DE2026005A1 - Display device for ionized water or ionized liquids - Google Patents

Description

Display device for ionized water or ionized liquids

The invention relates to a display device for ionized water or ionized liquids, which at bad tracking down accessible or inaccessible places ionized water or ionized liquids, such as heavy water, from a leak in the Lines of a nuclear reactor originates.

The known proposals are based on the principle of the two of each other with the help of a braided cotton sheath insulated metal electrodes, the sheath preferably with a Salt, for example ammonium chloride, has been impregnated and then dried. If there is voltage on both electrodes is present, then existing water with this salt forms an electrolyte that conducts electricity, which is a Causes change in electrical resistance, which is measured by means of a suitable electronic system. Leaks $ which may be found at the line connections Form between the plastic joints of the collar rings, using detectors of the so-called candle type tracked down while the leaks in the vascular joints,

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the pipe and discharge shafts with the help of so-called Tape detector-en_ to be detected. Däiriri ^ & zip ^ er both named Betektoren ^^ penT ^ tnäas-wiej only "d-ie ^ äuasere Shape and size are different. However, the detectors mentioned above are not free from errors. If the If the detector is used in the open air, the salt tends to absorb moisture from the air because of its hygroscopicity, which leads to a decrease in electrical resistance and triggering a warning signal. There is also the possibility electrode corrosion, which occurs either through direct chemical attack or through electrochemical reaction as a result of Electrode potentials can be caused. Assume that ^ each detector has its own electrical If 500 or 600 measuring points are to be monitored. Accordingly, the object of the invention is to provide a detector which the detection of leakage water by means of direct current passage and generates an audible or visible signal without the aid of an electronic system.

The object is achieved according to the invention in that the display device a cylindrical body made of plastic material j two arranged at the ends of the cylindrical body fixed metal disks and one arranged parallel to the fixed disks and along the axis of the cylindrical body between these sliding metal disc has, which with Using a metal spring it is connected to one of the two fixed discs and from the other disc by a fixed one Insulating material is separated, which dissolves in the presence of water.

Another feature of the invention is that the two fixed panes electrically connected with a luster terminal are.

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An embodiment of the invention is shown in the drawing and is described in more detail below. It show: - ■ "——

Fig. 1 is a longitudinal section through the device according to the invention, Fig. 2 is a front view of the device, Fig. $ A plan view of the device,

Fig. 4- a in the body of a conventional detector of FIG above-mentioned type arranged device according to the invention,

Fig. 5 "shows a conventional detector.

The device "consists of two metal electrodes, one of which is the one is fixed and the other is movable. The movable electrode is pushed by a spring towards the fixed electrode moved towards. The two electrodes are held apart with the help of a solid material, the good one electrical insulation properties, sufficient mechanical Has strength to compensate for the spring force and has a very low hygroscopicity. It continues to dissolve this substance completely absorbs in the presence of a small amount of water and creates an electrolyte however, neither in the solid nor in the dissolved state corrosive

In the presence of water, the substance used to separate the two electrodes dissolves, forming an electrically conductive mass of fluid. Under the action of the spring, the two electrodes approach each other and finally come into direct electrical contact. The electrical resistance of the system r-y increases continuously from several M-. on ITn 13.

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The detector shown in Figures 1 to 3 consists from a cylindrical body 1 made of plexiglass with a length of 35 mm and 20 mm outside diameter, the thickness of the cylindrical wall being 2 mm. The cylinder is of about twenty holes 2 mm in diameter pierced to facilitate the penetration of water. At both ends of the cylinder the upper lid 3 »to which one end of the spring 4 is attached and the lower lid 5» which serves as a fixed electrode, with the help of two stainless metal shafts 6 in held their position, the shafts 6 pulling through the cylinder 1 and the two covers 3 and 5 diametrically. The two Shafts are connected to a luster terminal 7. The movable electrode 8 to which the other end of the spring 4- is connected is, consists of a stainless metal disc, the inner surface of which is provided with a tip 9 to a to ensure better electrical contact. The insulating material is located between the two electrodes 5 and 8 10 with a thickness of 1 cm.

All materials can be used as insulating material, which have the properties described above.

The following example shows the production of a lactide foam described, which is used as a substance for separating the electrodes.

The starting point is tartaric acid, which is an acidic alcohol. When exposed to heat, two acid molecules cross-react, two water molecules are eliminated and a cyclic double ester known as lactide is formed. A porcelain capsule containing about 5 g of crystallized tartaric acid is placed in an oven set to about 200 to 220 ^{° C.}

At 168 to 170 ⁰ G, the tartaric acid melts into a yellowish liquid, only to puff up and rise after a while.

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rise. The capsule is removed from the oven when the mass has taken on the appearance of baked bread. After cooling, the substance can be easily applied to the cut to the desired dimensions for insertion into the detector. In a rehearsal it becomes instantaneous Dissolve with the help of a few drops of water and the acid reaction checked with the help of an indicator paper.

Of the advantages achieved by the device according to the invention should also be mentioned .that the detector is not is flammable because the two electrodes are in fact in an electrolyte, i.e. in an electrically conductive one liquid come into contact with each other so that no Can generate sparks until the electrical resistance of the system has continuously decreased to zero. Farther are the two electrodes at the moment of electrical Outward contact through the dissolved substance isolated, which forms a very fluid mass. The detector itself can direct an electrical circuit of a light or audible signal when only a very low voltage is used.

The substance used is non-corrosive} when dry it is completely inactive, and on the other hand are the various acids formed during the dehydration of the substance ekorripl exe weak organic acids which on stainless steel cannot cause corrosion. Another advantage is that the inventive Detector can easily be used in detectors of the so-called candle type. As Fig. 4- shows, the lower Body 11 of this candle 13, which ends in.eine threaded shoulder 12, for attaching the candle to the Collars are used in such a way that the parts attached to various stellons, such as conduits, are connected need not be changed between the plastic butt joints of the collar rings, etc. After removal

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of the upper body 14 (Fig. 5), <ier central electrode 15 as well as the connections 16, a sleeve can be inserted into the lower part of this candle with ease Principle is identical to that already described.

The candle can then be closed with the aid of a threaded plug 17 made of plastic material which has a watertight passage 18. The electrical return runs through the metal body the candle.

Compared with conventional candles, the invention also has the advantage of easy and quick access. Only the upper plug needs to be unscrewed to check or replace the replaceable sleeve. Since this can be carried out in a very short time, the operator does not need to be in the vicinity of radioactive lines as long if the display device is used is arranged according to the invention in nuclear reactors.

k Pat ent of sayings:

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Claims (5)

Patent to sayings ί.jIndicator for ionized water or ionized liquids, characterized in that the device has a cylindrical Body (1) made of plastic material, two fixed metal disks (3 and 5) arranged at the ends of the cylindrical body and one arranged parallel to the fixed scrapers and along the axis of the cylindrical body therebetween slidable metal washer (8) which by means of a metal spring (4) is connected to one of the two fixed discs and from the other disc by a fixed one Insulating material (10) is separated, which dissolves in the presence of water. . ■ - 2. Apparatus according to claim 1, characterized in that the two fixed panes (3 and 5) electrically with a luster terminal (7) are connected. 3. Apparatus according to claim 1, characterized in that the Insulating material (10) in the solid state in the presence of water dissolves and forms an electrically conductive electrolyte. 4. Apparatus according to claim 1, characterized in that the movable Disc (8) has at least one metallic tip (9) on the surface facing the insulating material. 5. Device according to claims Tund 3 »characterized in that the movable disc (8), the fixed disc (5) and the insulating material (10) separating them in the presence of water or ionized liquids form an electrolytic cell. _Q. 009848/1685: