DE1652050U - DEVICE FOR DETERMINING THE STRENGTH OR STRENGTH TOLERANCE OF SUBSTANCES THAT ARE MAGNETICALLY INFLUENCED. - Google Patents

Description

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freeze he ^^ rolling mill A $ *> Haupttverysfaltung, Wuppertal-Jsngerfeld

Utility model auxiliary registration

Device aarstarch or starch tolerenafeestiiaaaang voa substances that affect aiagnetiscla are *

'In the BandwelzverXaliren you would have band strengths behind the whale £ - gei? ilstea tibliciier way with SlkroiEeterscliraabea. checked t · meses Terfaiuren can be found with relatively slow running Carry out the scaffolding. It all leads to difficulties when the belts run so fast that the waltz with the micrometer screw no more, come along *

One is therefore ύ asked »to create automatic iieSTOaitVait by ζ. B, -that the tape runs through two halls, which in turn are connected to a dial gauge "However, this 2ieSTorriohtang was not * particularly not * when it came down to determining greater differences of 1/100 aim" Dareh the leeway in the JfeSTorriohtang itself neglect these small tolerances of the metal sheets. Electrical measuring methods have therefore already been introduced, e.g. B. one has used the capacitance of capacitors as a basis for measurement, on the other hand one has also: already used the penetration ability of rays of various kinds. These methods are relatively cumbersome and require additional equipment. Same meets € 2u $ when beta rays are applied and the absorbed state of beta rays is determined

Mesen compared to known methods is the subject of the present Patent application the measurement of more strongly magnetizable Materials, i.e. steel and nickel and its alloys of electromagnets. .

According to the invention, the test to be measured serves well as a Jooh an electromagnet and collects according to its strength more or less lines of force »depending on the number of total 2 lines of force changes the magnetizing current · It becomes i.e. the current strength measured with the help of a simple ammeter and a scale selected based on empirical values, which is directly the bleoiis strength b2W. showing their marks.

Instead of measuring the magnetization current * one can also wind the electromagnet with 2 coils and then receive a transformer. A yoltmeter to the secondary pulelet connected. The sheet metal magnet is made with a special® gate part al «horseshoe or as a Ε-shape, whereby Äei der Ε-shape the middle loop carries the Kagnat spool *.

The electromagnet is operated with a coil adapted to its windings Tension. You can use both direct current and auoh Use Wechseletrom, whoj ^ leich alternating current ireytel ^ aftsJP IeI and only then comes into question »if the electromagnet, as said above» is designed as a transformer and the The voltage of the secondary coil is to be measured. The Wecheel «But it is usually more pleasant to stand alone as equality by the one corresponding to its frequency The magnetization number also increases the accuracy of the run · The Alternating current can be 110 or 220 volts as well. So far it is not possible to keep its tension constant, it is Torteilhaitj, Tension Eager au benataen ".

Sas JrOfgut is at a certain distance without a clock passed it with the electromagnet. The current consumption of the electromagnet is on the one hand dependent on this distance, on the other hand, as already said above, of the Strength of the test good, which results in syperbel functions, in the sense that "the current draw is even more so gets smaller, | e bower passes the test »well past the Eleictroiaagneten · and on the other hand the stronger this is.

Under these circumstances it is particularly advantageous to test the test ■ good drive past the electromagnet so that the side of the test gate facing away from the electromagnet is at a constant distance runs one can then increase the influence of the thickness tolerances, as can be seen without further ado,

Because of the bumpy character of the Stroakurven one chooses to be advantageous Tension and number of turns so that you work at the apex of the hyperbola, so that plus and minus tolerances are proportionate. get moderately equal distance. Using an example, these Relationships are set out in more detail below

As far as the usual way is not interested, ^ the strength aaTJwei-. If it is necessary to determine whether it is necessary, the current intensity is regulated so that one works in the middle of the Hess scale of the instrument and places the ifcol point at this point. We then have the choice of the measuring instrument right or linka the plus or Minustoleransen 231ese measure due course the appropriate Sinregulierung ^ ex current draw of the solenoid. One Hfses practically reach iae in verschiedenster V _8th It is possible to regulate the voltage accordingly, and it is also possible to move the winding on the magnet. Finally, one can also subdivide the distance of the magnet from the test well across the coil of the measuring truffle, so that the same flow of current is given different current strength ranges. It goes without saying that you can also change the solenoid coil yourself.

In the accompanying drawing a Ausführungsbeiepiel for ice Vparriehtung is illustrated for performing the method according to the invention, in Figure 1 as Seheiaa, in Äbb> 2 as Igngs aicht the apparatus and in Figure "5 in e ^ $ arrangement in a

Roll stand. \ ·. - ■ ■ '- -:. .-

Fig «! Shows the E-shaped magnetic core (l), on the middle leg of which the magnet coil (2) sits. This magnetic coil is connected to the Stmmquelie (S) »which in the drawn JaU. The magnetic coil is connected to the measuring instrument (5) via a tapping device (#).

Seen from the outside, the apparatus according to AVc 2 is constructed in such a way that an arm is attached to a stand with the aid of a hinge and the electromagnet sits in the bent leg. This leg, which is usually bent at right angles, carries the electromagnet be 'you can} äiagnetsptäe AZ AEII ^ kang one fehrattfespiÄdel (5) adjusted in H8ne "Like the Stromentnanme thereby" said above beeinflulSt * i "- with the solenoid (2) · ■■ | ^ # £ rüfgut _f z. * B. a tape (15) * is at a distance of about 1 * ^ mm on the magnet »

The test arm (8) is connected to a hinge (7). the top plate (9) hinged to the instrument stand (10) · It is supported by a screw (6) on the one in the aria protruding extended rope of the stand plate (9) from · Through this screw (6) will remove the electromagnet from the Test item set.

On the surface (9) of the stand (10) is also finally nor the tapping device for the excitation windings of the Mjfcßin-. instruments (3) and also this itself housed · The stand (IG) itself can be moved »so that according to the Bandwidth of the test material (15) Measurements at different points to be made.

The arrangement of the test device shown in Fig. 3 on a wholesaling mill is a schematic diagram of a pair of rollers (11) through which the rolled strip (15) running up around Sing (13) on the reel (14) is rolled over a tension roller (12) is also provided, which presses against the underside of the Walzstrgif ens (15). This should, which is of course also displaceable in its height, ensures that the underside of the tape is kept at a constant distance from the magnet, so that, as said above, the tolerances have a twofold effect on the current consumption is represented by the front view of the test arm (θ) and the scale view of the measuring instrument (3). Here, too, you can see how the pointer of the measuring instrument is adjusted to the center of the scale in order to have plus and minus ranges for the solar tolerances.

Of course, it is also possible to mount the measuring instrument at a different location, e.g. B. as a large wall instrument on a wall of the rolling hall or in a measuring office, or also to connect a writing instrument instead of the instrument.

In a practical example, the thickness tolerance of a sheet steel strip was determined, the thickness of which should be 0.45 mm. At the point that had exactly this measure, the current consumption of the instrument at 220 7 AC voltage was 40 iiuAmp. Stärkentoleranazen of 0.01 mm act as AMENDING gen current drain 2 - 3 ma Amp · from · '

If the secondary measurement is used, nothing changes in the above-described device other than that umw electromagnet receives a second coil and the current conduction or connection to the measuring instrument is made accordingly.

As mentioned at the beginning, the device can be used for all magnet! si herable substances and paramagnetic for such Substances »which have a relatively strong influence on the lines of force seigern · When determining the strength, it goes without saying also the composition of the steel or its iron I alloys are to be reported. But since this 2-aaamraensetzung does not change when rolling one and the same tape, so play *) this fact should not be a decisive factor after the initial adjustment of the instrument. .

Sortmand, 25th ^ uIi 1951

Claims (1)

"^ 39235 ^ 8.51 S e it u t ζ a η s | t a? il e 1ϊ e ■ 1 ·) Device for determining the strength or strength tolerance of Fabrics that can be influenced magnetically »under Terwea« - generation of electric current, characterized by an elec- troinagneteÄ and © ine Vorrieniiiing, which the ■ j & t Fabric at almost any distance from the metal sheet naen Ansp ^ taen 1 * gekennzeiclinet dureli an ampere meter, which measures the current consumption of the electromagnet. Duroh apparatus characterized by _f -Ansprach 1 and 3 a llektroma ^ aeten Aiit a £ g $ v * "nd Sekundärepule duroh and a voltmeter to the voltage of the secondary Hessen 4 ») Device according to claim 1 Ms % characterized by a displacement device for the coil on the electromagnet. _%) Device according to claim 1 bis. 4 * gekennaeicluiet by a measuring instrument «At the tapping coil. $ *} Voxriohtung according to claim 1 rock 5 »characterized in that that a prefarm is hinged to a stand »in that ν alfgelaogene for the iriifmagiiet is housed « ? ·) Device according to claim 1 to 6, characterized in that . the distance between the test arm and the call well by means of an adjusting screw is specially regulated .8 *) Vorriöhtung according to claim 1 to 7 * characterized in that that the solenoid is fixed in a screw spindle, the raising or lowering of the coil on the magnetic core enables. 9 ») Device according to claim 1 to 8 * characterized in that the Xjasthabenifaiader TrerschiebÄar is. , 10 »> Torrientung naen Ansprtxcn 1 Ms 9 * characterized in that & a £ the stand is attached to an aizapfseaalter for the subdivision of the instrument coil * 11 *) Torration close to teaprattii 1 feie 18 »- because the measuring gate is arranged as a whale branch and a pressurized one or the reel or the next rolling stand * ■■: .- '' .. '■; 'v ■. "■■: -