Fly traps that do not require toxic chemicals and that can un-intrusively be present in public areas. An example trap includes a housing to contain a solution and including opening(s) for ingress of flies, a conduit or nozzle, a pump to cause solution to flow via the conduit/nozzle and along the inner surface of the housing to capture flies, and a timer to activate the pump. Another example trap includes a gathering vessel, conduit coupled to the vessel and to be submerged in a fluid trap, a vacuum to remove air from the fluid trap, and a timing device to activate the vacuum. Another example trap includes an outer wall to contain a solution, an inner wall extending into the solution, an air pump and conduit(s) to form bubbles in the solution that rise in a space between the outer and inner walls and cascade down the inner wall.

Fly traps that do not require toxic chemicals and that can un-intrusively be present in public areas. An example trap includes a housing to contain a solution and including opening(s) for ingress of flies, a conduit or nozzle, a pump to cause solution to flow via the conduit/nozzle and along the inner surface of the housing to capture flies, and a timer to activate the pump. Another example trap includes a gathering vessel, conduit coupled to the vessel and to be submerged in a fluid trap, a vacuum to remove air from the fluid trap, and a timing device to activate the vacuum. Another example trap includes an outer wall to contain a solution, an inner wall extending into the solution, an air pump and conduit(s) to form bubbles in the solution that rise in a space between the outer and inner walls and cascade down the inner wall.

Fly traps that do not require toxic chemicals and that can un-intrusively be present in public areas. An example trap includes a housing to contain a solution and including opening(s) for ingress of flies, a conduit or nozzle, a pump to cause solution to flow via the conduit/nozzle and along the inner surface of the housing to capture flies, and a timer to activate the pump. Another example trap includes a gathering vessel, conduit coupled to the vessel and to be submerged in a fluid trap, a vacuum to remove air from the fluid trap, and a timing device to activate the vacuum. Another example trap includes an outer wall to contain a solution, an inner wall extending into the solution, an air pump and conduit(s) to form bubbles in the solution that rise in a space between the outer and inner walls and cascade down the inner wall.

Fly traps that do not require toxic chemicals and that can un-intrusively be present in public areas. An example trap includes a housing to contain a solution and including opening(s) for ingress of flies, a conduit or nozzle, a pump to cause solution to flow via the conduit/nozzle and along the inner surface of the housing to capture flies, and a timer to activate the pump. Another example trap includes a gathering vessel, conduit coupled to the vessel and to be submerged in a fluid trap, a vacuum to remove air from the fluid trap, and a timing device to activate the vacuum. Another example trap includes an outer wall to contain a solution, an inner wall extending into the solution, an air pump and conduit(s) to form bubbles in the solution that rise in a space between the outer and inner walls and cascade down the inner wall.

The present invention provides an electric shock insecticidal device reducing noise and light pollution emitted to an outside. The electric shock insecticidal device converts output voltage and output current supplied to a grid electrode into AC voltage and AC current or into DC voltage and DC current selectively; controls levels of the converted output voltage and current; adjusts an amount of light of the ultraviolet lamp emitted to an outside by using a light blocking layer or an adjusting unit adjusting illumination of an ultraviolet lamp; and easily separates the grid electrode having high voltage from a body unit to remove electrocuted flying insects from the grid electrode.

The present invention provides an electric shock insecticidal device reducing noise and light pollution emitted to an outside. The electric shock insecticidal device converts output voltage and output current supplied to a grid electrode into AC voltage and AC current or into DC voltage and DC current selectively; controls levels of the converted output voltage and current; adjusts an amount of light of the ultraviolet lamp emitted to an outside by using a light blocking layer or an adjusting unit adjusting illumination of an ultraviolet lamp; and easily separates the grid electrode having high voltage from a body unit to remove electrocuted flying insects from the grid electrode.

An insect trap that is attached or molded onto a garbage receptacle and that relies on the garbage inside the garbage receptacle to attract or lure insects into a trap compartment designed to effectively entrap said insects permanently. Once the trap compartment is ready to be discarded, a release mechanism driven by an actuator is used to press the trap compartment against a release plate until the trap compartment is released or dislodged into the garbage receptacle. Thus, the user of the insect trap does not have to physically touch the trap compartment that is full of trapped insects. Instead, through the use of the actuator, the trap compartment is released directly into the garbage compartment.

An insect trap that is attached or molded onto a garbage receptacle and that relies on the garbage inside the garbage receptacle to attract or lure insects into a trap compartment designed to effectively entrap said insects permanently. Once the trap compartment is ready to be discarded, a release mechanism driven by an actuator is used to press the trap compartment against a release plate until the trap compartment is released or dislodged into the garbage receptacle. Thus, the user of the insect trap does not have to physically touch the trap compartment that is full of trapped insects. Instead, through the use of the actuator, the trap compartment is released directly into the garbage compartment.

An apparatus for trapping insects having a trap body comprising at least one top channel having at least two opposed openings, the at least one top channel forming a top flow path through which air may freely flow, and a bottom channel arranged transverse to the top channel and having a first opening in fluid communication with the top flow path and a second opening opposing the first opening, said bottom channel forming a bottom flow path through which air may freely flow, wherein the trap body is configured to be operatively connected to at least one container, the at least one container configured to hold a bait for insects, and having at least one container opening configured to engage with the bottom channel such that the at least one container is in fluid communication with the top and bottom flow paths.

An apparatus for trapping insects having a trap body comprising at least one top channel having at least two opposed openings, the at least one top channel forming a top flow path through which air may freely flow, and a bottom channel arranged transverse to the top channel and having a first opening in fluid communication with the top flow path and a second opening opposing the first opening, said bottom channel forming a bottom flow path through which air may freely flow, wherein the trap body is configured to be operatively connected to at least one container, the at least one container configured to hold a bait for insects, and having at least one container opening configured to engage with the bottom channel such that the at least one container is in fluid communication with the top and bottom flow paths.