Patent application number | Description | Published |
20090000181 | ABOVE-GROUND TERMITE STATION - In an above-ground termite station for detecting and controlling termites above ground in an operating configuration of the termite station, a container of the termite station defines an interior space and is at least in part configured for abutting against and being mounted on an above-ground mounting surface. The container is configurable between a closed configuration and an open configuration in which the interior space of the container is accessible while the container is mounted on the mounting surface. A cartridge is sized and configured for insertion in and removal from the interior space of the container and is generally an aggregation member, a bait matrix separate from the aggregation member, and a holder at least in part holding the aggregation member and bait matrix in assembly with the holder for positioning of the cartridge relative to the interior space of the container as a single unit. | 01-01-2009 |
20090000182 | METHOD OF MONITORING AND CONTROLLING TERMITES WITH HEAT-TREATED WOOD - In a method of monitoring and/or controlling termite populations in an area accessible to the termites a wood that has been heat-treated to a temperature of greater than about 150 degrees C (302 degrees F) is located in the area and monitored. A toxic bait may also be located in the area. In another method, a toxic bait that contains a toxicant and wood that has been heat-treated to a temperature of at least about 150 degrees C (302 degrees F) may be located in the area. | 01-01-2009 |
20090288335 | PEST CONTROL SYSTEM AND METHOD - In a system and method for at least one of monitoring and controlling pests, a container having an interior chamber, is located in an area in which pests are to be at least one of monitored and controlled. At least a portion of the container is constructed of an environmentally degradable plastic. At least one of a pest monitoring material and a pest bait material is disposed within the interior chamber of the container for at least one of monitoring and controlling pests. The container is inspected at least once prior to the end of a predetermined time period to determine whether pests are present within the container. The container is replaced, along with the at least one of the monitoring material and the bait material, no later than about six months beyond the predetermined period of time following placement of the container in the area. | 11-26-2009 |
20100162614 | RODENT MANAGEMENT SYSTEM HAVING BAIT SUPPORTS - A rodent management system includes a housing having a base and a lid together at least in part defining an interior space of the housing. The lid is positionable relative to the base between a closed configuration of the station in which the interior space in substantially enclosed, and an opened configuration of the station in which the interior space is accessible for servicing. The housing has at least one entry opening through which rodents enter the interior space of the housing. The base has an inner surface at least in part defining an interior floor of the housing. A bait support is positionable within the interior space of the housing and configured for supporting bait above the floor of the housing. The bait support is further configured for releasable connection with at least one of the base and the lid. | 07-01-2010 |
20100170140 | RODENT MANAGEMENT SYSTEM HAVING HOUSING - A rodent management station includes a housing having a base and a lid together at least in part defining an interior space of the housing. The base has a floor panel and an upstanding wall extending up from the floor panel about at least a portion of the circumference thereof. The upstanding wall has an upper edge and at least one gutter disposed in and extending along at least a portion of the upper edge of the upstanding wall to facilitate water drainage from the upstanding wall. The lid is positionable relative to the base between a closed configuration and an opened configuration. The housing has an entry opening through which rodents enter the interior space of the housing. The rodent management station further includes least one of a trap and a bait positionable within the interior space of the housing. | 07-08-2010 |
20100170141 | RODENT MANAGEMENT SYSTEM HAVING A HOUSING WITH AN ENTRY OPENING - A rodent management station includes a housing having a base and a lid together at least in part defining an interior space. The housing has an entry opening and an internal partition structure configured to partition the interior space of the housing into a bait chamber having an entryway spaced from the entry opening. A pathway is defined at least in part by the partition structure and extends away from the at least one entry opening to the entryway of the bait chamber. The partition structure has at least one through-opening therein other than at the bait chamber entryway to provide open communication between the pathway and the bait chamber other than at the bait chamber entryway. The at least one through-opening is sized substantially smaller than the housing entry opening and the bait chamber entryway to inhibit rodents against entering the bait chamber at the at least one through-opening. | 07-08-2010 |
20100319238 | RODENT MANAGEMENT SYSTEM - A rodent management station has a housing with an interior space and includes a base and a lid that define at least in part the interior space of the housing. The lid is positionable relative to the base between a closed configuration of the station in which the interior space is substantially enclosed, and an opened configuration of the station in which the interior space is accessible for servicing. The housing has an entry opening through which rodents enter the interior space of the housing. The lid includes a pair of spaced fins and the base includes a pair of spaced slots. Each of the slots are sized and configured for receiving one of the fins in the closed configuration of the station to thereby facilitate alignment of the lid with the base and to inhibit lateral movement of the lid with respect to the base. | 12-23-2010 |
20100322990 | METHODS FOR CONTROLLING PESTS - Ready-to-use foamable pesticide compositions that contain a particulate pesticide suspended therein and applicators for dispensing such compositions. Methods for treating pests such as arthropods by contacting pests with such compositions are also provided. | 12-23-2010 |
20110041383 | RODENT MANAGEMENT SYSTEM - A rodent management station includes a housing having a base and a lid that together at least in part define an interior space of the housing. The lid is positionable relative to the base between a closed configuration of the station in which the interior space is substantially enclosed, and an opened configuration of the station in which the interior space is accessible for servicing. The housing has an entry opening through which rodents enter the interior space of the housing. The rodent management station also includes at least one of a trap and a bait positionable within the interior space of the housing. The base includes a floor panel and an inner surface on which rodents move within the interior space. An upstanding rear wall extends upward relative to the floor panel about substantially less than the circumference of the floor panel. | 02-24-2011 |
20110203161 | HIGH PRESSURE INJECTION SYSTEM FOR APPLYING A PESTICIDE BENEATH THE SURFACE OF THE GROUND - A high pressure injection system for applying a pesticide includes a portable, handheld application tool and a manifold head connected to the application tool. The manifold head has at least one internal passage. At least one high pressure nozzle is positioned in the manifold head and in fluid communication with the at least one internal passage. The at least one high pressure nozzle is operable at pressures between about 25 psi and about 10,000 psi. A contact plate is mounted to the manifold head and has at least one opening aligned with the at least one high pressure nozzle. A source of pesticide is fluidly connected to the at least one high pressure nozzle. A discharge valve is moveable between a closed position wherein the pesticide is inhibited from flowing to the at least one high pressure nozzle and an opened position wherein pesticide flows to the at least one high pressure nozzle. | 08-25-2011 |
20110203162 | METHOD OF PESTICIDE TREATMENT OF SOIL ADJACENT STRUCTURES - A method of treating soil adjacent a structure generally includes positioning an injection apparatus over a first injection site generally adjacent a structure. The injection apparatus is operated to inject pesticide down into the soil at the first injection site without prior disturbance of the soil at the first injection site. The injection apparatus is moved over a second injection site at least in part different from the first injection site and generally adjacent the structure. The injection apparatus is operated to inject pesticide down into the soil at the second injection site and without prior disturbance of the soil at the second injection site. | 08-25-2011 |
20110203502 | INJECTION APPARATUS FOR INJECTING PESTICIDE - An injection apparatus for treating soil adjacent a structure includes a handle and a manifold head connected to the handle. The manifold head has a first high pressure nozzle, a second high pressure nozzle, and a contact member having at least one opening therein. The contact member is configured to rest on the ground surface during operation of the injection apparatus. The first high pressure nozzle is adapted for emitting a discharge stream of pesticide through the at least one opening in the contact member for injection of the pesticide into the soil. The discharge stream from the first high pressure nozzle is emitted in a first direction. The second high pressure nozzle is adapted for emitting a discharge stream of pesticide through the at least one opening in the contact member for injection of the pesticide into the soil. The discharge stream from the second high pressure nozzle is emitted in a second direction that is angled relative to the first direction of the discharge stream of pesticide emitted from the first high pressure nozzle. A supply of pesticide is in fluid communication with the first and second high pressure nozzles. | 08-25-2011 |
20110239528 | PEST CONTROL SYSTEM AND METHOD - In a system and method for at least one of monitoring and controlling pests, a container having an interior chamber, is located in an area in which pests are to be at least one of monitored and controlled. At least a portion of the container is constructed of an environmentally degradable plastic. At least one of a pest monitoring material and a pest bait material is disposed within the interior chamber of the container for at least one of monitoring and controlling pests. The container is inspected at least once prior to the end of a predetermined time period to determine whether pests are present within the container. The container is replaced, along with the at least one of the monitoring material and the bait material, no later than about six months beyond the predetermined period of time following placement of the container in the area. | 10-06-2011 |
20120085020 | PEST CONTROL APPARATUS AND SYSTEM HAVING AN ELECTROMAGNETIC ATTRACTING OR REPELLING DEVICE AND HOUSING THEREFOR - A transmitting device for use in a pest control station has an antenna and a housing sealingly enclosing the antenna therein. | 04-12-2012 |
20130012386 | Methods For Controlling Pests - Ready-to-use foamable pesticide compositions that contain a particulate pesticide suspended therein and applicators for dispensing such compositions. Methods for treating pests such as arthropods by contacting pests with such compositions are also provided. | 01-10-2013 |
20130174472 | Above-Ground Termite Station Having A Container And Method Of Mounting The Container - An above-ground termite station includes a container having a base, a side, and a lid together defining an interior space of the container. The side has at least two peripheral openings in spaced relationship with each other about a periphery of the container. Each of the peripheral openings is at least partially closed by a respective access closure that can be selectively removed to provide access to the interior space of the container through the peripheral opening. The container is mountable on an above-ground mounting surface with the base in generally opposed relationship with and abutting against the mounting surface. The lid is positionable between a closed position and an open position to permit access to the interior space of the container. A cartridge is sized and configured for insertion in and removal from the interior space of the container. | 07-11-2013 |
20130174473 | Above-Ground Termite Station - In an above-ground termite station for detecting and controlling termites above ground in an operating configuration of the termite station, a container of the termite station defines an interior space and is at least in part configured for abutting against and being mounted on an above-ground mounting surface. The container is configurable between a closed configuration and an open configuration in which the interior space of the container is accessible while the container is mounted on the mounting surface. A cartridge is sized and configured for insertion in and removal from the interior space of the container and is generally an aggregation member, a bait matrix separate from the aggregation member, and a holder at least in part holding the aggregation member and bait matrix in assembly with the holder for positioning of the cartridge relative to the interior space of the container as a single unit. | 07-11-2013 |
20130180439 | APPARATUS FOR INJECTING SOIL TREATMENTS - Apparatus for injecting soil treatment into soil includes a manifold head having at least one high pressure nozzle for injecting the soil treatment into the soil and a handle having a longitudinal axis and a lateral axis. The handle comprises an upper portion having two spaced-apart tubular shafts and a lower portion having two spaced-apart tubular shafts. The tubular shafts of the lower portion are connected to the tubular shafts of the upper portion. | 07-18-2013 |