Crume, US
Bradley Crume, Lakewood, CO US
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20130153001 | SUPPORT INSERT FOR THIN FILM PHOTOVOLTAIC DEVICES AND THEIR METHODS OF MANUFACTURE - Photovoltaic devices are provided that include: a transparent substrate; a plurality of thin film layers on the glass substrate; and, a first lead connected to one of the photovoltaic cells. An encapsulation substrate is positioned on the plurality of thin film layers, and defines a connection aperture through which the first lead extends. The connection aperture has a perimeter defined by an aperture wall of the encapsulation substrate. A support insert is positioned within the connection aperture to mechanically support the transparent substrate in the area of the connection aperture. The support insert is configured such that the first lead is able to extend through the connection aperture while the support insert in place within the connection aperture. A kit is also provided that includes an encapsulation substrate defining a connection aperture; and, a support insert configured to be coupled within the connection aperture of the encapsulation substrate. | 06-20-2013 |
20130153002 | SUPPORT INSERT FOR THIN FILM PHOTOVOLTAIC DEVICES AND THEIR METHODS OF MANUFACTURE - Photovoltaic devices that include a transparent substrate; a plurality of thin film layers defining a plurality of photovoltaic cells connected in series to each other on the transparent substrate; a first lead connected to one of the photovoltaic cells; and an encapsulation substrate on the plurality of thin film layers are provided. The encapsulation substrate defines a connection aperture through which the first lead extends. A support insert, which defines a plug portion and a flange, can be positioned within the connection aperture such that the flange extends over the back surface of the encapsulation substrate. The support insert can be configured to mechanically support the transparent substrate in an area opposite to the connection aperture while still enabling the first lead to extend through the connection aperture while the support insert is in place within the connection aperture. | 06-20-2013 |
20130153003 | ADHESIVE PLUG FOR THIN FILM PHOTOVOLTAIC DEVICES AND THEIR METHODS OF MANUFACTURE - Photovoltaic devices are provided that include: a transparent substrate; a plurality of thin film layers on the glass substrate; and, a first lead connected to one of the photovoltaic cells. An encapsulation substrate can be positioned on the plurality of thin film layers, and defines a connection aperture through which the first lead extends. The connection aperture generally has a perimeter defined by an aperture wall of the encapsulation substrate. An adhesive plug can be positioned within the connection aperture to mechanically support the transparent substrate in the area of the connection aperture. A back plate or back washer can also be bonded to the adhesive plug and/or back surface of the encapsulation substrate to help dissipate energy in and/or provide support to the encapsulation substrate. Methods are also provided for mechanically supporting a transparent substrate in an area opposite to a connection aperture defined in an encapsulation substrate. | 06-20-2013 |
20130153029 | METHODS OF SUPPORTING A TRANSPARENT SUBSTRATE OF A THIN FILM PHOTOVOLTAIC DEVICE - Methods are generally provided for adhering a support insert within a connection aperture defined in an encapsulating substrate of a photovoltaic device that has a first lead. The connection aperture generally has a perimeter defined by an aperture wall of the encapsulating substrate. The method can, in one particular embodiment, include threading the first lead through the connection aperture; and positioning a support insert within the connection aperture such that the first lead is still able to extend through the connection aperture. The support insert can generally define a channel within its construction that extends from a channel opening in the support insert to an exit port. An adhesive composition can be injected into the channel opening such that a first amount of the adhesive composition flows through the channel and out of the exit port to bond the support insert within the connection aperture. | 06-20-2013 |
Bradley Robert Crume, Lakewood, CO US
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20140060621 | DIRECT CONNECTION OF LEAD BAR TO CONDUCTIVE RIBBON IN A THIN FILM PHOTOVOLTAIC DEVICE - Thin film photovoltaic devices that include at least one lead bar extending through a connection aperture defined in the encapsulation substrate are provided. The photovoltaic device can include: a transparent substrate; a plurality of photovoltaic cells on the transparent substrate; a first conductive ribbon electrically connected to a first photovoltaic cell; an encapsulation substrate laminated to the transparent substrate such that the plurality of photovoltaic cells and the conductive ribbon are positioned between the transparent substrate and the encapsulation substrate; and, a first lead bar extending through a first connection aperture defined in the encapsulation substrate. The first lead bar is electrically connected to the first conductive ribbon. For example, a meltable conductive material can be connected to the first lead bar and to the first conductive ribbon to establish an electrical connection therebetween. Methods are also provided for electrically connecting a lead to a thin film photovoltaic device. | 03-06-2014 |
20140060622 | DIRECT CONNECTION OF LEAD BAR TO CONDUCTIVE RIBBON IN A THIN FILM PHOTOVOLTAIC DEVICE - Thin film photovoltaic devices that include a direct connection to at least one lead bar extending through a connection aperture defined in the encapsulation substrate to electrically connect to an underlying conductive ribbon are provided. The photovoltaic device can include: a transparent substrate; a plurality of photovoltaic cells; a conductive ribbon electrically connected to a photovoltaic cell; an encapsulation substrate laminated to the transparent substrate such that the plurality of photovoltaic cells and the conductive ribbon are positioned between the transparent substrate and the encapsulation substrate; and a lead bar extending through a connection aperture defined in the encapsulation substrate and electrically connected to the conductive ribbon. The lead bar can define a lead tab that establishes a mechanical connection having a biasing force between the lead bar and the conductive ribbon. Methods are also provided for electrically connecting at least one lead to a thin film photovoltaic device. | 03-06-2014 |
Bruce A. Crume, Portage, MI US
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20140049027 | Air Bag Mounting Assembly and Methods - A knee air bag mounting system is provided that includes an air bag mount for a heavy truck-type vehicle. Such an air bag mount includes a front wall having an air bag aperture therein adapted for passage of an air bag module of the knee air bag system. The air bag mount also includes a first side wall extending away from the front wall, a second side wall extending away from the front wall in opposed-spaced relation to the first side wall, a top wall extending away from the front wall, and a bottom wall extending away from the front wall. A bracket structure is disposed within an interior space of the air bag mount and configured to provide a connection point for the air bag module. Each of the first and second side walls and top and bottom walls are free from direct connection to one another. | 02-20-2014 |
20140049068 | Break Away Dash Panel - A dash assembly for the occupant area of a vehicle including a stationary section, a moveable section, first interface and a second interface is provided. The moveable section includes at least one contact zone configured to be engaged by a driver's knee in the event of an accident to absorb forces from the driver's knee. The first interface is between the stationary section and the moveable section and secures the moveable section to the stationary section at a first location. The second interface is between the stationary section and the moveable section and secures the moveable section to the stationary section at a second location spaced away from the first location. The second interface is configured to release prior to the first interface upon sufficient forces being applied to the at least one contact zone during an accident. | 02-20-2014 |
Gregg William Crume, Canandaigua, NY US
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20120025432 | CERAMICS MANUFACTURE USING RAPIDLY HYDRATABLE CELLULOSIC BINDER - A method for making a ceramic body, the method including: mixing inorganic ceramic-forming ingredients to form a batch; adding a rapidly hydratable cellulosic binder and a liquid vehicle to the batch and further mixing to form a plasticized mixture; extruding the plasticized mixture to form a green body. The green body can then be heated sufficiently to produce a predominant ceramic phase, thereby transforming the green body into the ceramic body. | 02-02-2012 |
20120220444 | Ceramic Compositions for Improved Extrusion - A precursor batch composition that can be used to make porous ceramic articles is provided. The batch composition includes a polysaccharide gum. The batch composition may optionally include a linear water soluble polymer having a molecular weight of at least one million Daltons. | 08-30-2012 |
20120302421 | CERAMIC COMPOSITIONS FOR INCREASED BATCH FEED RATE - A precursor batch composition that can be used to make porous ceramic articles is provided. The batch composition includes a cellulose-based polymer and, in particular, a methylcellulose showing a specified micro-calorimetry thermal response fingerprint. The methylcellulose can also have a cloud point above a specified temperature. | 11-29-2012 |
Jeffrey L. Crume, Raleigh, NC US
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20130007859 | WEBSITE AUTHENTICATION - Embodiments of website authentication including receiving a request from a user to view a website within a graphical user interface (GUI); generating a one time password (OTP); storing the generated OTP in a database; displaying the generated OTP on the GUI; verifying an identity of the user by receiving an identification datum from a communication device; receiving an entered OTP from the user; comparing the entered OTP with the generated OTP; and communicating whether the website is authenticated. | 01-03-2013 |
Matthew Crume, Longview, WA US
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20110239656 | Water Augmentation System - An improved method of augmenting a marine-based turbine engine with water by using a single or a plurality of valves to control the intake and/or the distribution of the water to specific areas of the turbine. The system most commonly incorporates a variable water intake which can be closed or partially closed at higher vessel speeds where the advantages of the system begin to outweigh the benefits. In certain embodiments, a water tank is also used, which can store water for use when the intake system is suspended above the water surface due to wave variations. The improved water augmentation system is beneficial or not detrimental at all speed ranges of the marine vessel, utilizes a low profile water scoop while providing constant water injection, allows for the augmentation of the high temperature exhaust at slower speeds which can be beneficial for initial acceleration, minimizes or eliminates the drag of the injection system on the gaseous flow, offers control over the amount of augmentation, and offers a greater amount of water augmentation than previously known. | 10-06-2011 |