A bed system for the inspection and treatment of crawling insects, for example bed bugs, includes a main support panel and at least one movable mattress panel upon the main support panel to define a crevice between the panels for harboring crawling insects for subsequent inspection and treatment. A sleeping mattress is then supported on the mattress panel. The support panel is supported above a supporting surface, for example the floor or a boxspring mattress, by a spacer frame. The support panel further includes a skirt member extending down from the perimeter edge of the support panel by a height of the spacer frame so that the bottom free edge of the skirt member is in close, non-contacting proximity to the supporting surface. Treatment chemicals may optionally be provided in the space below the main support panel which is defined by the spacer frame mounted between the supporting surface and the main support panel.

A progressive liquid fill capacity indicator located inside a vapor diffusion membrane liquid reservoir that utilizes index refraction matching of liquid contact to components, dyes, and surface tension gradients. This fill capacity indicator is low cost and reliable. It enables users to visually assess readiness and remaining liquid capacity to deliver attraction, masking, and repulsion scent vapors from wearable and stationary devices to repel or attract mosquitos and arthropods.

A fixture (100) for gradually releasing a spatially effective semiochemical, for example a repellant. The fixture includes a slotted tube (140), that may be formed for example, from a porous material, a peripheral tube (102) having a plurality of apertures and disposed outward from the slotted tube, a base (110) that engages the slotted tube and the outer tube, a funnel member (160) that engages a top end of the slotted tube and the peripheral tube, and a cap (130). In an embodiment the base includes a lighting element (150).

The present invention provides a porous sustained-release body in which transparency of a porous carrier changes. The porous sustained-release body includes an inorganic monolithic porous body 1 including a skeleton body 2 of an inorganic compound and air gaps 3,4 having a three-dimensional continuous network structure formed in the skeleton body 2, and a sustained-release liquid absorbed into air gaps 2, 3, wherein the inorganic monolithic porous body 1 is opaque at an initial state, which is a state before absorption of the sustained-release liquid in which air exists in the air gaps, and refractive index of the sustained-release liquid and refractive index of the skeleton body are the same within an error range within which a portion in which the sustained-release liquid is absorbed into the air gaps changes to transparent or semitransparent.

The present disclosure provides a resin composition with at least a resin (A), which is a copolymer of ethylene and a vinyl-based monomer containing an oxygen atom; a linear or branched carboxylic acid ester (B); and an insecticide (C).

A system for diffusing one or more volatile compounds includes a base and a pod tray, carried by the base. At least one pod is carried by the pod tray. The pod has a housing holding a volatile compound mass, the housing and mass being moveable relative to one another. An actuator is carried by the base, the actuator being operable to engage the pod and move the housing and the volatile compound mass relative to one another. The pod and the actuator are positionable relative to one another such that one or both of the pod and the actuator can be positioned proximate to one another to enable the actuator to engage the pod and move the housing and the volatile compound mass relative to one another.

A dispensing unit has a base with two or more upwardly projecting side panels hingedly attached thereto. The sides have upper ends which pivot inwardly to a closed position, and outwardly to an open position. One or more removable dispensable compound containers are locatable within the unit, positioned adjacent a relative movable side panel. Each side has a capping projection that is located over and caps the container when the side panel is in a closed position, and which uncap the container when in the open position. When the sides are pivoted outwardly, they permit dispensing of the dispensable compound located in each container.

Delivery devices 100 for controlled discharge of a volatile fluid 118 at a relatively constant rate over a sustained period of time. Volatile fluid 118 may be dispensed in liquid or vapor phase. Rate of fluid discharge from a storage container 103 is controlled by a restriction element 124. Fluid 118 may be urged toward discharge by gravity, wicking, capillary activity, diffusion, pressure internal to the container, evaporation, and/or other fluid transmission through the restriction element 124.

A dispensing device for release of a volatile material includes a base, a drive arm coupled to a pendulum based drive mechanism, and a refill coupled to the drive arm. The refill includes a support base, at least one flange, a substrate coupled with the at least one flange, and a use-up cue.

A plant repellent delivery device assembly may include a plant with a root ball, and an integrally molded hygroscopic body having a hygroscopic glycerin soap base material, and an insecticide. The integrally molded hygroscopic body may have an external surface directly exposed to an external environment and configured to condense ambient moisture directly thereon. The plant repellent delivery device assembly may include a support structure coupled between the integrally molded hygroscopic body and a trunk of the plant, the support structure extending within the integrally molded hygroscopic body. The integrally molded hygroscopic body may be configured to release the insecticide into the root ball of the plant using the ambient moisture.