SU929752A1 - Device for winding yarn onto cop of circular textile machine modifications - Google Patents

Description

(5) DEVICE FOR WRINKING THE YARN ON THE PAIR OF THE RING TEXTILE MACHINE (ITS OPTIONS)

The invention relates to the textile industry and can be used on ring spinning machines.

A device for winding yarn on the cob of a ring textile machine is known, which comprises a ball with a hole for passing yarn, located in a traveling magnetic field created by the stator winding of the device tn.

The disadvantage of the device is that the ball is held only by centrifugal forces generated when it moves around the circumference of the stator. When the stator winding is disconnected, the ball falls out of it, and when restarting, the ball is necessary. manually installed on the workplace. Since the ball is kept from radial displacement to the center of rotation only by centrifugal force, the device does not allow for obtaining dense cobs.

It is also known a device for winding a yarn on the cob of a ring textile machine, comprising a stator with a winding installed in an annular casing on a ring plate with a winding for creating a traveling magnetic field and a ring holder mounted inside the stator by means of a uniformly arranged ball of ferromagnetic material. In addition, the device includes a rotor with a short-circuited coil, mounted on a ring holder mounted inside the stator C2.

Claims (2)

The drawback of the device is its large dimensions, due to the presence on both sides of the stator of two rows of balls that perform the function of bearings. In addition, the presence of rods, the joining of their rings of ball bearings and performing the function of short-circuited rotor turns complicates the design of the device. 392 The purpose of the invention is to reduce the size and simplify the design. This goal is achieved by the fact that in a device for winding yarn on the cob of a ring textile machine, a stator with a winding installed in an annular casing on an annular plank with a winding to create a running magnetic magnetically, and a ring holder mounted inside the stator by means of uniformly circumferential casing and made of ferromagnetic. the material of the balls, the ring holder is mounted coaxially to the stator casing and in it at the winding level of the emulator there are grooves, an annular slot is made on the inner wall of the casing, and the balls are installed in the slots of the holder and placed in the slot of the case. non dielectric material. In addition, every two adjacent balls are displaced one relative to the other along the axis of rotation of the holder. According to the second embodiment of the device for winding yarn on the coil of the ring textile machine, on the inner surface of the stator there is an annular groove having a cross-sectional shape facing the axis the stator with a large trapezoid base with an angle of inclination of the sides to the base equal to 30-60 °, and the rotor on the outer surface has an annular protrusion with a cross-sectional shape corresponding to the shape across the annular groove of the stator, while the protrusion of the rotor is placed in the annular groove of the stator with a gap relative to it. The stator is an annular package of steel sheets consisting of half-rings with a zigzag connector line. Figure 1 shows the proposed device, top view; in Fig.2 a section aa in Fig.1; in FIG. 3, a variant of the device, longitudinal section; figure 4 - view B in fig.Z. The device contains a stator 2 with a winding 3 installed on an annular ring of an annular spindle machine in an annular casing 1 with a winding 3 for creating a traveling magnetic field. Inside the stator 2, the holder 4 of the ring 5 with the slider 6, made of a dielectric material and having 3 slots at the level of the winding, is mounted coaxially to the casing 1. On the inner wall 7 of the casing 1, an annular slot 8 is made, in which balls 9 of ferromagnetic material are placed, mounted in the slots of the holder C (Figures 1 and 2). The balls are evenly spaced around the circumference of the casing and every two adjacent Ъ they are displaced from each other along the axis of rotation of the holder C, Part of the balls contacts the lower horizontal flat surface 10 of the casing slot and the upper horizontal surface 11 of the holder, and the other part of the balls is located between the upper flat surface 12 the slots of the casing and the lower horizontal surface 13 of the holder (figure 2). In the embodiment of the device Sfig.C) the ring holder k is installed inside the stator 2 by means of the rotor i, a steel package with a closed loop, made, for example, according to the squirrel cage scheme. On the outer surface of the rotor is made a protrusion 15i placed in the annular groove 16 on the inner surface of the stator with a gap relative to it. The annular groove has a cross section of the shape of a trapezoid, facing a large base to the axis of the stator and having an angle of inclination of the sides to the base, equal to 30-60. Placed in the groove of the stator, the protrusion of the rotor has a cross-sectional shape corresponding to the shape of the cross-section of the groove. To control the assembly of the stator, which represents an annular package of steel sheets, it is made of two half-rings with a zigzag connector line (Fig.). When podkgnomnii with a coil 3 of the stator 2 to the AC network, in the winding creates an alternating magnetic field, which induces in the balls-9 EMF, creating a magnetic field of balls. The interaction of the magnetic fields of the balls with the alternating magnetic field of the stator creates a torque, as a result of which the balls begin to move in the slot of the stator casing around the circumference. The movement of the balls causes the rotation of the holder 4 and with it the rings 5 with the slider 6 mounted on it (figure 2). Due to the rotation of the ring 5 by the hole in the direction of rotation of the cob 1 7, at a frequency less than the frequency of rotation of the cob, passing through the yarn slider .18 is wound onto the cob. When the stator winding is connected to the mains through a frequency converter, it is possible to regulate the frequency of rotation of the ring 5. In the process of device operation in accordance with the second variant (Fig. 3), the alternating magnetic field generated by the stator winding induces a magnetic field in the short-circuited rotor rotor. During the interaction of the magnetic field of the rotor with the alternating magnetic field of the stator, a torque is created, as a result of which the rotor begins to rotate and with it the ring 5 with the slider 6. The proposed embodiments of the device are simple and therefore easy to maintain and to manufacture. In addition, the device makes it possible to increase the productivity of the spinning machine by controlling the frequency of rotation of the ring relative to the frequency of rotation of the accumulated ear. Claim 1. Device for winding yarn on the cob of an annular textile machine, comprising a stator installed in an annular casing on an annular plank with a winding for creating a running magnetic field and a x1 ring holder mounted inside the stator by means of uniformly circumferential casing and made of a ferromagnetic material La balls, characterized in that, in order to reduce overall dimensions and simplify the design, the ring holder is mounted coaxially to the stator housing and in it at the level of baa stator coils formed grooves, wherein on the inner wall of the housing an annular groove and the balls in the grooves .ustanovleny holder and housed in the housing slot, wherein the holder is made of a dielectric material. 2. The device according to claim 1, wherein it is each that each two adjacent balls are displaced relative to each other along the axis of rotation of the holder. 3. A device for winding yarn on the cob of the ring textile machine, containing the installed c. an annular casing on the annular plate stator with a winding to create a running magnetic field and a short-circuited wind reel mounted on a ring holder mounted inside the stator, characterized in that, in order to reduce the size and simplify the design, an annular groove on the inner surface of the stator is made in cross-section, the shape of a large trapezoid base к to jagged the stator axis with the angle of inclination of the sides to the base is 30-60 °, and the rotor on the outer surface has an annular protrusion with rmoy cross-sectional shape corresponding to the cross-sectional annular groove of the stator, the rotor projection is placed in the annular groove of the stator, with a gap relative thereto. C. The device according to claim 3, characterized in that the stator is an annular package of steel sheets consisting of half-rings with a zigzag connector line. Sources of information taken by E6 attention in examination 1. UK Patent W 1336010, r. 01 D, published 1973. 2. Patent of the GDR №, cl. 71c, 13/09, published 1975. (pite.2 7 5 / X / Fyg.