Patent application number | Description | Published |
20100046875 | Ball Bearing cage | 02-25-2010 |
20100142874 | HOUSING FOR BALL BEARING | 06-10-2010 |
20100195946 | COATED BEARING - The invention concerns a bearing assembly comprising an inner ring, an outer ring and rolling elements, the inner ring and outer ring being rotatably coupled by means of the rolling elements. The rolling elements are disposed on opposing raceways within a bearing cavity and are retained in a cage. The bearing is provided with a lubricant and further comprises at least one sealing element, mounted in an annular gap between the inner and outer ring. To prevent the lubricant adhering to predetermined surfaces within the bearing cavity which do not require lubrication, at least one of these predetermined surfaces is provided with an oleophobic coating. One advantage of the invention is that the lubricant ages less quickly, leading to improved bearing service life. | 08-05-2010 |
20150110427 | ROLLING BEARING ASSEMBLY HAVING MAGNETIC AND/OR ELECTRONIC ELEMENTS - A rolling bearing assembly includes an inner ring, an outer ring, at least one row of rolling elements disposed between raceways provided on the inner and outer rings, and an annular housing having at least one of the rings is arranged. The one ring includes two half ring parts, each half ring part having a radial portion and an inner and an outer axial cylindrical portions extending from the radial portion towards the outside. The inner axial cylindrical portion extend from the radial portion by a toroidal portion defining the raceway, each of the two half ring parts, defining with the annular housing, a closed space. A closed space or spaces can store lubricant and a passageway through at least one half ring part enables lubricant to pass from the closed space to the raceways. A magnetic and/or an electronic element is mounted inside at least one closed space. | 04-23-2015 |
20150323010 | MECHANICAL SYSTEM EQUIPPED WITH ACTIVE MICROCAPSULES FOR CONDITION MONITORING - A mechanical system comprising at least one moving component and a lubricant. The mechanical system also comprises a plurality of at least one type of microcapsule consisting of a shell, which, under the effect of a variation of a given characteristic physical parameter of the mechanical system, is capable of releasing particles. The dispersion of the particles is identifiable by a system located external to the mechanical system. | 11-12-2015 |
20160061264 | BEARING - A rolling element bearing comprising inner and outer rings; a plurality of rolling elements disposed between opposing surfaces of the inner and outer rings; and a bearing shield comprising a first member having an annular surface facing the plurality of rolling elements, the first member either (1) extending from the inner ring towards the outer ring (defining a gap between the first member and the outer ring) and the inner ring having a low surface energy surface adjacent the gap, or (2) extending from the outer ring towards the inner ring (defining a gap between the first member and the inner ring) and the inner ring comprises a low energy surface adjacent the gap. The low energy surfaces each have a surface energy of ≦0.028 N/m. | 03-03-2016 |
Patent application number | Description | Published |
20080240810 | Image Forming Apparatus Component With Triboelectric Properties - The present disclosure relates to an image forming device component that includes an elastomeric material having a surface and a triboelectric charging material that may be exposed on the elastomeric material surface. The triboelectric material may be exposed by a finishing process that results in removal of a portion of the material leaving voids in the surface. The surface may have a surface roughness in the range of about 0.1 to 5.0 Ra. The component may include a developer roller in an electrophotograhic printer and may provide contact electrification to a given toner during a printing operation. | 10-02-2008 |
20100154978 | Toner Adder Brush Roller and Method for Controlled Installation of Brush Filament Population - A method for controlled installation of a brush filament population on a shaft for making a toner adder brush roller includes applying a layer of adhesive over a surface of a roller shaft, applying a template over at least a portion of the shaft surface, and flocking a multiplicity of filaments on the shaft surface to provide a brush on the roller shaft having a filament population controlled by the application of the template. The method also includes removing the template from the shaft surface after flocking the multiplicity of filaments such that a set of filaments less than the multiplicity of filaments is removed with the template. The method further includes flocking additional filaments on the portion of the shaft surface after removing the template from the portion of the shaft surface, the additional filaments differs from said previously flocked filaments in one of material, length, denier, or combinations of the foregoing. | 06-24-2010 |
20130009447 | TONER ADDER BRUSH ROLLER AND METHOD FOR CONTROLLED INSTALLATION OF BRUSH FILAMENT POPULATION - A method for controlled installation of a brush filament population on a shaft for making a toner adder brush roller includes applying a layer of adhesive over a surface of a roller shaft, applying a template over at least a portion of the shaft surface, and flocking a multiplicity of filaments on the shaft surface to provide a brush on the roller shaft having a filament population controlled by the application of the template. The method also includes removing the template from the shaft surface after flocking the multiplicity of filaments such that a set of filaments less than the multiplicity of filaments is removed with the template. The method further includes flocking additional filaments on the portion of the shaft surface after removing the template from the portion of the shaft surface, the additional filaments differs from said previously flocked filaments in one of material, length, denier, or combinations of the foregoing. | 01-10-2013 |
20140037320 | ROLLER HAVING MULTIPLE WRAPPED STRIPS - A roller according to one example embodiment includes a rotatable shaft and a plurality of strips wrapped around the shaft in an alternating relationship. The strips differ from each other in at least one of material, height and width. In one embodiment, the strips are spirally wrapped around the shaft. Each strip may be formed, for example, from a foam material, a felt material or a brush material. | 02-06-2014 |
Patent application number | Description | Published |
20120073482 | Centrally Controlled Safe Management System - A cash management system utilizes a cloud computing model wherein a cloud of one or more servers may be locally networked or may be geographically dispersed and accessed by the client device over the Internet. The client device is a cash management safe. More than one safe may be employed in a system. Metrics, control functions, and interactions normally handled by an autonomous safe are shunted directly to a cloud server on the network. Usage data, currency validations, coin validations, security entries, etc. are communicated to the cloud server. The cloud server(s), based on database information and software settings, can transmit configuration, updates and information to remote safes. The information transmitted may include user configuration, access rules, currency configuration, alert configuration, and software and firmware updates. The cloud server based cash management system allows the entire cash management of an enterprise to be provided as a service to that enterprise. | 03-29-2012 |
20150211283 | CENTRALLY CONTROLLED SAFE MANAGEMENT SYSTEM - A cash management system utilizes a cloud computing model wherein a cloud of one or more servers may be locally networked or may be geographically dispersed and accessed by the client device over the Internet. The client device is a cash management safe. More than one safe may be employed in a system. Metrics, control functions, and interactions normally handled by an autonomous safe are shunted directly to a cloud server on the network. Usage data, currency validations, coin validations, security entries, etc. are communicated to the cloud server. The cloud server(s), based on database information and software settings, can transmit configuration, updates and information to remote safes. The information transmitted may include user configuration, access rules, currency configuration, alert configuration, and software and firmware updates. The cloud server based cash management system allows the entire cash management of an enterprise to be provided as a service to that enterprise. | 07-30-2015 |
Patent application number | Description | Published |
20120024349 | INTRA-LAMINATE DISK LAYER FOR THIN FILM PHOTOVOLTAIC DEVICES AND THEIR METHODS OF MANUFACTURE - Photovoltaic devices including an insulating layer and an intra-laminate disk layer on a plurality of thin film layers are provided. A first conductive strip, defining a first lead, is positioned on the insulating layer and connected to a first bus bar. A second conductive strip is positioned on the insulating layer and connected to a second bus bar. An adhesive layer is over the device and defines an adhesive gap through which the first lead and the second lead extend. An encapsulating substrate is on the adhesive layer, and defines a connection aperture through which the first lead and the second lead extend. The intra-laminate disk layer is positioned under the adhesive gap defined by the adhesive layer and the connection aperture defined by the encapsulating substrate. | 02-02-2012 |
20130133712 | Three Terminal Thin Film Photovoltaic Module and Their Methods of Manufacture - Thin film photovoltaic devices are generally provided having three terminals. In one embodiment, the thin film photovoltaic device can include a first submodule defined by a first plurality of photovoltaic cells between a first dead cell and a first terminal cell; a second submodule defined by a second plurality of photovoltaic cells between a second dead cell and a second terminal cell; and a joint bus bar electrically connected to the first dead cell and the second dead cell. The first dead cell is adjacent to the second dead cell, with the first dead cell being separated from the second dead cell via a separation scribe. Methods are also generally provided for forming a thin film photovoltaic device. | 05-30-2013 |
20130133713 | Three Terminal Thin Film Photovoltaic Module and Their Methods of Manufacture - Thin film photovoltaic devices including a first submodule and a second submodule are provided. In the device, a common insulation layer can be positioned over first submodule to extend from a joint bus bar to a first bus bar. A first lead can be electrically connected to the first bus bar, and a second lead can be electrically connected to the joint bus bar. A linking insulation layer can be positioned over the first submodule, the second submodule, and the joint bus bar such that the linking insulation layer extends from the first bus bar to the second bus bar. A conductive link can be electrically connected to the first bus bar and the second bus bar, but electrically isolated from the joint bus bar. Methods are also provided for forming a pair of electrical leads on a thin film photovoltaic device | 05-30-2013 |
20130133714 | Three Terminal Thin Film Photovoltaic Module and Their Methods of Manufacture - Thin film photovoltaic devices are provided that include a first submodule and a second submodule. An insulation layer can be positioned over first submodule and second submodule such that the insulation layer extends from a first bus bar to a second bus bar. A conductive link can be positioned on the insulation layer and electrically connected to the first bus bar and the second bus bar. An encapsulation substrate can be positioned over the first submodule and the second submodule. A first prong can extend through a first aperture defined in the encapsulation substrate to contact the conductive link to establish an electrical connection thereto, and a second prong can extend through a second aperture defined in the encapsulation substrate to contact the joint bus bar to establish an electrical connection thereto. Methods are also provided for forming a pair of electrical leads on a thin film photovoltaic device | 05-30-2013 |
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 |
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 |
20140216547 | OVERSIZED BACK PANEL FOR PHOTOVOLTAIC DEVICES - Thin film photovoltaic devices including a transparent substrate defining a front surface area; a photovoltaic thin film stack on the transparent substrate; and, a back panel defining a rear surface area are provided. The photovoltaic thin film stack is positioned between the transparent substrate and the back panel. The front surface area can be less than the rear surface area (e.g., about 90% to about 99.9% of the rear surface area). As such, the back panel can extend farther than the transparent substrate along at least one edge of the device. An encapsulant layer defining an encapsulant surface area can be positioned between the photovoltaic thin film stack and the back panel. The encapsulant surface area can be greater than or equal to the front surface area or can be less than or equal to the rear surface area. | 08-07-2014 |