Patent application number | Description | Published |
20080250662 | Level Tool - A level tool comprising a body including at least one vial opening that defines a bore surface and a vial positioned at least partially within the at least one vial opening and directly supported by the body, wherein the bore surface is configured to enhance the visibility of the vial and the bore surface comprises a reflective surface finish. | 10-16-2008 |
20080271331 | Clamping Level Tool - A level tool comprising a body and a clamping portion disposed at one end of the body. The clamping portion includes a first arm having a plurality of spaced-apart contact surfaces and a second arm having a fastening member. The first and second arms define an opening for receiving a portion of a workpiece. The plurality of spaced-apart contact surfaces and the fastening member cooperate to releasably clamp the portion of the workpiece received in the opening. | 11-06-2008 |
20080282562 | Composite Level Tool - A level tool comprising a body including a frame and a pair of plastic cover plates arranged on opposite sides of the frame. Each cover plate comprises at least one vial window that is integrally molded with the cover plate and is made of a plastic material of a different color than the cover plate. The level tool also comprising at least one vial supported by the body in the at least one vial window. | 11-20-2008 |
20100205814 | LEVEL TOOL - A level tool has a body including a vial opening, a vial positioned at least partially within the vial opening, a passageway formed in the body such that the passageway intersects the vial opening and is axially aligned with the vial, and a plug positioned within the passageway to secure the vial, the plug being pre-formed at one end thereof to generally conform to a cross-sectional profile of a wall of the body. | 08-19-2010 |
20110079938 | COMPOSITE LEVEL TOOL - A method of manufacturing a level tool is presented. The method includes providing a frame, providing a pair of plastic cover plates arranged on opposite sides of the frame, and forming at least one vial window in each cover plate by a dual plastic injection molding process, wherein the at least one vial window is made of a plastic material of a different color than the cover plate and is configured to receive and support at least a portion of a vial. | 04-07-2011 |
20110265339 | LIGHTED LEVEL TOOL - A lighted level tool comprising a body including at least one vial opening, a vial disposed at least partially within the at least one vial opening, a light source for illuminating the vial, an insert member mounted at a predetermined location in the body relative to the at least one vial opening, and at least one an end cap mounted at an end of the body. The insert member is configured to receive the vial therein and to hold the light source opposite an end of the vial. A control circuit for powering the light source is mounted in the at least one end cap. | 11-03-2011 |
Patent application number | Description | Published |
20080291522 | EXTERIOR REFLECTIVE MIRROR ELEMENT FOR A VEHICLE REARVIEW MIRROR ASSEMBLY - An exterior reflective mirror element suitable for a vehicle includes a transparent glass substrate having a reflector and a visual indicator display disposed to the rear of the substrate. The visual indicator display may be part of a blind spot detection and display system of the vehicle wherein the visual indicator display is actuated to emit light responsive to a detection by a blind spot detection detector of the equipped vehicle of an overtaking vehicle in a side lane adjacent the side of the equipped vehicle. The visual indicator display includes at least a first indicator at a first location to the rear of the exterior reflective mirror element. A first portion of the reflector may be at least partially removed at the first location in order to establish an at least partially transmissive first portion of the exterior reflective mirror element at the first location. | 11-27-2008 |
20100053723 | EXTERIOR REFLECTIVE MIRROR ELEMENT FOR A VEHICULAR REARVIEW MIRROR ASSEMBLY - An exterior reflective mirror element suitable for a vehicle includes a transparent glass substrate having a reflector and a visual indicator display disposed to the rear of the substrate. The visual indicator display may be part of a blind spot detection and display system of the vehicle wherein the visual indicator display is actuated to emit light responsive to a detection by a blind spot detection detector of the equipped vehicle of an overtaking vehicle in a side lane adjacent the side of the equipped vehicle. The visual indicator display includes at least a first indicator at a first location to the rear of the exterior reflective mirror element. A first portion of the reflector may be at least partially removed at the first location in order to establish an at least partially transmissive first portion of the exterior reflective mirror element at the first location. | 03-04-2010 |
20100110523 | AUTOMOTIVE REARVIEW MIRROR ASSEMBLY - An automotive rearview mirror assembly includes an electrochromic reflective element having a transparent electrical conductor disposed at a second surface of a first substrate and a mirror reflector disposed at a third surface of a second substrate. The mirror assembly includes electrochromic mirror dimming circuitry for controlling dimming of the electrochromic medium. The mirror assembly may include one or more features and at least one of the features may share a component with the electrochromic mirror dimming circuitry and/or share circuitry with the electrochromic mirror dimming circuitry. The mirror assembly may include a video camera and/or an on-demand display viewable through the mirror reflector by the driver of the equipped vehicle when displaying information and substantially non-viewable by the driver of the equipped vehicle when not displaying information. | 05-06-2010 |
20110045172 | METHOD OF FORMING A MIRRORED BENT CUT GLASS SHAPE FOR VEHICULAR EXTERIOR REARVIEW MIRROR ASSEMBLY - A method of forming a mirrored bent cut glass shape includes bending a flat sheet of glass to establish a curved sheet of glass. A machine vision system determines a surface profile of the curved sheet of glass, and a computer numerical controlled cutting tool is positioned at the curved sheet of glass and its cutting wheel is maintained at or close to 90 degrees to the tangential plane of the curved sheet of glass. At least one of (a) the cutting wheel and (b) the curved sheet of glass is controlled in three dimensions to cut a bent cut glass shape from the curved sheet of glass, and such controlling is, at least in part, responsive to the surface profile of the curved sheet of glass. A mirror reflector is established at a surface of the bent cut glass shape to form a mirrored bent cut glass shape. | 02-24-2011 |
20120206790 | ELECTROCHROMIC MIRROR REFLECTIVE ELEMENT FOR VEHICULAR REARVIEW MIRROR ASSEMBLY - An electrochromic mirror reflective element suitable for use in a rearview mirror assembly of a vehicle includes first and second substrates having an electrochromic medium disposed therebetween and bounded by a perimeter seal. A perimeter coating is disposed at a second surface of the first substrate proximate at least a perimeter portion of the first substrate. The perimeter coating generally conceals the perimeter seal from view by a person viewing a first surface of the first substrate and through the first substrate. An at least partially reflective stack of thin films is disposed at least a portion of a third surface of the second substrate. The perimeter seal is at least partially visible to a person viewing a fourth surface of the second substrate and through the second substrate. | 08-16-2012 |
20130063802 | VARIABLE TRANSMISSION WINDOW - A variable transmission window includes a first substrate having a first transparent conductor coated surface and a second substrate having a second transparent conductor coated surface. The second substrate is positioned relative to the first substrate with the first and second transparent conductor coated surfaces facing each other. An electrochromic medium is disposed between the first and second substrates whereby the transmission of light through the electrochromic medium is changed when an electrical potential is applied thereto. The electrochromic medium includes a cross-linked film. The window may be one of (i) an aeronautical glazing and (ii) a vehicle glazing, and/or the window may be a large area glazing of an area of at least 99 square inches. | 03-14-2013 |