DE2429483A1 - Liquid level monitoring device - for conducting liquids corrosive liquids and explosive liquids, has PTC resistor sensor - Google Patents

Abstract

The sensor (1) is enclosed in a shrinkable sleeve which may be made of glass whose ends are sealed against moisture by a plug of epoxy resin or by a hardenable sealing resin; or alternatively the seal forms the end of a probe in which parts of leads (2, 3) not covered by the shrinkable sleeve are embedded. The sensor is a resistor with a large positive temperature coefficient and the leads are covered by the sleeve, which may be shrunk in place by the application of heat and they may be so bent that they run in the same direction; the sealing resin (5) also serves as a head of a probe.

Description

Arrangement for monitoring the level of conductive and / or corrosive and / or explosive liquids and method for their preparation The invention relates to an arrangement for monitoring the level of conductive and / or corrosive and / or explosive liquids with a shrink-tubed PTC thermistor sensor and a method of making this assembly.

PTC thermistor sensors encased with a shrink tube are known.

For example, in the "Siemens-Zeitschrift" 1969, issue 4, on the pages 392 to 394 describe a PTC thermistor with shrink tubing that is used for temperature monitoring and serves to protect electric motors. Furthermore is in the same magazine in issue 9 on pages 793 to 796 a PTC thermistor with shrink tubing describes which one for overtemperature protection for machines at risk of temperature and facilities can be used.

From DT-OS 2 107 365 there is a PTC thermistor combination for demagnetization known from color television sets-n, which from a radiation crosslinked heat-resistant Plastic shrink tubing can be wrapped.

DT-PS 2 013 483 describes a device for measuring and / or monitoring of temperature and level heights known, which consists of two PTC thermistors, the are wrapped in a shrink tube.

In the known devices, the connections for the PTC thermistor sensors partially uninsulated to the outside. The known arrangements are therefore suitable not for use in conductive or corrosive or explosive liquids.

The object of the invention is to provide an arrangement which in such liquids can be used.

This object is achieved according to the invention in the arrangement described at the outset solved in that the ends of the shrink tube a moisture-proof Have closure made of a potting resin.

According to a further development of the invention, the termination consists of one curable potting resin and forms the end of a probe, which is not from a Shrink tubing covered part of the connecting wires of the PTC thermistor inside the probe is located.

With reference to the figure, which represents an embodiment, is the structure of the arrangement according to the invention is explained.

In the figure, a PTC thermistor 1 built into a glass housing is included Connection wires 2, 3 shown. The connecting wires 2, 3 are with a shrink tube 4 encased, the connecting wires 2, 3 with the shrink tubing 4 being bent in such a way that that they point in the same direction. The shrink tube 4 was before bending the connecting wires 2, 3 drawn onto these and the PTC thermistor 1 and shrunk. The ends of the shrink tube 4 and some of the connecting wires 2, 3 are moisture-proof embedded in a potting compound 5, e.g. made of epoxy resin, silicone rubber or Polyurethane is made. The potting compound 5 forms the end of a probe 6, which is immersed in the liquid to be monitored. The connecting wires 2, 3 are guided upwards inside the probe 6.

The arrangement according to the invention is suitable for use in conductive and / or corrosive and / or explosive liquids, as they are not part of the cold conductor or its connecting wires can come into contact with the liquid.

In the arrangement according to the invention, of course also use PTC thermistors without glass cover or with other coverings.

Circuits in which the arrangement according to the invention can be used can, for example, in DT-PS 1 573 085, which has an electronic thermistor compensation circuit concerns overfill protection of liquid tanks, and in DT-PS 1 573 090, a method and a circuit arrangement for securing liquid tanks against backfilling concerns, described.

When using a PTC thermistor with a nominal temperature of 800 C and with a resistance value of 20 ohms at 250 C in the device according to the invention When a voltage of 20 V was applied, a current value of approx. 10 mA in air resulted and from about 20 mA in water. The temperature of the media was about 200 C. The PTC thermistor was built into a glass diode housing.

For other liquids, depending on the heat resistance, there are others, but similar values, with the current flowing through the cold conductor1 in liquid is always greater than the current that flows through it in air. This is due to, that liquids have greater heat dissipation than air. When operating will the PTC thermistor is known to be due to an applied measuring voltage up to the temperature range its steep rise in resistance, with the current-voltage diagram this operating state lies in the area of falling current-voltage characteristics. There in the If more heat can be dissipated, the PTC thermistor is located on a lower temperature, i.e. it has a lower resistance value than in air on. This results in a larger current through the PTC thermistor when it is in Liquid is located.

The PTC thermistors used in the arrangement according to the invention consist of alkaline earth titanates, which are semiconducting through suitable doping are made. Your resistance-temperature characteristic is such that the Resistance above the Curie temperature within a narrow temperature range increases by a few powers of ten.

4 claims, 1 figure.

Claims (4)

P a-t e n t a n s p r ü c h e 1. Order to monitor the level of conductive and / or corrosive and / or explosive liquids with a shrink-tubed cold conductor sensor, d u r c h g e k e n n -z e i c h n e t that the ends of the shrink tubing (4) have a moisture-proof seal made of a potting resin (5). 2. Arrangement according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the termination (5) consists of a curable potting resin. 3, arrangement according to claim 1 or 2, d a d u r c h g e k e n n -z e i c h n e t that the termination (5) forms the end of a probe (6) and that the part of the connection wire (2, 3) not covered by the shrink tube (4) PTC thermistor (1) is located within the probe (6). 4. A method for producing an arrangement according to one of the claims 1 to 3, d u r c h g e k e n n n z e i c h n e t that the connecting wires (2, 3) a PTC thermistor (1) with a shrink tube (4) are wrapped that the Shrink tubing (4) is brought to shrinkage by the action of heat that the Connecting wires (2, 3) with the shrunk-on shrink tube (4) bent in this way that they point in the same direction and that the ends of the shrink tubing (4) be cast moisture-proof with a potting resin (5), the potting resin (5) is used at the same time as the termination of a probe (6), and that the connecting wires (2, 3) of the PTC thermistor sensor (1) inside the probe (6) must be guided upwards. Blank page