US20080196297A1

US20080196297A1 - Fire ant colony killer

Info

Publication number: US20080196297A1
Application number: US11/708,753
Authority: US
Inventors: Ken McDonald
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-02-21
Filing date: 2007-02-21
Publication date: 2008-08-21
Also published as: US7752802B2; US20090293343A1; WO2008103325A1

Abstract

A mechanized system for exterminating and several embodiments thereof are presented. Steam is generated and transported to a movable applicator. The applicator is positioned over a designated area of ground and the steam is applied exterminating the insects on and/or under the designated area of ground.

Description

BACKGROUND OF THE INVENTION

Description of the Related Art

Insect extermination, particularly for undesirable external insects, has been largely confined to chemical treatments. Zappers are used for certain flying insects. These chemical treatments are often ineffective and always create environmental and health concerns.
Fire ants, in particular, are very aggressive and their bites are always hurtful and sometimes dangerous. The usual result from a chemical treatment is that the colony relocates. Often, they become even more aggressive as a result.
One treatment often employed to exterminate fire ants is to pour boiling water on the colony bed. However, this treatment is often only partially effective and rarely kills the queen ants. Fire ants prepare an elaborate system of tunnels to get from the nest to the ground surface. The boiling water has the effect of collapsing these tunnels and thus shielding ants below from harm.
Thus, there is a need in the art for a method and apparatus for a completely effective system for exterminating insects, particularly fire ants, and safe, both environmentally and for human and animals.

SUMMARY OF THE INVENTION

A mechanized method and apparatus for exterminating insects on and/or under a designated area of ground comprising a steam power source; a movable applicator for applying steam to the designated area of ground; steam transport means for delivering steam from the steam power source to the applicator; and wherein, when the applicator is moved into position over the designated area of ground and steam is transported from the steam power source to the applicator, insects on and/or under the designated area of ground are exterminated.
The method and apparatus as described above further comprising means coupled to the movable applicator for remotely controlling the movement of the applicator wherein the power source comprises a motor and a source for electrical power.
The method and apparatus as described above wherein the steam power source comprises: a tank for storing a steam source; and means for converting the steam source into steam.
The method and apparatus as described above wherein the steam source is water.
The method and apparatus as described above further comprising means for sensing the amount of the steam source in the tank.
The method and apparatus as described above further comprising means coupled to the sensing means for shutting off the steam converting means when the steam source has dropped to pre-determined level.
The method and apparatus as described above wherein the means for converting the steam source into steam comprises a burner for heating the steam source in the tank for converting the steam source into steam and a fuel source coupled to the burner for delivering fuel to the burner.
The method and apparatus as described above further comprising means for igniting the fuel at the burner.
The method and apparatus as described above wherein the fuel is a gas.
The method and apparatus as described above wherein the means for converting the steam source into steam comprises one or more electrodes immersed in the steam source in the tank for converting the steam source into steam and means for applying electrical power to the electrodes.
The method and apparatus as described above further comprising system transport means for transporting the system to and from designated areas of ground.
The method and apparatus as described above further comprising means for remotely operating and/or monitoring the system.
The method and apparatus as described above further comprising means for manually lowering and raising the applicator.
The method and apparatus as described above further wherein the means for manually lowering and raising may be used for transporting the system.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a side cross-sectional view of the mechanized insect exterminator with a steam producer powered by gas.

FIG. 2 is a side cross-sectional view of the mechanized insect exterminator with an electrically powered steam producer and apparatus for manually lowering and raising the applicator.

FIG. 3 is a side cross-sectional view of the mechanized insect exterminator with additional transport and operational apparatus.

DETAILED DESCRIPTION

Whilst the making and using of various embodiments of the present invention are discussed in detail below, it should be appreciated that the present invention provides many applicable inventive concepts, which can be embodied in a wide variety of specific contexts. The specific embodiments discussed herein are merely illustrative of specific ways to make and use the invention and do not limit the scope of the invention. Moreover, the present invention, while described for the extermination of fire ants and fire ant colonies, may be utilized to exterminate a wide variety of insects.
Referring now to FIG. 1, a side, cross-sectional view of the mechanized exterminator 100 is depicted. The apparatus is affixed to a base 101. The base 101 is made of durable material, such as steel, for example, and may be of any size, depending on the size of the apparatus to be secured on it. It will be appreciated that any suitable material may be used for the base 101. In the instant embodiment, the base 101 is heavy which will assist in the application of the steam to the insect colony.
An applicator 102 for steam is secure to and through the base 101 and is depicted in FIG. 1 as extending below the bottom surface of the base. The applicator 102 may be made of any suitable material such as steel so long as it is able to tolerate the temperatures of the steam. A material that is heavy and weather and rust resistant is preferable. The applicator 102 is shown as an inverted, open and hollow circular hood or cover. It will be understood that the applicator 102 may be of any suitable size and shape so long as the opening at the bottom is large enough to cover a sufficient portion of the insect bed.
In the instant embodiment of the present invention, the applicator 102 is shown extending below the bottom surface of the base 101. In operation, it is desirable to insure that the applicator 102, when positioned over the insect bed, will extend slightly into the ground surface thereby preventing or, at least, minimizing steam from escaping from the sides of the applicator 102 directly into the air. In the instant embodiment of the present invention, the base 101 is lowered on to the ground such that the applicator 102 covers the designated area of ground to be treated. The weight of the base 101, all of the apparatus secured to the base 101, and the applicator 102 all serve to force the applicator 102 into the ground to ensure maximum application of the steam on to and into the designated area of ground to be treated.
It will be appreciated and understood that the present invention is not limited to the configuration described above. For example, the applicator 102 need not be secured to the base 101 and capable of separately being moved into position over the designated area of ground to be treated independent of the base 101 and other apparatus secured to the base.
A steam transport 103 transports steam to the applicator 102 from a boiler 104 secured to the base 101. The steam transport 103 may be made from any suitable material and may be of any suitable shape and size. It may be permanently secured to the boiler 104 and/or the applicator 102. Alternately, it may be detachable from the applicator 102 so that, for example, the applicator 102 may be replaced or so that different size applicators may be used. Similarly, the steam transport may be detachable from the boiler 104 so, for example, the boiler can be replaced or that multiple boilers 104 can be secured to the base 101 and used with the same applicator 102. It will further be appreciated that the steam transport 103 may be rigid or flexible.
The boiler 104 includes a burner 108 disposed at the bottom of the boiler 104 for heating the steam fuel inside the boiler. The fuel is preferably water but it is understood that the present invention is not limited to water and that other fuels may be used and/or additives added. The boiler 104 should have a safe and easy method (not shown) for replenishing the fuel.
A conduit 106 connects the burner 108 to a heating fuel source 105 secured to the base 101. A valve 107 is used to control to flow of heating fuel from the source 105 to the burner 108. as depicted in FIG. 1, the heating fuel source 105 is a replaceable and/or refillable canister with a gas such as propane. It will be appreciated that any suitable heating fuel may be used with the present invention and it is not limited to propane. Moreover, the heating fuel source 105 need not be canister nor need not be secured to the base 101. For portability, it is preferable to have a heating fuel source that is easily transported from place to place.
In operation, valve 107 of the system 100 is opened and heating fuel is applied to the burner 108. The heating fuel is ignited at the burner 108 and the fuel is heated. This action may take place before or during transport of the system to the designated area for treatment. Once the fuel is sufficiently heated, the base 101 is lowered on to the ground such that the applicator 102 securely covers the designated area of ground for treatment. The steam from the applicator instantly exterminates any insects, such as fire ants, on the
It will be appreciated and understood that the present invention is not limited to the configuration described above. For example, the applicator 102 need not be secured to the base 101 and capable of separately being moved into position over the designated area of ground to be treated independent of the base 101 and other apparatus secured to the base.
A steam transport 103 transports steam to the applicator 102 from a boiler 104 secured to the base 101. The steam transport 103 may be made from any suitable material and may be of any suitable shape and size. It may be permanently secured to the boiler 104 and/or the applicator 102. Alternately, it may be detachable from the applicator 102 so that, for example, the applicator 102 may be replaced or so that different size applicators may be used. Similarly, the steam transport may be detachable from the boiler 104 so, for example, the boiler can be replaced or that multiple boilers 104 can be secured to the base 101 and used with the same applicator 102. It will further be appreciated that the steam transport 103 may be rigid or flexible.
The boiler 104 includes a burner 108 disposed at the bottom of the boiler 104 for heating the steam fuel inside the boiler. The fuel is preferably water but it is understood that the present invention is not limited to water and that other fuels may be used and/or additives added. The boiler 104 should have a safe and easy method (not shown) for replenishing the fuel.
A conduit 106 connects the burner 108 to a heating fuel source 105 secured to the base 101. A valve 107 is used to control to flow of heating fuel from the source 105 to the burner 108. as depicted in FIG. 1, the heating fuel source 105 is a replaceable and/or refillable canister with a gas such as propane. It will be appreciated that any suitable heating fuel may be used with the present invention and it is not limited to propane. Moreover, the heating fuel source 105 need not be canister nor need not be secured to the base 101. For portability, it is preferable to have a heating fuel source that is easily transported from place to place.
In operation, valve 107 of the system 100 is opened and heating fuel is applied to the burner 108. The heating fuel is ignited at the burner 108 and the fuel is heated. This action may take place before or during transport of the system to the designated area for treatment. Once the fuel is sufficiently heated, the base 101 is lowered on to the ground such that the applicator 102 securely covers the designated area of ground for treatment. The steam from the applicator instantly exterminates any insects, such as fire ants, on the designated ground area surface. The steam also penetrates the nest using the tunnels the fire ants have constructed. Because only steam is applied, the tunnels will remain in tact and not collapse, allowing the steam to completely penetrate and infiltrate the nest. After an appropriate period of time (depending on the size and depth of the nest underground) such as, for example, 15 minutes. The entire colony, including the queens, will be exterminated. The applicator 102 can then be lifted and moved on to the next colony to be exterminated. The application is environmentally friendly and not harmful to humans or animals since only water is used. Of course, care must be taken during usage to prevent burns by contact with any of the apparatus that is hot, but the system is designed for easy and safe operation.
If the designated area to be treated has any grass or plant life growing, the steam will temporarily kill it. However, the grass or plant life will grow back.
Referring to FIG. 2, a side cross-sectional view of a different embodiment 200 of the present invention is presented. The base 201, the applicator 202, the steam transport 203 and the boiler 204 function in the same manner as described for their counterparts in FIG. 1; base 101, applicator 102, steam transport 103 and boiler 104, respectively.
The boiler 204 is equipped with one or more electrodes 208 (instead of a burner) to heat the fuel in the boiler 204. The electrodes 208 are connected to an electrical power source 205, such as a battery or generator, by electrical conduits 206. A switch 207 is used to control the application of electricity to the electrodes 208 from the power source 205. In operation, the system 200 works the same as that described for system 100 except that electrical power is used to heat the fuel in the boiler 204.
Also depicted in FIG. 2 is a simple, manual piece of apparatus for lowering and lifting the base 201 of system 200. A pair of wheels 211 are used to transport the system 200. A control bar 223 in the shape of a three-quarter rectangle has each open end connected to a wheel 211 by a pin 222. The control bar is also pivotally connected to both sides of the base 201 by means of a pivot assembly 221. A hitch 210 is attached to the base 201 for connecting to a tractor, cart, truck or other vehicle and transport the system 200 to designated areas of ground for treatment. When the system is at the designated area, the transporting vehicle may be unhitched. By raising the control bar 223 and back over the system 200, the applicator 202 is lowered on to the designated area of ground for treatment. After the treatment is finished, the control bar is returned to its previous position, thereby raising the applicator and the hitch 210 to be reconnected to the vehicle for further transport.
The control bar 223 may be made of any suitable material and may be a variety of shapes. It is preferable, however, that the control bar 223 be made of a suit material and a suitable shape, so that the operator will not be burned by operating the control bar to raise or lower the system 200.
Referring now to FIG. 3, yet another embodiment of the present invention is depicted as system 300. The base 301, the applicator 302, the steam transport 303, the boiler 304, the burner 308, the conduit 306 and the heating fuel source 305 function in the same manner as described for their counterparts in FIG. 1; base 101, applicator 102, steam transport 103, boiler 104, the burner 108, the conduit 106 and heating fuel source 105, respectively.
The base 301 is part of a frame assembly 309. The base 301, and all apparatus secured thereto, can be lowered to ground level and returned to normal by means of a motor 312 and hydraulic system 313. The frame assembly 309 rides on wheels 311 and is attachable to a vehicle for transportation by means of a hitch 310.
The system 300 also includes a control panel 314 secured to the base 301 by a stem or pedestal 315. The control panel 314 enables the operator to control and monitor the system 300. As depicted in FIG. 3, the control panel may have steam pressure gauge 320 coupled by conduit 324 to a pressure sensor 321 in or on the boiler 304 and for monitoring the steam pressure in the boiler 304. There may also be volume gauge 325 on the control panel 314 coupled to a sensor 322 in the boiler 304 by a conduit 323 for monitoring the level of fuel, such as water, in the boiler 304.
In FIG. 3, valve 307 is an automated valve which can be controlled remotely by a switch or dial 318 via conduit 319. The valve 307 may also be connected to sensor 322 via conduit 323 so that valve 307 is automatically closed if sensor 322 detects a low volume of fuel level in the boiler 304.
Control panel 314 has a switch 316 coupled by conduit 317 to the motor 312 for remotely lowering and raising the base 301. Additional feature may also be added to the control panel 314. For example, a sparking switch (not shown) can be added and coupled to the burner 308, for remotely igniting the fuel at the burner 308.
Thus, the present invention has been described herein with reference to particular embodiments for particular applications. Those having ordinary skill in the art and access to the present teachings will recognize additional modifications, applications, and embodiments within the scope thereof.
It is, therefore, intended by the appended claims to cover any and all such applications, modifications, and embodiments within the scope of the present invention.

Claims

1. A mechanized system for exterminating insects on and/or under a designated area of ground comprising:

a steam power source;

a movable applicator for applying steam to the designated area of ground;

steam transport means for delivering steam from the steam power source to the applicator; and

wherein, when the applicator is moved into position over the designated area of ground and steam is transported from the steam power source to the applicator, insects on and/or under the designated area of ground are exterminated.

2. The system as set forth in claim 1 further comprising;

means coupled to the movable applicator for remotely controlling the movement of the applicator.

3. The system as set forth in claim 1 wherein the steam power source comprises:

a tank for storing a steam source; and

means for converting the steam source into steam.

4. The system as set forth in claim 3 wherein the steam source is water.

5. The system as set forth in claim 3 further comprising:

means for sensing the amount of the steam source in the tank.

6. The system as set forth in claim 5 further comprising;

means coupled to the sensing means for shutting off the steam converting means when the steam source has dropped to predetermined level.

7. The system as set forth in claim 3 wherein the means for converting the steam source into steam comprises:

a burner for heating the steam source in the tank for converting the steam source into steam; and

a fuel source coupled to the burner for delivering fuel to the burner.

8. The system as set forth in claim 7 further comprising:

means for igniting the fuel at the burner.

9. The system as set forth in claim 5 wherein the fuel is a gas.

10. The system as set forth in claim 3 wherein the means for converting the steam source into steam comprises:

one or more electrodes immersed in the steam source in the tank for converting the steam source into steam; and

means for applying electrical power to the electrodes.

11. The system as set forth in claim 1 further comprising:

system transport means for transporting the system to and from designated areas of ground.

12. The system as set forth in claim 1 further comprising:

means for remotely operating and/or monitoring the system.

13. The system as set forth in claim 1 further comprising:

means for manually lowering and raising the applicator.

14. The system as set forth in claim 13 wherein the means for manually lowering and raising may be used for transporting the system.

15. A method of exterminating insects on and/or under a designated area of ground with a mechanized system comprising the steps of:

generating steam;

transporting the steam to an applicator; and

moving the applicator over the designated area of ground.

16. The method as set forth in claim 15 further comprising the step of:

transporting the mechanized system to and/or from the designated area of ground.