RU115972U1 - ELECTRIC MACHINE STATOR WITH COOLING SYSTEM - Google Patents

Abstract

1. The stator of an electric machine with a cooling system, containing coils of different two phases of the stator winding, placed in the grooves of the stator core, characterized in that the cooling system is equipped with a tube with the possibility of supplying coolant between adjacent coils of the stator winding and the stator core. ! 2. The stator of an electrical machine with a cooling system according to claim 1, characterized in that a tube made with a triangular cross section is connected by its first side to the first adjacent coil of the stator winding, and the second side of the tube is connected to the second adjacent coil of the stator winding, while the third the side of the tube is connected to the stator core. ! 3. The stator of an electric machine with a cooling system according to claim 1, characterized in that a tube made with a circular cross section is connected to the first and second adjacent coils of the stator winding, as well as to the stator core, while between the tube and the adjacent surfaces of the core a space is formed between the stator and adjacent stator winding coils. ! 4. The stator of an electric machine with a cooling system according to claim 3, characterized in that the space between the circular tube and the adjacent surfaces of the stator core and adjacent coils of the stator winding is filled with a heat-conducting material.

Description

The utility model relates to the field of electrical engineering, it is used, in particular, in electric machines of wide use.

There are known designs of electric machines in a book for engineers and scientists (V.V.Dombrovsky, G.M. Khutoretsky "Fundamentals of designing electric machines of alternating current", publishing house "Energy", Leningrad branch, 1974, p. ], which use a liquid cooling system for stator windings by supplying cooling water (distillate) to hollow rectangular copper tubes (conductors), which are wound around with a working current. Hollow conductors are insulated like solid elementary conductors. The stator core consists of individual sheets of electrical steel. In these sheets, grooves are made in which the stator winding is located.

The disadvantage of such a cooling system is a number of technical difficulties, since the coolant, refrigerant, flows through the live parts of the stator. The stator core is air-cooled. The height of the hollow conductors for structural reasons should be significantly greater than the height of solid conductors, so the additional losses in them will be significantly higher than in solid conductors.

The closest analogue (prototype) to the proposed technical solution is the invention (patent RU 2167482 C1 with a priority of 01/27/2000) [2], in which the stator of an electric machine with a cooling system contains stator coils of different two phases, and coils are located in the grooves of the stator core stator of the same shape.

The main disadvantage of this device is that the most heated section in operation is the winding of stator coils of two different phases, which are adjacent, adjacent to the bottom of the stator groove, and to the core at the bottom of the stator groove, which are removed from the cooling surface, as well as that at the same time, the remaining air space of the stator groove was not used for cooling.

The technical problem of the proposed technical solution is to create a stator cooling system of an electric machine, which allows cooling of the stator core and stator winding coils of an electric machine at the same time.

The technical result of the utility model is to simplify the stator cooling system of an electric machine, increase the cooling intensity and increase reliability.

The problem is solved due to the fact that:

The stator of an electric machine with a cooling system contains coils of different two phases of the stator winding, located in the grooves of the stator core. The cooling system is equipped with a pipe with the possibility of supplying refrigerant between adjacent coils of the stator winding and the stator core.

A tube made with a triangular section is connected by its first side to the first adjacent stator winding coil. The second side of the tube is connected to the second adjacent coil of the stator winding. The third side of the tube is attached to the stator core.

A tube made with a circular cross section is connected to the first and second adjacent coils of the stator winding, as well as to the stator core. A space is formed between the tube and the adjacent surfaces of the stator core and adjacent stator winding coils.

The space between the circular tube and the adjacent surfaces of the stator core and adjacent stator winding coils is filled with heat-conducting material.

The proposed technical solution is illustrated by drawings. The figure 1 shows a cross section of the stator of an electric machine with a cooling system in which a tube of triangular section is located. The figure 2 presents a cross section of the stator of an electric machine with a cooling system, in which a tube of circular cross section is located.

The stator device of an electric machine with a cooling system includes:

1. The stator core;

2. Stator winding;

3. The stator groove;

4. The first adjacent stator winding coil;

5. The second adjacent stator winding coil;

6. A tube of triangular section;

7. Tube of circular cross section;

8. The first side of the tube is a triangular section;

9. The second side of the tube is a triangular section;

10. The third side of the tube is a triangular section;

11. Thermally conductive material.

The tube of triangular section 6 (Fig. 1) is installed in the groove of the stator 3. The first side of the tube of triangular section 8 is connected to the first adjacent coil of the stator winding 4, the second side of the tube of triangular section 9 is connected to the second adjacent coil of the stator winding 5, and the third side a tube of triangular cross section 10 is connected to the core of the stator 1. When using a tube of circular cross section 7 (figure 2) the space formed between the tube of circular cross section 7 and the adjacent surfaces of the core of the stator 1 and adjacent coils of the coil stator tissue, 4 and 5, is filled with heat-conducting material 11.

The device operates as follows:

The refrigerant flowing in a triangular tube in cross section 6 (FIG. 1) or in a round tube 7 (FIG. 2) simultaneously cools the first adjacent stator winding coil 4, the second adjacent stator winding coil 5 and the stator core. 1. In this case, the heat-conducting material 11 filling the space between the round tube 7 and the adjacent surfaces of the stator core 1 and adjacent stator winding coils, 4 and 5, contributes to intensive cooling. The proposed cooling system has the best result when using liquid refrigerant, which is used as antifreeze, antifreeze, water, oil, alcohol.

Thus, a simplification of the stator cooling system of the electric machine is achieved, which contributes to an increase in cooling intensity and an increase in reliability.

The proposed technical solution allows simultaneous cooling of the stator core and stator winding coils and its use in electric machines of wide use. Thus, the technical task is solved.

Sources of information taken into account when drawing up an application for a utility model:

[one]. V.V.Dombrovsky, G.M. [2]. Patent RU 2167482 C1 class Н02К 3/12, Н02К 3/04, with priority dated January 27, 2000.

Claims (4)

1. The stator of an electric machine with a cooling system, comprising coils of different two phases of the stator winding, located in the grooves of the stator core, characterized in that the cooling system is equipped with a pipe with the possibility of supplying refrigerant between adjacent coils of the stator winding and the stator core. 2. The stator of an electric machine with a cooling system according to claim 1, characterized in that the tube made with a triangular section is connected by its first side to the first adjacent stator winding coil, and the second side of the tube is connected to the second adjacent stator winding coil, while the third side, the tube is connected to the stator core. 3. The stator of an electric machine with a cooling system according to claim 1, characterized in that the tube made with a circular cross section is connected to the first and second adjacent coils of the stator winding, as well as to the stator core, while between the tube and the adjacent surfaces of the core stator and adjacent coils of the stator winding space is formed. 4. The stator of an electric machine with a cooling system according to claim 3, characterized in that the space between the circular tube and the adjacent surfaces of the stator core and adjacent stator winding coils is filled with heat-conducting material.