| Patent application number | Description | Published |
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| 20110211782 | Bearing Arrangement - A bearing assembly comprises at least two adjacently-disposed bearings. Each bearing includes a bearing outer ring having a cylindrical outer circumferential surface. A bearing support retains the at least two bearings such that respective rotational axes of the at least two bearings extend in parallel. A spacer has at least two cylindrical openings configured to receive the respective cylindrical outer circumferential surfaces of the bearing outer rings such that a circumferential inner surface of each opening covers at least a portion of a width of the bearing outer ring received therein and surrounds an entire circumference of the bearing outer ring received therein. The bearing support is not fixedly connected to the spacer. | 09-01-2011 |
| 20110222808 | Bearing Support - A bearing support is configured to retain at least two bearings disposed closely adjacent to each other in a parallel relationship. Each bearing includes a bearing outer ring having a cylindrical outer circumferential surface. The bearing support comprises at least first and second portions that are connected together. The first portion is formed as a component that has cylindrical openings configured to receive or seat the respective bearing outer rings and to surround the entire circumference of the respective bearing outer ring. The second portion is formed as a support plate. A bearing assembly includes the bearing support with a bearing seated in each of the respective cylindrical openings. | 09-15-2011 |
| 20110222809 | Bearing Support - A bearing support is configured to retain at least two bearings disposed closely adjacent to each other in a parallel relationship. Each bearing includes a bearing outer ring having a cylindrical outer circumferential surface. A support part includes a recess configured to hold the at least two bearings. At least one junction portion is defined in the support part adjacent portions of the cylindrical circumferential surfaces of the bearings that are not filled by the bearings when the bearings are inserted into the support part. The support part is connected with a cover part that axially abuts on the bearings. The cover part includes at least one support element, which extends into the junction portion between the bearings in the assembled state of the bearing support and at least partially fills the junction portion. | 09-15-2011 |
| 20120308170 | BEARING ARRANGEMENT - A bearing assembly comprises at least one bearing that includes at least one outer ring having a recess at at least one circumferential position. A bearing support has at least one receptacle that receives the at least one outer ring. At least one engagement element is disposed on or in the bearing support and engages in the recess in an interference-fit manner to prevent the rotation of the outer ring relative to the bearing support. | 12-06-2012 |
| 20120314986 | BEARING ARRANGEMENT - A bearing assembly includes a bearing support having at least one bearing and at least one receptacle for at least one outer ring of the at least one bearing. The outer ring of the bearing has at least one annular groove, into which a snap ring is inserted relative to the bearing support in order to axially fix the outer ring. At least one alignment element is disposed on or in the bearing support. The snap ring is retained by alignment element relative to the bearing support at a defined angle relative to the rotational axis of the bearing. | 12-13-2012 |
| 20130034321 | SPLIT BEARING CAGE FOR ROLLING ELEMENT BEARING - A bearing cage for a rolling-element bearing includes first and second axially spaced-apart side rings extending in a circumferential direction, each side ring being split in the circumferential direction along a line of separation, thereby defining mutually-opposing bordering surfaces on first and second bearing cage sections. A first projection and a corresponding first opening are disposed on or in the mutually-opposing bordering surfaces of the first and second bearing cage sections. The first projection is insertable into the first opening in the circumferential direction to fix the bearing cage sections in at least a first direction. A second projection and a corresponding second opening are disposed on or in radially-extending, mutually-opposing bordering surfaces of the first projection and first opening. The second projection and second opening fix the bearing cage sections to each other in at least two additional directions, which are each perpendicular to the first direction. | 02-07-2013 |
| 20140064652 | BEARING SUPPORT - A bearing support is configured to retain at least two bearings disposed closely adjacent to each other in a parallel relationship. Each bearing includes a bearing outer ring having a cylindrical outer circumferential surface. A support part includes a recess configured to hold the at least two bearings. At least one junction portion is defined in the support part adjacent portions of the cylindrical circumferential surfaces of the bearings that are not filled by the bearings when the bearings are inserted into the support part. The support part is connected with a cover part that axially abuts on the bearings. The cover part includes at least one support element that extends into the junction portion between the bearings in the assembled state of the bearing support and at least partially fills the junction portion. | 03-06-2014 |
| Patent application number | Description | Published |
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| 20120150377 | ELECTRIC MOTORIZED BICYCLE COMPONENTS AND A WIRELESS CONTROL SYSTEM INCLUDING SUCH - An electric power assist system for use with a pedal vehicle. The system has (a) an electric motorized wheel ( | 06-14-2012 |
| 20120172684 | HEART RATE MONITOR - A heart rate monitor includes a user system adjacent to a user's skin in communication with a remote processing system. The user system includes a user processor, a user memory coupled to the user processor, a clock signal generator coupled to the processor, a sensing system coupled to the processor for measuring at least a user heart rate, a user transceiver coupled to the processor, a user interface coupled to the processor, and a user antenna coupled to the transceiver. A user battery is coupled to the user processor, the user memory, the clock signal generator, the sensing system, and the user transceiver. The remote processing system includes a remote processor, a remote memory coupled to the remote processor, a remote transceiver coupled to the remote processor, and a remote antenna coupled to the remote transceiver. | 07-05-2012 |
| 20140117780 | WIRELESS COMMUNICATION-ENABLED ENERGY CONSUMPTION MONITOR AND MOBILE APPLICATION FOR SAME - A device and method including: an energy consumption sensor; a wireless communications component adapted for wireless communication; a processing unit, adapted to receive energy consumption data from the energy consumption sensor and transmit the energy consumption data via the wireless communications component; and a switch having: a closed state coupling the input end of the device to the output end of the device, and an open state, disconnecting the input end of the device from the output end of the device. | 05-01-2014 |
| 20140135041 | LOCATOR BEACON AND RADAR APPLICATION FOR MOBILE DEVICE - A locator device and system including (a) a beacon, configured to be located via a wireless means; and (b) an adhesive means, adapted to adhere the beacon to a substantially flat surface, wherein the beacon is configured to be tracked by a mobile device running a mobile application adapted to locate the beacon via the wireless means. | 05-15-2014 |
| 20140135042 | Locator Beacon and Radar Application for Mobile Device - A device, system and method for providing (a) a wireless communications component, configured to send and receive wireless signals such that the device is locatable via a wireless means; the wireless communications component including: (i) a Received Signal Strength Indicator (RSSI) module for measuring signal strength of a wireless signal received at the wireless communications component, wherein the device is configured to be tracked by a mobile computing device (MCD) running a mobile application wherein the distance of the device from the MCD is calculated by the mobile application upon receiving between one and three RSSI values, measured by the RSSI module, and sent in a signal by the device to the MCD, wherein the distance is calculated based an average of the received RSSI values. | 05-15-2014 |
| 20140370917 | LOCATOR BEACON AND RADAR APPLICATION FOR MOBILE DEVICE - A locator beacon, method and system for identifying a first-in-line device, including: a first antenna configured to send a first signal; a second antenna configured to send a second signal and spaced apart from the first antenna such that a delta value between a first Received Signal Strength Indicator (RSSI) value of the first signal and a second RSSI value of the second signal measured at a predefined location, is within a range of values; a receiver for receiving wireless signals configured to receive an authentication signal from a mobile device adapted to measure the first and second RSSI values, the authentication signal including authentication data related to the measured RSSI values; and a processing unit, configured to determine whether the mobile device is the first-in-line device based on whether a delta value between the first RSSI value and the second RSSI value is within a predefined value range. | 12-18-2014 |
| 20150119077 | 3D Location Based on Wireless Time of Flight Calculation - A method and system for indoor location of a mobile device, including: a server, the server adapted to calculate a position of a mobile device within a predefined area; a Master Beacon including: a first radio communications capability, a second radio communications capability, and a master processor, adapted to send data relating to the scan request packets via the second radio communications capability to the server, the data being sent together with a time stamp reflecting a time of receiving the scan request packets; and a plurality of Slave Beacons, each including: the first radio communications capability, a slave processor, adapted to send data relating to the scan request packets to the server, together with a time stamp; the server is adapted to calculate a respective distance of each the beacons from the mobile device. | 04-30-2015 |
| 20150133170 | LOCATOR BEACON AND RADAR APPLICATION FOR MOBILE DEVICE - A method of transmission and locator beacon including: (a) a wireless communication component disposed on a substrate, the wireless communication component configured to transmit and receive radio frequency signals; and (b) a plurality of directional antennae disposed on the substrate and electrically coupled to the wireless communication component, the wireless communication component configured to transmit a unique MAC address for each of the plurality of directional antenna, each unique MAC address respectively identifying each directional antenna as a separate physical network entity. | 05-14-2015 |
