DE2251952C3 - Probe for the detection of organic liquids - Google Patents

Description

The invention relates to a probe for the detection of organic liquids, in particular mineral oils and fuels whose base material consists of a material that is soluble or swellable in the organic liquid Rubber or plastic material, and which also has a component of an electrical has conductive solid, through which it has a continuous electrical in a contiguous area Preserves conductivity that changes when the base material dissolves or swells.

In places where organic liquids such as solvents, mineral oils or fuels are stored, are used or transported, there is a risk that they are due to operating errors or technical defects can leak and then devastating due to the risk of explosion or water pollution Have consequences. Such endangered places are z. B. on storage tanks, pipelines, oil burners, pumping stations, transshipment points, industrial plants and electrical ones containing oils or hydraulic systems. The detection of leaking organic liquids was previously only possible through constant visual observation possible.

For the detection of mineral oil, it is known (German patent specification 11 79 024), on a layer a thin, electrically conductive layer, preferably due to the action of mineral oil swellable material Graphite, to be applied as an indication of the swelling of the swellable material

ίο Volume enlargement increase in the electrical To show resistance.

The use of two different layers and their connection to one another is very much expensive, and it is extremely difficult to produce a thin but uniformly conductive layer. the Conductivity of the same can be caused by any slight mechanical damage, as well as by deformation or bend are interrupted. On the other hand, it is quite conceivable that the entire display device is flooded with mineral oil, but the even swelling of one layer is not interrupted the other, conductive layer. Such a device is for the reasons mentioned not usable in practice.

The embedding of carbon black in rubber is z. B. from the Known electrical engineering For shielding against electrical or electromagnetic fields, a Electrical conductors are surrounded by insulation that has a certain conductivity due to the addition of soot

receives, which is very small and only sufficient to achieve control of the electrical field. Such a soot-containing rubber is not suitable for the determination of organic liquids, since the electrical resistance is too high for measurement purposes and, in particular, its increase with swelling of the Rubber is too low.

The present invention is based on the object of a probe for the detection of organic To create liquids that can be easily and reproduced in bar and that are robust to manipulate, however, when even small amounts of the liquid to be detected occur, it reacts more sensitively than the previously known materials or facilities that respond reliably and against environmental influences is practically insensitive.

The inventive solution to this problem is that the material of the electrically conductive Solid component consists of particles that are metallic at least on their surface, and finer Distribution and in a concentration that establishes the continuous electrical conductivity of the probe Base material is included.

The probe according to the invention allows the immediate detection of leaked organic liquids and the automatic alarm in the event of contact with such liquids. She is so sensitive that already a single drop or even the vapors of the liquid being detected, such as gasoline vapors, enough to make them fully respond. Against environmental influences such as aging, temperature, It is practically immune to moisture, etc.

The material of the probe has a relatively low electrical resistance, which when in contact with organic liquids increases by several powers of ten towards infinity. The probe can therefore be used in Connection with a measuring device for the electrical resistance or a relay for tripping an alarm or used for recordings

will.

The probe consists of a single layer. It can be made in strip or wire form and attached to the endangered locations. It can easily follow the bends in a pipe and s can also be led around corners. This makes it possible to monitor a large area at the same time. An embodiment is particularly advantageous in which the material of the probe is in a thin layer on a Strip of a non-conductive carrier material is applied, what with a brush, a spatula or a squeegee can be done. As a carrier material, for. B. sheets, foils, fabrics, nonwovens or synthetic materials Serving papers. It is also possible to encase a thread or a monofilament with the probe material.

In the case of mineral oils and fuels, e.g. B. Polymers or copolymers of olefins or dienes, in particular of butene, isobutene, butadiene and Isoprene. These can contain natural or synthetic resins for reinforcement. You can be weak too be networked or form so-called microgels.

The electrically conductive solids can consist of a metal powder. For example, are suitable Iron, nickel, chromium, copper and especially silver and their alloys. Metals attached to their Form surface insulating layers, such as. B. aluminum, however, are not suitable

Solid particles that are metallized on the surface, e.g. B. copper-plated, chrome-plated, nickel-plated, gold-plated, but especially silver-plated. The interior of the particles can consist of a non-metal, e.g. rock powder, glass or plastic. The metallized solids allow great savings in expensive metals, but result same high conductivity as the metal powder. They also allow any shape of the Particle. It has been shown that the highest responsiveness with a combination of rod-shaped or flaky-shaped with spherical particles is obtained. Suitable for this combination z. B. silver-plated glass microspheres or rock powder and silver-plated glass fiber powder.

The size of the solid particles can vary within wide limits. Diameters are preferred of less than 1 mm, in particular less than 0.1 mm. It is advantageous if the size distribution is as possible is uniform

example

A synthetic paper is coated with a varnish of 10 g of poly-cis-M-butadiene, 30 g of silver-coated quartz flour with a grain diameter of 0.01 to 0.04 mm and 100 g of toluene about 1 mm thick and, after drying, cut into 5 mm wide strips. A 1 m long strip shows a resistance of around 500 ohms. If a drop of heating oil is now applied to one point of the strip, the resistance increases to more than 10 ⁷ ohms in 10 seconds.

Claims (7)

Patent claims: 1. Probe for the detection of organic liquids, especially mineral oils and fuels, whose base material is made of a rubber that is soluble or swellable in the organic liquid or There is plastic material, and which also has a component made of an electrically conductive Solid, through which it has a continuous electrical power in a coherent area This gives the conductivity, which changes when the base material dissolves or swells characterized in that the material of the electrically conductive solid component consists of particles consists, which are metallic at least on their surface, and in a fine distribution and in a die Continuous electrical conductivity of the probe producing concentration in the base material is included. 2. Probe according to claim 1, characterized in that as a soluble or swellable material Polymers or copolymers of olefins or dienes, in particular of butene, isobutene, Butadiene and isoprene are used. 3. Probe according to claim 1, characterized in that a metal powder is used as the conductive solid serves. 4. Probe according to claim 1, characterized in that the conductive solid is non-metallic Particles are used that are metallized on the surface, in particular silver-plated. 5. Probe according to claim 1, 3 or 4, characterized in that the conductive solid side by side Contains particles of rod or leaf-shaped and spherical shape. 6. Probe according to claim 1, characterized in that the material of the probe in a thin layer on a strip or as a sheathing on a thread or monofilament made of a non-conductive material Carrier material is applied 7. Use of the probe according to one of the preceding claims in connection with a electrical resistance measuring device, a relay and / or an alarm device.