DE3330164A1 - Arrangement for measurement on a permanent magnet - Google Patents

Abstract

Arrangement for measurement on a permanent magnet with the aid of a magnet yoke and two variable poles at a distance from each other, between which the permanent magnet and a Hall probe are located. At least one coil is assigned to the permanent magnet and one to the Hall probe. This arrangement is intended to make routine measurements on permanent magnets and their evaluation easier to carry out and more accurate than hitherto. It is intended to make it possible to obtain with high accuracy the maximum energy product of field strength and induction directly and without any interpolation. For this purpose, a multiplying element, a minimum discriminator and a gate are arranged between the fluxmeter and the Hall probe on the one hand and the indicating and/or registering means on the other hand. The multiplying element has two inputs and one output, of which one input is connected to the fluxmeter, the second input is connected to the Hall probe and the output is connected to the gate via a branch containing at least the maximum discriminator and via a branch containing an A/D convertor. If the arrangement with field coil is used, it may be provided in duplicate, for each pole. <IMAGE>

Description

Arrangement for measurement on a permanent magnet

The invention relates to an arrangement for measuring a permanent magnet and for digital acquisition of the measured values, in which between two poles of a 3XAgnetåochs the permanent magnet and a Hall probe with variable distance between the poles are arranged and at least two coils are provided, of which at least a coil assigned to the permanent magnet and via a flux meter and digitizer is connected to a display and / or registration means. The measured sizes are the induction B, the field strength H and quantities composed of both, in particular the maximum energy product (B-X) max. The invention is used for testing of permanent magnets and can be realized with surrounding coil or pole coil.

When testing permanent magnets, one generally starts from the Demagnetization curve and determined graphically and partly by interpolation the desired parameters in a written diagram, such as the remanence induction Br, the maximum energy product (B * H) max and the coercive field strengths of induction and magnetization Bc and IHC- The permanent magnet (test item) is between the poles a magnet yoke introduced and by means of a surrounding the test specimen Coil (surrounding coil) or a coil located in a pole shoe (pole coil) and the Fluxmeters connected to it the induction and the Hall probe the field strength measured.

There is a magnetic field between the poles of the IvXgnetJoch such strength that the lines of force are not influenced by the permanent magnet. The result of the measurement is prepared accordingly by a recorder on a The magnetic curve was written on the measuring sheet; the measured values can be taken from the diagram read or taken after interpolation. Has the known measuring arrangement a pole coil, the test object must be measured twice and turned over between measurements will. However, the well-known method of graphically capturing the parameters is very time-consuming and associated with a high proportion of manual work. That's why one has in another measuring method for magnetic materials through digitization individual measured values created the possibility of automatic display of the measured values. With this measuring method, however, those are about the usefulness of the permanent magnet expressive maximum> 9 energy product (B.H) max and the coercive field strength of the Magnetization 1Hc cannot be determined.

The invention is intended to eliminate the deficiencies and a Arrangement for measurement on a permanent magnet are created, which ensures an accurate, enables comprehensive and inexpensive determination of parameters of the permanent magnet.

The invention is therefore based on the object of the arrangement for Measurement on a permanent magnet, in particular through a suitable design of the To design digitizing device so that the measured values obtained not only digital and easy to process, but also comprehensive. Simultaneously This is intended to increase the accuracy of the measurement and evaluation.

This object is achieved according to the invention in that between the luxmeter and the Hall probe on the one hand and the display and / or recording device on the other hand a multiplier, a maximum discriminator and a gate are arranged are that the multiplier has two inputs and one output, of which one input with the plus meter, the second input with the Hall probe and the output via a branch containing at least the maximum discriminator and via a an A / D converter containing branch is connected to the port. This makes it possible the maximum energy product (BH) maX digital with high accuracy, without subjective To determine estimation and interpolation errors at the time of measurement. aside from that the way is via the graphic representation of the maximum energy product from induction B and field strength H avoided as quality marks of the permanent magnet and thus the The time taken to determine the maximum energy product is significantly reduced.

If the arrangement with the pole coil is used, they are advantageous There are two coils on each of the two poles and each pole is a flux meter and a digitizing device assigned. The two digitizing devices are via an averager connected to the display and / or registration means. The generally a numeric display and a printer used as a recording means. The advantageous development of the invention makes it possible to use the measured values to be determined automatically and only to display the mean value. So that will the influence of the always existing drift of the arrangement is reduced and the accuracy the measured values increased further. The invention is of particular importance for routine measurements under production conditions under which large numbers of items are to be examined Permanent magnets the use of pens very time-consuming and with a high level of wear and tear connected is. The arrangement of two coils on each pole bypasses the interruption the measurement to flip over the test item and enables it to be carried out at the same time both measurements.

The invention is described below with reference to the schematic drawing explained in more detail. Show it: 1 shows a diagram with a demagnetization curve and FIG. 2 shows a block diagram of the arrangement according to the invention with an automatic Averaging of the measured values.

In Fig. 1 is an axis cross with the abscissa X (Oersted), field strength, and the ordinate B (Gaussian), induction, in which a demagnetization curve k as Part of an otherwise not shown hysteresis loop is entered.

The main points of the demagnetization curve k are its point of intersection Br with the B-axis, the remanent induction, where the field strength is H = 0, and its point of intersection BEc with the H-axis, the coercive field strength at which the induction B = 0. Two more important points on the demagnetization curve k for the magnetic Properties of a permanent magnet are the working point, (B-X) max, in which the product from B and H reaches its maximum value, and the coercive force IHC, the has the same distance from both axes H, P. These parameters can be changed with the can be determined in the arrangement shown in FIG.

In FIG. 2, one is only partially located between two pole pieces i; 2 magnetic yoke 3 shown, a permanent magnet 4 as the test object and a Hall probe 5. The pole piece 2 is essentially right to the pole piece in the plane of the drawing 1 movable in the direction indicated by a double arrow 10, so that the The permanent magnet 4 can be inserted between the pole shoes 1; 2 and is intimate with them Can be brought into contact, the Hall probe 5 is around one in the plane of the drawing lying, essentially parallel to the direction of movement of the pole piece 2 axis pivotable so that it can be pivoted between the pole shoes 1; 2. The pole piece 1, two pole coils 6; 7 and two pole coils 8; 9 are assigned to the pole shoe 2 in such a way that the pole coils 6; 8 on both sides of the permanent magnet 4 and the pole coils 7; 9 æum at least lie approximately on both sides of the Hall probe 5.

With the pole coils 6 and 7 is a flux meter 11 and with the pole coils 8 and 9 are connected to a flux meter 12. The Pluxmeter 11 is about a branching Analog signal line 13 with one input of a multiplier 14, a comparator 15 and a comparator 16 connected. A branched analog signal line also connects 17 the flux meter 12 with an input of a multiplier 18, a comparator 19 and a comparator 20. A digital signal line 21 or 22 leads from Pluxmeter 11 or 12 to a gate 23 or 24. A branching one leads from the Hall probe 5 Analog signal line 25 to the other input of the multiplier 14 or 18, respectively an A / D converter 26, to a comparator 27 or 28 and to the comparator 16 or 20. The multiplier 14 or 18 is with its output on the one hand with a designed as a maximum discriminator comparator 29 or 30 and an A / D converter 31 and 32 connected, which in turn emit signals to a gate 33 and 34, respectively.

There is an electrical connection between the comparator 27 and 28 and the gate 23 or 24. Another gate 35 or

36 has an input via the comparator 15 or 19 with the Fluæmeter 11 or 12 and with the other input via the A / D converter 26 with the Hall probe 5 connected. Finally, connections lead from A / D converter 26 and from the comparator 16 or 20 to a gate 37 or 38, which like the gates 33 or 34, 23 or 24 and 35 or 36 via a Mittelvertbildner 39 with a display means 40 and / or a registration means 41 is connected.

If in the magnet yoke 3 between the pole pieces 1 and 2 a magnetic Field induced at least up to saturation and then changed in such a way that the in Fig. 1 named four essential points of the demagnetization curve k measured the mode of operation of the arrangement according to FIG. 2 results as follows: The digital output voltage of the flux meter 11 or 12 reaches the gate 23 or. 24, which is controlled by the comparator 27 or 28, which its control voltage from the Hall probe 5 receives.

If the magnetic field strength becomes zero, the comparator initiates it 27 or 28 an opening of the gate 23 or 24, so that the Fluæmeter 11 b. 12 signal delivered to gate 23 or 24, which represents the remanent induction Br, the gate 23 or 24 can pass and arrives at the mean value calculator 39. In the mean value calculator 39, the mean value is formed from the signals from the gates 23 and 24, which is sent to the Display 40 and / or printer 41 is forwarded and displayed there.

The analog output voltages of the flux meter 11 or 12 and the Hall probe 5 are in the multiplier 14 or 18, as a four-square multiplier can be designed, multiplied with one another. In the A / D converter 31 or 32 is the product obtained in this way is digitized and fed to gate 33 or 34. Simultaneously the analog product in the maximum discriminator 29 or 30 is set to the greatest extreme value, the maximum, examined. If the maximum is reached, the gate becomes 33 or 34 opened and the maximum product (W-H) max in digitized form to the mean value calculator 39 given. The Esxima leaving gates 33 and 34 will also be the mean value and from the averaging device 39 to the display 40 and / or the printer 41 forwarded.

The output from the Hall probe 5, digitized by the A converter 26 The gate 35 or 36, which is controlled by the comparator 15 or 19, receives the output voltage will. The analog control voltage required for this, which induces the test object 4, the comparator receives 15 or 19 from the flux meter 11 or 12. If the induction in the test item 4 to zero for the first time, the comparator 15 or 19 opens the gate 35 or 36 and the Hall probe output voltage representing the value BHc becomes digital Porm given to the klittelwertbildner 39, the one from the gates 35 and 36 passing Signals the average value that is shown on the display 40 and / or in the printer 41 is made visible.

The output from the Hall probe 5 and the flux meter 11 and 12, respectively analog signals reach the comparator 16 resp.

20, which compares these signals for equivalence or non-equivalence. Are if both signals are equivalent to one another, the gate is established by the comparator 16 and 20, respectively 37 or 38 open, and the digitized output voltage of the Hall probe 5 arrives to the mean value generator 39. This forms from the gates 37 and 38 leaving Signals the mean value that is fed to the display 40 and / or the printer 41.

The measurement results are preferably displayed in the form of Digits, Printing out the measurement results can be saved as numbers by stamping a Perforated tape. Of course, it is also possible to use the measurement results the substantially symmetrical arrangement for each side separately and to display and register without averaging.

To the analog outputs of the Hall probe 5 and the Pluxmeter 11 and 12 recorders can also be connected, for which purpose switches would have to be provided. The digitalization of the i'luxmeter signals can also be done outside of the fluxmeter separate EJD andler. Finally, the maximum discriminator can 29 contain two counters and are controlled directly by the digitized product BH. Before one counter is loaded with the digital value of a further sample, the other counter must take the digital value of the previous sample from the first Have taken over the counter. The complements of the two counters are compared with one another and therefrom the tendency of the scanning results BE determined. A trend reversal occurs on, then (B-H) max is reached and is displayed and / or printed out. It will an increase in the measurement accuracy is achieved when using intermediate storage the arithmetic mean is formed from both counter contents.

Claims (2)

Claims 1. Arrangement for measuring on a 3) auermagnet and for digital acquisition of the measured values, with the 3wiscnes two poles of a magnetic yoke With a variable distance between the poles, the permanent magnet and a Hall probe are arranged and at least two coils are provided, of which at least a coil assigned to the permanent meter and via a plus meter and a digitizing device is connected to a display and / or registration means, characterized in that that between the flux meter and the Hall probe on the one hand and the display and / or Registration means, on the other hand, a multiplier and a maximum discriminator a gate are arranged because the multiplier has two inputs and one output of which one input rrit the flux meter, one input with the Hall probe and the output via a branch containing at least the maximum discriminator and is connected to the Q Tor via a branch containing A / D converter. 2. Arrangement according to claim 1, characterized in that on there are two coils for each of the two poles and a fluxmeter and one for each pole Digitizing device are assigned and that both digitizing devices Connected to the display and / or recording means via an averaging device are.