Patent application number | Description | Published |
20090282993 | Design devices for applying a design to a surface - Compositions, methods, apparatuses, kits, and combinations are described for permanently or temporarily re-designing, decorating, and/or re-coloring a surface. In one embodiment, a stencil is provided that has an embossed top layer and a low-slip bottom layer that has a static coefficient of friction between about 0.2 to about 1.2 and/or a kinetic coefficient of friction that is between about 0.1 to about 1.1 as measured against another surface having the same bottom surface as the stencil. Compositions useful in the present disclosure include a décor product that is formulated to be applied and affixed to a surface. If desired, the décor product may be substantially removed from the surface before being affixed thereto. If a user desires to remove the décor product, the décor product is formulated to be removed by a number of methods including, for example, vacuuming, wet extraction, chemical application, and the like. If the user desires to affix the décor product to the surface in a permanent or semi-permanent manner, the décor product may be affixed to the surface by applying energy thereto in the form of, for example, heat, pressure, emitted waves, an emitted electrical field, a magnetic field, and/or a chemical. The décor product may also be utilized in the form of a kit or in conjunction with a design device, such as a stencil, to control the application of the décor product to create, for example, a pattern on the surface. | 11-19-2009 |
20110097506 | DEVICES FOR APPLYING A COLORANT TO A SURFACE - Compositions, methods, apparatuses, kits, and combinations are described for applying a colorant to a surface. The compositions useful in the present disclosure include a composition that is formulated to be applied and affixed to a surface. If desired, the composition may be substantially removed from the surface to remove a portion or substantially all of the stain before being affixed to the surface. If a user desires to remove the composition from the surface, the composition is formulated to be removed by a number of methods including, for example, vacuuming, wet extraction, chemical application, and the like. If the user desires to affix the composition to the surface in a permanent or semi-permanent manner, the composition may be affixed to the surface by applying energy thereto in the form of, for example, heat, pressure, emitted waves, an emitted electrical field, a magnetic field, and/or a chemical. The compositions may also be utilized in the form of a kit or in conjunction with a design device, such as a stencil, to control the application of the composition to create, for example, a pattern on the surface. | 04-28-2011 |
20110247653 | Disposable Bleaching Cleaning Pad - Disclosed are replaceable cleaning pads capable of delivering a bleaching agent and a detersive composition to surfaces being cleaned. The pads are constructed to retain bleach separate from detersive ingredients and certain other chemicals prior to use, yet permit rapid delivery of the combined chemicals to the surface being cleaned once the pad is wetted. Most preferably a detersive mixture is melt-anchored to the pad. In one form, the pad is a two layer pad, and in another form, the pad is a three layer pad. | 10-13-2011 |
20120006213 | DEVICES FOR APPLYING A DESIGN TO A SURFACE - Compositions, methods, apparatuses, kits, and combinations are described for permanently or temporarily re-designing, decorating, and/or re-coloring a surface. In one embodiment, a kit may include a stencil with a low-slip bottom layer and a colorant composition. Useful compositions include a décor product that is formulated to be applied and affixed to a surface. A décor product may be removed from the surface before being affixed thereto. Permanent or semi-permanent affixation of the décor product to the surface may be accomplished by applying heat, pressure, emitted waves, an emitted electrical field, a magnetic field, and/or a chemical. | 01-12-2012 |
20130337239 | DESIGN DEVICES FOR APPLYING A COLORANT TO A SURFACE - Compositions, methods, apparatuses, kits, and combinations are described for applying a colorant to a surface. Compositions are formulated to be applied and affixed to a surface. The compositions may be substantially removed from the surface to remove a portion or substantially all of a stain before being affixed to the surface. The compositions are formulated to be removed by a number of methods including, for example, vacuuming, wet extraction, chemical application, and the like. Compositions may be permanently or semi-permanently affixed to the surface by applying energy thereto in the form of, for example, heat, pressure, emitted waves, an emitted electrical field, a magnetic field, and/or a chemical. The compositions may also be utilized in the form of a kit or in conjunction with a design device, such as a stencil, to control the application of the composition to create, for example, a pattern on the surface. | 12-19-2013 |
Patent application number | Description | Published |
20110226521 | ELECTRICAL CONNECTOR ASSEMBLY WITH EMI GASKET - An electrical connector assembly includes an electrically conductive cage having a cage end configured for mounting in a panel opening. The cage has a compartment for receiving a pluggable electrical component therein. The cage end has a circumference defined by an exterior surface of the cage. A retention frame extends over the cage end along at least a portion of the circumference. The retention frame includes a gasket side and a rear side. A retention opening extends through the gasket and rear sides of the retention frame. An EMI gasket is mounted on the cage end. The EMI gasket includes a length of electrically conductive cord having opposite cord ends. The cord is wrapped externally around the cage end forming a continuous band that engages the exterior surface of the cage along at least a portion of the circumference. The cord extends along and engages the gasket side of the retention frame and the cord ends extend through the retention opening and along the rear side of the retention frame. | 09-22-2011 |
20120021641 | MOUNTING PLATE FOR MOUNTING AN ELECTRICAL CONNECTOR TO A CIRCUIT BOARD - An electrical connector is provided including a housing. A mounting plate is provided having a mounting surface configured to be mechanically coupled to a circuit board. An opening extends through the mounting plate. The opening has an interior contour shaped to slidably receive a post of the housing as the mounting plate is loaded onto the post until the mounting plate rests on a plate surface of the housing. An engagement feature is provided on the mounting plate. The engagement feature secures the mounting plate to the housing. The engagement feature displaces a plate securing portion formed on the housing to secure the mounting plate to the housing with an interference fit. | 01-26-2012 |
20120264336 | ELECTRICAL CONNECTORS AND RECEPTACLE ASSEMBLIES HAVING RETENTION INSERTS - An electrical connector including a connector housing having opposite mating and loading faces and a mating axis extending therebetween. The connector housing has interior walls that oppose each other with a contact cavity therebetween. The electrical connector also includes a retention insert that is sized and shaped to be advanced through the loading face and positioned within the contact cavity. The retention insert has an outer engagement surface. The electrical connector also includes first and second rows of mating contacts that are separated by the retention insert. The contact cavity has a component-receiving region that exists between the first and second rows of mating contacts and is accessible through the mating face. The mating contacts of the first and second rows are oriented to extend lengthwise along the mating axis and are held between the engagement surface of the retention insert and respective interior walls. | 10-18-2012 |
20130090025 | ELECTRICAL CONTACT CONFIGURED TO IMPEDE CAPILLARY FLOW DURING PLATING - An electrical contact including an elongated contact body that has a compliant tail, a mating beam, and a channel section extending between the compliant tail and the mating beam. The channel section has a base wall and sidewalls that extend from the base wall. The base wall and the sidewalls extend around a central longitudinal axis to define a flow channel. The channel section includes a flow-limiting feature that is configured to impede capillary flow of a plating solution along the channel section from the compliant tail to the mating beam. | 04-11-2013 |
20130273791 | TUBULAR CONNECTION MEMBER WITH STAMPED THREADS ON ITS EXTERIOR - A connection member includes a tube extending a length along a central longitudinal axis. The tube includes a central passageway that extends through the length of the tube. The tube has a non-circular cross-sectional shape along the length of the tube. The tube includes an exterior side that defines a perimeter of the non-circular cross-sectional shape of the tube. Stamped threads are formed on the exterior side of the tube along at least a portion of the length of the tube. The stamped threads are discontinuous along the perimeter of the non-circular cross-sectional shape of the tube such that the stamped threads only extend along at least one portion of the perimeter of the non-circular cross-sectional shape of the tube. | 10-17-2013 |
20140349529 | POWER CONNECTOR HAVING OPPOSING CONTACT SPRINGS - Power connector including a pair of discrete contact springs configured to electrically engage a conductive component. Each of the contact springs includes a contact body having opposite inner and outer side surfaces and a contact edge that extends between the inner and outer side surfaces. The contact body is shaped to form a spring base and a mating portion. The spring bases of the contact springs are joined by a locking feature. The locking feature includes a localized portion of at least one of the spring bases. The localized portion frictionally engages the other spring base to interlock the spring bases. Each of the mating portions extends from the corresponding spring base. The mating portions are separated by a receiving space and are configured to engage the conductive component when the conductive component is inserted into the receiving space. | 11-27-2014 |