DE645750C - Self-induction variometer - Google Patents

Description

It is known to carry out self-induction variometers with the help of ball or flat coils, although certain intermediate forms have become known. In the case of the pure spherical variometer, there are two spherical ones Support body, on which the corresponding self-induction windings are applied, twisted into one another. With a simpler one Embodiment of the spherical variometer consists of a coil from a solenoid and only the other from a spherical one. It is also known to have two solenoid coils to shift into each other and thereby change the self-induction. It is also also known, variometer with the help of flat coils or kidney coils in flat form build up by the levels of Flachbzw. Kidney coils are twisted to each other.

Furthermore, variometers have become known in which the winding is partly on the lateral surface of the cylinder and partly on the cylinder end surface.

What all these arrangements have in common is that, depending on the position of the coils the self-inductances of the individual coils subtract or add to each other. According to the invention, the coils of a self-induction variometer are triangular in shape on the parallel surfaces of two concentrically arranged and opposite one another rotatable body applied so that the tip of a coil after the one Direction of rotation and the tip of the other coil pointing to the other direction of rotation. This means that the degree of coupling of the variometer is dependent on changes from the angle of rotation so that. self-induction according to a linear law runs.

It is known in and of itself in capacitor construction, the. To choose the panel section so that that rectilinear frequency curves or wavelength curves and the like are obtained, however one has not yet applied these rules to self-induction variometers, because here Certain constructive difficulties have to be overcome that cannot be solved without further ado given is.

An exemplary embodiment of the inventive concept is illustrated in more detail in the figure.

The two coils L ₁ and L ₂ are carried by cylinders which can be rotated relative to one another. ZL ₂ is fixed, while L _{1 can be moved} by turning the axis A with respect to Lo . The coil shape itself can be seen from the development in Fig. 2. Both coils are applied approximately triangularly on an insulating material plate J ₁ and J ₂ . The turns are fastened flat next to each other by sewing or painting. The insulating material plates with the coil windings are then bent cylindrically and held by disks S ₁ to S ₁ . The disks S ₁ and S ₂ are attached to the axis A , while S ₃ and S _{4 are carried} by the support body. The other details shown in the figure, such as power supply, etc., can be taken from the figure itself, but otherwise do not need to be described further, since they have nothing to do with the subject of the invention in and of themselves.

The coil shape is chosen so that when the inner cylinder is rotated Self-induction is changed in a proportional ratio. Through appropriate Choice of proportions (height and base of the triangle) can be any proportional Achieve curve.

Claims (1)

Claim: Self-induction variometer with a linear characteristic, characterized in that that the coils are triangular on the parallel surfaces of two concentrically arranged and mutually rotatable body are applied so that the tip of the one One direction of rotation and the tip of the other coil after the shows the other direction of rotation. 1 sheet of drawings