DE19750952C2 - Plant granules with coded information carriers - Google Patents

Description

The invention relates to a plant granulate according to the preamble of claim 1.

Plant granules are used as a growing and growing substrate for plants or as an additive to such a substrate turns and should improve plant growth. Before plant pellets have a high adsorption capacity for nutrients and / or growth enhancers able to use these nutrients and growth enhancers to release a long period of time, so that on the one hand a Washing out of the nutrients is prevented and on the other hand additional fertilization is not necessary during this period. Plant granules can be used alone as growing and growth substrate can be used for plants or as an additive to such substrates.

Cultivation and growth substrates for plants which are fol quotes as well as earth substrates are called z. B. when grounding roofs and others not earthbound areas, in plant troughs, for special plants conditions as well as local quality improvement use of under and top floors. Such Erdsub strate are predefined from different components industrial formulations. The recipes who the taking into account the properties of the output  materials for the respective application and plants matched claim. For example, special sub strat mixes for intensive and extensive greening, Tree planting, underground car park greening, exotic planting, Underbody and topsoil preparation etc. known. For roof greening is the requirement for the composition of the various substrates, for example in the "guidelines for the planning, execution and maintenance of green roofs gen ", published by the FLL Forschungsgesellschaft Landscape development and landscaping e.V., Bonn, Aus 1995, described.

Such substrates for green roofs differ depending on the desired planting, the area load, the roof pitch etc. in their structure and composition tongue. Substrates for green roofs are usually used built up in layers and include, for example, vegeta tion-bearing layers, drainage and filter layers. There are also layered structures with or without water traffic jam.

Green roofs have a useful life of a variety of years, and often it is after a long time room after applying the green roof or not possible to determine which substrate for a certain green roof was used. This is a particular problem with regard to the question of manufacturers Liability for any damage or the later maintenance.

Special plant substrates are in DE 196 11 333 A1 and described in DE 295 17 526 U1.  

It is known to loosely encode particles into bulk material ben to mark this (DE 26 07 014 C2 and DE 196 14 174 A1). Also the labeling of drugs with encoded microparticles have been described (US 4,053,433).

Expanded clay bodies are disclosed in DE 195 41 470 A1, which are provided with a hydrophobic coating. These hydrophobically coated expanded clay bodies are said to be top layer applied to a plant substrate to reduce the evaporation of water. To the coated expanded clay bodies from conventional expanded clay bodies to make pern distinguishable and above all aesthetic for hydrophobic purposes be colored.

EP 0 669 392 A1 describes pourable substances by adding so-called label bodies clearly identify their origin or quality. Examples of label bodies that are in view must differ from bulk goods in terms of their appearance those made of cardboard, paper, corn or potato starch.  

According to EP 0, substrates for green roofs can also be used 669 392 A1 with marking bodies. Here broken colored expanded clay bodies into the substrate mixed in.

However, the procedure described has some drawbacks le. On the one hand is the information content that the colored ones Show expanded clay bodies, minimal. By weathering the Expanded clay bodies also go relative to the information (color) lost quickly. Falsification is also very easy possible, for example, by the colored expanded clay body be read out or different colored expanded clay bodies Lich mixed in the substrate or foreign substrates imitated tracers can be added to mislead.

If you want to prevent falsification, large pieces must be used numbers are added to colored labels, which on the one hand increases the cost of manufacturing the substrate and on the other hand negatively affect the quality of the substrate can impact.

Basically, relatively large quantities are already available Labeling bodies necessary to ensure that the label body in the sub without too much effort to be found again. Among other things, this affects disadvantageous that the label body loose in ge entire substrate are distributed.

Neither in terms of their information content, the stocks security and counterfeit protection of the information practical handling is that described in EP 0 669 392 A1 written label body therefore satisfactory.

The object of the invention is a possibility to create a growing and growing substrate for plants zen so that a variety of product-relevant  Information can be obtained easily. At for example, should draw conclusions about the manufacturer, the Date of manufacture and the type of substrate may be possible. The labeling should be tamper-proof and have no negative impact on plant growth.

The task is solved with a plant granulate with the characteristics according to Claim 1. The invention further relates to a method for the production of the plant granules according to claim 15 and the use of the granules according to claim 13. Further Embodiments and process variants result from the subclaims.

The invention thus relates to a plant granulate in An pronounced 1 composition, in which informa tion carriers are firmly integrated, with a readable Coding are provided.

The firm integration of information carriers into the plant Granules have several advantages. On the one hand, the number of Information carriers are kept low because within a growing and growing substrate for plants or a layered structure for green roofs or the like only a small part, namely the plant granulate, with the In formation carriers is provided. The firm connection of Information carriers and plant granules prevent the Information carriers washed out of the granules or on otherwise discharged from the granules. Except it is impossible for the information carrier from the granu lat remove or the information by adding othere falsify the label body to the plant substrate.

Because the information carrier the information in the form a coding, the information of the In formation carriers themselves are practically not changed.  

The coding also enables a variety of informa tion and basically all product-related information save.

The coding advantageously codes at least one of the following information: manufacturer, place of manufacture, man Position date, product identification number, product type or any otherwise information requested by the manufacturer. Preferably the coding contains several of the above-mentioned informa ions.

Even if the information carrier with the Plant granules are connected, it is basically possible Lich, a layer structure of plant granules according to the invention to mix which information carrier with a code tion typical of the entire layer structure is. The coding can then expediently contain all information included to identify and label the specific layer structure are necessary. Do you want to for example some time after the layer has been completed baus determine its product-relevant information it is sufficient to remove part of the plant granulate and the coding of the information contained in the granulate to analyze.

The coding can be done in the usual way, for example wise like this from the area of labeling goods is known in department stores or supermarkets. As coding For example, a dual code can be selected. It is also possible to use a color or magnetic code the. Magnetic coding is particularly useful because on the one hand those plant granulate bodies are special make it easy to find out which coded information containment carriers, and on the other hand the evaluation  of information without isolating the information carriers is possible. The color code suitably consists of one for the respective product characteristic sequence differ whose color bar. It is also possible to use different codie types of combination to a specific code kidneys.

The coding is done with the help of a suitable reading device read in a known manner and then out evaluates. Optical and magnetic reading are examples devices are called.

The readable codes in information media are preferred carriers trained based on a polymeric art fabric were manufactured. Preferred plastics are those that are very resistant to moisture and weather are. For example, particles based on alkyd or melamine resins.

The identification bodies are very small and have an advantage for example, a diameter in the range of 0.02 to 2 mm on. Such a very small plastic-based identification body with a color or magnetic coding are under the brands designation MICROTAGGANT® by Simons Druck + Vertrieb GmbH, D-48301 Nottuln, commercially available. The very small NEN bodies have the advantage that they are in the fiction moderate plant granules with the naked eye practically no longer are recognizable what the counterfeit security additionally he increases. Because of their small size, they also interfere not how the granules work.

The coded information carrier is expediently given to it Plant granules according to the invention added in an amount which is sufficient to the information carrier after application  of the plant granulate on the area to be landscaped without white to prove teres. Due to the small size and the firm Integration in the granulate is practically impossible, the information carriers completely out of the granulate and out Growth or growth substrates that the invention Contain granules, remove and so those in the codie to destroy the information it contains. Forgery the labeling of the substrate is practically excluded sen.

The plant granules according to the invention comprise at least one mineral and / or organic carrier material, which often fenporig and is not fired. This makes it rever sensitive absorption of water and nutrients and / or Enabled growth enhancers. Furthermore, it includes Plant granules according to the invention have at least one mineral chemical binder. Read into such plant granules the In with a readable coding Work in formation carriers particularly well.

The production of a corresponding plant granulate is in a further patent application by the applicant in detail wrote. In contrast to expanded clay, for example Base material not burned. This keeps the carrier material its open-pore structure, so that the fiction appropriate planting granulate for the intake and later release of Excellent water, nutrients and growth enhancers suitable is. The proportion of binder ensures that the planting granulate has a stable structure that the Load acceptance requirements, such as those in In case of green roofs exist, fulfilled. At the same time is achieved by combining carrier material with mineral Binder prevents carrier material and informa tion carrier can be washed out of the granulate.  

The planting granules preferably contain only mineral or organic, natural or semi-natural, Materials so that the plant granules do not affect the environment burdens. This also applies to the aggregates, fillers etc., which are also present in the plant granulate could be.

The plant granulate according to the invention thus produced is in able to water as well as needed by the plants Nutrients and growth improvers in large quantities too to save. The plant granules can be used for for example, with nutrients and growth improvements be fed that it after its manufacture or also only after application to the vegeta to be planted area or filling in the plant container with a concentrated, usually aqueous nutrient or Growth improver solution is soaked. When contacting Rainwater or irrigation water become the nutrients and growth gradually improve again from the plant granules triggered and released to the environment. Through the adsorp tion to the carrier material, however, this release occurs much slower than in conventional plant substrates. The fertilizing effect lasts for several years and is sufficient for the entire growing phase of the plants.

Particularly advantageous results are achieved if the Nutrients and / or growth enhancers not just after sluggish, but - like the information carriers - already during the production of the plant granules are added. Nutrients and growth verbs serer are then also in the plant granules is working. This is a very high feed rate degree of plant granulate with nutrients and growth ver better possible, and the fertilizing effect lasts particularly long on.  

Basically, all are suitable for the respective users known nutrients and growth enhancers. At Playful nutrients in the form of a water-soluble Nutrient salt mixture are called, which nitrogen, Phos Compounds containing phosphorus, potassium and / or magnesium includes.

Growth enhancers can take the form of, for example Clay-humus complexes are present.

The choice of mineral or orga African carrier material is also not special limited. The carrier material is open porous and not fired so that it is able to What water, nutrients and / or growth improvers reversible to adsorb. The carrier material is preferably selected from one or more clay minerals. Are suitable for for example, all clay minerals that are already in - not bound form - used in vegetation substrates have found. As examples of suitable clay minerals Bentonite, montmorillonite or kaolinite can be called. The Clay minerals can be of synthetic or natural origin be, the latter being preferred for cost reasons. It is useful to use natural clays that go together with their natural admixtures can. Because of the very low price, this can be invented carrier material according to the invention also from clay-containing sludges can be obtained, such as in gravel, Pumice or metal extraction accumulate as residues. Further examples of suitable carrier mat rialien are those made of paper mud ash, paper pile tat or bentonite rinse can be obtained.

Also the mineral bandage used mediums are not limited to a particular selection.  

It is sufficient that the binder with the carrier mat rial, the information carriers and where applicable existing other components of the Plant granules is compatible and to a plant granulate sufficient strength leads.

Adequate strength of the plant granules can be in usually achieved when the proportion of the binder in the entire plant granulate (without information carrier) 2 to 20% by weight, in particular 5 to 15 and preferably 7 to Is 10% by weight. The required proportion depends in particular the other from the other compos in the plant granulate abent. With regard to the carrier material used are preferred proportions, based on the total weight of the Planting granules without information carrier, 5 to 98% by weight and preferably 10 to 80, in particular 20 to 60% by weight, of carrier material in the plant granules. The percentage of carriers So material can also be easily slurried out Materials such as clay can be significantly higher than in the "dir lines for green roofs "given a sludge is prevented by combination with the binder.

Suitable compositions can be found in the description and the examples given below and given if it is easily determined by simple experiments the.

Examples of suitable binders are cements without however, the invention would be limited to this. Prefers are those cements that have a bound lime content feature.

In addition to the components mentioned, this can Plant granules contain other ingredients. Exemplary can be called mineral and / or organic fillers  become. In natural clays, which are preferred as Carrier material can be used, such com components already included as surcharges. Mineral and / or organic fillers can Plant granules can also be added specifically.

Suitable mineral fillers are such as all of them common as mineral components in conventional Plant substrates and vegetation layers for green roofs conditions, top and bottom improvements, etc. are present. Examples include expanded clay, expanded slate, lava, pumice, goat gel flour or similar building residues. Be Preferred grain sizes of mineral fillers are clay silt and / or sand. Preferably the mineral fillers substances, if they are recycled materials, in finely ground form in the plant granulate used.

The usual organic fillers can also be se in conventional plant and growth substrates used materials are used. Example of organi fillers are compost, humus and sewage sludge as well Lignite or hard peat (the latter two components are used at the same time adjusting the pH), which either used alone or in combination can. In the case of compost or sewage sludge, it is too make sure that the exposure to heavy metals or other Pollutants are as low as possible, which is the case with bark humus is usually guaranteed.

The amount of organic fillers is appropriately ge chooses that the specifications of the "guidelines for green roofs gene "are met.  

The plant granules can still do little Mostly a water-soluble alkaline or acidic compound be added, which are suitable for regulating the pH is. While adding an acidic compound in the Practice will play a minor role since planting with plants that grow in the acidic range, seldom ge is chosen, the addition of an alkaline compound may be required more often. For example, in the area the green roof in many cases has a permanent pH value be assured of growth in the range of 7 to 7.5 to ensure the chosen plant society. To the Calcium carbo has to keep pH in this range Proven nat as an additive to plant substrates. This verb manure is as a pH regulator in the plant according to the invention Granules also preferred, but can in principle other compounds can also be added to adjust the pH in the desired area.

As examples of additives that add acidity to the pH can shift, for example, hard peat and brown coal dust can be called.

The compound can be in pure form or in the form of a Ge Mix can be added. In the case of calcium carbonate for cost reasons, the addition in the form of calcium carbonate containing rock flour or chippings and especially in the form preferred by lime flour. Examples of suitable calcium carbo rocks containing nat are fundamental in the state of the art known. Can be called travertine or shell lime.

The integration of the pH regulator in the Plant granules have the advantage on the one hand that the pH regulator doesn't come from the vegetation layer is washed up. On the other hand, the release of the  pH regulator very evenly over a long period of time sig, so that pH fluctuations in much less Measurements occur than previously observed and practical no longer play a role in the table.

The size of the planting granules depends according to the intended use and purpose moderately in the range customary in the prior art. Preferred particle diameters are 0.06 to 20 mm preferably 2 to 10 mm and in particular 3 to 5 mm. The Size of the informa incorporated into the planting granulate tion carrier is chosen according to the granulate size and is, as mentioned, expediently between 0.2 and 2 mm.

To the surface and thus the adsorption capacity of the To enlarge plant granules the plant granulate prefers a porous structure. The porous structure can be obtained, for example, by this the fact that a blowing agent in the production of the plant granules medium or the like is added as a pore former. Even the one on the Construction sector in the manufacture of hair materials such as pore or gas concrete methods used in the manufacture position of the plant granules used become.

The planting granules can also be used as such can be used for planting without further additives. Pure plant granulate without additives is particularly suitable for Ein layered structures for extensive green roofs with little Nutrient requirements and low pH requirements Suitable regulation. In the case of intensive green roofs the plant granules according to the invention expediently as an additive used to conventional substrates. Depending on the type of plant and claim and depending on the nutrient load tion is the proportion of plant granules according to the invention in the earth substrate preferably 5 to 20 vol .-%.  

If an earth substrate contains large amounts of plant granules, is it prefers only part of the plant for cost reasons to provide granules with information carriers.

For example, it can be enough, in just about 5 up to 10 vol .-% of the total plant granules to incorporate. Does the information carrier contain one magnetic coding, it is usually straightforward possible, the information carrier even with very thin Ver find division in the substrate.

Suitable amounts are, for example, between 0.1 and 25 Vol .-% of information carrier, based on the volume of the Plant granules in which the information carriers are incorporated be prepared. Above all, the high volume proportions used when the marked plant granules with un marked should be mixed.

To find the information carrier To facilitate planting granules, it is possible to do this Granules from the non-coded granules optically too divorce. For example, the shape of the coded differ from the non-coded plant granules. So while the one, for example, essentially consists of spherical particles, the other has about the Form of disks or broken bodies.

The plant granules according to the invention can in principle for any kind of planting can be used. Preferred ver Turnings are those in the area of roof and low greening of the garage, underbody and topsoil preparation as well the use as a substrate for plant troughs and potting soil in horticulture.  

The planting granules of the invention can be as follows Way. First, be mineral and / or organic carrier material and mineral binding medium and the information carriers in suitable quantities mixed with the addition of water. Anyone is suitable for this Type of agitator or mixer that has an adequate throughput mix of materials ensures. It's been going on for so long mixes until a viscous slurry has been obtained is. This slurry is then either extruded and crushed so that pellets are obtained, or the on Slurry is stirred until planting granules can be obtained in the mixing device. The rest, in The above listed further components of the inventions Plant granules according to the invention are at the beginning, during or after making the slurry, preferably in the same mixing device.

In many cases, when mixing the mentioned com components the temperature in the mixing device by itself increase. This increase in temperature promotes the setting of the components used and the formation of granules Bodies during the stirring process. If necessary, can the temperature during the mixing process by adding Energy can be increased. To set and dry the Plant pellet pellets or bodies can accelerate the temperature also increased by the supply of energy become.

If a certain particle size of the invention Planting granules desired, the planting obtained granules are classified according to their manufacture, to obtain fractions of a defined particle size. are the particles obtained can be larger than intended Pellets or granules broken after drying become.  

The invention is intended to be based on two examples are explained in more detail. Unless otherwise stated, be the percentages extend to mass%.

example 1

In a mixing drum, 85% carrier material is made up from clay with a grain size of 0.002 mm, in the silt with egg ner particle size from 0.02 to 0.063 mm and fine sand with a sieve line of 0.063 to 0.2 mm are included, 10% Special cement with bound lime content (Portland cement PZ CEM / 32.5) and 5 information carriers MICROTAGGANT® with ma magnetic coding and a particle size of 0.5 mm un Add an aqueous nutrient salt solution in the stick Substance-containing salts are dissolved into a viscous liquid mixed slurry. The slurry continues for so long stirred until pellets with a sieve line of 2 to 10 mm arise. The mixing drum is then emptied, and the pellets are dried at ambient temperature. The Drying time is approximately depending on the drying temperature three to six days.

After completion, the planting granules are harvested device examined for magnetic coding. Based on the Magnetic codes determined could contain those in the coding Information about the manufacturer of the granulate, the Date of manufacture, the composition of the granules Purpose - here for the one-layer structure of a Extensive green roofs - and that with the production of the Roof greening commissioned company.  

Example 2

The procedure is as in Example 1, but the Mix of clay and cement an equal mass of lime flour added. The amount of water added will change accordingly increased so that again a viscous slurry he will hold, which is stirred until the pellets in Example 1 size can be obtained.

The pellets obtained contain a defined proportion of calcium carbonate. After mixing the plant granules with conventional earth substrate or when used alone Therefore, the pH of the planting granulate is reduced to one Range set from 7 to 7.5. The information used Mation carriers and their coding correspond to Example 1.

The planting granules according to the invention make it possible, even for a long time Time after application of a substrate that invented this Plant granules according to the invention comprises, to be planted Surface like a roof by reading and evaluating the code tion in the information carriers that are firmly in the granules are incorporated, the product-relevant information determine. For example, it can be determined when and by which manufacturer the substrate was manufactured, what in Product liability cases or for the maintenance of large grooves zen is. The functionality of the substrate is not impaired. Falsifying the information is practical table excluded.

Claims (19)

1. Plant granules, which comprises at least one mineral and / or organic carrier material which is open-pore and capable of reversible adsorption of water and nutrients and / or growth improvers, and comprises at least one mineral binder, characterized in that the carrier material is not burned and in the plant granules are provided with a readable coding, which contain a large amount of product-related information, are permanently incorporated. 2. planting granules according to claim 1, characterized, that the coding at least one of the following information mations coded: manufacturer, place of manufacture, man Date of posting, product identification number, product name. 3. planting granules according to one of claims 1 or 2, characterized, that the coding consists of a dual code. 4. planting granules according to one of claims 1 to 3, characterized, that the coding consists of a color code.   5. planting granules according to one of claims 1 to 3, characterized, that the coding consists of a magnetic code. 6. planting granules according to one of claims 1 to 5, characterized, that the information carriers are particles the basis of a polymer plastic. 7. planting granules according to one of claims 1 to 6, characterized, that the information carrier has a diameter of 0.02 have up to 2 mm. 8. Planting granules according to one of claims 1 to 7, characterized in that it further comprises at least one of the following components:

• 1. mineral fillers,
• 2. organic fillers,
• 3. at least one water-soluble alkaline or acidic compound for regulating the pH value,
• 4. Nutrients and / or growth enhancers.

9. planting granules according to one of claims 1 to 8, marked by a particle diameter of 0.06 to 20 mm preferably 2 to 10 mm and in particular 3 to 5 mm. 10. planting granules according to one of claims 1 to 9, marked by a porous structure.   11. planting granules according to one of claims 1 to 10, characterized, that the binder is a cement that is in a proportion from 2 to 20% by weight, preferably 5 to 15 and in particular special 7 to 10 wt .-%, based on the total weight of the planting granulate without information carrier is. 12. planting granules according to one of claims 1 to 11, characterized, that the carrier material is selected from one or several clay minerals and the proportion of the carrier material than 5 to 98 wt .-%, preferably 10 to 80 and esp special 20 to 60 wt .-%, based on the total weight of the planting granulate without information carrier. 13. Use of the plant granules according to one of the claims che 1 to 12 as a growing and growing substrate for Plants or in a growing and growing substrate for plants. 14. Use according to claim 13 for green roofs and underground car parks, under and Top soil preparation and as a substrate for plants troughs as well as potting soils and special applications in Horticulture. 15. A method for producing plant granules according to any one of claims 1 to 12, characterized in that it comprises the following steps:
Mixing of mineral and / or organic carrier material, mineral binder and the information carriers with readable coding with the addition of water until a viscous slurry is formed,
and either
Extrude the slurry and crush it into pellets or
Stir the slurry until plant granules are obtained. 16. The method according to claim 15, characterized, that at the beginning, during or after the manufacture of the Slurry one or more of the following compos be mixed in: mineral fillers, organic fillers, ver bindings to regulate pH, nutrients, Growth enhancer. 17. The method according to claim 15 or 16, characterized, that a pore former is added to the slurry. 18. The method according to any one of claims 15 to 17, characterized, that the slurry is stirred at elevated temperature is and / or pellets or granules at elevated ter temperature can be dried. 19. The method according to any one of claims 15 to 18, characterized, that the pellets or granules after drying to get broken.