DE102016007297A1 - Device for detecting changes in measured values at a place of use, comprising at least one electrically conductive element - Google Patents

Abstract

The invention relates to a measured value change detection device for detecting changes in measured values at a place of use (4), comprising at least one electrically conductive element (1), characterized in that the electrically conductive element (1) intrinsic with respect to the measured value changes detecting or at least the measured value changes Characteristics of the electrically conductive element (1) is configured at the site (4), wherein the electrically conductive element (1) is directly connected to the place of use (4) and therefore the configuration of the electrically conductive element (1) is dependent on the configuration the place of work (4).

Description

Device for detecting changes in measured values at a place of use, comprising at least one electrically conductive element.

The invention relates to a device for detecting changes in the measured value at a place of use, comprising at least one electrically conductive element.

In particular, in the automotive industry, various concepts are realized in particular for the detection of moisture or water in the footwell of an automobile, which are associated with high installation work on site (here: footwell) and thus also at high costs. A common embodiment is that line cords, so two braided, stripped cable - usually made of copper or aluminum - with an insulator - often made of paper - in a certain length - usually in the range of 80 cm to 150 cm - in the footwell of an automobile under the carpet and the insulation are laid directly on the body. If water enters the bodywork after a stay in a washroom or other rides, the paper will soak up water and electrically connect the two conductors - the two cables - so that the insulation between the conductors is no longer present and Thus, the then relatively low ohmic resistance can be measured either via a meter to be connected or via an energization (usually a battery) and a corresponding electronic or electrical evaluation, for example in the form of an A-RFID (active radio frequency identification transmitter) sends this resistance change to a receiver, to trigger a kind of alarm. This is especially relevant before delivery of a vehicle. Since all cables are routed manually and glued, this requires a long working time (the so-called F-time), which leads to high costs.

Another method is the so-called stinging, in which metal bars are stung by the covering of the footwell of a car, in particular by a carpet of a car, to then measure the ohmic resistance and make a corresponding evaluation. This system-related damage to the carpet of the vehicle, which is of course not desirable.

Object of the present invention is therefore to provide a device for detecting changes in the measured value at a place of use, comprising an electrical element, which can be realized inexpensively and without damage to the site.

This object is achieved by a device according to claim 1, a method according to claim 17 and a use according to claim 18.

In the device according to the invention is a device for detecting changes in measured values at a place of use, comprising at least one electrically conductive element - for example, and in particular a conductor -, wherein the electrically conductive element with respect to the measured value changes - for example, and in particular the ohmic resistance - detecting or at least the measured value changes transmitting properties intrinsic properties - that is, the electrical conductivity - of the electrically conductive element at the site making manufactures is configured; d. h., That at the place of use - for example, and in particular on a car body - the electrically conductive element both manufactured - that is applied at the place of use - as well as configured - ie at the site in terms of its spatial or planar extent - is. In contrast to laying a conventional cable, which is already made, this is a simultaneous production and configuration. In addition, the device according to the invention differs from conventional printed circuit boards printed circuit boards in that they are not part of the site, but can be provided only at the site. The spatial configuration of the device according to the invention is determined by the spatial extent of the site itself. This represents a considerable difference from the embodiments known from the prior art. In this way it is possible to take into account both difficult configuration conditions of the place of use and, on the other hand, to realize this in a very cost-effective manner. This applies, for example, and in particular for the detection of moisture in automobiles: In a spray application of an electrically conductive paint / color in the footwell of a car to produce two spaced and spaced tracks they are with an A-FID (ie an active radio frequency identification transmitter and a battery energized) and a measuring and evaluation unit, for example, and in particular connected to an A / D converter electronics connected. In the normal state, a relatively high ohmic resistance is in the range of a few megohms. When water enters the two tracks are electrically connected together, so that the ohmic resistance usually drops to a few kilohms. If a trace breaks, the resistance increases. At the lower resistance values not only a water ingress can be detected but even where the short circuit took place.

First, it is advantageous if the configuration is realized by means of application on site, for example, and in particular if the application is realized by means of spraying, brushing, painting, painting, gluing or brushing, as these applications have proven to be fast and secure feasible.

Furthermore, it is advantageous if the measured value changes are changes in the electrical conductivity, since these measured value changes have proven to be very relevant in practice.

Therefore, it is also advantageous if the producing configuration is the production of electrically conductive regions.

In this context, it is also advantageous if the electrically conductive areas are strip-shaped areas.

It has proven to be relevant and thus advantageous in practice, when the electrically conductive element has a resistivity of 0.1 ohms × m to 10 megohms × m and / or if in the configuration produced on site, the electrical resistance of the electrical Element is in the range of 0.1 ohms to 10 megohms.

Moreover, it has proven to be advantageous in practice if the electrically conductive element is a lacquer.

In order to increase the specific conductivity of a lacquer, this can advantageously be added to at least one electrically conductive material, in particular if the added material is graphite, metal, in particular aluminum or copper.

With regard to the embodiment of the device according to the invention, it has been proven that it is designed such that in the presence of water on the device a change in a detected electrical resistance of the device is measured or is measurable, especially if these at least two locally spaced electrical Has elements.

In this context, it is field-proven and thus reliable in the application, when the device according to the invention comprises at least one element from the group: RFID tag, CAN-BUS chip, A-RFID, passive RFID, cable, USB adapter, measuring point, trace, Battery, power source.

In practice, it has proven useful when the paint is an alkyd resin.

Furthermore, a method for detecting changes in the measured value at a place of use is claimed, which is characterized in that a device according to the invention is used.

Finally, the use is claimed for the moisture sensor, as anti-theft, as a level indicator, leakage protection, as an alarm sensor, as a moisture alarm and for moisture measurement, in particular, if an application takes place in motor vehicle, truck, two-wheeled, aircraft, rail vehicle, ship, building, Clothing, containers, hose, fence, housing, wood, battery.

The invention is not explained in more detail with reference to the following example.

It shows:

1 - A perspective view of an embodiment of the device according to the invention.

In 1 is sketchy and perspective a section of a vehicle underbody 4 - This represents the site of the device according to the invention - shown, wherein the vehicle floor 4 even in the area front-right, front-left, back-right and back-left each a pair of interconnects 3 . 3 , consisting of a conductive paint, directly on the vehicle floor 4 has been sprayed on. The individual tracks 3 are at one end 5 electrically connected to each other, namely with a further conductor track of the conductive paint; put another way: it is a trace during spraying 3 of the electrically conductive paint on the vehicle floor 4 applied, wherein the course is designed such that two conductor tracks 3 . 3 run opposite each other and at a längsachsialen end 5 are electrically connected to a quasi-perpendicular to the course of the two opposing interconnects extending short trace piece.

The ohmic resistance between the two tracks 3 . 3 is in the short conductor piece piece not injured state about 10 megohms. If there is an injury, the electrical resistance increases to about 50 megohms. However, if there is a moisture leak and thus a wetting of the two printed conductors, the ohmic resistance drops to approximately 100 kiloohms, so that this value determined by an electronic evaluation unit by means of an active RFID 2 is communicated to a receiver to immediately detect if moisture on / in the vehicle floor 4 present or not. The active RFID 2 is electrically powered by a battery, not shown.

Due to the very time-saving and technically quite simple spraying of the electrically conductive paint much money saved in monetary terms.

The electrically conductive lacquer is the weather-stable synthetic resin clearcoat Yachtline SKE 0000, colorless, from Wilckens GmbH, Germany, which consists of an alkyd resin with inorganic fillers and de-aromatized white spirit. About 5 g of nanoparticles of graphite are added to this synthetic resin lacquer to 100 g to ensure the necessary electrical conductivity.

Alternatively, it is also possible to use the acrylic resin paint Kontakt Chemie Graphit 33 from CRC Industrie Deutschland GmbH, Iffezheim, Germany, which is an acrylic resin paint containing electrically conductive graphite powder.

In this quasi pre-assembled form, this paint is applied directly to the inner top of the vehicle floor 4 sprayed. In this way, for the first time very quickly and therefore cost-saving a corresponding device according to the invention at the site 4 be created and attached, with the specific spatial conditions of the vehicle floor 4 - And thus its configuration - the corresponding spatial conditions - ie the configuration of the electrical element 1 the device according to the invention - correspond, and vice versa.

Claims (19)

Measured value change detection device for detecting changes in measured values at a place of use ( 4 ), comprising at least one electrically conductive element ( 1 ), characterized in that the electrically conductive element ( 1 ) with respect to the measured value changes detecting or at least the measured value changes transmitted properties intrinsic properties of the electrically conductive element ( 1 ) at the place of use ( 4 ) is configured, wherein the electrically conductive element ( 1 ) is directly connected to the site ( 4 ) and therefore the configuration of the electrically conductive element ( 1 ) depends on the configuration of the site ( 4 ). Apparatus according to claim 1, characterized in that the configuration by means of application on site ( 4 ) is realized. Apparatus according to claim 2, characterized in that the application by means of spraying, brushing, painting, painting, gluing or painting is realized. Device according to one of Claims 1 to 3, characterized in that the changes in the measured values are changes in the electrical conductivity. Apparatus according to claim 4, characterized in that the manufacturing configuration is the production of electrically conductive areas. Device according to Claim 5, characterized in that the electrically conductive regions are strip-shaped regions. Device according to one of claims 1 to 6, characterized in that the electrically conductive element has a resistivity of 0.1 ohm × m to 10 megaohm × m. Device according to Claim 7, characterized in that, in the configuration produced on site, the electrical resistance of the electrically conductive element ( 1 ) is in the range of 0.1 ohms to 10 megohms. Device according to one of claims 1 to 8, characterized in that it is in the electrically conductive element ( 1 ) is a paint. Apparatus according to claim 9, characterized in that at least one electrically conductive material is added to the paint. Apparatus according to claim 10, characterized in that the added material is graphite or metal. Device according to claim 11, characterized in that the metal is aluminum or copper. Device according to one of claims 1 to 12, characterized in that it is designed such that in the presence of water on the device, a change in an electrical resistance detected by the device is measured or measurable. Device according to one of claims 1 to 13, characterized in that it comprises at least two locally spaced-apart electrically conductive elements ( 1 ) having. Device according to one of claims 1 to 14, characterized in that it comprises at least one element from the group: RFID tag, CAN-BUS chip, A-RFID ( 2 ), passive RFID, cable, USB adapter, measuring point, trace ( 3 ), Battery, power source. Device according to one of Claims 9 to 15, characterized in that the lacquer is an alkyd resin-containing to existing lacquer. Method for detecting changes in measured values at a place of use, characterized in that a device according to one of Claims 1 to 16 is used. Use of a device according to one of Claims 1 to 16 for the moisture sensor system, as theft protection, as fill level indicator, as leakage protection, as alarm sensor, as moisture alarm and for moisture measurement. Use according to claim 18, characterized in that this is applied in motor vehicle, truck, two-wheeled vehicle, aircraft, rail-bound vehicle, ship, building, clothing, containers, hose, fence, housing, wood, battery.

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