DE383279C - Device for remote adjustment of electromagnetic forces - Google Patents

Description

Device for remote adjustment of electromagnetic forces It is known, electromagnetic forces from a distance by means of a fixed in space Body, a light source and a photosensitive body. if for example on a vehicle a compass and a light source from a coat surrounded with a light-permeable slit and outside this jacket a layer of selenium is arranged, one can in a circuit, depending on which point of the selenium layer is hit by the light beam, various changes in resistance and thus induce various excitations of electromagnets.

Is the circuit designed so that two magnets are dependent Depending on the angular position of the needle, different resistances are connected upstream, except when driving in an exact direction northeast, southeast, southwest or northwest, so you can use the magnets to get recordings of the journey in the simplest way.

Such devices have hitherto had the disadvantage that the various Positions of the compass needle by means of several selenium cells and several slots only were transferred intermittently, i.e. only when the needle deflects had changed by a certain angle. The new device does not work intermittently, but without interruption, so that the smallest change in angle of the Compass position corresponds to a change in electromagnetic forces. this will achieved in that with one side of a selenium ring a resistance ring and with the other a contact ring is in contact. So it will only be a selenium layer and only one double line is needed. When a certain point of the selenium ring is exposed depending on the position of the magnetic needle, a current goes through it, the resistance ring and the resistance ring up to this point corresponds, so that a certain excitation of the magnets takes place.

In the embodiment of the drawing, Fig. Z is a gyro compass x with the electrical resistors and contacts in section and Fig. 2 a circuit diagram. It is assumed here that the compass has various functions. Various contact groups are provided for this purpose, each consisting of a Selenium, a contact and a resistance ring. The first group serves to regulate the two magnets, through which the display in a manner known per se or recording the direction and speed of the journey takes place. The second Group is used to reverse the recording device from north to south or from west to east. Such a reversal is necessary because the Excitation of the two magnets of the first group only from the angular position of the compass depends and a change in direction of travel by reversing the magnets must be met.

The third group serves the task in a similar way when changing the direction of travel change a direction indicator, which is mounted on the vehicle, to over a compass rose to indicate the direction of travel at any time.

Inside the compass housing, a lamp L is mounted in a thin metal jacket d provided with a slit e. The coat takes part in the relative movements of the compass. Outside the jacket is a ring a made of a fine resistance spiral, underneath a contact ring b, between these a ring c made of selenium. In the circuit diagram of Fig. 2, the two rings a and b are drawn side by side, and the selenium ring c is omitted. The magnet na lies in series with these contact rings. Below these rings there is a second group, that is, a resistance ring a1, a selenium ring cl and a contact ring b1 in series with the magnet ml. In a certain direction of travel and thus in a certain position of the slot e Thus, certain points of the selenium rings c, cl, receive the reduction in resistance required for actuating the magnets m, ml, and therefore certain lengths of the resistance rings a, a1 are connected upstream of the magnets. The strength of the current in each magnet is thus given a certain value; the two current values will be different from each other, except if you are driving exactly in the direction of northeast, southeast, southwest or northwest.

The two magnets influence the display or writing device in a manner known per se, which therefore covers a path corresponding to the direction and speed of the journey on a map. Since now, as mentioned in the introduction, the recording device must move in opposite directions, depending on whether the journey is in the direction of northeast or southwest, two magnets m2, 93Z3 can also be influenced by the Koxnpass, which, if one is in the direction of north and west regards as positive, reverse the direction of rotation of the mechanical transmission moving the recording device when heading south or east.

In the compass housing, under the resistance or contact groups a, b, c and a1, b1, cl there is another contact group a2, b2, c2 which is in series with the magnet m2. If you do not drive with a north, but with a south or south-east or south-west course, the exposure of the selenium layer at the specific point between the semicircular contact a2 and the contact ring b2 excites the magnet m. And thereby reverses the gearbox from the positive one North direction to the negative south direction. brought about. A layer of selenium is not interposed in the north, so that during such a trip the magnet m2 is de-energized and a spring, for example, brings about the positive control of the gearbox. The contact a2 therefore does not need to have the shape of a ring, but only that of a half ring. Under this group there is also a contact group, which again consists of a semicircular contact ring a3, a contact ring b3 and an intermediate layer of selenium c3, is in series with the magnet m2 and, together with a spring, causes the change of direction from east to west and vice versa .

If the display device also has one playing over the card Has direction indicators, a switching device is also necessary for this, similarly the changeover magnets m2 and m3 for the actual recording device.

This switching is done by a magnet 11a4 by means of a contact group provided in the lower part of the compass housing and, for example, a double rack. Since a switchover is required here at the transition from the north-east to the north-west direction and from the south-west to the south-east direction, the upper contact consists of two quarter circles a4, a ,; the lower contact ring is labeled b4 and the selenium layer in between is labeled c4.

Claims (4)

PATENT CLAIMS: i. Device for remote adjustment of electromagnetic forces by means of a body (compass) fixed in space by means of a light source which is arranged in a jacket surrounding this body with light-transmitting slits and a light-sensitive layer (selenium) located outside this jacket, characterized in that on one side a selenium ring (c) surrounding the jacket from the outside, a resistance ring (a) and on the other a contact ring (b) is arranged in such a way that each point of the selenium ring exposed through a jacket slot has a certain series resistance and thus a certain excitation current in series with the Resistance rings corresponds to switched magnets. 2. Device according to claim i for displaying or recording the direction and speed of a journey, characterized in that the jacket (d) is surrounded concentrically by two groups of resistors (a, b, c, a1, b1, cl), each of which consists of one Resistance rings, a ring-shaped selenium liner and a contact ring and are in series with two parallel magnets (m, m @. 3. Establishment according to claims i and 2, characterized by two concentric light-sensitive Contact groups (a2, b2, c2, a3, b3, c3), each of which consists of two contact rings or Ring halves and intervening selenium layer and with one of the magnets (m2, m3) for reversing the display device from north to south or is in series from west to east. 4. Device according to claim i and 2, characterized by a light-sensitive concentric contact group (a4, a5, b4, c4), which consists of ring parts and an intermediate selenium layer and is in series with the magnet (m4) for reversing a direction indicator.