Insertion apparatus

What is claimed is: 1 . An insertion apparatus comprising: an inserting section that is to be inserted into an insertion target; a reference unit that is disposed outside the insertion target; a connecting member that includes a movable section configured to move continuously and connects the inserting section and the reference unit; and a first shape sensor that detects a shape of the connecting member with respect to the reference unit by detecting a movable amount of the connecting member. 2 . The insertion apparatus according to claim 1 , wherein the inserting section is configured to move continuously, and the insertion apparatus further comprises a second shape sensor that detects a shape of the inserting section with respect to the reference unit by detecting a movable amount of the inserting section. 3 . The insertion apparatus according to claim 2 , further comprising: an insertion target positional information input unit that receives insertion target positional information concerning a relative position between the reference unit and the insertion target; and a computing unit that computes a shape of the inserting section for the insertion target using the shape of the connecting member detected by the first shape sensor, the shape of the inserting section detected by the second shape sensor, and the insertion target positional information. 4 . The insertion apparatus according to claim 2 , wherein the second shape sensor is an optical fiber curved shape sensor comprising: a light emitting unit; an optical fiber that guides light from the light emitting unit and changes optical characteristics of the guided light in accordance with a curved shape of the inserting section; and a light receiving unit that receives the light guided by the optical fiber. 5 . The insertion apparatus according to claim 1 , wherein the inserting section is a rigid section that is immovable, and the insertion apparatus further comprises a rigid section shape memory that stores shape information on the inserting section. 6 . The insertion apparatus according to claim 5 , further comprising: an insertion target positional information input unit that receives insertion target positional information concerning a relative position between the reference unit and the insertion target; and a computing unit that computes a shape of the inserting section for the insertion target using the shape of the connecting member detected by the first shape sensor, the shape information on the inserting section stored in the rigid section shape memory, and the insertion target positional information. 7 . The insertion apparatus according to claim 3 , wherein the insertion target positional information is association information to compute a reference position set for the insertion target based on a position of a distal end of the inserting section, and the computing unit computes the reference position in accordance with the association information. 8 . The insertion apparatus according to claim 7 , wherein the association information is information to indicate timing at which the distal end of the inserting section reaches the reference position, and the computing unit computes the reference position based on the shape of the connecting member and the shape of the inserting section that are computed at timing when the distal end of the inserting section reaches the reference position. 9 . The insertion apparatus according to claim 8 , wherein the insertion target positional information input unit inputs, to the computing unit, a signal input by an insertion target reference position input section that is operated by an operator at timing when the distal end of the inserting section reaches the reference position. 10 . The insertion apparatus according to claim 7 , wherein the insertion apparatus includes an imaging section, the association information is an image captured by the imaging section, and the computing unit determines timing when the distal end of the inserting section reaches the reference position, based on the image captured by the imaging section. 11 . The insertion apparatus according to claim 7 , wherein the reference position is an entrance to an opening of the insertion target. 12 . The insertion apparatus according to claim 3 , wherein the insertion target positional information is information on a relative position between the reference unit and the reference position input by an insertion target position detector that detects the relative position between the reference unit and the reference position set for the insertion target. 13 . The insertion apparatus according to claim 12 , wherein the insertion target position detector comprises: a transmitter that transmits at least one of a magnetic field, an electric field, and a sound wave; and a receiver that receives the magnetic field, the electric field, and the sound wave transmitted by the transmitter, wherein one of the transmitter and the receiver is disposed at the insertion target, the other of the transmitter and the receiver is disposed so as to maintain a relative position with the reference position at least while the inserting section is being used, and a relative position between the reference position and the insertion target is computed from a change in the magnetic field, the electric field, and the sound wave received by the receiver. 14 . The insertion apparatus according to claim 12 , wherein the insertion target position detector is an insertion target position detection shape sensor that includes an insertion target position detector connecting member configured to connect from the reference position to the insertion target, and detects a curve of the insertion target position detector connecting member to detect a shape of the insertion target position detector connecting member, and the computing unit computes a position of the insertion target with respect to the reference position, based on the shape of the insertion target position detector connecting member detected by the insertion target position detection shape sensor. 15 . The insertion apparatus according to claim 14 , wherein the insertion target position detection shape sensor is an optical fiber curved shape sensor comprising: a light emitting unit; an optical fiber that guides light from the light emitting unit and changes optical characteristics of the guided light in accordance with a curved shape of the inserting section; and a light receiving unit that receives the light guided by the optical fiber. 16 . The insertion apparatus according to claim 3 , wherein the connecting member further includes a rigid section that is connected to the movable section, the insertion apparatus further comprises a rigid section shape memory that stores shape information on the rigid section of the connecting member, the first shape sensor detects at least a shape of the movable section as a shape of the connecting member, and the computing unit further includes a sub-computing unit that computes at least one of a shape of the inserting section with respect to the reference unit and a shape of the inserting section for the insertion target using shape information on the rigid section of the connecting member. 17 . The insertion apparatus according to claim 1 , wherein the first shape sensor is an optical fiber curved shape sensor comprising: a light emitting unit; an optical fiber that guides light from the light emitting unit and changes optical characteristics of th