An attracting assembly is positioned at an upper location to attract bed bugs. A killing assembly is positioned at an intermediate location beneath the attracting assembly to kill the attracted bed bugs. A base assembly is positioned at a lower location beneath the killing assembly for maximizing the number of bed bugs attracted and killed. A control assembly has a user visible digital UPC code, a battery power percentage indicator with an ON/OFF button and a sound activated switch, a cell phone with a macro-lens for wide angle photography with enlargements, and two light emitting diodes positioned adjacent to the macro-lens to illuminate bed bugs to be photographed.

A removable substrate for an insect attractant device includes a body having front and rear faces, a grip portion, and a base disposed opposite the grip portion. The removable substrate further includes a first lateral portion extending from the base, and a second lateral portion extending from the base. A projection extends outwardly from the base, lowermost ends of the first and second lateral portions are disposed below the projection, and an adhesive is applied to the front face and the rear face.

A removable substrate for an insect attractant device includes a body having front and rear faces, a grip portion, and a base disposed opposite the grip portion. The removable substrate further includes a first lateral portion extending from the base, and a second lateral portion extending from the base. A projection extends outwardly from the base, lowermost ends of the first and second lateral portions are disposed below the projection, and an adhesive is applied to the front face and the rear face.

An insect trap comprising a trap portion comprising a substantially planar surface, texts or graphics disposed on the substantially planar surface, and an adhesive disposed on the substantially planar surface and the texts or graphics. The texts or graphics are configured to produce alternating light/dark regions for attracting insects The insect trap further comprises a base portion directly connected to electrically conductive prongs insertable into an electrical socket. The base portion comprises a circuit board configured to receive power from the electronically conductive prongs, at least one LED light, and at least one slot configured to removably engage the trap portion and secure the trap portion in place during use. The LED light is disposed between at least one slot and the electrically conductive prongs. The trap portion removably engages the base portion and is mounted vertically on the base portion in front of the LED light.

There is a device for trapping insects and mites, comprising at least one patch having a honeycomb structure and being of an antistatic material and a glue disposed at least within holes of the honeycomb structure. In one embodiment, the honeycomb structure has holes having a diameter of less than 2 millimeters. In at least one embodiment, the antistatic material mainly is based on a non-woven polymer material. In at least one embodiment, the device includes an attractant including a sachet.

There is a device for trapping insects and mites, comprising at least one patch having a honeycomb structure and being of an antistatic material and a glue disposed at least within holes of the honeycomb structure. In one embodiment, the honeycomb structure has holes having a diameter of less than 2 millimeters. In at least one embodiment, the antistatic material mainly is based on a non-woven polymer material. In at least one embodiment, the device includes an attractant including a sachet.

An insect trapping device and method for adhesively securing inserts to a panel by attracting and adhesively securing inserts to a colored panel includes a panel including a first surface, a second surface facing opposite of the first surface, and a perimeter edge. The first and second surfaces of the panel are colored a yellow color and reflecting light attracting insects and having a wavelength from 570 nm to 590 nm. The first surface has a hole extending therethrough and through the second surface. The hole receives a support member such that the panel is hanging from the support member. An adhesive layer is attached to the first surface and adhesively secures insects to the panel when the insects come in contact with the adhesive layer.

A removable substrate for an insect attractant device includes a body having front and rear faces, a grip portion, and a base disposed opposite the grip portion. The removable substrate further includes a first lateral portion extending from the base, and a second lateral portion extending from the base. A projection extends outwardly from the base, lowermost ends of the first and second lateral portions are disposed below the projection, and an adhesive is applied to the front face and the rear face.

A removable substrate for an insect attractant device includes a body having front and rear faces, a grip portion, and a base disposed opposite the grip portion. The removable substrate further includes a first lateral portion extending from the base, and a second lateral portion extending from the base. A projection extends outwardly from the base, lowermost ends of the first and second lateral portions are disposed below the projection, and an adhesive is applied to the front face and the rear face.

In an insect pest attraction lighting system which irradiates a field with attraction light for attracting insect pests to keep the insect pests away from a plant, an effect of protection against diurnal insect pests is improved. An insect pest attraction lighting system 1 includes: a setting unit 2 which sets, as an operating time zone, an arbitrary time zone during nighttime; an artificial sunlight source unit 3 which irradiates the entirety of an interior of a plastic greenhouse H1 with artificial sunlight which does not include wavelength components of 500 to 600 nm, in the operating time zone; and an attraction light source unit 4 which irradiates a portion of the interior of the plastic greenhouse H1 with attraction light in the operating time zone. The irradiation of the artificial sunlight during nighttime increases the activity of diurnal insect pests B1, and the attraction light attracts the activity-increased diurnal insect pests B1, whereby the activity-increased diurnal insect pests B1 can be kept away from plants P1. Thus, protection against the diurnal insect pests B1 can positively be provided. In addition, since the artificial sunlight does not include light in a wavelength range of 500 to 600 nm which is reflected by the plants P1, it is made difficult for the diurnal insect pests B1 to visually recognize the plants P1, and therefore, an effect of protection against insects is enhanced further.