RU2476976C2 - Stator winding of welding asynchronous generator - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: stator winding of a welding asynchronous generator comprises twelve coil groups with leads and connection of the end of the second coil group with the end of the eighth coil group, the end of the fourth coil group with the end of the tenth coil group, the end of the sixth coil group with the end of the twelfth coil group and excitation capacitors differing by the fact that the first lead of the winding is taken from the start of the twelfth coil group, the second lead of the winding is taken from combined starts of the first, sixth and eleventh coil groups, the third lead of the winding is taken from the start of the eighth coil group, the fourth lead of the winding is taken from combined starts of the second, seventh and ninth coil groups, the fifth lead of the winding is taken from the start of the fourth coil group, the sixth lead of the winding is taken from combined starts of the third, fifth and tenth coil groups, at the same time the end of the first coil group is connected with the end of the seventh coil group, the end of the third coil group is connected with the end of the tenth coil group, the end of the fifth coil group is connected with the end of the eleventh coil group, the end of the second coil group is connected with the end of the eighth coil group, the end of the fourth coil group is connected with the end of the tenth coil group, the end of the sixth coil group is connected with the end of the twelfth coil group, the first, second and third excitation capacitors are connected with leads by the first, third and fifth winding leads, and the three-phase rectifier is connected with the second, fourth and sixth leads of the stator winding.

EFFECT: reduced level of losses in a stator winding and increased energy efficiency of a welding asynchronous generator, which makes it possible to use the proposed stator welding in a welding asynchronous generator of an autonomous power plant.

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Description

The invention relates to electrical engineering and can be used in welding asynchronous generators of autonomous power plants.

Known stator winding of an asynchronous generator of 12 coil groups with leads from the combined beginning of 1 and the end of 6 coil groups, from the combined beginning of 5 and the end of 10 coil groups, from the combined beginning of 9 and the end of 2 coil groups, from the combined beginning of 4 and the end of 3 coil groups , from the combined beginning of 8 and the end of 7 coil groups, from the combined beginning of 12 and the end of 11 coil groups, with the end of 1 coil group connected to the end 8 of the coil group, the end 5 to the end 11, the end 9 to the end 4, the beginning 2 - with the beginning of 7, beginning of 3 - with the beginning of 1 0, beginning 6 - with the beginning of the 11th reel group (patent RU 2263385, BI No. 30, 2005).

A disadvantage of the known winding is that when alternating coils in groups 2-4-2-4 ... it is difficult to produce coil groups for the welding current and therefore it cannot be used in a welding asynchronous generator of an autonomous power plant.

Known stator winding of an asynchronous generator of 12 coil groups with leads from the combined beginning of 4 and the end of 3 coil groups, from the combined beginning of 8 and the end of 7 coil groups, from the combined beginning of 12 and the end of 11 coil groups, from the combined beginning of 2 and the end of 5 coil groups , from the combined beginning of 6 and the end of 9 coil groups, from the combined beginning of 10 and the end of 1 coil groups, while the beginning of 1 coil group is connected to the beginning of 7 coil groups, end 2 to end 8, end 4 to end 10, end 6 - with the end of 12, the beginning of 5 - from the beginning 11, beginning 9 - with the start of the coil group 3 (patent RU 2316104, BE №3, 2008 - the prototype).

A disadvantage of the known winding is that when alternating coils in groups 1-3-1 - 3 ... it is difficult to manufacture coils of large cross section per welding current, and therefore it cannot be used in a welding asynchronous generator of an autonomous power station.

The technical solution of the invention is the possibility of using the proposed stator winding in a welding asynchronous generator of an autonomous power plant.

The task is achieved in that in the stator winding of the welding asynchronous generator of twelve coil groups with leads and the connection of the end of the second coil group with the end of the eighth coil group, the end of the fourth coil group with the end of the tenth coil group, the end of the sixth coil group with the end of the twelfth coil group and field capacitors, the first output of the winding is taken from the beginning of the twelfth coil group, the second output of the winding is taken from the combined beginnings of the first, sixth and eleventh terminal groups, the third winding pin is taken from the beginning of the eighth coil group, the fourth winding pin is taken from the combined beginnings of the second, seventh and ninth coil groups, the fifth winding pin is taken from the beginning of the fourth coil group, the sixth winding pin is taken from the combined beginnings of the third, fifth and tenth coil groups, with the end of the first coil group connected to the end of the seventh coil group, the end of the third coil group connected to the end of the ninth coil group, the end of the fifth coil group connected to the end of one of the twelfth coil group, the end of the second coil group is connected to the end of the eighth coil group, the end of the fourth coil group is connected to the end of the tenth coil group, the end of the sixth coil group is connected to the end of the twelfth coil group, the first, second and third field capacitors are connected to the first, third and fifth leads of the winding, and a three-phase rectifier connected to the second, fourth and sixth leads of the stator winding.

Figure 1 shows a diagram of the stator winding, figure 2 is a diagram of the inclusion of capacitors and a rectifier.

According to figures 1 and 2, the stator winding of the welding asynchronous generator contains 12 coil groups (1 ... 12) with terminal 13 from the beginning of 12 coil groups, with terminal 14 from the combined beginnings of 1, 6 and 11 coil groups, with terminal 15 from the beginning of 4 coil groups, with a conclusion of 16 from the combined beginnings of 3, 5 and 10 coil groups, with a conclusion of 17 from the beginning of 8 coil groups, with a conclusion of 18 from the combined beginnings of 2, 7 and 9 coil groups, while the end of 1 coil group is connected to the end of 7 coil groups, the end 3 of the coil group is connected to the end 9 of the coil group, the end 5 of the coil group is connected to the end 11 of the coil group, the end 2 of the coil group is connected to the end 8 of the coil group, the end 4 of the coil group is connected to the end 10 of the coil group, the end 6 of the coil group is connected to the end 12 of the coil group, field capacitors 19, 20, 21 connected to the terminals 13, 15, 17, and a three-phase rectifier 22 is connected to the terminals 14, 16, 18 of the stator winding.

The same number of coils in the coil groups and the pitch of the coils y = 15 make it possible to lay coils of the sequential part of the winding and the parts of the triangle made of different numbers of turns with a wire of different cross-sections in the same grooves. So, for an experimental prototype of a welding asynchronous generator based on the standard AIR112M2 asynchronous motor with a ratio of turns in the coils of the serial part of the winding and in the part of the 14/4 triangle, the ratio of the EMF at the terminals with the generator idling is 400/56 V. The ratio of the diameters d is uninsulated and d _{from an} insulated wire in the coils of the serial part of the winding is d / d _of = 1.18 / 1.26 mm. In the triangle part, the coils are made of four parallel conductors with a diameter of d / d _of = 1.50 / 1.61 mm. The internal resistance of the winding in the triangle is small.

According to figure 2, the rectifier 22, connected to the conclusions 14, 16, 18 of the low voltage of the welding asynchronous generator in the form of a three-phase bridge, increases the open circuit voltage to the level required for welding.

The stator winding of the welding asynchronous generator operates as follows. When the rotor of the welding asynchronous generator rotates with a speed higher than the speed of rotation of the magnetic field, self-excitation of the welding asynchronous generator occurs due to the residual magnetization and excitation capacitors 19, 20, 21.

The ratio of the EMF values of the linear voltage between the winding terminals 13-17, 17-15, 15-13 and the winding terminals 14-18,18-16, 16-14 is 400/56 V, and the open circuit voltage at the output of the rectifier 22 is of the order of 75 V sufficient for stable ignition of the welding arc.

The advantage of the winding is that it allows you to increase the energy efficiency of the welding asynchronous generator due to the distribution of the cross section of the winding conductors in the grooves, which greatly contributes to reducing the level of losses in the stator winding.

Claims (1)

The stator winding of the welding asynchronous generator, consisting of twelve coil groups with leads and connecting the end of the second coil group to the end of the eighth coil group, the end of the fourth coil group to the end of the tenth coil group, the end of the sixth coil group to the end of the twelfth coil group and field capacitors, that the first winding output is taken from the beginning of the twelfth coil group, the second winding output is taken from the combined beginnings of the first, sixth and eleventh coil loads n, the third winding pin is taken from the beginning of the eighth coil group, the fourth winding pin is taken from the combined beginnings of the second, seventh and ninth coil groups, the fifth winding pin is taken from the start of the fourth coil group, the sixth winding pin is taken from the combined beginnings of the third, fifth and tenth coil groups, with the end of the first reel group connected to the end of the seventh reel group, the end of the third reel group connected to the end of the ninth reel group, the end of the fifth reel group connected to the end of the eleventh reel the ear group, the end of the second coil group is connected to the end of the eighth coil group, the end of the fourth coil group is connected to the end of the tenth coil group, the end of the sixth coil group is connected to the end of the twelfth coil group, the first, second and third field capacitors are connected to the first, third and fifth winding leads, and a three-phase rectifier connected to the second, fourth and sixth leads of the stator winding.

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