DE371250C - Electrical measuring instrument with two moving coils - Google Patents

Description

Electrical measuring instrument with two moving coils. The invention relates to an electrical instrument was called in the manner of the known moving-coil measuring instruments two rotating coils, each of which has only one side that can move in the effective magnetic field Has. According to the invention, the two coils move on a common radial Path in an air gap for the purpose of obtaining a large angular deviation, which can be equal to or greater than i2o °. The air gap is formed by that one pole of the magnet is convex, while the other is concave. The invention also relates to innovations in the design and arrangement of the Instrument to do the same thing easily, compactly and portable, while the number the parts that could get disordered is significantly reduced.

In the drawing, Fig. I is a view in longitudinal section through a instrument made according to the invention.

Figure 2 is a top view of the base of the instrument.

Fig. 3 is a view partially in section showing the assembly which represents moving coils.

Fig. D. Figure 13 is a partially sectioned plan view of the device of Figure 1 Fig. 3.

In Figs. I and 2, the base plate marked i is provided with rib-like reinforcements 2 on the surface. A resistance measuring device 3 in the manner of moving coil measuring instruments is attached to the base plate i by means of screws 4, which are mounted in perforations 5 in the base plate. An inductor 6 is arranged centrally on the base plate, on which it is fastened by means of screws mounted in holes 7. The inductor is driven by means of a drive ring 8 which is mounted on the inductor spindle and which engages with a drive wheel io, the shaft ii of which protrudes through the wall 1: 2 of the housing. The gear 8, io is mounted between plates 13 , one of which is carried by the inductor housing, while the other is on the end of the base plate i, l. is moored. The hand crank 15 at the outer end of the shaft ii is used to actuate the inductor 6.

The entire arrangement described above is enclosed in a sheet metal box, the top plate 16 of which engages over the edges of the vertical walls and is clamped or otherwise fixed on these. This housing can be detachably attached to the base plate i by means of screws 17 which are screwed into screw holes on the edge of the base plate. In the cover plate 16 of the housing there are openings for the terminals i8 as well as a viewing hole i9 through which the movements of a pointer: 2o of the resistance measuring device 3 can be observed. Furthermore, a handle 2i is attached to the cover 16.

The resistance measuring instrument (Fig. 3 and d.) Consists of a fixed Magnet 22 with two approaches 23, 24 .. The approach 23 is at the north pole of the magnet 22 attached and convex. The approach 24 of the opposite polarity is mounted at a short distance from the approach 23 and concentric or eccentric with respect to the outer convex surface of the lug 23, creating a partial circular air gap 25 is formed, in which the effective sides. from the moving coils 26 and 27 can move. The moving coil 26 can about the pole end 28 of the pole attachment 24 go out, as shown in dashed lines in Fig. 4 is shown. The pole approach 23 has an approach 29, which as the one pole for a Scattering path to the pole 24 is used, creating an auxiliary field apart from the main field between the poles 23, 24 is formed in which the coil 27 acts.

The moving coils 26 and 27 are in any one. Angle arranged on the common spindle 3o, which is guided in bearings 31 fixed to the pole attachment 23, the movement of the rotating coils being indicated by the pointer 2o, which sits on the spindle 30 and moves over a scale or by some other device; z. B. by means of a mirror, by means of which the instrument can be used in connection with a light beam which is reflected at certain distances.

The moving coils 26 and 27 are with the inductor 6 as well as with the resistance to be measured or the resistances to be measured connected by wires 32, whose resistances are irrelevant. The wires 32 are around insulated supports 33 wunclen before going to the concerned. Coils can be guided.

The device described above allows the execution of a relatively large angular movement in an instrument that is used to Measure ratio of the strengths of two separate electrical currents passing through the two rotating coils 26 and 27 flow when. the instrument as an Ohminesser for Measuring the values of electrical resistance is used.

In the case where resistances are to be measured, the moving coil is used 27 connected in series with a resistor across the inductor terminals and from a Current flowing through it, which is equal to the ratio of the voltage divided by the Resistance of this circuit is. The one through the spinning coil in a given Direction flowing current has the tendency to the coil 27 at or close to the Approach 29 to bring, provided that in the coil 26 no current flows. if on the other hand, the coil 26 in series with a resistance to be measured and with an inductor 6 is switched, a current will flow through the moving coil 26, which is partly from depends on the voltage and partly on the value of the resistance to be measured. This Current flows through the moving coil 26 in such a direction that the effective Side of the moving coil is pushed into the air gap 25 and along this moves between the two pole lugs 23 and 24, thereby removing the coil 27 from the lug 29 is withdrawn until the on each spool. acting forces are balanced.

The arrangement described can have a total angular movement with respect to on the moving coils of i2o ° or more, and if a short pointer is used the length of the scale is the same as or greater than that in an instrument with longer. Pointers and larger dimensions for the same sensitivity.

When calibrating an instrument, the invention being applied is to be, -the scale over which the pointer 2o moves in suitable Units divided, which represent the relationships between the movement of the Pointer that is communicated to the pointer from the scale, which is indicated by a normal Current is flowing through it, and the influence that the current has on the second coil which is in proportion to the resistance in the circuit through which this current flows.

Claims (3)

PATENT CLAIMS: r. Electric measuring instrument with two rotating coils, each of which has only one side movable in the effective magnetic field, characterized in that, that the two rotating coils are arranged at a certain angle to one another and so in a common, of the correspondingly curved pole ends of the fixed magnets move the air gap formed so that a large angular deflection, which can be equal to or greater than i2o °, is obtained. 2. Electric meter according to claim i, characterized in that the axis of rotation and one side of the moving coils within a hook-shaped extension on one pole of the stationary magnet are arranged, which corresponds to a concave approach on the opposite pole, whereby an air gap is formed. 3. Electrical measuring instrument according to the claims. i -and 2, characterized in that the magnet and the rotating coils (3) and a Inductor (6) mounted in a known manner on a common base plate and enclosed in a housing - (i) for the purpose of generation. des for the moving coils required current in the apparatus.