DE19781656B4 - Flytrap with two or more directed light patterns - Google Patents

Abstract

An insect trap (100; 200; 300; 400) using an insect attracting light which is reflected on a substantially flat wall or ceiling to which the insect trap (100,200,300,400,600) is mounted, the insect trap containing :
(a) means for mounting the insect trap (100, 200, 300, 400, 600) on a mounting surface;
(b) at least one insect attracting light source (102c; 301; 401; 602);
(c) at least one insect immobilization surface (103; 303; 403; 601); and
(d) a housing (101, 101a; 304; 404) receiving said insect attracting light source (102c; 301; 401), said housing (101, 101a; 304; 404) having at least one interior reflective housing surface formed in said housing Is arranged such that the light from the insect attracting light source (102c; 301; 401) is directed onto the mounting surface where it forms a diffuse insect attracting light pattern (102, 102a; 302a, 302b, 302c; 302d; 402a, 402b, 402c) Insect attracting light patterns (102, 102a; 302a, 302b, 302c; 302d; 402a, 402b, 402c) only from indirect light from the insect attracting light source.

Description

The The invention relates to an insect which is an insect attractant used and catch the flying insects and render harmless within the fold housing can. The trap uses a housing to attract an insect To record lighting. The housing and the associated, internal ones reflective surfaces form a multidirectional or multi-directional Light pattern on a flat mounting surface, such as a Wall or a ceiling. The pattern can be one or two, three or three more overlapping or non-overlapping Light displays or light representations included, in general in arbitrary or any directions are positioned. In a bidirectional or two-directional trap are the light directions positioned 180 ° apart from the displays on the flat mounting surface. Such a design can increase the catch rates. In other cases with three or more light displays or light displays, the Light patterns at regular intervals or arbitrarily or arranged arbitrarily. The invention also relates a trap for flying insects using a lighting pattern which essentially surrounding the trap to attract the flying insects.

In the prior art, a variety of traps for flying insects using light sources for attracting the insects have been proposed. IOC-manufactured insect O-Cutor fly traps use an exposed bulb with a high-voltage electric cutting system. Pickens and Thimijan disclose exposed UV-light sources and live grids for catching and electro-cutting flying insects. Another trap system generally uses frontally or horizontally exposed ultraviolet black light lamps to attract insects into the trap. In the trap, the insect lands on an electric grid in the back wall of the housing. The grid provides a low voltage pulse that causes the insect to fly down onto a non-toxic, sticky board. The trapped insect can then be removed with the removable adhesive sheet. Similarly, Grothaus et al US 46 96 126 A an exposed incandescent glue stick. Lazeroni, Sr. et al disclose in the US 325 954 A a substantially exposed forward bulbs trap. Aiello et al. US 49 59 923 A ) takes on Lazeroni, Sr. and others ( US 325 954 A ) Using an ultraviolet light source with pulsed electricity to trap the insects and a sticking trap. Similarly, Gilbert's insect light traps use exposed light bulbs and generally forward-facing access spaces for catching flies. Such traps attract the insects to the front of the trap using the light directed in a space away from the trap. The prior art also includes data relating to the effectiveness of a variety of components of flies with exposed bulbs.

Larkin ( US 49 49 501 ) and the ARP Venus Flylith ^™ system reveal a light source for attracting. The light source and its housing are hinged to a wall mounting means in such a manner that the unit can be used initially in a vertical mode in which the light source is parallel to the vertical surface and at an angle of approximately 90 ° to the horizontal surface. which is perpendicular to the vertical surface. In this so-called invisible mode, which is used during business hours, the trap is designed so that the operating components of the flytrap are invisible to perception. The flytrap may be arranged in a "turbo" mode in which the light source and the housing are perpendicular to the vertical surface and horizontal to the floor (or at an angle greater than 90 ° to the vertical surface), whereby the light is directly perceptible at the installation site, which is believed to increase attracting insects.

White ( US 48 76 822 A ) discloses an insect unit that uses a rectangular housing that houses a light source and an adhesive catching surface. The housing components are aligned either parallel or perpendicular to the vertical mounting surface. Nelson et al. US 53 65 690 A ) propose a housing which exhibits a light pattern for attracting insects to a mounting surface.

Olive et al. ( US 49 18 856 A ) also disclose an insect trap with a light source. Here, too, there was a need for further improvement.

In front It was the task in the background of the described prior art of the invention, one in particular with regard to their attractant activity at least for to specify a number of insect types improved insect trap. This task is solved by an insect trap according to claim 1. Particular embodiments, The invention are described in the subclaims.

The authors of the present specification have developed an improved fly insect trap which uses an improved and surprisingly effective display of emitted and reflected light which is translated into at least two overlapping or non-overlapping rich aligned. The display may emit two light patterns for attracting to a flat mounting surface, such as a wall or ceiling, which are oriented in opposite directions from the trap. Furthermore, the invention can form a display or representation of three light patterns on the flat surface. Each pattern is oriented to form non-overlapping patterns spaced 120E apart. In addition, the light trap according to the invention may include four distinct patterns formed on the planar surface at intervals of about 90E around the housing. Furthermore, the trap may emit five, six, seven or more distinct patterns from a central housing to form a light pattern for attracting to a planar surface. Another embodiment of the flying insect trap of the present invention is a trap which forms a continuous pattern of light around a centrally located housing, the light pattern surrounding the centrally located housing. The shape of each light pattern of each of the illustrated embodiments may vary depending on the light source for attracting an insect, the location of the trap and the light source, the size of the trap, the shape and reflectivity of the interior components of the housing, and the geometry of the housing change flat mounting surface. Based on the design features of the housing and each reflective surface within the housing, the shape of the light pattern for attracting the insects on the wall may be set in any selected pattern, such as an approximately rectangular pattern, an approximately "fan-shaped" pattern, approximately oval or elliptical patterns or in a substantially circular pattern. When using a housing that forms a continuous light pattern around the housing, the housing may be circular, oval, triangular, square, pentagonal, hexagonal, etc. The continuous pattern of light may be formed using a substantially circular light source, such as a circular light source Fluorescent tube or may be formed by a plurality of light sources, which form a continuous display or display using overlapping light patterns substantially.

The Authors of the present specification have found that the in to attract most areas and most installation sites light used by insects have a lighting level must, that at least about 53.8 lux (5 footcandles) within the Anlockmusters, the is formed on the wall. Furthermore, the authors of the present Description found that the Lighting caused by the fly traps of the present invention is obtained, a housing which is designed to ensure that the vast majority Amount of radiated energy by the light source to attract is discharged, on the substantially flat mounting surface (in generally a ceiling or wall surface) falls, to which the trap attached is. Near the trap lighting can be very high of about 215.8 lux (20 footcandles) to 538 lux (50 footcandles) or more of the radiated light energy at usual fluorescent sources be. Because the distance between a measuring point and the fly trap increases, the lighting decreases in such a way that the lighting at some distance from the trap less than about 53.8 lux (5 footcandles). In general, the Pattern of attract light a regular shape, such as a circular or square shape, or may have an arbitrary or nearly triangular, rectangular, oval, elliptical, fan-shaped or circular etc. have pattern shape in their geometry. The authors have it about that In addition, it was found important that the insects immobilizing surface inside the case arranged and interact with the light to attract the insects can. The insects tend to land on the vertical mounting surface or fly directly into the trap. Because the insects are either in Crawl the trap or fly into it, they tend to Insect attract light to fly. Once trapped by either Flying or crawling will be their movement with high probability immobilized on the insect immobilization surface. The internal reflection surfaces of the housing, freestanding or mounted reflective surfaces or other considerations or parts of the trap added reflected light to the emitted light to the Lichtanlock pattern to form on the substantially flat mounting surface. the authors have further found that an open entryway for access into the interior to insect immobilizers within the Trap adjacent to the light pattern improves the catch rates. The Falling for flying insects according to the present invention Invention will become common on a vertical plane, such as a wall surface or a substantially flat ceiling surface attached. The trap for flying Insects should be mounted in such a way that the whole or an essential Part of the reflected and emitted light fall onto the mounting surface can to form the light blocking pattern.

For the purposes of the present specification, the term "multidirectional" fly insect trap may include first insect traps having two, three, four or more discrete, non-overlapping, flying insect trapping patterns have. The term "multidirectional" may also include traps for flying insects having two, three, four or more discrete but overlapping patterns. As the number of patterns increases, the patterns tend to transition to overlapping patterns. When the insect trap has a large number of patterns, the patterns transform into an at least approximately continuous pattern that substantially surrounds the trap. For the purposes of this description, the term "continuous" indicates that the light from the trap is converted to a pattern that illuminates the planar mounting surface (such as a ceiling or wall) in a pattern substantially surrounding the trap. Such a substantially continuous pattern may include small shadows resulting from mounting brackets, light fixtures, wires or other electrical or mechanical components of the housing, mounting means, light fixture elements, or other components of the invention. Further, in the present application, the term "substantially flat" indicates that the fly insect trap of the present invention can be reliably mounted on a surface. Such surfaces may have a curvature, such as a circular or elliptical post or pillar. However, as long as the trap can be reliably mounted on such a surface and can form the multidirectional light pattern, a surface may be considered substantially planar. When mounted in certain preferred orientations, the light within the trap can not be viewed in a position normal to the case. The term "normal" indicates that the position of the observer is at a 90 ° angle with respect to the intersection of two lines drawn from the mounting surface and intersecting the trap at an angle of 90 °.

In the 1 to 7 there is in each case an embodiment of the flytrap of the present invention. In each figure, the geometry of the trap forms two or more patterns of light or a continuous pattern of light surrounding the trap for attracting the insects. The figures further show the installation of a light source for attracting insects and various arrangements of the insect immobilization surface.

The improved fly traps of the present invention Casing, a source of light for attracting insects and at least one insect or Fliegenimmoblisierungsmittel on. The case can be two, three, four or several reflection surfaces that make sure the vast majority Amount of emitted by the light source to attract insects Light is emitted and reflected to the Lichtanlockmuster to form on the substantially flat mounting surface. The representation of light in a bait pattern pulls flies to the flytrap at. Flies tend to be on the illuminated pattern, the case or other surfaces to land the trap. The insect immobilization surface is positioned so that ensured is that the Plague of flying insects with high probability within the Trap is immobilized after being attracted to the trap are.

The Authors of the present specification have found that a part of the light emitted from the light source, from the inside surface of the housing and any other reflective surface that is located within the housing is reflected and put together on the flat mounting surface with the direct emitted light appears. The reflected and radiated Light forms a Lichtanlockmuster on the associated planar surface. The casing either directs two or more distinct light patterns to the reflective surface or a light pattern so as to substantially surround the trap housing. In a first mode of the case according to the invention, the housing may have a Light source for attracting insects as well as two reflective ones surfaces have, which are opposite each other (by 180 ° on the flat surface separated), reflected and radiated patterns of light to attract the insects form. When a light source is used, it is the easiest trap to be designed, the directions of light for the Lichtanlockmuster which are oriented in opposite directions. However, the light direction in the pattern may be any angle can accept and overlap or form separate patterns. The angle can be in the Direction between the individual light paths, for example, only 10 ° or 15 ° or to to 180 °. The selection of the housing, which the internal reflection surfaces and a light source for Attracting insects, must be done so that ensured is that the formed Lichtanlockmuster at least 53.8 lux (5 footcandles) to have energy in a pattern. This surface light intensity or illuminance or Illumination is important to maintain effective fly capture rates. In an alternative embodiment can the bidirectional light trap, which includes two Lichtanlockmuster use two or more insect attractant sources to ensure that the illuminance in the Lichtanlockmustern or the surface intensity of the Lichtanlockmusters for effective Catching rates is sufficient.

The second embodiment of the invention may include one or more insect attracting light and a housing that cooperates with the light to form three distinct patterns of insect attracting light on the planar mounting surface. The housing may be triangular in shape and may be shaped with respect to the insect attracting light source such that the patterns of light on the wall are formed into patterns which are separated from each other by angles of about 120 °. The angles between the patterns can be less than 120 °. Furthermore, the uniform or regular arrangement of the light pattern around the trap increases the surface area of the Lichtanlockmuster and also seems to improve the catch rates or to optimize.

at a further embodiment of the invention are one or more insect attractant light sources, preferably four sources are arranged within a housing in the manner that four patterns of the insect attracting light, which consists of radiated and reflected Light are formed around the housing. The light patterns be with a separation of 90 ° in Direction of the patterns around the case arranged so that the Shape of a square or rectangle may be present. The geometry this preferred housing embodiment of the invention may be two, three, four, five or more distinct light patterns, around the central housing arranged and separated by a right angle, to provide representations of insect attracting light which an optimized areas with an illuminance greater than 53.8 lux (5 footcandles) of energy.

If As the number of light areas increases, the patterns in the display may increase into a representation of the insect attracting light, which is essentially continuously around the case is arranged. Therefore, an important embodiment of the present invention Invention in a trap for flying Insects kept inside a housing that one circular, oval, elliptical or another such housing comprises and which interacts with an insect attracting light source, which is a Anlock pattern forms, which surrounds the housing with a Insektenanlocklichtmuster. Dependent on the housing geometry For example, the shape of the light pattern can be arbitrarily selected by one skilled in the art. However, the authors of the present specification have found that the preferred Shape of the light pattern circular, oval, elliptical etc. in a regular geometric Form exists in which the light pattern is greater than one illuminance 53.8 lux (5 footcandles).

The casing can on a vertical, flat surface, such as a Wall, or a horizontal, flat surface, such as a Ceiling, to be attached. The trap can be mounted in the way the existence Section of insect incandescent light on both a wall and on a ceiling surface or any other surface that is in the vicinity of the trap falls. The insect trap The light source usable in the present invention includes at least one Source of ultraviolet light or UV light. Such sources are provided to a significant amount of ultraviolet light In addition, however, some parts of the reflected and radiated light within other areas of the electromagnetic spectrum outside the ultraviolet Area. Such light sources are usually incandescent or luminous or fluorescent light sources supplied with electrical energy, which can radiate a wide range of wavelengths, however mainly that they are optimized emit ultraviolet light. In the present invention contains the ultraviolet light is an electromagnetic radiation, the wavelengths between about 400 nm and 4 nm, which are attractive for flying Insects. The light sources usually provide a light output from about 0.5 to about 100 W and preferably a light output of about 0.5 to about 75 W or more ready. Preferred light sources are fluorescent light sources that have sufficient power consumption, to form a Lichtanlockmuster that a illuminance of greater than has about 53.8 lux (5 footcandles). The trap can be a single source or two or more sources that are horizontal, vertical or diagonally in the housing are arranged. The light source may be linear or curved, d. H. circular, oval or elliptical may be in their shape or design and may also be one of the newer ones Fluorescent or fluorescent tubes which are screwed in a screw holder for incandescent light bulbs, which are known as screw-in Kompaktfluoreszenzbirnen. such roar can used with the housings be that for their special bulb geometry are adapted.

The light source or sources are received substantially within a housing having an internal reflective surface. In the preferred housings, when the housing is mounted in a fly-catching environment, the components of the environment are usually not exposed to the direct-emitted light. As a result, the housing substantially surrounds the insect attracting light source, thereby preventing observation by persons in the environment while optimizing the size of the light attracting pattern on the planar mounting surface. Furthermore, the housing surrounding the insect attracting light source serves as an access path for the flying insects. Consequently, the should Have a substantial area and do not present a barrier or barrier to access of the insects or prevent the insects from being immobilized on the insect immobilization surface within the trap. The housing can be designed with the light pattern of the trap, which can be arranged at any angle to the vertical. The housing may be positioned such that the direction of a light pattern from a source on a flat surface has a vertical orientation or any other angle that is arbitrarily selected during the trap installation.

The Fly traps of the present invention form two or more Insect pin-up light pattern on the vertical mounting surface. While the patterns on the flat surface at regular intervals the trap can be arranged, the Pattern on the mounting surface make every virtual relative angle.

The Light source is received substantially within the housing, which has an internal reflection surface.

The casing can actually take any shape with the use of the housing or the reflective surfaces is consistent to radiate and reflect the light onto the mounting surface, which attracts flying insects. The housing can a regular form possess a triangle, a square, a rectangle, a parallelogram, a circle, an oval, an ellipse, a tetrahedron, a star shape etc., or may have an irregular or amorphous shape.

The casing is usually from commonly available Made of building materials containing a filled or unfilled thermoplastic, such as polystyrene, polyethylene, polypropylene, polyethylene terephthalate (PET polyester), poly (acrylonitrile-butadiene-styrene), etc., metallic Materials such as aluminum, magnesium or alloys thereof, steel, stainless steel or other iron alloys formed therefrom, Wood or wood products, reinforced thermoplastic or thermosetting Materials, cardboard, pressed Cardboard, corrugated cardboard and any other material include, the a housing forms with sufficient structural rigidity in the way that this casing the installation, the maintenance of the bulb, the installation and the Removal of insect immobilization surfaces, cleaning or other maintenance or withstand maintenance actions.

The Interior of the housing can predominantly or at least partially designed to be reflective. The housing can from a brilliant white, a white one or broken white Be made of material that reflect the incident radiation can to form a pattern. Such materials can with pigments present in the interior, such as, for example, titanium dioxide, Calcium carbonate or other white materials may be formed tend to reflect the bulk of the incident radiation. Furthermore, the housing coated or coated with reflective materials be. A number of highly reflective white colors can be used which essentially all of the incident ultraviolet radiation reflect. Furthermore you can metallic surfaces be used, made of thin Metal sections, metallized polyester or any other shiny formed metallic surface are. Specific examples of such reflective layers are Aluminum foils, metallised polyester, reflective luminous white Panels containing a substantial proportion of white titanium dioxide pigments, mirrored glass mirrors or other highly reflective surfaces.

A casing can over it at least one insect immobilizer. In In the present application, the term "insect immobilizing agent" means any device or Surface, can prevent the flies from leaving the fly trap after they got into this. Such immobilizing agents may be pesticides in the form of a pesticide surface, layer or trap, active and passive mechanical traps, liquid traps in which the Flies are dipped, adhesive layers where the flies sticking, pressure-sensitive or pressure-sensitive adhesive layers, electric high voltage or low voltage grid or others include such agents that trap the insect pest, immobilize, kill or dissolve can. The immobilizing agents can on the housing, the mounting surface or any other location adjacent to the annealing light or the light pattern be attached.

A preferred insect immobilizing agent for the present invention has a pressure-sensitive adhesive surface. The most preferred surface has a high pressure, pressure sensitive adhesive surface which substantially immobilizes the flies as the flies make contact with any portion of the surface. The pressure-sensitive adhesive surface can be made from a variety of known pressure-sensitive adhesive materials which adhere well when touched. One such known adhesive is the encapsulant made by The Tangelfoot Company. The positioning of the insect immobilizer within the housing is determined by the design. The means can be used in virtually any arrangement half of the trap, which is accessible to the flying insects. The insects may either fly into the trap or land on the vertical mounting surface or on the housing and may then crawl to or be brought to the insect immobilizer through the operation of the trap. The preferred pressure-sensitive adhesive trap surface may be mounted within the trap on the vertical mounting surface, on the housing, on a capture surface located immediately adjacent to the insect capture light source, or in any other location within the trap frequently visited by the flying insects which is attracted by the pattern formed on the adjacent planar surface. The traps of the present invention may contain an insect attractant chemical. Such chemicals are usually organic materials that are at least slightly volatile and products that are produced by typical insect food sources or that contain a pheromone mixture that is tuned to certain insects that are known to populate the trap environment.

The Insect trap in general or the insect immobilization surface in particular about that an effective amount of an insecticide. A variety of non-volatile Insecticides in formulated compositions are considered effective known for flying insects, most of which used can be. The preferred insecticide for the use in the present invention is a non-volatile, formulated one Insect composition which is capable of insects To kill contact. Such non-volatile Insect plague compositions will not adhere to the trap environment issued. Such materials may include pyrethroid and organophosphate insecticide compositions. Such materials can introduced the pressure-sensitive adhesive on the insect immobilization surface or mixed in or can be placed separately at a location within the trap.

The preferred design of the insect trap of the present invention includes a geometry of the reflective surface or reflective surfaces in the trap forming two, three, four, five, or more discrete regions of the attractive light, all the way to a housing that circumscribes a continuous pattern of light represents the housing. In contrast, the main part of the prior art documents are designed to deliver their attracting light into the environment surrounding the light and not onto a planar mounting surface adjacent the trap by blasting and reflecting the light. Nelson et al. US 53 65 690 A ) shows a trap that forms a single insect attracting pattern on an adjacent wall surface.

The Authors of the present description have one opposite the known cases improved housing geometry suggested in the way that the Anlockfähigkeit the light pattern larger than expected catch rates. By arranging two, three, four, five or five more insect attracting light patterns around a housing to an insect attracting pattern, that the housing in its entirety can surround significantly improved catch rates are achieved. The inner geometry of the housing and any interior reflective surface within the housing that either attached to the case surface or is installed adjacent to a light source can with reference to the mounting surface positioned at an angle normal or perpendicular to the surface to make sure that Light pattern passing through the housing is formed, contains an integral part of the light. The insect traps according to the invention can a protective cover or a grate over the opening of the housing. Such grates are made of wire or plastic nets in the way formed that the Insects can get into the trap, however, the rust or net does not significantly reduce the amount of light which reduces the attraction pattern on the wall. In the present invention, the grids or screens dimensions, which are big enough to allow the insects access, however, entry prevent larger objects but it does not have a significant barrier to reflection or radiation of the light from the trap. Such umbrellas or grids can be made of a variety of materials that are transparent, translucent or translucent or opaque Materials include. Such materials include metallic wires, synthetic ones or of course occurring fiber threads, thermoplastic mesh, grates, expanded metal, wire screens etc.

The insect trap according to the invention can be arranged on a substantially horizontal flat surface become. Such areas can one second wall surface, a ceiling surface or any other internal surface of the fly trap environment be adjacent. The arrangement of the flytrap in such a way that the trap can represent a maximum range of light, which is an illumination or illuminance greater than 53.8 lux (5 footcandles) can ensure optimal capture rates. The light can be applied to the adjacent wall or ceiling surfaces without a significant reduction reflected in the catch rates and emitted.

The authors of the present invention ha In their research and development, it has also been found that a contrasting color or edge effect, where the illumination ends abruptly or falls on a dark color, can be attractive to insects. Very often, the contrast from a luminous to a relatively dark portion at a specific edge can be recognized by the insects and present an attractive feature. Such contrast or edge effects can be created by using highly contrasting colors or textures in the manufacture of the trap and for areas of trap installation.

If the insect trap according to the present Invention is placed in a use environment, contains the trap Mounting means that can be used to protect the insect of the present invention on a flat surface, such as for example, to attach a wall or ceiling. Such mounting means include a mechanical system that can support the weight of the trap and that maintains the orientation of the trap and thus ensures that this Light useful attracting patterns on the surface forms. Such traps can in place using various mounting means, such as screws, bolts, nails, clamps, flanges, etc. be attached or can temporarily in the environment of use using Velcro fasteners, pressure-sensitive adhesive pads, formed on epoxy or urethane-based Adhesives, etc. are arranged. An important property of Mounting means of the fly trap according to the invention consists in the selection of such mounting means that the trap safe on the wall or ceiling surface to receive the light from the trap, so that a Lichtanlockmuster is formed. Furthermore, the wall can serve the opening to form the flytrap.

The Lighting or the Lichtanlockquelle can be mounted directly in the housing or can be mounted on the vertical walls or ceiling walls be the case surround. Preferably, the light trap is a unitary one Facility that the light, the reflective surfaces and the insect immobilization means, which are arranged inside the housing, contains. However, any part of the Anlocksystems can be separated on the vertical surface be mounted by the trap, however, the arrangement within of the housing is preferred. When arranged as a single unit, the Insect attracting light source in an optimal position with respect on the case and each optional extra reflecting surface be arranged to the area and the illumination of the attracting pattern to maximize. In similar Way, the immobilization surface can be anywhere within of the housing be attached. The immobilization surface will be in place within the housing Preferably, where the immobilized insects of a direct Viewed from the point of view of the person within the typical environment. Preferably, the immobilization surfaces are direct opposite to the opening the trap through which the light exits to the Anlockoberflächenmuster to build. Crawling or flying insects can, if they are of any Fall into the trap, then on the illuminated pattern, on the case or any other internal or external surface. The insect immobilization is arranged inside the trap in such a way that the typical fly, which has been attracted by the light pattern, at some point got into the trap and is held on the Immobilisierungsoberfläche. The insect trap housing has at least one reflective surface which matches the inner surface of the housing can interact. The reflective surface can be a variety of Having designs with respect to the insect attracting light source. The light can be vertically opposite the reflective surface be arranged in such a way that the light is effective from the trap on the mounting surface is emitted and reflected. That for the arrangement on a vertical or horizontal surface designed housing can have a variety of shapes when viewed from outside the trap. The shape of the case can be chosen arbitrarily be, with the inner, reflective surfaces of the Trap be kept in such a way that a bidirectional, tridirectional light pattern is formed on the adjacent wall surface while a any housing design substantially circular, oval, elliptical, square, rectangular, triangular, hexagonal etc. can be. The outside surface or the internal reflective surfaces can be flat, curved, angled be or can have any shape that provides effective reflection of the Light on the Anlockmuster not prevented. The arrangement of Fall on the vertical (wall) surface or on the ceiling can chosen arbitrarily become. The arrangement can be made in one area, in the environment area for the flies seem attractive. As a result, the trap may be adjacent to windows, doors or ceiling fixtures that are an attractive light exhibit. Furthermore you can the traps adjacent to organic materials or heat source which are also known to be insects attract. Typically, the insect traps of the invention located in or above the eye level in the environmental space. Such an arrangement has an aesthetic appearance and does not reduce the catch rates.

experimental section

Experiment with ultraviolet multiple light patterns, Background and task

ultraviolet Light or UV light, which is on a wall to form a single "light pattern" above the upper opening of a Insect trap, which includes the source of ultraviolet light, reflects and is radiated for is attracting flying insects. This experiment determines the effect of Multiple "light patterns" passing through the overhead, formed lateral or underlying openings be and for flying insects are attractive to an insect trap.

method

• 1. Four Stealth Decora Tm Fly Traps will be in two groups in a pilot "flight-room" at a vertical mounting surface (white painted wall) appropriate. A first group has four in a square Arrangement interconnected traps with light patterns at right angles to an adjacent trap. The traps become with the light patterns placed so that the Point the light pattern away from the center of the arrangement. At a second Group with a similar one right angle array are all falling light patterns to the center aligned to the group.
• 2. The UV light source is a 9 watt lamp (Osram Dulux S, 9 W / 78) in each stealth decora, giving a total of 32 watts for the used Trap arrangement results.
• 3. A single control trap contains a single stealth decora with four 9-watt lamps (32 watts total).
• 4. It is in the released "air space" to provide a density of 0.1 flies per 0.02832 m ² (1 cubic foot), wherein food is provided for the purpose of acclimation for two hours house fly.
• 5. The above test arrangement and control settings be in a random, complete Block arrangement, one of which is arranged on the wall at any time is, executed.
• 6. The fly catch rate per half hour will be for each setting measured and then the attitude to the next changed, the as random, full Block arrangement is called. Then the fly catch rate every half hour for measured this setting, etc.
• 7. At least four blocks be done to at least four repetitions for to achieve every attitude.
• 8. The median and median fly capture rates per half hour are determined to evaluate the adjustment performance.

Results

The first group is surprisingly effective at the fly-15 catch rate compared to the control setting.

1 Figure 11 is a view of a bidirectional insect trap according to the invention when mounted on a substantially planar vertical wall surface. 1 shows a bi-directional trap 100 , The bidirectional trap includes a housing section 101 which receives a lamp and an immobilization strip. The housing 101 . 101 interacts with the lamp to create two non-overlapping light-blocking patterns 102 . 102 on the walls 105 . 105a to build.

2 is an interior view of the housing 101 . 101 of the 1 in a horizontal installation. In the drawing, the insect trap is generally with 200 designated. Inside the trap, an ultraviolet insect attracting light source is shown as a fluorescent tube 102c which is shown within the housing 101 is held. An insect immobilization tape 103 is inside the case 101 shown. The lamp and the housing as well as the reflective surface 104 on the inside of the housing form a representation of the reflected and emitted light on the adjacent wall surface 105 ,

3 reproduces a trap attached to a wall containing four overlapping patterns of insect attracting light. In 3 the trap is essentially with 300 designated. The trap contains four fluorescent insect attractant UV light sources 301 , The lamps work with the housing 304 together to the Lichtanlockmuster 302a . 302b . 302c . 302d to build.

4 is a side view of the insect trap that is in 3 is shown. The trap 300 contains a housing 304 which the lamps 301 receives. The lamp and the case work together to create the light pattern 302 to build. The light pattern is generated by light rays which are emitted by the fluorescent bulb and concentrated on the substantially planar mounting surface. The housing also takes an insect immobilization tape 303 on.

5 is a view of a triangular insect trap 400 mounted on a flat vertical surface (wall). The fold housing 404 picks up the fluorescent insect attracting light emitting lamp 401 on that with the pleat case 404 interacts to capture the glare pattern 402a . 402b . 402c to build. The trap housing 404 also takes an insect immobilization adhesive surface 403 which uses a pressure-sensitive adhesive material to trap the flying insects.

6 is a view of a circular insect trap installed on a ceiling. The trap 600 has a curved housing 603 on. The curvature of the case 603 is substantially away from the wall, but may also be aligned with the wall. On the opposite side of the curved housing 603 is an insect immobilization area 601 attached in the form of an insect immobilization adhesive sheet. The housing 603 and an electrical housing is attached to the vertical mounting surface using a pin, not shown. The electrical housing further carries the electric fluorescent device and the fluorescent tubes 602 emitting the insect attracting light forming a pattern on the ceiling.

7 gives a side view of the insect trap the 6 again. The insect trap is mounted on the ceiling surface using the electrical enclosure to the housing 603 to be mounted in place. On the back side is the insect immobilization area 601 arranged with a pressure-sensitive adhesive. On the central electrical housing are disposed fluorescent electric tube drive means, not shown, and the fluorescent tubes which attract the insect 602 form. The light from the lamps is directed to the horizontal mounting surface (wall) to form the Lichtanlockmuster.

Claims (16)

Insect trap ( 100 ; 200 ; 300 ; 400 ), which uses an insect attracting light, which is reflected on a substantially flat wall or ceiling, to which the insect trap ( 100 . 200 . 300 . 400 . 600 ), the insect trap comprising: (a) means for mounting the insect trap ( 100 . 200 . 300 . 400 . 600 ) on a mounting surface; (b) at least one insect attracting light source ( 102c ; 301 ; 401 ; 602 ); (c) at least one insect immobilization surface ( 103 ; 303 ; 403 ; 601 ); and (d) a housing ( 101 . 101 ; 304 ; 404 ) that the insect attracting light source ( 102c ; 301 ; 401 ), wherein the housing ( 101 . 101 ; 304 ; 404 ) has at least one inner, reflective housing surface, which is arranged in such a way that the light from the Insektenanlocklichtquelle ( 102c ; 301 ; 401 ) is directed to the mounting surface and there a diffuse insect attracting light pattern ( 102 . 102 ; 302a . 302b . 302c ; 302d ; 402a . 402b . 402c ), wherein the insect attracting light pattern ( 102 . 102 ; 302a . 302b . 302c ; 302d ; 402a . 402b . 402c ) only from indirect light of the insect attracting light source ( 102c ; 301 ; 401 ) and has an illuminance of at least 53.8 lux; and (e) wherein the insect trap ( 100 ; 200 ; 300 ; 400 ) two or more Insektenanlocklichtmuster ( 102 . 102 ; 302a . 302b . 302c ; 302d ; 402a . 402b . 402c ). Cases ( 100 ; 200 ; 300 ; 400 ) according to claim 1, wherein the insect attracting light source ( 102c ; 301 ; 401 ; 602 ) is at least one UV light source. Cases ( 300 ) according to claim 1, wherein the reflective surface is a curved, reflective surface. Cases ( 100 ; 200 ; 300 ; 400 ) according to claim 1, wherein the insect attracting light source ( 102c ; 301 ; 401 ; 602 ) can not be viewed when the viewer is standing on a line perpendicular to the mounting surface. Trap according to claim 1, wherein the housing ( 101 . 101 ) has two openings. Trap according to claim 1, wherein the housing ( 101 ) is an open, rectangular parallelepiped, wherein the open, rectangular parallelepiped has two parallel surfaces, the openings for the insect attracting light pattern (FIG. 102 . 102 ; 302a . 302b . 302c ; 302d ; 402a . 402b . 402c ) exhibit. Trap according to claim 5, wherein the insect trap ( 100 ) two Insektenanlocklichtmuster ( 102 . 102 ) formed by the insect trap ( 100 ) are directed onto the mounting surface in such a way that they are separated by 180 °. Cases ( 100 ) according to claim 7, wherein the bidirectional insect attracting light patterns ( 102 . 102 ) do not overlap. Trap according to claim 1, wherein the insect trap ( 400 ) three Insektenanlocklichtmuster ( 402a . 402b . 402c ) formed by the insect trap ( 400 ) are thrown onto the mounting surface in such a way that they are separated by an angle of 120 °. Trap according to claim 1, wherein the insect trap ( 300 ) four insect attracting light patterns ( 302a . 302b . 302c . 302d ) formed by the insect trap ( 300 ) are thrown onto the mounting surface in such a way that they are separated by an angle of 90 °. Cases ( 300 ; 400 ) according to claim 1, wherein the trap shape is a regular geometric pattern. Trap according to claim 1, wherein the insect attracting light source ( 102c ; 301 ; 401 ; 602 ) and the insect immobilization surface ( 103 . 303 ; 403 ; 601 ) in which between the housing ( 101 . 101 ; 304 ; 404 . 603 ) and the mounting surface lying space are arranged. Trap according to claim 1, wherein the insect immobilization surface ( 103 ; 303 ; 403 ; 601 ) to the insect attracting light source ( 102c ; 301 ; 401 . 602 ). Trap according to claim 1, wherein the insect immobilization surface ( 103 ; 303 ; 403 . 601 ) has an adhesive surface. Trap according to claim 1, wherein the insect immobilization surface ( 303 ; 403 ) is arranged on the mounting surface. Trap according to claim 1, wherein the insect immobilization surface ( 103 . 303 ; 601 ) on the housing ( 101 . 101 . 603 ) is attached.