SU1224913A1 - Machine tool for manufacturing stator windings of electric machines - Google Patents

Abstract

The invention relates to the field of electrical engineering technology. The purpose of the invention is to improve the quality of the stator windings by reducing the twisting of the wire, as well as increasing the density of the winding. the grooves due to the inertial effect on the crank coil and the winding as a whole. The device contains a frame 1, a conductor 2 made in the form of a tube mounted in the housing 3 rotatably from the conductor actuator 2, the wire feed mechanism 11. In the frame 1 it is installed with the possibility of rotation of the stator socket 17 relative to it, kinematically connected with the conductor 2. The housing 3 of the conductor 2 is rigidly fastened to the stator socket 17 and not connected to the base 1, i.e. it is possible bed 1.Pri (rt Yu to with so

Description

1224913

the rotation of the stator socket along with the bottom of the grooves, which contributes to a more powerful photo stator, picks up the centrifugal blue stacking of the coils and holds the coiled coils against the coils in the grooves during winding. 2 Il.

The invention relates to electrical engineering technology, in particular to the manufacture of bulk windings of stators of electric machines by pushing wires.

The aim of the invention is to improve the quality of the stator windings by reducing the twisting of the wire, as well as increasing the density of the winding in the slots due to the inertial effect on each turn and the winding as a whole.

FIG. Figure 1 shows a machine for making the stator windings of electric machines, overruning; 2 shows section A-A in FIG. one.

The machine for manufacturing the stator windings contains a frame 1 (FIG. 1), a conductor 2 made in the form of a tube mounted in case 3 rotatably from the water conductor 2 made in the form of electromotor 4 (FIG. 2). mounted on the frame 1, gears 5 and 6, gears 7, fixed on the drive shaft 8., and bevel gears 9 and 10, one of which - 9 - fixed on the drive shaft 8, and the other - 10 on conductor 2.

The machine includes a wire feed mechanism 11, made in the form of two rollers 12 and 13, one of which is, for example, 12, driven. The rollers rotate in directions indicated by arrows 14 and 15,

The rollers 12 and 13 are connected (kinematically or electrically) to the driving unit 8 in such a way that for one revolution of the conductor 2 for a given diameter of the roller 12 through the driving shaft 8, which is made of palm trees, a wire segment equal to the perimeter of the winding coil 16 is fed. (the connection of the roller 12 with the gear wheel 7 is not shown in Figs. 1 and 2).

In the frame 1, the stator socket 17 is mounted for rotation relative to it, rigidly connected to the housing 3 by means of a flange 18, and by means of gear wheels 19 and 20, the shaft 21, gear wheels 22-24, and the reducer 5 25 - with a gear wheel 7 and thus kinematically connected with the conductor 2. The kinematic connection between the stator socket 17 and the conductor 2 is such that 0 in one revolution of the conductor 2 the stator socket 17 with the stator 26 fixed on it rotates opposite to the twisting ij wires 1 1 while rotating the conductor 2.

Gearbox 25 doubles the speed of rotation of the stator socket 17 in the indicated direction, 0 or opens the kinematic chain, braking the stator socket 17.

The housing 3 of the conductor 2 is rigidly fastened to the stator socket 17 and is not connected to the bed 1, thus having the ability to rotate relative to the bed 1.

The stator socket 17, besides the flange 1B, also contains a detachable flange 27 and latches 28 for fixing the latter in the stator socket 17.

To guide the wires 11 into the grooves 29 of the stator 2-6 in the stator socket 17, there are guide plates 30 and 31, mounted rotatably on the pin 32, with hubs 33 and 34 mounted on the housing 3.

Guide plates 30 and 31 are provided with brackets 35 and 36 mounted for movement from a special mechanism (not shown) mounted on the flange 27.

The machine works as follows.

A stator 26 is installed in the stator socket 17, the end of the wire 11, 5 arched through the conductor 2 is fixed in the socket 17. The scissors 30 and 31 are set to the necessary winding pitch. The flange 27 is fixed by locks 28, Include electric motor and drive roller 12.

The conductor 2 starts to turn, at the same time the supply of the wire 11 and the rotation of the stator socket 17 together with the stator 26, the detachable flange 27 and the guide rails 30 and 31 are carried out.

the conductor's turn is fed by a wire stripe 11 equal to the perimeter of the winding coil 16, the ejected wire 11 slides along the flaps 30 and 31 and from the conductor .2 is placed in the slots 29 of the stator 26. At the same time the wire twists, i.e., one conductor 2 turns of wire equal to the perimeter of the stacked coil twists 360 °.

Since the stator socket 17, together with the stator 26, the housing 3 and the conductor 2, is rotated one turn of the conductor one full turn in the direction opposite to the twisting, the twisting of the wire is eliminated.

The coils 16 acquire a flat forum, which reduces their warping and contributes to a better filling of the stator slots 29. When the stator socket is rotated together with the stator, a centrifugal force arises, which presses the wound coils 16 to the bottom of the grooves.

29, which contributes to a tighter packing of the coils 16 and retaining the coils in the grooves 29 during winding. The centrifugal force is proportional to the square of the rotational speed of the stator 26, so in the case of rigid wires it may be advisable to install two turns of the stator socket one turn of the conductor in the direction opposite to the twisting of the conductor in case of hard wires 25.

Claims (1)

Invention Formula A machine for making the stators' windings of electric machines, comprising a frame, a stator socket, a driver, including a housing and a hollow shaft, a wire pushing mechanism, a drive of a conductor and a stator, and a shaping tool, characterized in that reducing the twisting of the wire, as well as increasing the density of the winding in the grooves due to the inertial effect on each turn and winding as a whole, the body of the conductor is rotatably mounted the stator socket is kinematically connected with the conductor and rigidly with the housing. S 4