DESCRIPTION

[0026] Throughout the following description, specific details are set forth in order to provide a more thorough understanding of the invention. However, the invention may be practiced without these particulars. In other instances, well known elements have not been shown or described in detail to avoid unnecessarily obscuring the invention. Accordingly, the specification and drawings are to be regarded in an illustrative, rather than a restrictive, sense.

[0027] Construction

[0028] FIG. 1 shows a preferred embodiment of an apparatus 10 constructed according to the invention. Apparatus 10 comprises a base 12 , a conductive grid 14 , an insect attractor 16 , a top housing 18 and a bottom housing 19 . Top housing 18 is attached to the top of grid 14 , and bottom housing 19 is attached to the bottom of grid 14 . Attractor 16 as attached to bottom housing 19 . The apparatus 10 may further comprise a protective insulating grid (not shown) to prevent accidental contact with the conductive grid 14 . Top housing 18 contains an electronic circuit 20 which receives electrical power from a pair of thermoelectric generators 36 (see below) in attractor 16 . Circuit 20 uses the electrical power to electrify grid 14 so that any insects which come into contact with grid 14 will be either electrocuted or at least disabled. A hook 21 may be attached to top housing 18 to facilitate hanging of apparatus 10 .

[0029] The construction of attractor 16 is shown in FIG. 2 . Actuator 16 is configured to fit over a fuel storage tank 22 which contains a preferably unpressurized liquid hydrocarbon fuel. The fuel will produce heat, carbon dioxide and water vapor when burned, and is preferably methyl hydrate. The inventor has determined that methyl hydrate produces combustion products which are well suited for attracting insects, particularly mosquitos, and more particularly female mosquitos, which bite humans and animals.

[0030] Tank 22 has an opening 24 defined in a top end thereof. A fuel wick 26 is inserted into tank 22 through opening 24 . Wick 26 has a lower end 28 immersed in the fuel, and an upper end 30 which extends a suitable distance out opening 24 so that combustion of fuel can safely occur at upper end 30 of wick 26 . The bottom of tank 22 is mounted on base 12 , as described below.

[0031] Attractor 16 comprises a first thermally conductive surface 32 positioned a suitable distance above upper end 30 of wick 26 . The suitable distance may be, for example, approximately one inch, however the distance may vary according to the overall size of attractor 16 , and of the characteristics of the fuel and wick 26 . Conductive surface 32 preferably has a rectangular shape and comprises two flanges 34 which extend downwardly from opposite sides of surface 32 . Surface 32 and flanges 34 are preferably constructed from a single sheet of aluminum.

[0032] A thermoelectric generator 36 is preferably coupled to the outside of each flange 34 . Thermoelectric generators 36 each have a hot side which is coupled to flange 34 , and a cold side opposite the hot side. Thermoelectric generators 36 employ the Seebeck effect to produce voltage and current proportional to the temperature difference between the hot side and the cold side. Thermoelectric generators 36 are each preferably comprised of bismuth-telluride cubes, although other materials would also be suitable. Wires 38 are used to electrically connect generators 36 to electronic circuit 20 .

[0033] Coupled to the outsides of generators 36 are second thermally conductive surfaces 40 . Conductive surfaces 40 are preferably rectangular aluminum sheets. Conductive surfaces 40 are held in place by insulating fasteners 39 , which are attached to flanges 34 . Insulating fasteners 39 hold surfaces 40 tight against generators 36 , thereby securing generators 36 between flanges 34 and surfaces 40 .

[0034] A cooling wick 42 is held against the outside of each conductive surface 40 by a perforated sheet 44 . The bottoms of wicks 42 extend below the bottoms of surfaces 40 , and are immersed in water reservoir 50 , as described below. As surfaces 40 are heated by combustion of the fuel, water in wicks 42 evaporates, thereby cooling surfaces 40 and presenting a moist, warm surface area which serves to attract biting insects. Wicks 42 are preferably constructed of fiberglass. Perforated sheets 44 are preferably constructed of aluminum.

[0035] Attached to edges 41 of surfaces 40 are side covers 46 (only one side cover 46 is shown in FIG. 2 to avoid obscuring the other features of attractor 16 ). Side covers 46 are preferably held in place by small screws inserted into threaded holes in edges 41 (not shown), or other suitable fasteners. The outside of surfaces 40 and side covers 46 are preferably colored black, because biting insects are attracted to dark colors.

[0036] Side covers 46 preferably comprise inwardly extending flanges 48 . Flanges 48 serve to deflect heat away from top housing 19 . Side covers 46 and flanges 48 are preferably thermally conductive, so that as flanges 48 are heated, the heat is transferred to side covers 46 and the hot gasses produced from combustion of the fuel are cooled. Side covers 46 extend above surfaces 40 so that exhaust ventilation gaps 47 are formed between flanges 48 and surfaces 40 to allow heated carbon dioxide and water vapor to escape attractor 16 . Side covers 46 do not extend all the way to the bottoms of surfaces 40 so that intake ventilation gaps 49 are formed below side covers 46 to allow combustion air into attractor 16 to reach the upper end 30 of wick 26 . The bottom portions of side covers 46 are attached to bottom housing 18 by suitable fasteners, such as screws (not shown).

[0037] As best shown in FIG. 3 , base 12 preferably comprises water reservoir 50 which supplies water to cooling wicks 42 . Base 12 further comprises raised portion 52 configured to accommodate and support tank 22 , and upwardly extending flanges 54 equipped with wing nuts 56 , or other suitable fasteners, to effect attachment of base 12 to bottom housing 19 .

[0038] Grid 14 comprises an outer grid 60 and an inner grid 62 attached to each of the four sides of housings 18 , 19 in the embodiment shown in FIG. 1 . Outer and inner grids 60 , 62 are connected to electronic circuit 20 so that grids 60 , 62 are oppositely charged. Outer and inner grids 60 , 62 are electrically isolated from each other by insulating strips 64 as shown in FIG. 4 . Insulating strips 64 may comprise PVC tape or any suitable electrical insulators.

[0039] Outer grids 60 and inner grids 62 each comprise a plurality of vertical bars 66 and two cross bars 68 . One cross bar 68 is provided at both the top and bottom of each outer grid 60 and inner grid 62 . Outer grids 60 are all electrically connected to each other by means of rings 70 or other such conductive pathways. Rings 70 serve to hold outer grids 60 against inner grids 62 , with insulating strips 64 therebetween to prevent current from flowing between outer and inner grids 60 and 62 . Likewise, inner grids 62 are electrically connected to each other by wires (not shown).

[0040] It will be appreciated that housings 18 , 19 need not be square, and therefore grid 14 may have a shape other than that shown in the Figures. For example, if housings 18 , 19 are circular, outer and inner grids 62 will form two coaxial cylinders.

[0041] Operation

[0042] In operation, a user will loosen wing nuts 56 and remove grid 14 , actuator 16 and housings 18 , 19 from base 12 , as shown in FIG. 5 . After ensuring that tank 22 contains sufficient fuel and is secured on raised portion 52 of base 12 , the user will light the upper end 30 of wick 26 by suitable means, such as a match or lighter. The user will then replace the grid 14 , actuator 16 and housings 18 , 19 over tank 22 and secure base 12 to bottom housing 12 by tightening wing nuts 56 .

[0043] As fuel is burned at the upper end 30 of wick 26 , surface 32 gets hot. This creates a temperature gradient across generators 36 , which convert that thermal energy into electrical energy which is passed along wires 38 to power circuit 20 . In addition to the heat, carbon dioxide and water vapor are also produced, which attract biting insects.

[0044] The outsides of generators 36 are kept cool by surfaces 40 , which act as heat sinks. As heat is transferred to surfaces 40 , water in wicks 42 evaporates, thereby cooling surfaces 40 . This evaporation also releases a large amount of warm water vapor from a large moist surface area, which helps attract biting insects by simulating a human or animal. As the water in wicks 42 evaporates, more water is drawn up from reservoir 50 . The user will have to refill the water in reservoir 50 from time to time to ensure that the bottoms of wicks 42 remain submerged.

[0045] Electronic circuit 20 receives electrical power from generators 36 , and provides a voltage of between 250 and 1500 volts, preferably between 600 and 1000 volts across outer grid 60 and inner grid 62 . Electronic circuit 20 comprises standard components for stepping up a direct current voltage, such as a switching transistor, transformer and a rectifier. As one skilled in the art will appreciate, an extremely large number of possible variations of electronic circuit 20 would be suitable to accomplish the desired function of providing a voltage of between 600 and 1000 volts across outer grid 60 and inner grid 62 . This voltage is sufficient to kill most biting insects. Insects that are merely stunned will fall into water reservoir 50 and drown.

[0046] As will be apparent to those skilled in the art in the light of the foregoing disclosure, many alterations and modifications are possible in the practice of this invention without departing from the spirit or scope thereof. For example:

[0047] the fuel could be smokeless liquid parafin, butane, lighter fluid or other clean burning hydrocarbon instead of methanol;

[0048] the fuel tank could be replaced with a clean burning candle;

[0049] perfumes or pheromones could be added to the fuel;

[0050] the base could be an integral part of the bottom housing;

[0051] the housings could be shaped differently.

[0052] Accordingly, the scope of the invention is to be construed in accordance with the substance defined by the following claims.