RU2714676C1 - Spatial symmetrical tape magnetic core with circular cross-section of rods - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: spatial symmetric ribbon magnetic conductor comprises three identical circular O-shaped elements made of ribbons with semicircular cross sections, which are connected in pairs to form three rods of magnetic conductor with circular cross sections. Each annular O-shaped element has arched surface and four flat faces, at that angle between opposite faces is equal to 120°, and tape for coiling of each annular O-shaped element has a geometric shape, described by parametric relationship.

EFFECT: technical result consists in reduction of weight, dimensions and own heat release, which provides increased resource reliability.

1 cl, 5 dwg

Description

The invention relates to the field of electrical engineering and can be used as a multiphase magnetic system of electrical equipment, the material of manufacture of which is an electrical alloy in the form of a tape.

Minimizing the mass and dimensions of converting devices is an ongoing task for developers. Regardless of the current frequency used, minimizing the mass and dimensions of the power magnetic circuits of transformers and chokes is an important task.

A known design of a three-phase magnetic circuit in which a set of tapes of different widths is used [RF patent 2444801, H01F 3/04, Bull. No. 7, 2010] with the formation in the cross section of the magnetic circuit of a stepped polygon. The design is difficult to manufacture. In this case, the magnetic core along three rods is asymmetric in magnetic flux, which in some cases is unacceptable for power transformers or chokes.

A known design of the magnetic circuit with winding the rods of the magnetic circuit separately and with subsequent assembly into a spatial magnetic circuit: the upper yoke, the lower yoke, three rods [RF patent No. 2237306, H01F 3/04, 07.27.2004].

Close to the invention in technical essence is a three-phase tape magnetic circuit, containing three tape rods rolled up by cylinders and two tape yokes, assembled and fastened together in a spatial symmetrical magnetic circuit [RF patent No. 2380780, H01F 3/04, 01/27/2010]. A design flaw is the fact that power transformers and reactors with high power require a significant cross-sectional area of the magnetic circuit and, therefore, a significant mass of the constituent elements. The fastening of these massive elements during the assembly of a three-phase spatial symmetrical magnetic circuit requires the use of a set of appropriate mounting units, which significantly increases the total mass of the magnetic circuit and subsequent transformer or inductor. When operating on mobile electrical installations, such a prefabricated structure consisting of massive elements is weakened at the attachment points due to the appearing backlash and leads to the destruction of the magnetic circuit and, in general, to an electrical accident of the transformer or inductor.

The prototype is a spatial symmetrical tape magnetic circuit containing three circular O-shaped elements obtained by winding from a tape of variable width [USSR copyright certificate No. 734821, H01F 3/04. 27/24, Bull. No. 18, 1980]. The disadvantage of the prototype is the need to deform the ring O-shaped elements on the press after winding so that two opposite flat faces of the semicircular cross section of each ring O-shaped element form an angle of 120 ° between themselves. In this case, the appearance of corrugations on the tape occurs, which can be torn, which is unacceptable, since the path of the magnetic flux in the material of the magnetic circuit is violated.

The task of the invention is to remedy the above disadvantages.

The technical result, the achievement of which the invention is directed, is to enable deformationless assembly of the magnetic circuit.

The specified technical result is achieved in that the spatial symmetric tape magnetic circuit contains three identical, made of tapes, ring O-shaped elements with semicircular cross sections that are paired with the formation of three rods of the magnetic circuit with circular cross sections. Each annular O-shaped element has an arched surface and four flat faces, while the angle between the opposite faces is 120 °, and the ribbon for winding each annular O-shaped element has a geometric shape, described by a parametric dependence:

where x is the length of the sweep of the tape along the longitudinal axis;

ϕ is a parameter that displays the increment of the polar angle corresponding to the rotation of the radius vector when winding each ring O-shaped element of the magnetic circuit;

y _ij is the coordinate of the edge of the tape of the i-th zone of the j-th side of the scan relative to the longitudinal axis;

ϕ _i = ϕ in the corresponding i-th sweep zones of the tape;

i = 1, 2, 3 — the index of correspondence to the zones of the sweep of the tape in the order of the sweep and winding of each annular O-shaped element;

j = 1, 2 — correspondence index to the upper (y> 0) and lower edges of the tape sweep;

- длина срединной осевой линии кольцевого О-образного элемента;

- the length of the median axial line of the annular O-shaped element;

r is the radius of the semicircular part of the cross section of each annular O-shaped element;

δ is the thickness of the tape with the applied insulation.

The deformation-free assembly of the magnetic circuit occurs by simple addition of annular O-shaped elements, since the opposite flat faces during winding are already rotated at an angle of 120 ° between themselves. After applying the bandage on three rods formed by pairwise composed ring O-shaped elements, we obtain an extremely rigid and strong spatial three-dimensional symmetrical structure of the magnetic circuit. The imposition on the rods in the subsequent windings further enhances the design of the transformer, which increases, in general, and operational reliability, including in the presence of mechanical external influences. At the same time, the mass of the three-phase transformer is minimized at a given power level, since there are no additional fasteners for assembling the structure.

In FIG. Figure 1 shows a cross section of a spatial symmetrical tape magnetic circuit with a circular cross section of the rods of a deformation-free assembly.

In FIG. 2 shows a cross section of an annular O-shaped element.

In FIG. 3 shows a general view of an annular O-shaped element.

In FIG. 4 shows a scan of the tape of an annular O-shaped element (the scale along the axes is different).

In FIG. 5 shows a general view of a spatial symmetric tape magnetic circuit without a deformation assembly (in perspective view).

From a consideration of the Archimedes spiral, a parametric dependence is obtained for the geometric shape of the tape, which forms a circular O-shaped element with a semicircular cross-section, with opposite flat faces, turned at an angle of 120 ° with each other (Fig. 2, 3) for deformationless assembly of a spatial symmetrical tape magnetic circuit with a circular cross section of the rods (Fig. 1, 5):

where x is the length of the sweep of the tape along the longitudinal axis;

ϕ is a parameter that displays the increment of the polar angle corresponding to the rotation of the radius vector when winding each ring O-shaped element of the magnetic circuit;

y _ij is the width of the i-th zone of the j-th side of the sweep of the tape relative to the longitudinal axis;

ϕ _i = ϕ in the corresponding i-th sweep zones of the tape;

i = 1, 2, 3 — the index of correspondence to the zones of the sweep of the tape in the order of the sweep and winding of each annular O-shaped element;

j = 1, 2 — correspondence index to the upper (y> 0) and lower edges of the tape sweep;

- длина срединной осевой линии кольцевого О-образного элемента;

- the length of the median axial line of the annular O-shaped element;

r is the radius of the semicircular part of the cross section of the annular O-shaped element;

δ is the thickness of the tape with the applied insulation.

With the simple addition of three circular O-shaped elements (Fig. 2, 3) in the three rods of the spatial magnetic core, a total circular cross section with a radius r is formed (Fig. 1, 5).

The ribbon scan of each annular O-shaped ribbon element (Fig. 4) consists of three zones in which the edges of the ribbon scan vary in different ways:

1 zone - symmetric scan relative to the longitudinal axis;

Zone 2 - a monotonous linear decrease in the width of the tape in the lower part to zero;

Zone 3 - a monotonous linear decrease in the width of the tape, directed toward the upper edge of the scan and reaching zero at the upper edge of the scan.

рассчитывают по чертежу кольцевого О-образного элемента (фиг. 3).Midline Dimensions

calculated according to the drawing of the annular O-shaped element (Fig. 3).

Shaped cutting of the tape and winding of the annular O-shaped tape element is carried out simultaneously, in one device, after winding on the mandrel of one element, the tape is fixed by spot welding and cut.

Simply folding without deformation three ring O-shaped ribbon elements (Fig. 2, 3) in pairs along flat faces, we obtain a spatial structure (Fig. 1, 5) with the formation of circular cross sections of radius r in the three rods of the formed magnetic core. According to the distribution of magnetic volumes, the magnetic circuit is symmetrical. The application of a bandage to the rods (and subsequent windings) makes the design of the magnetic circuit extremely rigid and durable without the use of additional mounting nodes.

The proposed design of a spatial symmetric three-phase magnetic circuit with a circular cross-section of the rods provides power transformers and chokes with minimal mass, dimensions and their own heat generation and provides increased resource reliability, which is essential, for example, for aerospace and rocket science.

Claims (14)

Spatial symmetric magnetic tape containing three identical, made of tapes, ring O-shaped elements with semicircular cross sections, which are paired with the formation of three rods of the magnetic circuit with circular cross sections, characterized in that each ring O-shaped element has an arched surface and four flat faces, while the angle between opposite faces is 120 °, and the ribbon for winding each annular O-shaped element has a geometric shape, are described defined by parametric dependence

where x is the length of the sweep of the tape along the longitudinal axis; ϕ is a parameter that displays the increment of the polar angle corresponding to the rotation of the radius vector when winding each ring O-shaped element of the magnetic circuit; y _ij is the coordinate of the edge of the tape of the i-th zone of the j-th side of the scan relative to the longitudinal axis; ϕ _i = ϕ in the corresponding i-th sweep zones of the tape; i = 1, 2, 3 — the index of correspondence to the zones of the sweep of the tape in the order of the sweep and winding of each annular O-shaped element; j = 1, 2 — correspondence index to the upper (y> 0) and lower edges of the tape sweep;

- the length of the median axial line of the annular O-shaped element; r is the radius of the semicircular part of the cross section of each annular O-shaped element; δ is the thickness of the tape with the applied insulation.

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