SU636691A1 - Inductance coil - Google Patents

Claims (2)

The invention relates to the field of electronics and solves the problem of manufacturing thermostable inductors with a toroidal core. Heating the equipment during operation causes a change in the value of the inductance of the coil due to a change in the initial magnetic permeability of its core. A known inductance coil, KOTOpain, is a combination of a toroidal core made of magnetic material with a hole in the center and a winding coiled around the core and passing through the center hole l. In this construction, a certain thermal stability is achieved due to thermal insulation of the winding with the help of a special rubber band wrapped around the winding spirally. In order to firmly fix the insulation on the coil, the turns of the rope are welded by vacuum melting. Such a design leads to a slight decrease in temperature coefficient due to thermal insulation of the winding, but when the equipment becomes very hot, for example, such thermal insulation becomes ineffective and there are significant changes in the inductance value due to a sharp increase in the initial magnetic permeability of the core material. Also known is an inductance coil containing a winding located on a toroidal ferrite core 2. This device is closest to the invention in its technical essence and the achieved result. The disadvantage of this design is the low thermal stability. The aim of the invention is to increase the thermal stability of the inductor. This goal is achieved by the fact that the core is provided with an insert installed in the hole of the core and made of a non-magnetic material with a temperature coefficient of volume expansion greater than that of ferrite. The solution to this problem is achieved by using the properties of magnetic materials, on the basis of which the cores of inductors with a domain structure are created, to change their parameters under mechanical effects, in particular from applied pressure. It is known that with tensile forces, the initial magnetic permeability of magnetic materials decreases and vice versa with compressive lablets (its increase. In the invention, this phenomenon is proposed to be used as a positive phenomenon to compensate for unwanted changes in the initial magnetic permeability due to external effects of a forced tensile force. In the inventive coil construction, said tensile force is created by a metallic A nonmagnetic insert with a temperature coefficient of volume expansion exceeding the temperature coefficient of volume expansion of the core material, for example aluminum, placed in the hole of the ferrite core. Figure 1 shows a cross section of an inductance coil with a toroidal core and a liner placed in the hole; 2 are graphs illustrating the dependence of the initial magnetic permeability k on the temperature T of the coil and inductance with a toroidal ferrite core. contains a core 1, an on-air 2 and a winding 3. The graphs presented in figure 2 show the dependence / C, f (T The dependence „f (T) for inductors without a switch is shown on curve a, and the same dependence for coils with a metal insert on a curve 5. From the graphs it can be seen that an inductor with a metal insert has a high temperature stability. PT) The design of the inductor contains a toroidal magnetic core (manganese-zinc ferrite with / UH FOO), inside which is inserted a liner and a nonmagnetic material such as aluminum. As a result of positive temperature effects, due to the temperature coefficient of volume expansion of the liner, a mechanical pressure is applied to the inner surface of the ring, ferrite core, the greater the higher the impact temperature, resulting in the permeability of the core and ultimately the coil inductance remains constant. Analyzing the graphs presented in Fig. 2, it can be seen that the change in the permeability of the core without an insert is 70% in the temperature range from 30 to 140 s (Curie point), while in the coil with the insert there is practically no change in permeability. Claims of Invention An inductance coil comprising a winding / located on a toroidal ferrite core, about tl and h. This is due to the fact that, in order to improve thermal stability, the core is provided with an insert installed in the core hole and made of a nonmagnetic material with a temperature coefficient of volume expansion larger than that of ferrite. Sources of information taken into account in the examination: 1. US patent number 3237137, cl. 336-209, 1963. 2. Rabkin L.I. and Novikova Z.I. Inductance coils on ferrite cores. L. Energie, 1972, 0.96. fSO Т ° С