DE10038419A1 - Method for regenerating foundry sand bound to waterglass comprises mechanical pretreatment of the foundry sand, the addition of water, movement of the pulp by external forces - Google Patents

Abstract

Method for regenerating foundry sand bound to waterglass comprises: (i) mechanical pretreatment of the foundry sand, (ii) the addition of water to the pretreated foundry sand to form a pulpy composition, (iii) movement of the pulp by external forces, (iv) rinsing of the treated sand pulp with water, (v) removal of the water for processing, and (vi) drying of the sandy pulp to form a sand. Preferred Features: The foundry sand is pretreated using a sand lump breaker. The aqueous sand mixture is stirred in an attrition device. Cleaning substances (acids or bases) are added to the water. The water is processed using precipitating agents, e.g. H2SO4 or FeClSO4.

Description

The present invention relates to a method for regeneration foundry sand bonded with water glass, in which the foundry sand is treated in such a way that it can be used like new sand without restrictions. Furthermore lets the water used in the process can be easily purified so that it can be returned to the regeneration process.

In the foundry, water glass has long been used as a binder for molding materials. To form the mold, the foundry sand is covered with a suitable water glass and appropriate additives mixed and after molding with acid gases to Example carbon dioxide, hardened. By the resulting The sand grains are cross-linked with silica and form a stable shape. such Foundry sands can generally only be used once and must therefore be used be disposed of after each casting process.

However, recycling such foundry sands requires that the Foundry sand is either freed from the silica residues or the Silicic acid residues are converted so that they are another Do not negatively influence the molding process.

DE-OS 43 06 007 describes a process for the regeneration of water glass bound Foundry sands described. In this process, the after casting resulting tuber of sand destroyed in a crusher and then fed to an oven where the foundry sand is heated to a temperature of more than 200 ° C, causing the Binder residues are either destroyed or converted in such a way that they do not negatively influence another molding process. Then the cleaned Foundry sand cooled again so that it can be used instead of new sand.

A process for the recovery of foundry sands from waste Resin-bonded sand molds are known from DE-OS 197 53 254. It deals  is a wet process in which with aqueous basic or acidic Solutions the bond between binder and sand grain surfaces are destroyed. Sodium hydroxide, for example, can be used as the aqueous basic solution. if the molecules of the binder have phenolic hydroxyl groups. Regardless of the binder and are practically lost on waste of all types also suitable for aqueous acid solutions. Hydrofluoric acid is particularly advantageous and their acid salts.

Finally, DE-OS 43 21 296 discloses a method for the wet regeneration of with impurities and granular bulk goods contaminated with pollutants, whereby only the preparation of clay-bound foundry sands is mentioned and described. According to this procedure, the contaminated and contaminated are polluted granular bulk goods first by mechanical pretreatment Bulb reduction, protective screening and magnetic separation. Subsequently become the bulk goods of an at least one-step combination of attraction cleaning with the addition of water and a subsequent classification. The in An overflow of the classification levels of the resulting pollutant suspension then becomes one Cross flow filtration fed. The resulting concentrated fine sludge can be used for further use. The resulting clear water further pollutants removed by UV oxidation and / or activated carbon filter. That so purified clear water can then be returned to the cycle.

The object of the present invention is a simple and economical Processes for the regeneration of water-glass-bound foundry sands are available put in which the regenerate, z. B. instead of new sand for molding and / Core production in foundries can be easily reused. Of Furthermore, the formation of wastewater should be avoided without being complex Cleaning procedure is necessary.

According to the invention, this object is achieved by the features of claim 1.

The present invention thus relates to a method for regenerating foundry sands bound with water glass, which comprises the following steps:

• - mechanical pre-treatment of the foundry sand;
• - adding water to the foundry sand until a pulpy mass is formed;
• - moving the pulp by external forces;  
• - rinsing the treated porridge with water;
• - draining the water for treatment; and
• - Dewatering and drying the porridge to form a sand for further Use.

Advantageous embodiments of the method according to the invention are in the Subclaims defined.

The foundry sand obtained in pieces after the casting process must be in front of the Water treatment can be pretreated by crushing. As a rule, the Foundry sand pre-treated by shredding tubers. However, it can also other common methods are used, such as protective screening and Magnetic separation. If necessary, those given above Shredding processes can also be used in combination.

If the crushed foundry sand is present, it is placed in a suitable device in spent in a plant where it is first mixed with water. There is so much water added until a mushy mass forms from the foundry sand. The amount of Water depends on the grain size of the sand.

Then the pulp mixture is moved intensively by external forces. It has it turned out that the aqueous sand pulp is advantageously stirred vigorously. Such treatment can be carried out, for example, in an attraction device which can also be multicellular. It is stirred vigorously to make one as possible to ensure strong friction stress. Due to the intensive stirring movement the silica residues on the surface of the grain of sand and also other residues removed.

In an advantageous embodiment of the present method, the water Cleaning substances added. These include, for example, acids or bases usually entered in small quantities.

After the treatment in the attrition device, the treated sand porridge is rinsed with water and the water is discharged into a separate tank for its treatment. In this tank, the drained water is preferably treated with a precipitant in order to precipitate the silica as silicates. It has been found that, for example, H ₂ SO ₄ or FeClSO ₄ can be used as the precipitant. When H ₂ SO ₄ is added, the pH is reduced to 4 and then increased to pH 9 with lime. When using FeClSO ₄ , the pH is adjusted to 6 and then brought to a value of 11 with lime. However, all other precipitants that can precipitate the silica out of the water can also be used. After the sediment has been separated off, the water can easily be fed back into the circuit for the regeneration of water glass-bound foundry sands. This means that there is no waste water that would have to be disposed of in other ways.

After draining the water containing silicic acid, the remaining water is depleted Porridge continues to be dewatered and finally dried using conventional methods, preferably in the heat. The sand can then cool down after another Use can be supplied. It lends itself to the regenerated sand again is used for molding.

The method according to the invention is absolutely environmentally friendly in two respects economically. The foundry sands discarded so far are simple regenerated and returned to the molding. The regeneration The resulting silicic acid water is drained off and easily through a Precipitant freed from the silicates. After sedimentation and removal of the silicates the purified water can be returned to the regeneration cycle. On In this way, no wastewater is generated, which is separately or again laboriously cleaned should be disposed of.

Claims (10)

1. A method of regenerating foundry sands bound with water glass, comprising the following steps:

• - mechanical pre-treatment of the foundry sand;
• - Adding water to the pretreated foundry sand until a pulpy mass is formed;
• - moving the pulp by external forces;
• - rinsing the treated porridge with water;
• - draining the water for treatment; and
• - Dewatering and drying the porridge to form a sand for further use.

2. The method according to claim 1, characterized in that the foundry sand is pretreated by shredding tubers. 3. The method according to at least one of claims 1 or 2, characterized characterized that the aqueous sand pulp is stirred. 4. The method according to claim 3, characterized in that the porridge in an attrition device is stirred. 5. The method according to at least one of claims 1 to 4, characterized characterized in that cleaning substances are added to the water. 6. The method according to claim 5, characterized in that as Cleaning agents acids or bases can be added. 7. The method according to at least one of claims 1 to 6, characterized characterized that the drained water in the treatment with a Precipitant is treated.   8. The method according to claim 7, characterized in that H ₂ SO ₄ or FeClSO _{4 is} used as the precipitant. 9. The method according to claim 7 or claim 8, characterized in that the treated water is returned to regeneration. 10. The method according to at least one of claims 1 to 9, characterized characterized that the regenerated sand is used again for molding becomes.