DE881394C - Device for testing magnetic circuits - Google Patents

Description

The invention relates to a device for testing magnetic Circles used to generate electrical power through the action of mechanical forces serve as they are used, for example, in projectile and bomb detonators. These magnetic circuits consist of a permanent magnet with a one Induction coil-carrying yoke. By suitable means the magnetic circuit becomes destroyed when the bomb hit; the collapse of the magnetic Field induces the electrical power used for ignition in the coil, Such magnetic circuits are practically only activated once, where they perish. One is therefore not able to see these magnetic circuits to test the conditions to which they are exposed during practical use subject. On the other hand, to avoid duds, an examination of the proper The functioning of the magnetic circuit and the induction coil is essential.

The difficulties outlined are with the test device fixed according to the invention by a soft iron piece, which the magnetic River short-circuits in the yoke. In order to make the short circuit as complete as possible, the piece of soft iron advantageously designed so that it is the yoke in the vicinity of the Touches the ends of the permanent magnet. The piece of soft iron is advantageously placed on top on the yoke or its removal from the yoke in the same way for each test. This gives measured values which enable a comparison between different magnetic Allow circles. The uniformity of the test conditions is achieved through the Effect of potential energy (spring tension, pendulum weight, falling weight, flywheel) on the short-circuit piece.

An embodiment of the subject matter of the invention is in Drawing shown schematically, of which Fig. I is a plan view and Fig. 2 shows a side view.

The magnetic circuit is created by the permanent magnet a and that Formed yoke b on which the induction coil c is arranged. The magnetization of the permanent magnet a is expediently carried out using the induction coil c by, which one during a corresponding period of time by an electrical Lets current flow through. However, this production method does not offer the full guarantee that the magnetic circuit and the induction coil are functional.

To check this, the coil ends of the induction coil c are on an electrical measuring instrument d placed, which induced one in the coil c indicates electrical voltage. The yoke b is by means of the short-circuit yoke e, vorzugsw, eis, e made of soft iron, short-circuited. When the short circuit occurs, the magnetic one hears Flux in the yoke b practically on what in those cases where the magnetic circuit and the induction coil is in order, leads to the response of the instrument d, In order to move between the individual magnetic circuits to be subjected to the test, To be able to compare it is necessary to understand the conditions under which the short circuit takes place, to be as identical as possible. Also, the short circuit is said to be so fast as possible.

This is achieved by moving the shorting bar e through the action a spring preloaded in a certain strength is moved towards the yoke b. It exists under certain circumstances there is a risk that the yoke, yes in practical use of the magnetic circuit should not be particularly resistant at all, damaged will.

In the embodiment shown in the drawing is the Tried the opposite way insofar as the test by pulling off the short-circuit clip e is reached by the yoke b.

The removal of the short circuit causes the sudden increase in the magnetic flux in the yoke b and thus the induction of a voltage in the Spulec. When pulling the short-circuit yoke e from the yoke b exists, even if it does so very quickly is carried out, no risk of destruction for the yoke. The bracket e is by means of the eyes 1 articulated on a lever f which is rotatably arranged about a bearing g is. A spring h is balanced in such a way that it lowers the short-circuit bar e Force against the yoke b presses, which is supported on bearings k. A weight i moves from a certain adjustable height to the end rn of the lever f Weight and the same drop height always ensure the same conditions for pulling off of the short-circuit yoke e from the yoke b. Instead of the falling weight i, as already said above, also other means working through the release of potential energy to be used.

Claims (3)

PATENT CLAIMS I. Device for testing magnetic, from one permanent magnets and a yoke carrying an induction coil for generating electrical power through the action of mechanical forces, g, e denotes by short-circuiting the magnetic flux in the yoke. 2. Apparatus according to claim I, characterized in that the piece of soft iron touches the yoke near the ends of the permanent magnet. 3. Apparatus according to claim I and 2, characterized in that placing the piece of soft iron on the yoke or pulling it off the yoke in the same way for each test by the action of potential energy, e.g. B. spring tension, pendulum weight, falling weight takes place.