DE728419C - Monitoring frame with stationary winding arranged on a magnetizable winding core and operationally fixed inductance value - Google Patents

Description

Monitoring frame with stationarily arranged on a magnetizable winding core Winding and operationally fixed inductance value There is already a framework for Voting purposes became known in which @ either changed the area of the frame or magnetizable cores opposite the unchangeable surface of the frame adjusted. However, such an arrangement requires an inadmissibly large amount of space.

In contrast, the present invention relates to a sighting frame with a stationary winding arranged on a magnetizable winding core and operationally fixed inductance value. Such frame arrangements are found many times running aircraft application. The winding of such a monitoring frame must be on the prescribed inductance value must be adjusted. One has for this purpose ; Also the frame winding is already divided into several windings in such a way that partial windings on the body of the winding support of the main winding 'opposite this in the form could be moved by solenoid windings. The body of the winding carrier must then be designed as a guide in the direction of the winding axis and to avoid it structural extensions have a constant cross-section over a greater length, so that there is an undesirable bond in the design, and further with consideration on winning the way for: this guide the arrangement in length accordingly measured must become. In addition, the exposed flexible connecting lines between the additions and the main winding to mecha.-; niche difficulties and electrical: e9%, disadvantages at possibly 1. mechanical be.anspi-t '; lead can. In addition, such a comparison is relatively rough.

In order to avoid these disadvantages, an additional one is according to the invention adjustable inductance, e.g. B. in the manner of a variometer, with the frame to one unified structural unit. This can either be independent and as inductivity electrically connected in series with or in parallel with the frame winding and, 7or use them as an integral part. For the establishment can it will prove expedient to have such an arrangement and / or training Matching device to choose that through it the symmetrical structure of the frame in mechanical and electrical or even magnetic terms with regard to the Formation of the field in the iron core is not disturbed.

When using the frame winding itself as an integral part According to the variometer arrangement, the adjustment can preferably be carried out by adjusting the permeability, g the frame winding can be made by adjusting the magnetic Resistance of the iron path or the magnetizable core of the frame winding regulated will. The frame assembly can. However. when equipping the independent variometer with magnetizable core and a corresponding arrangement of the same compared to the magnetizable core of the frame winding can also be designed in such a way that either the adjustable part of the variometer simultaneously regulates the magnetic Brings resistance of the iron path of the magnetic circuit of the frame winding or for this control the Vario: meter can be adjusted as a unit. Runners and Stands of the variometer can either enclose each other or in the direction of the Axis of rotation be attached to one another.

For a more detailed explanation of the invention, reference is made to the exemplary embodiments referenced according to the drawing.

In Fig. I i denotes a container made of two similar parts which are held together by screws. The magnetizable core 2 of the frame winding is arranged in the container. In addition, the variometer consisting of the stator 3 and the rotor 4, which has magnetizable cores, is housed in the container i. To adjust the runner of the variometer, a recess 5 is provided in the container wall, through which a key-like tool can be inserted into the recess of the runner. s 4. are introduced for its adjustment can. The variometer is symmetrical `ztiin structure of the frame above it Shaft 7 arranged. The symmetrical arrangement of the variometer has the advantage, especially in the case of a multi-part structure of the non-magnetizable core z, that pressed pieces of the same type can be used for this. S denotes the frame winding inserted in the grooves of the container i.

Fig. 2 shows a diagram of a corresponding circuit of the winding parts, the same reference numerals being chosen for these as in FIG. As already mentioned above, the frame winding and variometer winding can be used instead of the friction circuit Of course, a parallel connection is also used.

Instead of the design shown, such a structure is also possible, in which the variometer is attached to the side of the frame or placed on it is.

In Figure 3 is housed in the container i magnetizable Core built up in the axial direction of the winding from two parts 9 and i o. Perpendicular to the axis of the winding of the frame is a roller-shaped body i i between the two 1Vlassekernteile 9 and i o preferably adjustable with a snug fit, which in the circumferential direction from a magnetizable part i i, and a non-magnetizable part Part i ib is composed so that when the body is adjusted i i um its axis is the magnetic resistance of the iron core and thus directly the Inductance of the frame winding 8 can be regulated.

For a combined effect to match the frame winding in the sense the use of an independent variometer and a simultaneous change of the magnetic resistance of the iron path of the frame winding could be a Execution according to Fig. I the runner of the variometer on its circumference accordingly be designed.

Instead of an embodiment in the sense of FIG. 3, in which the longitudinal axes the frame winding and the magnetic control element are perpendicular to each other, can also be chosen in which the longitudinal axes of the above Parts coincide or lie parallel to each other.

Claims (1)

PATENT CLAIMS: i. Monitoring frame with stationary on a magnetizable Winding core arranged winding and operationally solid Inductance value, characterized in that an additional adjustable inductance, e.g. B. after Type of variometer with which the frame is combined to form a structural unit. a. Monitoring frame according to claim i, characterized by an additional adjustment device : little structure that by their setting the space requirement of the frame arrangement ; is not changed. 3. DF frame according to claim i and z, characterized in that that the adjustable device in the container for the magnetizable core of the Frame winding is arranged. . Monitoring frame according to claims i to 3, characterized in that that the variometer is equipped with one or more magnetizable cores is. 5. Peilrahmen according to claim i to - 4, characterized in that da.ß stand and runner of the variometer enclose each other. 6. DF frame according to claim i to 5, characterized in that the stand and runner of the variable in the direction of The axis of rotation of the variometer are attached to one another. DF frame according to claim i to 6, characterized in that the adjustable device is the magnetic resistance regulates the iron path of the frame winding. B. monitoring frame according to claim i to 7, characterized in that when adjusting the variometer, at the same time the magnetic Resistance of the iron path of the frame winding is regulated. 9. Monitoring frame Claims i to 8, characterized in that the axes of the winding or windings of the variometer and the frame are perpendicular to each other. ok Bearing frame after Claims i to 9, characterized in that the control device is symmetrical Location of building the frame is disordered. i i. DF frame according to claim i to i o, characterized in that the variometer on the frame assembly from the outside can be operated by means of a key-like tool.