SU748693A1 - Switching generator - Google Patents

Description

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The invention relates to electric machines, namely to synchronous switching-type generators.

Known commutator generators comprising an excitation system, a core with a winding and a winding-free rotor with a variable magnetic resistance 1 are known.

The disadvantage of this design is the large mass and narrow functionality, since the generator can be made only single phase.

Switching generators are also known, each phase of which is squeezed by a fixed measles with a magnetic conductor and a winding, an excitation winding and a non-winding rotor with an alternating magnetic resistance mounted on shaft 2.

This technical solution is the closest to the invention in terms of its technical essence and the effect achieved.

The disadvantage of this design | (generator is its considerable mass and large size due to the fact that the excitation system occupies a significant volume and its size determines the size and mass of the entire generator.

The purpose of this invention is to reduce the mass and size of the generator, as well as to increase the number of phases.

The goal is achieved by the fact that the shaft is made of polime and the conductors of the excitation winding are placed inside the hollow shaft / the magnetic core of each phase of the core is made in a vyyo rydialy6.

10 loose packages with windings on them, the rotor is made of separate non-magnetic disks for each phase, on which arc-shaped magnetic conductors are fixed, separated from each other in the raodal and tangential direction by magnetic magnetic windings for days and placed with an air gap in relation to the opposite core packages ,

20 moreover, the internal arcuate magnetic circuits are shifted around the circumference: the external magnetic conductor is 180 el. hail., and the length of these magnetodiodes along the circumference exceeds the distance

25 between adjacent packages and cor.

Figure 1 shows a longitudinal section of the generator; figure 2 - cross section of the generator; in Fig. 3 30 version of the design of the magnetic circuit

cor; figure 4 is another option on the instructions of the magnetic core. The generator includes a housing 1 with one-sided shields 2 and 3. The kgika phase 4 of the generator contains stationary core magnetic cores 5 in the form of packages 6, arranged radially and on which windings 7 are placed. The rotor 8 is made as individual disks 9 for each phase 4, on which are fixed arc-shaped magnetic cores 10 and 11, different from each other and placed with an air gap 12 relative to the opposite radius of the ends of the packages b. internal arcuate magnetic circuits 10 are displaced along the circumference relative to external magnetic conductors 11 by 180 e. hail., and the circumference of these magnetic cores 10 and 11 exceeds the distance between adjacent packs 6.. In axial channel 13. Meiins are located conductors 14 of excitation. Packages b can be made of blended and rod-shaped (see, fig.Z) or U-shaped (see figure 4). The disks of 9 adjacent phases are displaced in a circle by an angle of 360 ° / mVr Se W — number of phases of the operture, Justus

on shaft 15.

When the rotor 8 of the generator rotates and current is present in the conductors 14 of the winding of the excitation .rtpoOxxOdit, the flow is disconnected in the packets of 6 cores in the windings of the 7 vol.

Due to the improved AUTOMATIC volume of the core generator winding 7, it provides for an increase in EMF of the total and its power, or, for a given generator power, its mass and dimensions can be reduced. The improvement in mass and size parameters is provided mainly due to the placement of the conductors 14 of the excitation winding in the axial channel 13 of the machine, which frees up a significant amount of the machine and reduces the volume of the magnetic core. Such a generator can be made multiphase, which expands its functionality.

Formula inventions

A commutator generator, each phase of which contains stationary measles with a magnetic conductor and a winding, an excitation winding and a non-winding rotor with a variable magnetic resistance, mounted on a shaft, characterized in that with the aim of reducing the size, increasing the number of phases of the generator, the shaft is hollow and conductors field windings are placed inside a hollow shaft, the core of each phase of the core is made in the form of radially arranged packages with windings. On them, the rotor is made of individual for each phase rotten disks. On the second, arcuate mag5, nitro projectiles / separated from each other in the radial and tangential direction by nonmagnetic gaps are fixed and placed with an air gap relative to the opposite ends of the core package packages, the inner arcuate magnetic cores are offset by 180 el. hail., and the length of the magnetic cores circumferentially exceeds the distance between adjacent coresets of the core. Sources of information taken into account in the examination of 401.Vala: V. V. GU. Et al. Electric machines with permanent magnets. M.-L., Energie, 1964, p. 60-63.

, 2. USSR author's certificate No. 153324, cl. 21 d.} 5/01, 1963,

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Claims (3)

Claim A switch generator, each phase of which contains a fixed armature with a magnetic circuit and a winding, an excitation winding and a windingless rotor with variable magnetic resistance, mounted on the shaft, characterized in that with the pillar> decrease / mass, reduce the size and increase the number of phases of the generator, the shaft is hollow and the field winding conductors are located inside the hollow shaft, the magnetic circuit of each phase of the armature 2Q is filled in the form of radially arranged packets with windings on them, the rotor is made of separate non-magnetic disks for each phase, on which arcuate magnetic nitro-wires are fastened / separated by non-magnetic gaps in the radial and tangential directions and placed with an air gap with respect to the opposite along the radius of the ends of the packages of the anchor, 3 wherein the internal arcuate magnetic cores are circumferentially displaced relative to the external magnetic cores by 180 el. deg., and the length of these magnet © wires along the circumference exceeds the distance between adjacent packages of the armature. . .