Patent application number | Description | Published |
20120174469 | RODENT STATION - A rodent station for capturing or trapping mice, rats or other rodents may provide one or more rodent entry points and is sized to receive one or more rodent suppression devices, such as conventional snap traps, ramp traps, glue boards, etc. The rodent station may present a high contrast entrance that is relatively darker than the station enclosure. The station opening size may be adjustable to accommodate both mice and/or rats. An interior receptacle for station maintenance records or other printed material may also be included. | 07-12-2012 |
20120317868 | FLYING INSECT ATTRACTION STATION - A flying insect station for attracting and killing insects on the exterior and interior of a structure is disclosed. The flying insect station includes features for attracting and killing files within a shortened window of time, preferably within one hour. The station includes in one aspect a surface being substantially dark in color and substantially reflective in nature to provide a facade of an opening. Suppression means such as a pesticide is included on one or more of the surfaces of the station for killing flying insects staging on the surface(s). An attractant may be used to provide a plume of attractant around surfaces of the housing to attract and lure flying insects to stage about a reflective surface. | 12-20-2012 |
20120317869 | FLYING INSECT ATTRACTION STATION - A flying insect station for attracting and killing insects on the exterior and interior of a structure is disclosed. The flying insect station includes features for attracting and killing files within a shortened window of time, preferably within one hour. The station includes in one aspect a surface being substantially dark in color and substantially reflective in nature to provide a facade of an opening. Suppression means such as a pesticide is included on one or more of the surfaces of the station for killing flying insects staging on the surface(s). An attractant may be used to provide a plume of attractant around surfaces of the housing to attract and lure flying insects to stage about a reflective surface. Increased catch rates for insect suppression devices are realized when used in combination with embodiments of the station. | 12-20-2012 |
20150237842 | BED BUG TRAP AND MONITOR - A trapping device and method for capturing and monitoring the existence and behavior of crawling insects, such as bed bugs, is provided. The trapping device has a textured two-dimensional surface with one or more triangular entrance areas, where one of the triangular sections functions as a base, one or more wing sections, connected to either one the base or to another wing section by a neck; and a collecting area connected to one or more wing sections by a bridge. The trapping device can further include a support structure, and can be enclosed in a case with one or more entrances. The trapping device can also comprise a catching area that can optionally include an adhesive for immobilizing the insects. | 08-27-2015 |
Patent application number | Description | Published |
20090054926 | EXTRA-VASCULAR SEALING DEVICE AND METHOD - Various embodiments of a device are shown and disclosed for closing a vascular access puncture site following percutaneous diagnostic or therapeutic interventional procedures. In one embodiment, the closure device includes a vessel locating member, an anchor and a sealing material. The closure device may be configured to deploy the anchor and the sealing material outside of a hole in a blood vessel to close the hole. The vessel locating member may be used to locate the blood vessel to ensure that the anchor and/or the sealing material are properly placed adjacent to the hole. The closure device may also include a tamper member configured to push or tamp the sealing material against the anchor. The closure device may also include a suture that is used to hold the sealing material and the anchor together adjacent to the hole in the blood vessel. | 02-26-2009 |
20090171282 | VASCUAR CLOSURE DEVICE HAVING A FLOWABLE SEALING MATERIAL - Various embodiments of a device are shown and disclosed for closing a vascular access puncture site following percutaneous diagnostic or therapeutic interventional procedures. The vascular closure device is configured to safely and accurately deploy a sealing material that undergoes a phase change when deployed inside the tissue tract. The sealing material may be a solid at room temperature and a liquid or gel at body temperature. Also, the sealing material may change from a liquid or gel to a cubic phase when it comes into contact with bodily fluids. | 07-02-2009 |
20090171387 | VASCULAR CLOSURE DEVICE HAVING AN IMPROVED PLUG - Various embodiments of a device are shown and disclosed for closing a vascular access puncture site following percutaneous diagnostic or therapeutic interventional procedures. The vascular closure device includes an improved plug that is configured to be positioned adjacent to the hole in the vasculature. The plug may be shaped to prevent the plug from moving away from the hole in the blood vessel due to pulsatile pressure from the blood. In one embodiment, the plug may include a plurality of projections that extend outward from the plug and contact surrounding tissue in the tissue puncture tract to prevent the plug from moving away from the hole in the blood vessel. | 07-02-2009 |
20130006299 | VASCULAR CLOSURE DEVICE HAVING A FLOWABLE SEALING MATERIAL - Various embodiments of a device are shown and disclosed for closing a vascular access puncture site following percutaneous diagnostic or therapeutic interventional procedures. The vascular closure device is configured to safely and accurately deploy a sealing material that undergoes a phase change when deployed inside the tissue tract. The sealing material may be a solid at room temperature and a liquid or gel at body temperature. Also, the sealing material may change from a liquid or gel to a cubic phase when it comes into contact with bodily fluids. | 01-03-2013 |
Patent application number | Description | Published |
20130219041 | EXTENSIBLE PROTOCOL FOR LOW MEMORY AGENT - A tamper resistant servicing Agent for providing various services (e.g., data delete, firewall protection, data encryption, location tracking, message notification, and updating software) comprises multiple functional modules, including a loader module (CLM) that loads and gains control during POST, independent of the OS, an Adaptive Installer Module (AIM), and a Communications Driver Agent (CDA). Once control is handed to the CLM, it loads the AIM, which in turn locates, validates, decompresses and adapts the CDA for the detected OS environment. The CDA exists in two forms, a mini CDA that determines whether a full or current CDA is located somewhere on the device, and if not, to load the full-function CDA from a network; and a full-function CDA that is responsible for all communications between the device and the monitoring server. The servicing functions can be controlled by a remote server. | 08-22-2013 |
20140082746 | EXTENSIBLE PROTOCOL FOR LOW MEMORY AGENT - A tamper resistant servicing Agent for providing various services (e.g., data delete, firewall protection, data encryption, location tracking, message notification, and updating software) comprises multiple functional modules, including a loader module (CLM) that loads and gains control during POST, independent of the OS, an Adaptive Installer Module (AIM), and a Communications Driver Agent (CDA). Once control is handed to the CLM, it loads the AIM, which in turn locates, validates, decompresses and adapts the CDA for the detected OS environment. The CDA exists in two forms, a mini CDA that determines whether a full or current CDA is located somewhere on the device, and if not, to load the full-function CDA from a network; and a full-function CDA that is responsible for all communications between the device and the monitoring server. The servicing functions can be controlled by a remote server. | 03-20-2014 |
20140298485 | PERSISTENT AGENT SUPPORTED BY PROCESSOR - A tamper resistant servicing Agent for providing various services (e.g., data delete, firewall protection, data encryption, location tracking, message notification, and updating software) comprises multiple functional modules, including a loader module (CLM) that loads and gains control during POST, independent of the OS, an Adaptive Installer Module (AIM), and a Communications Driver Agent (CDA). Once control is handed to the CLM, it loads the AIM, which in turn locates, validates, decompresses and adapts the CDA for the detected OS environment. The CDA exists in two forms, a mini CDA that determines whether a full or current CDA is located somewhere on the device, and if not, to load the full-function CDA from a network; and a full-function CDA that is responsible for all communications between the device and the monitoring server. The servicing functions can be controlled by a remote server. | 10-02-2014 |
Patent application number | Description | Published |
20120184175 | CUP-SHAPED BALLOON HOLDER WITH STICK - An improved balloon cup for mounting and supporting a balloon with the valve tail on a stick includes a frustoconical top for supporting and holding a balloon with a first depending slot therethrough for passing the balloon tail therethrough. A stem depends from the top with an open inner channel circular in cross section extending the length of the stem. The channel is in open communication with the slot through an elongated channel opening for receiving the balloon tail therethrough. After the balloon tail is placed within the inner channel, the stick is transversely placed into the circular inner channel through the elongate channel opening and the stick and balloon tail are held in place by opposing bias flanges along the elongate channel opening. | 07-19-2012 |
20120184176 | AEROSTATS WITH LINEAR/NON-LINEAR GAS FILLED CONNECTING LADDER STRUCTURES - A gas-inflatable character aerostat or balloon with at least one gas-inflatable appendage comprising a linear and non-linear gas-inflatable connecting ladder structure connecting the gas-inflatable appendage to the gas-inflatable aerostat to permit free movement of the appendage in relation to the aerostat in three dimensions. The ladder structure includes two sheets of elongate polymeric material fused together with the ladder structure to be inflated with gas between the sheets. The ladder structure includes an elongate gas-inflatable main channel and gas-inflatable lateral extensions extending from and in flow communication with the main channel. | 07-19-2012 |
20120186508 | BALLOON FILL GAUGE - A balloon fill gauge for a balloon made of elastomeric expanding material has a base sheet with balloon filling indicia thereon that is temporarily tackable on to the balloon face material. An indicator tab with two ends having one end temporarily tackable onto the balloon material has its other end slideably interlockable with the base sheet. An indicator mark on the tab is alignable with the balloon filling indicia to indicate when the balloon is full as the tacked base sheet and tacked indicator tab move apart during the filling of the balloon. The balloon fill gauge alternatively may have an elongate non-stretchable indicator tab having two ends tackable onto the balloon material which physically acts to visual indicate when the balloon is full by snapping in two, popping off the balloon or changing color. Alternatively, the balloon filler gauge may include a base sheet with a balloon filling indicia temporarily tackable onto the balloon which is indexed with an expansible indicator ink mark on the balloon alignable with the filling indicia to indicate upon expansion of the ink mark when the balloon is full or the ink otherwise changes color. | 07-26-2012 |
20120228457 | BALLOON HOLDER WITH LOCKING FINGERS - A balloon holder includes a stem for locking a balloon tail in place. The stem includes an inner channel for receiving the balloon tail. The inner channel is located between side walls of the stem, and pairs of locking fingers extend from the side walls into the inner channel. The application of a deforming force to the locking fingers causes the locking fingers to bend, thereby allowing the balloon tail to enter the inner channel. When the deforming force is removed the locking fingers return to a substantially planar state, thereby locking the balloon tail in place within the inner channel. | 09-13-2012 |