DE215669C - - Google Patents

Description

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IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JV * 215669 ~ CLASS 2Oi. GROUP

Electromagnetic point machine. Patented in the German Empire on September 26, 1908.

The invention relates to an electromagnetic switch machine. in the the solenoid is rotatably mounted and both switch to the switch the directions of travel is carried out by only one electromagnet.

The essence of the invention consists in the special arrangement that allows a conversion of the Switch in both directions with just one ίο magnet allows: This arrangement exists in that the core of the electromagnet acting on a lever connected to the switch when changing the switch a spring connected to this lever and the rotatable electromagnet tensions, which every time the electromagnet moves back into a new rack tips over, from which the switchover takes place again in the other sense can.

The invention is shown, for example, on the accompanying drawing.

Fig. Ι shows the switch arrangement, which is equipped with the present invention.
Fig. 2 is a plan view, and.

3 and 4 are sections in the direction of the line AB and CD, respectively, of FIG. 2.

Figs. 5 to 7 are similar illustrations to Fig

FIGS. 2 to 4 and show another embodiment, the sections being taken in the direction of the line EF and GH according to FIG

In the. In Fig. 1 shown turnout arrangement is ι the main track, 2 the siding, 3 is the power line and 4 is a contact which is on the line in the Is stored in such a way that it is removed from the part of the line on which it is stored is isolated. The contact 4, which is a certain amount in front of the switch tongue is of known construction and in a known manner through the lines 5 and 7 and electromagnet winding 6 be connected to the line.

Assume that a car moves against the switch and the driver wishes to enter the siding. Since the tongue 8 is set for the main track, so. is this Siding closed to the car. The driver brings, if this has not already happened is, its motor controller in working position as soon as the pantograph is under the contact 4 goes away. This creates a circuit from the line 3 through the line 7, electromagnet 6, line 5 after contact 4, from contact 4 through the pantograph, the motor controller and the Motors to earth. The electromagnet 6 is excited in this way and becomes the tongue 8 move so that the siding is open and the main track is locked. if now the next car also wants to enter the siding becomes the engine controller switched off or switched to the inactive position

brought as soon as the pantograph passes under the contact 4. The circuit of the line 3 through, the line 7, electromagnet 6, line 5, contact 4, pantograph, The motor controller and motors are interrupted in this way, the electromagnet 6 is not excited and the tongue S is therefore not adjusted. However, if the car is in

.. the main track is to enter, the motor controller is brought into its working position. When the current collector passes under the contact 4, the circuit just mentioned is closed, the electromagnet 6 is excited and the tongue is brought back into the position shown in FIG. It can be seen that else the two movements of the tongue are produced by the electromagnets 6 in this W ^T, and in that this electromagnet 6, once it is excited, is connected with the motor controller and the drive motor of the carriage after the other.

The mechanical connection between the electromagnet 6 and the tongue 8 and the arrangement of the electromagnet can be seen from FIGS. 2 to 4 and FIGS. 5 to 7.

In the embodiment shown in FIGS the electromagnet is stored as usual in a street box 9, which is built into the track and with a is closed with the paving flush ceiling 10. The electromagnet is not fixed, but movably mounted in this street box. This rotatable bearing makes it possible that the mechanism between the tongue 8 and the magnetic core 11 is switched on and is driven by the movement of the latter, simply designed and consists of only a small number of parts.

The electromagnet 6 is arranged in both character embodiments so that its Core is more or less vertical, and the rotary movement is made possible by that it is mounted on knife-like cutting edges 12.

Two such cutting edges 12 are provided, which are in a line and in one to the rails parallel plane of the main track. One link of each camp is with the lower one Side of the electromagnet and the other link of each bearing connected to the bottom of the road box 9. In the walls of the Box, a shaft 13 is mounted by means of suitable bearings so that it is with the rails of the main track is parallel .. These bearings are arranged so that the shaft 13 through the street box passes over the top of the electromagnet and when the The electromagnet stands vertically, is located directly above the core 11. One end of the Shaft 13 goes through a wall of the road box and carries the same outside a lever arm 14, which at 15 on a part its length is slotted. The electromagnet 6 has, as can be easily seen, the endeavor to a assume inclined position, and the angle through which it will move on its pivot 12 is limited by the width of the street box or possibly by special ones Stops in the same.

On the shaft 13 there is a lever 16 in such Position attached so that it is directly above the core 11 of the magnet. The lever 16 has a such length that the core 11 when the electromagnet 6 is in one of its two end positions, under one of the two Ends of the lever. 17 and 18 are console that are on opposite sides of the electromagnet 6 are arranged in such a way that they are at the side of the lever 16. Of the Lever 16 has a hub or projection 19 to which springs 20 and 21 are attached which are connected at their other end to corresponding links 22 and 23 are. The latter, on the other hand, are each connected to an adjustable bolt 24 and 25, which are carried by associated consoles 17 and 18, respectively. 26 is a wave that mates in Way is stored and is at right angles to the main track. This wave is with hers one end connected to the tongue 8 and goes with its other end through the slot 15 of the lever arm 14 therethrough. This lever arm 14 and shaft 26 are by means of screws 27 and 28, with the help of which the setting of both can be regulated.

The mode of operation of the apparatus just described is as follows:

As soon as the current collector of a car comes under the contact 4 and the electromagnet 6 is excited by the aforementioned current shortage, the core 11 is pulled up into the center of the magnetic field. During this upward movement, the core strikes against the end of the lever 16 located directly above it, presses against this lever and causes it and thus the shaft 13 to move by a certain amount, for example from the position shown by the line Z. to come to the position indicated by the line X.

The shaft 13 must also move the lever arm 14 during its rotation and it against the Press nut 27 so that the shaft 26 is forced in accordance with this to be in to move the longitudinal direction and to move the tongue 8. When the lever 16 and the Shaft 13, as described, is moved, the spring 21 must be tensioned because the projection 19 must move away from console 18

distant. But as soon as the electromagnet 6 is demagnetized again when the current is interrupted, the core ii falls and the spring 21 tries to resume its normal position. However, it can only do this by tilting the electromagnet 6 about its oscillating bearing 12 and thus bringing the console closer to the projection 19. A prerequisite here is that the rotation of the electromagnet opposing masses and kinetic resistances are small compared to the mass and the friction resistance of the switch itself. The electromagnet 6 is thus taken from the direction indicated by the line W location in the direction indicated by the line Y location. The core 11 is pushed under the pushed-off end of the lever 16, and the parts are in such a position that when the electromagnet 6 is energized again, it and the parts connected to it return to those indicated in the drawing Position must be moved back and thus the tongue is moved into the opposite position. During the next movement, the spring 20 must be moved away from the bracket 17 by the movement of the projection 19 and tensioned, and the tension imparted to this spring 20 will cause the electromagnet to rotate about its tilting bearing.

In the embodiment shown in FIGS. 5 to 7, the electromagnet 6 is also rotatably mounted, and the shaft 26 is arranged as in FIGS. 2 to 4. The core 11 of the electromagnet 6, however, acts against one or the other. other lever of a pair of levers τδ ^α and 16 *. The lever i6 ^a is mounted on a shaft 13 'such that it lies directly over the core 11 when the electromagnet 6 is tilted to the left. The lever 16 * on the other hand is supported on a shaft 13 * such that it directly to when the electromagnet 6 is tilted to the right is located under the core 11. The springs 20 and 21 are each connected at one end to the projection 19 ^ which is attached to the electromagnet 6, while at their other end they are each connected to a associated lever arm jy ^a and i8 ^{a are} connected, which are attached to the shafts 13 "and 13 *. Each of the shafts 13 " and 13 * goes through a wall of the street box and is equipped outside of the same with a slotted lever arm 14" and 14 *. The shaft 26 goes through both slotted lever arms 14 ″ and 14 * and is connected to these through the intermediary of the adjusting nuts 27 ″, z8 ^a and 27 * and 28 *.

The mode of operation of this embodiment is now as follows:

The electromagnet 6 is excited in the manner already described, and the core 11 rmi push the end of the lever ΐ6 ^έ upwards. As a result of this, the shaft 13 * will have to rotate. This shaft 13 * also moves the lever arm 14 ″, which gives the shaft 26 a longitudinal movement and displaces the tongue 8. However, since the lever arm 14 ′ ″ is also connected to the shaft 26, the shaft 13 ″ is given a rotary movement and that end of the lever ^ΐ6 Λ moved downward. at the same time 13 ", the lever arm ^a ij must be moved due to the rotation of the shaft, and the spring 20, which is connected thereto, must be tensioned. The spring 20 will now, as soon as the circuit exciting the electromagnet 6 is interrupted and the pressure of the core 11 against the lever arm i6 * decreases, the electromagnet 6 rotates about its pivot and this causes the. Bring core 11 under the pressed down end of lever i6 ^a . When the electromagnet 6 is re-energized, the end of the lever arm τ6 ^{α is} moved upwards; the tongue is moved by the movement communicated in this way to shaft 13 ″, lever arm 14 ° and shaft 26; at the same time, the spring 21 is also tensioned by the rotation of shaft 13 * and in this way brought into a position which is suitable to swing the electromagnet 6 about its fulcrum, it will be readily apparent that weights could be used in place of the springs 20 and 21 in any arrangement, and that the electromagnet could also be stored horizontally.

_π ...

Claims (2)

Patent Claims: 1. Electromagnetic switch machine with a rotatably mounted, the Conversion of the turnout causing electromagnet, characterized in that above the magnetic core (11) of the rotatable electromagnet on a shaft in connection with the switch linkage with the rotatable electromagnet Tension springs (20, 21) connected lever (16) is attached, which through the core of the Electromagnet rotated in one direction or another when excited is, at the same time one or the other of the springs connected to the lever (16) (20 or 21) is so tensioned that it is after changing the switch and going back of the magnetic core (11) in its rest position the rotatable electromagnet into a new position that prepares the switch to the other direction knock over. 2. Embodiment according to claim 1, characterized in that above the Rotatable electromagnet two core with the switch linkage in connection and with the electromagnet levers (i6 '\ ιό' ') connected by tension springs (20, 21) are attached, of which at excitement of the electromagnet is always the one or the other is directly influenced by the magnetic core, during the others are also turned over by the simultaneous adjustment of the switch linkage and thereby the associated tension spring (20 or 21) so tensioned that after the return of the Magnet core in its rest position of the electromagnet by the train of this spring in the current rack is tipped over. 1 sheet of drawings.