Optical connector apparatus

The invention claimed is: 1. An optical connector apparatus comprising: a ferrule; and a connection object, wherein: the ferrule holds an optical fiber of an electro-optical composite cable; the ferrule itself has a contact portion electrically connected with a metal conductor of the electro-optical composite cable; the connection object comprises: an optical element having an optical connection portion; an insulation housing holding the optical element; and a connection member held by the housing; the connection member has a conductive portion and a receiving portion; when an end portion of the ferrule is inserted into the receiving portion along a predetermined direction, the receiving portion receives the end portion of the ferrule; the conductive portion is provided on at least an end portion of the receiving portion; the optical connection portion is provided inside the receiving portion; and when the end portion of the ferrule is received in the receiving portion, an end surface of the optical fiber faces the optical connection portion in the predetermined direction to make an optical connection between the optical fiber and the optical connection portion while the contact portion is brought into contact with the conductive portion to make an electrical connection between the contact portion and the conductive portion simultaneously with the optical connection. 2. The optical connector apparatus as recited in claim 1 , wherein: the receiving portion has a tubular shape, and the conductive portion is provided on an edge portion of the receiving portion. 3. The optical connector apparatus as recited in claim 1 , wherein: the ferrule has a received portion received by the receiving portion and a large diameter portion having a diameter larger than a diameter of the received portion; the contact portion is a contact surface which defines a boundary between the received portion and the large diameter portion; and the contact surface of the contact portion is brought into contact with the conductive portion in the predetermined direction so that the electrical connection is established therebetween. 4. The optical connector apparatus as recited in claim 1 , wherein the connection member is made of a conductor. 5. The optical connector apparatus as recited in claim 4 , wherein the connection member further comprises a spring portion which supports the conductive portion so that the conductive portion is displaceable in the predetermined direction. 6. The optical connector apparatus as recited in claim 5 , wherein: the receiving portion has a tubular shape, and the spring portion extends in a peripheral direction of the receiving portion. 7. The optical connector apparatus as recited in claim 1 further comprising a bias member biasing the contact portion of the ferrule toward the receiving portion. 8. The optical connector apparatus as recited in claim 1 , wherein a recess portion is formed on the end portion of the ferrule, and an end of the optical fiber is positioned within the recess portion so as not to project from an end surface of the ferrule. 9. The optical connector apparatus as recited in claim 8 , wherein the recess portion has a fan shape having a central angle of 180 degrees or less when seen from a front end of the ferrule. 10. An optical connector apparatus comprising: a first connector to be connected with a first electro-optical composite cable; a second connector to be connected with a second electro-optical composite cable; and an adaptor relaying a connection between the first connector and the second connector, wherein: the first electro-optical composite cable comprises a first optical fiber and a first metal conductor; the second electro-optical composite cable comprises a second optical fiber and a second metal conductor; the first connector comprises a first ferrule to hold the first optical fiber; the first ferrule itself has a first contact portion to be electrically connected with the first metal conductor; the second connector comprises a second ferrule to hold the second optical fiber; the second ferrule itself has a second contact portion to be electrically connected with the second metal conductor; the adaptor comprises an adaptor housing and a connection member; the adaptor housing is made of insulative material; the connection member is held by the adaptor housing; the connection member comprises a receiving portion and first and second conductive portions; the receiving portion is configured to receive end portions of the first and the second ferrules in a predetermined direction; the first and the second conductive portions are provided on opposite ends of the connection member in the predetermined direction; and when the end portions of the first and the second ferrules are received in the receiving portion, end surfaces of the first and the second optical fibers face each other in the predetermined direction to make an optical connection between the first and the second optical fibers while the first contact portion and the second contact portion are brought into contact with the first conductive portion and the second conductive portion, respectively, to make an electrical connection between the first metal conductor and the second metal conductor simultaneously with the optical connection. 11. The optical connector apparatus as recited in claim 10 , wherein the connection member is made of conductive material. 12. The optical connector apparatus as recited in claim 11 , wherein: the connection member further comprises first and second spring portions; and the first and the second spring portions support the first and the second conductive portions, respectively, so that the first and the second conductive portions are displaceable in the predetermined direction. 13. The optical connector apparatus as recited in claim 12 , wherein the receiving portion has a tubular shape, and the first and the second spring portions extend in a peripheral direction of the receiving portion. 14. The optical connector apparatus as recited in claim 10 , wherein: the first ferrule has a first received portion received by the receiving portion and a first large diameter portion having a diameter larger than a diameter of the first received portion; the first contact portion is a first contact surface which defines a boundary between the first received portion and the first large diameter portion; the second ferrule has a second received portion received by the receiving portion and a second large diameter portion having a diameter larger than a diameter of the second received portion; the second contact portion is a second contact surface which defines a boundary between the second received portion and the second large diameter portion; and the first contact surface of the first contact portion and the second contact surface of the second contact portion are brought into contact with the first conductive portion and the second conductive portion, respectively, in the predetermined direction so that the electrical connection is established between the first metal conductor and the second metal conductor.