DE1228072B - Measuring device for position indication - Google Patents

Description

Measuring device for position indication Addition to patent: 1 188 827 The invention relates to a measuring device for position indication according to the main patent 1188 827.

The main patent describes a measuring device for indicating the position, using a bridge network arrangement. One side of the bridge network points two roughly similarly constructed core assemblies, each of which has an inductive reactance possesses, which is coupled to a corresponding core. The inductive reactances are connected in series. The other side of the bridge network has an AC power source with center tap on.

The two sides of the bridge are connected in parallel with each other. One of the two objects whose relative positions are to be displayed is provided with magnetic material that has at least one surface, which is formed by a large number of approximately similar profiles. Such a one Surface is simple and preferably by very precise and relatively cheap, to achieve cylindrically shaped pins made of magnetic material and which are arranged side by side to form such a surface. The other of the articles has two core assemblies. The one object with the pins is arranged opposite the other object with the core assemblies so that the cores and the pins are relative to each other in the direction of movement of the move both objects. When the pins and the cores are relative to each other move, the effective reactances become the inductive reactances because of the change changed in the profile of the pins that appear on the cores or that they find. An output signal is obtained from the bridge between the center tap of the voltage source and the connection between the two reactances, this output signal is derived changes in size and polarity depending on the misalignment in the bridge network. The bridge mismatch changes with the relative position of the cores and of the pens. The output signal can change in phase or in amplitude and can be used in a control device to generate the required or to effect the desired relative position between the two objects.

For further details, reference is made to the main patent application.

As already mentioned in the main patent, there is a preferred embodiment for the cores in that the cores with an approximately rectangular shape of predetermined, half of the pin diameter of the corresponding width can be used. While such cores and pins have worked properly, was found that changes in pen size or changes in pen position or changes in Composition of the material of the pens (sometimes very undesirable) effects result in the output signal derived from the bridge network. Furthermore, was found that it is difficult even under very precisely controlled conditions the pins next to each other in a precise position and at a precise distance from one another to fix, and that any deviation from an exact distance and the exact Position against each other produces undesirable effects in the output signals.

It is therefore the object of the invention that in the measuring device for position indication to improve the core arrangement used according to the main patent.

According to the invention, this object is achieved on the basis of a measuring device for position indication, the one indicating the relative position of two objects electrical Signal supplies and contains an alternating current bridge, from which two branches are symmetrical Windings are made on the same cores that are physically connected to either of the two Objects are connected while the other object is physically connected to an im magnetic sphere of influence of these cores, e.g. B. in air gaps the same, arranged Material is connected, which has a profiling and in which this profiled material from a plurality of elongated, identical, cylindrical pins made of,, ferromagnetic material with parallel Axes in mutual contact are arranged side by side, with the largest Cross-sectional dimension of the winding core parts facing the pins approximately equal to the radius of the pins, and in which the magnetic cores also have a have a substantially rectangular cross-section, the pins made of mcignetic Material have the same distance from center to center, according to patent 1,188,827, thereby solved that the core of at least two plates of magnetic material and at least a plate made of insulating material that each magnetic plate and each insulating plate has a thickness approximately equal to half the distance from center to '' 'center, and that one device integrates the magnetic plates and the insulating plates into one Stacks holding together.

The plates cause unwanted influences due to various Pen sizes, different distances, different positions and compositions, reduce the inductive reactance on average. Thus the output signal gives the Relative position with bridge adjustment more precisely again.

In the following the invention is based on an embodiment explained in more detail in connection with the drawing: F i g. 1 shows the view of a A core assembly according to the invention, wherein pins are provided; this view shows the ends of the pins; F i g. Figure 2 shows a view of the core assembly and pins according to FIG. 1, with the pins shown from the side, and FIG. 3 shows a schematic circuit diagram of the electrical circuit according to the invention.

In the different figures, the same reference numerals are used for the same elements are used, and the reference numerals provided with a prime refer to separate but similar elements. In Figs. 1 and 2 are pins 10 shown, which consist of magnetic material and in a preferred Embodiment are cylindrical and have a diameter D. The pins 10 are secured by a suitable device (not shown), e.g. B. a bracket or clamp, held so that its cylindrical sides lie close together or touch each other and their longitudinal axes roughly parallel to each other and walk through a predetermined line. The formation of this predetermined line depends on the type of relative movement between the two objects, whose relative position is to be displayed. The pins 10 are on one of the two Objects attached. As described in the main patent, there are two core assemblies 20, 20 'provided and arranged on the other of the two objects so that their mutual distance (nD tD / 2) equal to an odd multiple of the pin radius (D / 2) is. Different distances between the pins 10 can be selected, it has however, it has been shown that a better performance is achieved when a smaller one but an even gap is provided between adjacent pins. With pens of a diameter of 2.55 mm was a gap of 0.55 mm between adjacent Pens used with good results.

This gap is preferred because it is the Connection or attachment the pens among themselves facilitated. If there is a gap between adjacent pins 10 is provided, the center-to-center pin spacing S can be used to determine the Center-to-center spacing of the core assemblies 20, 20 'can be used. As in F i g. 1, this distance is a multiple n of the pin distance S + S / 2. The core assemblies 20, 20 'and the pins 10 are arranged to be the same Maintain position with respect to one another when the objects are moved relative to one another will. Since both core assemblies 20, 20 'are formed the same, only one Core assembly 20 described in detail. The other core assembly 20 "is in cross-section so that the material of which it is made can be seen.

The core assemblies 20, 20 'comprise plates 22 of magnetic material and plates 24 made of insulating material. The individual plates 22 made of magne; tables Material can, as shown, be made of one piece and solid or laminated be (i.e. thinner plates are assembled into individual thicker plates), so that the eddy currents, m losses are reduced. One for the purpose of the invention suitable material consists of an alloy of nickel and iron, as it is below known as mu-metal. A suitable insulating material for this is a plastic or synthetic resin. The plates 22 made of magnetic material and the plates 24 of insulating material are stacked so that they Core assembly 20 result, the alternating plates of magnetic and insulating Having material. Preferably, the plates 22 of magnetic material and the plates 24 of insulating material each have such a thickness measured in the direction the relative movement - which is approximately equal to half of the pin distance S from the center to center is in the same direction. If no gap between adjacent pins 10 is provided, the pin spacing S from center to center is equal to the pin diameter D, and thus the plate thickness becomes D / 2. In certain cases but it is also advantageous to use other board thicknesses. The core arrangements 20, 20 'are, as shown in Figure 2, described in a C-shaped configuration. The pins 10 run between the ends of the core assemblies 2ü, 20 'and places thereby changing values or arrangements of the material for these ends. Others Core shapes and arrangements as explained in the main patent application, can also be used. Each of the core assemblies 20, 20 'is associated with a inductive reactance or a coil 30 wound. As shown in Fig.2, the coil 30 is spatially divided into two sections so that the core assemblies 20.20 'better to be carried on a precise bracket. The two coils 30 can, however, also be designed spatially as a single coil, if this is the case is desirable.

The coils 30, 30 'of the two core assemblies 20, 20' are shown in FIG in Fig. 3 connected to the bridge network arrangement. The bridge network is with alternating current of certain frequency, z. B. 400Hz fed. The alternating current feed the primary winding 34 of a transformer 32 is given, the secondary winding 36 has a center tap 38. The ends of the secondary winding 36 are corresponding connected to one end of the two coils 30, 30 '. The others end up of the two coils 30, 30 ′ are connected to a balancing resistor 40. From one movable tap 42 on the balancing resistor 40 and from the center tap 38 of the transformer 32 are output signals. These output signals change due to a mismatch of the bridge network, which is shown in FIG. 3 due to the changes in inductive reactances in both coils 30, 30 '. These changes in reactance result from the change in the arrangement of the pins 10 between the core assemblies 20, 20 '.

A difficulty with the core assemblies with only a single one Magnetic material plate results from the changes in pen size, the pen position, the pen distance and the pen composition. These changes affect the output signal so that it does not have the relative position in the exact Measure as it would be desired.

These changes are eliminated according to the invention in that a plurality of plates 22 of magnetic material is provided through Plates 24 of insulating material are separated.

While the exact theory for the improvement according to the invention is not easy to explain, the improvement can be explained by the fact that a plurality of plates 22 of magnetic material averaging Has an effect on the total reactive resistance of the associated coil. If so a given pin changes one of the plates 20 of magnetic material in In a certain way, there is another pin, which has a different plate 22 influenced by magnetic material in the opposite direction and thereby a mean effect gives a more balanced and more consistent outcome generated against the change. It was found that the use of a A plurality of plates 22 of magnetic material, supported by plates 24 of insulating material are separated, a signal is generated that is more accurate with respect to the relative position and that is less sensitive to external changes than a signal that is produced from a core assembly with a single plate, as in the main patent is described.

As stated in the main patent, it is possible in the case of the FIG. 1 to achieve an output signal that changes as a sine wave. In some cases, this output signal may be harmonics of the AC supply frequency exhibit. It was also found that if the thickness of the plates of the insulating material to z. B. 15% less than the thickness of the magnetic material plates is, the flux coupling in the individual plates contributes to the content of Harmonics of the output signal is much lower.

From the above description it can be seen that a core assembly according to the invention an improved mode of operation compared to a core arrangement, as described in the main patent results; almost any number can be used of plates made of magnetic material alternating with plates made of insulating material are provided. This means that only two plates made of magnetic material, which are separated by a plate of insulating material can be used or else z. B. ten plates of magnetic material in conjunction with nine plates Insulating material, which is a stack of alternately arranged magnetic and represent insulating panels.

Claims (1)

Claim: Measuring device for position indication, which is the relative position supplies an electrical signal indicating two objects and an alternating current bridge contains, two branches of which consist of symmetrical windings on the same cores, that are physically connected to one of the two objects during the other object physically with one in the magnetic sphere of influence of these nuclei, z. B. is connected in air gaps of the same, arranged material that has a profiling and in which this profiled material consists of a plurality of one another same, elongated, cylindrical pins made of ferromagnetic material consists, which are arranged side by side with parallel axes in mutual contact are, the largest cross-sectional dimension of the winding core parts facing the pins is approximately equal to the radius of the pins, and furthermore the magnetic cores have a substantially rectangular cross-section, the pins made of magnetic Material have the same distance from center to center, according to patent 1,188,827 d a -characterized in that the core consists of at least two plates (22) of magnetic Material and at least one plate (24) made of insulating material that each magnetic plate and each insulating plate has a thickness approximately equal to that Half the distance from center to center, and that a device is the magnetic Plates and the insulating plates together in a stack. Documents considered: German Patent No. 933 173; German Auslegeschrift No. 1 023 945; Precision engineering (1958), 62nd year, H. 7, pp. 227 to 232.