DE10240572A1 - Aquarium or pond water filter giving appropriate water hardness and pH values comprises a selected absorbent or mixed absorbent on a support - Google Patents

Abstract

The supported adsorbent used in an aquarium or pond water filter is of zeolite, aluminum oxides, bentonites, natural materials such as peat or peat products, cellulose-based materials, activated carbon or synthetic ion-exchangers. An Independent claim is included for the manufacture of the filter by applying the finely-divided absorbent as an aqueous solution or suspension or slurry onto the support.

Description

The present invention relates to an aquarium and pond water filter to remove substances from water and aquariums, which is a carrier material and contains adsorbent applied thereon, a method of manufacturing this filter material and the use of the filter material in pond and / or aquariums.

In artificial waters like in aquarium and garden ponds, it is without the use of water filters not possible, which are difficult, optimal water quality and therefore suitable living conditions for the keep fish and aquatic plants kept there. The Water filters have the task of solving dissolved and undissolved substances, which is the water quality affect to remove. Because both in garden ponds and in aquariums the small size no natural Can establish a balance between the individual life beings, accumulate metabolic products and the pH increases continuous water purification required.

The filter materials contained in the filters act as an adsorbent. They are flowed through by the water and in Dependence on of affinity of the substances to be removed compared to the filter material the unwanted Substances removed from the water. In the state of the art known filter materials are usually pourable substances, z. B. activated carbon, which are filled in a cartridge or similar containers. This cartridge is flowed through by water, so the water and the substances to be removed in contact with the filter material come.

Also from the state of the art Filters known in which the adsorbent on the corresponding support materials is applied. However, these filters have the disadvantage that the adsorbents not sufficient on the carrier materials be liable. There is also the disadvantage that when elastic or flexible Filter materials are used that are soft or elastic Lose character by applying the adsorbent. The low adhesion of adsorbent to the carrier material also has the Disadvantage that the Active substances are released from the carrier material even at low loads. Pollutants can not held securely on the carrier material with these filter media and thus not completely be removed from the water.

The part also described or total loss of the flexible nature of the filter material, such as. an elastic sponge, also leads to the limitation of Applications. filter sponges are common used in cartridges of filters. The dimension of the sponge is here chosen so that this External dimension is only slightly larger than the inside dimension of the Filter. When inserting the sponge, it should be possible to squeeze it, so he fits well into the cartridge can be. Subsequently the sponge expands again and evenly fills the interior of the cartridge out. By filling in the Interior exists for the flowing liquid a uniform flow resistance within this filter space. As an adsorbent for the water filter is usually used Activated carbon used. Activated carbon is a versatile one Adsorbent, but shows compared to those to be removed from the water Substances have a very different affinity, so that the substances in different Extent to be removed the adsorption capacity across from however, many substances are not sufficient.

Another disadvantage of water filters, in which pourable substances placed in a water cartridge is that very large amounts of adsorbent needed to be one for the water was big enough Adsorption space available too put.

The adsorption effect of filter media is based, as already described, on their affinity for the substances to be removed, furthermore the water to be cleaned must have a brought into contact with the adsorption material for a certain period of time become. In artificial waters like garden ponds or aquariums, the water is Pump pumped. The contact time between the filter material and The water is determined on the one hand by the distance that the water has to go through in the filter, on the other hand by the flow velocity, which is determined by the water pump.

A major disadvantage of out the water filter known in the art is that it is only for relative size Amounts of water are suitable. The adsorbents become common used as a pure substance, which is very expensive on the one hand and Others, especially in small volume aquariums, that Cleaning effect is too strong.

There is also no specific adaptation of the filter material to the water to be cleaned or to the microorganisms living in the water. There are no known water filters with which it is possible to adjust the water quality directly to the requirements of the aquatic plants or fish living in the pond or aquarium. For example, there are a variety of fish that are kept in aquariums that come from the so-called soft water area. In order to optimize the living conditions of these fish, it is important to keep the water hardness as low as possible. The problem of water hardness goes hand in hand with the fact that the pH is too high. Under normal conditions in an aquarium, the pH value is above 7, often also above 7.5. However, fish prefer values below 7, preferably at 6.5. To regulate the pH value, häu fig acids, such as NaHSO ₄ , citric acid, humic acids (from oak bark extracts) added. However, the addition of these substances has the disadvantage that this increases the electrolyte content and thus the conductivity of the water.

The disadvantage of pH values above 7 can be seen in particular in the poor availability of CO ₂ (necessary for the plants). CO ₂ is present at high pH values in the form of CO ₃ ^2– and only contributes to the water hardness of the water, but is not available to supply the plants. The plants need CO ₂ for photosynthesis and produce the products sugar and oxygen from CO ₂ , water and sunlight. If CO _{2 is} not available in sufficient quantities, plants can extract CO ₂ directly from carbonic acid, ie from carbonate. This process is called biogenic decalcification, which is noticeable by a brownish-gray coating of lime on the leaves of the aquatic plants and results in water saturation with oxygen, a low CO ₂ content and an increase in pH.

For plants that have ammonium in their Tissue will store the ammonium in ammonia at a pH above 8 converted. It can over Night to disintegration on leaves or whole plants. A process that is not reversible and to which Aquatic plants great Cause damage can.

The object of the present invention was accordingly based on eliminating the disadvantages described above and a water filter is available with which it is possible is substances and pollutants in a defined amount from water to remove the essential cornerstones of aquatic chemistry bring about in the water, for example to retain a defined amount of carbonate in the water and e.g. the water hardness and adjust the pH to a defined value.

According to the invention, this object is achieved by an aquarium and pond water filter, which is a carrier material and adsorbent applied thereon, characterized in that is that Adsorbent selected is made of zeolites, aluminum oxides, bentonites, natural Adsorbents, such as peat and peat products, materials Cellulose base, activated carbon, synthetic ion exchange resins and any mixtures of the above.

By the aquarium and Pond water filters can mildly affect water quality for those in it kept living beings advantageous conditions are set. "Milde Wise "means that the Regulation process preferably completed after a day or two should be. Find the change the water quality faster, this means a considerable strain on the plants and animals. The speed of the process should also not be too slow be, as the effect of the excretion products of the animals or photosynthetic products of the plants can be removed can.

The aquarium and pond water filter according to the invention has the advantage that the adsorbent applied to it so coordinated can be that too removing substances targeted, i.e. the substances themselves and also their amount, can be removed. Through the targeted selection of the adsorbent, it is possible to select the specific one Adjust cleaning performance of the filter material, thereby a predetermined water quality can be obtained. For example, it is possible to use the filter material according to the invention in artificial waters including aquariums, the water hardness (Carbonate) and also adjust the pH to a predetermined value.

In a particularly preferred embodiment of the present invention the filter material is a mixture of at least two different ones Adsorbents. An adsorbent is particularly preferred an ion exchanger, especially based on synthetic synthetic resins, such as "Lewatit" is offered by Bayer AG, Leverkusen.

The adsorbent contained according to the invention has the task of harmful Remove substances from the water and / or stabilize the pH or to a value around 7 or below. The adsorbent lies in particulate Form before. The particle size should be on the pore size of the carrier material be coordinated. By applying adsorbent the pore size of the support material reduced, with only a slight change that the to be processed Water with a high flow rate can pass through the filter and the contact time between Adsorbent and water is too short to be satisfactory To ensure cleaning or refurbishment. Is the particle size on the other side too high, can the pores of the carrier material clog up so that Water cannot pass through the filter. An optimal one Passage rate of water is achieved when the adsorbent a particle size between 100 μm and 2000 μm, in particular between 150 μm and 1600 μm, having.

The adsorbent can be applied to the carrier material in a customary manner, the binding between the carrier material and adsorbent being effected by simple van der Waals forces. The durability and thus the service life of the filter material can be increased if the adhesion between the carrier material and the adsorbent is improved. This can be done, for example, by first applying an adhesive to the adsorbent, to which the adsorbent adheres. Adhesives, for example, can be used as adhesives, wherein thermally curable adhesives are particularly preferred. Adhesives which can be used in the filter materials for water filters according to the invention include, in particular, those which do not release any harmful substances into the water. Adhesives based on latex are particularly preferred. The latex-based adhesives have the advantage that they retain a certain elasticity even after hardening and do not release any toxic substances. Suitable latex-based adhesives are, for example, polychloroprene dispersions. The optionally used adhesives are preferably thermally curable.

Any porous support materials can be used as support materials for the adsorbent, which are neutral when used in water, ie have no effect on the water quality. The carrier material is preferably selected from inorganic or organic materials with an open-cell structure. In order to allow the filter material to be optimally fitted into a finished water filter, the carrier material should preferably be permanently elastic, ie it should return to its original shape after deformation. Open-pore foam plastics are particularly preferably used as carrier materials, which in particular have a specific surface area of 4-20 cm ² / cm ³ , which corresponds to a cell number of approximately 1 to 6.5 cells per cm.

Another object of the present invention is a process for producing the above Filter material in which the adsorbent on the carrier material in finely divided form, as watery solution and / or suspension / slurry is applied.

Will adhesive for improvement the liability between carrier material and adsorbent is used on the carrier material first the adhesive and then the adsorbent is applied in a manner known per se.

The adhesive is preferably a Adhesive, which is in the form of a solution and / or emulsion, etc. In liquid The present adhesive is preferably soaked in the support material applied with adhesive. Excess adhesive can be removed in a manner known per se by pressing etc.

The application of fine or powdery Adsorbent can also be well known to those skilled in the art Procedure. In one possible embodiment the adsorbent is applied in a rotating coating chamber. In another possible one Design is the adsorbent by pouring on the surface of the carrier material applied, preferably the filling takes place in a relative movement between carrier material and newly added Adsorbent, preferably by moving the carrier material into a vibration.

If necessary, use adsorbent loaded carrier material dried in a subsequent process step. The drying process can, provided the Adsorptiomsmittel a corresponding thermal stability exhibit, even with increased Temperature become. If necessary, excess adsorbent is in a final one Process step removed in a conventional manner.

Another object of the present invention concerns the use of the filter material in a pond or Aquarium internal filter. In a preferred embodiment, the Filter material to remove phosphate, carbonate, nitrate etc. used from the water.

Claims (12)

Aquarium and pond water filters, which is a carrier material and adsorbent applied thereto contains that the adsorbent is selected from zeolites, aluminum oxides, bentonites, natural adsorbents, such as peat and peat products, cellulose-based materials, activated carbon, synthetic ion exchangers. Aquariums and pond water filters according to claim 1, characterized characterized that the Adsorbent over an adhesive, in particular an adhesive, to the carrier material liable. Aquarium and pond water filters according to claim 2, characterized in that the Adhesive is a thermosetting Adhesive is, preferably a latex-based adhesive. Aquarium and pond water filters according to one of claims 1 to 3, characterized in that the support material selected is made of inorganic or organic materials with an open cell structure. Support material according to claim 4, characterized in that the support material is an open-pore foam plastic with a specific surface area of 4-20 cm ² / cm ³ . Aquarium and pond water filters according to one of claims 1 to 5, characterized in that the support material is permanently elastic. Aquarium and pond water filters according to one of claims 1 to 6, characterized in that the Adsorbent is a mixture of at least two different ones Is adsorbent. Aquarium and pond water filters according to one of claims 1 to 7, characterized in that the adsorbent has a particle size between 150 microns and 1.6 mm, preferably between 100 microns and has 2 mm. Process for the production of an aquarium and pond water filter according to one of the claims 1 to 6, characterized in that on the carrier material Adsorbent in finely divided form, applied as an aqueous solution and / or suspension / slurry becomes. A method according to claim 9, characterized in that this support material first is applied with adhesive. Use of the aquarium and pond water filter according to one of the claims 1 to 8 in a pond or aquarium filter. Use according to claim 11 for the removal of Phosphate, carbonate, nitrate, etc. from pond and / or aquarium water.