A tick removal medical tool has an arcuate scoop with a converging V-shaped groove that moves in under the rear of the tick. Upward and outward sloping edges of the groove gently lift a tick's abdomen, legs, thorax, head and mouthpieces in that order without squeezing or decapitating the tick. A compartment in a handle holds a removable live tick trap with a hinged front door. An arcuate edge of the door matches the arcuate scoop and sweeps the live tick into the trap. A thick concave urger at the door edge centers, lifts and sweeps the tick. A probe extending forward below the urger engages and lifts the tick as the probe is raised by the upward and outward sloping surfaces of the groove. The hollow handle holds supplies or receives an extended live trap with inward sloped exit preventors imprisoning multiple live ticks for analysis.

A tick removal medical tool has an arcuate scoop with a converging V-shaped groove that moves in under the rear of the tick. Upward and outward sloping edges of the groove gently lift a tick's abdomen, legs, thorax, head and mouthpieces in that order without squeezing or decapitating the tick. A compartment in a handle holds a removable live tick trap with a hinged front door. An arcuate edge of the door matches the arcuate scoop and sweeps the live tick into the trap. A thick concave urger at the door edge centers, lifts and sweeps the tick. A probe extending forward below the urger engages and lifts the tick as the probe is raised by the upward and outward sloping surfaces of the groove. The hollow handle holds supplies or receives an extended live trap with inward sloped exit preventors imprisoning multiple live ticks for analysis.

A steam sprayer for delivering steam onto and beneath a field surface is provided. The steam sprayer comprises a support frame having a plurality of steam spraying nozzles mounted thereto and oriented substantially downwardly for spraying steam onto and beneath the field surface. At least a steam generator is connected to the steam spraying nozzles for providing steam thereto. A water heating tank is connected to each of the at least a steam generator for providing heated water at a substantially constant pressure thereto, Compressed air is provided to the water heating tank for pressurizing the water heating tank. Power is provided to the water heating tank and each of the at least a steam generator.

An insect vacuum device is provided. The device includes a housing having an inlet end opposite a rear end. A grip portion extends from a lower side of the housing. A barrel is affixed to the inlet end, wherein the barrel is in fluid communication with an interior volume of the housing. A reservoir is removably securable to the lower side between the grip portion and the inlet end. A motor is within the housing at the rear end, wherein the motor generates suction between the inlet end and the reservoir when the motor is activated. A trigger is disposed on the lower side, wherein the trigger activates the motor when the trigger is actuated. An inlet valve and a motor valve are disposed within the housing and move to an open position while the trigger is actuated.

A system for eradication of insects, insect larvae, and insect eggs includes an applicator, a plurality of nozzles, a gas source, and a cold plasma generator. The applicator is adapted to be moved by the user over an area to be treated. The plurality of nozzles are disposed on the applicator. The cold plasma generator is in electrical communication with a power supply. The cold plasma generator is in fluid communication with the plurality of nozzles and the gas source. The cold plasma generator is configured to generate cold plasma from the gas source and configured to expel a plurality of cold plasma plumes through the plurality of nozzles that forms a cold plasma field. The cold plasma field is generated at a power and a volumetric flow sufficient for the eradication of the insects, the insect larvae and the incents eggs from the area to be treated.

A system for eradication of insects, insect larvae, and insect eggs includes an applicator, a plurality of nozzles, a gas source, and a cold plasma generator. The applicator is adapted to be moved by the user over an area to be treated. The plurality of nozzles are disposed on the applicator. The cold plasma generator is in electrical communication with a power supply. The cold plasma generator is in fluid communication with the plurality of nozzles and the gas source. The cold plasma generator is configured to generate cold plasma from the gas source and configured to expel a plurality of cold plasma plumes through the plurality of nozzles that forms a cold plasma field. The cold plasma field is generated at a power and a volumetric flow sufficient for the eradication of the insects, the insect larvae and the incents eggs from the area to be treated.

A system for eradication of insects, insect larvae, and insect eggs includes an applicator, a plurality of nozzles, a gas source, and a cold plasma generator. The applicator is adapted to be moved by the user over an area to be treated. The plurality of nozzles are disposed on the applicator. The cold plasma generator is in electrical communication with a power supply. The cold plasma generator is in fluid communication with the plurality of nozzles and the gas source. The cold plasma generator is configured to generate cold plasma from the gas source and configured to expel a plurality of cold plasma plumes through the plurality of nozzles that forms a cold plasma field. The cold plasma field is generated at a power and a volumetric flow sufficient for the eradication of the insects, the insect larvae and the incents eggs from the area to be treated.

A system for eradication of insects, insect larvae, and insect eggs includes an applicator, a plurality of nozzles, a gas source, and a cold plasma generator. The applicator is adapted to be moved by the user over an area to be treated. The plurality of nozzles are disposed on the applicator. The cold plasma generator is in electrical communication with a power supply. The cold plasma generator is in fluid communication with the plurality of nozzles and the gas source. The cold plasma generator is configured to generate cold plasma from the gas source and configured to expel a plurality of cold plasma plumes through the plurality of nozzles that forms a cold plasma field. The cold plasma field is generated at a power and a volumetric flow sufficient for the eradication of the insects, the insect larvae and the incents eggs from the area to be treated.

An insect killing system has a blower drawing air entraining insects from below a vacuum machine, impelling the air upward, a flange oriented horizontally at an outlet to the blower, and a killing assembly affixed to the flange. The system is characterized in that the killing assembly comprises a plurality of panels of a common width, having an upper edge, a lower edge, and opposite side edges defining an area for each panel, the area closed by a relatively thin perforated sheet material exhibiting a matrix of through holes, individual panels affixed by the bottom edge to the flange on opposite sides, with each panel oriented by a steep angle from vertical, with each panel in the plurality parallel to and spaced apart from one or more adjacent panels, such that the area defined by an inside diameter of the flange is covered by the plurality of adjacent parallel panels.

An insect killing system has a blower drawing air entraining insects from below a vacuum machine, impelling the air upward, a flange oriented horizontally at an outlet to the blower, and a killing assembly affixed to the flange. The system is characterized in that the killing assembly comprises a plurality of panels of a common width, having an upper edge, a lower edge, and opposite side edges defining an area for each panel, the area closed by a relatively thin perforated sheet material exhibiting a matrix of through holes, individual panels affixed by the bottom edge to the flange on opposite sides, with each panel oriented by a steep angle from vertical, with each panel in the plurality parallel to and spaced apart from one or more adjacent panels, such that the area defined by an inside diameter of the flange is covered by the plurality of adjacent parallel panels.