DE102010032785A1 - Device for near-natural control of insects - Google Patents

Abstract

A three-dimensional insect control device is disclosed including a deployable structure extending from a flat to a e.g. B. spherical dimensionally stable structure can be transferred while containing features that harmful or annoying insects such. B. to attract or drive away flies, mosquitoes and gels, moths and beetles etc. or to attract beneficial insects effectively. The respective shapes are as they occur in nature and are perceived by the target insects far better than conventional systems. The three-dimensional configurations are supplemented by at least one additional feature such as B. coloring, color design, adhesive substances, food attractants or insect pheromones, fragrances, aromas, insecticides or insect repellants. Water-repellent, preferably biodegradable materials allow indoor and outdoor applications. The device is designed in such a way that the handling is greatly improved when compared to systems of the prior art and is therefore more user-friendly and unintentional contact with the substances additionally used in the system by non-target organisms such as users, children, pets and wild animals is greatly reduced.

Description

1. Background of the invention

The present invention comprises an effective insect control system which can be converted from a flat to a near-natural, three-dimensional dimensionally stable structure (cf. A ). Surprisingly, it has now been possible to technically produce complex folding structures so that they can be based on water-repellent, biodegradable materials and so an effective device for the control of flying insects is possible.

Harmful, annoying and useful flying insects from the orders Apterygota, Diptera, Lepidoptera, Coleoptera, Homoptera and Heteroptera have been known since time immemorial. Representatives of these orders are often a problem for humans only if they cumulatively occur in a place used by humans, this also applies to otherwise useful species such. B. the ladybug. If an increase in abundance of these flying insects - due to biotic or abiotic factors - takes place to an excessive extent, the human being endeavors to stop this occurrence and to reduce population densities to an acceptable level, especially if insect species cause painful stings, transmit diseases or z. B. serious crop failures are the result. The monitoring of excessive insect development, the so-called monitoring, is just as important as a subsequent direct or indirect decimation of the insect population. The use of pesticides is in many cases problematic because of possible side effects on humans; also by their possible residues in soil, water and air. But also z. For example, the worldwide decline and decline in the orientation of bee colonies is attributed to overuse of overly potent chemical-synthetic pesticides and resulting residue issues. There was therefore an urgent need to develop and manufacture a device capable of effectively controlling flying insects without incurring significant risks to the skilled or unskilled users of such systems and the environment.

2. State of the art

Systems for control of flying insects have long been known. In earlier times, for example, baited with fruit juices or food traps were used to practice mass catch in pest populations, later modern trap systems were equipped with synthetic sex or aggregation Phermomonen in order to successfully operate mass catching or monitoring target insects species-specific. Indoor and outdoor light traps, on the other hand, exploited the emitted light spectrum which flying insects generally require in the dark for orientation and navigation purposes. In addition, it had been observed that insects round luminous structures against elongated light sources such. As the classic fluorescent tubes, easily explainable by their instincts to align themselves with natural phenomena such as the sun or the moon. These observations makes z. Silvandersson to a limited extent, disclosed and described in patents US 6438894 B1 and WO9842186 (A1) by having three-dimensional patterns (round-shaped objects such as the sun or moon) printed with shadow and luminescent effects on flat, adhesive insect traps. The invention has been to combine cost-effective and user-friendly traps with improved performance and distinctive distinguishing features to common systems and to adopt the deception of the insects in their natural behavior. Nevertheless, his invention is a purely two-dimensional structure. Inventions such as those of Cook et al. (Pat No. 5713153) disclose the compound of a specific drug with a trap housing. But here, too, the species-specific needs of the insect species are not taken into account in a sufficiently effective three-dimensional structure visually recognizable to the insect. Cylindrical traps like in EP 475 665 (Agrisense) reveal high-contrast structures with bright and dark stripes and the indication that they have a positive effect on the attraction of moths; but again, the shape of the traps follows more pragmatic, user-related aspects than the natural needs of flying insects. The same applies to the following case system, described in EP 446 464 (Bayer) - a practical cube with lines of well defined red color pigmentation. It is the case that stable and houseflies always orient themselves in the direction of the light against the window panes and, as a consequence, stay directly on top of them and far less as described in the environment, such as eg. B. on window sills or before. In addition, flies prefer roundish fly-bait forms (eg shape of the sun), which are attached directly to the window. patent WO 01/78502 (ECS Environment Care Systems) also describes innovative attractive color systems, but again there are inadequate two-dimensional systems for insect control and insect mass capture.

INVENTION

In view of the deficiencies described above, inherent in the prior systems known in the art for control of flying insects, and in accordance with the prior art, an invention is required which can offer near-natural, truly three-dimensional shapes in a water-repellent finish and combine them with the features further described.

For the orientation of insects, visual stimuli are natural forms that are easily recognizable to insects, colors or color patterns (eg yellow sun, bright moon). This is especially true for finding host plants, their flowers and fruits (eg red tulip blossom, green apple, yellow cherry), z. B. for oviposition, recording of pollen, for accommodation and for companion purposes of the insect is used. The present invention overcomes the shortcomings of known systems by utilizing a true third dimensional dimension which reflects the insects' natural environment, is perceived by them, and provides comparatively larger contact areas than standard systems.

Disclosed devices have on their structure chambers and webs on; the chambers in this case functional surfaces offering, which may have substances that the respective target z. B. the attraction or expulsion or the adherence of flying insects, etc. serve. Chambers either closed up into the center of the device into it (see. B ) or can only shallow depressions with passages of different shapes (see. C ) in the region of the outer structure of the device. Webs, which represent partitions between the chambers and thereby point vertically outward, prevent accidental contact with the user, children, domestic or wild animals.

Polymer materials in the form of film and film-like support, giving the devices dimensionally stable shape. Polymers as used in the plastics industry such. Polyvinyl chloride (PVC), polyacrylonitrile (PAN), polyacrylate (PC), polyester (PES), polyethylene terephthalate (PET), polypropylene (PP), polyethylene (PE), nylon or polyamide (PA), ethylene vinyl acetate copolymer (EVA ), Polyvinyl pyrrolidone (PVP), polyvinyl alcohol (PVA), etc., and mixtures of the above and others. By adding selected additives, as known to those skilled in the art of polymer chemistry, biodegradable and compostable films can be produced at varying rates. If the requirement for water resistance during the period of use is satisfied, it may also be flat siliconized or waxed cellulosic material (eg paper, cardboard and the like) or any other water and moisture repellent film and foil material.

Disclosed polymeric materials include pigments of different shades. Specific blue tones are known to attract thrips and fringes while yellows in different shades of color for z. As white flies, black cherries, cherry fruit flies, leaf miner or numerous aphid species are attractive. Useful insects such. As honeybees, bumblebees, lacewings or ladybird species are attracted by colors that occur naturally in flowering plants. Female representatives of mosquitoes and gelsen, on the other hand, prefer dark colors such as blues and blacks, preferably in round to oblong forms, in which they hide until they swarm to suck blood on their victims. Other color-controlled triggering mechanisms are known, and colors defined by the expert in entomology and color theory are also known as insect repellents and keep away from the environment. The person skilled in the art of color and polymer chemistry also knows that color pigments can also already be part of the polymer granules and can be integrated in the production process of the films and films in order to later be shown to have a coloring effect. Flat polymers can also be dyed or printed in succession, or coated insect-adhesive substances enriched with colored pigments can be used. Suitable color pigments can come from the entire spectrum of known colors, including fluorescent, phosphorescent and reflective or metallic pigments. Since the foldable device bodies are composed of individual polymer layers, they may be different in color, resulting in shapes that have different colors. An imitated apple can be such. B. on the one hand green, be colored yellow or red on the other. Alternating color-coordinated color films result in a different appearance. Diverse color combinations are conceivable here. The frequently asked question of greenhouse operators, whether to use blue or yellow sheets, would thus be finally resolved; a control device then includes yellows and blues in one, both of which can be equally sensed. Thus, several types of insects can be addressed and recorded at the same time or in groups together with the control device. To monitor the occurrence of flying insect populations, colored, white or black areas may also contain lines or patterns, e.g. B. in the form of Zählrastern, which make it easier for the user of such systems, based on the determined at defined intervals and in the individual chambers insect catching numbers meaningful conclusions for the implementation or to avoid the abandonment of control measures.

The chambers of the disclosed device are predestined for the large-scale uptake of insect blocking substances such. B. natural or nature-identical pheromones. These are usually chemically synthesized today and they cause in the target insects the species-specific behavioral changes such. As the imitation of a tempting female butterfly or the call by conspecifics to collect. Examples of such pheromone substances - as used in the present invention - include the Z-9 TRICOSEN the barn and housefly (Musca domestica); Z, E-9,12-TETRADECADIEN-1-OL of the dessert fruit moth (Plodia interpunctella); OCTENOL unspecifically effective in mosquitoes and gels; E, E-8,10-DODECADIEN-1-YL ACETATE of codler (Cydia pomonella); Z-8-DODECENYL ACETATE from the plum moth (Grapholita funebrana); E, Z-7,9-DODECEN 1-YL ACETATE of the crossed moth winder (Lobesia botrana); E, Z-8,10 TETRADECA-8,10-DIENAL of the chestnut leafminer moth (Cameraria ohridella), etc. On the other hand, there are still many insect species for which no species-specific pheromone has been detected or for which a chemical replica has been too costly appeared too complex or subordinate in gender communication. In these cases, it is often the case that food-based attractants and food additives, fragrances, perfumes or flavors, etc. are used. Also sucrose or fructose-based carbohydrates, molasses, honey and honey-based formulations as well as substances such as 9-DECENAL; 8-undecen-1-al; cis-7-decen-1-al; 2,6-dimethyl-5-hepten-1-al; trans-4-decene-1-al; cis-6-nonen-1-al; cis-3-hexen-1-al; ETHYL CIS-3-HEXENGATE; 3,7-DIMETHYL-2,6-octadiene-1-OL; 2,4-dodecadiene-1-al; 2,4-undecadien-1-al; trans-2-heptene-1-al; trans-2-octen-1-al; E, Z-2,6-dodecadiene-1-al; 3,6-NONADIEN-1-YL ACETATE; 3,7-DIMETHYL-TRANS 2,6-OCTADIEN-1-OL; 2,6-DIMETHYL-TRANS-2,6-OCTADIEN-8-OL and others are among the spectrum of useful substances. These find, inter alia z. B. in attracting annoying flying insects such as the fruit fly (Drosophila melanogaster) or the common wasp (Vespula vulgaris) use. As already described are two-winged (Diptera) such. B. White fly (Trialeurodes vaporariorum) or cherry fruit fly (Rhagoletis cerasi) and some species of beetles (Coleoptera) preferably attracted by colored elements that can be additionally provided with attractive fragrances to enhance their attractiveness. It is also known to the expert in the field of chemical attractants that most of the described insect attractants are derived from plant ingredients or inherently inherent in organic materials as found in nature. Appropriate extraction methods are often not economically viable, so that a chemical synthesis often makes sense; the end products are better reproducible, qualitatively and often directly comparable in terms of their purity, which is finally expressed by identical CAS numbers.

The chambers of the present invention are also capable, depending on the purpose, of containing repelling substances which are effectively secreted for a longer period of time. Such insect-repellant and insect-repellent substances are well known to those skilled in repellent substances and mixtures. These include oils and extracts of citronella, peppermint, cedar, lemongrass, soya or substances such as 1,8-cineole (1,3,3-trimethyl-2-oxabicyclo [2.2.2] octane); Para-menthane-3,8-diol (PMD); Citronellol (3,7-dimethyl-oct-6-en-1-c1); Citronellyl acetate (3,7-dimethyl-oct-6-enyl acetate); Linalool (3,7-dimethyl-octa-1,6-dien-3-ol); [beta] -pinene (6,6-dimethyl-2-methylene-bicyclo [3.1.1] heptane); [alpha] terpinol (2- (4-methyl-cyclohex-3-enyl) -propan-2-ol); D-limonene (4-isopropenyl-1-methylcyclohexenes); Citronellal (3,7-dimethyloct-6-en-1-al); geranial (3,7-dimethyl-2,6-octadienal) or geraniol (3,7-dimethyl-trans-2,6-octadien-1-ol or 2,6-dimethyl-trans-2,6-octadiene) 8-ol).

The present insect control device may include insecticides as known to the expert in insect control agents. The insecticides used may be of chemical, natural or nature-identical origin, as a contact or after ingestion by the insect unfold its lethal effect. They are located at any point accessible to the insect except for the outer edges of the partitions of the device. The use of insecticidal substances can naturally and purposefully only be directed against annoying and harmful but not against useful insects.

The chambers of the invention disclosed herein may additionally be treated with adhesive substances capable of retaining attracted insects permanently in the device. It should be noted that the adhesive substances used for the permanent preservation of the structure of the device are permanent and should not be confused with the insecticidal adhesives described below. The pressure-sensitive adhesives for holding flying insects merely have the functional property that attracted individuals can no longer move away and remain permanently in the chambers or on the adhesive surfaces of the device. The so-called "tackle Properties of the pressure-sensitive adhesive "correspond in the adhesive nomenclature thereby the type" non-permanent adhesive substances "and colloquially also as wet or cold glue are called. Pressure-sensitive adhesives of this type can, for example, be resin-based and provided with additives which increase or reduce the so-called "tack" depending on the requirement profile. Also, the additives may be nature-based, they are well known to those skilled in adhesive additives. He is also familiar that these pressure-sensitive adhesives and their mixtures are not or only very little as a function of time aging, the tack is therefore adequately preserved. If the receipt of this tack is guaranteed, pressure-sensitive adhesives can also be replaced by oily-greasy substances, but they must have sufficient film-forming properties to be able to remain stable in the chambers without migrating. Natural or nature-identical representatives of these fats and oils may be of plant origin and z. B. plant species such as peanut, soybean, olive, canola, rapeseed, coconut or other organic sources go back, the oils can also be esterified. All adhesive substances must have a sufficient layer thickness so that the flying insects can sink sufficiently and adhere well to the target surfaces. Only this ensures that once detected insects can not escape. The present device may have already been equipped in advance with adhesive substances or the device is offered to the user in a set with adhesive spray (aerosol or pump spray). Ideally, the adhesive substances are applied in the latter case in the chambers and not at the edges of the webs and partitions. This ensures that accidental contact with the adhesive substances is avoided. The treated with adhesive substances chambers may be coated over the entire surface or have gaps in the adhesive or adhesive matrix and therefore have a regular or open or thread-like appearance.

• a) die für die Zielanwendung passende Form der Vorrichtung zusätzlich einer lockend angepassten Farbgebung zusätzlich haftklebender Substanzen wie im Rahmen von „Attract & Capture” gegen z. B. Weiße Fliegen oder Thripse in Gewächshäusern oder in Topfpflanzen.
• b) die für die Zielanwendung passende Form der Vorrichtung zusätzlich einer lockend angepassten Farbgebung zusätzlich saccharosebasierender Lebensmittelzusatzstoffe wie im Rahmen von „Attract & Feed” bei nützlichen Insekten wie z. B. Florfliegen, Marienkäfern oder Bienen und Hummeln zur Erhöhung der Bestäubung und natürlichen indirekten Bekämpfung von Schädlingen in umliegenden Gärten oder Gewächshäusern.
• c) die für die Zielanwendung passende Form der Vorrichtung zusätzlich einer lockend angepassten Farbgebung zusätzlich spezifischen Insektenpheromons zusätzlich haftklebender Substanzen wie im Rahmen von „Attract & Capture” gegen z. B. Apfelwickler in Apfelanlagen und Gärten.
• d) die für die Zielanwendung passende Form der Vorrichtung zusätzlich einer vertreibend angepassten Farbgebung, optional verstärkt durch zusätzlich repellierende Substanzen wie z. B. für das Fernhalten und Vertreiben von Wespen, Stechmücken und Gelsen von und aus Räumen und dem Terrassenbereich.
• e) die für die Zielanwendung passende Form der Vorrichtung zusätzlich einer lockend angepassten Farbgebung zusätzlich lockender Substanzen zusätzlich Insektizide wie im Rahmen von „Attract & Kill” gegen z. B. Kastanienminiermotten in Parkanlagen und Gärten.

Disclosed invention enables the three-dimensional device for natural control of flying insects to be used in the following combinations:

• a) the appropriate for the target application form of the device in addition a curly adjusted color in addition pressure-sensitive substances such as in the context of "Attract &Capture" against z. B. White flies or thrips in greenhouses or potted plants.
• b) the appropriate for the target application form of the device in addition a curly adapted color additional sucrose-based food additives such as in the context of "Attract &Feed" in useful insects such. Lacewings, ladybugs or bees and bumblebees to increase pollination and natural indirect control of pests in surrounding gardens or greenhouses.
• c) the appropriate for the target application form of the device additionally a curly adapted color addition specific insect pheromone addition pressure sensitive substances such as in the context of "Attract &Capture" against z. B. codling in apple orchards and gardens.
• d) the appropriate for the target application form of the device in addition a repellent adapted coloring, optionally reinforced by additional repelling substances such. For example, for keeping wasps, mosquitoes and gels away from and from rooms and the patio area.
• e) the appropriate for the target application form of the device in addition to a curly adapted color addition attracting substances additionally insecticides as part of "Attract &kill" against z. As chestnut miner moths in parks and gardens.

The present invention includes a number of preferred embodiments, a variant of which is shown in FIG

A , the unfolding procedure around the spine or center of the device ( 3 ) in the pre-unfold, half-unfold (180 degrees), and full-unfolded state at 360 degrees, visually revealing the upper device arc ( 1 ) as well as the structural water repellent polymer films underneath ( 2 ).

B , depicting an unfolded round-pear-shaped insect control device, the three-dimensional structuring, rhomboid-shaped webs or partitions of the device ( 1 ), the closed up to the center of the device chambers ( 2 ) with their functional surfaces for the absorption of other substances.

C , the different exemplary forms of the passages in the interior in devices with shallow depressions ( 3 ) in the exterior of the device.

In recognition of the above details, in the present invention described in the illustrated embodiment and illustrated by the present drawings, it is also possible to make modifications which are in accordance with the spirit of the invention and described by the following claims.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 6438894 B1 [0003]
• WO 9842186 A1 [0003]
• EP 475665 [0003]
• EP 446464 [0003]
• WO 01/78502 [0003]

Claims (10)

Insect control devices comprising a three-dimensional structure and resembling the shapes as occurring in nature, characterized in that the bodies have water repellency, can be deployed out of a flat structure and have functional chambers extending into the center of the device rich and the devices while doing controlling-stimulating effects on flying insects exercise. Devices according to claim 1, characterized in that the chambers are provided with passage openings towards the center of the device and allow attracted flying insects to penetrate into the internal structure of the device. Devices according to one or more of the preceding claims, characterized in that the structuring film and film materials or coated substances are colored with uniform or different color pigments, as occur, inter alia, in nature and influence or stimulate flying insects in their behavior patterns. Devices according to one or more of the preceding claims, characterized in that the structuring film and foil materials have lines, patterns or counting grids which facilitate monitoring in the sense of monitoring of flying insects. Devices according to one or more of the preceding claims, characterized in that at any point of the chambers and the internal structure of the device adhering substances are applied, which can permanently capture attracted flying insects. Devices according to one or more of the preceding claims, characterized in that administered and released substances are insect attractants. Devices according to one or more of the preceding claims, characterized in that administered and released substances are insecticides for killing harmful or annoying flying insects. Devices according to claims 1 and 3, characterized in that the administered and to be released substances insect repellent and long-distance means for annoying, dangerous and harmful flying insects. Devices according to one or more of the preceding claims, characterized in that the materials and substances used can be biodegradable and the used devices z. B. composted after use. Devices according to one or more of the preceding claims, characterized in that they are suitable for controlling flying insects from the orders Apterygota, Diptera, Lepidoptera, Coleoptera, Homoptera and Heteroptera and control harmful, annoying, dangerous and useful insect species.

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