CS220124B1 - Contactless position transformer for rotary motion with at least two excitation windings and at least two auxiliary transformers, in particular a decomposer - Google Patents

Abstract

The invention relates to contactless position transformers, which are used as switches in control and monitoring devices. The invention solves the problem of mutual adverse influence of auxiliary transformers by their stray fields, which cause the formation of significant residual voltage on the output windings, which reduces the accuracy of the devices in which the position transformers are used. The invention proposes to separate the stator and rotor bundles of the auxiliary transformers from each other by a shielding insert, which is composed of alternating layers of electrically conductive material and magnetically conductive material.

Description

(54) Non-contact position transformer for rotary motion with at least two excitation windings and at least two auxiliary transformers, in particular a decomposer

The present invention relates to non-contact position transformers which are used as bands in control and control devices.

The invention solves the problem of adversely affecting auxiliary transformers by their stray fields, which cause a considerable residual voltage on the output windings, which reduces the accuracy of the devices in which the position transformers are used.

The invention proposes to separate the stator and rotor beams of the auxiliary transformers with a shielding insert which is composed of alternating layers of electrically conductive material and magnetically conductive material.

The invention relates to non-contact position transformers with at least two excitation windings and at least two auxiliary transformers, in particular spreaders, which are used as elements in control and control devices.

Known: designs of non-contact position transformers with multiple excitation windings and multiple auxiliary transformers, usually with two excitation windings and two auxiliary transformers, are designed so that the stator bands and rotor bands of the auxiliary transformer magnetic circuit are coaxial with the stator and rotor bunches transformer. Since the stray magnetic fields of the auxiliary transformers adversely affect the output values of the auxiliary transformers and the position transformer itself, considerable air gaps are left between the stator and rotor beams of the auxiliary transformers.

The disadvantage of this design is that it increases the dimensions of the machine and equipment, which adversely affects the current efforts to miniaturize control and control devices.

To a large extent these disadvantages are overcome by the invention of a contactless position transformer for rotary motion with at least two excitation windings and at least two auxiliary transformers, in particular splitters with two auxiliary transformer magnetic circuits each containing an air gap, a stator beam in which the primary The rotor winding and the rotor beam in which the secondary winding is arranged are characterized in that the stator and rotor beams of the auxiliary transformers are separated from each other by a shielding insert, which preferably consists of alternating layers of electrically conductive material and magnetically conductive material.

The advantage of the solution of the position transformer according to the invention is that it reduces the dimensions of the machine, reduces the residual voltage on the output windings and thus improves the technical parameters of the machine.

The invention solves the problem of adversely affecting auxiliary transformers by their scattering fields, which causes relatively high residual voltage on the output windings of the contactless position transformers, which reduces their accuracy and thus the quality of the devices in which the position transformers of the prior art are used.

An exemplary embodiment of the invention is shown in the accompanying drawing, which represents a contactless position transformer for rotational movement, in this case a decomposer according to the invention in longitudinal section.

The contactless decomposer according to the invention comprises a position transformer 1 with two excitation windings 2 and 3 in the rotor beam 4 and two output windings 5, 6 in the stator beam 7 which is inserted in the frame 8, and two auxiliary transformers 9, 10. The auxiliary transformers 9, 10 replace the collecting devices known from the contact machines and allow contactless transmission of electrical power from the voltage source through the primary windings 11, 12 to the secondary windings 13, 14 of the auxiliary transformers 9, 10 which are galvanically connected to the field winding 2, 3 The magnetic circuit of the auxiliary transformer 9 comprises the stator beam 15 in which the primary winding 11 is located, the air gap 16 and the rotor beam 17 housing the secondary winding 13. Similarly, the magnetic circuit of the second auxiliary transformer 10 forms a stator beam 18 in which the primary winding 12, air, is housed the gap 16 and the rotor harness 19 in which the secondary winding 14 is accommodated. The rotor harnesses 17, 19 of the auxiliary transformers 9, 10 together with the rotor harness Λ of the position transformer 1 are mounted on a shaft 20 which is supported by bearings 21 supported by the bearing A shielding insert 23 comprised of alternating layers of electrically conductive material 24 and layers of magnetically conductive material 25 is interposed between the stator bundles 15 and 18 and the rotor bundles 17 'and 19.

Claims (2)

SUBJECT A contactless position transformer for rotational movement with at least two excitation windings and at least two auxiliary transformers, in particular a stator-rotor decomposer, two auxiliary transformer magnetic circuits each comprising an air gap, a stator beam in which it is housed a primary winding and a rotor beam containing the secondary winding, OF THE INVENTION that the stator bundles (15, 18) and rotor bundles (17, 19) of the auxiliary transformers (9, 10) are separated by a shield insert (23). Contactless position transformer for rotary motion according to claim 1, characterized in that the shielding insert (23) is composed of alternating layers of electrically conductive material (24) and magnetically conductive material (25).