SU565357A1 - Synchronous tachometer generator - Google Patents

Description

one

The invention relates to the field of electrical low-power machines and can be used in systems for diode-ion measurement of the angular velocity: rotation, rotation and mechanical and mechanical systems.

The following generators are known: ron generators, based on the principle of a com.mutirova and a magnetic lotto: ka created by a permanent magnet, by means of a disk-shaped toothed rotor 1. Such generators have an increased diameter, defined by the rotor diameter and doubled radial size of the stator.

The known tachogenerator contains a cylindrical cylindrical hollow open one-sided cylindrical stator, a permanent magnet II winding, positioned KoaiKcnaab to the stator, H rotor,: vynolpipy lt. The form of disk 2. This tachograph is the most suitable for the proposed but technical essence and the problem to be solved. However, it is not reliable enough in operation, due to a significant load, pods and the rotor carrying axes, due to the presence of magnetic flux in the axial paravlepia, drive n1, to the appearance of forces acting and loading

SUBSHIPNIKN.

The aim of the invention is to increase the reliability by reducing the axial load on podshpnnki carrying the rotor axis. it

is achieved in the proposed tachopep & rator by the fact that it is equipped with a 3-ubal disc mounted: On a permanent magnet, its rotor is made in the form of a ferromagnetic iol cylinder located in the air gap, a6pa30iBaiH.HOM serrated disc and stator, and on their end parts.

FIG. 1 shows a tachogenerator, single phase; in fig. 2 - tachogenerator two-phase option.

The synchronous tachogenerator contains a stator 1, a large one in the form of a hollow open on one side of the toothed tsnliidra of ferromagnetic material. The teeth of the stator 2 foam at the end. A 1-permanent magnet 3 and a winding 4 are mounted coaxially to the stator. A permanent magnet is magnetized in axial direction and a gear disk 5 is installed on it. The number of teeth of the disk is equal to the number of stator teeth. The stator and disc form an annular gap. Ia shaft 6 has a toothed cylindrical rotor 7 with teeth 8, made at its end, the number of which is equal to the number of teeth of the stator.

Magnetic note created by magnet 3, run through disk 5, working: annular gap, rotating teeth of rotor 7, and returning to the magnet by stator 1. Thus, the winding 4 is coupled. With a magnetic flux created by mapnit 3.

When the shaft rotates, the teeth of the rotor 7 change the size of the small duct compressed with the winding 4. As a result, s is induced by a variable EMF with frequency / determined by the speed of rotation of the shaft,

N-n 60

where / is the frequency of the gene |

/ V - the number of teeth

n is the speed of rotation of the shaft.

Synchronous tachogenerator can be made two-phase. In this case, it is equipped with a second stator 9 (see FIG. 2), and its rotor is shared with an additional gear Crown 10.

The proposed tachogenerator, according to its orientation, has a small diameter and more: it is reliable due to the exclusion of the axial magnetic flow, which allows reducing the load on the bearings carrying the rotor axis.

Claims (2)

1.V. S. Sharov “Electric Inductors TOIPHbie ge1N“ rators, Gosenergoizdat, L.-L., 1961, p. 18, fig. 1-6. 2.R. I. Ut Myshkov, “Technique for measuring the speed of rotation, Gosenergoizdat, M., - L., 1961, p. 6, fig. 3 ), l1 uh R