DE278505C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVr 278505 CLASS 21 c. GROUP

Diving resistance.

Patented in the German Empire on April 29, 1913.

The subject of the invention is an automatic electrical regulator with electromagnetic controlled diving resistance.

As is known, such regulators are preferably used to keep the voltage constant in electrical systems used.

The new controller differs from the known types in that the Resistance-bearing core of the control coil ίο no mechanical connections on either side and the resistance accordingly at both ends through liquid contact is connected to the supply lines. This creates the manifold evils avoided, which in the known designs through the supply line by means of flexible Wires or the like result.

In a particularly simple and practical version of the new controller, there are two Separated by an insulating layer of mercury columns are provided, which in the idle state of the controller are connected by the mercury displaced by the resistor carrier, while if the resistance is more or less divergent, they are only connected by this will.

The subject of the invention is shown in one embodiment in the drawing.
Fig. Ι is a side view of the controller,
FIG. 2 is a vertical central section through FIG.

3 shows an enlarged vertical center section through the resistor carrier alone.

The console 20 carries the tubular regulator housing 21, which is held by the voltage coil 25 is wrapped. The plunger 30 is freely movable in the housing 21. The lower The end of the housing is closed by a block 35. Extends through this block In the center of the controller housing there is an insulating tube 36, which is secured by a bolt 37 below is complete. With this stands the screwed to the breech block 35, but Terminal 39 isolated from it in an electrically conductive connection.

The insulating tube 36 as well as the lower part of the housing 21 is so high with mercury 40 filled that this in the position of the piston 30 of FIG. 1 the upper Edge of the insulating tube 36 flooded.

The plunger 30 consists of a tubular sleeve 41 (Fig. 3) at 42 for the purpose Receipt of the resistance coil 50 separated from the piston by an insulating layer is discontinued. This consists of a wire of high resistance that is at the bottom is firmly connected to the plunger. The top of the resistance wire is through an opening 52 in the wall of the plunger passed and connected to the head 47 of a needle 46, the upper Part of the plunger is held centrally on its conical seat by the pressure bolt 48 is. The sleeve 45 surrounding the bolt is insulated from the plunger by the tube 55.

The lower part 42 of the plunger is completely open at the bottom, so that the mercury can enter the piston.

The device works as follows:
When the coil 25 is under normal tension, the plunger 30 has the position according to FIG. 2, in which the resistance coil 50 is completely immersed in the mercury 40 and is short-circuited by this mercury. The mercury displaced by the immersion is above the upper edge of the insulating tube 36. The current entering through the terminal 56 thus passes through the housing 21 and the mercury 40 contained therein via the upper edge of the insulating tube 36 to that contained in this tube Mercury to then exit through terminal 57.

If the coil 25 now comes under higher voltage, it pulls the magnetically conductive one Plunger 30 into itself, so that part of the resistance coil 50 emerges from the mercury and the mercury level sinks so far that it is below the upper edge. of the insulating tube 36 is. The electricity now lacks the one that was previously due to the superfluous mercury formed a direct bridge between the two columns of mercury in the housing 21 and the insulating tube 36.

It therefore passes through the hollow cylindrical mercury column standing in the housing 21 the protruding part of the resistance coil 50 via the connection 52, the needle head 47 to the conductive needle 46, from this to the mercury in the insulating tube 36, to finally emerge again through the terminal 57. The power supply to the Resistance wire is therefore made exclusively through fluid contacts without mechanical ones Connections, such as flexible wires, which lead to multiple disturbances in such regulators To give reason.

The fact that the lower part 42 of the immersion body is hollow and open at the bottom is the advantage is that the mercury level is only very high when the immersion body is released gradually decreases, with small openings z. B. at the height of the implementation 52 air let pass, whereby a better regulation is guaranteed. The effect will not adversely affected by the aforementioned design of the lower end of the immersion body, because the massive, heavy upper part of the immersion body forms a sufficient load to withstand the resistance in the state of rest to press deep enough into the mercury.

As can be seen particularly in FIG. 3, the resistance coil 50 is wound so that the individual turns at the top have a greater distance from one another than at the bottom. Through this the advantage of better regulation is achieved by the higher the immersion body, if it emerges, the more resistance to be regulated per unit length of its stroke Circuit switches on.

Claims (4)

Patent Claims: 1. Automatic electrical regulator with • an electromagnetically controlled immersion resistor, characterized in that the resistance-bearing core of the control coil is not mechanical on either side Has connections and the resistance accordingly at both ends through fluid contact with the supply lines are connected. 2. Regulator according to claim i, characterized characterized in that two mercury columns are provided, which when the immersion body is raised are conductively connected by the resistance wire, while they are advantageously connected by the mercury displaced by the immersion body are connected. 3. Regulator according to claim 1, characterized in that the hollow lower part (42) of the immersion body is wide open at the bottom and loaded by the massive upper part to a sufficient depth. 4. Regulator according to claim 1, characterized in that the resistance coil is wound on the plunger core with increasing pitch upwards, so that at different heights of the plunger different sized resistances per lifting unit can be switched on. 1 sheet of drawings,