DE880528C - Method and means for preventing corrosion in metal apparatus with water circulation, such as coolers or the like. - Google Patents

Description

Process and means for preventing corrosion in metal apparatus with water circulation, such as coolers or the like. In certain metal apparatus, such as coolers and cooling water lines on internal combustion engines, the proposal has already been made been added to the cooling water mass rust and corrosion preventive agents.

These rust and corrosion inhibitors consist of very soluble ones Salts, which thus completely dissolve in the water mass. If now part of this water has been used up and water is being refilled or when the appliance is completely empty is to be topped up with fresh water, then the protective agent escapes with the water. The refilled or replaced water has this way no longer the desired degree of saturation. This is particularly the case with motor vehicle radiators the case.

If namely the water through thermal expansion, mechanical leaks or partially expires due to other causes, the vehicle driver fills the Cooler with ordinary water on it, increasing the saturation level of the water naturally every time it decreases more and more. If the cooler is completely emptied, then at Refilling the same to the fresh water 'again added a protective agent additive will.

According to the invention, these disadvantages do not apply to the fact that in the water cycle of the device a grate or. Corrosion inhibitor amount is introduced that is capable is, a multiple of the amount of water contained in the circuit in question saturate, so that the used up during operation or when emptying the Apparatus drained water only removes a small fraction of the protective agent and the amount of protective agent remaining in the apparatus the refilled or after complete emptying New. Saturate the amount of water filled in again can.

In a first embodiment, a mass of sparingly soluble, salt used, which can saturate many times the amount of water contained in the device. After the first filling with water, only part of the protective mass dissolves to the saturation limit, while the remaining part of the protective mass is undissolved remain. If then water is refilled or the completely drained water with fresh water is replaced, there is again a partial dissolution of the protective compound up to. to the Saturation limit of the topped up or completely replaced water.

As slightly soluble salts see, for example, strontium fluoride in a ratio of 0.2 g per liter, barium fluoride (x, 6 g), magnesium phosphate (0.2 to 3.1 g, depending on the nature), calcium borate (2 g), strontium borate ( 2.3 to 7; 7 g), barric acid, sodium fluosilicate (_,; g), strontium chromate (i, 2_g), strontium molybdate, tungstic acid calcium (2_g), tungstate strontium (z, 5 g).

According to another possible embodiment, the anti-corrosion salt is used brought in the form of a soluble glass, which is in the form of a glass block or in crushed forums in -the water cycle is introduced. The structure of this Glass inhibits the dissolution in such a way that after the saturation of the water contained in the apparatus has taken place the rest of the anti-corrosion agent remains unchanged in the water cycle and only gradually dissolves further as fresh water is refilled or the device is completely filled with fresh water after it has been completely emptied will.

The glass: - which - can - get - the - shape - of sintered glass, is composed, for example, of a silicic acid-containing component and a sodium-containing component bound to it, so that the latter, which forms the actual means of estimation; is only released to the extent that the disintegration of the silicic acid-containing component progresses.

Although, for example, the silica sodium is very soluble and the Lime silicate is insoluble, but it can be turned into a sodium-calcium glass in the melting process achieve that forms a slightly soluble mass. The dissolved content of the solution The protective agent then depends - not only on the amount and the temperature - of the water, but also on the contact area and the time factor. The touch pool can be made very small if-a glass block is used, while-a very large contact area can be achieved by using crushed glass.

The glass could also just serve as a bed for a more soluble one Salt-serve. The dissolution of this salt would then be due to the rate of dissolution of the bedding glass ". This procedure is suitable for those at iooo ° C stable salts ,. such as. Chromates, silicates and phosphates.

For example, a silica-containing sodium-calcium glass could be used with a content of strontium or calcium chromate .. or sodium chromate. It would also be a .Glass that lets baking soda go into solution and this a slightly soluble salt present in suspension in the glass would attack, such as for example a silicon-sodium-calcium glass, the zinc or lead chromate (insoluble in pure water, but contains soluble salts in alkaline water in suspension.

Finally, briquettes could also come into question, for example can be achieved by sintering. It becomes a little soluble and in general Salt that does not act as an anti-corrosive agent and a soluble salt in itself a salt representing an anti-corrosive agent mixed, the forming in a Press using a little or no soluble binder can be done.

Salts such as the nitric acid salts, which, decomposed at approximately 35o ° C, could not be incorporated into the glass. It would be also not difficult to press these salts, and the production such shaped pieces would be less threatening for the existence of the protective salt molecule than glass making.

The protective agent mass can be in a space specially provided for this purpose of the apparatus, this space being connected to the water circuit in Connection. But it can also be in a suction sump, a bag or any other be stored in another permeable container where the water rinses it can, in order to dissolve the protective mid-tendon tightness necessary for its saturation, while the remaining part of the protective agent remains unchanged as a reserve, by about water that has been topped up or completely replaced in the system to saturate.

An embodiment of the invention is illustrated in the drawing, namely Fig. z shows in elevation a motor vehicle radiator with a bundle of tubes: [ and two water boxes 2 and 3, Fig. 2 on a larger scale a protective agent mass-4 in the shape of. a candle that extends into the water tank 2 (Fig. z). To this Purpose, the candle 4 sits in a threaded plug 5, which with the help of the head 6 in a nut attached to the inner wall of the water tank 2 can be screwed in can. In this way, the candle can be attached and changed without difficulty.

The invention thus ensures automatic recovery the concentration of the anti-corrosive agent in the liquid, which is very important is; because these protective agents are only available under certain conditions and in particular effective above a minimum concentration, and this can be due to exhaustion, loss or lose weight for other reasons. If you let the concentration below the minimum limit fall off, then not only the protection against corrosion would stop, but also the corrosion could be accelerated in: certain cases. This disadvantage is now avoided by the invention with the greatest reliability, if one spatially very small reserve of protective agent is maintained, but for any desired period of time perfectly sufficient.

Although so far only water has been mentioned, it can of course be circulated of the apparatus any desired Solution or liquid in place of the pure water can be used.

The exemplary embodiments described leave within the scope of the invention of course any modifications to it.

Claims (7)

PATENT CLAIMS: i. Corrosion protection agent, characterized in that that it consists of a certain amount of slightly soluble salts, such as fluorine salts, Phosphates, borates, silicates, fluosilicates, chromates, molybdates, tungstic acid salts of strontium, barium, magnesium, calcium, sodium or the like. 2. Corrosion inhibitors according to claim i, characterized in that the same results in a vitreous structure is compressed by slow solubility. 3. Corrosion protection agent according to the claims i and 2, characterized in that the vitreous structure made of sodium-calcium glass exists and is a sparingly soluble mass. q .. Corrosion protection agent after claims i to 3, characterized in that the glassy structure for the purpose of enhancement the contact surface with the cooling liquid has been crushed to form glass dust. 5. Corrosion inhibitors according to one of the preceding claims, characterized in that the same from one very soluble salt, for example a chromate, a nitric or tungsten acid Salt, with a glass bedding that regulates the solubility of the very soluble protective salt consists. 6. Corrosion protection agent according to one of the preceding claims, characterized in that that the same is composed of a little soluble, as a protection against corrosion ineffective salt, a soluble anti-corrosive salt and a little or not at all soluble binder. 7. Anti-corrosion agents according to the previous ones Claims, characterized in that it is shaped into a candle (q.), which sits in a screw plug (5). B. Process for preventing corrosion metal apparatus with water or other liquid circulation, such as vehicle radiators and the like, using the anti-corrosion agent according to claims i to 7, characterized in that a corrosion protection compound in the liquid circuit of the apparatus is introduced that is capable of a multiple of that in the circuit in question to saturate the amount of liquid contained, so that the used up during operation or only a small fraction of the water drained off when emptying the apparatus the protective mass discharges and the amount of protective agent remaining in the apparatus the topped up or, after it has been completely emptied, the amount of water that has been added again can satiate. G. Method according to claim 8, characterized in that for the Accommodation of a reserve of the anti-corrosion agent according to claims i to 7 a chamber is provided in the liquid circuit of the apparatus, which is separated from the actual Circuit through a suction sump, a metal mesh, a perforated wall or the like. can be delimited. ok Method according to claims 8 and g, characterized in that that the anti-corrosion compound in a porous envelope, for. B. a bag in a suitable chamber connected to the fluid circuit is used will. ii. Method according to claims 8 and g, characterized in that the Corrosion protection compound in the form of a candle with the help of a screw socket in the Water tank of a cooler through which a wall of the same is screwed.