NL1007105C2 - Porous ceramic products used as e.g. filters, horticultural products or construction elements - Google Patents

Abstract

A synthetic elastic foam mould is filled and impregnated with liquid clay and then fired in an oven at a temperature high enough to burn the foam. A method for making a ceramic product from natural clay by shaping it whilst in the viscous state and then firing, comprises the following steps : (i) a mould is prepared from synthetic elastic foam containing a large number of interconnected pores, channels etc., the mould having the same shape as at least part of the product ; (ii) clay is mixed with liquid to form a liquid clay material ; (iii) the mould is brought into contact with the liquid clay, which is impregnated and/or kneaded into the foam until the outer surface of the mould is covered with a layer of clay ; (iv) the clay is dried ; (v) the clay-coated mould is fired at a temperature high enough to burn the mould. An Independent claim is also included for the ceramic products made by this method. CERAMICS AND GLASS - PREFERRED METHOD : The liquid mixed with the clay contains a sodium silicate, sodium carbonate and/or sodium polyacrylate, preferably water glass. The mould is formed from several layers of foam with different pore and channel sizes, which are individually coated with clay and then placed together for firing as a single unit.

Description

A method for manufacturing a ceramic product from natural clay as well as a ceramic product manufactured according to the method

The invention relates to a method for manufacturing a ceramic product from natural clay by molding clay in a viscous state and subsequently firing a product.

Methods of the above kind are widely used in the manufacture of many products for household use, for plant cultivation and for building materials. A known property of such products is that they may be slightly porous due to microscopic openings between sintered clay particles. Variations in the porous properties can be obtained by variations in the choice of the starting material or the manufacturing method of the product. If a non-porous product is required, it is usual, for example with plant pots or tiles, to cover the product with a moisture-impermeable glaze. The product can also be baked at a higher temperature.

For some applications, it would be desirable to manufacture natural clay ceramics that have greater permeability to gases and liquids. The object of the invention is such a method and is characterized in that the method comprises the steps of manufacturing a molded product from elastic, plastic-containing foam with a plurality of interconnected pores, channels, etc. and with an external shape substantially corresponding to at least part of one or more of the desired ceramic products; mixing an amount of said clay with a suitable liquefying agent to form a liquid clay mass; contacting the molded product with the liquid clay mass and impregnating and / or kneading the molded product with the liquid clay mass so that the external surface of the molded body, including the walls of the pores, channels, 1007105 * 2 etc., is covered by a layer of clay mass; if necessary, subsequently drying, at least to a certain extent, the clay mass, and baking the molded product provided with the clay mass coating at a temperature at least sufficient to burn the molded product. If desired, the molding product can be placed on or in a supporting mold prior to drying. By applying this method according to the invention, ceramic products can be formed from natural clay with the character of a filter with openings 10 of a chosen average size, which is largely determined by the plastic foam used.

In the context of the present application, "natural clay" is understood to mean: a mass consisting of one or more clay-like minerals, optionally mixed with sand and / or quartz.

It said here noted that use of a plastic foam for the manufacture of a ceramic foam is known per se. However, it is based on very specific materials, such as aluminum oxide, titanium oxide or zirconium oxide and not from natural clay. Surprisingly, it has also been found according to the invention to use natural clay to obtain a ceramic filter. Although the clay in the filter foam matrix could be expected to shrink during firing and if cinders disintegrate, testing has shown that a good product can nevertheless be produced. The explanation for this cannot yet be given, but could for instance be related to the great interrelationship of the clay particles prior to baking and the almost complete sintering of the clay during baking.

A suitable embodiment of the invention is characterized in that the liquefying agent comprises the sodium salts of silicates, carbonates and / or polyacrylic acids, for example water glass.

A very interesting embodiment of the invention is characterized in that the molded product is built up of several layers of elastic, comprising a plastic, foam with a plurality of interconnected pores, channels, etc., and with an external shape which substantially corresponds to one or more of the desired ceramic products, the layers differing in the average size of the pores, channels, etc .; that said layers are each provided with a clay mass covering; that the layers are placed on top of each other; and that the multilayer molded product is baked as a whole; so that a ceramic product is obtained comprising a number of layers, each of which is provided with a plurality of interconnected pores, channels, etc., the layers differing with respect to the average size of the pores, channels, etc. present. By using this embodiment, products with varying porosity can be manufactured with little effort and, optionally, products can be manufactured with a porosity that changes to zero, or rather, to the natural porosity of the baked clay itself .

According to a further embodiment of the invention, a method of the foregoing type for manufacturing a ceramic product for use in a biotope such as a pond, a terrarium or the like or for use with a crop can be characterized in that at least part of the clay mass is mixed with growth and / or health-promoting additives.

The invention also relates to ceramic products manufactured by a method of the above-mentioned kind. Advantageous products are defined in subclaims 6 to 20 and will be further elucidated on the basis of the drawing which, for illustrative purposes only, shows in a non-liminative manner a number of embodiments of the invention and where -30 in: Figure 1 shows a perspective, partially sectioned view of a generally rectangular three-layer product with different porosities according to the invention; Figure 2 is a cross section of an air outflow stone for use in aquariums; figure 3 is a cross-section of a filter element for aquariums; 1007105 ^ 4 Figure 4 is a perspective view, partially in section, of an element for growing young plants; Figure 5 is a perspective view of a porous clay granule of any external shape as an alternative to lava granules in filters and hydroponics applications; Figure 6 is a section of a flower pot in which a drainage disc according to the invention is placed; figure 7 shows a schematic partial cross-section of a possible embodiment of a bottom element for use in aquariums; figure 8 shows a partial perspective view of a cultivation substrate according to the invention for the cultivation of young plants; Figure 9 shows a perspective view of a product according to the invention which can be used as a water-permeable terrace pot for plants; Figure 10 is a cross-sectional view of three inter-assembled modular plant pots according to the invention for growing fast-growing plants such as trees and shrubs; figure 11 is a perspective view of a possible building element according to the invention; figure 12 is a schematic cross-section of a ceramic filter according to the invention provided with a thin surface layer of activated carbon; and Figure 13 is a partial cross section of a barbecue grate with a lighting element according to the invention.

The drawings are drawn on an arbitrary scale and varying from figure 30 to figure and serve only to illustrate the inventive idea.

For the sake of convenience, when speaking of products made from baked clay, reference will be made to products from pottery.

Figure 1 shows a three-layered fluid filter according to the invention. The filter can have an arbitrary shape, but is basically thought of as rectangular in the drawing. The filter is denoted in its entirety by the reference numeral 1 and comprises three different layers numbered 2, 3 and 4. In addition, the layer 2 has the largest number of 1 × 7105 <5 openings per unit length, for example openings per centimeter, layer 3 has a smaller number of openings per centimeter, so that the openings can be larger and layer 4 has the largest openings and the smallest number of openings 5 per centimeter. This allows the fluid filter to retain larger particles with the help of the layer 4, smaller particles with the layer 3 and the smallest particles with the layer 2. Such a layered construction of the filter may be advantageous under certain circumstances, but the filter 10 may consist of only a single layer if desired. An important advantage of using an earthenware filter according to the invention consists in the fact that the filter forms a sturdy plate, in contrast to filters made, for example, from a plastic foam. Due to their inherent lack of rigidity, filters made of plastic foam usually have to be supported over the entire surface and placed in a support frame. Such a support and support construction is not necessary when an earthenware filter according to the invention is used. Another advantage of the earthenware filter according to the invention is that in many cases it can be regenerated by placing the filter in an oven and heating it to a temperature at which the particles and / or liquids trapped by the filter burn and / or evaporate. An earthenware product is particularly resistant to such treatment, so that the filter can be reused after regeneration.

Figure 2 shows another application of the invention. In this case it is a so-called air outflow stone for aquariums and the like, indicated by the reference number 5. Air outflow stones are used in aquariums for blowing finely distributed air bubbles into the aquarium water. The known outflow stones, which have been widely used up to now, consist of sintered grains 35, the air being forced through the spaces between the grains. The air outflow stone 5 according to figure 2 of earthenware with a sponge structure offers an interesting alternative. The outflow stone 5 has, for example, a cylindrical shape, in which from one of the end surfaces a blind cavity is present, in which an air supply pipe 6 provided with a number of air outflow openings 7 is fixed, for instance by gluing. It is expected that it will be possible to produce air outflow stones with very small openings, so that air bubbles of very small dimensions can be produced. This is of great importance for improving the transfer of the oxygen present in the air to the water.

Figure 3 shows a water filter 8 for use in aquariums. It comprises a filter stone 9 of arbitrary external shape with a blind hole 10 arranged therein. In the blind hole 10 an outflow stone 11 is placed to which air can be supplied by means of a pipe 12. By forcing air through the outflow stone 11 through the pipe 12 under water, a flow of air bubbles arises which rises through the hole 15. Water is thereby transported upwards which is supplemented from the vicinity of the filter stone via the filter stone 9. The supplemented water is thereby transported through the filter stone, so that a filtering action occurs.

Figure 4 shows a sinking stone 13 for a water plant. The sinker consists of a pottery block 14 made from a suitable, relatively coarse, filter foam so that relatively large openings are present in the block 14 for the roots of a plant to grow in. A blind hole 15 is cut out centrally in the top surface of the stone. The roots of a water plant are placed therein, after which the water plant is fixed in the stone 14, for example by filling the opening 15 around the plant with slightly pressed rock wool. The plant can now be sunk together with the sinking stone in a pond or an aquarium. The weight of the block 14 ensures that the combination of the sinker and the aquatic plant will sink to the bottom of the pond or aquarium. There the plant can grow and settle with its roots in the pores of the sinking stone.

Figure 5 shows a clay grain 16 according to the invention. A clay pellet with a size in the order of 1 to 2 centimeters has been considered here, which has been manufactured industrially and in the drawn case is by way of example only in the form of a truncated cone.

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However, this shape has been chosen entirely at random, in principle any arbitrary regular or irregular suitable shape can be used. Such granules are suitable for use in so-called hydroponics for plants or as a filling for filters, for example pond flashers. So-called lava granules are widely used in hydroponics today. These are earthenware grains which are manufactured by foaming a more or less liquid clay mass with the aid of a foaming agent mixed through it and baking the foamed clay mass into granules. However, a controlled sponge-shaped structure does not occur and the open structures with through channels that are possible with the aid of the invention do not arise. The baked clay granules 16 can be provided, through the method of the invention, with through-openings such that plant roots can grow therein. This is not possible with the known lava granules. At most a few capillaries are able to penetrate somewhat into the lava granules.

The earthenware filter from figure 1 is suitable for use as an air filter in air treatment installations. Here too, the advantage of the sturdy cantilever shape is important. If desired, the earthenware filter 1 of figure 1 can be used as a humidifying plate in an air treatment installation. In such an application it is important, for example, to supply water to the filter via one or more of the sides of the filter. This can be done, for example, by partially placing the filter in a water reservoir.

In figure 6 a drainage product 17 according to the invention is shown which serves to be placed in the soil near a plant. In the drawn case the drainage product consists of a pottery drainage disc 17 which is placed on the bottom of a plant pot 19 filled with earth 18. At the bottom the plant pot is provided in a known manner with a hole 20 for draining excess water. When new soil is placed in a plant pot, this hole 20 is usually covered, for example by a pot shard, in order to prevent the soil placed in the pot from partially leaving the pot again via the opening 20. According to the invention, a drainage stone 17 can advantageously be placed under the pot. This 1 Π, -Λ r ~ /! IJ 5 1 8 not only desirably covers the hole 20 but also forms a reservoir for storing a certain amount of water in the cavities within the stone, which water can then be slowly released to the soil 18. Once the stone 17 is saturated with water, the excess water can flow out of the pot through the opening 20 in the usual way. However, a great advantage is that the water storage capacity 17 of the drainage stone can protect the plant placed in the pot from drying out over a certain period of time.

Figure 7 shows a pottery product according to the invention consisting of a bottom element 21 for an aquarium. The bottom element consists of a plate 22 with raised edges 23. It can be placed on the bottom 24 of an aquarium and between the walls thereof, of which only wall 25 is shown in figure 7. A space 26 is present between the bottom 24 and the plate 22. In this space, which of course is filled with water in the aquarium, an outflow stone 27 is placed, to which air is supplied via a supply pipe 28. Directly above the air outflow stone 20 is a riser pipe 29 which is fixed in the plate 22, for example by glue. During use, the air outflow stone 27 produces a bubble stream in the water, which rises through the riser pipe 29 and thereby transports water from the space 26. This creates a certain underpressure in the space 26, which results in water passing through the porous plate 22. is supplemented from the top of the bottom 21 to the space 26. The entire bottom 22 thus acts as a filter. Micro-organisms can be deposited in the spaces within the filter, which help to maintain a healthy climate within the aquarium.

Plates, whether or not flat or provided with protruding parts, or of a shape other than plates 21, can be used in terrariums or in a palludarium in addition to aquariums. Due to the natural character of the product, namely earthenware baked from clay, such a plate is very suitable for such an application. If desired, the plate can be used for filtering air or water, placing plants in openings in the plate, etc. Due to the high moisture absorption capacity, the plate also has a moisture-regulating effect.

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Baked clay granules according to the invention, such as the clay granule 16 according to figure 5, can also be used in an aquarium or pond as a biological substrate. In this connection, biological substrate is understood to mean a body that can serve as an attachment site for reficing bacteria. The currently widely used lava chunks have a less open structure and release a lot of fine dust and grit into the water in the pond or aquarium.

Figure 8 shows another application of an earth work plate according to the invention. In this case, the plate 30 is used as a culture plate for a utility crop such as a tomato plant 31, a cucumber plant or the like. The seed 32 is placed directly on the plate 30 and the roots 33 from the seed grow in the cavities of the plate 30. The plant 31 thus obtains a firm anchoring in a natural material, namely earthenware baked in clay. If desired, the culture plate can be provided with cavities for placing seeds or small plants. The culture plate can be supplied by suitable means with the necessary water and nutrients for the plants 31, which are distributed evenly throughout the plate by the spongy structure of the plate and are evenly distributed to the plants.

Figure 9 shows a clay module 34 consisting of a baked pottery body 35 with a sponge-like structure 25 with a cavity 36 disposed therein for placing a plant seed or a young plant. In the embodiment shown, the pottery body 35 is roughly externally in the shape of a plant pot. However, this is by no means necessary. The material of the body 35, the sponge-like structure and the dimensions of the openings therein are all chosen such that the growing roots of a plant placed in the cavities 36 can eventually grow into the body 35 and eventually the matrix of fried break clay. The clay module 34 can thus be used for the cultivation of 35 plants such as shrubs and trees which, while the body 35 is still intact, can be placed in the soil and grow there without being hindered by the pottery body 35. into the surrounding earth.

The embodiment of the invention according to Figure 10 is also interesting in this connection. This embodiment shows three plant pots 37, 38 and 39, which are placed in each other and adapted to each other in shape and size. Such plant pots manufactured according to the method offer an interesting alternative to the current pottery plant pots, which only have a low water absorption capacity. Plant pots manufactured according to the invention can absorb much more water and thus form a water reservoir for keeping the soil moist within the pot. A hole at the bottom of the pot as with the known plant pot 19 shown in figure 6 is then in principle not necessary. Excess water can be drained out through the open structure of the pot. Such plant pots according to the invention could for instance be eminently suitable for placement on terraces and in gardens and there they can protect the plants placed therein from drying out for a long time, depending on the mass of the wall of the pot. The plant pots can moreover be designed as a clay module in accordance with the clay module 34 of figure 9. By the time the plant growing in the plant pot with its roots grows through the pot, the plant with pot and all can be placed in a larger pot and grow there, eventually breaking the matrix of fired clay from the plant pot by the growing roots of the plant. The remaining parts of the clay module do not hinder the growth of the plant and also function as extra drainage stones.

Figure 11 shows that the invention can also be used for manufacturing building elements such as the brick 40 shown. A ceramic brick with a spongy structure can be useful, for example, for building walls in a garden. All other building elements can be thought of tiles and the like.

Figure 12 shows very schematically that a layer of activated carbon 42 can be suitably deposited on a sponge-like matrix 41 of baked clay so that the product can function as an active carbon filter with a very large active surface.

Figure 13 shows application of the invention as a lighting element in a charcoal grill. On the bottom 43 of the 40 grill, which is shown only very partially, there is a lighting element 1 0 0? 1 0 5.

11 placed in the form of an earthenware plate 44, in this case kept at a distance from the bottom 43 by means of spacers 45 which may or may not be integral with the plate. Charcoal chunks 46 are poured on top of the firing plate 44, after which the grill grate with bars 47 can be placed on the grill. The firing plate 44 is sprinkled with a firing liquid such as spirit, whether or not prior to the application of the charcoal chunks 46. When ignited, the fuel stored in the firing plate 44 burns over the entire surface of the firing plate so that an even firing of the charcoal chunks 46 takes place . The required air supply can optionally take place via the space 48 which is located between the bottom 43 and the firing plate 44 and subsequently transversely through the firing plate 44, but can also be realized in another way, for instance through holes in the firing plate 44 and or elsewhere in the grill. Earthenware plates according to the invention are not affected by the heat of the charcoal and can therefore be used again and again. If desired, several separate generating elements can be used.

An embodiment of the invention, not shown but related to the firing plate shown in Figure 13, could consist of a burner element, in particular for burning a gaseous fuel. For example, the air outflow stone of Figure 2 could be modified to outflow a gas stream which is supplied through the nozzle 6 and could be ignited in the air at the surface of the stone 5. Such a burner could also be manufactured in a different form, for instance in block form or plate form. Gas could be supplied at several places. Furthermore, air could be supplied into the burner element, so that combustion already takes place partly in the burner element.

In the various described and other similar embodiments for use of the invention in a biotope such as a pond, a terrarium, or the like or for use with a crop, the clay mass can be mixed with growth and / or health-promoting additives during manufacture. which is gradually changed by the baked product. 12 whether the can be delivered thereon and / or in growing micro-organisms or crops.

It is possible to design certain parts or surfaces of the ceramic product not with a sponge structure, but as a solid layer or as a solid part of fired clay. This could be done, for example, by sealing an external surface of the molded plastic foam body with a clay mass prior to baking.

In summary, a number of properties of the products of the invention can be summarized as follows: - a very light pottery; - large capacity for storing water or other liquid; 15 - greater compressive and tensile strength than filter foam made from plastic; - can be manufactured in practically any desired shape; - natural, environmentally friendly product which can be easily regenerated by re-baking; - resistant to a wide range of chemical and physical influences; - has heat insulating properties; - easy to edit with usual methods; 25 - can be disposed of in an environmentally friendly manner with household waste; - open structure with flow channels communicating through the entire material; - leveling effect on temperature fluctuations; 30 - leveling effect on moisture balance; - cheap natural raw materials.

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Claims (20)

Method for manufacturing a ceramic product from natural clay by molding it in a viscous state from clay and then baking a product, characterized in that the method comprises the steps of: 5 producing a molded product from elastic, a plastic comprising foam having a plurality of interlocking pores, channels, etc., and having an external shape substantially corresponding to at least a portion of one or more of the desired ceramic products; Mixing an amount of said clay with a suitable liquefying agent to form a liquid clay mass; contacting the molded product with the liquid clay mass and impregnating and / or kneading the molded product with the liquid clay mass, so that the external surface of the molded body, including the walls of the pores, channels, etc., is covered by a layer of clay mass; if necessary, subsequently drying at least to a certain extent the clay mass; and baking the molded product with the clay mass coating at a temperature at least sufficient to burn the molded product. 2. Process according to claim 1, characterized in that the liquefying agent comprises the sodium salts of silicates, carbonates and / or polyacrylic acids, for example water glass. Method according to claim 1 or 2, characterized in that the molded product is built up of multiple layers of elastic, plastic-containing foam with a plurality of interconnected pores, channels, etc., and with an external shape which substantially corresponds to one or more of the desired ceramic products, the layers differing in the average size of the pores, channels, etc .; that said layers are each provided with a clay mass covering; that the layers are placed on top of each other; and 1. f3 * r \ r-tü (! U 5 i) that the multi-layered molded product is baked as a whole, so that a ceramic product is obtained comprising a number of layers, each of which is provided with a plurality of 5 together communicating pores, channels, etc., the layers differing in terms of the average size of the pores, channels, etc. present 4. A method according to any one of the preceding claims for manufacturing a ceramic product for use in a biotope such as a pond, a terrarium and the like or for use with a crop, characterized in that at least part of the clay mass is mixed with growth and / or health promoting additives. Ceramic product manufactured by a method according to any one of the preceding claims. Ceramic product according to claim 5, characterized in that the product (1, 8) consists of a fluid filter. Ceramic product according to claim 5, characterized in that the product (5) consists of an air outflow stone for aquariums and the like. Ceramic product according to claim 5, characterized in that the product consists of a sinking stone (13) for an aquatic plant. Ceramic product according to claim 5, characterized in that the product consists of a clay granule (16). Ceramic product according to claim 5, characterized in that the product consists of an air filter (1) for an air treatment installation. Ceramic product according to claim 5, characterized in that the product consists of a wetting plate (1) for an air treatment installation. Ceramic product according to claim 5, characterized in that the product consists of a drainage product (17) for placing in the soil near a plant. Ceramic product according to claim 5, characterized in that the product consists of a wall part (21) of an animal shelter such as an aquarium, a palludarium or a terrarium. 14. Ceramic product according to claim 5, characterized in that the product consists of a biological substrate 1 007105 for placement in a marine biotope such as an aquarium or a pond. Ceramic product according to claim 5, characterized in that the product consists of a culture plate (30) for a utility crop, such as a tomato plant, a cucumber plant or the like. Ceramic product according to claim 5, characterized in that the product consists of a clay module (34) with a cavity for placing a plant seed or a young plant, the clay module having such a strength that the matrix of baked clay is breakable due to the growing roots of the plant. Ceramic product according to claim 5, characterized in that the product consists of a plant pot (37-39). Ceramic product according to claim 5, characterized in that the product consists of a building element such as a brick for building walls and the like, a tile, etc.. Ceramic product according to claim 5, characterized in that the product is provided with a layer of active carbon (42) deposited on the baked clay matrix (41) and the product consists of an active carbon filter. 20. Ceramic product according to claim 5, characterized in that the product consists of a lighting element for lighting a fire in charcoal or coal bricks. 1 007105 ^