SU746818A1 - Electric machine stator - Google Patents

Description

The invention relates to electrical engineering and can be used in the construction of stators of electrical machines of alternating current. ;

A stator of an electric machine is known, the winding of which is located in the grooves of the core on the support protrusions, the protrusions being continuous along the length of the groove, and form ventilation ducts extending in the axial direction along the grooved conductors [1]. The protrusions have gaps along the perimeter of the groove.

The disadvantage of this design is that continuous over the entire length of the protrusions reduce the cross section for the passage of air and the cooling surface.

The stator design is also known, in which supporting elements are placed between the winding sections and the groove walls, made intermittent along the length of the packet and continuous along the perimeter of the groove I.

Due to this embodiment of the opera elements between the winding of the rigid sections and the walls of the groove channels are formed for the passage of air, connecting with the radial channels of the stator package.

The disadvantage of such a stator is that its design does not provide an axial ventilation system, since the cooling air does not pass along the entire length of the rod, which almost halves both the cross section for the passage of air and the cooling surface.

The aim of the invention is to increase the cooling efficiency of the stator winding.

This is achieved by the fact that in the known stator of an electric machine containing a core with grooves having protruding discontinuous lengths and located in the grooves protrusions and a winding of cruel sections placed in grooves to form channels for the passage of coolant 746818 between the winding sections and the groove walls, support protrusions made intermittent around the perimeter of the groove of the core, and these protrusions and channels between them are distributed over the entire surface of the groove. The protrusions along the length and perimeter of the groove can be staggered.

In Fig "Ϊ shows the proposed stator, a longitudinal section; in FIG. 2 - the same, a transverse section along the groove with an intermittent arrangement of protrusions; in FIG. 3 - the same, transverse ^ section along the groove, while the protrusions are located along the perimeter of the groove in a checkerboard pattern; in FIG. 4 - the same, the transverse spread along the groove with a staggered arrangement of high blunts πΰ the length of the groove.

The stator of the electric machine contains in the channels formed by the walls of the groove, the sides of the winding sections and the supporting protrusions. The cooling agent, moving along the channels, washes almost the entire _5th surface of the stator winding sections, which significantly increases the heat sink from it in comparison with the known designs. Due to the fact that, using the support protrusions from the insulating material, the winding coils are separated from the groove walls, their electric strength is increased without increasing the thickness of the insulation. Thermal insulation on the walls of the grooves makes it possible to reduce the thickness of the housing Electrical insulation on the coils of the winding or to completely remove it, which significantly reduces the temperature difference in the housing electrical insulation of the coils and thereby reduce the heating of the winding.

core 1 with stasis 2, having support 20 protrusions 3 discontinuous in length and a winding of rigid sections 4, held in the groove with the help of wedges 5 and gaskets 8. Support. the protrusions 3 are made intermittent around the perimeter of the groove, and the protrusions and channels 25 7 between them are distributed over the entire surface of the groove.

The protrusions 8 and 9 along the length of the groove are staggered. The protrusions 10 and 11 along the perimeter of the groove are arranged in a checkerboard pattern.

The protrusions 3, 8, 9, 10 and 11 can be thinned in one piece with the core and separately from them. ”They can be made of insulating material 35.

Groups of support ledges can be connected together using brackets. Thermal insulation may be applied to the groove walls. ”40

The placement of the supporting protrusions along the length in a staggered manner is ensured by the flipping of the sheets, the stator.

The flow of the refrigerant along the length from one side of the groove to the other occurs 45 through channels in grooves that do not have support for ⁴ protrusions.

Due to the uniform staggered arrangement of the support protrusions, the aerodynamic (hydraulic) resistance to the passage of the cooling agent is reduced

Claims (3)

The invention relates to electrical machines and can be used in the stator structures of electrical machines of alternating current. . The stator of the electric machine is known, the winding of which is located in the slots of the core on the supporting protrusions, the protrusions being continuous along the groove length forming ventilation ducts axially along the groove conductors 1. The protrusions have gaps along the groove perimeter. The disadvantage of this construction is that the protrusions that are continuous along the entire length reduce the cross section for the passage of air and the cooling surface. The stator design of the stator is known, in which support elements are placed between the winding sections and groove walls, made intermittently along the package length and continuous across the groove 2 meter. Due to this arrangement of the support elements, air passageways are formed between the winding of the rigid sections and the groove walls that connect to the radial channels of the state packet. The disadvantage of such a stator is that its structure does not provide an axial ventilation system, since the cooling air does not pass along the entire length of the rod, which almost halves both the cross-section for the passage of air and the cooling surface. The aim of the invention is to improve the cooling efficiency of the stator winding. This is achieved by the fact that, in a known stator of an electric machine, a core with grooves having supporting discontinuous in length and spaced in grooves the protrusions and winding of rigid sections arranged in grooves with about. |) By forming channels for the passage of coolant 746818 between the winding sections and the grooves' insoles, the supporting protrusions are made intermittently around the perimeter of the core groove, with these protrusions and channels between them distributed over the entire surface of the groove. The protrusions along the groove length and perimeter can be placed in a checkerboard pattern. Fig, i shows the proposed stator, a longitudinal section; in fig. 2 - the same, a cross-section along a groove with a discontinuous arrangement of projections; in fig. 3 - the same cross-section through the groove, with the protrusions located along the perimeter of the groove in a checkerboard pattern; in fig. 4 .- the same, transverse cutting in the groove with a chess arrangement you are stupid along the length of the groove. The stator of the electric machine contains the core 1 with the slots 2, having supporting interrupted length of the protrusions 3 and the winding of the rigid sections 4 hold) gyu in the groove with the help of wedges 5 and gaskets 6-. The supports of the protrusions 3 are made intermittent around the perimeter of the groove, and the protrusion and channel 7 between them are distributed over the entire surface of the groove. The protrusions 8 and 9 along the groove length are arranged in a checkerboard pattern. The projections 10 and 11 along the groove perimeter are arranged in a checkerboard pattern. The projections 3, 8, 9, 10 and 11 can be complete in one piece with the core and separate from it. They can be made of insulating material. The groups of supporting protrusions can be connected together with the help of brackets. Thermal insulation can be applied to the walls of the groove. The placement of the protrusions along the length in a checkerboard is ensured by flipping the stator sheet. The flow of coolant along the length of the groove to the other takes place through channels in the slots that do not have support protrusions. Due to the uniform staggered arrangement of the reference protrusions, the aerodynamic (hydraulic) resistance to the passage of the cooling agent in the channels formed by the groove walls, the sides of the winding sections, and the support lugs decreases. Cooling through the channels, washes almost the entire surface of the sections of the stator winding, which significantly increases its heat dissipation in comparison with the known structures. Since the coils of the winding are separated from the walls of the groove with the help of supporting protrusions of insulating material, their electrical strength increases without increasing the insulation thickness. Thermal insulation on the walls of the grooves makes it possible to reduce the thickness of the boxed Electrical Insulation on the winding coils or to completely remove it, which significantly reduces the temperature difference in the Cabinet Electrical Insulation of the coils and thereby reduces the heating of the winding. Claims of the invention: A stator of an electric machine, comprising a core with grooves having supporting, discontinuous in length and spaced in the grooves, protrusions and a winding of rigid sections, placed. in the grooves with the formation of channels for the passage of the cooling agent between the winding sections and the walls of the groove, characterized in that, in order to increase the cooling efficiency, the supporting protrusions are made intermittently up to the perimeter of the core groove, and the protrusions and channels between them are distributed across the surface groove. 2. A POP.1 stator, characterized in that said protrusions along the groove length are made in a checkerboard pattern. 3.Stator 1sh. 1 and 2, characterized in that said protrusions along the groove perimeter are made in a checkerboard pattern. Sources of information taken into account in the examination 1. German Patent No. 574962, cl. I 21 dV 55/02, 1933. 2, German Patent No. 280879, cf. I 21 i 55/02, 1911.. B r-7