DE3232404C2 - Ceramic PTC thermistor with metal coverings and power supply lines connected to it by means of a clamp contact - Google Patents

Abstract

The ceramic PTC resistor (PTC resistor 1) is provided on opposite surfaces with metal coatings (2, 3) as electrodes, to which power leads are connected, each consisting of electrically conductive spring elements (4, 5) and exerting pressure on the metal coatings (2 , 3) of the PTC thermistor (1) rest (clamping contact), the contact points (6, 7) of the spring elements (4, 5) with the metal coverings (2, 3) in addition to the clamping contact each with a support (8, 9) made of conductive adhesive are wrapped.

Description

The invention relates to a ceramic PTC resistor in disk, tube or rod form, which is provided with metal coatings as electrodes on opposite surfaces, to which siroin feeds are connected, each consisting of electrically conductive Fcderclementen and exerting pressure on the Metal coatings of the PTC thermistor rest on and thus form a clamping contact.

The term "ceramic PTC thermistor" or also "PTC resistance" is used here for a temperature-dependent Resistance (thermistor) is used, which is a semiconducting resistor. the one with the change of his Body temperature experiences a significant change in its electrical resistance. Such tempcra-uir-addicts Resistances are in the German standard DIN 44 080 of December 1976 "PTC thermistors" with regard to which defines terms and properties. As a rule, such a ceramic PTC thermistor consists of a ceramic-made polycrystalline body on the basis of doped by non-lattice substances Material with a perovskite structure, mainly barium titanate. which has semiconducting properties. Such ceramic PTC thermistors are in the patent literature and in adequately described in the specialist literature.

Electrical resistors or ceramic PTC thermistors with the above mentioned Mcrkamlen are for example described in the following publications:

DE-AS 10 36 985, DE-OS 27 35 696, DE-PS 21 07 365. DE-AS 27 05 438. US-PS 37 50 082. EP-A1 00 28 423. Also in the German patent application according to DE OS 32 32 US, which has the same priority as the present patent application. a ceramic PTC thermistor is described as part of a level sensor for liquid wedges, which has the characteristics specified.

Since the ceramic Kaltleiteni known from the cited publications are large Grain acts (diameter at least H) mm. thickness at least 2 mm) and additionally between the terminal contacts two PTC thermistors are arranged, there are used as spring elements that are relatively powerful and are stable. In addition, the known ceramic PTC thermistors in a housing are housed, by which it is ensured that a direct contact with the PTC thermistor, through which the clamping contact could be released, does not occur.

ίο The situation is different if the ceramic PTC thermistor must come into direct contact with a medium. as is particularly the case with level measurement the case is. But also in other contexts, for example when using such a ceramic PTC thermistors should monitor the temperature of another body, an immediate occurs Touching the PTC thermistor body.

In DE-PS 24 29 438 there is an arrangement for monitoring the level of conductive and / or corrosive and / or explosive liquids with one with shrink tubing encased PTC thermistor, in which the ends of the shrink tube have a moisture-proof Have closure made of a potting resin. Is a relative in this known arrangement

>> If a large PTC thermistor is used, the thermal conductivity plays a role of the material that the heat shrink tubing is made of doesn't really matter, and it does does not count on short response times.

In DE-OS 20 49 834 is a liquid level sensor described (there referred to as universal limit value transmitter), which also has a shrink-tubing encased PTC thermistor is used.

In the case of these known ceramic shrink tubing Cold leads are the power supply lines in Form of wires directly connected to the metal coverings of the ceramic Kaltlciterkörpers, for example by soldering.

In DE-PS 16 65 582 is a ceramic PTC thermistor for liquid level sensor, which has the lowest possible response delay, mechanical insensitive to and against alkaline liquids, is chemically resistant because the ceramic PTC thermistor, his electrodes and power supply lines first with a thin, for example by dip painting

4 ^r ) are coated with an insulating, highly heat-resistant and flexible plastic layer on which a tightly adhering, dense metal coating is applied by electroless metal deposition.

However, when it comes down to using particularly small ceramic PTC thermistor bodies (diameter at most 5 mm, thickness at most 1.5 mm), the advantage of which is that due to their low heat capacity result in very short response times, the difficulty arises that on these very small bodies can be poorly soldered because the heat stress during the soldering process is considerable.

The mere use of spring elements made of electrically conductive metal with good spring properties brings significant improvements here, however

w) such leather elements have a very small cross-section and are therefore due to the heating during the switching cycles of the ceramic cold conductor to a greater extent subordinate it to vitification. This is shown by the fact that with more than 500 (1 to w) 00 switching cycles tine paralysis

ι-ι occurs, through which a perfect conact between the FeilerelemeiiK'ii and the metal coverings aiii clem Potash body nu-h; more is guaranteed.

The task at hand is up to the present l.rtiniliiitg

reasons to use a ceramic PTC thermistor of the type specified at the beginning Kind to improve so that with small dimensions of the PTC thermistor body even with very high Shift cycles (10,000 to 12,000) still ensure perfect mechanical and electrical contact is guaranteed

To solve this problem, the ceramic PTC thermistor of the type specified at the outset is according to the invention characterized in that the points of contact of the spring elements with the metal coverings in addition to Terminal contacts are each encased with a layer of conductive adhesive, which has thermoplastic properties and has a softening temperature which is in the range of the temperature of the steep rise in the resistance value of the ceramic PTC thermistor.

This ensures that the conductive adhesive layer softens with every switching process and the spring pressure the spring elements can be effective without these spring elements being detached from the metal coverings of the ceramic PTC thermistor can lift off.

The PTC thermistor can be used together with the spring elements used for power supply and the contact points enveloping pads provided with a coating produced by dew varnishing be, as it is described for example in the above-mentioned DE-PS 16 65 582 A by metal deposition applied metal coating may be present, but is usually not required.

The use of a PTC thermistor according to the present invention in a liquid level sensor is particularly advantageous.

Such a liquid level sensor is described in DE-OS 20 49 438 with regard to some features and, with regard to a special embodiment, the subject matter of the same priority as the present application Patent application P 32 32 333.6-52.

DE-PS 9 75 725 describes the electrical capacitors, which have a flat electrical on the contain a side provided with an occupancy body, with their occupancy with a metallic device part can be connected in that the unoccupied area of the dielectric body by means of a they are attached to the metallic part of the device with conductive adhesive covering them.

Conductive adhesive layers, for example in the form of paints or putties are known per se and have the property that they can also be exposed to air when cold become hard by themselves without increasing the temperature (see e.g. book "Introduction to Microwave Electronics" by A. Lewicki, R. Oldenbourg-Verlag, Munich-Vienna, 1966, page 193). These conductive adhesives are made made of a plastic material with adhesive properties, which gives the conductivity Component is filled, for example, with metal powder particles, graphite particles, particles of good semiconducting properties Material. The plastic component can be thermoset, that is, it experiences when heated no softening; the plastic component can also have thermoplastic properties, so that at a certain temperature, depending on the material, softening occurs without softening goes so far that the material flows off.

DE-PS 10 07 860 describes that power supply wires Tension-proof body preformed in blind holes, for example made of resistance material, is attached can be done by before or after inserting the power supply wires into the blind holes of the free space of the holes is filled with adhesives and / or conductive compounds.

A similar process is described in DE-PS 10 54 541. More guiding in all of these applications Adhesive for the attachment of power supply wires aw electrical components are the power supply lines not resilient, so that the advantage achieved by the present invention of the spring action of as Power supply lines serving spring elements. namely suitability for the highest possible number of switching operations, is not given.

The invention is explained in more detail below with reference to the drawings

F i g. 1 shows a preferred embodiment of the invention in side view,

Fig.2 shows another embodiment of the invention and

F i g. 3 shows the use of a ceramic PTC thermistor according to the invention in a level sensor for liquids.

In the figures, the same parts are provided with the same reference numerals.

The ceramic PTC thermistor 1 has metal coatings 2 and 3 on its large surfaces. those used as electrodes to serve. The spring elements 4 and 5 serving as power supply lines are round contact parts at their ends 12 and 13 formed, which touch the metal coverings 2 and 3 at points 6 and 7. These points of contact 6 and 7 between the round contact parts 12 and 13 of the spring elements 4 and 5 with the metal coverings 2 and 3 are each covered with a layer 8 and 9 made of conductive adhesive.

The straight parts of the spring elements 4 and 5 are firmly anchored in a base 10 made of insulating material, so that. the spring action can come into its own.

In Fig. 1 it is also shown that the entire arrangement made of ceramic PTC thermistor 1, contact parts 12, 13, spring elements 4, 5 and partly also the base 10 with a sheath 11 produced by dew coating (here indicated by a dash-dotted line) are wrapped.

The embodiment according to FIG. 2 differs from the embodiment according to FIG. 1 in that the Federelemen'e 4: and 5 first of all past the PTC thermistor 1, as it were, and then inwards to the

4 ^r > PTC 1- resilient extensions 14 and 15 are bent back to form, between which the PTC 1 is clamped. Here, too, the contact points 6 and 7 are each encased by a layer 8 and 9 made of conductive adhesive.

While in the embodiment according to FIG. 1 applying the conductive adhesive to the contact points is easier. ensures the embodiment according to FIG. 2 a sufficiently firm terminal contact, even if the spring properties of the spring elements 4 and 5 are not particularly good.

In Fig. 3 is the embodiment according to FIG. 1 shown as being housed in a sleeve 16 of insulating material. The insulating sleeve 16 forms a cavity 17 and is provided with longitudinal slots 18 through which the Liquid can pass through and come into direct contact with the PTC thermistor.

The free ends of the contact elements 4 and 5, which protrude from the base 10, are with outer Power supply lines 19 and 20 fixed, for example through

b5 welding, connected. These external power lines 19 and 20 are located in a housing 21 made of metal, which has a bore 22 with insulating Plastic (cast resin) is filled.

List of reference symbols

1 PTC thermistor ^ PTC-Wideistand)

2 Metal coating on the PTC thermistor

3 Metal coating on the PTC resistor i

4 spring elements for the terminal contact

5 spring element for the clamp contact

6 Contact point of the Fcderelenicntes

7 Contact point of the spring element

8 Overlay made of Leilkleber id

9 Overlay made of adhesive glue

10 bases

11 Dip coating

12 round contact part

13 round contact part r>

14 springy forts /.

15 resilient extension

16 sleeve

17 cavity

18 Langssehlit /: t>

19 external power supply line

20 external power supply line

21 metal case

22 bore

I lier / .u 1 sheet of drawings

Claims (3)

Patent claims: 1. Ceramic PTC resistor (1) in disk, tube or rod shape, the one on opposite Areas with metal coverings (2,3) as electrodes is provided, to which power supplies are connected, each made of electrically conductive spring elements (4, 5) and exert pressure on the metal coatings (2,3) of the PTC thermistor (1) and thus form a clamping contact, characterized in that the contact points (6, 7) of the spring elements (4, 5) with the metal linings (2, 3) in addition to the clamping contact are each encased with a layer (8, 9) made of conductive adhesive, which possesses thermoplastic properties: and has a softening temperature which is in the range of the temperature of the steep rise in the resistance value of the ceramic PTC thermistor. 2. Ceramic PTC thermistor according to claim 1, characterized in that the PTC thermistor (1) together with the spring elements (4, 5) serving for the power supply and the ones surrounding the contact points Conditions (8.9) with one by immersion painting manufactured casing (11) are provided. 3. Use of a ceramic call conductor according to one of claims 1 and 2 in a liquid level sensor.