DE39636C - Innovations in measuring equipment for electrical currents - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 21: Electrical apparatus.

Dr. FRANCOIS BOREL in CORTAILLOD and E. PACCAUD in LAUSANNE (Switzerland).

Date of death in the German Empire from July 31, 1886 onwards.

The invention relates to an innovation Apparatus for measuring the intensity and energy of electrical currents, whatever the measurement by the action of the electric current on a movable component , of the circuit happens.

This innovation aims at the following naclw part of the. Eliminate concerned Mefsapparate: The speed of the in the mercury immersing moving part of the circuit is proportional only within certain limits the intensity of the current to be measured. Those limits have turned out to be proved practically inadequate, since the magnetic field of the current intensity does not pro- ' is proportional and the resistance which the mercury has to the movable one immersed in it Opposing components of the measuring apparatus, is not exactly proportional to the square of the speed of the same. This problem is eliminated by the following arrangements.

The current to be measured flows through the electromagnets B and B 'of the measuring apparatus. As a result, the movable armature EH immersed in the mercury beaker F. is set in rotation. The axle attached to E then drives some counter apparatus which gives the results of the measurement. In order to have a precisely functioning measuring apparatus, an electromagnet is added to the device just described, which is so arranged that it acts either on the mercury or on the moving part of the apparatus in such a way that the latter acts with increasing or decreasing intensity, the current to be measured is no longer or less immersed in the mercury.

The accompanying drawings show several dispositions of the with one after pbigem System equipped with a regulator. .

Fig. 1 and 2. · The two electromagnets B and B ' and a hollow cylinder D are attached to an iron base Ä. The electromagnets 13 and B ' carry an iron crossbeam C, which is provided with a hole, the diameter of which is slightly larger than that of D.

The upper end of the hollow cylinder D is surrounded by an annular container F which is filled with mercury and in which the rotatable fork E, which forms part of the circuit to be controlled, is immersed.

The iron mercury cup H, in which the axis of E is mounted, is not fixed here, but is attached to the upper end of a rod /, the lower end of which rests on a spring R attached to D. Depending on whether the intensity of the current to be measured increases or decreases, the hollow cylinder D becomes more or less magnetic and attracts the cup H more or less. The fork E is more or less immersed in the mercury of the solid container F , so that the intended effect is achieved.

By a suitable choice of the strength of the spring R and the distance between H and D , complete regulation of the measuring apparatus can be obtained.

Fig. 3 shows a somewhat different arrangement of the same regulator system: the rotating fork is here replaced by an axis E , on which a disk G is suspended by means of a spiral spring e, to which the two fork rods g ' and g "are attached. With increasing intensity of the current flowing through the electromagnets, the disk G is attracted more and more strongly by the magnets, with the rods g 'g " dipping deeper and deeper into the mercury. If the current intensity decreases again, the spring e lifts the disk G up again, the immersion depth of the rods g ' and g " in the mercury being reduced.

Fig. 4 shows a similar arrangement as Fig. Ι, only here the rod I rests on a spiral spring!) 'Instead of a flat spring R as there.

In FIG. 5 the mercury beaker F lies on a metallic ring K which is suspended from the cross member C by means of several springs k. If the current intensity increases, the ring K is attracted, the depth of immersion of the fork E in the mercury being increased. In the opposite case, the mercury beaker sinks under the action of the springs Ic, so that the depth of immersion of the fork is again reduced.

Finally, FIG. 6 shows a regulator of the same system, in which, however, both the fork and the mercury cup retain their height ratios unchanged: a metallic one. Disk L carries one or more masses M, which at the same time dip into the mercury of the shell F with the fork E. The disk L is connected to the traverse C by means of spiral springs m and approaches it or moves away from it as the intensity of the current increases or decreases. The masses M immerse more or less deeply in the mercury, the depth of immersion of the fork E also being increased or decreased. : -

Claims (1)

Patent claim: On measuring apparatus for measuring the intensity and energy of electric currents, in which the measurement is made by the action of the electric current on a moving part of the circuit, a regulator of the immersion depth of the moving part of the circuit (rotating fork or armature) in the mercury bath, consisting of the combination of the electromagnets of the Mefsapparates with one or more springs and a metallic disc or a metallic ring, which either by raising and lowering the fork E (as in Figs. 1, 2, 3 and 4) or by raising and lowering the mercury cup F (as in Fig. 5), or finally by raising and lowering the mercury level in the cup F itself (as in Fig. 6), the immersion depth of the fitting is changed according to the increasing or decreasing current intensity, as described. 1 sheet of drawings.