the package holder by a distance of 115 mm, and a plane parallel to the horizontal axis passing through the swing points of the package holders , the normal to which is inclined to the vertical axis at an angle of 300 °, and is 95 mm apart from the swing point of the package holder.