A capsule of a volatile substance distribution system having a base unit configured to drive ambient temperature air through the capsule for distributing a volatile substance therefrom. The capsule includes a capsule housing. The capsule also includes a volatile substance member that is housed within the capsule housing. The volatile substance member includes a substrate and a volatile substance on the substrate. The substrate has a porosity that is within a predetermined range for absorption of the volatile substance and for controlled release of the volatile substance from the substrate when the base unit drives air through the capsule.

This disclosure relates to system and method for managing an insect swarm using a plurality of drones. The method includes detecting an insect swarm. The method may further include tracking a movement of the insect swarm. The method further includes communicating, with remaining of the plurality of drones, to dynamically align in a position based on the tracking so as to make a drone formation. The method further includes magnetizing, by at least some of the plurality of drones, one or more drone couplers for electromagnetically coupling the at least some of the plurality of drones with each other as per the drone formation. The method further includes casting, by each of the plurality of drones, a net to trap insects in the insect swarm. The method further includes supplying, by each of the plurality of drones, a high voltage to the net to decapacitate the insects.

This disclosure relates to system and method for managing an insect swarm using a plurality of drones. The method includes detecting an insect swarm. The method may further include tracking a movement of the insect swarm. The method further includes communicating, with remaining of the plurality of drones, to dynamically align in a position based on the tracking so as to make a drone formation. The method further includes magnetizing, by at least some of the plurality of drones, one or more drone couplers for electromagnetically coupling the at least some of the plurality of drones with each other as per the drone formation. The method further includes casting, by each of the plurality of drones, a net to trap insects in the insect swarm. The method further includes supplying, by each of the plurality of drones, a high voltage to the net to decapacitate the insects.

Mouse repellents include one or more plant essential oils or other plant-derived natural compounds. The mouse repellents can be used alone or in combination with mouse attractants. Devices and further methods of using the mouse repellents are also disclosed.

Mouse repellents include one or more plant essential oils or other plant-derived natural compounds. The mouse repellents can be used alone or in combination with mouse attractants. Devices and further methods of using the mouse repellents are also disclosed.

A preventive device involves an elastic band capable of being secured about the base of a mattress or box spring. The elastic band is impregnated or coated with a composition that repels bed bugs. The elastic band also protects bedding from the infestation of bedbugs, which is much easier than eradication.

A preventive device involves an elastic band capable of being secured about the base of a mattress or box spring. The elastic band is impregnated or coated with a composition that repels bed bugs. The elastic band also protects bedding from the infestation of bedbugs, which is much easier than eradication.

In a housing (1), an internal space capable of housing an insect is formed, an opening (11) through which the internal space and an outside communicate with each other is formed, and a portion other than the opening (11) is closed so that the insect is incapable of passing through the portion. Rails (2) in a pair are disposed in parallel with each other on both sides of the opening (11) across the opening (11) on an outer surface of the housing (1), maintain a gap between a face, on which the opening (11) is formed, of the housing (1) and a cover (3) to have a size preventing the insect from passing through the gap, and slidably retain the cover (3) on the external side of the housing (1). A sample holder retains a sample, is slidably retained by the rails (2), and enables the sample to be exposed from the opening (11) to the internal space when being slidably retained by the rails (2) in the state of retaining the sample. The cover (3) and the sample holder retaining the sample can be slid between the rails (2) in the pair in a state in which one side of the cover (3) and one side of the sample holder come into contact with each other, whereby the cover (3) and the sample holder can be moved between a position at which the cover (3) covers the opening (11) and a position at which the sample covers the opening (11).

In a housing (1), an internal space capable of housing an insect is formed, an opening (11) through which the internal space and an outside communicate with each other is formed, and a portion other than the opening (11) is closed so that the insect is incapable of passing through the portion. Rails (2) in a pair are disposed in parallel with each other on both sides of the opening (11) across the opening (11) on an outer surface of the housing (1), maintain a gap between a face, on which the opening (11) is formed, of the housing (1) and a cover (3) to have a size preventing the insect from passing through the gap, and slidably retain the cover (3) on the external side of the housing (1). A sample holder retains a sample, is slidably retained by the rails (2), and enables the sample to be exposed from the opening (11) to the internal space when being slidably retained by the rails (2) in the state of retaining the sample. The cover (3) and the sample holder retaining the sample can be slid between the rails (2) in the pair in a state in which one side of the cover (3) and one side of the sample holder come into contact with each other, whereby the cover (3) and the sample holder can be moved between a position at which the cover (3) covers the opening (11) and a position at which the sample covers the opening (11).

The present invention relates to a pest repellent composition containing the following components (A) and (B): (A) 13% by mass or more and 99.95% by mass or less of at least one non-volatile liquid oily component selected from the group consisting of a silicone oil, an ester oil, an ether oil, a hydrocarbon oil, an aliphatic alcohol, and a polyhydric alcohol, the non-volatile liquid oily component having a surface tension at 25° C. of 40 mN/m or less and a viscosity at 23° C. as measured with a B-type rotational viscometer of 400 mPa.Math.s or less; and (B) 0.05% by mass or more and 3.5% by mass or less of a prescribed fragrance.