DE473981C - Measuring device - Google Patents

Description

Measuring device In some electrical measuring devices, the bending of a tensioned wire through which the electric current flows is used to measure the current. The device is then so made, let the deflection grow with your current. If Z, but as usual as -Nilllag, # 2 is chosen for the wire in the form of an almost straight angle, whose middle point of sagging transfers its movement to a display device, then occur; guring in a current there are linearly greater changes in the deflections than in the case of strong stroni, because the increase in the height of an equilateral triangle decreases proportionally with increasing length of the same legs. The accuracy of the measurement thus falls out with greater current strength than with kl - ii #er> With .I K ',, rowiss # .- n measurements, for example when measuring t' of maximum values, but it is just an advantage to increase the accuracy of the measurement in the range of these maximum values. The accuracy of the measurement in the case of the smaller values is less of the case of in-house.

The inventions achieves this objective by (do not let the heat generated ler another power means o by electric current your Spanndralit is supplied, but the frame body on which the Sparindraht off, is tensioned, o that now di, x as ) Asis of the triangle formed with the tension wire experiences the changes in length. However, as the base grows, the height of a triangle with two legs becomes smaller relatively faster. In the case of a strong current, i.e. all the changes in the deflections of the sag point of the tension wire are linearly larger and thus enable a more precise measurement of precisely these values.

Since the current heat is proportional to the second power of the current, As the basis of the measurement, it is actually more accurate with a higher current. however, the arrangement of the known measuring devices mentioned at the beginning had an effect contrary, while according to the memory, it reinforces it.

In the drawing, the invention is based on a schematic embodiment explained.

a is the heating resistor from c heated rack body for the stretched wire at its ends, b whose Durchhangqpunkt, through a suitable connection to a h influenced by spring pointer i d is applied, the level of which can be on a scale k off # ERead.

To prevent over-tensioning of the tension wire, the tension wire is expediently resiliently connected to the frame body on at least one side, for example by a leaf spring e , in such a way that this spring opposes the tension force of the spring causing the bending of the tension wire i does not come into effect, but only when the tension wire is completely stretched in a straight line due to an excessive change in length of the frame body. Instead of the resilient connection, a spring f can of course also be inserted into the tension wire itself.

The arrangement described above has the particular advantage if it is a matter of not instantaneous values of the heat or the supplied electricity to measure, but average values over a certain period of time. For this In this case, the frame body can easily be equipped with a correspondingly large heat capacity are, while in the aforementioned known measuring devices, the one Use tension wire, equipping the spar wire with one sufficient large heat capacity is difficult to carry out in practice.

On the other hand, you can by heat-insulating protection of the frame body Increase the ability of the device to measure particularly small amounts of heat to be able to.

Claims (2)

PATENT CLAIMS: i. Measuring device which measures the force, power or the like to be measured by heating in a known ratio to it and the change in size of a measuring body produced by it, characterized in that the expansion body is designed in such a way that its length increases on extension of the deflection angle a tension wire bent in a manner known per se by a suitable tensioning force and used for the measurement display acts. 2. Measuring device according to claim i, characterized in that the deflection of the tension wire is chosen so that it is almost taut at the maximum value to be measured. 3. Measuring device according to claim i or 2, characterized in that the frame body is equipped with a large heat capacity. 4. Measuring device according to claim i or 2 or 3, characterized in that the frame body is insulated against heat radiation.