DE2160169C - Moving iron measuring instrument for measuring direct voltage or direct current - Google Patents

Description

The invention relates to a measuring instrument for measuring direct voltage or direct current, contain a measuring mechanism with a pointer carrier containing soft magnetic material and with a Directional magnet, which by its position in relation to the soft magnetic material in question, its position and thus that of the pointer carrier fixes, and a voltage to be measured in each case or the respective to measuring current-carrying measuring coil.

A measuring instrument of the foregoing Art is already known ("Electrical measuring devices and measuring devices" by A. Palm, Springer-Verlag. ΒεΊιη, Göttingen, Heidelberg, 1948, third edition, p. 48.49). In this known measuring instrument, the measuring coil or the measuring coils supporting the solid surrounds Iron body the pointer carrier. However, such a structure is relatively bulky, and it also brings a relatively high weight with it.

The invention is based on the object of designing a measuring instrument of the type mentioned at the outset in such a way that that it takes up relatively little space and is relatively light in weight.

The object indicated above is achieved according to the invention with a measuring instrument of the type mentioned at the beginning in that the measuring mechanism is surrounded by the measuring coil in such a way that the field lines of the at least approximates the magnetic measuring coil field present in the respective measuring coil run perpendicular to the direction of magnetization of the directional magnet that the measuring mechanism has a two contains separate plastic bodies having chambers running parallel to one another, in one chamber of which the pointer carrier is pivotably mounted and in its other chamber the directional magnet is clamped, and that the measuring mechanism together with the measuring coil in one corresponding recess receiving scale carrier is provided.

The invention has the advantage over the known measuring instrument considered at the outset that a space-saving design and low weight are achieved in a relatively simple manner.

According to an expedient embodiment of the invention, the soft magnetic material is thin

platelets formed. This has the advantage a particularly easy arrangement

According to a further advantageous embodiment of the invention, the directional magnet is a bar magnet, whose central axis running between the poles is at least approximately in the plane of the to the Hand carrier belonging to the plate runs. This can also be used in an advantageous manner achieve particularly easy arrangement.

According to a further advantageous embodiment of the invention, the directional magnet is through with the Plastic body connected clamping webs clamped in the receiving chamber. Through this there is the advantage that for the clamping rating the straightening magnet no separate elements üi-hen the plastic body provided anyway ι are required.

According to a further advantageous embodiment of the invention, the plastic body has protruding Margins that have corresponding exceptions : Hung of the scale carriers are added. This has the advantage of being particularly easy and effective guidance of the plastic body jnd dr \ with the measuring mechanism in the scale carrier.

According to yet another useful embodiment of the invention, the Zekerträuer consists of a non-magnetic material, preferably plastic, and it also has bearings. which are received by bearing elements which are in the walls of the for receiving the pointer carrier provided chamber of the plastic body are screwed. This has the advantage of a particularly simple attachment of the pointer carrier in the plastic body.

According to a further advantageous embodiment of the invention, the plastic body is on its the bearing elements having sides each formed so that the bearing elements in question in the relevant. Sides of the plastic body can be screwed in from the outside. This results in the The advantage that the bearing elements can be easily inserted into the plastic body on the respective one in question Places can be screwed in.

According to a further advantageous embodiment of the invention, the measuring coil has a smaller one Winding height as the height of the plastic body corresponds, and also the plastic body with its Side wall not covered by the measuring coil extend from a corresponding recess in the .scale carrier. This has the advantage of additional guidance of the measuring mechanism in the scale carrier and the possibility of clamping the measuring coil on the plastic body of the microscope,

According to yet another advantageous embodiment of the invention, one with the scale carrier contiguous receptacle for receiving the measuring mechanism and the measuring coil of the scale side in the relevant receptacle at least two scanned openings for the Implementation of measuring coil connections included This advantageously provides a simple connection option created with de: iVfcßspulc.

According to yet another useful embodiment of the invention, the receptacle has such a depth that when the measuring mechanism is pushed into it, the pointer of the pointer carrier is directly in front of the scale of the scale holder. This has the advantage that the pointer carrier in the scales trailer can be pushed in without a separate adjustment being required.

The invention S is explained in more detail below with reference to drawings.

F i g. 1 shows a measuring instrument according to the present invention in a front view;

F i g. 2 shows a perspective view of a partly in section and in an exploded view

ίο measuring mechanism and a measuring coil on an enlarged scale for the in FIG. i shown measuring instrument:

F i g. 3 shows in a perspective view partly in Section of a scale carrier for receiving the measuring mechanism and the measuring coil according to FIG. 2.

That in Fic. 1 second page. for measuring DC voltage or direct current dieiK.ide measuring instrument contains a measuring mechanism, generally designated 10, which is surrounded by a measuring coil 1, which each voltage to be measured or the current to be wetted is supplied. The measuring mechanism! 0 is together with the measuring coil 1 surrounding it inserted into a corresponding recess of a scale carrier 28. The scale carrier 28 has a receptacle. of which in Fig. I the side walls 24,25 and the bottom wall 23 are shown. The measuring mechanism IO is with protruding edges 11 and 12 of corresponding shooters above the side parts 24, 25 of the scale carrier 28 added. The measuring mechanism 10 is pushed into the scale holder 28 in this way or used that a with this MeLUverk 10 connected pointer 16 is immediately in front of the Sk.ila of the scale carrier 28 is located.

In Fig. 2 are, on an enlarged scale and in perspective, the measuring mechanism 10 and the Measuring coil 1 shown. The measuring coil 1 is shown withdrawn from the measuring unit IO. The measuring mechanism 10 includes a plastic body 30 that has two having separate, parallel to each other chambers. There is one in one chamber Pointer carrier, to which the elements 2, 13 and 16 visible in FIG. 2 belong With 2 a thin plate made of a soft magnetic material is referred to; with 13 are bearing journals referred to, which are connected to the actual pointer carrier part, which carries the plate 2. At 16, the pointer already shown in Fig. 1 is the Zeiuer '! Ligers. Those indicated on plate 2 four points should indicate the connection of the plate 2 with your actual pointer tiger part, which is preferably made of plastic and with which the bearing pin 13 and the pointer 16 are connected can be formed. In the other chamber of the plastic body .30 there is a directional magnet 3 housed. This directional magnet 3 is in the relevant other chamber of the plastic body 30 clamped by a clamping saw 6, 7 associated therewith, namely on one of the two Chambers of the plastic body 30 passing through partition walls. In the lower part this partition can be used 8 be designed in such a way that they prevent the straightening magnet 3 from being pushed through from the top of the plastic body 30 ago prevented. The delimitation in question can be provided by one of the dividing wall 8 protruding small nose be formed, which has a corresponding pivot point for the directional magnet 3 specifies.

The directional magnet 3 exerts an attraction on the plate made of soft magnetic material

from which it arises in the event that the soft magnetic material occurs in one of the

Measuring coil 1 surrounding the measuring unit IO is not converted into a direct current flowing through a measuring coil 1

Current flows through the plate 2 and thus the direction of the resulting field component

also holds the pointer 16 in a defined position. Which corresponds to which is derived from the field of the directional magnet

The relevant directional magnet 3 is received in the 5 th 3 and results in the Mcßspulenfeld. If the Mcß-

In the chamber of the plastic body 30 disappears in such a coil, then the attraction

Clamped position that its between the poles N force of the directional magnet 3 on the plate 2

und.S "running central axis at least approximately only to the effect, according to which this plate 2 and

in the plane belonging to the symbol carrier so that the pointer 16 returns to the starting position.

Plate2 runs. At this point it should be noted that io can be traced back.

that in deviation from that shown in Fig. 2 in Fig. 3 is the measuring mechanism 10 and the measuring

Conditions can also have proceeded so that the coil 1 according to FIG. 2 receiving graduations 28 in

Plate 2 not shown in more detail perpendicular to the directional magnet 3 in a perspective view. To

runs, but roughly parallel to this standard illustration of the special features of the scale

3. It should also be noted that the directional magnet 3, 15 is the carrier 28 in FIG. 3 partly shown in section

as illustrated in FIG. 2, in his order. As in connection with FIG. 1 already

As explained above, the possibility of movement in the direction of its magnetization, the scale carrier 28 has side walls 24, 25

tion is limited, namely by the and a bottom wall 23 on. The bottom wall 23 has

Partition wall 8 formed paragraphs or edges 4.5, while a recess on the lower part of the

which the relevant directional magnet 3 with its plastic body 30 of the measuring mechanism

overlying end faces practically rests. able. With its protruding edges 11, 12 lies

The pointer carrier is with its bearing pin 13 in the plastic body 30 on guide surfaces 19, 20

Bearing elements 14, 15 mounted, which in the artificial the cross winds 24, 25 of the scale carrier 28 on,

fabric body 30 are screwed in. The bearing is here when it is pushed into this scale carrier 2IB

element 14 in the in F i g. 2 shown as a front wall 95 or in a connected with the scale carrier 28-

Outer wall of the plastic body 30 screwed, lowing receptacle 29, as shown in FIG. 3 he

and the bearing element 15 is visible in the already mentioned one. Due to the on the scale carrier 28

Partition wall8 screwed in. The screwing in of the formed chambers 21, 22, which according to FIG. i not straight

Lagcrelements 15 in the partition 8 takes place when they still need to be connected linearly, the spaced

not clamped in the plastic body 30 30 existing edges 11,12 of the Kunsts.toffkörpers 30 to the

Directional magnet 3. In this case, at least the guide surfaces 19, 20 of the rope walls 24, 25 of the

screw point for the bearing element 15 held in the separating scale carrier 28 pressed. The measuring coil

wall8 run from the lenan connections 17, 18 shown in FIG. 2 as a rear wall according to FIG

The outer wall of the plastic body 30 is accessible. by opening contained in the receptacle 29

The relevant outer wall of the plastic body 30 35 openings 26, 27 therethrough. The one with the scale carrier 28

is, as in Fig. 2 indicated, in the relevant associated receptacle 29 has a

richly provided with a cutout. such a depth that in this receptacle

When the measuring mechanism 10 is pushed onto the plastic body 30 of the measuring mechanism 10 29, the pointer 16 is itself

With the measuring coil 1 pushed on, the field lines run directly in front of the scale of the scale carrier 28.

The measuring coil 1 surrounds the measuring coil 1, as can be seen from FIG. 1

nen measuring coil field emerges at least approximately vertically, that part of the plastic body 30,

to the magnetization direction of the directional magnet 3. the one above the recess in the bottom wall 23

The plate 2 connected to the pointer carrier from the scale carrier 28 is present.

1 sheet of drawings

Claims (10)

Patent claims: 1. Moving iron measuring instrument for measuring direct voltage or direct current, containing a Measuring mechanism with an index carrier containing a soft magnetic material and with a directional magnet, the duTL, _ its location in relation to that The soft magnetic material concerned determines its position and thus that of the character carrier, and a measuring coil carrying the voltage to be measured or the current to be measured, characterized in that the measuring mechanism (10) from the measuring coil (1) in such a way is surrounded that the field lines of the relevant Measuring coil (1) at least approximates the magnetic measuring coil field that is present in each case perpendicular to the direction of magnetization of the directional magnet (3) that the measuring mechanism (10) one having two chambers that are separate from one another and run parallel to one another Contains plastic body (30), in one chamber of which the pointer carrier (2, 13, 16) is pivotable is stored and in the other chamber of which the straightening magnet (3) is clamped, and that the as Measuring mechanism (10) together with the measuring coil (1) receiving it in a corresponding recess Scale carrier (29) is provided. 2. Measuring instrument according to claim 1, characterized in that the magnetically soft material is designed as a thin plate (2). 3. Measuring instrument according to claim 2, characterized in that the directional magnet (3) is a bar magnet is. its central axis running between the F Jen at least approximately in the The plane of the plate (2) '/ which belongs to the pointer carrier (2, 13, 16) runs. 4. Measuring instrument according to one of claims 1 to 3, characterized in that the directional magnet (3) by clamping webs (6, 7) connected to the plastic body (30) in the one receiving it Chamber is clamped. 5. Measuring instrument according to one of claims 1 to 4, characterized in that the plastic body (30) has protruding edges (11, 12) from corresponding recesses of the Scalcnträgers (28) are added. 6. Measuring instrument according to one of claims 1 to 5, characterized in that the pointer carrier (2, 13, 1-5) made of a non-magnetic material, preferably plastic, and bearing pins (13), which are received by bearing elements (14, 15) which are in the walls (9,8) of the chamber of the plastic body provided for receiving the pointer carrier (2.13, 16) (30) are screwed in. 7. Measuring instrument according to claim 6, characterized in that the plastic body (30) is formed on its sides having the bearing elements (14, 15) so that the relevant Bearing elements (34, 15) in the respective sides of the plastic body (30) of can be screwed in from the outside. 8. Measuring instrument according to one of claims 1 to 7, characterized in that the measuring coil (I) has a lower winding height than that Height w.x; Plastic body (30) corresponds to and that the plastic body (30) with its side wall areas not covered by the measuring coil (1) ibt received by a corresponding recess in the scale carrier (28). 9. Measuring instrument according to one of claims 1 to 8, characterized in that with one with the scale carrier (28) contiguous receiving container "(29) for receiving the measuring mechanism (10) and the measuring coil (1) from the scale side in the relevant receptacle (29) at least two separate openings (26. 27) for the implementation of measuring coil connections (17. 18) are included. 10. Measuring instrument according to claim 9, characterized in that the receiving container (29) has such a depth that when the measuring mechanism (10) is pushed into it, the pointer (16) of the pointer carrier (2, 13, 16) is located directly in front of the scale of the ~ scale carrier (28).