DE678618C - Electric liquid level indicator with sensor elements arranged one above the other - Google Patents

Description

Electric liquid level indicator with one on top of the other Sensing Elements The invention relates to an electrical liquid level indicator with sensor elements arranged one on top of the other, whose from the surrounding medium (gas or liquid) and thus different heating depending on the liquid level serves to remotely display the liquid level via signal lines.

However, the known arrangements of this type are only useful if between the temperature of the liquid and that of the gaseous medium there is a difference if the temperature of one medium comes from outside being affected. However, as soon as there is no temperature difference between the liquid and the gas is available, there is also no option based on a temperature measurement to determine the respective fluid level.

Furthermore, liquid level remote indicators have become known which the change in electrical resistance of one in the liquid from one Temperature-sensitive resistance wire flowing through heating current for level display exploit. Here, however, is an extremely high constancy of the heating and thus the measurement voltage is necessary, but compliance with it for the heating of the resistance wire the order of magnitude in question involves a fairly considerable technical effort conditional. Also in this case there is only an indication of the resistance change achieve, but not a direct, e contact. The measurement accuracy is thereby affects that when using the heating wire itself as more temperature sensitive Resistance the change in resistance caused by the temperature also affects the The size of the heating current has the same effect, regardless of the required Compensation for external influences such as heat from the liquid or air heat.

In contrast, the invention is based on the idea of a liquid level indicator of the type indicated above, the sensor elements arranged one above the other, the themselves are not traversed by the electric current, to be designed as heat conducting bodies, which are heated at one end by a special (external) heating source, so that through the sensor elements one continuously fed by the heating source mentioned Heat flow to the other equipped with a temperature-sensitive organ End of the heat sink flows. This heat flow is now the z. B. off a contact thermometer existing temperature-sensitive organ actuated differently, and ever after the influence (heat extraction) the heat flow through the surrounding medium (gas or liquid).

The heating of the sensor elements serving as heat conductors can by any heat source. When using an electric heater In contrast to the previously known arrangements, there is no need for any electrical connection with the measuring circuit, so that the sources of error caused thereby also cease to exist come. Due to the large difference in thermal conductivity between a liquid and a gaseous medium usually consists is through the Invention with a low level of technical resources is always a flawless one Elevation display guaranteed. As a heat-sensitive organ, for. B. a temperature sensitive Resistance winding or a contact thermometer can be used. The usage a contact thermometer results in a particularly simple and economical embodiment, since no further expensive measuring devices and relay arrangements are required.

The invention is illustrated by way of example in the drawing.

The sensor elements are arranged one above the other on a dipstick f (Fig. 2).

A single sensor element is shown enlarged in Section 1. A connection piece g made of good heat-insulating material carries a sleeve b, which from a substance with high thermal conductivity. At one end of the sleeve b is an electrical heating resistor a and at the other end a contact thermometer c provided.

With those sensor elements, which in Fig. 2 above the liquid level are, the heat generated in the radiator a is almost undiminished by the sleeve b forwarded and therefore brings the mercury column of the contact thermometer c to Rise. This makes a contact that is in a circuit with a Battery and a flag relay.

For those sensor elements which are located within the liquid are, however, the heat dissipation of the sleeves serving as heat conducting bodies b so strong that the contact thermometer c does not respond. But as soon as the If the liquid level rises or falls, the sensor elements are affected Immediately operate the contact thermometer c in one sense or the other. It understands Incidentally, that one can determine the number of sensor elements and their spatial arrangement can choose according to the respective requirements.

In the embodiment shown in Fig. 3 is a temperature-sensitive Organ uses an electrical resistance thermometer. The tube a contains one electrical heating coil, while in the tube d parallel to the tube a an electrical Temp eraturmeß'vidzenz'vicklung is housed. The pipes a and d are through Blinding parallel heat conductors b, which are designed as plates, rods, etc. can.

PATENT CLAIMS: I. Electric liquid level indicator with Sensor elements arranged one on top of the other, whose from the surrounding medium (gas or Liquid) and thus different heating depending on the liquid level serves to indicate the liquid level via signal lines, characterized in that that the sensor elements, which themselves are not traversed by the electric current, designed as a heat conducting body (b) heated by a special heating source (a) are in such a way that of the one end of the heat conducting body containing the heating source (a) (b) to the other equipped with a temperature-sensitive organ (c or d) At the end of the heat conducting body (b), a thermal current flows constantly, which makes the temperature sensitive Organ (c or d) depending on the influence it is exerted by the surrounding medium (gas or liquid), actuated differently.

Claims (1)

2. Electrical liquid level indicator according to claim I, characterized characterized in that the end of the heat conducting body opposite the heat source (a) ers (b) provided temperature-sensitive organ designed as a contact thermometer (c) is (Fig. 1 and 2). 3. Electrical liquid level indicator according to claim I, characterized characterized in that the heat flow flowing through the heat insulating body (b) appealing temperature-sensitive organ consists of a resistance thermometer (d) (Fig. 3).