An insect killing door system includes a door that is hingedly positioned in an entry to a building. The door has a window and an electrification unit is positioned to cover the window. Moreover, the electrification unit inhibits insects from passing through the window. The electrification unit is selectively turned on to kill insects that have landed on the electrification unit. In this way the insects are inhibited from entering the building when the door is opened. A control unit is provided and the control unit is in wireless electrical communication with the electrification unit. The control unit selectively turns the electrification unit on and off.

An insect killing door system includes a door that is hingedly positioned in an entry to a building. The door has a window and an electrification unit is positioned to cover the window. Moreover, the electrification unit inhibits insects from passing through the window. The electrification unit is selectively turned on to kill insects that have landed on the electrification unit. In this way the insects are inhibited from entering the building when the door is opened. A control unit is provided and the control unit is in wireless electrical communication with the electrification unit. The control unit selectively turns the electrification unit on and off.

In a method for treating soil at a work site, a first pressure application tool is connected to a base unit and moved relative thereto along a first area of the work site adjacent a structure and operated to inject soil treatment down into the soil along the first area of the work site. A second pressure application tool is interchanged with the first pressure application tool and moved relative to the base unit along a second area of the work site adjacent the structure and different from the first area of the work site. The second pressure application tool is operated to apply soil treatment to the soil along the second area of the work site.

A termite barrier seal including a hollow seal body having a wall surrounding an axial bore extending from an insertion end to a surface end. A closure formation is located about the surface end for engagement with a closure for the orifice of the bore at the surface end of the seal body. A one-way valve at or intermediate the insertion end and the surface end of the seal body, the one-way valve arranged to permit liquid flow through the axial bore, but to prevent liquid flow to the surface end. An external seal about the seal body for sealing the wall of the seal body against the internal surface of a hole drilled through a concrete slab. An internal seal engages the seal body for sealing the wall against an external face of an injector when inserted into the bore of the seal body.

A termite barrier seal including a hollow seal body having a wall surrounding an axial bore extending from an insertion end to a surface end. A closure formation is located about the surface end for engagement with a closure for the orifice of the bore at the surface end of the seal body. A one-way valve at or intermediate the insertion end and the surface end of the seal body, the one-way valve arranged to permit liquid flow through the axial bore, but to prevent liquid flow to the surface end. An external seal about the seal body for sealing the wall of the seal body against the internal surface of a hole drilled through a concrete slab. An internal seal engages the seal body for sealing the wall against an external face of an injector when inserted into the bore of the seal body.

A system for killing pests in an affected area of a structure comprises a heat exchanger unit placed within an affected area, and a thermostatic control. The heat exchanger unit is configured to receive a flow of water from a faucet, and generate heated air by transferring heat from the flow of water received from the faucet to air flowing through the heat exchanger unit. The thermostatic control is configured to monitor a temperature of the flow of water as it is received by the heat exchanger unit, monitor a temperature of the air as it is received at an inlet of the heat exchanger unit, and automatically cease the flow of water to the heat exchanger unit when the temperature of the air received by the heat exchanger unit is greater than the temperature of the flow of water.

A system for killing pests in an affected area of a structure comprises a heat exchanger unit placed within an affected area, and a thermostatic control. The heat exchanger unit is configured to receive a flow of water from a faucet, and generate heated air by transferring heat from the flow of water received from the faucet to air flowing through the heat exchanger unit. The thermostatic control is configured to monitor a temperature of the flow of water as it is received by the heat exchanger unit, monitor a temperature of the air as it is received at an inlet of the heat exchanger unit, and automatically cease the flow of water to the heat exchanger unit when the temperature of the air received by the heat exchanger unit is greater than the temperature of the flow of water.

In a tape for controlling crawling pests, on the first side (S1) is a carrier layer having a multitude of vertically extending structures, and on the opposite side (S2) is a means for attaching the tape to a surface. At least the first side (S1) is impregnated with a composition of A) 0.1 to 45% by weight (based on the total of A plus B) of one or more insecticides and B) 99.9 to 55% by weight (based on the total of A plus B) of an (meth)acrylate binder of one or more homo- or copolymer having units derived from one or more acrylates and/or methacrylates.

In a tape for controlling crawling pests, on the first side (S1) is a carrier layer having a multitude of vertically extending structures, and on the opposite side (S2) is a means for attaching the tape to a surface. At least the first side (S1) is impregnated with a composition of A) 0.1 to 45% by weight (based on the total of A plus B) of one or more insecticides and B) 99.9 to 55% by weight (based on the total of A plus B) of an (meth)acrylate binder of one or more homo- or copolymer having units derived from one or more acrylates and/or methacrylates.

Method and apparatus for a pest control device mounting system configured for mounting pest control devices in a building and using them to control pests. The pest control device mounting system including a mounting bracket, which may have a circumferential portion defining a portal. In some examples, the mounting bracket includes a flange portion suitable for attaching to the perimeter of a cavity in a building surface. The pest control device mounting system including a plug configured to be removably attached to the mounting bracket and to substantially close the portal when attached to the mounting bracket, wherein the plug is configured to accommodate a pest control device.