TICK TRAP AND METHOD OF TRAPPING TICKS
Provided is a tick trap having a glue constructed to trap ticks touching the glue by sticking to the ticks, and a plant based scent formed from a part of a plant that attracts ticks to the glue. The tick trap can be used to trap ticks within a dwelling or in the environment.
Latest Patents:
- TOSS GAME PROJECTILES
- BICISTRONIC CHIMERIC ANTIGEN RECEPTORS DESIGNED TO REDUCE RETROVIRAL RECOMBINATION AND USES THEREOF
- CONTROL CHANNEL SIGNALING FOR INDICATING THE SCHEDULING MODE
- TERMINAL, RADIO COMMUNICATION METHOD, AND BASE STATION
- METHOD AND APPARATUS FOR TRANSMITTING SCHEDULING INTERVAL INFORMATION, AND READABLE STORAGE MEDIUM
The invention relates to a tick trap and a method of trapping ticks.
BACKGROUND OF THE INVENTIONLyme disease is carried by ticks. Lyme disease can cause death in pets, especially dogs. Lyme disease can cause severe problems in humans. It is estimated that about 300,000 people a year in the U.S. and 65,000 people a year in Europe become infected with Lyme disease.
Ticks are also carriers of diseases such as Rocky Mountain Spotted fever, anaplasmosis, Q fever, hemorrhagic fever, Powassan virus, and encephalitis.
One attempted solution is to spray various poisons to kill the ticks. Spraying poisons, however, has an adverse effect on the environment and is potentially dangerous to humans, mammals and beneficial insects such a bees.
U.S. Pat. No. 5,189,830 discloses a tick trap having a raised base having inclined walls at each end, an upper portion having sticky tick trapping surface and an upwardly extending box-like portion having a plurality of holes around the lower surface thereof, a rectangular rain guard extending outwardly from the box at a spaced distance from the surface of the base and a hinged lid over the open end of the box. The box includes a carbon dioxide canister which is periodically activated by batteries to emit carbon dioxide from the portholes about the box to attract ticks onto the sticky surface (glue) where they are destroyed. This product and method are not efficient and simply are not effective.
SUMMARY OF THE INVENTIONAn objective of the invention is to provide an efficient tick trap and method that does not require batteries, can be utilized continuously, and have directional attraction of ticks.
Another objective of the invention is method of providing a tick reduced safe area where pets and humans can enjoy the outdoors with reduced fear of being bitten by a tick.
The objectives of the invention and other objectives can be obtained by a tick trap comprising:
-
- a canister connector constructed to connect to a canister containing carbon dioxide;
- a mechanical metering valve connected to the canister connector, the metering valve constructed to meter an amount of carbon dioxide dispensed from the canister without the use of electricity;
- a tick trapping chamber defined by a walled structure having an opening constructed for ticks to enter, the tick trapping chamber being in communication with the mechanical metering valve so that carbon dioxide dispensed from the canister is supplied to the tick trapping chamber; and
- a tick capture structure constructed to trap ticks, the tick capture structure is in communication with the tick trapping chamber.
The above objects and other objects can be obtained by a method of using the tick trap to attract and trap ticks, and to provide a tick reduced safe area surrounded by operating tick traps.
The above objects and other objects can also be obtained by tick trap comprising:
-
- a housing having an opening for ticks to enter;
- a glue within the housing, the glue is constructed to trap ticks touching the glue trap by sticking to the ticks; and
- a tick attractant comprising a plant based scent that attracts ticks to the glue, wherein the housing protects the glue from rain.
The above objects and other objects can also be obtained by a tick trap comprising:
-
- a support;
- a glue on the support, the glue is constructed to trap ticks touching the glue trap by sticking to the ticks; and
- a tick attractant comprising a plant based scent that attracts ticks to the glue.
The support can be in any desired form, such as the housing or in a flat open form.
The invention will be explained with reference to the attached non-limiting
As shown in
Canisters 2 for containing carbon dioxide are now well know. Examples of canisters 2 are paintball CO2 canisters, CO2 cartridges, carbonators for soda machines, and conventional canisters, such as those sold by www.. Any suitable canister 2 can be utilized. In general, the larger the capacity the greater the number of tick trapping chambers 16 that can be connected to the same canister 2 and the longer the time the tick trap 1 can be run. Preferably, the canister 2 contains a valve 3 so that if the canister connector 7 is not present on the canister 2 the valve 3 prevents release of the carbon dioxide 40 from the canister 2. Most of the paintball canisters 2 and other canisters 2 have such a valve 3 already mounted on the canister 3.
Canister connectors 7 are now well know. Any suitable connector 7 for connecting the canister 2 to the system can be utilized.
Tubing between the canister 2 and the mechanical metering valve 8 should high pressure tubing suitable for use with pressurized carbon dioxide 40. Such high pressure tubing is now well known and any suitable high pressure tubing can be used. Examples of suitable high pressure tubing include plastic or steel tubing. The tubing to transport the carbon dioxide 40 flowing from the mechanical metering valve 8 can be any suitable low pressure tubing, such as flexible or rigid aquarium tubing, for example acrylic or vinyl tubing. The size of the tubing will depend on the size of the connectors for each of the structures in the system. One skilled in the art will easily be able to select a suitable size tubing, for example, ⅛, ¼, 5/16, ⅜, ½, ¾, or 1 inch diameter tubing.
The supply of carbon dioxide 40 from the canister 2 to the tick trapping chamber 16 can be conducted by modifying known aquarium carbon dioxide systems. Aquariums use a mechanical needle valve (metering valve) and bubbler attached to a canister containing carbon dioxide to supply carbon dioxide to the water for plant growth. These known carbon dioxide systems can now be modified for use in the claimed tick trap 1.
A pressure gauge 4 to identify the amount of carbon dioxide 40 left in the canister 2 can be used. Pressure gauges are now well known and any suitable pressure gauge 4 can utilized. The pressure gauge should be connected between the canister 2 and the mechanical metering valve 8.
An optional shut off valve 6 can be connected to the canister 2 to shut off the carbon dioxide 40 flow without having to change the setting on the mechanical metering valve 8.
The mechanical metering valve 8 is constructed to provide a low flow of carbon dioxide 40 from the canister 2. For outside the U.S., examples of suitable mechanical metering valves 8 include those sold by WYIN, such as WYIN W00-01C, WYIN JIS M22-14 mechanical needle valve to adjust the amount of carbon dioxide supplied from the canister. The connectors on these metering valves can be used in the U.S. by converting the size of the connector using adapters. Mechanical metering valves 8 conventionally used to control the flow rate of carbon dioxide for aquarium use can be utilized in the present invention.
A bubbler 10 can be connected to the mechanical metering valve 8 using low pressure tubing to visually measure the flow rate of the carbon dioxide 40. Bubblers 10 are now well known and any suitable bubbler can be utilized. The bubbler 10 comprises a vessel that is either clear or has a clear window that is filled with a liquid and has an input connector on the bottom and an exit connector on the top. The carbon dioxide 40 flows through the liquid in the form of bubbles. The greater the number of bubble per minute identifies a greater flow rate. When using a bubbler 10, the flow rate can be any desired rate based on the bubbles per second. The flow rate can be adjusted to account for the surroundings and the type of ticks. For example, a higher flow rate can be first utilized to attract ticks, and then subsequently reduced by trial and error to determine a minimum flow rate to still attract the ticks to maximize the run time of the canister 2. A preferred flow rate is the minimum to attract ticks to maximize the length of use for the canister 2.
The tick trapping chamber 16 can be connected to the mechanical metering valve 8 directly or through the optional bubbler 10. The tick trapping 16 is defined by a walled structure 14. The tick trapping chamber 16 comprises an opening 18 that allows the carbon dioxide 18 to exit the tick trapping chamber 16. The tick trapping chamber 16 is in communication with a tick capture structure 19. The tick capture structure 19 captures ticks that enter or come near the tick trapping chamber 16. The tick capture structure 19 can be contained within the tick trapping chamber 16 or be near the tick trapping chamber 16.
The tick trapping chamber 16 can have any desired shape. Examples of shapes include square, rectangular, triangular, circular, cone, or any other desired shape. Preferably, the tick trapping chamber 16 has the shape of an at least partially tubular,
The tick capture structure 19 can be any suitable structure for capturing ticks. Examples of suitable tick capture structures 19 include a sticky surface 20 or a container (second chamber) 30. The sticky surface can be formed from any suitable sticky material, such as those used in fly traps and glue traps 22.
The tick capture structure 19 can be a sticky surface 20 (glue) within the tick trapping chamber 16 as shown in
The tick capture structure 19 can be a container as shown in
The opening 18 can be numerous small openings,
Multiple tick tapping chambers 16 can be connected to the same canister 2 as shown in
Preferably, the metering valve 8 is a fixed metering valve that cannot be adjusted by the user. For example, the metering valve 8 can be factory adjusted and then locked so that the user cannot adjust the flow rate of the carbon dioxide. Alternatively, the metering valve 8 can be constructed to be non-adjustable.
A dwelling, such as a home, commercial building, or other structure, can be protected by connecting multiple tick traps throughout the dwelling. The multiple tick traps can be connected to a single large canister of carbon dioxide or multiple canisters of carbon dioxide.
The tick traps 1 can be utilized inside dwellings, buildings and any other desired place since the traps 1 can be non-toxic to humans and pets. Thus, tick traps 1 can be placed near doorways to protect dwellings from ticks. For example, a trick trap can be placed in a closet where cloths are kept so that ticks brought in on the cloths can be trapped instead of feeding on mammals inside the dwelling. Preferably, the traps are free of ingredients that are toxic, poisonous, or harmful to humans or pets.
When placing the traps 1 outside, preferably the chamber 16 is positioned so that ticks can walk from the ground or grass directly into the chamber 16. Grass can placed at or in the entrance of the chamber 16.
The carbon dioxide 40 can attract ticks from 50 to 75 feet from the tick trapping chamber 16. Thus, a tick reduced area 50 can be formed by providing a plurality of tick trapping chambers 16 around a desired tick reduced area. The tick trapping chambers 16 should be no more than 50 feet from one another, preferably no more than 40 feet from one another, and most preferably no more than 30 feet from one another to provide a swath of carbon dioxide 40 around the tick reduced area 50, as shown in
Since mosquitoes, and other insects, are attracted to carbon dioxide, the present invention can be utilized for trapping insects other than ticks. For trapping mosquitoes, the second walled structure can be constructed and sized accordingly. Fleas may also be trapped by the different tick traps disclosed herein.
Another embodiment of the invention relates to trapping ticks using attractants 64 in place of the carbon dioxide attractant described herein as shown in
A particularly preferred embodiment of the invention is the use of a plant based tick attractant in combination with a glue on a support. The term support includes any material to which the glue can be applied, including the housings, glue traps, and foldable traps described herein.
The attractant 64 is preferably a natural plant scent, such as a tree scent or bush scent. The tree scent can be formed from an evergreen tree or deciduous tree as desired. Preferred tree scents are cedar and apple. Preferred bush scents are basil and peppermint, with basil being most preferred. The plant scent can be formed by grinding parts of the plant and using the ground up parts as an attractant in the glue and/or near the glue. The plant sent can also be formed by soaking a part of the plant, such as the leaves, bark and/or wood, in a solvent, such as water, to extract the plant scent from the plant parts. Any suitable solvent for dissolving or dispersing the plant scent from the plant can be utilized, such as hydrocarbons, alcohols, water, alkoxides, etc. The plant scent can be formed from one or more plants that grow in the area where the traps will be placed. Cedar and basil have been used to repel insects. Surprisingly, we have found that cedar and basil are effective attractant for ticks. Furthermore, essential oils of the plant can also be utilized as the plant based scent.
Preferably the attractant 64 is a plant based scent formed from a commonly consumed food commodity, such as a food based plant (edible plant). Non-limiting examples of such a food based plant scent are basil and apple, which are commonly consumed food commodities. The U.S. Environmental Protection Agency exempts food based plants from regulation in insect traps. Thus, preferably, the plant based scent is a food based scent that the FDA exempts from the FIFRA Registration. For example, preferred plant based scents for use as the attractant 64 meet the requirements under 40 C.F.R. Section 180.950 so that the plant based scents are exempted from the requirement of a tolerance under FFDCA section 408. Preferably, the entire trap is exempted from the requirement of a tolerance under FFDCA section 408.
To protect an area, the tick traps 140 can be placed around the perimeter, such as from 10 to 75 feet apart. The tick traps 140 can be used and placed in the same manner as the carbon dioxide tick traps 1 described herein. The tick traps 140 can be set in any room of a home, for example in where cloths are stored to attract and trap ticks that drop from cloths worn outside.
Electric shocking traps 80 typically utilize a light 82 to attract insects to the electrical shocking elements 84 to electrocute and kill the insects. As shown in
19 glue traps were set up with different scents applied to them. The scents were made with an essential oil and water mixture and then sprayed liberally on the glue traps. The scents tested were ginger, vetiver, clove, spearmint, patchouli, grapefruit, lemongrass, nutmeg, lavender, basil, tea tree, ylang ylang, bergamot, eucalyptus, wintergreen, peppermint, frankincense, cypress, and cinnamon. These were tested many times over a 3 month period from March to May. Basil was the most successful at attracting ticks Cedar was also tested by soaking cedar branches and leaves in water. Cedar was successful at attracting ticks on numerous occasions. The testing area was in a mostly wooded area with some brush cover in Sauquoit, N.Y. during the month of May. On one four day testing period rain occurred on two days, but basil and cedar were successful at attracting ticks. Weather conditions during testing varied between warm, cold, rainy, overcast, and sunny.
During that three-month time period, the following attractants in essential oil form did not adequately attract ticks in Sauquoit, N.Y., during the month of May: ginger, vetiver, clove, spearmint, datchouli, grapefruit, lemongrass, nutmeg, lavender, tea tree, ylang ylang, bergamot, eucalyptus, wintergreen, frankincense, and cypress. These plant based scents may work for other locations and/or times of the year.
Another example of a plant based scent can be made from crab apple leaves. When using a scent made from crab apple leaves in Sauquoit, N.Y., during the month of June, one glue trap trapped 10 ticks in less than 24 hours. Without being bound by any theory, I believe that the ticks are attracted to plants where mammals eat or forage. For example, deer are carriers of tick borne diseases such as Lyme disease. Deer like to eat the crab apples and leaves of the crab apple tree. Thus, I believe the ticks are attracted to the crab apple tree and wait to fall onto a deer eating the crab apples or leaves. During this same time, cedar scent was tested and collected 9 ticks in less than 24 hours. The term apple tree includes all forms of apple trees, such as crab apple trees.
Each of TomCat, RealKill, Catchmaster Max-Catch, and Catchmaster Roach & Insect glue traps were tested with basil leaves, crab apple leaves and cedar branches. The testing area was in a mostly wooded area with some brush cover in Sauquoit, N.Y. during the months of May-July 2017. Basil leaves caught 3-4 ticks/24 hours. Crab apple leaves caught 3-10 ticks/24 hours. Cedar branches caught 1-6 ticks/24 hours.
Preferably, the traps having attractants and glue are free of ingredients that are toxic, poisonous, or harmful to humans or mammals, such as dogs, rabbits, hamsters, and cats. The glue is preferably inert, non-irritating and non-harmful (non-hazardous) to humans and mammals. The traps having attractants and glue can be made environmentally friendly and/or biodegradable, so the entire trap can be thrown away. Preferably, the trap is free of materials that are not biodegradable or are harmful to the environment.
Glues that are non-toxic, non-harmful, and non-irritating to humans and mammals are now well-known. Any commercially available glue that is non-toxic, non-harmful and non-irritating to humans and mammals can be utilized in the present invention. Examples of such glues are commercially available from Catchmaster, Tomcat, D-CON, and Scotts.
The housing of the tick trap is preferably formed from a biodegradable material. Even more preferable, the material is water-resistant. Suitable materials are now well-known. For example, biodegradable, water-resistant packaging materials can be utilized, such as those commercially sold by www.begreenpackagingstore.com, www.packagingzone.net, www.polymateltd.com, www.nanotechindustries.com, etc. In this regard, the trap preferable is formed from a cellulosic material, such as paper, that can have a water repellant coating thereon. For example, a GreenCoat (Nanotech Industries Inc.) can be used to provide good water resistance to cellulosematerial. Microorganisms can decompose these materials and then the material can be converted into carbon dioxide, water and biomass while composting in wet soil.
When the biodegradable trap can be simply thrown away with the trapped ticks contained therein without harming the environment. If the trap will be used outside, the material selected is preferably water resistant so that the trap will resist degradation for at least a week, and preferable up to month when exposed to moisture or rain. If the trap is mistakenly left in the environment, the trap can decompose. In this manner, the trap can be utilized in the environment for a week without degrading and then simply discarded with the trapped ticks contained therein or allowed to decompose in place.
The biodegradable tick trap has many advantages over conventional traps. For example, the traps can be folded to form a protective enclosure, the plant based attractant installed in the enclosure, and then placed in the environment and left there. After trapping ticks and being exposed to the environment, such as moisture, the trap will eventually break down to create soil and the ticks will die after being trapped in the glue. Therefore, the traps do not even have to be removed. A large area can inexpensively be covered with no harm to the environment.
Any of the traps described herein, and especially the biodegradable traps, can be colored to blend into the environment they will be placed, such as green for foliage, brown for dirt, or any form of camouflage so that the traps are not unsightly.
During Aug. 17-24, 2017, the paper foldup traps Catchmaster were tested by adding plant based scents based on essential oils of basil, apple and cedar. The weather varied between 60-80 degrees F., and from sunny to rainy. The testing area was in a mostly wooded area with some brush cover in Sauquoit, NY during the months of May-July 2017. Basil trapped 6 ticks. Apple trapped 2 ticks. Cedar trapped 1 tick. Buck lure and doe lure were also tested but did not attract any ticks.
On Sep. 22, 2017, four tick traps like those shown in
The present invention provides many advantages over previously tried tick traps. I could not locate any tick traps in the major stores, including Walmart, Lowe's and Home Depot. Tick borne diseases are a major problem. The present invention solves this problem by using novel methods and devices. The plant based scent in combination with a glue trap provides an environmentally and animal friendly solution to the tick problem.
While particular embodiments of the present invention have been illustrated and described, it would be obvious to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the invention. It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of this invention.
Claims
1. A tick trap comprising:
- a support;
- a glue on the support, the glue is constructed to trap ticks touching the glue by sticking to the ticks; and
- a tick attractant comprising a plant based scent that attracts ticks to the glue, wherein the plant based scent is formed from a part of a plant, and the tick attractant is incorporated into the glue or is in contact with the glue.
2. The tick trap according to claim 1, wherein the support comprises a housing defining a chamber and having an opening for ticks to enter the chamber, the glue being disposed in the chamber.
3. The tick trap according to claim 1, wherein the support is substantially flat and has the glue on a surface of the support.
4. The tick trap according to claim 3, wherein the support is constructed to be folded to form a housing defining a chamber and having an opening for ticks to enter the chamber, the glue being disposed in the chamber.
5. A tick trap comprising:
- a support;
- a glue on the support, the glue is constructed to trap ticks touching the glue by sticking to the ticks; and
- a tick attractant comprising a plant based scent that attracts ticks to the glue, wherein the plant based scent is formed from a part of at least one of a basil plant, a cedar tree, or an apple tree.
6. The tick trap according to claim 5, wherein the plant based scent comprises an essential oil from the at least one of the basil plant, cedar tree or apple tree.
7. The tick trap according to claim 5, wherein the plant based scent comprises an extract from the part of the at least one of the basil plant, cedar tree or apple tree.
8. The tick trap according to claim 5, wherein the plant based scent is formed from a part of an apple tree.
9. The tick trap according to claim 8, wherein the apple tree is a crab apple tree.
10. The tick trap according to claim 5, wherein the plant based scent is formed from a part of a basil plant.
11. The tick trap according to claim 10, wherein the plant based scent comprises an essential oil of basil.
12. (canceled)
13. (canceled)
14. The tick trap according to claim 5, further comprising a housing having at least one opening and wherein the glue is in the form of a replaceable glue trap that can be inserted into a bottom of the housing and removed from the housing.
15. The tick trap according to claim 5, wherein the support is formed from a biodegradable material.
16. The tick trap according to claim 15, wherein the biodegradable material comprises cellulose.
17. The tick trap according to claim 16, wherein the biodegradable material contains a water resistant coating so that the trap can be utilized in the environment for at least a week before degrading.
18. The tick trap according to claim 5, wherein the trap is free of ingredients that are toxic, poisonous, or harmful to humans or mammals.
19-30. (canceled)
31. A tick trap comprising:
- a support constructed to be folded by a user to form a housing having at least one side opening and inside surfaces of the housing defining a protective enclosure, when the support is in folded form the housing has a bottom inside surface at a bottom of the housing;
- a glue on at least the bottom inside surface, the glue is constructed to trap ticks touching the glue by sticking to the ticks, wherein when the support is in folded form ticks can walk through the at least one side opening directly into the protective enclosure and contact the glue at the bottom of the housing, and
- a tick attractant comprising a plant based scent that attracts ticks to the glue, wherein the plant based scent is formed from a part of a plant, and
- wherein the tick attractant is incorporated into the glue, is on the glue, is on at least one of the inside surfaces, or is in a separate package to be installed onto the glue or support by a user.
32. The tick trap according to claim 31, wherein the support is substantially flat prior to folding by the user.
33. The tick trap according to claim 31, wherein the tick attractant is a in a separate package to be opened by the user.
34. The tick trap according to claim 31, wherein the plant based scent is formed from a part of at least one of a basil plant, a cedar tree, or an apple tree.
35. The tick trap according to claim 31, wherein the plant based scent comprises an essential oil from the at least one of the basil plant, cedar tree or apple tree.
36. The tick trap according to claim 31, wherein the plant based scent comprises an extract from the part of the at least one of the basil plant, cedar tree or apple tree.
37. The tick trap according to claim 31, wherein the plant based scent is formed from a part of an apple tree.
38. The tick trap according to claim 37, wherein the plant based scent is formed from a part of a basil plant.
39. The tick trap according to claim 31, wherein the support is formed from a biodegradable material.
40. The tick trap according to claim 39, wherein the biodegradable material contains a water resistant coating so that the trap can be utilized in the environment for at least a week before degrading.
41. The tick trap according to claim 31, wherein the trap is free of ingredients that are toxic, poisonous, or harmful to humans or mammals.
42. A tick trap comprising:
- a housing having at least one side opening and inside surfaces of the housing defining a protective enclosure;
- a removable support constructed to be disposed at a bottom of the housing;
- a glue on the removable support, the glue is constructed to trap ticks touching the glue by sticking to the ticks, wherein when the removable support having the glue thereon is disposed at the bottom of the housing ticks can walk through the at least one side opening directly into the protective enclosure and contact the glue at the bottom of the housing, and
- a tick attractant comprising a plant based scent that attracts ticks to the glue, wherein the plant based scent is formed from a part of a plant, and
- wherein the tick attractant is incorporated into the glue or is in a separate package to be installed onto the glue or housing by a user.
43. The tick trap according to claim 42, wherein the plant based scent is formed from a part of at least one of a basil plant, a cedar tree, or an apple tree.
44. The tick trap according to claim 42, wherein the plant based scent comprises an essential oil from the at least one of the basil plant, cedar tree or apple tree.
Type: Application
Filed: Sep 26, 2017
Publication Date: Aug 30, 2018
Applicant:
Inventor: Thomas Walter Jalowiec (Sauquoit, NY)
Application Number: 15/715,481