CN100563436C - Utilize the system of decoy trapping winged insect - Google Patents

Utilize the system of decoy trapping winged insect Download PDF

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CN100563436C
CN100563436C CNB2005800253165A CN200580025316A CN100563436C CN 100563436 C CN100563436 C CN 100563436C CN B2005800253165 A CNB2005800253165 A CN B2005800253165A CN 200580025316 A CN200580025316 A CN 200580025316A CN 100563436 C CN100563436 C CN 100563436C
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decoy
lactic acid
attractant
ammonia
insect
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CN101001522A (en
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E·A·杜兰德
曹淼湧
刘翠侠
R·B·杜尼
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American Biophysics Corp
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American Biophysics Corp
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Abstract

The invention discloses a kind of system that is used to trap winged insect, first chemoattractant, for example as lactic acid, lactate, or its composition and comprise second chemoattractant in ammonia source.Described chemoattractant can particular geometric shapes use, and is comprised in the housing (50) of particular design, so that guarantee the effective rate of release in long-time.The invention still further relates to a kind of attractant system (12) that is used to be installed on the insect trap device.

Description

Utilize the system of decoy trapping winged insect, the method for luring winged insect, the decoy of luring winged insect
The requirement of priority
It is the preference of U.S.'s patent application serial number 10/862,898 on the 8th June in 2004 that the application enjoys the U.S. Patent Application Serial Number 10/864,284 and the applying date that the applying date is on June 8th, 2004, and the whole contents of each application is incorporated herein by reference.
Technical field
[0001] the present invention relates to be used for trapping such as mosquito, midge (no-see-ums) and other are by decoy of the winged insect of the insect that sweat and respiratory component attracted that mammal sent and relative system.
Summary of the invention
[0002], be used to attract the decoy of winged insect to comprise ammonia source and lactic acid source, wherein ammonia and lactic acid source physically separately encapsulation each other before use according to one embodiment of the invention.
[0003] another embodiment of the invention is the decoy that is used to attract winged insect, it comprises first chemical inhibitor and second chemical inhibitor, wherein first chemical inhibitor is included in the lactic acid solution in the carrier, wherein said carrier is a polymeric gel, plastics, polymer, or porous material such as porous ceramics rod or frit (frit), second chemical inhibitor comprises the ammonia source; First and second attractants are physical separation each other before using attractant.
[0004] another embodiment of the invention is the decoy that is used to attract winged insect, and it comprises first chemical inhibitor and second chemical inhibitor, and wherein first attractant comprises lactic acid solution, and second chemical inhibitor comprises the ammonia source; First and second attractants are physical separation each other before using attractant, and this attractant can be to first and second chemical inhibitors that effective dose is provided in the youthful and the elderly is between the operating period continuously or off and on, wherein this is at least one week for a long time, two weeks, three weeks, all around, six weeks, eight weeks, ten weeks, or 12 weeks.
[0005] another embodiment of the invention is the decoy that is used to attract winged insect, and it comprises first chemical inhibitor and second chemical inhibitor, and wherein first chemical inhibitor comprises lactic acid solution, and second chemical inhibitor comprises the ammonia source; First and second attractants are physical separation each other before using attractant, wherein this attractant comparison exceeds 50% at least than the attraction insect validity of attractant, this contrast attractant can comprise first and second chemical inhibitors, matsutake alcohol, a kind of in carbonic acid gas or other attractant but do not comprise two kinds.
[0006] another embodiment of the invention is to produce ammonia, lactic acid and CO respectively at the scene 2, and with the system of these gas application in the device that attracts winged insect.
[0007] another embodiment of the invention is first decoy that contains lactic acid, second decoy that contains carbonic hydroammonium is used to attract the purposes of winged insect, first and second decoys all are liquid, half-solid or solid form, wherein first and second decoys are physically separately preserved each other before using, when first and second decoys contact with environment temperature or thermal current, can produce ammonia and ammonia is discharged from the carbonic hydroammonium of second decoy, produce lactic acid simultaneously and lactic acid is discharged from first decoy, so just formed the attractant mixture that is used to lure winged insect.
[0008], is used to attract the device of winged insect to comprise and is used for producing at the scene gaseous state CO according to another embodiment of the invention 2Device, be used to discharge gaseous state CO 2Exhaust outlet, be used to import the inlet of winged insect, the chamber that is used to catch insects that is communicated with described inlet and can enters by described inlet, and at least two kinds of chemoattractants, wherein first decoy comprises lactic acid solution and UV-reactive compounds, second decoy comprises the ammonia source, and first and second decoys are deposited before using with preventing to be in contact with one another.
[0009] another embodiment of the invention is the attractant system that is used to be assembled on the following insect capturing device.This insect capturing device can be the device that is fit to any kind of seizure winged insect.For example, this device can utilize burning to produce the CO that is rich in that is used to attract insect 2Discharge gas, the MOSQUITO MAGNET device of mentioning as this paper, or do not rely on the device of burning is as CDC photo-induction device for catching.
[0010] the attractant system comprises the housing (housing) that limits first Room and second Room at least.This housing can have Any shape, and other chamber can also be provided.This housing is configured to be assembled in any suitable manner on the described device.For example, in MOSQUITO MAGNET device, housing should be assemblied in the blast pipe, the attractant that carries in the shell chamber is discharged, thereby improve the effectiveness of luring of exhaust.Alternatively, can be in any suitable manner with any correct position of insect trap device on assembling shell.In some device, can will lure housing to place other position outside the exhaust, perhaps device even can not have exhaust.
[0011] first insect attractant that discharges is carried by first Room, and second insect attractant that discharges is carried by second Room.First and second attractants are the attractants that can carry out chemical reaction mutually.For example, a kind of is acid, and another kind is an alkali, if they mix mutually, these attractants will react to each other.First and second Room have an opening respectively at least, and this opening can make insect attractant discharge from this opening.First and second attractants are kept apart mutually by one or more removable seal members substantially, and the opening of sealing parts sealing chamber mixes mutually to avoid insect attractant basically.Remove these seal members, open the chamber opening insect attractant is therefrom discharged, so just can be in this trapping device when housing places on the trapping device with attract insects.
[0012], attractant is mixed mutually when removing one or more seal member of chamber opening part by the chamber is so separated.This is favourable for the consumer market, because lure system to buy this system to the terminal use from producing this, and this system of use is one period long time cycle on his/her trapping device.If attractant is in contact with one another in the period at this section, they just may spread so, mix and react to each other, thereby the amount of attractant is exhausted, and produce probably and do not possess the accessory substance of luring effective active.
[0013] another embodiment of the invention is to insert the trapping system that is assembled in the container.Specifically, the present invention trapping system in this respect is adapted to fit in the container on the insect trap device, and wherein said container has inner space and openend.This system comprises the housing and the first indoor first diffusion insect derivant that carries that limits first Room at least.First Room has an opening that the first diffusion insect derivant is discharged from this opening at least.This housing is configured to and can housing be passed in the inner space that the openend that has engagement is inserted into container by the engagement between this housing and this container, and the trapping system is assembled on the insect trap device, releasedly container is kept in the housing.Described engagement can be the structure such as inserted sheet and opening, perhaps can be friction type.
[0014] after carrying out following detailed description in conjunction with the accompanying drawings, be appreciated that other embodiment of the present invention, feature and advantage, described accompanying drawing is a part of the present invention, and it by way of example formal specification principle of the present invention.
Description of drawings
[0015] Fig. 1 is the front elevation view of exemplary insect trap device, and described insect trap device has the attractant system of structure according to an embodiment of the invention that is installed on it;
[0016] Fig. 2 is the entrance and exit pipe partial section of the described device of Fig. 1, and this cross section has shown container and attractant system;
[0017] Fig. 3 is the perspective view of container and attractant system, and wherein the attractant system vertically is inserted in the container;
[0018] Fig. 4 is the perspective view of container and attractant system, and wherein the attractant system extracts from container;
[0019] Fig. 5 vertically is inserted into the bottom perspective view of the attractant system in the container;
[0020] sectional view that obtains along the 6-6 line of Fig. 3 of Fig. 6;
[0021] sectional view that obtains along the 7-7 line of Fig. 5 of Fig. 7;
[0022] Fig. 8 is an attractant system bottom perspective view;
[0023] Fig. 9 is the sectional view that the 9-9 line along Fig. 8 obtains;
[0024] Figure 10 is the sectional view that the 10-10 line along Fig. 9 obtains; With
[0025] Figure 11 is the perspective view of attractant system, above the described attractant system with the plastic foil thermal contraction with its opening sealing.
Embodiment
[0026] in this article, term " chemoattractant " is used to represent and can for example sends the liquid of attractant compound such as the mode of the winged insect of mosquito effectively to lure required insect, semiliquid (as gel, polymeric gel, hydrogel or other colloid), or the Solid-state Chemistry preparation, described attractant compound can be simulated the feature of luring such as human or other mammiferous at least a secretion of sweat or wound trickle.Described chemoattractant can be the native compound that separates, and as the heterogeneous of lactic acid, perhaps can be by the synthetic compound of engineering method, so that show the feature of luring of human secretion composition.Other attractant comprises, for example protein compound and organic acid.In exemplary of the present invention, CO 2, lactic acid and ammonia all is used in the mixture, as the chemical inhibitor of luring the wide region winged insect.
[0027] in exemplary of the present invention, in the system that is designed to attract mosquito and other winged insect, uses to contain CO 2, lactic acid and ammonia chemical inhibitor, CO wherein 2Gas is to produce with flowing gas plume form at the scene, lactic acid and ammonia are discharged in this plume in the source separately from it, described other winged insect includes but not limited to, Aedes aegypti (Aedes aegypti), aedes albopictus (Aedes albopictus), Aedes vexans (Aedes vexans), Anophelesatropos, Anopheles crucians, Anopheles punctipennis, Anopheleswalkeri, Culex erraticus, Culex nigripalpus, northern house (Culexpipiens), tropical tame mosquito (Culex quinquefasciatus), Culex salinarius, culiseta melanura (Culiseta melanura), Ochlerotatus canadensis, Ochlerotatus fulvus-pallens, Ochlerotatus infirmatus, Ochlerotatus intrudens, Ochlerotatus triseriatus and Psorophoraferox.
[0028] in another exemplary of the present invention, the decoy that comprises lactic acid source and ammonia source is provided, make and can the lactic acid and the ammonia of insect attractant amount be supplied to carrier gas by attractant.Be designed to provide the lactic acid that is suitable for indoor use or outdoor application and the rate of release of ammonia with this decoy.
[0029] lactic acid source and ammonia source physically separately encapsulate to reduce the degraded of attractant in the storage process decoy of the present invention each other before use.Preferably, in decoy, use removable seal member, make that removing seal member can be discharged into lactic acid and ammonia in the carrier gas.
[0030] can be surrounding air by decoy of the present invention with the carrier gas that lactic acid and ammonia are provided to it, warm and/or humid air, the air-flow that carbon dioxide content is high, waste gas plume or other gas that fuel such as hydroxyl fuel combustion produce.Vector gas in the different embodiments can flow, and perhaps adopts as diffusion or convection type and moves passively.Air flow can be randomly provided by Combustion Source, electric fan or other method of producing draught head.Other carrier gas of available branch receives lactic acid and ammonia, or receives this two kinds of chemical inhibitors with identical carrier gas.In certain embodiments of the invention, attractant can be designed to provides lactic acid and ammonia to the high carrier gas of carbon dioxide gas body burden, and in other embodiments attractant is mixed with the carbon dioxide gas body source, but difference carbon dioxide gas and lactic acid and/or ammonia.
[0031] decoy of the present invention can effectively attract winged insect.In some embodiment of invention, validity can lure the winged insect of one or more kinds to illustrate by utilizing decoy of the present invention.In certain embodiments of the invention, compare with other decoy of a kind of chemical inhibitor in lacking attractant of the present invention, perhaps compare with known decoy such as matsutake alcohol or carbonic acid gas, decoy of the present invention has shown the validity of stronger attraction winged insect or particular types winged insect.Compare with described other decoy, certain embodiments of the present invention show that validity improves, therefore decoy of the present invention is in comparative trial, can attract to have more 50%, have more 100%, have more 200%, have more 300%, have more 400%, or have more 500% the winged insect or the winged insect of some selected winged insect kind.Validity is improved test and can wherein the decoy position that compares be exchanged by shrouding test or preferably finishing in outdoor enforcement, thereby reduces the influence of environmental activity when comparing.For example, can adopt the Latin square sampling plan, or use other suitable sampling technique.Preferably, long-time one day, carried out described outdoor test in two days or many days, all insects of this duration of test IT are compared.In some preferred embodiment of the present invention, decoy of the present invention has shown a week, two weeks, and three weeks, all around, six weeks, eight weeks, ten weeks, the long-term effectiveness of 12 weeks or similar time cycle.When the validity of decoy of the present invention and equipment being carried out compare for a long time, can wholely detect decoy of the present invention and contrast decoy in long-time at this, perhaps by in this long process than the short period as one day, take a sample in two days or three days and once or repeatedly detect.
[0032] certain embodiments of the present invention can effectively attract the winged insect of following kind: Aedes aegypti (Aedes aegypti), aedes albopictus (Aedes albopictus), Aedes vexans (Aedes vexans), Anopheles atropos, Anopheles crucians, Anopheles punctipennis, Anopheles walkeri, Culex erraticus, Culex nigripalpus, northern house (Culex pipiens), the torrid zone man mosquito (Culexquinquefasciatus), Culex salinarius, culiseta melanura (Culisetamelanura), Ochlerotatus canadensis, Ochlerotatusfulvus-pallens, Ochlerotatus infirmatus, Ochlerotatusintrudens, Ochlerotatus triseriatus and Psorophora ferox.Preferably, some embodiment and contrast attractant: independent lactic acid, independent ammonia, independent carbonic acid gas, lactic acid adds carbonic acid gas, and ammonia adds carbonic acid gas, matsutake alcohol, or matsutake alcohol adds carbonic acid gas and compares, and can more effectively attract the winged insect of one or more described kinds.Preferably, the attraction measured of described embodiment is renderd a service and is exceeded 50% than described contrast attractant.More preferably, its attraction than described contrast attractant is renderd a service and is exceeded 100%, 200%, 300%, 400%, 500% or more.
[0033] in this article, term " vision decoy " is used for expression and is arranged and is designed to and can lure winged insect by vision, passes through CO 2Plume is lured winged insect near the auto levelizer, flies to the device near the place of insect entry.The color of vision decoy and design and geometric properties combination are so that simulation is used for the visual cues winged insect that target is decided host mammal.
[0034] can and constitute chemoattractant design and can control compound burst size in time, so that guarantee to disperse attractant to be used to implement the level of effective insect trapping.Usually be designed to provide the efficient chemical inhibitor of discharging into the atmosphere controllably with attractant, its rate of release may be subjected to environmental temperature, humidity, main air-flow, other local microcosmic climate parameter, exhaust/CO 2Speed, and the influence of the relation between the volatility of described attractant compound.In addition, when being used for when indoor, inner space volume and also influence the expectation rate of release of chemical inhibitor with the air charge rate of outdoor air.
[0035] in embodiments of the invention, each composition of chemoattractant mixture is as lactic acid and ammonia (NH 3) at mobile thermal current or CO 2Rate of release in the gas, to small part, be by selecting and/or the contact surface in control lactic acid source and ammonia source is controlled, airflow flowing contacts with this surface in use, thereby when long-term the use, as at least about 2 or 3 weeks or longer, can keep the validity of the attraction winged insect of each chemoattractant mixture.
[0036] in embodiments of the invention, described chemoattractant comprises at least a nontoxic relatively, perhaps compare the attractant compound of toxicity, and this compound is prepared to the natural insect attractant that can simulate by mammlian system release with reduction with traditional insecticide.Thus, organic acid and derivative thereof are suitable analogies.Can also use the mixture of decoy.These kairomones (kairomones) can be naturally occurring native compounds or can synthesize by engineering method.
[0037] appropriate organic and derivative thereof lactic acid, lactate and their combination that example is a free acid form.Ammonium lactate is the lactate that is suitable as attractant of the present invention.Ammonia, acetone, uric acid, butyric acid, dimethyl disulphide, 2-phenylethanol and derivative thereof also can be as the attractants of a lot of winged insects.Known be the multiple compound of kairomone by people such as Park at J.Insect Physiol.45,85-91, open in 1999, the content whole of the document is incorporated herein by reference.Attractant can be prepared into the particular types winged insect that can attract known harm particular locality specially.
[0038] in one embodiment of the invention, attractant is that the lactic acid of food-grade form or purity are at least 99% lactic acid, and impurity is near the influence of the air quality the attractant in the time of so just reducing use.L (+)-lactic acid can use separately or be used in combination with other attractants.In another embodiment, the mixture that can be used as with calcium lactate of L (+)-lactic acid uses simultaneously.In another embodiment, L (+)-lactic acid mixes separately or with calcium lactate, with ammonia, other ammonium compound that maybe can produce ammonia as ammonium hydroxide aqueous solution, Powdered carbonic acid hydrogen ammonium is used in combination, for example in room temperature, Moderate High Temperature is such as on the room temperature, as at least about 85 °F.But should be appreciated that, chemical inhibitor of the present invention has been designed to and can have discharged ammonia in any preferred temperature scope.Can use one or more chemical inhibitors, can encapsulate, perhaps to encapsulate from the insect trap device or a plurality of independently sources that otherwise combine with it with single source.
The spatial chemistry of [0038a] lactic acid (L-isomer) purity is at least about 95%.
[0039] chemoattractant can be made liquid, semi-solid as gel or solid, so that and insect trap device, device uses together as described herein.Insect trap device is known in the art.For example, the trade mark that U.S.'s biophysics (American Biophysics) company sells is the insect trap device of MOSQUITO MAGNET, and this device utilizes the burning generation to be used to attract the full CO of carrying of insect 2Discharge gas.With reference to U.S. Patent No. 6,145,243 and U.S. Patent application No.2003/0084604A1 to the detailed description of this device operation, its full content is introduced the application for your guidance.
[0040] in one embodiment of the invention, the solid decoy is a powder type, for example this powder can be kept in porous bag or the big envelope and use, and so just can make air-flow enter and discharge, perhaps with this powders compression or be molded as different shape, as block, plug shape or ball shape.The solid insect attractant can have in check rate of release.In one embodiment, Powdered L (+)-lactic acid is compressed into bullet or cylindrical.No matter be what shape or physical aspect, attractant when ingress of air or air-flow, will discharge from described liquid, semisolid or solid attractant under little high temperature.In one embodiment, the part surface at least contact that makes chemical inhibitor or attractant is such as from wet CO insect trap device, warm 2Exhaust jet stream goes and cause chemical inhibitor such as lactic acid and ammonia to be diffused in the exhaust jet stream.
[0041] according to embodiment of the present invention, the liquid decoy can be used as chemical inhibitor.The liquid decoy can be installed in the suitable container or vessel, described container or vessel have can be made air-flow flow into and flow out and the one or more openings or the passage that do not make liquid flow into and flow out.In another embodiment, the liquid decoy is impregnated on the carrier such as porous rod or frit, described material can discharge described attractant compound behind the CO2 emission air-flow as previously mentioned at ingress of air or other gas that is fit to.Can adopt any suitable carriers that can keep the aqueous chemical attractant releasedly.In certain embodiments of the invention, being the about 1.5g of every gram carrier frit with concentration is used alone as chemical inhibitor to the liquid lactic acid of about 4.5g (the about 3.5g of preferred every gram carrier frit to about 4.5g or the about 1.9g of every gram carrier frit extremely about 2.5g), perhaps makes up with one or more other attractants.When at the environmental temperature height to being higher than about 15 of ambient air temperature, 3 °F according to appointment, about 5 °F, about 8 °F, about 10 °F, about 12 or about 15 contact CO down 2Exhaust jet stream, lactic acid will discharge from attractant.Certainly, can also use the exhaust jet stream of higher temperature.On the other hand, such as the diffusion velocity that depends on attractant characteristic and expectation,, utilize at ambient temperature and only little exhaust jet stream that is higher than under the environmental temperature, also within the scope of the invention when when being designed for specific temperature climate.Suitable temperature for any specific environment can be determined simply by the conventional process in technician's technology.And these concentration can be optimised according to given environment.
[0042] can be by under temperature from about environmental temperature (or preferred about 85) to about 140 (or preferably about 115), or also can make lactic acid from the lactic acid decoy, under another temperature range that effectively spreads in the lactic acid solution of polymer gel form, make the part surface at least and the gas of decoy, as air or CO 2Gas (or contains CO 2Exhaust jet stream) contact, and easily with ammonia discharging from loose or compressing powder or granulated ammonium bicarbonate.The temperature of eluting gas can effectively produce lactic acid and ammonia usually at about 85 °F during to about 140 scopes from the described attractant sources of major part, described attractant sources comprises lactic acid/gel of describing in the various embodiments of for example the present invention, and carbonic hydroammonium.
[0043] chemical inhibitor can be loaded in the cartridge case, be discharged into speed in the insect trap device surrounding air so that control attractant better.The rate of release feature that is derived from the chemical inhibitor of decoy is directly proportional with temperature, promptly by improving environmental temperature, can obtain higher rate of release.This rate of release also passes through the flowing velocity of decoy with gas, and the geometry of chemical inhibitor is long-pending relevant with contact surface.Can adjust these factors, obtain to be fit to the expectation release characteristics of given chemical inhibitor and given environmental condition.As mentioned above, can adjust CO as required 2The temperature of exhaust air plume or other vector gas is so that be increased in the release of attractant from trapping device under the given environmental condition.
[0044] can control the release of chemical inhibitor from liquid, semiliquid (comprising gel) and solid decoy, in time a few days to several weeks, obtain the insect attractant of level of significance.According to embodiment of the present invention, the attractant rate of release of lactic acid can be controlled at about 1mg/hr to the scope of about 30mg/hr, for example, about 2mg/hr, about 3mg/hr, about 4mg/hr, about 6mg/hr, about 8mg/hr, about 10mg/hr, about 12mg/hr, about 14mg/hr, about 15mg/hr, about 16mg/hr, about 18mg/hr, about 20mg/hr, it only is representational should understanding these values, " all " numerical value that does not need to provide in the given unit (anywhere provides numerical value, this specification all uses this principle, unless otherwise indicated).These and other rate of release of different embodiments according to the present invention can be represented 1 hour, 6 hours, and 12 hours, 24 hours, 5 days, 7 days, 10 days, 12 days, 14 days, 15 days, 18 days, 21 days or interior At All Other Times average average rate of release.
[0045] according to concrete source and its configuration, the ammonia rate of release can be faster than the rate of release of lactic acid.Therefore, in embodiments of the invention, ammonia source and lactic acid source are designed to can be in long-time as at least about two weeks or at least about three weeks, or two kinds of attractant mixtures of effective simulated body secretion and effective acquisition target winged insect were provided in longer time.For example, when the ammonia source is carbonic hydroammonium, when about 30 ℃ (86 °F), begin to be decomposed into ammonia, carbonic acid gas and water usually, 60 ℃ (140 °F) or decompose when higher faster.Depend on the actual conditions of use, when near described temperature, one, two, three or more weeks in when using, the rate of release of acquisition (based on whole chemical inhibitors) is at about 16mg/hr extremely in about 130mg/hr scope, or lower or higher.For example, be preferred in the outdoor embodiment, decompose the rate of release obtain in one or two time-of-week from carbonic hydroammonium in the present invention, initial release speed temporary transient higher after, on average about 50 to about 70mg/hr scope.Be directly used in the indoor embodiment in the present invention, decompose the rate of release obtain preferably from about 1mg/hr to about 60mg/hr from carbonic hydroammonium, or more preferably from about 5mg/hr extremely in about 50mg/hr scope.The rate of release in the scope that this points out of lactic acid and ammonia (for example carbonic hydroammonium) provides to attractant can effectively simulate secretion such as sweat, and the enough service life of preferred acquisition target winged insect is usually at least about 2 weeks, as all or longer at least about 3.Be fit to preferably select the rate of release of lactic acid and ammonia in the embodiment of indoor use in invention, so that ammonia and lactic acid concn are friendly to the mankind, and more preferably within health, safety or aesthetic purpose standard.
The speed that [0045a] preferred described lactic acid and ammonia flow out from described source is as follows: ammonia is extremely about 30mg/hr of about 3mg/hr, and lactic acid is that about 1mg/hr is to about 20mg/hr.
[0046] the chemical attractants dosage of Shi Yonging can change according to the size of decoy and the expection environmental condition of shape, choice of formulation and used attractant.
[0047] can adjust rate of release, so that effectively trap the winged insect of particular types with specific chemical inhibitor.Some high volatile volatile attractant can adopt the volatile geometry that is designed to weaken this compound, so that the too early forfeiture of avoiding attractant to render a service.On the contrary, other more stable chemical inhibitors may need heating or other to react and promote it to be diffused into air or CO 2In the air-flow.Basically do not possess volatile compound and more be difficult to realize control effective insect attractant.
[0048] in general, usually can (can also comprise other attractant gas to lactic acid and ammonia, comprising carbonic acid gas and steam in decomposing as carbonic hydroammonium) speed that is discharged in the discharge gas that comprises carbonic acid gas controls, thereby in long-time, usually at least about two weeks, or at least about three weeks, or in the longer time, in discharging gas, form simulation secretion,, discharge gas so that flow out continuously as the mixture of sweat or people or mammiferous other body fluid.Certainly, if each composition of attractant only intermittently contact with discharging gas, even can also be further with the service life and the validity prolongation of attractant.In addition, can obtain the release of chemical inhibitor by diffusion or other active mode with regard to the chemical inhibitor air flows, or directly contact with air-flow, utilize electric fan, exhaust air plume and alternate manner flow chemical inhibitor.
[0049] therefore, provide in one embodiment of the invention and be used to lure comprising of winged insect of the optional lactic acid source that combines with air-flow and the decoy in ammonia source.Described air-flow can provide basicly stable air flow, and flowing velocity is extremely about 250L/min of 10L/min, and more preferably about 40L/min is to about 140L/min.Should be appreciated that and to select other flowing velocity, and acquisition is fit to the expectation rate of release feature of particular chemical attractant and specific environment for use condition.At (the about 150ml of flowing velocity per minute), under about 90 of the temperature, when decoy and steady air flow, when the steady air flow of the gas that preferably carbon dioxide content is high (for example about 5ml/ liter) contacts, in at least two weeks (as at least about 300 hours), or at least about in three weeks (as at least about 500 hours), contain from the chemical inhibitor of the ammonia in ammonia source and will discharge decoy to about 130mg/hr with about 16mg/hr, containing will be with the extremely about 20mg/hr release of about 2mg/hr decoy from the chemical inhibitor of the lactic acid in lactic acid source.
[0049a] is used to lure the preferred decoy of winged insect according to the present invention, comprise L (+)-lactic acid-gel solution, and further comprises the ammonia source, wherein:
L (+)-lactic acid-gel solution comprises:
(i) 20wt% to 50wt% PAA;
(ii) 50wt% to 75wt%L (+)-lactic acid;
(iii) 1wt% to 5wt% Macrogol 600 diacrylate;
(iv) 1wt% to 3wt% phosphine oxide.
The preferred decoy of [0049b] another kind according to the present invention further comprises water-gel solution, and wherein said hydrogel solution comprises:
(i) 30wt% to 70wt% PAA;
(ii) 2wt% to 6wt%L (+)-lactic acid;
(iii) 1wt% to 5wt% Macrogol 600 diacrylate;
(iv) 0.5wt% to 2wt% phosphine oxide; With
(v) 30wt% to 70wt% distilled water.
The preferred decoy of [0049c] another kind according to the present invention comprises L (+)-lactic acid-gel solution, and further comprises the ammonia source, wherein:
Described L (+)-lactic acid-gel solution comprises:
(i) the crosslinkable polymer of 10wt% to 50wt%;
(ii) 30wt% to 75wt%L (+)-lactic acid;
(iii) 0.001wt% to 5wt% light trigger;
(iv) 5wt% to 25wt% water;
Wherein the percentage by weight of the lactic acid gel solution component of Ji Suaning is for whole lactic acid gel solutions.
The preferred decoy of [0049d] another kind according to the present invention comprises the lactic acid gel solution, and wherein said lactic acid gel solution comprises 30wt% to 40wt% lactic acid; Crosslinkable polymer comprises 10wt% to 20wt% diacrylate macrogol ester; Light trigger comprises 0.1wt% to 2wt%2,2-dimethoxy-1,2-diphenylethane-1-ketone, and water.
[0050] can select to be used for the housing of holding solid and aqueous chemical decoy, so as to make specific chemoattractant with to air or such as CO 2Discharge the best contact coupling of air-flow of air-flow.As used herein, CO 2Air-flow, CO 2Gas, CO 2Discharge air-flow etc. is meant CO with regard to surrounding air 2The gas that content is high can comprise burnt gas, CO 2The mixture that air and other gas are wherein arranged.Described housing can have a plurality of adjustable holes, thereby can control the attractant diffusion velocity preferably.For example, can select and prepare decoy,, thereby lure the particular types winged insect so that discharge specific chemical inhibitor or attractant mixture with specific speed, such as the insect of carrying disease, biting insect, barbed insect, simultaneously or prolong service life of attractant in addition.According to one embodiment of the invention, the similar tubulose basket with one or more release aperture is arranged and constituted to housing.Described housing basket can have an end cap.The decoy housing of embodiment of the present invention is designed to be able to about 2mg/hr for example to about 20mg/hr or any median in this scope or according to particular chemical attractant and target insect and the desired speed release attractant of definite higher value.According to one embodiment of the invention, rate of release to small part by suffered discharge gas flow rates of chemical inhibitor and/or delivery temperature control.In some embodiment of invention, rate of release also can be controlled by the aperture area of the used housing of chemical inhibitor.In the working of an invention scheme, can change the size in opening or hole.In another embodiment, opening or hole dimension can be fixed.Opening or hole shape are crucial especially, can be circle, square, rectangle or any Else Rule or irregular geometry.
[0051] in one embodiment of the invention, one or more chemoattractants are with suitable biodegradable polymer formulation, and are molded into the article with specific three dimensional geometry.Select suitable biodegradable polymer, particularly be suitable for injection moulding or extrusion molding.Described biodegradable polymer can decompose by random hydrolysis in time.Along with the erosion of the biodegradable polymer of molding, from described mechanograph, discharge the chemical inhibitor that makes new advances continuously.Can select described chemical inhibitor, degrade so completely and corrode the generation that causes the environment amenable compound of easy to handle.For example, poly-L (+)-lactide, the biodegradable polymer of poly-glycolide and poly-(lactide-co-glycolide) can degrade respectively and form L (+)-lactic acid, glycolic and L (+)-lactic acid and glycolic.
[0052] degradation speed can be according to changing in several weeks to several months or longer time at least as the decoy surface area size with air streams contact.Described air flow is to select according to the environment for use of described chemical compound and the expection of described decoy.Degradation speed can also be formed by changing the polymer or the copolymer that are adopted, and/or passes through to adjust the geometry of described decoy so that increase or minimizing and CO 2Or the surface area of similar gas or air-flow contact is controlled.Generally, the degradation speed of amorphous (being total to) polymer fast than semi-crystalline polymer.
[0053] in another embodiment of the invention, at least a chemoattractant is by at least a chemical inhibitor is prepared with suitable polymers while injection molding, so that form the mechanograph that is injected with attractant.Can carry out moulding to the mechanograph of described band bait, guarantee that described chemical inhibitor discharges necessary maximum surface area in time so that provide.In another embodiment of the invention, described molding process comprises importing gas, so that produce hole matrix in described mechanograph.These holes can make such as the CO that has steam 2Discharge the air communication of air-flow and cross described mechanograph, so that increase the release of the chemical inhibitor that is contained in the inside.This design allows less insect attractant to discharge from described attractant with continuous speed, so that can make exposure level diffusion in long-time of attractant.
[0054] injection molding of chemoattractant also makes described attractant to produce with the global facility form, at described decoy be equipped with between the housing of this decoy mechanical interface is provided.Described mechanical interface makes decoy can be fit to specific housing as hook, lug and snap fit etc.Described housing can perhaps have special trapping device in order to use at particular market and to design.Like this, decoy can be with the winged insect species relevant with particular locality and custom-designed at environmental condition.The narrow spectrum chemoattractant in these markets can need so that adjust after buying advantageously for the terminal use provides the selection that adapts to its insect trap device.
[0055] in another aspect of this invention, chemoattractant can be connected on the insect trap device, this device designs in order to use with the fuels sources that ignitable fuel is housed, so that produce CO 2In an embodiment of invention, insect trap device comprises support; Place the insect trap chamber on the described support; Place the burner on the described support, and the location and constitute with insect chemistry lure the insect attractant of described insect trap chamber.Described burner comprises and is used for the inlet, the exhaust outlet that are connected with described fuels sources and the combustion chamber that connects described inlet and exhaust outlet.Described inlet makes the fuel from described fuels sources can flow into described combustion chamber, so that continuous burning inside, thereby in described combustion chamber, produce waste gas.
[0056] in the working of an invention scheme, described burner also comprises being placed on and is positioned at the catalyst component that carries out continuous burning point downstream in the described combustion chamber.Described catalyst body comprises catalytically-active materials, and it can change into CO with the carbon monoxide in the waste gas during operation 2CO 2The combine analog of waste gas and chemical inhibitor the compound that discharges by mammal, winged insect detects this compound seeking host Shi Neng.Described feature is described in the co-pending U.S. Patent Application Serial 10/264,260, and the content whole of this patent is incorporated herein for reference.
[0057] waste gas outlet is set on the described support, and is communicated with the exhaust outlet of described burner.Described exhaust outlet can make waste gas pass through described air exit outflow, so that by the CO in the waste gas 2The insect that is attracted can be flown to described air exit.Place near described air exit on described support also has insect entry.Described insect entry is communicated with described insect trap chamber, so that winged insect can enter described trap chamber by described insect entry.The vacuum plant that is communicated with described insect entry is configured and arranges that the insect will attracted to described waste gas outlet by insect entry sucks described insect trap chamber.In order to increase the attraction of described insect entry to insect, the container that will comprise at least a chemical inhibitor be connected on the described insect trap device the insect entry place or near this inlet.
[0058] embodiment of the present invention comprise and are used to produce the CO that lures insect 2Catalyst body, and described chemoattractant location and be mixed with and can provide continuous attractant to supply with in check rate of release.This layout can provide extra attraction to winged insect, because the fixed CO that sends from described air exit of the unlikely target of insect 2Plume, enough near-earths fly to described insect entry and can be inhaled into the insect entry that is used for the catching place to insect trap chamber.Add at least a chemical inhibitor of embodiment of the present invention, can significantly strengthen the effectiveness aspect the insect that this device is attracted in trapping, thereby obtain former unforeseen collaborative level.
[0059] embodiment of the present invention can adopt described chemical inhibitor separately or can lure other material of winged insect to be used in combination with one or more.Thereby, can adopt the combination of two or more insect attractant compositions, as CO 2Combination with at least a chemical inhibitor and/or one or more vision insect attractants.
[0060] according to embodiment of the present invention, be used to attract the system that lures of winged insect to comprise at least the first chemical inhibitor and at least the second chemical inhibitor, first and second attractants and/or its diffusing products that have mutual chemical reaction, wherein first and second chemical inhibitors are to prevent between first and second chemical inhibitors and/or the mode that is in contact with one another between its diffusing products is preserved.
[0061] first chemical inhibitor can comprise the lactic acid source, the lactic acid source in for example above-mentioned any embodiment.Second chemical inhibitor comprises the ammonia source.Can be with these two kinds of attractants, choose any one kind of them or more additional chemical attractant and/or vision decoy, be arranged in the housing, when as previously mentioned with CO 2During the gas source contact, just can activate and cause each attractant such as lactic acid and ammonia to be diffused into CO 2In the gas stream, thereby the attractant mixture is mixed, and formation can more effective combinatorial chemistry attractant that attracts winged insect than any single attractant.
The carrier of [0061a] first chemical inhibitor is a polymeric gel, and lactic acid in first chemical inhibitor for about 1wt% to about 99wt%, or about 25wt% about 90wt% extremely.Preferred lactic acid is extremely about 60wt% of about 25wt% in first chemical inhibitor, and more preferably about 30wt% is to about 40wt%, and more preferably about 34wt% is to about 37wt%.
[0061b] ammonia source in described decoy can be a carbonic hydroammonium, and carbonic hydroammonium is that about 25wt% is to about 99wt% in second chemical inhibitor, preferably be that 50wt% is to about 90wt% in second chemical inhibitor, more preferably being extremely about 80wt% of 70wt% in second chemical inhibitor, most preferably is that 72wt% is to about 78wt% in second chemical inhibitor.
[0062] in order to prevent that first and second chemical inhibitors from spreading too early or react to each other (comprising chemical reaction), attractant separately can be packed or sealed up for safekeeping or be packaged in the single housing, make the mutual physical separation of attractant, for example with whole housing or only with its inlet and exhaust outlet sealing.
[0063] as used herein, term " single housing " or " individual packaging " or the similar term meaning are meant any packing of being sold to the terminal consumer as unit.In the working of an invention scheme, the form of individual packaging is the housing that first Room and second Room are arranged, and it is first indoor that first attractant is stored in, and it is second indoor that second attractant is stored in.In one embodiment, second Room and first Room are located in the same housing.Attractant and/or housing and/or chamber can be significantly cylindrical.In an embodiment of invention, first and second locular walls that housing wall limits are identical with the attractant wall, or than attractant wall slightly larger in diameter.
[0064] in another embodiment, first and second Room are designed in enclosure interior, and left at interval with housing wall.For example, inner walls can comprise the wherein reverse projection in space of two or more qualifications, and attractant can more or less keep the relation of being spaced apart with inner walls safely in this space.For example, projection can be positioned at along on several longitudinal separation separation point positions of shell length, and in be spaced apart locational projection fully opposite (180 ° according to appointment) or with about 45 ° of each or some, 60 ° or 90 ° or any other guarantee that the make things convenient for arrangement interval of attractant in housing separate.CO can be given in space between housing wall and attractant 2Air-flow or other air-flow provide flow channel, cause corresponding attractant to diffuse in the air-flow and go, and described air-flow flows in the surrounding environment that attracts insect, catches subsequently or kill insects.Housing wall also can comprise one or more openings, further to make the CO that flows outside 2Or other air-flow is near attractant.One or more openings can have identical or different size, and can have fixing or variable size.
The gross area of [0064a] opening in first Room can be about 0.3in 2To about 2.0in 2, the gross area of the opening in second Room can be about 0.01in 2To 0.2in 2, the gross area of the opening in first Room can be about 0.2in 2To about 1.2in 2, the gross area of the one or more openings in second Room can be about 0.005in 2To 0.2in 2
[0065] according to embodiment of the present invention, wherein first and second chemical inhibitors react to each other and/or its volatilization or diffusing products react to each other, sealing makes any opening or the passage that contacts between first and second attractants and/or its steam before initial the use, so that prevent to react in advance and prolong the service life of decoy.
[0066] in another optional embodiment of the present invention, first and second chemical inhibitors are the parts that install to the attractant system on the insect trap device, and wherein the attractant system comprises and is defined as at least the first chamber; The housing of at least the second chamber; Described housing is configured to be installed on the insect trap device.It is first indoor that first chemical inhibitor is included in, and it is second indoor that second chemical inhibitor is included in.Each opening that all has at least one can first and second insect attractants therefrom be spread out of first and second Room.First and second Room are comprised basically, and the structure of one or more removable seal members is spaced from each other, and shuts the chamber opening and just can avoid insect attractant and diffusing products (as ammonia) thereof to mix or contact basically.Remove one or more removable seal members, open at least one chamber opening, thereby insect attractant is spread out thus, when being contained on the insect trap device, attract insects is arrived insect trap device with convenient housing.In an embodiment of described attractant system, the housing that defines first Room also defines second Room, the chemical inhibitor of chemical reaction further comprises the structure that first and second Room are separated, so that can directly not be in contact with one another in common or single housing.The name that further specifically is disclosed in application on June 8th, 2004 according to the attractant system of the embodiment of the present invention is called in the identical provisional application common co-pending of the applicant of " being contained in the attractant system on the insect attractant means ", the agent is equipped with careful numbering 9554/308673, and whole contents is incorporated herein by reference.
[0067] in various embodiments of the present invention, housing generally includes at least one inlet, and thermal current is as CO 2Gas can be entered and the contacting to the small part exposed surface of first and second attractants by this inlet, with at least one outlet that is connected with each chamber, by this outlet CO 2Gas can be discharged chamber and housing separately, and first and/or second attractant (as lactic acid and ammonia) that discharges from attractant owing to contacting with the thermal current that flows.Certainly, being used for one or more inlets of gas flow can be identical with one or more outlets.First and second attractants in housing loading sequence or be arbitrarily and can be any order with the engagement sequence of air flow.
[0068] in another embodiment of the invention, first and second attractants are arranged with side by side relationship, for example their longitudinal axis separately is substantially parallel at least, and be contained in common or individual packaging or the container, so just can prevent the contact in advance between the differential responses decoy before initial the use.
[0069] in another embodiment of the invention, first and second attractants can be arranged with circular structure, can contact with each attractant as long as enter the air flow of chemical inhibitor to be discharged.For example, can be with outside diameter d 1First attractant install to that the diameter of longitudinal extension is d in second attractant 2Opening or channel interior, d wherein 2〉=d 1At d 2=d 1Situation under, first attractant can comprise the opening of himself longitudinal extension, makes the path of air current flow with formation, when separately airflow flowing contacts with the external diameter of second attractant, just can discharge each attractant from first and second chemical inhibitors.At d 2>d 1Situation under, airflow flowing will contact the surface of two kinds of attractants in the longitudinal extension opening of second attractant, simultaneously other any air-flow contacts the outer surface of second attractant, just can make this two kinds of attractants releases.Same herein, first and second attractants as inner or outside attractant in being circular layout are arbitrarily in proper order and can be inverted.This embodiment is particularly advantageous under before use the expection storage condition, and chemical reaction or only slowly or the chemical inhibitor of chemical reaction do not take place does not substantially take place.For the stronger chemical inhibitor of reactivity, spacer and/or film or the confining bed that can remove packaging material or other type can both be used to keep attractant that direct contact does not take place.
[0070] according to above-mentioned embodiment of the present invention, first and second chemical inhibitors is preserved before firm use in the mode of mutual physical separation.The meaning of " physical isolation " used herein or " physical isolation ground " is directly not contact, or prevents from allowing first and second attractants directly reaction or its gas and/or vapor diffusion product, for example contacts under ammonia and the condition that lactic acid reacts to each other.For this reason, in one embodiment of the invention, can be with first and second attractants any or two kinds of separately packing or sealings, for example be sealed in the shrink wrap.
[0071] in embodiments of the invention, the lactic acid that produces chemical inhibitor can comprise the polymeric gel that contains gel network, combines but lactic acid can chemistry not take place with gel network inside, lactic acid can be kept in the plastic cartridge casep.Can make described plastic cartridge casep itself, on its sidewall, have at least one hole or other ventilative mode, be installed in the fitted vessel with openend so that the lactic acid steam is passed through.Arbitrary in cartridge case and the container or both at least one hole or ventilative mode temporary sealing therefrom can be leaked with accident contact or the lactic acid that prevents contained lactate material in it.Also the ammonia source of making second attractant can be included in himself cartridge case, or in the compartment of the cartridge case housing that contains the lactic acid gel.The ammonia source can be included in bulky powder or the particle in porous bag or the container, with for example plastics or In Aluminium Foil Packing temporary sealing.In addition, can be with powder or particle molded or be shaped to such as the monolithic configuration, as cylindrical, and install in the opening of cartridge case or container.
[0072] in embodiments of the invention, the cartridge case housing comprises by film, baffle plate or uses with case material and be same or different from first and second Room that other separator of the material manufacturing of case material separates, thereby with first and second attractants that are contained in first and second Room respectively separately.As described herein, in the housing any opening that gas is flowed into or flow out all will by such as removable sealant tape temporary sealing before using at once, also can be printed on advertisement on the sealant tape, composition and/or guide for use.
[0073] any or all equipment or any alternate manner that is used for preserving in the physical isolation mode first and second attractants all belongs to scope of the present invention.
[0074] as the alternative of opening, hole or air vent, housing or separation structure can be formed by porous material, and described porous material can allow gas to discharge, and especially the gas under the atmospheric pressure is discharged.For example, housing, cartridge case, films etc. can be by the clinkering metal, and open cell foamed plastic or other porous material form, and described material possesses the structural intergrity that is enough to be fit to expection processing and service condition.Herein, porous material also can be by removable sealant such as compression packing, and band etc. are sealing effectively, so that prevent contingent any steam leakage in the storage process.
[0075] first and second attractant can be positioned near CO 2The position of gas access is such as CO 2The downstream of gas access.
[0076] in one embodiment of the invention, the ammonia source is or comprises that carbonic hydroammonium, chemical formula are NH 4HCO 3
[0077] carbonic hydroammonium can mix with inert component, and described inert component comprises such as adhesive, so that form particle.Depend on housing and its equipment that is intended to be used for, particle can be pressed into the shape of expectation.In one embodiment, the shape of carbonic hydroammonium attractant is basic identical with the shape of first attractant that comprises lactic acid, for example is basic cylindrical.
[0078] make air-flow or carbon dioxide will produce gaseous ammonia, carbonic acid gas and water through carbonic hydroammonium, the speed of generation is decided by air or CO 2The flowing velocity of air-flow, gas flow temperature and the surface area that contacts.
[0079] in one embodiment of the invention, second chemical inhibitor comprises the granulate mixture of compression or molded carbonic hydroammonium, adhesive and water.In one embodiment, all calculate based on the mixture total weight amount, carbonic hydroammonium is about 50% to about 90%, for example about 50%, about 55%, about 60%, about 65%, about 70%, about 75%, about 80%, about 85% or about 90%; The amount of adhesive is about 5% to about 35%, and is for example about 5%, about 10%, about 15%, about 20%, about 25%, about 30%, or about 35%; The amount of water is about 3% to about 20%, for example about 3%, about 5%, about 10%, about 15%, about 20%.
The purity of [0079a] carbonic hydroammonium is at least 99%.
[0080] can use any suitable conventional inert binder.The example of the adhesive that is fit to comprises as starch, wax (as card Nao crust wax, beeswax), low-molecular-weight water soluble (CO) polymers (as polyvinyl alcohol, poly-(ethylene glycol)), cellulose and cellulose derivatives are (as microcrystalline cellulose, modified cellulose, cellulose ether is as alkylcellulose), rubber (as guar gum, bassora gum), fatty acid and ester are (as stearic acid, the alkyl stearate), calcium monohydrogen phosphate, mannitol, fructose, xylitol or the like, and adhesive well-known to those skilled in the art.Water also provides adhesive function.
[0081] ammonia also can produce by ammonium salt and alkali reaction.Described ammonium salt that provides and described alkali can be homogeneous or the uniform homogeneous blends that respectively reacts the solid subparticle.Use for example by CO 2Warm startup reaction that gas flow provides or that provide by other external source.At this, product comprises ammonia and water byproduct steam.Ammonium salt can be inorganic ammonium salt or organic ammonium salt.The inorganic ammonium salt example that can mention is made by halide, sulphate, sulphide, nitrate and phosphate.Ammonium acetate is the representative of organic ammonium salt.Other carboxylic acids also can use.The representative example of spendable alkali comprises highly basic, as alkali metal (for example sodium, potassium, lithium); The hydroxide of alkaline earth metal (as calcium); Oxide (as calcium oxide); Carbonate (as calcium carbonate).
[0082] common, consider that from economic angle the selective chlorination ammonium is made ammonium salt and calcium oxide (quicklime), slaked lime (calcium hydroxide) or calcium carbonate (lime stone) suit as alkali.Should be pointed out that when selecting calcium carbonate for use, ammonium carbonate forms with intermediate forms, is that 2: 1 the carbonic hydroammonium and the mixture of ammonium carbonate exist with general proportions usually.As mentioned above, carbonic hydroammonium with for example CO 2Will be decomposed into ammonia during the contact of gas hot-fluid.Carbamate, in case with air or CO 2The gas contact also can be converted into bicarbonate, and produce extra ammonia.
[0083] also can use the inorganic or organic ammonium compound of any liquid or solid, this compound is in case decomposition will discharge ammonia.The example of the ammonium compounds that is fit to comprises, ammonium acetate for example, ammonium benzoate, ammonium carbonate, ammonium carbonate/scandium carbonate disalt monohydrate, ammonium chloride, ammonium citrate, disodium ammino five cyanogen ferric acid (amminepentacyanoferrate) ammonium hydrates (II), ferrous (II) ammonium cyanide hydrate, ammonium formate, ammonium hydroxide (ammoniacal liquor), ammonium hydrogen citrate, the calcium monohydrogen phosphate ammonium, ammonium hydrogen sulfate, ironic citrate (III) ammonium, ammonium lactate, nickelous sulfate (II) ammonium hexahydrate, ammonium niobium oxalate, ammonium nitrate, ammonium nitrate matrix modification solution, the ammonium oxalate monohydrate, ammonium perchlorate, ammonium persulfate, Amcide Ammate, ammonium sulfate, ammonium sulfide solution, ammonium sulfide monohydrate and L-ammonium tartrate.
[0084] uses ammonia itself also within the scope of the invention, for example Jia Ya ammonia cylinder or the ammonia solution in the suitable solvent.
[0085] select ammonium compounds or ammonia can depend on the availability in the place that will use attractant.In the working of an invention scheme, wherein decoy expection or special design are used in the space of sealing, such as user family, or other place of contacting with people or other animal of sootiness or steam expection, to the particularly important is the chemoattractant that comprises catabolite be nontoxic, do not stimulate and basic security.In an embodiment of invention, food-grade lactic acid and food-grade carbonic hydroammonium are made chemical inhibitor and are used.Yet, can use any similar attractant, it is safe with other animal that described attractant is considered to consumer and/or contact people substantially.
[0086] in another embodiment of invention, the vision temptation is used for strengthening synergistically the attraction of trapping device to winged insect.For example, select vision insect temptation, so that the visual cues of the winged insect that is designed to lure particular types is provided.Described vision temptation can be designed to provide at least two kinds bigger contrast chromatic zones.Described vision temptation comprises luminous black surface, high brightness specular silver surface, or in fuchsin and the silver-colored zone one or more.Described vision temptation can comprise ratio be about 50: 50 to about 70: 30 fuchsin: the silver zone.Fuchsin: the ratio of silver is about 60: 40 to about 70: 30.
[0087] described vision temptation can be designed to be connected geometry on the trapping device.Select described geometry, so that trap specific winged insect kind specially.For example, described vision temptation can comprise curved surface and plane combination of features.Verified, colored spheroid and cone have temptation to some winged insect.But, a lot of shaped design can be become have maximum surface area,, thereby lure susceptible winged insect to enter trapping device so that colored temptation is represented to insect.
[0088] the vision temptation can also be integrated with the function or the architectural feature of trapping device.Thereby vision insect temptation can comprise at least a portion of one or more colored insect trapping parts, enters shower nozzle as upright supporting leg, trapping device housing, air exit shower nozzle and insect.For example, trapping device can comprise that being molded into the insect with fuchsin part and silver color part enters shower nozzle, has confirmed surprisingly that this color scheme has outstanding insect attractant ability.This shower nozzle and one or more chemical inhibitors and the CO of entering 2The combination of exhaust air plume can make the winged insect trapping device have extra high insect and catch quantity.
[0089] aqueous gel shape lactic acid prepares from food-grade L (+)-lactic acid aqueous solution according to embodiments of the present invention.In the working of an invention scheme, the product of preparation can be with high relatively speed at Mosquito (trade mark of American Biophysics Corp., RhodeIsland U.S.) discharge the time of L (+)-lactic acid at least about 3-4 week in the trapping device.
[0090] can pass through L (+)-lactic acid solution and UV-and solidify the property aqueous solution, and under ultraviolet ray (UV) irradiation, make whole solution form gelatine network (L (+)-lactic acid gel), form jel product.Between the jelling structure of L (+)-lactic acid and formation, do not exist chemistry to connect.In other words, between L (+)-lactic acid and described gelatine network, there is not chemical bond.Therefore, L (+)-lactic acid can be according to as environmental temperature, and chemical inhibitor is exposed to surface area of environment or the like and freely discharges from L (+)-lactic acid gel with the speed of needs.
[0091] in one embodiment of the invention, L (+)-lactic acid gel can be inserted in the cartridge case or at the cartridge case internal shaping.
[0092] in embodiments of the invention, hydrogel layer is placed below L (+)-lactic acid gel, it supplies water to L (+)-lactic acid gel continuously as storage cistern, so that keep rate of release and the time that needs.
[0093] table 1 illustrates the representative compounds of the lactic acid gel that is used for each embodiment of production the present invention.
Table 1
Figure C20058002531600382
[0094] can pass through at plastic containers, as high density polyethylene (HDPE), polypropylene, in PETG or other inert plastic, table 1 composition is mixed, and stir according to following order: SR 610, Irgacure 651/ acetone soln, lactic acid solution and water prepare each cartridge case that contains above-mentioned lactic acid gel formula.
[0095] at first prepares Irgacure 651 solution in the acetone, gained solution is kept at the dark place, as using up to preparing in the amber bottle airtight container.The weight ratio of light trigger and acetone is about 5 to about 25%, or about 10 in about 20% scope.
[0096] in one embodiment of the invention, with vacuum forming and heat seal method, with transparent PET (PETG) film production cartridge case.Described cartridge case can discharge L (+)-lactic acid by the hole on the described cartridge surface with specific speed.Size and quantity by described hole control the speed that L (+)-lactic acid discharges from described cartridge case.In one embodiment of the invention, a hole is arranged on cartridge surface; The diameter in described hole is about 0.14 inch.Utilization seals the release surface of described cartridge case such as the multilayer tape of being made of aluminium foil and heat-sealable plastic film.Can also come the described cartridge case of mark with seal member.
[0097] in one embodiment, at first prepare PAA solution.PAA is an example of UV-curable aqueous solution, and the aqueous solution of PAA and lactic acid is with (it is an example of bi-functional cross-linking agent such as SR 610, and in this molecule two two keys are functional groups) two or trifunctional crosslinking agent when under heating or UV-illuminate condition, reacting, can form gel-like structure.Can be by making sodium hydroxide and the acrylic acid preparation PAA that reacts, wherein sodium hydroxide and acrylic acid all are easy to buy from a plurality of manufacturers there.Alternatively, can use the PAA of commercially producing, and generate without the original place.
[0098] available UV-cure system (for example, by Fusion UV Systems, the Fusion F300S-6 that Inc. produces, it comprises UV lamp and conveyer belt) is realized ultra-violet curing.
[0099] prepares PAA solution (in distilled water, 35.5wt%) with composition shown in the table 2 and ratio.By the amount of control reactant and the pH value of change reaction solution, determine the end of this reaction.The pH of the freshly prepd PAA aqueous solution (35.5wt%) is 8-9 (measuring with the pH test paper).Because sodium hydroxide and acrylic acid all are severe corrosives, and this reaction is the height heat release, so can carry out this reaction in cold bath.But, any method that is used to produce PAA all belongs to scope of the present invention.In addition, verifiedly can also use commercially available PAA.
[00100] table 2
Chemical substance Referential weight (gram) Weight %
Sodium hydroxide 40.0 15.1
Distilled water 153.0 57.7
Acrylic acid 72.0 27.2
Amount to 265.0 100.0
[00101] sodium hydroxide flakes (40.0 gram) is dissolved in the distilled water (153.0 gram), the preparation sodium hydroxide solution stirs then and adds to gradually down in the acrylic acid (72.0 gram).Measure the pH of final solution with pH meter.The concentration of PAA (94.0 gram) in final solution is 35.5% weight.
[00102] in an embodiment of invention, lactic acid gel decoy has double structure, and it comprises L (+)-lactic acid gel top of cartridge case (as be positioned at) and water-gel bottom of cartridge case (as be positioned at).The suitable component of L (+)-lactic acid gel and hydrogel is shown in Table 3.In order to prepare L (+)-lactic acid gel and water-gel, at first in container, stir PAA solution, in order water (if necessary), L (+)-lactic acid, SR 610 and Irgacure 651 are added successively.It will be appreciated by persons skilled in the art that with different consumptions and method and produce similar L (+)-lactic acid gel and hydrogel is feasible.
[00103] table 3
Figure C20058002531600401
[00104] can select L (+)-lactic acid gel in the cartridge case and the amount of hydrogel, to obtain the highest rate of release and service life.In one embodiment, the hydrogel of the L (+) of 11g-lactic acid gel and 3.5 grams shows 14 days the rate of release that is higher than 10mg/hr, and the rate of release (under about 90) that adds 6 days 4mg/hr-9mg/hr.The consumption that increases hydrogel can cause the above rate of release that is higher than 10mg/hr of 3 weeks.
[00105] lactic acid solution can when using (and hydrogel solution when) by directly adding component to plastic cartridge casep, and make described cartridge case from ultraviolet ray or thermal source below by and gelling.In one embodiment, use uviol lamp, carry out UV-A and UV-V radiation with D-bulb.In another embodiment, make described cartridge case on conveyer belt with the speed of about 10 feet per minute clocks from ultraviolet ray or thermal source below by.If use the lactic acid gel to form solution simultaneously and hydrogel forms solution, at first form water-gel, make L (+)-lactic acid gel solution be distributed in hydrogel top in the described cartridge case, described L (+)-lactic acid gel solution is solidified.With heat-sealable tape applications all openings on cartridge case or each cartridge surface, and be packaged in the airtight parcel material, so that transport to the consumer.What belong to the scope of the invention is, before described hydrogel solution solidifies or the described L of curing during (+)-lactic acid gel solution.What belong to the scope of the invention equally is that described L (+)-lactic acid gel solution and hydrogel solution solidify respectively, and choose wantonly in step subsequently and assemble.
[00106] described liquid L (+)-lactic acid and water are limited in the described gelatine network, still, as mentioned, do not combine with this gelatine network.
[00107] in another embodiment of the invention, the curing reaction that forms gel only carries out with curable polyunsaturated compounds, and need not photo curable single unsaturated compound such as PAA.In the case, for example how unsaturated component will provide enough free radicals, so that form tridimensional network, this three-dimensional structure is revealed as the gel-based structure of catching lactic acid solution.Described lactic acid solution contains sufficient water, but the hydrogel layer that separates may not need.And in another embodiment of the invention, the attractant that provides comprises lactic acid source and ammonia source, or comprise that the lactic acid source does not comprise the ammonia source, wherein the lactic acid source is included in essence and does not contain lactic acid aqueous solution in the polymeric gel of acrylate part, wherein essence does not contain acrylate and partly looks like and be meant that the polymer that is used to prepare gel network does not have the acrylate part or only has the acrylate part in some or all polymer ends, and described acrylate part is useful to described crosslinked polymer in forming polymeric gel.With from acrylic monomers or contain the polymeric gel that the polymer of the acrylate part of real mass forms and compare, the advantage of described embodiment is, reduced the amount of the acrylate part in the attractant, thereby the repellent that has reduced some acrylate part and its accessory substance is renderd a service.
[00108] for example, the available component that is shown in the following table 4 prepares the gel chemical inhibitor decoy that contains lactic acid according to embodiment of the present invention.
[00109] table 4
Figure C20058002531600421
[00110] basic with the method for above-mentioned formulation gel with previously described identical.For example, component is added in the suitable containers, as plastic cartridge casep (as polyethylene or polypropylene), stirs simultaneously, in order with SR 610, Irgacure 651, and lactic acid solution and water add successively.In described cartridge case, the mixture that obtains is carried out UV solidify.Described cartridge case is carried out heat seal, to seal up all openings of cartridge case.
[00111] amount that can the selective light initator (in the prescription be about 0.2%, be shown in the above-mentioned table 4) is decomposed with two keys of the how unsaturated component that obtains desired level, thus the crosslinked and gelation of acquisition desired level.The Irgacure manufacturer recommendation, according to concrete application, the amount of " 651 " about 0.5 to about 6 weight %.Yet, have been found that in this embodiment of the present invention use a small amount of (about 0.2%) still can induce crosslinked and gelation to a certain degree, acquisition has the gel of hold capacity, this gel can keep the lactic acid solution in the gel at least basicly stablely, can not leak in the storage process of several weeks to several months.The fluid preservation ability of gel can be measured by the conventional method that comprises repetition test at an easy rate.
[00112] although used L (+)-lactic acid gel and water-gel are to utilize UV-living polymerization molecule (acrylates) to form under the help of the curing light trigger that forms free radical, be that described gel can be produced by other method but those of ordinary skills are well-known.For example, gel can form by the following method: addition polymerization, polycondensation, carbon cation polymerization, radical ion polymerization, anionic polymerisation and organic metal polymerization.Employed monomer also can change, and comprise replacement or unsubstituted alkane, that replace or unsubstituted alkene, that replace or unsubstituted alkynes, that replace or unsubstituted diene, carbohydrate replacement or unsubstituted, nucleotide replacement or unsubstituted, that replace or unsubstituted lipid and that replace or unsubstituted polyurethane.On a lot of n-compounds, add such as halogen-, amino-, oxygen-, hydroxyl-, sulfenyl-, nitro-, alkoxyl-, aryloxy group-group can cause their to be fit to polymerisation.Gelatin polymer can be natural (for example, latex) or synthetic (for example, nylon and polyvinylchloride).Gel can also form by other non-polymeric reactions, for example, and Acid-Base reaction, precipitation reaction and substitution reaction.
[00113] except ultraviolet ray, can also cause, control by multiple means and stop polymerisation, these means comprise heating, cooling, free radical, visible light, infrared (IR) line, β radiation and γ radiation.
[00114] can also use other forms of solid according to the present invention, semisolid or liquid lactic acid.For example, can use the lactic acid of clinkering to replace the lactic acid gel or be used in combination with the lactic acid gel.What belong to the scope of the invention equally is that described attractant comprises the lactic acid of gel form and another kind of attractant or the lactic acid of clinkering form and the another kind of attractant of gel form of clinkering form.
[00115] be the representative example of preparation carbonic hydroammonium below, according to embodiment of the present invention, carbonic hydroammonium makes to produce the chemical inhibitor of ammonia.
[00116] prepare following prescription:
Table 5
Component Amount (wt%)
Carbonic hydroammonium 1 75
Starch 2 16.5
Distilled water 8.5
1Available from Church ﹠amp; Dwight, " the ammonium bicarbonate-treated " of Inc.
2Available from National Starch ﹠amp; Chemical Corp.'s
Figure C20058002531600431
1215
[00117] in order to prepare above-mentioned preparaton, with any order or simultaneously carbonic hydroammonium powder and starch powder are added in the blender, slowly add entry under the high-speed stirred, form loose moist particle.Then described particle is dosed in the diemaker bucket, molded single type product is as cylindrical.
[00118] in one embodiment of the invention, be fit to use with aforesaid lactic acid jel product, the weight of single type product is about 12 to about 50 grams, and diameter about 0.5 is to about 1.5 inches, and length about 1.5 is to about 3.5 inches.
[00118a] described decoy can be molded composition, and described composition has basic for cylindrical, and perhaps longitudinal component is columniform shape substantially.Described decoy weight be about 3 to about 50 the gram, or about 3 to about 25 the gram, or about 30 the gram to about 50 the gram.Described decoy can be molded composition, about 1.0 inches to about 1.5 inches of length, or about 0.8 inch to about 1.3 inches, or about 1.0 inches to about 2.0 inches, further wherein said decoy is fit to indoor use.
[00118b] second chemical inhibitor comprises about 5 to about 15 gram carbonic hydroammonium, so that attractant can provide the ammonia of effective dose continuously weekly.
[00119] Fig. 1 has shown the example of insect trap device, and with Reference numeral 10 expressions, device 10 can use with the attractant system by Reference numeral 12 expressions.Fig. 1 device shown 10 is MOSQUITO MAGNET LIBERTY, is described among the U.S. Patent application No.2003/0084604A1 of application on October 4th, 2002.Attractant system 12 can also use with the insect trap device of other any kind, as other burning type and non-burning type insect trap device, as CDC photo-induction device for catching.Can explain the patent/application of this device example with reference to other: U.S. Patent application No.6,286,249, No.6, the U.S. Patent application No.10/445 of application on May 27th, 145,243 and 2003,245; The No.10/445 of application on May 27th, 2003,199; With the No.10/686 of application on October 17th, 2003,815.The full content of other patent application that above mentioned each patent application or other position of the application are mentioned is introduced the application for your guidance.
[00120] trapping device 10 comprises support 14, in these support 14 inside the burner (not shown) is housed.This burner is connected by conventional regulator with the propane container (not shown), and the function of burner is that catalytic combustion propane is to produce waste gas.Described waste gas has higher CO 2Content, and contain the moisture that catalytic reaction produces.Find in patent/application that the further details of relevant this device can be mentioned in the above.Waste gas outwards flows from outlet 16, and this outlet 16 defines outlet opening 18 down.Waste gas is flowed downward from outlet opening 18, spread out from installing 10 then.To CO 2Extremely sensitive mosquito and other insect will attracted to plume, and are seeking described plume and following the trail of its source, promptly described outlet opening 18.
[00121] outlet 16 is installed in inlet tube 20 inside with one heart, and inlet tube 20 has circular openings 22 down.Inlet tube 20 and ingate 22 are communicated with the gas flow generator (not shown) of fan type, and described fan is installed in the support 14.Fan enters air-flow by ingate 22 and inlet tube 20 suction.Enter air-flow near effluent stream and opposite, so that will be attracted by effluent stream and in flowing out the insect suction ingate 22 and inlet tube 20 that opening 18 flies with its direction.Therefore typically, most of insects will go along the effluent stream top edge, will enter air-flow and be arranged so that to enter air-flow reverse with effluent stream, and the top edge that enters the close effluent stream of air-flow help catching these insects.
[00122] the insect trap chamber (not shown) also is installed in the described support 14.Described insect trap chamber can be in the downstream or the upstream of fan, but fan can both make and enters air-flow to flow to described insect trapping indoor under every kind of situation.Described insect trap chamber can have any structure, and the structure that shows in the device 10 is the mesh sack.To flow to described insect trapping indoor owing to enter air-flow, just is hunted down with entering the insect that air-flow is inhaled into together.In case be hunted down, they are left the final death owing to dehydration/hunger, or at the indoor use poison of described insect trapping.Equally, described trapping device 10 can utilize and electrocute system's kill insects.The another kind of kill insects is selected as an alternative, described trapping device 10 and the insect alive that catches from trapping device 10 can be used from the scientific research purpose.
[00123] attractant system 12 is designed to be installed in the outlet 16 of described device 10.But also can be designed to described system 12 to be installed in the outlet of other any kind device, perhaps on any position on other any kind device.Usually, described attractant system can be any structure or structure, and is not limited to the attractant system of this paper institute example.
[00124] for the reception of described system 12 is provided, container 24 is installed in the outlet 16.For convenience, the direction of relevant described attractant system 12 or described container 24 is with reference to the direction of installing in described device 10 about them.
[00125] container 24 also can be used as first wife's parts of described device 10, perhaps sells as improving kit.Described container 24 is shown among Fig. 3-7.General described container 24 is sleeve configurations, and having has the circular upper of sealing end cap 26, and the bottom is an annular ring 28, defines downward opening 30.Four extended parts 32 are longitudinal extension at end cap 26 with between encircling 28, so that end cap 26 and ring 28 are linked together, although can use any amount of described parts 32.General these parts 32 are parallel to each other, and define the slit 34 of many longitudinal extensions therebetween.This structure qualification have an inner space of openend (being opening 30).The cross sectional shape in this space is along the length consistent basically (cross section of choosing is basically perpendicular to the longitudinal direction of container 24) of the container 24 between ring 28 and end cap 26.
[00126] container 24 also has many wings 36, and the described wing 36 stretches out from parts 32, and every pair of relative cheek 32 all has one from its outward extending bar 38.Bar 38 has internal bore 40, and the outlet 16 of device 10 has a pair of antipodal securing member receiver hole 42.For container 24 is installed in the outlet 16, container 24 is inserted in the pipe 16, with the securing member receiving orifice 42 of internal bore 40 alignment tube 16 of bar 38.Pass hole 42 such as the securing member of screw 44 and be inserted in the bore hole 40, container 24 is fixed in the pipe 16.The wing 36 is configured to make the inner surface of their engagement outlets 16, thereby container 24 is stabilized in outlet 16 inside.The wing 36 can also produce the space between the inner surface of container 24 main bodys and outlet 16, so that the permission effluent stream flows around container 24 and flows through this container.Yet the present invention is not limited to this mounting arrangements mode, can use the mode of other any suitable installation container 24.
[00127] in exemplary, container 24 is integrally molded as one-piece plastics part.This is because cost savings are preferred.But container 24 can be made in any suitable manner, and can adopt any structure and shape.The exemplary containers 24 that provides is to be used to illustrate purpose and to be not limited to this.
[00128] ring 28 has the internal diameter that the outer surface with wall 32 is complementary.First pair of antipodal wall 32 extends a bit of distance along ring 28 inner surfaces.Described ring 28 has a pair of antipodal adjustment fin to receive opening 46.These openings 46 above-mentioned first pair of antipodal wall 32 axially on, and separate with the end of described wall 32.Second pair of complete reverse wall 32 extends along the whole axial length of ring 28 inner surfaces, and crossed many ridges 48 at its end.This structure arrangement can be understood by Fig. 4-7.
[00129] there is the substantially cylindrical housing 50 of an elongation in attractant system 12.This housing 50 has 52, one lower end walls 54 of a upper end wall and a midfeather 56.First Room 58 is limited between upper end wall 52 and the partition 56, and second Room 60 is limited between partition 56 and the lower end wall 54.First kind of diffusibility insect attractant 62 is contained in first Room 58, and it is second indoor that second kind of diffusibility insect attractant 64 is contained in.
[00130] insect attractant 62,64 can be an any kind, normally can carry out the type of chemical reaction mutually.In one embodiment, attempt using the lactic acid gel as first insect attractant 62, Powdered carbonic acid hydrogen ammonium is made second insect attractant 64.Because lactic acid is acid, carbonic hydroammonium is alkali, and bronsted lowry acids and bases bronsted lowry can react and generate salt, therefore the example of the attractant that Here it is can react to each other.Any other diffusibility liquid, solid or semi-solid insect attractant can use, and are not limited to these examples.Though chamber 58,60 is shown as axially adjacent to each other, they can perhaps be arranged with any alternate manner mutually near extending on the longitudinal length of housing 50.Can be with reference to U.S. Patent application No.10/431,586, its full content is introduced the application as a reference, such as in order to describe the lactic acid gel in detail.
[00131] in the housing 50 a plurality of openings is arranged, so that 58,60 outflows of the insect attractant of diffusion from the chamber.The size of opening, quantity and layout are by the expectation rate of release decision of the attractant 62,64 in the chamber 58,60.Thereby, can change the size in hole, quantity and layout, and be not limited to opening in the exemplary.
There is a pair of big relatively rectangular aperture 66 Room 58 [00132] first, and it extends axially on a pair of complete opposite sides of chamber 58.First Room 58 also has the relatively little opening 68 of many axially spaced-aparts, described opening 68 another of chamber 58 to complete opposite sides on.There is an independent relatively little opening 70 second Room 60, described opening 70 and opening 68 axially spaced-aparts.
[00133] exterior configuration of housing 50 can obtain best illustrated from Fig. 4-6 and 8.Except wherein being disconnected by opening, a plurality of ridges 72 are exemplified as 4, extend axially along the length of housing 50.Define corresponding a plurality of groove 74 between these ridges 72, described groove 74 extends axially along the length of housing 50 equally.The cross section of housing 50 (being basically perpendicular to its y direction) closely mates with the cross section of the inner space of container 24.By housing 50 longitudinally is inserted in the long and narrow inner space of container 24, system 12 is installed on the device 10.
[00134] for attractant system 12 being installed on the container 24 that installs on the device 10, the hole 30 of housing 50 with the ring 28 of described container axially aligned, make the groove 74 of housing and the parts 32 of container axially align, and the opening 34 of the ridge 72 of housing and qualification between parts 32 axially align.Then, the user slides axially into housing 50 inside of container 24.When housing 50 inserted fully, the upper end of ridge 72 just nestled up the lower limb of end cap 26, thereby restriction further moves axially.
[00135] same, the lower end of housing 50 has has the pair of meshing of carrying on elastic bending arm 78 to adjust fin 76.The adjustment fin that these adjustment fins 76 are received in ring 28 releasedly receives in the opening 46.Adjustment fin 76 is engaged in the hole 46 and can prevents that housing 50 from skidding off from container 24, for example because gravity.For container 24 is discharged from housing 50, arm 78 inside elastic bendings can be adjusted fin 76 to extract out in opening 46.These arms 78 can form single integral piece with housing 50, perhaps are formed separately and combine.
[00136] by itself coming injection molding to produce housing 50 with partition 56 as monolithic integral body housing 50, the end of its middle shell 50 is opened.Subsequently, with opening 66,68,70 cut.Select as another kind, hole 66,68,70 parts that can be used as the injection molding operation form.Then, attractant 62,64 is placed in the chamber 58,60, and with molded plastics end wall 52,54 secure bond to the open upper end of housing 50 and lower end to close housing 50.
[00137] for chamber 58,60 sealing, and prevents insect attractant 62,64 diffusion and mixing mutually before using attractant system 12, provide one or more removable seal members to seal openings 66,68,70.Close upper shed 66,68,70 and just chamber 58,60 can be spaced from each other substantially, thereby prevent that substantially attractant from mixing (wall 56 makes attractant keep physical separation and separates).Slight error during term " substantially " is used for admitting to produce or design or the incompatible attractant 62 that can allow trace, 64 by one or more seal members, any slight void that partition 56 and housing are 50, and/or overflow in any slight void of 50 of end wall 52,54 and housings.Certainly, preferably do not exist described attractant to overflow, but should be appreciated that overflowing of small quantity is possible.
[00138] by preventing that attractant from mixing before use mutually, improved attractant life-span and validity during use.Specifically with regard to the retail shop background, at first manufacturer produces attractant system 12, carries out transportation and packing then, is delivered to retail shop via the retail shop distributing center usually.Then, attractant system 12 just is placed on shelf or the showing stand, buys and use up to the consumer.From production attractant system 12 to its time interval of being used by the consumer can be several weeks, also may be above one month.If allow attractant 62,64 to mix mutually, attractant will be depleted when the user uses this system 12 for that, so reduced the time span of 62,64 efficient functions of attractant.Like this, utilize one or more seal members with opening 66,68,70 sealings can prevent this type of mixing ideally.In addition, use the wall 56 that keeps attractant 62,64 physical separation in use that any mixing/reaction between the housing 50 interior attractants 62,64 is minimized.
[00139] in exemplary, one or more seal members are made of plastic foil 80.This plastic foil 80 surrounds housing 50, and carries out the opening 66,68,70 of thermal contraction processing with covering chamber 58,60 thereon.This realizes that by a periosteum 80 is placed on the housing 50 wherein the diameter of this pipe is than the slightly larger in diameter of housing 50.Heating is then shunk pipe, makes film 80 encase housing 50 tightly, sealing opening 66,68,70.The preferred film 80 that is fit to the application can be any conventional gas permeable material, and this material and chemical inhibitor and diffusing products thereof be chemically reactive not.Film 80 can be seen in Figure 11.
[00140] one or more seal members of available other type replace film 78, and for example available adhesive tape covers and sealing opening 66,68,70.Usually, be used for sealing opening 66,68, the one or more seal members of any suitable type of 70 and the size of described seal member, shape and structure can change.Similarly, plastic membranous layer tightly can be wrapped in around the housing 50, and be fixed on the appropriate location.And, in some structure, the deformable connector can be inserted in the various openings closure of openings.The present invention is not limited to the mentioned embodiment of this paper.
[00141] before the system in operative installations 10 12, other seal member that the user can remove film 80 or use.So just can make insect attractant 62,64 from opening 66,68,70 spread out, so as with attract insects to installing 10.
[00142] example 1-4
[00143] these examples have been explained embodiment of the present invention, and wherein make up attractant and comprise the gel that contains lactic acid of making first chemical inhibitor, and the carbonic hydroammonium (ammonia source) of making second chemical inhibitor.
[00144] the mosquito epigamic of composition is at Mosquito Magnet TMEstimate in Liberty and Professional (Pro) trapping device, described trapping device is by AmericanBiophysics, and Corp. produces.Use open-topped transportation compartment (being used to load attractant), it allows plume (carbonic acid gas, water vapour) to pass the surface of attractant cartridge case.In the test, described trapping device is rotated in test site in the open air, so that reduction or the minimizing possible influence relevant with the test site condition distributes as mosquito, geographical and other environmental factor.
[00145] attractant sample:
[00146] composition is the bi-component attractant according to embodiments of the present invention, comprise food-grade L (+)-lactic acid and carbonic hydroammonium powder, described food-grade L (+)-lactic acid has the described prescription of table 4, described carbonic hydroammonium powder has the described prescription of table 5, it as active component or in porous bag directly as compressing powder.Prepare L (+)-lactic acid and carbonic hydroammonium attractant respectively, and independent packaging, so that can physically they be combined in the big parts-as shown in figure 11.L (+)-lactic acid partly is polymeric gel, and it is photocuring in the plastic cartridge casep in a plurality of holes is arranged, so that allow L (+)-lactic acid to discharge with vapor form.Carbonic hydroammonium partly is columniform pressing mold solid, is sealed in to be useful on release ammonia, in the plastic cartridge casep of the aperture of carbonic acid gas and water vapour, perhaps directly with the carbonic hydroammonium powders compression, is sealed in the sack made from porous polypropylene film.
[00147] L (+)-lactic acid gel is placed on inside has in first cartridge compartment of opening, and it is second indoor that molded carbonic hydroammonium cylinder in porous bag or ammonium carbonate powder are placed on, and a release aperture of sealing with red tape is arranged in sealing one side.These two chambers separate, and during storing and using the Acid-Base chemical reaction take place between two active components in the parts so that avoid.
[00148] example 1
[00149] this example has illustrated the attraction of combination attractant to aedes albopictus.Attraction than separately with gel L (+)-lactic acid or do the high 2-4 of attractant times with carbonic hydroammonium separately, than only using CO 2High 6-13 doubly.
[00150] this is tested between in August, 2003 to September at Harris County, and Texas carries out.Aedes albopictus is a mosquito kind main in this zone.Use the Pro trapping device of carbon dioxide gas and different attractants in this test, each trapping device exchanged at 6 intersites in per 24 hours.Gathered the mosquito that each trapping device is caught in per 24 hours.Sample according to the present invention is the composition that contains the cartridge case of lactic acid gel and contain the sealing porous bag of carbonic hydroammonium powder.Independent lactic acid gel cartridge case and carbonic hydroammonium also can compare as attractant.
[00151] table 6 was listed at two experimental periods, in the Pro trapping device with the present composition, independent lactic acid gel cartridge case, independent carbonic hydroammonium and independent CO 2The aedes albopictus amount that catch average every day.Table 7 has compared combination attractant and independent lactic acid, independent carbonic hydroammonium and independent CO 2Day seizure amount.
[00152] the per day seizure amount of table 6 aedes albopictus
22-27 day in August 6-11 day in September
The combination decoy 180 138
Carbonic hydroammonium 80 78
The lactic acid gel 61 79
CO 2 13 21
The per day seizure amount of table 7 aedes albopictus relatively
Catch ratio 22-27 day in August 6-11 day in September On average
Composition vs. carbonic hydroammonium 2.2 1.8 2.0
Composition vs. lactic acid gel 3.0 1.7 2.4
Composition vs.CO 2 14 7 10.5
Seeing as above-mentioned form that [00153] the combination attractant is 2 times of carbonic hydroammonium to the attraction of aedes albopictus, is about 2.5 times of independent lactic acid gel, is CO 210.5 times.
[00154] the aedes albopictus quantity of Harris County significantly reduces after in mid-July, 2003, a hurricane swept away this area.At July early stage (7/5-7/10/03), in the test that handle with L (+)-lactic acid gel-type attractant the same place, the aedes albopictus of catching every day at hundreds of to several thousand (high to one day 7220).And can expect, utilize our Mosquito
Figure C20058002531600511
Trapping device, described device comprise that the aedes albopictus of catching in the regional every day that mosquito highly enlivens may reach several thousand according to an embodiment of the present invention as the combination lactic acid/ammonia attractant of attractant.
[00155] example 2
[00156] this example has illustrated that combination attractant of the present invention has high attraction to the man mosquito in the torrid zone, and the attraction that likens to the 1-octene-3-alcohol of attractant exceeds 9-50 doubly.
[00157] this is tested on September 19th, 2003 and carries out to the SaoPaulo area in Brazil between October 12, and tropical tame mosquito is the mosquito kind main alive of this area.Combination attractant and other attractant are at Mosquito
Figure C20058002531600521
Test in Liberty and the Defender trapping device, described device can release of carbon dioxide and is loaded in attractant in each trapping device.The sample that uses among the embodiment 1 also is used in this test.Attractant 1-octene-3-alcohol cartridge case detects as a comparison.From trapping device, gathered the mosquito that is caught in every 48-72 hour.After having gathered mosquito, between test site, the exchange trapping device.Table 8 has been listed employing Liberty and Defender, the result of the test when utilizing combination attractant and 1-octene-3-alcohol (day seizure amount) respectively as attractant, and also have the per day mosquito amount of catching of contrast between these two kinds of attractants.Very clear, the combination attractant of embodiment of the present invention has very strong attraction to the man mosquito in the torrid zone, and under identical experimental condition, its attraction is higher about 9-51 times than the 1-octene-3-alcohol as attractant.
[00158] table 8 combination attractant and 1-octene-3-alcohol compare (Sao Paulo, Brazil, 2003) to the day seizure amount of the man mosquito in the female torrid zone
Figure C20058002531600522
[00159] example 3
[00160] this example has illustrated that the combination attractant of embodiment of the present invention is to Ochlerotatus canadensis, Anopheles punctipennis and Aedes vexans are attractive, and can be comparable to as the 1-octene-3-alcohol of attractant the attraction of these mosquito kinds or better.
[00161] this test in 5-24 day in September, 2003 at North Kingstown, carry out in the Great Swamp area of RhodeIsland.Ochlerotatus canadensis, Anopheles punctipennis and Aedes vexans are 14 kinds and have identified main mosquito kind of gathering in the mosquito type.In this test, use and discharge CO 2The Pro trapping device that adds a kind of attractant of waiting to test and assess.The same with embodiment 1 and 2, composition sample also is sealed in lactic acid gel cartridge case and the carbonic hydroammonium mixture of powders in the porous bag.From trapping device, gathered the mosquito that is captured every 48-72 hour.After having gathered mosquito, between test site, exchange trapping device.Table 9 has been listed the result of the test (day seizure amount) when utilizing combination attractant or 1-octene-3-alcohol respectively as attractant, but also has listed the per day mosquito amount of catching of contrast between these two kinds of attractants.The result shows the composition of lactic acid and ammonia (ammonium carbonate) to Ochlerotatuscanadensis, and the attraction of Anopheles punctipennis and Aedes vexans can be comparable to or surpass uses 1-octene-3-alcohol as attractant.
[00162] catches mosquito amount relatively (Great Swamp, RI, 2003) day between table 9 lactic acid/ammonia composition and the 1-octene-3-alcohol
Date The lactic acid gel adds carbonic hydroammonium 1-octene-3-alcohol
Sep.5-8 979 683
Sep.8-10 317 456
Sep.10-12 471 301
Sep.12-15 284 419
Sep.15-17 461 336
Sep.17-19 273 306
Sep.19-22 86 172
Sep.22-24 86 178
Per day 370 350
[00163] example 4
[00164] this example has illustrated that combination attractant of the present invention is attractive to aedes albopictus and other mosquito kind, and higher 3 times than 1-octene-3-alcohol to the attraction of aedes albopictus, and the lactic acid gel that likens the attractant use to is high 2.5 times.
[00165] this test in December, 2003 at Waipahu, Hawaii carries out.Equipment comprises the combination attractant substantially according to structure shown in Figure 11: at the first indoor lactic acid gel with at the second indoor molded particle of ammonium carbonate.
[00166] in process of the test, can discharge CO 2The Pro trapping device in, the combination attractant is estimated, and with 1-octene-3-alcohol, independent lactic acid gel and other attractant compare to the attraction of mosquito.The mosquito that was captured from each trapping device collection every 24 hours.Calculate aedes albopictus and total mosquito a few days seizure amount respectively, the combination attractant, the result of independent lactic acid gel and 1-octene-3-alcohol is presented in following table 10 and 11.The combination attractant is better than 1-octene-3-alcohol or lactic acid gel as attractant to the attraction of aedes albopictus and other mosquito kind.
[00167] the mosquito amount of catching between table 10 combination attractant and the 1-octene-3-alcohol compares
Figure C20058002531600541
[00168] the mosquito amount of catching between table 11 combination attractant (the lactic acid gel adds carbonic hydroammonium) and the lactic acid gel compares
Figure C20058002531600551
Conclusion:
[00169] studies show that originally lactic acid and ammonia attractant according to combination of the present invention can effectively attract various mosquito kinds to comprise aedes albopictus, tropical tame mosquito, Ochlerotatuscanadensis and other kind.The combination attractant is higher than the pure and mild independent lactic acid gel of 1-octene-3-to the attraction of the mosquito of these kinds.
[00170] the present invention can provide nontoxic or lower than existing product toxicity mosquito control measure.
[00171] should be appreciated that, described embodiment of the present invention comprehensively and effectively.Provide above-mentioned specific embodiment with example 26S Proteasome Structure and Function principle of the present invention, and be not limited thereto.On the contrary, this invention is intended to comprise all modifications that belongs in the above specifically described spirit and scope, change and alternative.

Claims (135)

1, a kind of decoy that is used to lure winged insect comprises:
(1) first chemical inhibitor, described first chemical inhibitor are included in the lactic acid solution in the carrier, and described carrier is selected from polymeric gel and porous material; With
(2) second chemical inhibitors, described second chemical inhibitor comprises the ammonia source;
Wherein said first attractant and described second attractant are mutual physical separation before using this decoy, and
Wherein said decoy is to be the speed release lactic acid of 1mg/hr at least.
2, the described decoy of claim 1, wherein said decoy further comprises first Room and second Room at least, and wherein first attractant is kept at first indoorly, it is second indoor that second attractant is kept at.
3, the described decoy of claim 2, described decoy has at least one opening, this opening can make carrier gas pass through and contact with in first and second Room each, can diffuse in the described carrier gas from described chamber thereby make from the lactic acid of first Room with from the ammonia of second Room.
4, the described decoy of claim 2, described decoy has enough openings indoor, so that the carrier gas that separates by and contact with first and second Room respectively, can from described chamber, diffuse in the described carrier gas thereby make from the lactic acid of first Room with from the ammonia of second Room.
5, each described decoy of claim 3-4, wherein at least a carrier gas is an air flow.
6, a kind of device comprises described decoy of claim 5 and carbon dioxide source, and wherein said carbon dioxide source can offer air flow with carbonic acid gas.
7, each described decoy of claim 3-4, wherein said carrier gas are the surrounding airs that flows owing to diffusion.
8, a kind of decoy that is used to lure winged insect comprises
First chemical inhibitor comprises lactic acid solution; With
Second chemical inhibitor comprises the ammonia source;
Wherein said first and second attractants are mutual physical separation before using this decoy, and
Wherein said decoy can provide the lactic acid and the ammonia of effective dose at least for a long time continuously, wherein further is at least one week for a long time, and
Wherein said decoy is to be the speed release lactic acid of 1mg/hr at least.
9, the described decoy of claim 8, wherein said lactic acid solution is in first carrier, and described carrier is selected from polymeric gel and porous material.
10, the described decoy of claim 9, wherein first carrier is a polymeric gel, comprises further that wherein the second polymeric gel carrier of water contacts with first carrier.
11, the described decoy of claim 8 describedly was selected from for two weeks for a long time, three weeks and all around, six weeks, eight weeks, ten week and 12 weeks.
12, the described decoy of claim 8 wherein was three weeks for a long time.
13, the described decoy of claim 8, wherein the lactic acid of effective dose and ammonia can effectively attract the winged insect of following kind: Aedes aegypti (Aedes aegypti), aedes albopictus (Aedesalbopictus), Aedes vexans (Aeddes vexans), Anopheles atropos, Anopheles crucians, Anopheles punctipennis, Anopheles walkeri, Culex erraticus, Culex nigripalpus, northern house (Culex pipiens), tropical tame mosquito (Culex quinquefasciatus), Culex salinarius, culiseta melanura (Culiseta melanura), Ochlerotatus canadensis, Ochlerotatusfulvus-pallens, Ochlerotatus infirmatus, Ochlerotatusintrudens, Ochlerotatus triseria tus and Psorophora ferox.
14, the described decoy of claim 1, object height at least 50% is lured in the attraction winged insect effective sex ratio contrast of wherein said decoy, described contrast decoy contains a kind of in first and second chemical inhibitors, but does not comprise first and second chemical inhibitors simultaneously.
15, the described decoy of claim 14, the validity of wherein said decoy is measured at the contrast decoy, and therefore described decoy and contrast decoy all detect with suitable carbon dioxide source combination.
16, the described decoy of claim 14, the effective sex ratio contrast decoy of wherein said decoy exceeds 100% at least.
17, the described decoy of claim 14, the effective sex ratio contrast decoy of wherein said decoy exceeds 200% at least.
18, the described decoy of claim 14, the effective sex ratio contrast decoy of wherein said decoy exceeds 300% at least.
19, the described decoy of claim 14, the effective sex ratio contrast decoy of wherein said decoy exceeds 400% at least.
20, the described decoy of claim 14, the effective sex ratio contrast decoy of wherein said decoy exceeds 500% at least.
21, the described decoy of claim 8, wherein said decoy attracts the effective sex ratio contrast decoy of winged insect to exceed 50% at least, described contrast decoy comprises first chemical inhibitor but does not conform to second chemical inhibitor that wherein the validity that increases determines as the mean value in long-time.
22, the described decoy of claim 21, the validity of wherein said decoy is measured at the contrast decoy, and therefore described decoy and contrast decoy all detect with suitable carbon dioxide source combination.
23, the described decoy of claim 21, the effective sex ratio contrast decoy of wherein said decoy exceeds 100% at least.
24, the described decoy of claim 23, the effective sex ratio contrast decoy of wherein said decoy exceeds 200% at least.
25, the described decoy of claim 24, the effective sex ratio contrast decoy of wherein said decoy exceeds 300% at least.
26, the described decoy of claim 25, the effective sex ratio contrast decoy of wherein said decoy exceeds 400% at least.
27, the described decoy of claim 26, the effective sex ratio contrast decoy of wherein said decoy exceeds 500% at least.
28, the described decoy of claim 14-27, wherein said decoy can more effective attraction winged insect be selected from following kind: Aedes aegypti, aedes albopictus, Aedes vexans, Anophelesatropos, Anopheles crucians, Anopheles punctipennis, Anopheleswalkeri, Culex erraticus, Culex nigripalpus, northern house, tropical tame mosquito, Culex salinarius, culiseta melanura, Ochlerotatus canadensis, Ochlerotatus fulvus-pallens, Ochlerotatus infirmatus, Ochlerotatus intrudens, Ochlerotatus triseriatus and Psorophoraferox.
29, the described decoy of claim 1, wherein said decoy attracts the effective sex ratio contrast decoy of winged insect to exceed 50% at least, described contrast decoy comprises 1-octene-3-alcohol but do not contain first and second chemical inhibitors, wherein further the ratio of the speed that from first chemical inhibitor of described decoy, discharges of the speed that from the contrast decoy, discharges of 1-octene-3-alcohol and lactic acid about 0.5 in about 5 scope.
30, the described decoy of claim 29, the validity of wherein said decoy is measured at the contrast decoy, and therefore described decoy and contrast decoy all detect with suitable carbon dioxide source combination.
31, the described decoy of claim 29, the effective sex ratio contrast decoy of wherein said decoy exceeds 100% at least.
32, the described decoy of claim 31, the effective sex ratio contrast decoy of wherein said decoy exceeds 200% at least.
33, the described decoy of claim 32, the effective sex ratio contrast decoy of wherein said decoy exceeds 300% at least.
34, the described decoy of claim 33, the effective sex ratio contrast decoy of wherein said decoy exceeds 400% at least.
35, the described decoy of claim 34, the effective sex ratio contrast decoy of wherein said decoy exceeds 500% at least.
36, the described decoy of claim 8, wherein said decoy attracts the effect comparison of winged insect to exceed 50% at least than decoy, described contrast decoy comprises 1-octene-3-alcohol but does not contain first and second chemical inhibitors that wherein the validity that increases determines as the mean value in long-time.
37, the described decoy of claim 36, the validity of wherein said decoy is measured at the contrast decoy, and therefore described decoy and contrast decoy all detect with suitable carbon dioxide source combination.
38, the described decoy of claim 36, the effective sex ratio contrast decoy of wherein said decoy exceeds 100% at least.
39, the described decoy of claim 38, the effective sex ratio contrast decoy of wherein said decoy exceeds 200% at least.
40, the described decoy of claim 39, the effective sex ratio contrast decoy of wherein said decoy exceeds 300% at least.
41, the described decoy of claim 40, the effective sex ratio contrast decoy of wherein said decoy exceeds 400% at least.
42, the described decoy of claim 41, the effective sex ratio contrast decoy of wherein said decoy exceeds 500% at least.
43, the described decoy of claim 29-42, wherein said decoy can more effective attraction winged insect be selected from following kind: Aedes aegypti, aedes albopictus, Aedes vexans, Anophelesatropos, Anopheles crucians, Anopheles punctipennis, Anopheleswalkeri, Culex erraticus, Culex nigripalpus, northern house, tropical tame mosquito, Culex salinarius, culiseta melanura, Ochlerotatus canadensis, Ochlerotatus fulvus-pallens, Ochlerotatus infirmatus, Ochlerotatus intrudens, Ochlerotatus triseriatus and Psorophoraferox.
44, the described decoy of claim 1, the effective sex ratio of wherein said decoy and carbon dioxide source combination attracts winged insect does not comprise the carbon dioxide source height at least 200% of described decoy.
45, the described decoy of claim 44, the effective sex ratio contrast decoy of wherein said decoy exceeds 300% at least.
46, the described decoy of claim 45, the effective sex ratio contrast decoy of wherein said decoy exceeds 500% at least.
47, the described decoy of claim 46, the effective sex ratio contrast decoy of wherein said decoy exceeds 750% at least.
48, the described decoy of claim 8, the effective sex ratio of wherein said decoy and carbon dioxide source combination attracts winged insect does not comprise that the carbon dioxide source of described decoy exceeds 200% at least, and wherein the validity that increases determines as the mean value in long-time.
49, the described decoy of claim 48, the effective sex ratio contrast decoy of wherein said decoy exceeds 300% at least.
50, the described decoy of claim 49, the effective sex ratio contrast decoy of wherein said decoy exceeds 500% at least.
51, the described decoy of claim 50, the effective sex ratio contrast decoy of wherein said decoy exceeds 750% at least.
52, the described decoy of claim 44-51, wherein said decoy can more effective attraction winged insect be selected from following kind: Aedes aegypti, aedes albopictus, Aedes vexans, Anophelesatropos, Anopheles crucians, Anopheles punctipennis, Anopheleswalkeri, Culex erraticus, Culex nigripalpus, northern house, tropical tame mosquito, Culex salinarius, culiseta melanura, Ochlerotatus canadensis, Ochlerotatus fulvus-pallens, Ochlerotatus infirmatus, Ochlerotatus intrudens, Ochlerotatus triseriatus and Psorophoraferox.
53, the described decoy of claim 8, wherein the effective dose of the ammonia that discharges from second chemical inhibitor is 1mg/hr at least.
54, the described decoy of claim 53, wherein said decoy is fit to indoor use.
55, the described decoy of claim 53, wherein the effective dose of the lactic acid that discharges from first chemical inhibitor is 2mg/hr at least, the effective dose of the ammonia that discharges from second chemical inhibitor is 2mg/hr at least.
56, the described decoy of claim 55, wherein the effective dose of lactic acid is 3mg/hr at least.
57, the described decoy of claim 55, wherein the effective dose of ammonia is 3mg/hr at least.
58, the described decoy of claim 8, wherein work as described decoy under about 90 of temperature, when contacting with the high air-flow of carbon dioxide content, can be continuously with the speed release ammonia of about 3mg/hr, with the speed release lactic acid of about 1mg/hr to 20mg/hr in long-time to about 30mg/hr.
59, the described decoy of claim 58, wherein said was at least two weeks for a long time.
60, the described decoy of claim 59, wherein said was at least three weeks for a long time.
61, the described decoy of claim 1, wherein said ammonia source is a solid.
62, the described decoy of claim 1, wherein said ammonia source are cylinder compression ammonias.
63, the described decoy of claim 1, wherein said ammonia source is a liquid.
64, the described decoy of claim 1, wherein said ammonia source comprises carbonic hydroammonium.
65, the described decoy of claim 1, wherein said ammonia source comprises the homogeneous mixture of ammonium salt and highly basic.
66, the described decoy of claim 1, wherein said ammonia source are the ammonium compounds that can produce ammonia when heating.
67, the described decoy of claim 1, wherein said ammonia source are in case contact the ammonium compounds that will produce ammonia with the carbonic acid gas warm current.
68, the described decoy of claim 64, wherein said ammonia source further comprises the adhesive that mixes with carbonic hydroammonium, the form in wherein further described ammonia source is a granular pattern, mucus, wax or its combination.
69, the described decoy of claim 68, wherein the ammonia source is mold formed.
70, the described decoy of claim 68, wherein said ammonia source comprise about 50wt% to the carbonic hydroammonium of about 90wt%, and about 5wt% is about 35wt% adhesive and about 3wt% about 20wt% water extremely extremely.
71, the described decoy of claim 68, wherein said adhesive comprises starch.
72, the described decoy of claim 64, wherein second attractant comprises molded composition, and described composition has basic for cylindrical, and perhaps longitudinal component is columniform shape substantially.
73, the described decoy of claim 72, wherein the weight of molding compounds be about 3 to about 50 the gram.
74, the described decoy of claim 73, wherein said decoy is fit to indoor use, and the weight of described molding compounds be about 3 to about 25 the gram.
75, the described decoy of claim 73, wherein said decoy is fit to outdoor application, and the weight of described molding compounds is that about 30 grams are to about 50 grams.
76, the described decoy of claim 64, wherein second chemical inhibitor comprises about 5 to about 15 gram carbonic hydroammonium, so that attractant can provide the ammonia of effective dose continuously weekly.
77, the described decoy of claim 72, wherein columniform basically diameter are about 1.0 inches to about 1.5 inches.
78, the described decoy of claim 77, wherein the length of molding compounds is about 1.5 inches to about 3.5 inches.
79, the described decoy of claim 62, wherein columniform basically diameter are about 0.8 inch to about 1.3 inches, and further wherein said decoy is fit to indoor use.
80, the described decoy of claim 78, wherein the length of molding compounds is about 1.0 inches to about 2.0 inches.
81, the described decoy of claim 72, wherein the carrier of first chemical inhibitor is a polymeric gel.
82, the described decoy of claim 81, wherein to have longitudinal component be columniform shape to first chemical inhibitor substantially, it is columniform shape substantially that second chemical inhibitor has longitudinal component, and the mutual adjacent arrangement of the shape of first and second attractants is cylindrical so that form substantially.
83, the described decoy of claim 81, wherein first and second attractants have essentially identical diameter and essentially identical length.
84, the described decoy of claim 64, wherein carbonic hydroammonium is food-grade carbonic hydroammonium.
85, the described decoy of claim 64, wherein the purity of carbonic hydroammonium is at least 99%.
86, the described decoy of claim 1, wherein lactic acid comprises food-grade L (+)-lactic acid.
87, the described decoy of claim 1, wherein the spatial chemistry of lactic acid (L-isomer) purity is at least about 95%.
88, the described decoy of claim 1, wherein the carrier of first chemical inhibitor is a polymeric gel, and lactic acid is that about 1wt% is to about 99wt% in first chemical inhibitor.
89, the described decoy of claim 88, wherein lactic acid is that about 25wt% is to about 90wt% in first chemical inhibitor.
90, the described decoy of claim 89, wherein lactic acid is that about 25wt% is to about 60wt% in first chemical inhibitor.
91, the described decoy of claim 90, wherein lactic acid is that about 30wt% is to about 40wt% in first chemical inhibitor.
92, the described decoy of claim 91, wherein lactic acid is that about 34wt% is to about 37wt% in first chemical inhibitor.
93, the described decoy of claim 88, wherein the ammonia source is a carbonic hydroammonium, and carbonic hydroammonium is that about 25wt% is to about 99wt% in second chemical inhibitor.
94, the described decoy of claim 90, wherein the ammonia source is a carbonic hydroammonium, and carbonic hydroammonium is that 50wt% is to about 90wt% in second chemical inhibitor.
95, the described decoy of claim 91, wherein the ammonia source is a carbonic hydroammonium, and carbonic hydroammonium is that about 70wt% is to about 80wt% in second chemical inhibitor.
96, the described decoy of claim 92, wherein the ammonia source is a carbonic hydroammonium, and carbonic hydroammonium is that 72wt% is to about 78wt% in second chemical inhibitor.
97, a kind of device, comprise a trap chamber that is used to entomologize, an inlet that is connected with trap chamber and a flow generator, this flow generator is configured to through described inlet air be sucked in the described trap chamber, thereby will suck in this trap chamber near the insect of this inlet; And decoy as claimed in claim 1.
98, the described device of claim 97, wherein said decoy is designed, and constructs or is placed in the described device, so that controllably discharge lactic acid and ammonia.
99, the described device of claim 98, it further comprises the carbon dioxide generator, described generator can produce carbon dioxide down for extremely about 140 °F in about environmental temperature.
100, the described device of claim 99, wherein said carbon dioxide generator is designed to produce the waste gas plume that contains carbon dioxide, and described decoy is positioned such that to the waste gas plume of small part and contacts with first chemical inhibitor, contacts with second chemical inhibitor with waste gas plume to small part.
101, the described device of claim 98, wherein said device about environmental temperature to about 140 °F under, controllably lactic acid and ammonia are released into gas.
102, the described device of claim 97, wherein said decoy further comprises at least the first chamber and second Room, wherein first attractant is placed on first indoor, it is second indoor that second attractant is placed on, wherein first and second chemical inhibitors keep being separated from each other by at least one removable seal member before use further.
103, the described device of claim 102, wherein there are one or more openings first and second Room, and wherein one or more openings are to seal with removable seal member.
104, the described device of claim 103, wherein the gross area of the one or more openings in first Room is about 0.3in 2To about 2.0in 2, the gross area of the one or more openings in second Room is about 0.01in 2To 0.2in 2
105, the described device of claim 103, wherein the gross area of the one or more openings in first Room is about 0.2in 2To about 1.2in 2, the gross area of the one or more openings in second Room is about 0.005in 2To 0.2in 2
106, the described device of claim 103, wherein one or more openings allow carrier gases to contact with in first and second chemical inhibitors each, thereby can be diffused in the described carrier gas from described chamber from the lactic acid of first Room with from the ammonia of second Room.
107, the described device of claim 106, it further comprises the carbon dioxide generator, described generator can produce carbonated plume, and to the plume of small part can be carrier gas.
108, the described device of claim 103, wherein one or more openings can make separately carrier gas by and contact with first and second Room respectively, thereby can from described chamber, be diffused in the described carrier gas that separates from the lactic acid of first Room with from the ammonia of second Room.
109, the described device of claim 108, it further comprises the carbon dioxide generator, described generator can produce carbonated plume, and to the plume of small part can be carrier gas separately.
110, the device of a kind of effective attraction winged insect comprises the described decoy of claim 64, and carbon-dioxide generator, and described generator can produce the high air-flow of carbon dioxide content in environmental temperature to about 140 temperature.
111, the device of winged insect in a kind of effective suction chamber comprises the described decoy of claim 53.
112, the described device of claim 111 further comprises being used to trap the trapping device that is attracted winged insect so far.
113, the described device of claim 112, wherein trapping device comprises a trap chamber that is used to entomologize, an inlet that is connected with this trap chamber, with a flow generator, this generator is configured to air is attracted in the described trap chamber through described inlet, thereby will suck near the insect of this inlet in this trap chamber.
114, a kind of method that is used to lure winged insect, be included under the temperature at least about room temperature, the lactic acid source is contacted with the high air-flow of ammonia source and carbon dioxide content, thereby the carbonic acid gas, lactic acid and the ammonia that attract winged insect to fly to the effective dose in this source are flowed out from described source in long-time, and described is at least about a week for a long time.
115, the described method of claim 114, wherein said is at least about two weeks for a long time.
116, the described method of claim 115, wherein said is at least about three weeks for a long time.
117, the described method of claim 114, at least some fly near the winged insect in described source further to comprise trapping.
118, the described method of claim 114, the speed that wherein said lactic acid and ammonia flow out from described source is as follows: ammonia is extremely about 30mg/hr of about 3mg/hr, and lactic acid is that about 1mg/hr is to about 20mg/hr.
119, the described method of claim 118 further comprises and traps at least some by the winged insect of airstream suction.
120, a kind of winged insect is attracted to the method for the device of catching winged insect, this method comprises:
(1) produce airflow flowing, wherein said air-flow outwards flows from described device;
(2) airflow flowing contact with at least a chemical inhibitor that attracts winged insect, wherein at least a chemical inhibitor comprises lactic acid source and ammonia source, thus the general at least lactic acid and ammonia be released in the described airflow flowing and
(3) at least about week age, produce airflow flowing at least off and on continuously, thereby in the described at least time, the concentration of lactic acid and ammonia can attract to fly winged insect so far with remaining valid.
121, the described method of claim 120, wherein said lactic acid source is included in the lactic acid solution in the gelatine network.
122, the described method of claim 120, wherein said ammonia source comprises carbonic hydroammonium.
123, the described method of claim 120, wherein said outwards flowing is in about room temperature extremely under about 140 temperature.
124, a kind of decoy that is used to lure winged insect comprises L (+)-lactic acid-gel solution, and further comprises the ammonia source, wherein:
L (+)-lactic acid-gel solution comprises:
(i) 20wt% to 50wt% PAA;
(ii) 50wt% to 75wt%L (+)-lactic acid;
(iii) 1wt% to 5wt% Macrogol 600 diacrylate;
(iv) 1wt% to 3wt% phosphine oxide.
125, the described decoy of claim 124, wherein said ammonia source comprises carbonic hydroammonium and starch.
126, the described decoy of claim 125 further comprises water-gel solution, and wherein said hydrogel solution comprises:
(i) 30wt% to 70wt% PAA;
(ii) 2wt% to 6wt%L (+)-lactic acid;
(iii) 1wt% to 5wt% Macrogol 600 diacrylate;
(iv) 0.5wt% to 2wt% phosphine oxide; With
(v) 30wt% to 70wt% distilled water.
127, a kind of decoy that is used to lure winged insect comprises L (+)-lactic acid-gel solution, and further comprises the ammonia source, wherein:
Described L (+)-lactic acid-gel solution comprises:
(i) the crosslinkable polymer of 10wt% to 50wt%;
(ii) 30wt% to 75wt%L (+)-lactic acid;
(iii) 0.001wt% to 5wt% light trigger;
(iv) 5wt% to 25wt% water;
Wherein the percentage by weight of the lactic acid gel solution component of Ji Suaning is for whole lactic acid gel solutions.
128, the described decoy of claim 127, wherein said lactic acid gel solution comprises 30wt% to 40wt% lactic acid; Crosslinkable polymer comprises 10wt% to 20wt% diacrylate macrogol ester; Light trigger comprises 0.1wt% to 2wt%2,2-dimethoxy-1,2-diphenylethane-1-ketone, and water.
129, the described decoy of claim 127, wherein the ammonia source comprises carbonic hydroammonium, adhesive and solvent.
130, the described decoy of claim 128, wherein the ammonia source comprises 65wt% to 85wt% carbonic hydroammonium, 5wt% to 25wt% starch, and water, wherein the percentage by weight of the ammonia source component of Ji Suaning is for whole ammonias source.
131 1 kinds of attractant systems that are used to be installed on the insect trap device, described device includes the container of inner space and openend, and described system comprises:
(1) housing of qualification at least the first chamber; The first kind of diffusible insect attractant that in first Room, carries;
(2) having at least one opening can make first kind of diffusible insect attractant via its first Room that spreads out;
(3) described housing is configured to make described housing pass described openend on the described container by the engagement between this housing and this container, be inserted in the inner space of described container, and described attractant system is installed on the described insect trap device, releasedly housing is remained in the container
Described first kind of diffusible insect attractant comprises the chemical inhibitor that contains lactic acid and ammonia source.
132, the described attractant of claim 131 system, the inner space of wherein said container is that elongated and wherein said housing is elongated, so that longitudinally insert via the openend of described container in the elongated interior space of described container.
133, the described attractant of claim 132 system, wherein said housing has the ridge and the groove of a plurality of extend longitudinallies.
134, the described attractant of claim 133 system, wherein said housing has one or more adjustment fins, is used for receiving the one or more corresponding opening in the container, thereby releasedly the attractant system is remained in the container.
135, a kind of attractant system that is used to be installed on the insect trap device, described attractant system comprises:
(1) is configured to be installed to housing on this insect trap device;
(2) first kinds of diffusible insect attractants;
(3) second kinds of diffusible insect attractants, chemical reaction can take place in wherein said first kind and second kind of diffusible insect attractant mutually;
Wherein first kind and second kind of diffusible insect attractant are loaded in the described housing substantially mutually isolator, spread before use and mix so that prevent; With
Wherein said housing can make first kind and second kind of diffusible insect attractant exposure, thereby spread out from this housing in use.
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