UA71283A - Magnetic wedge - Google Patents

Abstract

The proposed magnetic wedge is designed for fixing windings in the slots of the magnetic circuit of an electric machine. The wedge is made of magnetic insulating material reinforced by glass fiber.

Description

Description of the invention

The invention relates to the field of electrical engineering, namely to the construction of grooved wedges of electric 2 machines and can be used to increase the efficiency of electric machines and reduce additional losses in which magnetic wedges are used.

Known magnetic wedges: - which have an insulating base, such as wood or textolite, in which a groove is made, which is filled with a ferromagnetic mass |11; 70 The disadvantage of this wedge is low magnetic permeability and, in the case of small dimensions of the wedge, the ferromagnetic mass is not retained in the groove during the operation of the electric machine. - which is made of ferromagnetic material |2) and is a figure with a geometry that corresponds to the profile of the groove, and its side walls and base are covered with a plastic shell and grooves, stiffening ribs and holes, which are located outside the working area. 12 The disadvantage of this wedge is the complex design and unreliability of the winding fastening.

There is also a known magnetic wedge for fastening the winding in the grooves of the magnetic wire of an electric machine, which is the closest to the one claimed in essence |Z.

The known magnetic wedge - the prototype consists of a magneto-dielectric base, which is reinforced with a magnetic wire, and which is located in rows along the wedge. The magnetic wire is made corrugated, and the edges of the corrugations are located along the height of the wedge, and the rows of corrugated wire are located with a gap relative to each other.

The disadvantages of the magnetic wedge - the prototype are low mechanical strength and low energy indicators.

Low mechanical strength is due to the fact that the reinforcing element is a magnetic material (wire) that is very fragile, and the insufficient energy indicators are due to the unevenness of the structure of the base of the wedge.

The objective of this invention is to increase the mechanical strength of the magnetic wedge and its energy indicators. 29 The task is achieved by the fact that the magnetic wedge for fastening the winding in the grooves of the magnetic conductors of electric machines, which consists of a magneto-dielectric base, a reinforcing element, as a reinforcing element contains not a magnetic corrugated wire, but a glass bundle that passes through a magnetically conductive dielectric material.

The main difference between the proposed invention and the known one is the presence of a dielectric material o (glass harness), which in terms of strength significantly exceeds the strength of the corrugated magnetic wire, as a result of which the strength of the magnetic wedge is significantly increased.

On the other hand, the uniform distribution of the fibers of the glass bundle in the mass of the magnetically conductive material ensures a uniform structure of the wedge due to the orienting effect of the glass fiber and its compatibility 3 with the magneto-dielectric material, as a result of which the magnetic permeability is 25-3OHn/m along the wedge and in the 3o direction of the additional flow 4 -4.5Hn/m, which leads to an increase in the energy parameters of electric cars.

The magnetic wedge is obtained as follows.

In the mixing tank, a dielectric mixture is obtained, which consists of epoxy resin, a hardener - isomethyltetrahydrophthalic anhydride, an accelerator, and a ferromagnetic filler. The mixture is well mixed with 70 and poured into the impregnation bath, into which the glass bundle is fed. The wire impregnated with a magneto-dielectric mixture enters the die, which is heated to 200-22070. In the process of continuous drawing, which is provided by rotating rolls, the magneto-dielectric mixture simultaneously with unidirectional glass roving is formed in the form of a magnetic wedge, it is claimed.

Table 1 shows the data of comparative tests of the prototype magnetic wedge and the magnetic wedge proposed in the application. 7 The mechanical properties were evaluated according to the following indicators: - - destructive stress during bending according to GOST 17036, MPa; yuyu - impact viscosity according to GOST 4647, kJ/m2.

The energy parameters of the machine were estimated by the value of the magnetic permeability in the direction of the main and (ee) 50 additional flows, Hn/m. The tests were carried out in the production conditions of the "Technological group "Crew" LLC. 55 prototype wedge and the proposed magnetic wedge with" danavyayutk? 00000098

From the data of comparative tests (Table 1), it can be seen that the declared magneto-dielectric material significantly exceeds the known one in terms of target indicators.

Technical and economic advantages of the proposed magnetic wedge in comparison are known: b5 - increased mechanical strength; - increased energy indicators;

- simplified design; - simplified production technology.

Approbation of the proposed magnetic wedge was carried out in the production conditions of the "Technological group "Crew" LLC.

Sources of information: 1. Author. witness USSR Mo411575 under cl. NO2KZ/493, 1971 2. Author witness USSR Mo486425 under cl. NO2KZ/48, 1975

Z. Auth. witness USSR Mo936235 under cl. NO2KZ/493, 1982 - a prototype.

Claims (1)

The formula of the invention Magnetic wedge for fastening the winding in the grooves of the magnetic conductors of electric machines, which consists of a magneto-dielectric base, a reinforcing element, which is distinguished by the fact that as a reinforcing element it contains a glass harness that passes through a magneto-conductive dielectric material. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 11, 11/15/2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. " so so s "- m. shi s with -I - name) o 50 syu» 60 b5