CS234074B1 - Equipment for wate or vapour penetration determination - Google Patents

Abstract

The device is in an enclosed space a metal bottom electrode is placed which has the shape of an open container at least from the electrically non-conductive layer mixtures of solid sorbents and hygroscopic substance on this layer a metal upper electrode of the shape either perforated plates, or sieves, connected conductively conductor through the power supply and through a measuring device is either an ammeter or a voltmeter lower electrode. The device can be used wherever they have to be sensitive and even the small ones can be reliably determined the amount of water or water vapor to the sealed space.

Description

The invention relates to a device for detecting the penetration of water or water vapor into a closed space filled with gas.

space filled with gas hydrometers based on an electric capacitor, between whose electrodes was placed a suitable sorbent. Hydrometers of this kind measure quantitatively the water vapor content of a confined space. However, they are production-intensive, expensive, difficult to access and unnecessarily complex to simply determine the penetration of moisture into a confined space. For this purpose, electrical contacts have been constructed, the bottom of which was in the form of a container filled with any salt that formed water-shorting contacts with water. Again, these devices are not sensitive enough to allow non-condensing water vapor to enter an enclosed space. The salts also often formed a solid, hardly soluble material with moisture, which did not allow rapid reaction of the apparatus.

These drawbacks are eliminated by the device according to the invention, which consists in the fact that in the enclosed space a metal bottom electrode of the shape of an open container is placed, at least partially filled with a layer of an electrically non-conductive mixture of solid sorbents and hygrosic. In the case of a perforated plate or strainer, connected by a conductor through a power source and a measuring device, which is either an ammeter and / or a voltmeter, with a lower electrode, wherein the solid sorbent is either anhydrous silica gel and / or anhydrous aluminum oxide and the hygroscopic substance either cobalt sulfate or / and nickel nitrate. The device according to the invention enables, compared to prior art devices with a similar purpose, both by its shape and by the chemical composition of the electrically non-conductive mixture layer, the mixture to be electrically non-conductive for a long time without water or water vapor entering the enclosed gas-filled space. Unlike prior art devices with similar purpose, when penetrating small amounts of moisture, they do not form a solid insoluble and non-conductive mass that would inhibit the electrical reaction of the device, but immediately create the required amount of electro234 074 lye ensuring electrical conductivity and sensitive and rapid response to water or water vapor in an enclosed space filled with gas.

An exemplary embodiment of the device according to the invention is shown schematically in the attached drawing.

In an enclosed space 1, the walls of which are made of stainless steel, a lower electrode 2, also made of stainless steel in the shape of an open container, is filled and filled with a layer 2 of silica gel admixed with anhydrous cobalt sulphate. The lower electrode 2 and the upper electrode 4 are conductively connected to each other by conductor g. by insulated insulation 10 via a power source 6 and an ammeter 6, which in our case is a sensitive milliameter and a voltmeter.

8, which in our case is a sensitive millivoltmeter ·

Since the χ layer is electrically nonconductive, the electrical circuit between the poles of the power source 6 is not closed. If it enters the enclosed space χ. eg by leakage of water in liquid or gaseous state, the enclosed space χ is filled with water vapor, which absorbs on the sorbent, which is silica gel 1 in the χ layer ^and at the same time is absorbed by hygroscopic cobalt sulphate. The hygroscopic cobalt sulphate absorbs it at the same time in a short period of time. In a short period of time the χ layer becomes conductive, the electrical circuit is closed between the poles of the power source 6, which is reflected in sensitive measuring instruments, i. on ammeter 2 ^and voltmeter 8.

Other examples are similar devices in which the upper electrode 4 is formed by a dense screen made of stainless steel wires.

Other examples are similar devices containing either anhydrous silica gel and / or anhydrous alumina as a sorbant and as hygroscopic one of the following anhydrous salts: cobalt sulphate, copper sulphate, calcium perchlorate, nickel nitrate.

If the enclosure walls χ are made of corrosive metal, eg stainless steel, both electrodes of the device must be protected against unwanted short-circuiting by conductive corrosion products, eg stainless steel cap.

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The device can be used wherever it is necessary to sensitively and reliably determine the penetration of small amounts of water or water vapor into the enclosed space.

Claims (1)

Device for detecting water or water vapor penetration into a gas-filled enclosure, with two electrodes, one of which is in the form of a container filled with an electrically non-conductive substance, forming an electrically conductive dispersion with water, characterized in that a metallic enclosure (1) an open container-shaped lower electrode (2), at least partially filled with a layer (3) of an electrically non-conductive mixture of a solid sorbent of hygroscopic substance, and a metal top electrode (4) of either perforated plate or net, 5) via a power source (6) and a measuring device, which is either an ammeter (7) and / or a voltmeter (8), with a lower electrode (2), wherein the layer (3) of the electrically nonconductive mixture is a solid sorbent anhydrous silica gel and / or anhydrous alumina and with a hygroscopic substance either cobalt sulphate and / or nitric nitrate.