EP1348822A1 - Device for removing and inhibiting plant growth - Google Patents

Abstract

An arrangement for removing and preventing plant growth, especially on a roof, consists of a material that releases biocidal ions on contact with water, and a water retention unit. The unit retains the water for a predetermined time so that ions can be released. The arrangement is in the form of a flexible band.

Description

The invention relates to a device for eliminating and preventing vegetal growth, preferably on roofs, building facades, external stairs and the like according to the preamble of claim 1.

On roofs and building facades, but also on terraces and outside stairs, plant growth occurs preferably on the shady sides Mosses, fungi, algae and / or lichens. In regions with high humidity or larger amounts of precipitation, this infestation can occur after a relatively short time. This growth not only affects them Building optics, but also significantly shortens the lifespan of those affected Components. So z. B. the stored by the vegetation Moisture the risk of frost damage, resulting in expensive repairs and can result in renovations. In addition, by such Plant growth increases the risk of slipping on paths, terraces and Given stairs, which could lead to liability cases for the property owner can lead. Plant growth on roof areas also increases the risk of slipping for z. B. Roofers and chimney sweeps.

It is generally known that this undesirable vegetation is grown by mechanical means or chemical measures. This can e.g. B. on done manually by scraping or using pressure washers. When treating vegetation with chemical agents the risk of environmental damage from the chemical agents used, since this z. B. penetrate into the ground and thereby also into the groundwater can.

Furthermore, it is already generally known to prevent plant growth, z. B. on building roofs, copper elements or copper alloy elements apply, which in contact with water, e.g. B. rain water, melt water or dew, copper ions release as biocidal ions, on the one hand, the already existing ones Eliminate vegetation again or prevent new growth. In addition to the use of copper, the biocidal effect of lead, zinc, Known titanium-zinc, magnesium and silver.

For example, DE 195 25 688 describes a device for removal and preventing vegetation from growing on roofs copper sheet strips are applied to the roof surfaces, which extend in the longitudinal direction of the roof extend approximately parallel to the ridge over the entire length of the roof. It is also known from DE 298 15 648 U1 by means of two double-sided tapes Glue checker plates to cover sheets. Such a cover sheet is permeable and waterproof. Here too are supposed to the copper checker plates copper ions are released to plant growth to prevent on roofs. With these two known solutions the rainwater flows very quickly over the copper surfaces, so that only a short reaction time with a small specific exchange area between the water and the copper surfaces and therefore a total only a small amount of copper ions are released from the copper elements becomes. This in turn leads to any plant growth that may already be present or a new growth is only insufficiently removed can.

To increase the dwell time of the water in the area of the copper elements, is already known from DE 200 11 711 U1, a copper sheet on roof tiles hang up with a copper sheet bend, the bend so is designed to create a free space for a water reservoir, can run out of water relatively slowly. The fold is here in the area the eaves trained, which has the disadvantage that with Water enriched with copper ions is difficult or not at all over the whole Can distribute roof area. Such a copper sheet is also relative complex to manufacture and therefore relatively expensive. For a flawless The function of this structure must be installed by a specialist company, preferably a plumber, what the costs, also increased, in particular in the case of a subsequent application. Furthermore is such a measure only in connection with roofs, but not can be used in connection with building facades, external stairs or the like.

It is also known from DE 199 19 771 A1 for a relatively long reaction time between the water and the copper material parallel to the first in Longitudinal roof direction over the entire roof length copper profile pipes to arrange, which have perforation holes through which over the roof surface flowing water can get into the pipe interior. Got there the water in contact with the copper material before it passes through the perforation holes enriched with copper ions leaves the tubes again. such Copper pipes are relatively large and can be the optical Overall impression of a roof affect significantly, so this overall are not practical. Such specially manufactured copper pipes are also relatively complex to manufacture and therefore expensive in terms of their use also makes it less practical. Furthermore, these copper tubes are only cumbersome manageable and therefore complicate the laying work.

DE 200 19 729 U1 describes devices for avoidance and prevention known from vegetation on roofs of buildings, in which z. B. individual roof tiles can be replaced by copper roof tile elements, which can be seen is complex and expensive, especially when such measures to be carried out on existing buildings. According to one Another alternative embodiment is the biocidal ion-donating material are or are sintered in porous form onto a clay or concrete support the anti-fouling device itself as a porous sintered body from just one biocidal ion-donating material, preferably made of a copper material. The porosity is said to have a certain water storage capacity can be achieved so that the water has a relatively long contact time for absorption of biocidal ions in the anti-fouling element. Is evident such a structure is also relatively complex and expensive.

Further from DE 201 04 404 U1 in connection with a ridge cover known from copper, a copper sheet in the manner of a clip on the ridge to clip on, perforated surfaces being provided in the side areas, through which water can pass. Between the ridge cover and the The ridge should leave a free space when the ridge cover is installed, in which a coarse-meshed copper fleece or copper wool are introduced can. This over the ridge cover over the perforated sheet area in this cavity penetrating water can then be in contact with the copper wool or remove the copper ions from the copper fleece, which are then below the ridge cover drain together with the water over the roof surface. On the ridge base edge segments are also installed as gutters, to increase the water storage capacity. Such is also evident Construction relatively complex and also only in connection with a roof ridge use. Other applications, such as B. the protection of facades, external stairs, Terraces or the like with such a structure, which is also relatively expensive, can not be made. It continues is a measure that requires special know-how, d. H. around Relatively complex and complicated plumbing work that is carried out regularly must be done by a specialist, what the cost further increased.

In addition, a device for the generic DE 201 04 999 U1 Eliminate and prevent vegetation on roofs that are known a material which releases biocidal ions in contact with water and a water retention device has, with the water entering the device before it flows out of the device for a certain dwell time and thus for a long contact time with the biocidal ion-releasing material is releasable to release a high proportion of biocidal ions.

Specifically here is a ridge hood that can be adapted to the outer shape of a ridge tile provided that on its outside one extends over its entire length extending chamber, which also by a on the term hood Distance to this paved grille arises and the water and moisture restrained metal parts that react with water and moisture contains. These metal parts are preferably made of copper in the form of multi-layer fleece or in the form of braid, wool or knitted fabric. Also this is a very special ridge solution, the special one Plumber know-how required and is therefore expensive. An application of this structure on other roof areas or on building facades, external stairs, Terraces, paths or the like is also with such a structure not possible. The area of application of such a device is therefore relative limited. That in the form of e.g. B. Copper wool present metal also at most a certain water retention capacity, but contrary to the claim no water storage capacity in the documents, so that too with such a structure, the water is still relative can run quickly, which in turn negatively affects the triggered amount of copper ions and thus on the prevention or elimination of fouling effect. In addition, the few copper ions released are on their way Diluted extremely quickly over the roof surface by additional rainwater.

The object of the invention is therefore an inexpensive and in particular also subsequently easy to install device for removal and prevention to create vegetation that can also be used and used in a wide variety of ways is.

This object is achieved with the features of claim 1.

According to claim 1, the device is designed as a flexible band.

Such a flexible band can in particular easily be retrofitted Layers can be applied to the desired locations to find one Eliminate plant growth or prevent it in the future. Such can be the case flexible tape to remove and prevent vegetation preferably sold in the form of rolls and the individual tapes simply cut to the desired length. This makes an individual Adaptation of the volume to the specific local location Situations possible. In particular, the flexible band according to the invention for the removal and prevention of vegetation, even for the most varied Use cases are used, e.g. B. in connection with Roofs, but also in connection with building facades, external stairs, terraces, Because of or the like. Such a flexible band can also simply adapt to the respective local geometries without this elaborate measures such. B. complex bending or folding, would be required. Special expensive know-how of a specialist company is thus not required here to lay the flexible tape according to the invention. The term "flexible tape" is expressly intended here to mean "flexible surface elements" mitumfassen.

Overall, with such a flexible band according to the invention Eliminate and prevent plant growth an inexpensive, subsequently easy to apply and versatile solution for Provided with which the vegetation by z. B. moss, fungi, algae and lichen in the exterior of buildings, e.g. B. on roofs, facades and outside stairs, can be prevented or eliminated.

The ion donating material is according to claim 2 for optimizing the ion release preferably edited so that the greatest possible specific Surface for the mass transfer is provided with come into contact with the water stored in the water retention layer can. An example of this is a copper layer made of copper chips, copper granulate, Copper fleece, copper wool or the like is suitable.

The invention is mainly based on copper material as biocide ion-donating material described, since this is the preferred Material deals. In principle, however, other suitable ones could also be used Materials, e.g. B. lead, zinc, titanium-zinc, magnesium, silver can be used.

According to claim 3, the flexible band is multilayered based on the cross section formed, the water retention device as at least a flexible, the water in the manner of a sponge and permeable Retentive water retention layer with the biocidal ion-releasing material is connected as at least one flexible ion material layer. The flexible, the water in the manner of a sponge permitting and retaining at least one water retention layer has an advantageous long duration Water storage in the band itself, so that sufficient contact time with the biocidal ion-releasing ion material layer for a high degree of enrichment of water with biocidal ions. This water retention layer can preferably also be used as a carrier layer for the ion-donating Material are used.

According to an advantageous first embodiment of the invention according to claim 4 is the two-layer flexible tape made of a water retention layer and an ionic material layer, the water retention layer preferably forms the carrier layer for the ion material layer that for a large active and reaction surface through fleece and / or wool and / or Braid and / or knitted fabric and / or granulate is formed with the water retention layer is connected as a carrier layer. A particularly compact Structure that has an advantageous water contact with the ion material layer enables is claimed with the features of claim 5. Possibly. can the Ionic material layer can also be covered with a grid.

According to a particularly preferred alternative embodiment of the invention according to claim 6, the flexible band as a flexible, an approximately tubular Cross-sectioned hose band formed, the one Has hose interior as a receiving space. The hose wall is here water-permeable, a filling material in the interior of the hose is captive. With such a structure it is achieved that the water seeping through the hose wall into the hose interior there can be retained for a certain dwell time and that from the hose band flowing water with a high proportion of z. B. copper ions as biocides ion is offset. Such a structure is particularly simple to manufacture, whereby there are also different possibilities of the concrete structure result, which in turn gives you flexibility in what you want Structure of the tape to eliminate and prevent plant Fouling increased.

For example, according to a first specific embodiment Claim 7 the water retention layer through the hose wall of the Hose band be formed, the sponge-like from a water-permeable Material with high water retention capacity is formed. In the hose interior is then z. B. copper material as a captive filler. The water seeping through the hose wall can be such Construction both in the hose wall itself and in the hose interior be held back for a relatively long dwell time so that the water has a very long contact time with the copper material and that finally, water with a high proportion flowing out of the hose band is offset by copper ions. This can effectively eliminate and Prevention of vegetation in the event of such use Hose band can be achieved.

The biocidal ion-donating material according to claim is particularly preferred 8 to form an ion material layer with a large specific surface added as loose bulk material in the hose interior, e.g. B. in the form of copper threads and / or copper wool and / or copper chips and / or copper fleece and / or knitted copper and / or copper granules or the like. On Such loose bulk material in the interior of the hose causes the water many deflections in its use on its way through the hose band experiences and a large surface of the many packing parts is wetted. Thereby there is a large contact area for intensive contact of the Water with the z. B. copper material to trigger a high proportion of Copper ions. Such a structure is therefore very efficient with regard to the dissolution of biocidal ions and is also simple produced.

The hose wall having a sponge effect exists according to claim 9 preferably from a rot-proof and / or UV-resistant Material, which is preferably a plastic material or a material Plastic base is. For example, this material can be non-woven and / or be felt-like or z. B. in the manner of a knitted fabric, braid and / or knitted fabric.

According to an alternative concrete embodiment according to claim 10 can the hose wall also at least partially z. B. from a water-permeable Be made of copper material as a copper layer, the filling material forms the water retention layer and a sponge-like water retention function having. This ensures that the hose wall seeping water with the help of the filling material and the retention time is optimized in the area of the device. For a great specific Surface is provided according to claim 11 that the hose wall through a wire mesh, preferably by copper wire mesh, is formed, the preferably consists of copper wire with a cross section of approximately 0.1 mm.

According to claim 12, the filling material can be a knitted fabric and / or a knitted fabric and / or a loose fill of UV-resistant and / or rot-proof, as well as water-permeable material with a sponge effect, whereby with such a structure, the overall strength of the hose band then through the z. B. copper hose is achieved. Alternatively, it can Filling material but also a coherent, e.g. B. pressed layer as Backing layer made of a water-permeable material with a sponge effect be so that the copper hose does not have to perform any supporting function and accordingly only with regard to a specific large surface area must be designed for a release of copper ions by water.

A particularly preferred embodiment in connection with a hose band provides claim 13, in which the tubular band defined for training Filling pockets for receiving the filling material is at least quilted, z. B. perpendicular or oblique to the longitudinal direction. Such quilting can according to claim 14 simply by z. B. a plurality of each other in be formed approximately parallel transverse seams, wherein also according to claim 15 each provided approximately the same dimensions and / or geometries could be. Alternatively, the seam can also be zigzag be trained. With such topstitching can be particularly advantageous in the case of locations with a slope, the filling material should be avoided accumulates undesirably at individual points. This will achieved that the filling material over the entire length of the tape in the immediate There is contact with the respectively assigned hose wall areas. Thereby the functional reliability and efficiency of the hose band as a whole guaranteed in a simple way.

With the features of claim 16 is achieved in a simple manner that the filling material is held captive in the hose.

In principle, the tubular band with a tubular cross section can be made in one piece be made. Alternatively, according to the features of claim 17 a construction is also possible in which the tubular band is connected by two to one another is preferably formed by seams longitudinal bands connectable on the edge. Such a structure is particularly simple and inexpensive to manufacture. A structure with more than two bands is of course also a matter of principle possible.

According to claim 18, the hose element can be seen in cross-section in multiple layers formed with at least two separate hose interiors his. For example, the individual hose interiors can be found here lie on top of and / or next to each other. Such a structure can e.g. B. for certain Special cases may be suitable. Overall, therefore, can also be used with such Hose construction a particularly advantageous adaptation to the most varied Areas of application.

Claim 19 claims a further alternative embodiment, the as a mixed fabric through interlinked and / or interwoven fibers is formed. On the one hand, fibers are made from a water-permeable Material with high water retention capacity and on the other hand used from a biocidal ion-donating material. In one Such blended fabrics are the z. B. copper fibers from the water retention and water-permeable fibers more or less "covered", so that a sufficiently long contact time of the copper fibers with the retained Water for optimal copper ion release to the water whose drainage is possible. For example, a third can be copper fibers and two thirds of water retaining fibers are provided.

With the features of claim 20, a particularly flat structure of the flexible tape achieved what is particularly aesthetic is advantageous because there is no particularly large structure attached to the roof needs to be. Such a flat belt can therefore be accepted by the customer increase significantly.

With the features of claim 21, the advantageous winding of flexible tape on rolls. In principle, however, would also be one Form of distribution conceivable in which the tubular band is offered in the form of strands becomes.

To attach the flexible band can according to claim 22 on this Tape fasteners may be provided. Basically, however, would also be fastening with glue is conceivable. For example, these fasteners according to claim 23, a double-sided adhesive tape and / or clips and / or brackets and / or clips and / or screw means, which may be corresponding antidotes are assigned at the place of installation.

With claim 24, the arrangement of a flexible band with a water retention device and one that releases biocidal ions in contact with water Material claimed. This flexible band is advantageous on one Roof area arranged that with z. B. offset copper ions and flexible Water flowing out of a conveyor belt - based on the respective roof area - Large roof area flows out.

Basically, the band can be arranged along the ridge. According to Claim 25 is provided, however, the band on the ridge side on an inclined Part of the roof spaced and approximately parallel to the ridge in the longitudinal direction of the roof to run, preferably z. B. in the transition area between one - seen from the ridge - first row of roof tiles and one yourself followed by a second row of roof tiles in the direction of the eaves. at such an arrangement in which the flexible band is spaced from the ridge, however runs in the closer area, z. B. advantageous in the rain sufficient amount of water can be included in the device for an adequate exchange of materials with the biocidal ion-donating material. This is for an attachment directly to the ridge from the ones already mentioned Reasons not the case. This also applies in principle to an attachment Roof pitch transition points between differently inclined partial roof areas, like this B. is the case with the hip roof.

Optionally, according to claim 26, several bands can be parallel to each other run in the longitudinal direction of the roof, wherein according to claim 27 at least one band also at least over a portion of the partial roof area can extend in the longitudinal direction of the roof.

In addition, the tapes according to claim 28 can also be in different rows - seen in the longitudinal direction of the roof - offset from each other.

Claim 29 claims further preferred forms of arrangement.

With such arrangements of the flexible tapes according to the invention particularly good results in terms of preventing and eliminating vegetal growth achieved on roofs.

The invention is explained in more detail with reference to a drawing.

Fig. 1

eine schematische Seitenansicht eines erfindungsgemäßen flexiblen Schlauchbandes mit abgesteppten einzelnen Fülltaschen,

Fig. 2

eine Draufsicht entsprechend des Pfeils X in Fig. 1,

Fig. 3

ein schematische Schnittansicht entlang der Linie A-A der Fig. 1,

Fig. 4

eine schematische Schnittdarstellung entlang der Linie A-A der Fig. 1 gemäß einer alternativen Ausführungsform,

Fig. 5

eine schematische, perspektivische Ansicht einer weiteren Ausführungsform eines erfindungsgemäßen flexiblen Bandes zum Beseitigen und Verhindern von pflanzlichem Bewuchs,

Fig. 6

eine schematische Schnittansicht entlang der Linie B-B der Fig. 5,

Fig. 7

eine schematische Darstellung eines aufgerollten flexiblen Bandes,

Fig. 8

eine schematische, perspektivische Darstellung unterschiedlicher Anordnungsmöglichkeiten von erfindungsgemäßen flexiblen Bändern zum Beseitigen und Verhindern von pflanzlichem Bewuchs auf einem geneigten Hausdach, und

Fig. 9

eine schematische Vorderansicht eines Teildachbereichs.

Show it:

Fig. 1

2 shows a schematic side view of a flexible hose band according to the invention with quilted individual filling pockets,

Fig. 2

a plan view corresponding to the arrow X in Fig. 1,

Fig. 3

2 shows a schematic sectional view along the line AA in FIG. 1,

Fig. 4

2 shows a schematic sectional illustration along the line AA in FIG. 1 according to an alternative embodiment,

Fig. 5

2 shows a schematic, perspective view of a further embodiment of a flexible band according to the invention for removing and preventing vegetation,

Fig. 6

5 shows a schematic sectional view along the line BB in FIG. 5,

Fig. 7

a schematic representation of a rolled up flexible band,

Fig. 8

is a schematic, perspective view of different arrangement options of flexible tapes according to the invention for removing and preventing vegetation on a sloping roof, and

Fig. 9

is a schematic front view of a partial roof area.

A flexible hose band 1 is shown schematically in a side view in FIG. 1 shown. In Fig. 2 is a plan view of the flexible hose band 1 accordingly the arrow X of Fig.1 shown.

As is particularly the case in FIG. 3, which is an enlarged, schematic Cross section along the line A-A of Fig. 1 shows, can be seen, the flexible Hose band 1 has an approximately tubular cross section, with a Hose interior 2 as a receiving space. In the hose interior 2 is a Filling material 3 captured captive, the filling material a water retention layer forms and has a sponge-like water retention function. The filling material, as shown in FIG. 3, can only be extremely schematic is represented by a knitted fabric and / or a knitted fabric and / or a loose Be formed. Alternatively, as shown in Fig. 3 b is, the filling material 3 but also through a relatively stable carrier layer be formed, which has a certain supporting function with regard to the filling material 3 enveloping hose wall 4 of the hose band 1.

The hose wall 4 of the hose band 1 is like this in particular can be seen schematically from FIG. 2, formed by a copper wire mesh, which preferably has a copper wire thickness of approximately 0.1 mm. The tube wall 4 is designed with a pore size or mesh size, the smaller than z. B. is a smallest particle size of the filling material 3, so that this is captively received in the hose interior 2.

As can be seen from FIG. 1 and the right area of FIG. 2, this is Hose band 1 for the formation of defined filling pockets 5 in the longitudinal direction of the Hose band 1 seen by means of a plurality of spaced and quilted to each other in approximately parallel transverse seams 6, the Filling pockets 5 are each formed with approximately the same dimensions. A an alternative embodiment is shown in the left area of FIG. 2. Here the stitching 6 is zigzag.

In the course of the manufacture, filler material 3 of a certain amount is used first filled into a hose band 1 closed on one side, then accordingly a first transverse seam 6 is set, then again filling material 3 preferably filled the same amount into the hose band 1 and then again the next transverse seam 6 is formed. This is repeated as long until the hose band 1 is completely finished. The dimensioning, in particular in the longitudinal direction and in the width direction of the filling pockets is chosen so that there is one in the individual filling pockets 5 Do not distribute the filling material 3 even with the hose band 1 hanging can that one-sided accumulations of filling material 3 inside the filling pockets 5 can be trained. This is e.g. B. advantageously avoidable, that the filling chambers 5 are essentially completely filled.

The filling material 3, which in the example of FIGS. 3a and 3b consists of a flow-like and / or felt-like material with a sponge effect is also also trained to withstand rotting. Suitable materials for this are z. B. Plastic-based materials.

The mode of operation is explained in more detail below with reference to FIG. 3a explained.

As can be seen from Fig. 3a, water referred to as H ₂ O can penetrate or infiltrate into the hose interior 2 via the porous hose wall 4, where it is taken up by the filling material 3 due to its retention function and for a certain relatively long residence time in the hose interior and in Contact with the inside of the tube wall 4 is kept. This enriches the water with copper ions, so that the water, e.g. B. rain water, dew etc., has a high degree of accumulation of copper ions at the outlet from the hose band 1, which is denoted by Cu in the illustration of FIG. 3a.

The operation of the structure of Fig. 3b is corresponding, so that this is no longer discussed in more detail.

4 is also schematically an enlarged longitudinal section along the line A-A of Fig. 1, but with an alternative structure of the Hose band 7. In the opposite way to the construction of the hose band 1 3a and 3b is the hose wall 8 of the hose band 7 here sponge-like made of a water-permeable material with high water retention capacity formed as a water retention layer, wherein in Hose interior 9, for example, a copper granulate 11 as filling material 10 is included. This copper granulate shows due to the granulate shape a high specific active and reaction surface.

The tube wall 8 is exemplified here by two on the edge side with one another formed by longitudinal seams 12 connectable longitudinal bands 13, 14. The one rot-proof, fleece-like and / or felt-like material Hose wall 8 is essentially so tight that the Copper granulate 11 is captively received in the hose interior 9. Otherwise the structure corresponds to that used in connection with FIG. 1 and 2 has been explained in more detail.

Here too, the mode of operation of the construction of the hose band 7 is explained in more detail with reference to FIG. 4. The water designated as H ₂ O in the illustration in FIG. 4 seeps through the hose wall 8 into the hose interior 9, a part of the water in the hose walls 8 itself being retained at least for a certain dwell time before it seeps into the hose interior 9. Due to the loose copper granulate fill, the water undergoes a large number of deflections on its way through the hose band 7, so that the large surface of the many individual copper granulate pieces is wetted with water. This gives a sufficiently long time in which copper ions can be released from the copper granulate 11 into the water, so that the water is heavily enriched with copper ions when it leaves or flows out of the tubular band 7, as is shown in the illustration in FIG. 4 is indicated schematically by the designation Cu.

5 is a schematic and perspective view of a flexible, two-ply tape 15, which shows a water retention layer 16 made of a sponge-like, water-storing and water-permeable material having. On this water retention layer 16, as also shown in FIG. 6, which shows a sectional view along line B-B of FIG. 5, a copper layer 17 attached and held by a variety of here only schematically shown and interwoven copper threads or copper chips or copper wool is formed. With this setup, it will water stored in the water retention layer 16 due to the immediate Contact of the water retention layer 16 with the copper layer 17 in Brought into contact with the individual copper threads, causing the copper ions in dissolve in the water. That flowing out of the flexible band 15 Water is flexible due to the long dwell time of the water Band to a high degree with copper ions.

As can be seen from FIG. 6, the water retention layer 17 can also below one shown here only by way of example and schematically and in broken lines, waterproof cover layer 18 may be provided.

As can be seen from FIG. 7, the hose band 1, the hose band 7 and the flexible band 15 advantageously sold and sold in the form of rolls be, according to the arrows S as required and according to the respective Circumstances with a certain length can be cut to length.

8 and 9 are different roof views schematically one Hipped roof 19 shown. Only the arrangement of the Hose band 1 shown. As can be seen from FIGS. 8 and 9, can the hose band 1 according to a particularly preferred arrangement in one predetermined distance spaced approximately parallel to the ridge 20 in the longitudinal direction of the roof run. The hose band 1 preferably extends here over the entire length of the roof.

Alternatively, as shown in FIGS. 8 and 9, it can only be shown in broken lines is, a hose band 1 run along the ridge 20 or also several shorter hose bands spaced in the longitudinal direction of the roof from each other below that indicated by solid lines Hose band 1 arranged at a predetermined distance from the ridge 20 his. The arrangement shown here can also be transferred to other roof shapes. Furthermore, there are still arrangements of the hose band 1 in the range of Roof pitch transition points 24 and shown in the area of dormers 25.

As can be seen from Fig. 9, the hose band 1 z. B. with a double-sided adhesive tape 21, which is only extremely schematic and here is shown as an example, can be set on the roof tiles 22.

As can be seen from FIG. 9, can be in the range of Firsts 20 a hose band 1, optionally with left-hand and right-hand weightings held as weights 23 on the ridge 20 become.

It can further be seen from the figures that the flexible band 1, 7, 15 preferred for a flat cross-section seen in the vertical direction is designed as a flat ribbon.

Claims (29)

Device for eliminating and preventing vegetation, particularly on roofs, which has a biocidal ion-releasing material in contact with water and a water retention device with which water that has entered the device before it flows out of the device for a certain dwell time and thus for a long time Contact time with the biocidal ion-releasing material can be retained to release a high proportion of biocidal ions,
characterized in that the device is designed as a flexible band (1; 7; 15). Apparatus according to claim 1, characterized in that the biocidal ion-donating material is formed with a large active and reaction surface, preferably in the form of copper threads and / or copper wool and / or copper chips and / or copper fleece and / or knitted copper and / or copper granules or the like , Apparatus according to claim 1 or claim 2, characterized in that the flexible band (1; 7; 15) is multilayered with respect to the cross section, and
that the water retention device is connected as at least one flexible water retention layer (3; 8; 16) that allows and retains the water in the manner of a sponge to the biocidal ion-donating material as at least one flexible ion material layer (4; 11; 17). Device according to one of claims 1 to 3, characterized in that the flexible band (15) is formed in two layers from a water retention layer (16), preferably as a carrier layer, and an ion material layer (17). Apparatus according to claim 3 or claim 4, characterized in that a waterproof cover layer (18) is provided on the underside of the flexible band (15), preferably a thicker copper foil or the like. Device according to one of claims 1 to 3, characterized in that the flexible band is designed as a flexible hose band (1; 7) having an approximately tubular cross section and having a hose interior (2; 9) as the receiving space,
that the hose wall (4; 8) is permeable to water, and
that a filling material (3; 10) is captively received in the hose interior (2; 9) in such a way that the water seeping through the hose wall (4; 8) into the hose interior (2; 9) can be retained there for a certain dwell time, and that from Hose band (1; 7) flowing water is mixed with biocidal ions. Apparatus according to claim 6, characterized in that the water retention layer is formed by the hose wall (8) of the hose band (7), which is formed like a sponge from a water-permeable material with high water retention capacity, and
that the ion-releasing material (11) as filling material (10) is captively received in the tube interior (9),
that the water seeping through the hose wall (8) in the hose wall (8) itself and / or in the hose interior (9) can be retained for a certain dwell time and for a long contact time with the ion-releasing material (11), and that from the hose band (7 ) draining water is mixed with biocidal ions. Apparatus according to claim 7, characterized in that the ion-donating material (11) for forming an ion material layer with a large specific surface area is taken up as loose bulk material in the tube interior (9). Apparatus according to claim 7 or claim 8, characterized in that the hose wall (8) is made of a UV-resistant and / or rot-proof, fleece-like and / or felt-like material, preferably on a plastic basis, with a sponge effect. Apparatus according to claim 6, characterized in that the tube wall (4) is at least partially made of a water-permeable material as an ion material layer, and
that the filling material (3) forms the water retention layer and has a sponge-like water retention function in such a way
that the water seeping through the hose wall (4) can be retained for a long time in the area of the hose band (1) by means of the filling material for a long contact time with the hose wall (4). Apparatus according to claim 10, characterized in that the tube wall (4) is formed by a wire mesh, preferably a copper wire mesh. Apparatus according to claim 10 or claim 11, characterized in that the filling material (3) is a knitted fabric and / or knitted fabric and / or a loose fill or a coherent layer as a carrier layer for the hose, and / or
that the filling material (3) is made of a UV-resistant, rot-proof, water-permeable material with a sponge effect. Device according to one of claims 6 to 12, characterized in that the hose band (1; 7) for forming defined filling pockets (5) for receiving the filling material (3; 10) is quilted in some areas. Device according to claim 13, characterized in that the stitching on the tubular band (1; 7) is formed by a plurality of transverse seams (6) running approximately parallel and at a distance from one another or by a zigzag-shaped seam. Device according to claim 13 or claim 14, characterized in that the filling pockets (5) are each formed with approximately the same dimensions and / or geometry. Device according to one of claims 6 to 15, characterized in that the tube wall (4; 8) is porous with a pore size and / or mesh size or the like smaller than the dimension of the filling material (3; 10), preferably its smallest particle size. Device according to one of claims 6 to 16, characterized in that the hose band (7) is formed by two longitudinal bands (13, 14) which can be connected to one another at the edge, preferably by seams (12). Device according to one of claims 6 to 17, characterized in that the hose band, seen in cross-section, is formed in several layers with at least two mutually separate hose interiors. Apparatus according to claim 1 or claim 2, characterized in that the flexible band is formed by a mixed knitted fabric and / or fabric made of water-impermeable fibers with high water retention capacity and of biocidal ion-releasing fibers, preferably copper fibers. Device according to one of claims 1 to 19, characterized in that the flexible band (1; 7; 15) as a flat band has a flat cross section when viewed in the vertical axis direction. Device according to one of claims 1 to 20, characterized in that the flexible band (1; 7; 15) is wound on rolls. Device according to one of claims 1 to 21, characterized in that fastening means (21) for fixing the flexible band (1; 7; 15) are provided on the flexible band (1; 7; 15). Apparatus according to claim 22, characterized in that the fastening means are formed by at least one double-sided adhesive tape (21) and / or clips and / or brackets and / or clips and / or screw means. Arrangement of a device, in particular a device according to one of claims 1 to 23, for eliminating and preventing the formation of vegetation on roofs, characterized in that a multilayer flexible band (1; 7; 15) with a water retention device (3; 8; 16) and a material which releases biocidal ions upon contact with water is arranged on a roof surface (19) in such a way that the water mixed with biocidal ions and flowing off from the flexible belt (1; 7; 15) flows over a roof surface (19 ) flows out of the large roof area. Arrangement according to claim 24, characterized in that the band (1) is spaced on the ridge side on an inclined roof part surface and preferably runs approximately parallel to the ridge (20) in the longitudinal direction of the roof or objected to roof pitch transition points between differently inclined roof part surfaces. Arrangement according to claim 25, characterized in that a plurality of bands (1) run parallel to one another in the longitudinal direction of the roof. Arrangement according to claim 25 or claim 26, characterized in that the at least one band (1) extends at least over a partial area of the partial roof area in the longitudinal direction of the roof. Arrangement according to claim 26 and claim 27, characterized in that the belts (1) of different rows are arranged offset from one another when viewed in the longitudinal direction of the roof. Arrangement of a device according to one of claims 1 to 23 Facades, terraces, outside stairs.

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