An insect trap device includes a housing, a sticky board, and at least one LED light bar. The housing is formed with a plurality of holes. The sticky board is arranged on a bottom of the housing. The sticky board has a surface coated with insect sticking glue. The at least one LED light bar is arranged in an interior of the housing to form indirect lighting and emit a wavelength of insect luring light. As such, the at least one LED light bar emits light that attracts insects to enter through the plurality of holes of the housing to get stuck to the sticky board.

An insect trap device includes a housing, a sticky board, and at least one LED light bar. The housing is formed with a plurality of holes. The sticky board is arranged on a bottom of the housing. The sticky board has a surface coated with insect sticking glue. The at least one LED light bar is arranged in an interior of the housing to form indirect lighting and emit a wavelength of insect luring light. As such, the at least one LED light bar emits light that attracts insects to enter through the plurality of holes of the housing to get stuck to the sticky board.

A pest detection and notification system includes one or more pest monitors and notification badges or cards. Both the pest monitors and the notification badges are capable of short-range wireless communication. Upon detection of presence of a pest, a pest monitor generates and transmits a wireless pest event message. Any notification badge present within the transmission area of the pest monitor will receive the pest event message. Each notification badge includes one or more pest event indicators, such as an audible indicator, a visible indicator, and/or a vibration motor. Upon receipt of the pest event message, the notification badge activates one or more of the pest event indicators, thus notifying the wearer that a pest presence within the transmission area has been detected.

In an embodiment, as insect trap is disclosed including: a trap portion including an enclosure having an adhesive surface and a first opening, wherein the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect; and a base portion including a lighting element and a mounting portion, wherein the lighting element is configured to provide light to the trap portion, and wherein the mounting portion is configured to communicate with and receive power from a power source; and a first heating element in communication with the power source, wherein the trap portion is configured to removably engage with the base portion and receive light from the base portion when engaged therewith, and wherein the first heating element provides heat to at least a portion of the trap when the trap is engaged.

In an embodiment, as insect trap is disclosed including: a trap portion including an enclosure having an adhesive surface and a first opening, wherein the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect; and a base portion including a lighting element and a mounting portion, wherein the lighting element is configured to provide light to the trap portion, and wherein the mounting portion is configured to communicate with and receive power from a power source; and a first heating element in communication with the power source, wherein the trap portion is configured to removably engage with the base portion and receive light from the base portion when engaged therewith, and wherein the first heating element provides heat to at least a portion of the trap when the trap is engaged.

A system for limiting access by flying animals to fans of an air-cooled condenser comprises a plurality of perimeter netting segments and interior netting segments. The fans are mounted on a framework and arranged in a matrix. Each fan comprises either (i) a perimeter fan positioned along any one of three or four outer edges of the matrix or (ii) an interior fan. Each perimeter netting segment is adapted to be positioned at least partly below a corresponding one of the perimeter fans. Each interior netting segment is adapted to be positioned at least partly below a corresponding one of the interior fans. Each perimeter netting segment has a first edge adapted to be affixed to the framework and a second edge affixed to a corresponding interior netting segment. At least a portion of each perimeter netting segment is angled inward and downward toward its corresponding interior netting segment.

In an embodiment, as insect trap is disclosed including: a trap portion including an enclosure having an adhesive surface and a first opening, wherein the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect; and a base portion including a lighting element and a mounting portion, wherein the lighting element is configured to provide light to the trap portion, and wherein the mounting portion is configured to communicate with and receive power from a power source; and a first heating element in communication with the power source, wherein the trap portion is configured to removably engage with the base portion and receive light from the base portion when engaged therewith, and wherein the first heating element provides heat to at least a portion of the trap when the trap is engaged.

In an embodiment, as insect trap is disclosed including: a trap portion including an enclosure having an adhesive surface and a first opening, wherein the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect; and a base portion including a lighting element and a mounting portion, wherein the lighting element is configured to provide light to the trap portion, and wherein the mounting portion is configured to communicate with and receive power from a power source; and a first heating element in communication with the power source, wherein the trap portion is configured to removably engage with the base portion and receive light from the base portion when engaged therewith, and wherein the first heating element provides heat to at least a portion of the trap when the trap is engaged.

A swaddling blanket and pouch combination (SBPC) (10) that allows an infant to be comfortably and easily swaddled. The blanket (12) is comprised of a right blanket flap (28) and a left blanket flap (46) and includes a designated area to which is removably attached the pouch (70). The pouch features a lower end (78) which includes an opening and closing means that allows an infant's soiled diaper to be easily removed and replaced or to take a rectal temperature. The SBPC (10) is used by first placing the left blanket flap (46) over the pouch (70), which is then followed by placing the right blanket flap (28) over the pouch. The right and left blanket flaps (28,46) as well as the pouch (70) are preferably held in place by hook and loop fasteners (88).

A swaddling blanket and pouch combination (SBPC) (10) that allows an infant to be comfortably and easily swaddled. The blanket (12) is comprised of a right blanket flap (28) and a left blanket flap (46) and includes a designated area to which is removably attached the pouch (70). The pouch features a lower end (78) which includes an opening and closing means that allows an infant's soiled diaper to be easily removed and replaced or to take a rectal temperature. The SBPC (10) is used by first placing the left blanket flap (46) over the pouch (70), which is then followed by placing the right blanket flap (28) over the pouch. The right and left blanket flaps (28,46) as well as the pouch (70) are preferably held in place by hook and loop fasteners (88).