Abstract: Disclosed is a wireless transmitting and receiving antenna which comprises a bobbin made of insulation material and having a first penetration cavity in the center of the bobbin in a lengthwise direction; a first antenna comprising a helical conductor spirally wound on the bobbin and having a resonance frequency, and a matching bar inserted into the cavity of the bobbin, made of a conductor and providing a second penetration cavity in the direction identical with that of the first penetration cavity; a feeder positioned at one part of the bobbin so as to supply signals to the helical conductor; and a second antenna comprising: a rod inserted into the penetration cavities of the bobbin and the matching bar, moving between the penetration cavities in a slipping manner, and wrapped with the insulation material; a conduction material combined to the outer part of the rod, and electrically connecting the feeder and the helical conductor when the rod is inserted into the penetration cavities; and a stopper which is
Abstract: Disclosed is an antenna of a wireless apparatus which comprises an antenna housing fixed on an outer upper part of the wireless apparatus main body; a feeding connector installed in a lower part of the antenna housing and electrically connected to a circuit built in the wireless apparatus main body; a helical antenna including a helical coil built in the antenna housing and electrically disconnected from the feeding connector; and a rod antenna moving up and down through the feeding connector and the helical antenna, wherein when the rod antenna is contracted into the wireless apparatus, the helical antenna is electrically connected to the feeding connector and the rod antenna is electrically disconnected from the feeding connector, and when the rod antenna is extended outside of the wireless apparatus, the rod antenna is electrically connected to the feeding connector and the helical antenna is electrically disconnected from the feeding connector.
Abstract: Disclosed is a wireless transmitting and receiving antenna which comprises a bobbin made of insulation material and having a first penetration cavity in the center of the bobbin in a lengthwise direction; a first antenna comprising a helical conductor spirally wound on the bobbin and having a resonance frequency, and a matching bar inserted into the cavity of the bobbin, made of a conductor and providing a second penetration cavity in the direction identical with that of the first penetration cavity; a feeder positioned at one part of the bobbin so as to supply signals to the helical conductor; and a second antenna comprising: a rod inserted into the penetration cavities of the bobbin and the matching bar, moving between the penetration cavities in a slipping manner, and wrapped with the insulation material; a conduction material combined to the outer part of the rod, and electrically connecting the feeder and the helical conductor when the rod is inserted into the penetration cavities; and a stopper which is