DE1002887B - Mercury relay - Google Patents

Description

GERMAN

Mercury switches, in which a body of mercury moving in a tube is melted into the tube Contacts close circuits have the advantage that with a suitable selection of the contact material and a suitable gas filling, the opening and closing takes place cleanly and with almost no burn-up. These advantages also exist if the switch is designed as a relay. Such mercury relays have in common with all electromechanical relays the disadvantage that the control current is always first must exceed a threshold value in order to overcome the static friction before the shift takes place.

The invention seeks to create a mercury relay that has all the advantages of the mercury switch in terms of switching technology and also works completely free of thresholds. Serves according to the invention to drive the mercury mass moving in the tube, one counteracting the force of gravity Force generated by a magnetic penetrating the mercury at right angles to its direction of movement Field and a current flowing perpendicular to this and to the direction of movement through the mercury originates. The force generated in this way raises the mercury column by an amount equal to the strength of the magnetic field and is proportional to the current. The movement of the mercury is free from static friction. The current connection to the contacts melted into the pipe therefore always occurs at a very specific one Strength of the field or of the current flowing through the mercury. The relay after the invention therefore works quantitatively with extremely high accuracy. The controlling variable can be either the current flowing through the mercury at a constant magnetic field or the magnetic field strength serve at constant current. In the first case, the field can be excited by a permanent magnet will. In the second case, coils through which the control current flows are used to excite the field.

In the production, the relay according to the invention is extremely simple, since it is in the design of the Rohres does not depend on any accuracy, because the amount by which the mercury level changes, does not depend on how the tube diameter may change along the mercury column. on the other hand shows that the height of the mercury level corresponds to the width of the current path in the mercury, measured in Direction of the magnetic field, is inversely proportional. The invention uses this fact further Training in that the tube is constricted in the area of the magnetic field transversely to the direction of flow is. In this way, you achieve a considerable increase in sensitivity.

The fact that the degree of the rise in the mercury level as well as that of the mercury Mercury relay

Applicant:

City of Düsseldorf, Stadtwerke,

represented by their senior city director,

Düsseldorf, Luisenstr. 105

Dipl.-Ing. Walter Petrus

and Dipl.-Ing. Kurt Krenz, Düsseldorf,

have been named as inventors

The current flowing through it as well as the magnetic field strength can be used for this purpose the switching processes controlled by the relay according to the product of two variables to trigger, one variable being the current in the mercury and the other being the field strength or the current exciting the magnetic field. For example, the relay can be switched so that it responds to the apparent power of an alternating current transmission as a controlling variable by by Rectification of the alternating voltage and the alternating current obtained direct currents to excite the Field and serve as a current flowing through the mercury. If one leaves the rectification off, then the Adjusted the mercury level according to the active power of the alternating current transmission. Finally you can by interposing a 90 ° phase shifter in the manner customary with measuring instruments, the reactive power is also reduced as a controlling variable.

In the simplest case, the mercury only switches a single circuit. But you can too Arrange several contacts one after the other in the course of the pipe and accordingly several circuits one after the other open or close when the column rises or falls. In the borderline case, you can use a step switch switch to a continuous circuit by inserting a longitudinal conductor in the pipe of relatively high resistance built in, which by the rising mercury column in increasing Dimensions is short-circuited.

The drawing illustrates some embodiments of the invention, namely shows

Fig. 1 the principle of the relay in a schematic representation,

«09 836/377

Claims (8)

The length of the wire 29 short-circuited by the mercury increases in the mirror 18, and the correspondingly falling resistance between the bushings 30 can serve to make the change in the height of the mercury level usable quantitatively for purposes of control or display. Instead of working with a constant magnetic field and variable current in the electrodes 12, 13, the current can also be kept constant and, for this, FIG. 2 shows a longitudinal section perpendicular to the direction of the current through the middle part of one pipe limb, FIG. 3 shows a cross-section along line IH III in FIG. 2, FIG. 4 shows a longitudinal section through the part of the mercury tube containing the switching contacts, FIG. 5 shows a representation corresponding to FIG. 4 in a modified version, and FIGS. 6 and 7 two circuit diagrams for explanation io change the field strength. In FIGS. 6 and 7, the use of the relay for control takes place in accordance with both. The yoke 31 is not shown in Fig. 6 by a given electrical output. Permanent magnets, but rather excited by coils 32. According to FIG. 1, the relay consists of an above coils 32 are via a rectifier 33 to the closed U-shaped bent tube 10, the partial lines R, S of an alternating current transmission 34 is filled with mercury 11. Connected in the right pipe 15, while the electrodes 12, 13 via legs are two opposing electrodes a rectifier 35 parallel to a resistor trodes 12 and 13 melted into the pipe. In the 36 in the course of the line R lie. The current at the level of these electrodes lies in the pipe limbs' inner coils 32 and accordingly the field strength in the air half of the air gap 16 of an iron yoke, the gap is thus the alternating voltage, the current through two curved pole pieces 14 on both sides of the poles 20 the electrodes 12, 13 the alternating current of a permanent magnet 15 consists. The pipe leg is proportional. The mercury level represents a plumb line. When a voltage is connected, the current flowing through the electrodes 12 and 13 through the mercury, which is transmitted by the lines R, S, flows perpendicular to the tube axis, depending on the apparent power. If the rectifiers 33 and 35 are omitted in FIG. 6, the magnetic field generated in the air gap of the yoke is thus immediately connected to the coils 32, probably on the pipe axis as well as to the current alternating voltage, and the electrodes 12, 13 are immediately averaged perpendicular. Let / be the current flowing through the mercury between the electrodes 12 and 13, H the magnetic field strength, α the width of the mercury column perpendicular to the direction of the current and k a constant. Then, as a simple consideration shows, the height difference between the levels 17 and 18 of the mercury columns in the two legs is bar at the resistor 36, so the setting of the mercury level is proportional to the active power in the lines R, S. In connection with contacts and counters of the type shown in FIG. 4, the device, when controlled according to the active power, can be used with particular advantage to create the so-called annual duration line π. j of a transformer, generator, power supply, etc. y = k ——. 35 to include. As is well known, it is very laborious to develop this line from the daily performance-time slide. The size of the constant k depends on the gram. The counters, from which the chosen system of measurement depends. each only runs for as long as a certain one is appropriate for it. The fact that y has exceeded the width α with inversely proportional power value, is made usable by the fact that the 40 at the end of a year are immediately used to plot the width α by a constriction 19 of the pipe in the annual duration curve necessary time values. Area of the electrodes is made as small as possible. Finally, according to FIG. 7, the relay can also be made sensitive to a change in H or / or a ver by causing a relatively large change in y. At a certain distance above the electrodes 12 45 a 90 ° phase shifter inserts, for example in the and 13 three contacts 20, 21 and 22 in the form of a capacitance 37 and an inductance 38 are melted one above the other in the tube. In connection with a contact 23 protruding into the tube in front of the coils 32. In those cases where one of the quantities H and / also the mercury can assume negative values through the contacts 20, 21 and 22, the level 18 successively decreases currents at very specific values 50 below the height of the mirror 17. In those cases of y which, because of the lack of static friction, switching contacts above and below, in turn, correspond to very specific values of H and /. The embodiment according to FIG. 4 shows the use of the relay for recording a stepped current-time curve at any point in a producer or consumer of electrical energy. The current in electrodes 12 and 13 when the magnetic field is constant is used as the controlling variable. The number of switching contacts 24, 25... Arranged one above the other is significantly increased compared to FIG. Each of these contacts is connected to a timer 26, 27. Periodic reading of the clocks provides the required time-current curve. In the embodiment according to FIG. 5, a resistance wire 29 is located inside the tube 10, parallel to the tube axis, with bushings 30. With rising zero position of the mirror 18 arranged. Patent claims: 1. Mercury relays with fixed contacts fused in a tube, with which an im Tube of movable mercury body switches electrical circuits, characterized in that for driving of the mercury body a force counteracting gravity is used, which is generated by a das Mercury transversely to its direction of movement penetrating magnetic field and a to originates from this current flowing through the mercury perpendicular to the direction of movement. 2. Relay according to claim 1, characterized in that the tube (10) in the region (16) of the Magnetic field is constricted transversely to the direction of the current flowing through the mercury. 3. Relay according to claims 1 and 2, characterized by several in the tube one behind the other arranged contacts (24, 25) for switching several circuits according to the setting of the Mercury level. 4. Application of the relay according to claims 1 to 3 for controlling one or more circuits according to the product of two variables, characterized in that the field strength of the magnetic field in operative relation to the one and the one flowing through the mercury Current is set in operative relation to the second variable. 5. Application according to claim 4 for controlling circuits according to the apparent power an alternating current transmission, characterized in that by rectifying the AC voltage and the DC currents obtained from the alternating current to excite the magnetic field and serve the stream flowing across it. 6. Application according to claim 4 for controlling circuits according to the effective power an alternating current transmission, characterized in that as flowing through the mercury Current and for the excitation of the magnetic field currents are used, the alternating voltage and the AC currents are proportional. 7. Application according to claim 6 in conjunction with a relay according to claim 3 for recording an annual duration curve, characterized by circuits connected to the contacts (24, 25) with counters (26, 27), each of which only runs when the current is over the associated Contact is closed. 8. Modification of the application according to claim 6 for the purpose of control in accordance with the reactive power, characterized by a phase shifter that controls the excitation current or the mercury current rotates by 90 °. 1 sheet of drawings © 609 8-6 / 377 2.57