DE1099571B - Arrangement for triggering electrical signals by influencing a magnetic circuit - Google Patents

Description

Arrangement for triggering electrical signals by influencing them of a magnetic circuit Addendum to additional patent 1 047 240 The main patent relates on an arrangement for triggering electrical signals by influencing a magnetic circuit by means of one brought up to this, with a magnetic one A body provided with a certain direction and one with the magnetic circuit circuit coupled by a choke coil. This choke coil has a Winding that is in an electrical circuit and that has a magnetic circuit a premagnetization with one of the field, the magnetic body equal or opposite directed field.

According to the main patent, this electrical circuit is an oscillation circuit, in a known manner by changing its inductance in or out of resonance is brought. By introducing the magnetic body -with, in a certain The direction of force lines changes the resonance state of the Oscillating circuit and thus triggering the signal. This arrangement serves to on at her, d. H. the iron choke to address magnetic bodies that are passed by.

This arrangement is used in particular for conveyor systems, in order to transmit S 'signals to a stationary system when the conveying container is moving. This device is of particular importance when it comes to controlling in the direction of travel arranged devices for influencing the path of the vehicle, for example by switching points.

Due to the arrangement according to the main patent was by passing a magnet on a choke coil and the resonant circuit connected to it Control device brought into another state in which it remained until by a further process, for example by a manual process, this one State was canceled again.

However, there is now the task of switching back the control device to make it independent of a particular process and to couple it with the process, who initiated the switchover.

According to the invention this is achieved in that the axis of the magnetic field of the hewegharen body perpendicular to the axis of the field of the Pre-magnetization of the magnetic circuit runs.

In this way, when the body passes the bias magnet whose magnetic flux is strengthened or weakened in both end positions, so that the control device by a vehicle being driven past the scanning device excited and also returned to the idle state.

For this purpose, the choke coil is equipped with a additional magnets provided, which causes a bias of the coil, and is used for control another, for example Ider, which can be moved perpendicular to the position of this magnet magnet on the vehicle. This magnet is as soon as it is near the beginning of the magnet used for premagnetization arrives, either in the same or in opposite directions directed to this. So it then causes a weakening or strengthening of the magnetic Field of this thrush. As the magnet moves further, it reaches the end of the for the premagnetization serving magnets and causes the opposite effect here.

The drawing serves to explain the invention.

Fig. 1 shows the basic circuit diagram according to the invention, while Fig. 2 relates to the application of the invention to pneumatic tube systems.

Fig. 1 shows an oscillating circuit which consists of the capacitor C, the InductivityL and the resistance 1V exists. The oscillating circuit is connected to the AC voltage source E. The inductance L is a choke coil, which is premagnetized by a Magn, etenM1 will. The magnet M1 is now arranged so that it is in the direction of movement Another magnet 1112 is located, which is arranged perpendicular to the direction of movement is and passed in the immediate vicinity of the magnet M1 will. In the position I, the magnet M2 causes an increase in the magnetic field and in position II a weakening of the same. The oscillating circuit is now tuned in such a way that that in one of the cases it is resonated while in the other it is falls out of response again. The voltage across the resistor W thus changes when when the magnet M2 is brought up to the magnet M 1. It increases when the Magnet M 1 in position 1 and falls on its previous position when position II is reached Value back.

The pulses generated in this way can then be transferred to a relay chain or given to a storage device. The frequency of the circle will be set to the smallest pulse time. Down is the speed with which the magnet M2 must be moved, but unlimited.

Fig. 2 shows a pneumatic tube carrier B, which is located in a tube R is located. The inductance is labeled L again. At two opposite Sides of the pneumatic tube carrier B, which has a symmetrical structure, is located one magnet M2 or M2 '.

The use of two magnets on the opposite one Long sides of the liner is necessary because the liner faces two different directions introduced into the tube and thus each of these pages to the scanner can be introduced. One of the magnets M2 and M2 'thus influences the scanning device according to Fig. 1, through the Idann lying in the direction of switch according to the The aim of the pneumatic tube carrier B has been turned over or the number of carriers passed by has been counted will.

However, the arrangement can also be used in systems, in particular other vehicles, find use in a similar way.

Claims (1)

PATENT CLAIM Arrangement for triggering electrical signals through Influencing a magnetic circuit provided with a premagnetization, which is coupled by a choke coil with an oscillating circuit, which by a movable body provided with a magnetic field in a certain direction, which is led past the magnetic circuit, the inductance of the electrical Circle and thus its resonance state changes, which triggers a signal, according to patent 1,047,240, characterized in that the axis of the magnetic field of the movable body perpendicular to the axis of the field I of the bias of the magnetic circuit.