| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 343882000 | Pivoted or rotatable | 56 |
| 20080231539 | RECEIVING ANTENNA - The invention provides a sky wave receiving antenna which includes a receiving element having a radiator and a plurality of directors arranged in parallel on a horizontal support boom with a constant interval in a alternatively crossed direction, a base and a vertical direction adjustor rotationally connected at its one end to the base with a use of a first joint. The receiving antenna further includes a second joint connected to the other end of the vertical direction adjustor and connected to the receiving element so as to obtain a horizontal direction adjustment of the receiving element. The receiving antenna of the invention allows the adjustment of the receiving element to be made in both vertical and horizontal directions in order to enhance the receive directivity. | 09-25-2008 |
| 20080278403 | INTERNAL ANTENNA WITH ROTATABLE MOUNTING BRACKET ASSEMBLY - A internal antenna with rotatable mounting bracket assembly is mounted on an edge of a flat panel television and has a mounting bracket, a clamp and a rotatable antenna seat. The mounting bracket is mounted on the edge of a flat panel television and has a mounting disk, a front jaw and a clamp socket. The clamp attaches to and holds the mounting bracket on the edge of a flat panel television and has an arm assembly and a rear jaw. The arm assembly is mounted slidably in the clamp socket and has a resilient element. The resilient element holds the clamp in the clamp socket. The rear jaw is formed on and protrudes down from the arm assembly. The rotatable antenna seat is mounted rotatably on the mounting bracket and has an antenna bracket. The antenna bracket clips the antenna and is formed on the disk. | 11-13-2008 |
| 20080278404 | Worm Gear Elevation Adjustment of a Parabolic Dish - According to the invention, a system for changing the elevation angle of a parabolic antenna is disclosed. The system may include a support member, a first gear set, and a first rotational motion source. The first gear set may include a worm gear and a first worm. The first worm may engage the worm gear which may have a substantially horizontal axis. The support member and the parabolic antenna may be operably coupled with the first gear set. The first rotational motion source may be operably coupled with the first worm, and the parabolic antenna may rotate about the substantially horizontal axis when the first rotational motion source is active. | 11-13-2008 |
| 20080291114 | Rotatable Antenna Mount - A rotatable antenna mount assembly for coupling an antenna reflector to a support structure. The antenna mount including a rotatable connection provided with a generally planar outer surface; the rotatable connection coupled directly to the antenna reflector. An antenna mount having a reflector connection plane; the antenna mount coupled to the support structure. The rotatable connection coupled to the antenna mount, the outer surface parallel to the reflector connection plane, the rotatable connection, and thereby the antenna reflector rotatable about a rotation axis normal to the reflector connection plane. | 11-27-2008 |
| 20080303741 | DRAWER STRUCTURE OF ROD-SHAPED BODY AND APPARATUS HAVING THE SAME - A drawer structure of a rod-shaped body, which does not require a complicated inner structure, is provided. In a present preferred embodiment, a structure draws a rod-shaped body out of a housing for housing the rod-shaped body. A guide for holding the rod-shaped body so that the rod-shaped body can be rotated about an axis and slid in the direction of the axis, and an encasing surface which crosses at a predetermined angle to the axis of the rod-shaped body are formed on the housing side. The rod-shaped body has an internal surface facing to the encasing surface, and a cap is formed at a tip of the rod-shaped body so that the internal surface may be a predetermined angle to the axis of the rod-shaped body. When the rod-shaped body is inserted into the guide and the rod-shaped body is rotated from a state where the encasing surface and the internal surface are contacted with each other, the rod-shaped body performs a translatory movement in an axial direction of the guide according to the cam effect. | 12-11-2008 |
| 20090002261 | Alignment Unit for Directional Radios, In Particular Directional Radio Antennas - An alignment unit, which is of simple and robust design and can be adjusted well, for directional radios, in particular directional radio antennas, is distinguished by two attachment brackets, which are articulated on a common centre part such that they can pivot about two mutually orthogonal swivel axes, as well as two operating units for separate adjustment and fixing of the pivoting angle of the two attachment brackets relative to the centre part. | 01-01-2009 |
| 20090040130 | HIGH WIND ELEVATION MECHANISM FOR A SATELLITE ANTENNA SYSTEM - An elevation mechanism for a satellite antenna system. The elevation mechanism includes tilt links or arms, lift links, and a linear actuator with an adjustable length leg arrangement. Each tilt arm is pivotally mounted at its inner and outer end portions to the base or azimuth plate of the system and to the back of the dish of the system. Similarly, each lift link is pivotally mounted at its inner and outer end portions to the base and to the back of the dish. The linear actuator in turn is pivotally mounted at its inner end portion to the base and at its outer end portion to the lift links. In operation, the linear actuator can be moved between extended and retracted positions to cause the dish to move between its stowed position facing downwardly and a deployed position facing upwardly of the horizon at a targeted satellite. | 02-12-2009 |
| 20090066605 | Antennas for Card Devices - In a card device having a circuit substrate housed in a card casing and an antenna disposed rotatably on the exterior of the card casing, an antenna rotary shaft composed of a conductive material is provided at the base end of the antenna. The antenna rotary shaft extends from the exterior to the interior of the card casing along a substrate surface of the circuit substrate via a through hole of the card casing in such a manner that the antenna rotary shaft is supported rotatably by the card casing while being elevated from the circuit substrate. A section of the circuit substrate that is opposed to the antenna rotary shaft has a feeding terminal fixed thereto. The feeding terminal has a pair of antenna-rotary-shaft elastically-pressing portions that sandwich and electrically contact the antenna rotary shaft from opposite sides with elastic forces in a surface-contact fashion. | 03-12-2009 |
| 20090085826 | STABILIZING MECHANISM FOR A DEPLOYED REFLECTOR ANTENNA IN A MOBILE SATELLITE ANTENNA SYSTEM AND METHOD - A stabilizing mechanism and method for a deployed reflector antenna in a mobile satellite system. The stabilizing mechanism has a pair of stabilizing devices with a first end of each stabilizing device connected on a rear support of the reflector antenna. The first ends are positioned on opposite sides of the rear support. A second end of each stabilizing device is connected to a tilt mechanism in the mobile satellite system. The pair of stabilizing devices forms a support angle about the centerline of the reflector antenna and with the tilt mechanism. The pair of stabilizer devices pushes against the opposite sides with a pre-load force when the reflector antenna is deployed to minimize deflection of the reflector antenna due to environmental forces. | 04-02-2009 |
| 20090115684 | RECEIVING ANTENNA WITH A BENDABLE SUPPORT - A receiving antenna with a bendable support has a body, a mounting bracket and a bendable device. The body receives electromagnetic signals and has a rear surface and a connecting fixture protruding from the rear surface. The mounting bracket has a base with a top surface and a mounting post protruding from the top surface of the base. The bendable device is rod-like, is semi-rigid and flexible and has a distal end and a proximal end. The proximal end and distal end connect respectively to the connecting fixture of the body and the mounting post of the mounting bracket. A person can adjust orientation of the body to the mounting bracket by bending the bendable device. | 05-07-2009 |
| 20090201218 | BASE STATION ANTENNA PROTECTION SYSTEM AND METHOD THEREOF - The present invention discloses a base station antenna protection system and the method thereof. The base station antenna protection system receives a wind moving in a direction, and comprises a base station antenna, a sensor, a protective surface and a rotatory device. The sensor is coupled to the base station antenna to detect a deviation of the base station antenna on the direction of the wind. A side of the protective surface is opposite to the base station antenna. The rotatory device is coupled to the protective surface. When the deviation exceeds a predetermined value, the rotatory device rotates the protective surface to cause another side of the protective surface to be opposite to the wind. | 08-13-2009 |
| 20090243955 | Antenna for compact satellite terminal - An antenna for a compact satellite terminal. Antenna is a rigid parabolic structure of metal matrix composite capable of disassembly into segments affording a high degree of portability such as for man-packable satellite terminals and the like. A shallow feed horn assembly is joined to an orthomode transducer by a common hub, the hub also serving as the attachment point for a plurality of antenna segments, where a quick release means joins the segments to the hub. The feed horn, hub, orthomode transducer and antenna segments are designed for extremely compact stowability in a variety of applications. | 10-01-2009 |
| 20090315805 | ROTARY CONNECTOR PROVIDING ELECTROMAGNETIC INTERFERENCE SHIELDING FEATURES - In one aspect, a rotary connector having a longitudinal axis includes a first metal portion including a groove about the longitudinal axis. The rotary connector also includes a second metal portion and a spring disposed in the groove and having metal contact with the first portion and the second portion. One of the first metal portion or the second metal portion is configured to rotate about the longitudinal axis and the other of the first metal portion or the second metal portion is configured to remain substantially rotationally fixed with respect to the longitudinal axis. The rotary connector may be used for electromagnetic interference (EMI) shielding with antenna pedestals. | 12-24-2009 |
| 20090322647 | Articulating dual antenna - A method and apparatus for deploying a multi-element antenna system on a portable television signal processing apparatus. The system utilizes a plurality of spring loaded racks engaged in a pinion restrained by a rotational damper and a manual release mechanism. Each individual rack is attached to a rotational mechanism used to rotate an antenna element around an axis. The springs are compressed when the antenna is in its stored state and released via the manual release mechanism. The released rack and pinion system biases a plurality of rotational mechanisms which respectively extend the antenna elements into their deployed configuration. | 12-31-2009 |
| 20100019986 | METHOD FOR OBTAINING A PREDETERMINED POSITION OF AN ANTENNA - Method for obtaining a predetermined position for a satellite antenna, whereby a controller ( | 01-28-2010 |
| 20100066633 | VARIABLE ANGLE MOUNT FOR ATTACHING A MAST TO A STRUCTURE - Mounting systems and apparatus are provided for attaching a mast to a structure at a desired orientation. The mounting apparatus includes a base support and a ball mount. The base support can be rigidly attached to a portion of the structure. The ball mount receives a ball associated with the mast to thereby allow the mast to be positioned and maintained at the desired orientation. The mounting apparatus may be used, for example, for attaching a digital broadcast satellite (DBS) antenna to a fascia or other portion of a home or other structure. | 03-18-2010 |
| 20100073256 | REMOVABLE FINE TUNE ELEVATION ADJUSTMENT TOOL FOR A SATELLITE ANTENNA SYSTEM - A removable tool for adjusting the elevation of a satellite antenna having a shaft, a knob engaging the threads of the shaft at one end, a pivot member slideably disposed over the shaft threads; an upper pin for selectively engaging a hole at the other end of the shaft and with upper holes on the antenna mount; and lower pin for selectively engaging a pivot hole in the pivot member and lower holes on the mount. When the knob is turned the shaft adjusts the elevation in the mount by pivoting between the two bracket pairs. | 03-25-2010 |
| 20100073257 | REMOVABLE AZIMUTH FINE ADJUSTMENT TOOL AND METHOD FOR A SATELLITE DISH ANTENNA SYSTEM - A fine azimuth adjustment tool and method for a satellite antenna system having a clamp with opposing jaws for clamping around the mast pipe, a lever connected to the clamp for opening and closing the opposing jaws; a cam with a protrusion engaging a formed slot in the mast clamp when said opposing jaws are closed, the protrusion rotating the mast clamp when the cam is turned, the protrusion in the slot holding the mast clamp to the mast pipe at a desired fine tuned azimuth position while the mast clamp is tightened and secured to the mast pipe. | 03-25-2010 |
| 20100079353 | ENCLOSED REFLECTOR ANTENNA MOUNT - A reflector antenna mount for a reflector antenna with a primary mount coupled to a support arm. The primary mount rotatable in a first axis relative to the support arm. A secondary mount coupled to the primary mount; the secondary mount pivotable in a second axis relative to the primary mount. The reflector antenna coupled to a front side of the secondary mount; an electronics enclosure of the reflector antenna positioned on a back side of the secondary mount, the electronics enclosure coupled to the reflector antenna. A dielectric enclosure provided with a front face and a side surface coupled to the primary mount. The front face spaced away from the reflector antenna, outside of a range of motion of the directional antenna in the second axis. | 04-01-2010 |
| 20100090926 | COMMUNICATION DEVICE WITH ROTATABLE ANTENNAS - A communication device includes an enclosure and two antennas rotatably attached to each fixing member. The enclosure includes a pair of sidewalls and a pair of fixing members projecting from a first end portion of each of the sidewalls. Each fixing member includes a plurality of projections spaced from each other. Each of the antennas includes a main body including a first end portion and an adjusting member projecting from the first end portion to adjust the antenna to be in a preferable position to optimize transmission and reception of signals. Each adjusting member includes hooking portions with grooves defined therebetween. The projections move in the adjusting member, resulting in rotation of the antennas relative to the enclosure. Each of the projections is received in a corresponding groove to allow the pair of antennas to be in the preferable position. | 04-15-2010 |
| 20100134381 | ANTENNA APPARATUS - Disclosed is an antenna apparatus, including: a support member; a drum which is rotatably supported by the support member and whose outer circumference corresponds to faces of polygonal column; a case which covers the support member and the drum and which has a hole along a circumference direction of the drum; an antenna rod which extends from the outer circumference of the drum in a direction perpendicular to an axis of the drum toward an outside of the case through the hole of the case, and polyhedral faces which are provided inside the case and which are to be fitted into the outer circumference of the drum. | 06-03-2010 |
| 20100156751 | Adjustment device and satellite antenna with same - An adjustment device for a satellite antenna is used for adjusting the angle of the satellite antenna receiver. The adjustment device has a fixture, a moveable element and a fastening hook mechanism. The moveable element is connected to the satellite antenna receiver, and the rotation shaft and the fixture engages with each other so the moveable element is able to rotate horizontally. The fastening hook mechanism is used for securing the fixture and the moveable element to limit the perpendicular movement between the fixture and the moveable element. | 06-24-2010 |
| 20100177009 | ANGLE ADJUSTMENT APPARATUS OF DISH ANTENNA AND DISH ANTENNA USING THE SAME - An angle adjustment apparatus for a dish antenna comprises a base, a first rotating frame, a second rotating frame, and a second rotation angle adjustment mechanism. The first rotating frame is fixed to the base, and can relatively rotate around the base with a first rotating angle. The second rotating frame is fixed to the first rotating frame, and can relatively rotate around the first rotating frame with a second rotating angle. The second rotation angle adjustment mechanism comprises a first screw rod, a screw nut post, and a second screw rod. One end of the first screw rod is fixed to the first rotating frame, and the other end is equipped with first threads and engaged with the screw nut post. One end of the second screw rod pivots on the second rotating frame, and the other end is equipped with second threads and engaged with the screw nut post. The first threads and second threads have different screw directions, or have the same screw direction but with different thread pitches. | 07-15-2010 |
| 20100177010 | Non-Invasive Antenna Mount - Aspects of the present invention relate to an antenna mounting apparatus and installation methods for a non-invasive antenna mounting system. Some aspects relate to an antenna mounting apparatus for mounting an antenna on a structure wherein the antenna mounting apparatus has a clamping device for compressing a structure component, an extension arm and a mounting plate configured to couple with an antenna bracket thereby providing support for an antenna connected to the antenna bracket. | 07-15-2010 |
| 20100201599 | ADJUSTMENT METHOD FOR DISH ANTENNA - A dish antenna adjustment method is performed as follows. A dish antenna angle adjustment apparatus is provided; the dish antenna angle adjustment apparatus having a base member, a first rotation member and a second rotation member. The first rotation member is pivotally connected to the second rotation member, and rotates by a first rotation angle relative to the second rotation member. The second rotation member is pivotally connected to the base member, and rotates by a second rotation angle relative to the base member. A first rotating angle adjustment mechanism is connected to the angle adjustment apparatus of the dish antenna, e.g., the first rotating angle adjustment mechanism connects the first rotation member and the second rotation member. The first rotating angle adjustment mechanism adjusts the first rotation angle between the first and second rotation members. The first rotating angle adjustment mechanism is detached from the angle adjustment apparatus, and the detached first rotating angle adjustment mechanism can be used for adjustment of another dish antenna. | 08-12-2010 |
| 20100201600 | SUPPORT FRAME FOR THE DISH OF A LARGE DISH ANTENNA - A support frame ( | 08-12-2010 |
| 20100259462 | ANGLE ADJUSTMENT APPARATUS OF DISH ANTENNA AND DISH ANTENNA USING THE SAME - An angle adjustment apparatus for a dish antenna comprises a base, a first rotating frame, and a second rotating frame. The first rotating frame is fixed to the second rotating frame, and can rotate around the second rotating frame with a first rotating angle. The second rotating frame is fixed to the base, and can rotate around the base with a second rotating angle. The first rotating frame comprises at least one first arc-shaped slot, and the second rotating frame comprises at least one second arc-shaped slot corresponding to the first arc-shaped slot. A fastener passes through the first arc-shaped slot and the second arc-shaped slot so as to attach the first rotating frame and the second rotating frame. | 10-14-2010 |
| 20100289718 | Mounting Bracket for Satellite Dish Antenna and Satellite Disk Antenna Assembly using the same - An exemplary mounting bracket for a satellite dish antenna includes a mounting base, a first frame and a second frame. The first frame includes a pivoting portion at one end thereof. The pivoting portion is pivoted to one side of the mounting base so that the pivoting portion is capable of rotating from a horizontal position to a vertical position. The second frame includes a pivoting portion at one end thereof. The pivoting portion is pivoted to another opposite side of the mounting base so that the pivoting portion being capable of rotating from a horizontal position to a vertical position. The mounting bracket can be changed from the extending state to the folding state. The mounting bracket in the extending state can be mounted on a plane. The mounting bracket in the folding state can be mounted on various objects by cooperating with various fixing devices. | 11-18-2010 |
| 20100309090 | ITEM MOUNTING SYSTEM - The invention relates to apparatus and a method to allow the adjustment of a position of an item, such as an antenna of satellite broadcast receiving apparatus so as to allow the elevation and/or azimuth position to be fixed accurately. Adjustment means are provided which have an axis of rotation offset to the centre axis of a body portion of the rotatable member to allow the body portion side walls to act as a cam. | 12-09-2010 |
| 20110006968 | BAYLYN ANTENNA MOUNTING APPARATUS AND SYSTEM - An antenna mounting apparatus and system is provided for quick and easy installation and removal of antennas that can be utilized with mounting devices and systems. The present apparatus and system allows for a one time routing of transmission medium from the antenna mount, by attaching to a rotatable female connector within the base of the mount, thereby allowing the cable to move freely. This prevents loss of connection as the connector is threaded into the male portion of the upper mount assembly. The barrel assembly may contain a male pin connector threaded within the chamber of the barrel connected to the antenna. The female barrel assembly may then thread onto the male lower assembly where the male and female connectors will adjoin, thus creating a solid connection point with the set screw which will serve to eliminate a loss of conductive connection and reduce theft. | 01-13-2011 |
| 20110043433 | Positioning equipment for aligning a device - An adjustment device for aligning a unit ( | 02-24-2011 |
| 20110074651 | ASSEMBLY OF CLAMPING MECHANISM AND LNB AND DISH ANTENNA USING THE SAME - An assembly comprises a clamping mechanism and an LNB (low noise block down converter). The clamping mechanism includes a first clamping part, a second clamping part, and a plurality of rectangular grooves. The LNB includes a shell, at least one flexible portion, and at least one rib portion. The first clamping part and the second clamping part clasp around the LNB, and are combined with each other by at least one fastening part. The at least one flexible portion is disposed on the shell of the LNB, and the rib portion is on the flexible portion. The plurality of rectangular grooves are closely arranged in parallel on the inner surface of the second clamping part, and the rib portion is contained in one of the rectangular grooves. By rotating the combination of the first clamping part and the second clamping part, the rib portion is forced to move between the rectangular grooves and then is positioned again. During the movement, the flexible portion is temporarily deformed. | 03-31-2011 |
| 20110074652 | Method and Apparatus for Fine Polarization Reflector Antenna Adjustment - A polarization adjustment assembly for a reflector antenna is provided with a radio bracket with a mounting flange. The mounting flange is coupled to a hub provided with a stop portion. Fasteners couple the radio bracket to the hub via slots in the mounting flange, rotatable with respect to the hub within the extents of the slots. An adjustment bolt passes through a boss coupled to the mounting flange. The adjustment bolt abuts the stop portion, whereby longitudinal displacement of the adjustment bolt with respect to the boss rotates the radio bracket with respect to the hub. Alternatively, the positions of the boss and stop portion on the mounting flange and hub may be exchanged. | 03-31-2011 |
| 20110102295 | POSITIONING MECHANISM - Antenna systems include adjustment mechanisms to adjust the position of dish antennas. The adjustment mechanism includes a clip, a bracket, and a cam mechanism. The clip is fixedly coupled to and projects outwardly from a mast. The bracket is pivotally coupled to the mast and is between the stationary clip and cam mechanism. The cam mechanism is pivotally coupled to the clip and positioned to rotate the bracket and the dish antenna as the cam mechanism rotates. The clip is made of a lightweight material to reduce the overall weight of the antenna system to enhance performance. | 05-05-2011 |
| 20110187624 | REINFORCED MOUNT FOR AN ANTENNA ASSEMBLY - An antenna mount including first, second, and third plates is disclosed. A first plate is attached to a second plate to form a plate assembly. When attached, a planar surface of the first plate contacts a surface of the second plate. The second plate may include a stiffening structure. The first plate includes a flange that is oriented parallel to and extending in the same direction as one or more members of the second plate. The flange and the members are positioned to abut opposing surfaces of a mounting base. The third plate includes a planar section and a mounting surface connected to the planar section. The third plate is attached to the plate assembly such that the mounting base is clamped between the third plate and the plate structure. The mounting surface is configured to receive a mounting device of an antenna assembly. | 08-04-2011 |
| 20110193764 | ANTENNA MOUNT - An antenna mount for a satellite antenna comprises an adjustment plate with a first cam slot, a first bracket and a first cam. The first bracket includes a first base, a first sidewall extending from the first base and having a second cam slot aligned with the first cam slot, and a second sidewall extending in parallel with the first sidewall from the first base. The first cam is adapted to attach the adjustment plate to an inner surface of the first sidewall. The first cam includes a first shaft protruding from the first sidewall through the first and second cam slots and rotatable with respect to the first sidewall, and a first disc coupled with the first shaft and adapted to fit within the first cam slot so that the adjustment plate is rotatable with respect to the first sidewall as the first shaft is rotated from the exterior of the first sidewall. | 08-11-2011 |
| 20110193765 | ANTENNA ASSEMBLY - An antenna assembly has an antenna and a bracket. The bracket is connected with the antenna and has a hanger, a telescopic strut and an antenna stand. The telescopic strut is mounted securely on the hanger and has a base tube and a moving rod mounted slidably and rotatably in the base tube. The antenna stand is mounted securely on the moving rod and is detachably connected with the antenna. Because the moving rod is capable of being raised, lowered and rotated relative to the hanger, it is very convenient and easy to position the antenna for adjustment and improved receipt of signals. | 08-11-2011 |
| 20110205142 | Apparatus for Mounting an Object to a Railing - Apparatus are described for mounting an object to a structure having a railing. The apparatus includes a base attachable to the object and configured for placement on the structure proximate the railing. The apparatus further includes an adjustable compression mechanism positioned between the base and the railing configured to secure the base to the structure with a selected force. The mechanism includes a first plate on the base, a second plate movable relative to the first plate for producing a selected height of the mechanism and a threaded member attached to the first plate and the second plate. The threaded member is configured to move the second plate relative to the first plate to achieve the selected height and apply the selected force. | 08-25-2011 |
| 20110241970 | Holding Device With An Antenna And Method For Assembling The Same - A holding device having a printed circuit board includes a base having a securing recess at a top surface thereof, a securing connector fixed in the securing recess and connected with the printed circuit board, a holding shell rotatably covered to the securing connector, and a flexible antenna of flat plate shape. The antenna has a rectangular radiating body, and a strip-shaped connecting portion extended outwards from a side of the radiating body. A free end of the connecting portion is held by the holding shell and rotated to connect with the securing connector electrically and detachably. An exposed portion of the connecting portion is bent so that the radiating body is attached to the top surface of the base. | 10-06-2011 |
| 20110241971 | APPARATUS AND SYSTEM FOR A DOUBLE GIMBAL STABILIZATION PLATFORM - An apparatus and system are disclosed for a double gimbal stabilization platform. The apparatus, in one embodiment, includes a base and a first pivot joint connected to the base. The apparatus also includes a bent gimbal structure connected to the first pivot joint. The first pivot joint may rotate the bent gimbal structure about a first axis of rotation. The apparatus includes a second pivot joint connected to the bent gimbal structure. The apparatus includes a platform connected to the second pivot joint. The second pivot joint may rotate the platform around a second axis of rotation and the second axis of rotation may be orthogonal to the first axis of rotation. Furthermore, a center of mass for a combination of the bent gimbal structure and the platform may be between the base and the first axis of rotation. | 10-06-2011 |
| 20110279346 | MOBILE TERMINAL - A mobile terminal designed to enable an antenna stored in the housing to be easily taken out. In this mobile terminal, the antenna ( | 11-17-2011 |
| 20110304518 | ADJUSTABLE MOUNTING ASSEMBLY FOR AN ANTENNA - A mounting assembly for an antenna includes a mounting foot, an antenna mast, and two mast positioning components. The foot includes a base that can be attached to a mounting structure, and two opposing sidewall flanges extending from the base. Each sidewall flange has a respective slot formed therein. The antenna mast has a proximal end pivotally coupled to the foot between the sidewall flanges. The first mast positioning component is coupled between the sidewall flanges, it is movable within the slots, and it provides a first adjustable support structure for the antenna mast. The second mast positioning component is coupled between the sidewall flanges, it is movable within the slots, and it provides a second adjustable support structure for the antenna mast. | 12-15-2011 |
| 20120019429 | Pivotal Wireless Transmission Device - A pivotal wireless transmission device comprises a fixing device having a first plane, a second plane and a coupling member coupling the first plane and the second plane; and a radiation conductor having a conduction path extending from one side of the first plane and a feeder point arranged in the conduction path. The present invention enables the radiation conductor to be securely fixed to a display frame. The present invention uses the first plane as the ground plane of the radiation conductor. Thus, both the first plane and the second plane function as the ground planes of the antenna system. Thereby is increased the transmission efficiency of radiation signals. | 01-26-2012 |
| 20120119973 | Holder for a Movable Sensor - A mount for a movable sensor on a support structure is provided. The sensor is alignable with a sensor target. The mount includes at least two mutually spaced sensor-based bearings, at least two mutually spaced support-structure-based bearings, at least two longitudinally adjustable actuator units arranged between an associated sensor-based bearing and an associated support-structure-based bearing, and a center bearing that is configured to pivotably support the sensor on the support structure about a kinematic center point on at least two spatial axes. | 05-17-2012 |
| 20120146878 | Antenna Base - An antenna base provided of a hollow support body having a fixed lower portion and an upper portion aligned along a longitudinal axis, the upper portion being adapted to support an antenna and being rotationally mounted on the lower portion to rotate, in use, together with the antenna itself, about the longitudinal axis; the antenna base being further provided with an electric motor, which is adapted to rotate the upper portion and is provided for this purpose with a stator integral with the lower integral and of a rotor integral with the upper portion and coaxial with the longitudinal axis. | 06-14-2012 |
| 20120194407 | ANTENNA COUPLER AND ANTENNA ASSEMBLY HAVING THE SAME - An antenna coupler, which connects an antenna that is drawn in/out on a portable electronic device and has a hollow pipe type lower end, includes a bushing fixed to an interior of a case of the portable electronic device, a rotary support portion sliding in the bushing to be drawn into the interior of the case when the antenna is drawn in and having an upper end portion that is drawn out to outside of the case, a coupling member having an upper end that is inserted into and coupled to an interior of a lower end of the antenna, and a rotary member having an upper side that is screw-engaged with the coupled member and a lower side rotatably coupling to the upper end portion of the rotary support portion. | 08-02-2012 |
| 20130002518 | ADJUSTING MECHANISM AND RELATED ANTENNA SYSTEM - An adjusting mechanism of adjusting an angle of an antenna module is disclosed in the present invention. The adjusting mechanism includes a base, a supporter pivotally connected to the base for supporting the antenna module, a connecting component pivoting to the supporter, and a jointing component disposed on the base and slidably inserting into a slot on the connecting component. The connecting component is for pivoting to the supporter and sliding relative to the jointing component along a direction of the slot simultaneously, so as to adjust an angle between the supporter and the base. | 01-03-2013 |
| 20130016027 | DEVICES, SYSTEMS, AND METHODS FOR TESTING CRASH AVOIDANCE TECHNOLOGIES - A Guided Soft Target (GST) system and method provides a versatile test system and methodology for the evaluation of various crash avoidance technologies. This system and method can be used to replicate the pre-crash motions of the CP in a wide variety of crash scenarios while minimizing physical risk, all while consistently providing radar and other sensor signatures substantially identical to that of the item being simulated. The GST system in various example embodiments may comprise a soft target vehicle or pedestrian form removably attached to a programmable, autonomously guided, self-propelled Dynamic Motion Element (DME), which may be operated in connection with a wireless computer network operating on a plurality of complimentary communication networks. Specific DME geometries are provided to minimize ride disturbance and observability by radar and other sensors. Computer controlled DME braking systems are disclosed as well as break-away and retractable antenna systems. | 01-17-2013 |
| 20130027275 | WIRELESS COMMUNICATION SYSTEM - A wireless communication system comprises a tower-shaped antenna including a leaky coaxial cable that leaks electric wave. The tower-shaped antenna is selectively changed from a protruding state in which the antenna is protruded from an installed surface to a housed state in which the antenna is housed in the installed surface, and vice versa. | 01-31-2013 |
| 20130147683 | AUTONOMOUS WIRELESS ANTENNA SENSOR SYSTEM - Systems and methods are enclosed for processing antenna position information. The systems and methods involve positioning at least one sensor in proximity to an antenna for measuring alignment of the antenna; at a ground station in proximity to a tower holding the antenna, periodically receiving antenna alignment information from the at least one sensor; and transmitting the alignment information to a control station for determination whether the alignment of the antenna complies with antenna specifications. | 06-13-2013 |
| 20130241799 | WIRELESS COMMUNICATION DEVICE - A wireless communication device includes a support and a wireless communication device housing which is seatable in the support. The wireless communication device housing defines a channel in at least a portion thereof and which has a first pivot hole extending through a wall of the channel. An antenna has a first end and extends to a second, free end. The first end defines a pivot. The antenna is disposed in the channel so that the pivot is aligned with the first pivot hole. A pivot pin extends through the first pivot hole at the pivot. | 09-19-2013 |
| 20130314296 | Wireless Terminal - Embodiments of the present invention provide a wireless terminal including a PCB, an antenna, and a data connector. The PCB has a groove, which divides the PCB into a first part and a second part. The second part is connected to the antenna, the first part is connected to the data connector through a rotating shaft, and connecting wires of the data connector are connected to the second part. The first part and the second part each have a ground. The ground of the first part is connected to a metal casing of the data connector and a ground wire of the data connector is connected to the ground of the second part and the ground wire of the data connector is electrically connected to the metal casing of the data connector. | 11-28-2013 |
| 20140028523 | ANTENNA DEVICE FOR ELECTROMAGNETIC MEASUREMENT - An antenna device includes a base, four adjusting apparatuses, two connecting poles each connected between two the adjusting apparatuses, a first slide apparatus with a first motor fitted around each connecting pole, a supporting pole, and an antenna. Each adjusting apparatus includes a pole perpendicularly extending up from the base, a second slide apparatus fitted around the pole, and a second motor installed in the base and connecting the second slide apparatus. Two ends of each connecting pole are respectively mounted to the corresponding second slide apparatuses. The supporting pole is installed to the first slide apparatus, and the antenna is attached to an end of the supporting pole. Each first motor drives the first slide apparatus to move along a lengthwise direction of the connecting pole. Each second motor drives the second slide apparatus to move along a lengthwise direction of the corresponding pole. | 01-30-2014 |
| 20140049444 | PORTABLE ELECTRONIC DEVICES AND METHODS FOR POSITIONING ANTENNAS OF SUCH DEVICES - A representative device includes: a housing; and an antenna assembly mounted to the housing, the antenna assembly having a first antenna and a second antenna, the first antenna and the second antenna being movable between respective stowed and extended positions; in the stowed positions, the first antenna and the second antenna being positioned substantially within an outer periphery defined by the housing. | 02-20-2014 |
| 20140062833 | ANTENNA STRUCTURE - An antenna structure includes a base, at least one first extending member and at least one second extending member. The base is detachably and pivotally connected to the first extending member, and includes a first transmitting unit. The first extending member is detachably and pivotally connected to the second extending member, and includes a second transmitting unit. The second extending member includes a third transmitting unit. The first transmitting unit is electrically connected to the second transmitting unit, and the second transmitting unit is electrically connected to the third transmitting unit. | 03-06-2014 |
| 20140300527 | Antenna for Wireless Communication Device - The present invention discloses an antenna for a wireless communication device, including a radiator including a first fixing segment, and a first connecting unit including a first fixture unit and a second fixture unit for holding the first fixing segment such that the radiator is electrically connect to a circuit. | 10-09-2014 |
