UA21199U - Front electrogenerator - Google Patents

Abstract

The front electrogenerator has a shaft with magnet rotor and stator made of two discs with bearing units and toroidal cores with fixed windings. The stator has the threaded holes with a possibility oftightening in them assembly puller bolts which ends are thrusting to the rotor body.

Description

Description of the invention

A useful model relates to the power industry, in this case to an electric generator with 2 permanent magnets.

Known Ts(I.E. Ovchinnikov, M.I. Lebedev "Contactless direct current motors", Leningrad, "Nauka", 1979, p. 242 | contactless direct current electric machine consisting of a stator, in the grooves of which a winding is inserted , and the rotor, which is a body into which an annular permanent magnet is pressed.

When the current passes through the winding, a magnetic field arises, which, when interacting with the field of the rotor, creates a moment 70 of the rotor, which causes its rotation.

The disadvantage of this kind of electric machines is low energy efficiency due to the presence of electrical losses in steel and reactive moment.

The end generator of IN.M. Mkhitaryan and others was selected as a prototype. Declaratory patent of Ukraine for utility model Mo8454 "Electrical generator of flat design", print. In Bul. Mo8, 2005 | flat 12 design containing a shaft with a magnetic rotor and a stator made of two disks with bearing blocks and toroidal cores with fixed windings.

The disadvantage of this electric generator is the difficulty of mounting, dismounting and adjusting the size of the working gap between the magnets and the windings due to the presence of significant forces of magnetic attraction of the magnets to the windings and toroidal core, which can reach hundreds of kilograms of force.

The useful model is based on the task of simplifying the installation, disassembly and adjustment of the working gap of the end generator.

This task is solved by the design of the generator, which contains a shaft with a magnetic rotor and a stator made of two discs with bearing blocks and toroidal cores with fixed windings, threaded holes are placed in the stator with the possibility of screwing in them extraction mounting bolts, the ends of which abut against the body of the rotor. in

Moreover, the threaded holes for the mounting bolts are simultaneously threaded holes for bolting the bearing block cover.

This design of the end generator allows to simplify and facilitate the installation, dismantling and adjustment of the working gap without the use of additional complex devices, which also facilitates the maintenance of the generator. Ge")

The essence of the useful model is explained by the drawings, which are shown in Fig. 1 - a general view of the end electric generator with screwed mounting bolts; -- in Fig. 2 - the disassembly scheme of the disk with the bearing block; "-- in Fig. 3 - a diagram of dismantling a rotor with permanent magnets. 3o The end generator consists of a shaft 1 (Fig. 1), on which a rotor 2 with permanent magnets 3 is attached through a key. The rotor 2 is located in a cavity formed by two disks 4, 5, which are connected to each other by a housing 6. toroidal cores 7 with windings 8 are attached to the inner surface of the disks 4, 5. At the same time, the gap between the windings 8 and magnets 3 is rigidly maintained. The disks 4, 5 are mounted on the shaft 1 in bearings, which are fixed in the disks by means of covers 9 with bolts 10. C 50 Before disassembly, several bolts 710 are unscrewed, and mounting bolts 11 are screwed in their place. c The housing 6 is disconnected and the nut 12 is removed (Fig. 2).

From" When the mounting bolts 11 are further tightened in the disc 5, they abut against the rotor wall and tilt the disc 5. The gap between the magnets З and the windings 8 increases and the magnetic forces of gravity decrease, which facilitates further removal of the disc 5.

After removing the disk 5 with the housing 6, start screwing the mounting bolts 11 into the disk 4 (Fig. 3). At the same time, the rotor 2 is squeezed from the disk 4. - The end generator is installed in the reverse order.

This design of the end generator is advisable to use at capacities from 0.1 to 20 kW, especially in wind-electric installations characterized by a variable speed of rotation. at 50 (Che)

Claims (2)

The formula of the invention 1. End electric generator, which contains a shaft with a magnetic rotor and a stator, made of two disks with 255 bearing blocks and toroidal cores with fixed windings, which is distinguished by the fact that the stator has threaded holes with the possibility of screwing in them the extraction mounting bolts, the ends which rest against the body of the rotor. 2. End electric generator according to claim 1, which differs in that the threaded holes for the mounting bolts are simultaneously threaded holes for bolting the bearing block cover. 60 b5