SU983769A1 - High-voltage pulse transformer - Google Patents

Description

(S) HIGH VOLTAGE PULSE TRANSFORMER

The invention relates to electrical engineering, in particular, to impulse transformers, and can be implemented in high-power impulse installations for various purposes.

High-voltage impulse transformers containing a toroidal core or a set of toroidal cores are known, such as solid insulation and windings, such as cable. Such transformers are used, for example, in the output stages of the pulse modulators to match the load and to increase the high voltage C.

The disadvantage of these transformers is low mechanical reliability due to the lack of rigid fixation of the windings and software leads to the core and support of the device; which prevents the direct use of the transformer in installations that are subject to the appropriate electrical and mechanical requirements

{work in conditions of mechanical vibrations and spatial displacements

SRI.

The closest in technical terms to the proposed is a high-voltage pulse transformer containing toroidal ferrite cores, axial and cantilever supports carrying primary and secondary windings, insulating rings and winding pins. In this device insulating rings are superimposed on the end parts of the core , and obiotka made high-voltage cable.lem t2. S 1

The disadvantages of the known transformer are the difficulty of placement. in the plane of the window ferrite cores of the high-voltage turns O & 40TKI

Claims (2)

 and the difficulty of providing the necessary mechanical stiffness of the whole structure with the presence of external mechanical vibrations. 3 In addition, the specific power of a known device is limited by the fact that its design does not allow to increase the diameter of the cores without a decrease in electrical strength between the windings and the housing in the plane of attachment of the cantilever supports. The lack of insulation of the lateral cylindrical surfaces of the cores also reduces the electrical strength of the transformers. With a relatively small cross section of ferrite cores, an increase in the power of the transformer is associated with an increase in the number of cores, which causes a sharp decrease in the mechanical strength of the axial and cantilever supports. 1 The aim of the invention is to increase reliability and power density. The goal is achieved by the fact that a high-voltage pulse transformer containing a toroidal. cores, insulating rings, primary and secondary windings and winding leads, an insulating framework is introduced consisting of a base and a hermetically sealed lid, monolithically made with racks located on the side of the outer side surfaces of the base and the cover perpendicular to their ends The cores are located inside the insulating frame, on the base and lid of which are placed insulating rings made with radial grooves in which the windings are located, and on the frame cover there is a contact on the strip, which are connected to terminals of the windings. In addition, an insulating support element in the form of an arc bent along an arc is inserted into the transformer, one shelf of which is fixed to the insulating ring, and the other is provided with cantilever ledges on which the windings are fixed. FIG. 1 shows a high-voltage pulse transformer, general view; in fig. 2 - the same section. The device consists of two toroidal cores 1, for example, permallo tape, located inside the insulating frame 2, which consists of the base 3 and the cover j, which are hermetically connected. Their connection is made to the depth of the cover, and the surfaces of the connection 5 are given a conical shape. The base 9/1 of the lid is made monolithically with the lamellae 6 and the ribs 7. The racks b are equipped with threaded bushings 8 and are located perpendicular to the end face of the base and the frame lid on the side of the outer side surface. At the ends of the base and the cover there are insulating rings 9, provided with radial grooves 10, in which the coils of the cable winding 11 are locked, in slots 12, the insulating rings are fixed on the ribs. A contact plate 13 is installed on the frame cover, the contacts of which are electrically connected to the terminals of windings 1 and 15. The holes 1b in the insulating ring serve to fix the turns of the windings 17. On the insulating ring on the side of the cover, an insulating support element 18 is arcuate the corner, one shelf of which is fixed to insulating rings, and the other shelf is provided with cantilever projections 19, on which the winding pins with a given bending radius are mounted and secured. The device operates as follows. The use of a single insulating and at the same time a thrust frame 2 of a special form with the transverse axis of the transformer perpendicular to its support plane provides the possibility of increasing the diameter and height of the cores while simultaneously increasing the electrical strength between the windings, cores and the housing. Monolithic with frame 2 symmetrical pillars 6 and ribs 7 provide for an increase in mechanical productivity, as compared with the known transformer, and the necessary insulation of the entire device. At the same time, a reduction in the mechanical, especially cantilever, loads on the transformer supports with a reduced height is achieved. The exact positioning and fixing of the windings on the common frame 2 in the proposed transformer using ribs 7, grooves 10, slots 12 and holes in the insulating rings 9 ensures a reduction in the length of the wires (signal distortions), simplifies the execution of HIT windings, increases their mechanical and electrical strength without laborious epoxy potting. Fastening the leads above the windings using the contact strip 13 and the protrusions 19 of the support element 18 with intermediate fixation of the bending radius of the dryers provides the necessary insulation and strength of the leads, as well as protecting the latter from external damage. Thus, by increasing the mechanical and electrical strength, an increase in the reliability of the proposed device is achieved. The compactness and design features of the isolation of a pulse transformer make it possible to use a set of large-sized ribbon cores in combination with multi-turn cable windings, which ensured an increase in the duration of pulses, with small distortions of the latter and an increase in the average power of the transformer. An increase in the mechanical and electrical strength of the proposed device allows it to be installed on both horizontal and vertical supports susceptible to vibration. Formula 1. High-voltage impulse transformer containing toroidal cores carrying primary and secondary windings, insulating stakes and winding leads, characterized in that, in order to increase reliability and power density, it is provided with an insulating framework consisting of a base and a hermetically sealed cover with it rings and contact strips, stand made monolithically with the frame, located on the side of the outer side surfaces of the base and the lid perpendicular to their ends, toroidal cores are located inside the insulating frame, on the base and the cover of which are placed insulating rings made with radial grooves in which The turns of the windings are located, and a contact plate is installed on the frame cover, to which the leads of the windings are connected .I 2. The transformer according to claim 1, characterized in that it is equipped with an insulating support element entom in the form of a curved arc with a cantilevered bracket lugs fixed to the insulating ring closure and conclusions windings mounted on the console ledges corner. Sources of information taken into account during the experiment | Teze 1. USSR author's certificate №, cl. H 01 F 19/08, I960. 2.Mes tse A. A., Nasibov A. S., Kremnev 8. V. Formation of high-voltage foam-second pulses. M., Energie, 1970, p. 7-18. Phi.1