Antenna device and communication apparatus

What is claimed is: 1. An antenna device comprising: a movable linear antenna conductor; a rod-shaped actuator member that directly supports said movable linear antenna; and an attaching member that attaches said actuator member and said antenna conductor, and a drive controller for generating an actuator-driving control voltage to drive said actuator member with said control voltage to displace said actuator member wherein said one longitudinal end of said antenna conductor serves as a fixed support and the other end thereof serves as a free end to be displaceable relative to the communication apparatus in three-dimensional space in a direction and by an amount depending on said control voltage. 2. The antenna device according to claim 1 , wherein said actuator member is in the form of a linear body, and electrodes to which said control voltage is applied are formed on said actuator member along said linear body, and at least one of said electrodes is also used as said antenna conductor. 3. The antenna device according to claim 1 , wherein said control voltage is a DC voltage, said actuator member is displaced in a plane in a direction of an electric field generated by applying said control voltage, and two different kinds of said drive voltage are applied to said actuator member so that the directions of the generated electric fields are perpendicular to each other. 4. The antenna device according to claim 1 , wherein said actuator member is a polymer actuator using ion-exchange resin. 5. A communication apparatus comprising: a housing including a communication circuit and a control circuit; and an antenna device having a movable linear antenna conductor on the outside of and attachable to said housing, wherein said antenna device includes said antenna conductor, a rod-shaped actuator member that directly supports movable linear antenna, and an attaching member that attaches said actuator conductor and said antenna member, wherein said actuator member performs displacement control in which one longitudinal end of said antenna conductor serves as a fixed support and the other end thereof serves as a free end to be displaceable relative to the housing in three-dimensional space depending on said control voltage, and said control circuit includes a detection means that detects the strength of incoming electromagnetic waves received from the remote communication apparatus through said antenna conductor, and an actuator-driving means that generates said control voltage depending on said electromagnetic wave strength detected by said detection means, and supplies said control voltage to said actuator member to drive said actuator member to move said antenna conductor to a position to increase receiver sensitivity to incoming communication. 6. The communication apparatus according to claim 5 , wherein said actuator member is a flexible linear body constructed of a polymer actuator using ion-exchange resin formed together with said antenna conductor in a strap shape. 7. A communication apparatus comprising: a housing including a communication circuit and a control circuit; and an antenna device having a movable linear antenna conductor on the outside of and attachable to said housing, wherein said antenna device includes said antenna conductor, a rod-shaped actuator member that directly supports said movable linear antenna, and an attaching member that attaches said actuator member and said antenna conductor, wherein said actuator member performs displacement control in which one longitudinal end of said antenna conductor serves as a fixed support and the other end thereof serves as a free end to be displaceable relative to the housing in three-dimensional space depending on said control voltage, and said control circuit includes a communication-state detection means that detects when said communication function is executed, and an actuator-driving means that generates said control voltage when said communication-state detection means detects that said communication function is executed to drive said actuator member to keep said antenna conductor away from the head of the user so as to satisfy the criteria of the electromagnetic waves acceptable to the human body when the communication apparatus is held near the user's head. 8. The communication apparatus according to claim 7 , wherein said control circuit includes a strength detection means that detects the strength of incoming electromagnetic waves received from the remote communication apparatus through said antenna conductor, and said actuator-driving means generates said control voltage depending on the strength of said electromagnetic waves detected by said strength detection means, and supplies said generated control voltage to said actuator member to bring said antenna conductor to a position with a high reception sensitivity to incoming communication while satisfying the criterion of the electromagnetic waves acceptable to said human body. 9. The communication apparatus according to claim 7 , wherein said communication function is telephone communication using a cellular phone to send or receive a call, and said communication-state detecting means detects an outgoing phone call and an incoming phone call. 10. The communication apparatus according to claim 7 , wherein said actuator member is a flexible linear body constructed of a polymer actuator using ion-exchange resin formed together with said antenna conductor in a strap shape. 11. A communication apparatus comprising: a housing including a communication circuit and a control circuit; and an antenna device having a movable linear antenna conductor on the outside of and attachable to said housing, wherein said antenna device includes said antenna conductor, a rod-shaped actuator member that directly supports said movable linear antenna, and an attaching member that attaches said actuator member and said antenna conductor, wherein said actuator member performs displacement control in which one longitudinal end of said antenna conductor serves as a fixed support and the other end thereof serves as a free end to be displaceable relative to the housing in three-dimensional space depending on said control voltage, and said control circuit includes a detection unit that detects the strength of incoming electromagnetic waves received from the remote communication apparatus through said antenna conductor, and an actuator-driving control unit that generates said control voltage depending on said electromagnetic wave strength detected by said detection unit, and supplies said control voltage to said actuator member to drive said actuator member to move said antenna conductor to a position to increase receiver sensitivity to incoming communication to incoming communication. 12. A communication apparatus comprising: a housing including a communication circuit and a control circuit; and an antenna device having a movable linear antenna conductor on the outside of and attachable to said housing, said communication apparatus being held near a user's head to execute a communication function for sending or receiving a call, wherein said antenna device includes said antenna conductor, a rod-shaped actuator member that directly supports said movable linear antenna, and an attaching member that attaches said actuator member and said antenna conductor, wherein said actuator member performs displacement control in which one longitudinal end of said antenna conductor serves as a fixed support and the other end thereof serves as a free end to be displaceable relative to the housing in three-dimensional space depending on said c