DE806871C - Hot wire ammeter for high frequency - Google Patents

Description

Hot wire ammeter for high frequency For the measurement of high frequency The hot wire ammeter has currents in spite of various shortcomings that affect its general Restrict use, still a certain interpretation.

It has the advantage that the actual measuring element consists of one consists of a single straight wire.

With a clever arrangement of the instrument, this wire can be used in a high-frequency oscillating circuit should always be attached in such a way that a change in the electrical values and especially disruptive capacitive earth connections are avoided will. However, the hot wire must then not, as is the case with the embodiments for low frequency is common, be built on a base plate made of metal. Rather, the device must be built on an insulating body to avoid disruptive losses to avoid. However, such insulating bodies have a significantly different coefficient of thermal expansion than the measuring wire. This results in zero point fluctuations with the outside temperature which can be avoided in the case of devices with a metal base plate, that the expansion coefficient of the base plate corresponds to that of the measuring wire.

It is known in and of itself to have compensation elements for such cases introduce, which cancel these zero point fluctuations, z. B. by bimetal strips or other expansion members that change the span length of the measuring wire. These usual embodiments are not to be used without further ado in the present case, because it must be taken into account that 1) one of the high-frequency measurements every disturbing capacitance or inductance must be kept away.

The present invention provides an embodiment for a hot wire ammeter, which meets all high-frequency technical requirements and at the same time in its design is very easy. According to the invention, the pivot point of the display member is on a wire similar to the measuring wire with the same expansion coefficient is arranged, in such a way that elongations of the two wires as a result of fluctuations in room temperature move the points of application of the wires on the display element in the same direction. Through this it is achieved that the expansion due to a change in room temperature is only slight Cause parallel displacement of the display element, while the L) eung of the Sießdrahtes has an effect as a result of the heat generated by the display element and increases it as a deflection is shown.

An exemplary embodiment is shown schematically in the figure. The two lugs 2, which carry the measuring wire 3, are located on the base plate I l) e. The comparison wire 4 is stretched out between the small corners 5. He serves at the same time as a pivot bearing for the display member 6, which is attached in its center and him twisted. By the spring 8, which is near the pivot point of the indicator member attacks, the comparison wire is drawn to the bracket 9. The spring 10 engages at the lower end of the display member 6, and the train exerted there is transmitted Via the link I I, which consists of an insulating body, onto the measuring wire 3.

If the measuring wire is heated by a current passing through it, it expands he himself, and as a result of the tension of the spring 10, the display member 6 and the mirror 7 moves. The changes in room temperature are transferred in the same way on reference wire and measuring wire and produce the same strains in them, which through the two springs 10 and 8 act in the same direction. So it will be both the The pivot point and the lower end of the display member 6 by the same small amount postponed. However, this parallel shift has no effect on the display; even if this is done not by a mirror but by a pointer, it can Can be kept negligibly small because the changes in room temperature are small are against the heating of the measuring wire by the measuring current and because also the effective deflection due to the heating of the current is much larger than the parallel shift with the same changes in room temperature. Measuring wire and reference wire can can easily be so far apart that they do not interfere with one another takes place. Thermal expansion of the connecting member 1 1 between the measuring wire and Indicators are switched off by the fact that the thermal expansion coefficient this link is matched to that of the base plate. This can e.g. B. easy are thereby ver realized that the connecting member 11 consists of parts of different Thermal expansion is composed. The tension of the springs 8 and 40 becomes appropriate made adjustable.

The above arrangement is particularly favorable, but it is quite possible to arrange the wires differently, e.g. B. so that immediately theirs Longitudinal expansion is used for the display and not, as shown, the lateral one Evade.

Claims (2)

P A T E N T A N S P R Ü C H E: I. Hot wire ammeter for high frequency, characterized in that the pivot point of the display member is on one of the measuring wire similar comparison wire arranged with the same coefficient of thermal expansion and that the two wires are stretched as a result of changes in room temperature Move the points of attack on the display element in the same direction. 2. Hot wire ammeter according to claim I, characterized by the following Construction: The measuring and reference wires (3, 4) are parallel to one another at such a distance attached to an insulating body (1) that a disturbance of the Niessung by mutual Influence does not occur; the axis of rotation of the display element (6) practically falls with the reference wire (4), and the rotation is done by torsion of the Reference wire (4); Measuring wire (3) and comparison wire (4) are each through one Spring (10, 8) in the same direction approximately perpendicular to the central position of the display element (6) cocked; between measuring wire (4) and the movable end of the display element (6) a transmission element (11) is switched on, the thermal expansion of which is efficient corresponds to that of the support body (I).