SU714523A1 - Method of manufacturing tape magnetic circuit - Google Patents

Description

The invention relates to the field of electrical engineering, namely, to methods for regulating the coefficient of squareness of a multi-turn tape magnetic core made of ferromagnetic material with a rectangular hysteresis loop, and can be used in inductors, filters, pulse transformers and static converters, voltages for power sources of autonomous ground and airborne equipment.

A known method of manufacturing a tape magnetic circuit, which / includes winding a tape of ferromagnetic material with an insulating coating applied to it, annealing the magnetic circuit, impregnation, adjustment of magnetic characteristics [1],

This method is the closest to this invention in technical essence and the achieved result.

In the known method, the operation of adjusting the magnetic characteristics is carried out by cutting the magnetic circuit, introducing an air gap and grinding the place of the cut.

The main disadvantages of the known method of manufacturing a tape magnetic circuit are:

- the technological complexity associated with the operations of cutting a magnetic core made of ferromagnetic material with a rectangular hysteresis loop, sensitive to mechanical stress, and the need for accurate adjustment of the clearance by grinding the cut points;

- it is technologically difficult to ensure “with the stability of the gap and obtain repeatability of characteristics from sample to sample.”

The aim of the present invention is to eliminate the above 20 disadvantages, namely, simplifying the manufacture of the magnetic circuit and expanding the range of regulation of magnetic characteristics while ensuring their repeatability.

This goal is achieved by the fact that in the method of manufacturing a tape gauge conduit, comprising winding a tape of ferromagnetic material with an insulating coating applied to it, annealing, impregnation and the operation of adjusting the magnetic characteristics, before impregnating, they adjust the magnetic characteristics by creating both normal and radial mechanical stress' by 'uniform winding on the magnetic circuit with a predetermined preload force and a pitch of a non-conductive elastic material, for example, nylon core ki.

In FIG. 1 shows the change in the experimentally removed hysteresis loop of a magnetic circuit made of a ferromagnetic tape with a thickness of 0.1 mi from material 50 NP, and in FIG. 2 - from a tape 0.05 mm thick made of 79 MM material when the magnetic circuit is exposed to both normal and radial mechanical stress. Here, the curves of a were taken for the magnetic circuit in the initial state, and the curves of b were taken after the indicated action.

The creation of a normal and radial mechanical stress in a magnetic conductor by winding onto a magnetic conductor with a predetermined preload of a non-conductive elastic material (for example, a kapron thread or fishing line) leads to a decrease in the coefficient of rectangularity of the magnetic conductor and coercive force. By changing the mechanical force of the interference fit during winding and the pitch, the coefficient of rectangularity is adjusted * · within the limits of K 0.9 0.1. ^η

Mechanical effects on magnetically nonconductive elastic material provides a desired voltage and eliminates mechanical deformation yoke · This operation ^is:. Not only impairs magnetic characteristics, but even results in some reduction in the coercive sily''i hence to decrease the hysteresis losses and saturation induction decreases slightly.

The impregnation of the magnetic circuit after the creation of mechanical stress by the polymerizing compound allows you to save the obtained characteristics of the magnetic circuit with changing environmental conditions. In addition, in this treatment, the magnetic circuit is placed in a strong insulating protective frame, on which its working windings are directly applied. This eliminates undesirable mechanical effects on the magnetic circuit and electrical contact between the windings and the magnetic circuit.

The manufacture of a magnetic tape is as follows.

Winding and annealing of the magnetic circuit is carried out in the usual way. 'Then, on a conventional winding machine, an annealed magnetic circuit is applied with a certain interference force and a step of winding from a nylon thread or fishing line, the thickness of which is chosen to be the minimum allowable in terms of mechanical strength depending on the dimensions of the magnetic circuit and the characteristics of the winding machine.

Changing the efforts of the tension of the thread during winding and the pitch, thereby regulating the resulting coefficient of rectangularity of the magnetic circuit. With constant tension, the threads change the coefficient of rectangularity by applying several layers of an insulating winding, since the mechanical stresses of all layers of the winding are added up.

Therefore, this implementation of the process provides an almost unlimited ’range of regulation of the coefficient of rectangularity of the magnetic circuit. Moreover, the proposed method in comparison with the known has a number of significant advantages, unattainable in any of the known methods, which are as follows:

- the maximum technological simplicity of the control method eliminates a number of labor-intensive operations and completely mechanizes the entire process of the method, which increases labor productivity and reduces the cost of the product;

. - the range of regulation of the coefficient of squareness is expanded with a given accuracy and stability of characteristics is achieved from sample to sample;

'- decrease' the loss in the magnetic circuit not only in comparison with the known method, but even in comparison with the original magnetic circuit, which increases the efficiency of the devices in which it is used;

- the mechanical strength of the magnetic circuit is maintained, there is no need for special tightening devices and protective insulating frames, which reduces the weight and dimensions of the product.

Claims (1)

(54) SPCS OF MANUFACTURING A TAPE MAGNETIC WIRING 1i operation of adjusting the magnetic characteristics, before the impregnation is made adjusting the magnetic characteristics by creating simultaneously the normal and radial mechanical stress of the straight wiring on the magnetic core with a wire voltage and a wire step and a wire step and a wire step and a wire step and a wire voltage step with a wire voltage step and a wire step wire and a wire step and wire speed of 20 mm. fishing line. Fig. 1 shows a variation of the experimentally removed hysteresis loop, a magnetic conductor made of a 0.1 mm thick ferromagnetic tape made of 50 MP, and Fig. 2 - from a tape 0.05 mm thick, made of material 79 1W when exposed to the magnetic circuit simultaneously with both normal and radial mechanical tension. Here, the curves are shown for the magnetic conductor in the initial state, and the curves b are after the indicated effect. The creation of simultaneously normal and radial mechanical stress in the magnetic conductor by means of coils on the magnetic conductor with a predetermined force of tension of the nonconducting elastic material (for example, a nylon thread or fishing line) leads to a reduced magnitude of the magnetic wire and coercive force. Change the mechanical force of tension during the wetting and the step of adjusting the coefficient: square within K 0.9 0, 1. The mechanical effect on the magnetic circuit of the nonconductive elastic material provides for the creation of the required voltage and eliminates the appearance of the mechanical deformation of the magnetic circuit. Such an operation not only does not degrade the characteristics of the magnetic circuit, but even leads to a certain decrease in the coercive force and, consequently, to a decrease in hysteresis losses, and the induction of saturation decreases slightly; The impregnation of the magnetic circuit after the mechanical stress is created by a polymerizable compound allows one to preserve the obtained characteristics of the magnetic circuit when environmental conditions change. In addition, with this treatment, the magnetically secured is placed in a strong insulating protective frame on which its working windings are directly applied. This eliminates unwanted mechanical air flow and electrical contact between the windings and the magnet wire. - - The manufacture of a tape magnetic circuit is carried out as follows. The winding and hardening of the magnetic core are carried out in the usual way. Then, on a conventional winding machine, an annealed magnetic core is applied with a certain tension force and a winding step from a nylon thread or fishing line, the thickness of which is chosen as the minimum allowable from the point of view of mechanical strength depending on the size of the magnetic core and the characteristics of the winding machine. Changing the tension of the thread when yamotka and step, the same and regulate the resulting coefficient of the squareness of the magnetic circuit. At a constant tension, the filaments change the coefficient of carbonization by applying a few layers of an insulating winding, since the mechanical stresses of all the layers of the winding are summed. Therefore, such an implementation of the process provides an almost unlimited range of adjustment of the rectangular factor of the magnetic circuit. At the same time, the proposed method, in comparison with the known ones, has a number of significant advantages in none of the known methods, which are as follows: - the maximum technological simplicity of the regulation method eliminates a number of labor-intensive operations and completely mechanizes the whole process of the method implementation, which increases labor productivity and reduces the cost of the product; , - the range of adjustment of the coefficient of rectangularity is expanded with a given accuracy and stability of characteristics from sample to sample is achieved; - the losses in the magnetic circuit are reduced not only in comparison with that performed in a known manner, but even in comparison with the initial magnetic conductor, which increases the efficiency of the devices in which it is used; - the mechanical strength of the magnetic circuit is preserved, there is no need for special shaking of IHx devices and protective insulation frames, which reduces the weight and dimensions of the product. The invention The method of manufacturing a tape magnetic circuit, including winding a tape of ferromagnetic material coated with an insulating coating, annealing, impregnation and operation of adjusting magnetic characteristics, which, in order to simplify the manufacture of magnetic core and extend the range of control of magnetic characteristics while providing their repeatability. By impregnation, magnetic methods are produced | by creating a simultaneous normal and effective mechanical voltage by uniformly winding onto a magnetic wire with a predetermined pull force and non-conductive elastic material pitch. Sources of information taken into account in the examination I. Authors Certificate of USSR I 112023, cl. H 01 F.3 / 04, 1957. .L Yu GS  but .5D. Р.02 а.Ч 0. {OS 7 I.Z L IS If i Fig i p, er 0 o.ofOflS lg about, / g a, n c, / s e, is $ Faye. 2