CS217641B1 - The winding construction of the winding and the magnetic circuit of the non-rotating electromagnetic machine, especially the transformer - Google Patents

Abstract

The invention relates to a winding and magnetic circuit tensioning structure of a transformer, which enables perfect tensioning and compression of both the winding and the magnetic circuit with minimal dimensions of the tensioning elements. The essence of the invention lies in the fact that the supporting flange, firmly connected to the supporting beams interconnected by struts and provided with supports, is placed between the flange of the lower part of the container and the flange of the upper part of the container. The tensioning beams interconnected by bolts are tightened to the supporting flange, on the one hand, by screws screwed into the prisms firmly connected to the supporting flange, and on the other hand, by tensioning bolts tightened to the yokes firmly connected to the supporting flange.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a winding clamping structure and a magnetic circuit of a non-rotating electromagnetic machine, in particular a transformer, consisting of clamping beams, support beams, clamping bolts, screws and thrust elements.

Until now, the design and construction of electromagnetic non-rotating machines, especially transformers for traction purposes, has preferably used a horizontally mounted magnetic circuit, including windings at the bottom of the traction transformer container. This container forms part of the contraction structure. This arrangement is very advantageous for smaller power transformers for traction purposes in terms of both dimensions and weight, as well as the short-circuit strength of the compressive structure of the active parts of the transformer. With higher power transformers, they are inserted deeper into the bottom of the vessel to obtain sufficient strength of the shrinking structure needed to absorb the forces generated by the short-circuit load of the active part. This makes it difficult to assemble the transformer windings, to assemble and flip the magnetic circuit, and to retract it. The bottom of the vessel must be provided with mounting holes to allow access to the coil compression screws. This leads to the complexity of the container and the creation of a leak source, and thus the risk of oil leakage. Also during assembly work, this design makes it impossible to visually inspect the work performed. During inspections and revisions, when it is necessary to check the winding condition or to eliminate defects at the bottom of the winding, in this embodiment it is necessary to completely dismantle the active parts of the transformer, that is unrolling the magnetic circuit and removing the winding from the bottom of the vessel.

The drawbacks of the winding and magnetic circuit of the non-rotating electromagnetic machine, in particular the transformer according to the invention, eliminate these disadvantages in that the support flange is rigidly connected to the support beams interconnected on the side facing away from the support flange by struts and provided there. the bottom flange of the container and the top flange of the container. The tie-rods connected to each other are tightened to the support flange by bolts screwed into prisms provided with threads and fixedly connected to the support flange, and secondly by shear bolts tightened to the bores provided with holes and fixedly connected to the support flange. The outer draw beams and the outer support beams are provided with compression elements for pulling the windings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The invention is illustrated in the accompanying drawings, in which: Fig. 1 is a front elevational view; and Fig. 2 is a partial cross-sectional side view of a traction transformer with the lower portion of the transformer vessel in cross-section.

Fig. 1 shows a self-supporting winding and magnetic circuit structure of a transformer consisting of a supporting flange 3, to which two outer support beams 1 and one central support beam 2 are welded, the relative spatial position of which is given by the dimensions of the magnetic circuit 13 and winding 14 provided by pressing plates 18.

The support beams 1, 2 are provided on the side facing away from the support flange 3 with supports 8, 9 for receiving the compression plates 18 of the winding 14 and interconnected by struts 6.

The support flange 3 is mounted between the flange 16 of the upper part of the container 19 and the flange 15 of the lower part of the container 20 and is locked from the bottom of the lower part of the container 20 by adjusting screws 17. The magnetic circuit 13 is supported on the support beams 1, 2. the upper part of the container 20 is provided by side pulling beams 4 connected to the supporting flange 3 by bolts 10 and a middle pulling beam 5 connected to the supporting flange 3 by pulling bolts 11. The side pulling beams 4 are tightened to each other by the middle pulling beam 5.

FIG. 2 shows the mounting of the magnetic circuit 13 on the support beams 1, 2 and the pulling-off by the outer tie-rods 4, which are tightened by screws 10 to threaded prisms 22 and firmly connected to the supporting flange 3 and the center tie-rod 5 on the yokes 23 firmly connected to the supporting flange 3.

The winding 14 positioned between the compression plates 18 is compressed by thrust elements 12 located in the support beams 1 and the outer draw beams 4. Interconnection of the outer draw beams 4 and the middle draw beam 5 is provided by bolts 7.

An advantage of the embodiment of the self-supporting winding and magnetic circuit construction according to the invention is the perfect contraction and compression of the winding and magnetic circuit at the minimum dimensions of the tightening elements. The assembly of the active parts of the transformer, ie the windings, the magnetic circuit, the outlets can be carried out outside the transformer vessel, allowing perfect access to the winding thrust elements and allowing proper cleaning of the machine before final assembly of the active components into the transformer vessel. For inspection and inspection purposes, the active parts can then be removed from the transformer vessel without removing them.

Claims (1)

A tightening structure of the winding and magnetic circuit of a non-rotating electromagnetic machine, in particular a transformer, consisting of tightening beams, support beams, tightening bolts, screws and thrust elements, characterized in that the support flange (3) firmly connected to the support beams (1, 2) interconnected on the side facing away from the support flange (3) by struts (6) and provided with the same supports (8, 9), is disposed between the flange (15) of the container bottom (20) and the flange (16) of the upper part (19) containers, while the clamping beams (4, 5) interconnected by bolts (7) are tightened to the supporting flange (3) on the one hand by screws (10) screwed in threaded prisms (22) and firmly connected to the supporting flange (3) and by the clamping bolts (11) tightened to the brackets (23) provided with openings and firmly connected to the support flange (3), the outer draw beams (4j and slicing of the supports) The beams (1) are provided with thrust elements (12) for withdrawing the windings (14).