FI89209C - PAO FAERGAENDRING BASERAD FUKTIGHETSDETEKTOR - Google Patents

Description

89209 Humidity detector based on color change 5 *

The invention relates to a moisture detector based on a color change, which can be used, for example, in the storage of moisture-sensitive products to detect the ingress of harmful moisture into the products already during storage. In the humidity detector which is the subject of the invention, the effect of humidity can be easily seen visually due to the color change in the detector.

Moisture detectors based on color change are disclosed, for example, in U.S. Patent No. 4,990,284. In the moisture detector of this publication, the color change is provided by cobalt chloride. According to the publication, such detectors can be used, for example, in cigarette packs.

In the moisture detector according to the present invention, the color change is not produced in a known manner by, for example, cobalt chloride, but the color change-based moisture detector according to the invention is characterized in that the color changing agent

In the moisture detector according to the invention, the color-changing polyoctylthiophene has previously been used, for example, in F1 patent applications 890427 and 906168, in conductive polymer applications requiring thermo-plastic properties.

The color change of the polyoctylthiophene detector according to the present invention is very clear and is easy to detect visually even a couple of days after the detector has been exposed to moisture. The humidity detector according to the invention is particularly well suited for detecting, for example, excessive moisture during storage of fine-sensitive fine electronic and electronic devices, the so-called an on / off principle. The polythiophene according to the invention is also electrically conductive, so that antistatic packages can be made from it. Thus, the polyoctylthiophene according to the invention not only acts as a moisture detector but also provides antistatic protection, which favors its suitability for detector use during storage of precision mechanical and electronic devices. If such antistatic protection is desired, it is preferable to use the polyoctylthiophene as a wider surface than if it is desired to act only as a moisture detector, in which case a smaller detector surface is sufficient. In addition, suitable applications for the humidity detector according to the present invention include e.g. moisture sensitive chemicals, explosives, pharmaceuticals and food.

The moisture detector according to the invention can be manufactured, for example, by extrusion-coating the desired substrate plate or film with polyoctylthiophene. Polyoctylthiophene can also be made into films and sheets by other known methods of processing plastics; polyoctylthiophene can be blown into films, blown into an intermediate layer, for example in bottles, used in fibers and fabrics, extruded into a layer inside a tube, for example, or laminated to various sheets. The moisture-detecting polyoctylthiophene film or layer may be very thin; already about 10 to 100 [mu] m is sufficient, but it can also be used in thicker layers. When using very thin layers of polyoctylthiophene, the consumption of polyoctylthiophene per detector is quite low, so that the costs remain reasonable. The layer thickness is known to affect the diffusion of moisture and thus also the rate of color change of the polyoctylthiophene detector. Oxygen with or without light has no effect on the color change of the detector, a fact which has been clearly demonstrated experimentally.

The detectors of the present invention can be placed in a desired location in storage areas or can be placed inside a product package so that the color change in the detector can be easily seen. Polyoctylthiophene can also be made into a film, for example, after the actual barrier layer towards the product, whereby the water vapor carried into the product causes a color change in the polyoctyl-thiophene film.

1 The amount of polyoctylthiophene in the detector can be reduced by blending it with another polymer. However, the proportion of such a second polymer must not be too high, because otherwise the effect of moisture will be slow and, on the other hand, the color change in the detector will no longer be so obvious. However, depending on the processing method, other excipients can be added to the polyoctylthiophene 3 89209 without affecting the color change of the detector.

The sensitivity of the polyoctylthiophene detector can be easily controlled by adding various moisture-binding or moisture-absorbing substances, whereby the moisture detector 5 according to the invention can be used under different humidity conditions or in connection with products sensitive to different moisture contents.

The moisture-discolored polyoctyl-thiophene film or layer of the invention can be easily reactivated simply by removing a very thin layer from its surface, for example by rubbing or scraping, whereby the original golden-yellow or golden-green surface is exposed beneath the darkened surface.

The following examples illustrate the invention in more detail, but are not to be construed as limiting the invention, but are intended to illustrate the humidity detector of the present invention and its uses.

Example 1 The effect of room humidity or UV light on the color change of polyoctylthiophene was studied in the so-called by the dark / light test as follows: A thin layer of polyoctylthiophene was melted on top of about 10 cm * 10 cm metal plates. Part of the surface of the sample plates was covered with transparent moisture-impermeable tape. Some of the sample plates treated in this way were placed in a container protected from light, but with a normal humidity of 25 room air. The remaining sample plates were stored in a light-humidity-similar state as the light-protected samples. Regardless of the storage method (dark / light), the area protected by the tape of the sample plates remained the original color, ie a beautiful golden brown, and the unprotected area became dark within a few days due to the humidity of the room air. This situation was the same yet even after six months of storage disks. 30 In that way, it has been possible to show that the change in color is due specifically to the effect of moisture and not to UV light.

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Example 2

The unprotected, darkened metal sheets of Example 1 were scraped from their surface to reveal a bright yellow-green unchanged polyoctylthiophene layer. Some of these plates were placed in a dry cabinet and some were stored under room humidity conditions. The plates stored in the dry cabinet remained the original bright green-yellow, but the plates stored in room air turned dark blue to black in two days. The film stored in a dry cabinet was transferred to room air, after which its color turned dark in a couple of days.

This experiment shows not only that moisture specifically affects the color change of the polyoctyl-thiophene layer, but also that the surface of the polyoctylthiophene layer changed by moisture can be scratched to its original color and thus reactivated as a moisture detector according to the invention.

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Claims (6)

1. Moisture detector based on color change, characterized in that the detector "5 is a color-changing substance of polyoctylthiophene, which changes from golden yellow or golden green to dark brown or dark blue under the influence of air humidity. Moisture detector according to Claim 1, characterized in that the sensitivity of the detector is adjusted by varying the layer thickness of the polyoctylthiophene, mixing other plastics or fillers with the polyoctylthiophene or mixing moisture-absorbing or binding chemicals therein. Moisture detector according to Claim 1 or 2, characterized in that the layer thickness of the polyoctylthiophene in the detector is more than 10 μην, preferably 10 to 100 μm. Moisture detector according to one of Claims 1 to 3, characterized in that the polyoctylthiophene is laminated or extruded on a film or substrate, the polyoctylthiophene is blow-molded into a shaped body, such as a bottle, as an intermediate layer, from which the color change of polyoctylthiophene can be observed under the influence of moisture. Use of a moisture detector according to any one of claims 1 to 4 as a moisture detector during the storage step of moisture-sensitive products. 25 5 89209 Use of a moisture detector according to claim 5 as a moisture detector and antistatic protection during the storage step of moisture sensitive products. 6 89209 Patenkrav