RU13732U1 - ELECTRIC MACHINE - Google Patents

Abstract

1. An electric machine comprising a housing with a cover, ventilation means, a stator and a rotor, including a core and a collector, equipped with axial through ventilation ducts, wherein the collector is formed by a sleeve made in the form of two concentric through cylinders, interconnected by longitudinal radial jumpers with the formation through axial channels, on which, by means of conical flanges pressed against each other by a nut, collector plates are fixed, characterized in that the sleeve is composed of two parts s, its inner part is formed with internal through cylinder made integrally with them radial webs adjacent to the through the outer cylinder forming the outer detal.2. An electric machine according to claim 1, characterized in that the outer part is formed by an outer through cylinder containing a conical flange made with one. An electric machine according to claim 1, characterized in that the minimum radial dimension of the collector channel is not less than the minimum radial dimension of the rotor core channel, and the maximum radial dimension of the collector channel is not more than the maximum radial dimension of the rotor core channel. An electric machine according to claim 1, characterized in that the ventilation means is made in the form of an impeller mounted on the rotor shaft. The electric machine according to claim 1, characterized in that the housing is provided with a second cover.

Description

ELECTRIC MACHINE

The utility model relates to electrical engineering and can be used in electrical machines with a cooling system.

From literature 1, an electric motor with axial ventilation is known, consisting of a corne, a stator and a rotor, in the core of which axial through ventilation ducts are made, which reduce the heat load.

However, in this case, problems with the thermal load of the collector remain.

The closest analogue is the electric machine described in literature 2 with an axial cooling system, comprising a housing with a cover, ventilation means, a stator and a rotor, including a core and a collector equipped with axial through ventilation ducts. The design of such a collector is shown in the same place. 3. The collector consists of a sleeve on which collector plates are fixed by means of conical flanges pressed against each other by a nut. The sleeve is formed by two concentric through cylinders, interconnected by longitudinal radial bridges with the formation of through axial channels.

The disadvantage of this design is its complexity in terms of the formation of ventilation ducts on the collector.

MPK6 H02K 9/28, 1/32

The indicated task is in an electric machine, comprising a housing with a cover, ventilation means, a stator and a rotor, including a core and a collector, equipped with axial through ventilation ducts, for example, the collector is formed by a sleeve made in the form of two concentric through cylinders, interconnected by longitudinal radial jumpers with the formation of through axial channels, on which, by means of conical flanges pressed against each other by a nut, collector plates are fixed, it is decided that the sleeve is composed of two parts, its inner part is formed by an internal through cylinder with radial bridges made together with it, adjacent to the external through cylinder forming the outer part.

The outer part may be formed by an external through cylinder containing a conical flange, made with him one.

The minimum radial dimension of the collector channel is preferably not less than the minimum radial dimension of the channel of the rotor core, and the maximum radial dimension of the collector channel is not more than the maximum radial dimension of the channel of the rotor core.

The ventilation means are made, as a rule, in the form of an impeller mounted on the rotor shaft.

The body of the electric machine is preferably provided with a second cover.

The above set of features in comparison with the prior art allows us to conclude that the claimed technical solution meets the condition of "novelty. At the same time, the claimed technical solution

applicable in industry, for example, in the design of electric motors, therefore it meets the condition "industrial applicability.

A utility model is presented in the following drawings. Figure 1 presents the inventive electric machine in longitudinal section, figure 2 shows the electric machine in cross section.

The electric machine includes a housing 1 with a cover 2 or covers 2, 3, ventilation means, a stator 4 and a rotor 5. The rotor 5 consists of a shaft 6, on which a core 7 and a collector 8 are located, equipped with axial through ventilation channels 9, 10. A collector 8 formed by a sleeve made in the form of two concentric through cylinders II, 12, interconnected by longitudinal radial bridges 13 with the formation of through axial channels 10. The sleeve is composed of two parts, its inner part is formed by an internal through cylinder 1 1 with the radial jumpers 13 formed integrally with it, adjacent to the outer through cylinder 12 forming the outer part. On the sleeve by means of conical flanges 14, 15, pressed against each other by a nut 16, collector plates 17 are fixed. The conical flange 14 can be made integrally with the outer through cylinder 12. The ventilation means are made mainly in the form of an impeller 18 mounted on the shaft 6 of the rotor 5.

The ratio of the size of the ventilation channels 9, 10 of the core 7 of the rotor 5 and the co-manifold 8, as a rule, are set such that the minimum radial dimension of the channel 10 of the manifold 8 is not less than the minimum radial dimension of the channel 9 of the core 7 of the rotor 5, and

the maximum radial dimension of the channel 10 of the manifold 8 is not more than the maximum radial dimension of the channel 9 of the core 7 of the rotor 5.

Compared with the closest analogue 3, the described design is more technologically advanced and allows you to implement the above ratio of the dimensions of the channels of the core of the armature and the collector with a slight readjustment of equipment.

When the electric machine is operating, the air flow created by the impeller 18 passes through the channels 9, 10 of the core 7 and the collector 8, cooling them, which allows to improve the technical parameters and efficiency of the machine.

REFERENCES

1.B.F. Tokarev. Electric cars. M., Energoatomizdat, 1990, p. 218-219.

2.A.G. Morozov. Calculation of DC electric machines. Ed.2-e., M., Higher School, 1977, p. 141, Fig. 6.5 a).

3.A.G. Morozov. Calculation of DC electric machines. Ed.2-e., M., Higher School, 1977, p. 167, Fig.7.6.

Claims (5)

1. An electric machine comprising a housing with a cover, ventilation means, a stator and a rotor, including a core and a collector, equipped with axial through ventilation ducts, wherein the collector is formed by a sleeve made in the form of two concentric through cylinders, interconnected by longitudinal radial jumpers with the formation through axial channels, on which, by means of conical flanges pressed against each other by a nut, collector plates are fixed, characterized in that the sleeve is composed of two parts s, its inner part is formed with internal through cylinder made integrally with them radial webs adjacent to the through the outer cylinder forming the outer piece.  2. The electric machine according to claim 1, characterized in that the outer part is formed by an outer through cylinder containing a conical flange made with one.  3. The electric machine according to claim 1, characterized in that the minimum radial dimension of the collector channel is not less than the minimum radial dimension of the rotor core channel, and the maximum radial dimension of the collector channel is not more than the maximum radial dimension of the rotor core channel.  4. The electric machine according to claim 1, characterized in that the ventilation means is made in the form of an impeller mounted on the rotor shaft. 5. The electric machine according to claim 1, characterized in that the housing is equipped with a second cover.