Patent application number | Description | Published |
20120211611 | CLAMP STRUCTURE CAPABLE OF PREVENTING A PLANK THEREOF FROM BENDING - A clamp structure capable of preventing a plank thereof from bending is disclosed in the present invention. The clamp structure includes a clamping portion, two planks connecting to two edges of the clamping portion, at least one fixing component set passing through the planks for closing the two planks, a contacting portion disposed on one of the planks, and a stopping portion disposed on the other plank and located in a position adjacent to the contacting portion. The contacting portion contacts against the other plank when the planks is to be closed. The stopping portion stops a lateral surface of the contacting portion for preventing the contacting portion from bending relative to the planks when the contacting portion contacts against the other plank. | 08-23-2012 |
20120211624 | ADJUSTING MECHANISM FOR ADJUSTING ROTARY ANGLE AND ANTENNA SYSTEM THEREWITH - An adjusting mechanism for adjusting rotary angle is disclosed in the present invention. The adjusting mechanism includes a bracket. The bracket includes a base, a first supporting portion disposed on a first lateral side of the base, and a second supporting portion disposed on a second lateral side of the base. A pivot hole is formed on the first supporting portion. The adjusting mechanism further includes a clamp disposed by a side of the base and located in a position corresponding to the first and the second supporting portion. The adjusting mechanism further includes at least one bridging component connecting to a lateral surface of the clamp, and a pivoting component. A pivot hole is formed on the bridging component. The pivoting component passes through the pivot holes on the first supporting portion and the bridging component, so as to pivot the first supporting portion relative to the bridging component. | 08-23-2012 |
20120211627 | CLAMP STRUCTURE - A clamp structure is disclosed in the present invention. The clamp structure includes a clamping component for clamping a tube, and at least one bridging component disposed on a lateral surface of the clamping component. A pivoting portion is disposed on the bridging component, and the bridging component pivots with an antenna module via the pivoting portion, so that the antenna module can pivot relative to the clamping component along a radial plane of the clamping component. | 08-23-2012 |
20120211632 | SUPPORTING PEDESTAL AND RELATED ANTENNA SYSTEM - A supporting pedestal capable of adjusting an azimuth angle of an antenna system is disclosed in the present invention. The angle adjusting mechanism includes a main body and a tube. The main body includes a base, a first board and a second board. The first board and the second board are respectively disposed on two sides of the base. A first pivot hole and a first slot are formed on the first board. A second pivot hole is formed on the second board. The main body further includes a rib disposed on an edge of the base and connecting the first and second boards for preventing the first and second boards from bending relative to the base. The first and second pivot holes are respectively formed on the sides of the first and second boards adjacent to the rib. The tube pivots relative to the main body. | 08-23-2012 |
20120211634 | SUPPORTING PEDESTAL AND RELATED ANTENNA SYSTEM - A supporting pedestal capable of adjusting an azimuth angle of an antenna system is disclosed in the present invention. The angle adjusting mechanism includes a main body and a tube. The main body includes a base, a first board and a second board. The first board and the second board are respectively disposed on two sides of the base. A first pivot hole and a first slot are formed on the first board. A second pivot hole is formed on the second board. The main body further includes a strengthening rib disposed on an edge of the base and connecting the first and second boards for preventing the first and second boards from bending relative to the base. The first and second pivot holes are respectively formed on the sides of the first and second boards adjacent to the strengthening rib. The tube pivots relative to the main body. | 08-23-2012 |
20120212393 | SCREW MECHANISM FOR ADJUSTING AN ANGLE OF AN ANTENNA MODULE AND RELATED ANTENNA SYSTEM - A screw mechanism for adjusting an angle of an antenna module is disclosed in the present invention. The screw mechanism includes a screw rod. The screw rod includes a rod portion. A thread is formed on a first area of the rod portion. An annular protrusion is formed on a second area of the rod portion, and an outer diameter of the annular protrusion is greater than an outer diameter of the rod portion. The screw rod further includes a handle disposed on an end of the rod portion adjacent to the second area. The screw mechanism further includes an accommodating component whereon a sunken part is formed. The sunken part is for accommodating the annular protrusion of the screw rod. The screw mechanism further includes a screw having a side hole. The screw is installed on the first area of the screw rod and moves along the thread. | 08-23-2012 |
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 |
20130134271 | ADJUSTING MECHANISM AND RELATED ANTENNA SYSTEM - An adjusting mechanism includes a supporter, a foundation and a clamper. The supporter includes a base, and a supporting component pivotably disposed on the base along a first axial direction. An open hole is formed on a bottom of the base, and the base includes a fixing portion. The foundation is pivotably disposed on the base. A conjunction portion is disposed on a surface of the foundation, and the fixing portion is connected to the conjunction portion for preventing the base from rotating relative to the foundation. The clamper is fixed on the foundation for piercing through the open hole and partly positioning between the base and the supporting component. The clamper includes a body for clamping a tube, and two connecting parts disposed on a lateral surface of the body. A direction of each connecting part is parallel to a second axial direction perpendicular to the first axial direction. | 05-30-2013 |
20140084121 | CLAMPING MECHANISM WITH EASY ASSEMBLY AND ANTENNA DEVICE THEREWITH - A clamping mechanism includes a clamping member, a first fixing member, a second fixing member, a shaft, a first adjusting member, a second adjusting member and a handle. The clamping member encloses a supporting tube. The first fixing member and the second fixing member are connected to the clamping member, respectively. The shaft is disposed through the first fixing member and the second fixing member. The first adjusting member, connected to the shaft, abuts against the first fixing member. The second adjusting member, connected to the shaft, cooperates with the first adjusting member for driving the second fixing member to move relative to the first fixing member along the shaft. The handle, pivoted to the second fixing member, abuts against the second fixing member for pressing the second fixing member to approach the first fixing member, so as to force the clamping member to clamp the supporting tube. | 03-27-2014 |
20140084127 | BRIDGING MECHANISM FOR CONNECTING A SUPPORTING TUBE AND A HOLDER AND ANTENNA DEVICE THEREWITH - A bridging mechanism, for connecting a supporting tube and a holder, includes at least one positioning portion, a bridging member, a connecting member, a handle and at least one positioning structure. The at least one positioning portion is formed on the supporting tube. The bridging member is used for bridging the supporting tube. The connecting member extends from the bridging member for connecting the holder. The handle is pivoted to the bridging member for rotably pressing the supporting tube when the supporting tube is bridged to the bridging member, so as to abut the supporting tube against the bridging member. The at least one positioning structure is formed on the handle. The at least one positioning structure simultaneously rotates with the handle for wedging with the at least one positioning portion when the handle rotates to press the supporting tube to position the bridging member on the supporting tube. | 03-27-2014 |
20140117181 | FIXING MECHANISM AND ANTENNA DEVICE THEREWITH - A fixing mechanism with easy assembly and for fixing an antenna holder and a supporting tube is disclosed. The fixing mechanism includes a shaft, a constraining member, a pivot member and a handle. The shaft is for disposing through a first fixing structure of the antenna holder and a second fixing structure of the supporting tube. The constraining member is connected to an end portion of the shaft, and the pivot member is connected to another end portion of the shaft. The pivot member and the constraining member are cooperatively for constraining the shaft from separating from the first fixing structure and the second fixing structure. The handle is pivoted to the pivot member, and the handle drives the pivot member to activate the shaft to pull the constraining member, so as to press the antenna holder and the supporting tube cooperatively with the constraining member. | 05-01-2014 |
20140119818 | FIXING MECHANISM AND ANTENNA DEVICE THEREWITH - A fixing mechanism with easy assembly is disclosed. The fixing mechanism includes a shaft, a constraining member, a sleeve member, a resilient bushing, a pivot member and a handle. The constraining member is connected to an end portion of the shaft. The sleeve member sheathes the shaft. The resilient bushing sheathes the shaft and is disposed between the constraining member and the sleeve member. The pivot member is connected to the other end portion of the shaft. The handle is pivoted to the pivot member and abuts against the sleeve member. The handle pushes the sleeve member and drives the pivot member to activate the shaft to pull the constraining member when the handle pivots relative to the pivot member, so that the constraining member and the sleeve member cooperatively compress the resilient bushing, so as to make the resilient bushing generate a radial deformation. | 05-01-2014 |
20140306072 | ADJUSTING MECHANISM AND RELATED ANTENNA SYSTEM - An adjusting mechanism includes a base, a supporter, a connecting component and a jointing component. A slide slot is formed on the base. The supporter is pivotally connected to the base via a shaft. The connecting component is rotatably and slidably disposed on the slide slot on the base. A curved slot is formed on the connecting component. The jointing component is disposed on the supporter and slidably inserts to the curved slot on the connecting component. The connecting component slides relative to the supporter via the jointing component along a direction of the curved slot to simultaneously rotate the supporter relative to the base. | 10-16-2014 |