DE1106861B - Moving coil instrument, preferably with a deflection angle greater than 180í - Google Patents

Description

Moving coil instrument, preferably with a larger deflection angle than 180 ° The present invention relates to electrical moving coil instruments.te and in particular to electrical moving coil measuring instruments in which only one side of the coil is arranged for rotation in an air gap of a magnetic structure.

Such instruments are partly under the name hook pole instruments known. But there are also instruments known in which an inner and an outer pole piece are arranged concentrically and where. the moving coil with one side in that between the two pole pieces. resulting air gap movable is, while the other side of the moving coil is attached to a rotation axis that passes through an opening in the inner pole piece. Among the aforementioned instruments those are already known whose magnetic field is defined by a ring segment-shaped Magnet is formed, the concentric between the inner pole piece and the outer one Inference ring is arranged. This known instrument had inner pole pieces and outer return ring made from one piece. The rin, -section-shaped But magnet had a pole ring made of soft iron on the side of the air gap, so that the iron parts essential for the magnetic flux consisted of three pieces.

The present invention is intended to make it possible, besides the ring segment-shaped magnet with only one essential for the magnetic flux Component get along. This makes a measuring instrument much cheaper to manufacture be, especially since the iron body required in addition to the magnet from individual, however similar sheet metal cuts are to be built.

Accordingly, the invention is based on a moving-coil instrument, preferably with a deflection angle greater than 180 °, concentrically arranged magnetic poles and between these an annular section-shaped permanent magnet, its rotating coil only plays with one side in the working air gap, while the other side plays with it the axis of rotation rotates in a concentric opening in the inner pole, and with a lockable slot. The moving coil can be installed in the inner pole. Its distinguishing feature is that the inner pole and an outer iron path for the return of the magnetic flux from a package of several geometrically one below the other the same and contiguous sheet metal sections is constructed and that a boundary surface of the working air gap directly from the curved inner surface of the annular segment-shaped Per-; nanentmagneten is formed.

There are also moving coil measuring instruments known as so-called Unipolar instruments are called. Underneath it already has an embodiment given that for a concentric core system for two moving coils with a sheet metal cut came out. Overall, however, such unipolar instruments are more complex than the subject of the invention, because in addition to the magnet and the concentric core system, they are also axially positioned Need pole pieces.

Moving coil instruments have one moving coil side on the axis of rotation is attached, the installation of the moving coil in the pole system is only possible through a through-calculation of the inner pole ring possible. It is already known that this breakthrough can be made afterwards to close magnetically by a bolt, so that the magnetic lines of force are not or only slightly disturbed by the mounting slot. Even with the moving coil system according to the invention, such a mounting slot is provided. He can about his entire axial extension consist of a circular hole, which is subsequently closed with the help of a circular cylindrical bolt that is machined to fit tightly can be. The shape of the slot as a circular bore allows one particularly easy and precise machining, so that there are two the bolt and There is only a slight air gap in the wall of the bore and the magnetic lines of force are little disturbed by it.

In a preferred embodiment of the invention, an inner Magnetic pole piece be surrounded by a C-shaped permanent magnet, the inner Part and the magnet are assigned to one another so that an air gap between them is formed. The: Magnet can be made of an external magnetic part that is connected to the inner magnet part is firmly connected, surrounded and also firmly connected to this be. This creates two concentric pole pieces, the outer one from the magnet itself while the interior may be made of soft iron. The inner pole piece can carry a slot running from the outer periphery of the pole piece to a central opening of the inner pole piece and the installation or removal of a Moving coil permitted. It is advantageous to have the inner pole piece lamellar Build up iron sheets.

As already mentioned above, the idea of the invention provides for the side walls of the slot to be curved. They form a cylindrical passage in the inner pole piece that is transverse to the slot. A cylindrical magnetic plug can be press fit into this passage so that the slot can be used Realization of an undisturbed magnetic flux is well sealed. Of the The pin or stopper may preferably be made of a magnetic material of high magnetic strength Permeability, e.g. B. soft iron, be made.

Fig. 1 is a top plan view of an electrical instrument including the Features of the invention; Fig. 2 is a view taken along the line II-II in Fig. 1, Fig. 3 is a perspective view of the disassembled magnetic part and the associated magnetic plug of the instrument shown in FIGS. 1 and 2.

In Fig. 1 is an electrical instrument from the rotary console with the Features of the present invention shown and designated by number 1. As can be seen therein, the instrument 1 has a magnetomotive force source with a permanent magnet 3 made of any suitable and permanently magnetic material. The magnet 3 is preferably substantially C-shaped and has an opening 5 which is limited by the inner periphery 7 of the magnet. To the magnet 3 belong also the outer periphery 9 and an open side 11. The magnet 3 becomes like this magnetized so that the magnetic flux flows through the magnet radially to the magnet axis.

To create a path for the magnetic flux emanating from the magnet 3, a suitable magnetic structure is provided. An inner one belongs to this structure Magnet part or a pole piece 13 made of a suitable magnetic material, such as Soft iron. The part 13 is annular, has a central opening 15 and an outer one Periphery 17. As shown in Figure 1, portion 13 is located within the opening 5 of the magnet 3 and is thus surrounded by the magnet 3. Between the outer periphery 17 of the part 13 and the inner periphery 7 of the magnet 3 is a certain one Distance that forms an air gap 19 which is arcuate around the axis of the magnet 3 runs.

The magnet structure also includes an outer ring-shaped one Part or a pole piece 21, which can also consist of soft iron. Part 21 has a central opening 23 delimited by the inner periphery 25 of the part 21 will. The magnet 3 is located within the opening 23 of the part 21, and the outer periphery 9 of the magnet is aligned with the inner periphery 25 of part 21 in engagement.

The parts 13 and 21 are preferably magnetically connected therewith the flow of the magnet 3 is opposed to a low resistance. To this end the parts 13 and 21 are firmly connected to each other in a convenient manner, so that a Magnetic circuit is formed from one piece. As shown in Fig. 1, runs a neck-shaped connector 29 from the inner periphery 25 of part 21 to the outer periphery 17 of the part 13 and connects the parts 13 and 21.

The one-piece magnetic circuit with parts 13, 21 and 29 are preferably formed from a number of identical magnetic sheets 30. Each of these sheets has the shape shown in FIG.

The instrument 1 also includes a moving coil 31 of essentially rectangular shape as shown in FIG. The coil 31 consists of an inner one Coil side 33 and an outer coil side 35, which are a pair at a distance from each other Form located parallel axes. It can be seen that the inner coil side 33 is arranged so that it passes through the opening 15 of the part 13 while the outer coil side 35 is located in the air gap 19.

To mount the spool 31 for rotating so that the spool side 35 is carried by the air gap 19, coil 31 is attached to a shaft 37. As can be seen most clearly in Figure 2, the shaft 37 passes through the opening 15 of the part 13 concentric with the axis of the opening 15, and it is attached to their Ends supported by a pair of spaced apart bearings 39 and 41. When the coil 31 is energized, the coil side 35 moves through the air gap 19 about the axis of the shaft 37 with respect to the magnet 3 and to the inner and outer parts 13 and 21.

In order to display an electrical quantity which excites the coil 31, To enable a suitable pointer 43 on the shaft 37 for movement with the Coil 31 attached. The pointer 43 moves on a correspondingly calibrated scale 45 and shows the value of the exciting quantity. By the arrangement described an instrument is created that has a substantially circular scale and has a pointer 43 which deflects in a range of 270 °. A suitable control spring 48 is provided, which counteracts the movement of the pointer 43 in a known manner.

In order to enable the installation and removal of the coil 31 with respect to the inner part 13 , a corresponding slot 47 is made in part 13, which runs from the outer periphery 17 to the opening 15. The slot can be at any angle around the axis of the shaft 37. Preferably, however, the slot is formed in part 13 on the open side 11 of the magnet 3 next to the connecting neck 29. The slot is dimensioned so that it allows the inner coil side 33 of the coil with respect to the opening 15 of the part 13 to pass through.

According to the invention, the slot 47 includes a pair of side walls 49 and 51 into which the arcuate recesses 53 and 55 are cut or otherwise attached. This is best seen in FIG. The recesses 53 and 55 are preferably shaped in such a way that they form a passage 57 of cylindrical shape, the axis of which runs transversely to the direction in which the slot 47 extends.

Passage 57 and slot 47 can be conveniently made by a single punching process be formed with material removed from each layer to make slot and Form passage of correct shape.

In order to close the magnetic circuit created by part 13 after the coil 31 has been installed through slot 47, the invention provides a magnetic plug 59 which is dimensioned so that it completely fills the passage 57. The plug 59 is preferably made of a material with high magnetic permeability, e.g. B. soft iron, manufactured.

The present invention provides that the plug 59 has the shape of a The cylinder has the radius of which is essentially equal to the radius of the cylindrical Passage 57 is. As a result, a press fit of the plug 59 is achieved, whereby the installation and removal of the plug 59 with respect to the passage 57 is possible. This arrangement also provides a powerful magnetic circuit, since the plug 59 substantially clears the passage 57 with an extremely small amount of clearance between the plug and the walls of the recesses 53 and 55 fills. The axial dimension of the plug 59 is chosen so that it is substantially equal to the thickness of the pile rope 13 is. Because passage 57 and plug 59 are cylindrical in shape, can the dimensions of the plug and the passage are worked extremely precisely.

Although the invention has been described with reference to particular applications numerous modifications are possible and are intended through this description all modifications are included which are within the meaning and scope of this invention.

Claims (2)

PATENT CLAIMS: 1. Moving coil instrument, preferably with a larger one Angle of deflection as 180 °, concentrically arranged magnetic poles and between them lying ring section-shaped permanent magnet, whose moving coil only with one Side plays in the working air gap, while the other side deals with the axis of rotation rotates in a concentric opening of the inner pole and in which a lockable Slot in the inner pole allows the assembly of the moving coil, characterized by that the inner pole and an outer iron path to return the magnetic flux out a package of several geometrically identical and contiguous sheet metal cuts is built up and that a boundary surface of the working air gap directly formed by the curved inner surface of the ring section: itt-shaped permanent magnet will. 2. Moving coil instrument according to claim 1, characterized in that the mounting slot for the moving coil is formed in its entire axial extent by a circular bore. Considered publications: German Patent Nos. 717 582, 928 661, 954 348; German Auslegeschrift No. 1003 267; U.S. Patent No. 2,430,317; British Patent No. 627,327; Swiss patent specification No. 74 240.