Wire electrical discharge machine and measuring method

What is claimed is: 1. A wire electrical discharge machine for positioning a wire electrode supported by upper and lower wire guides or measuring a shape of a measurement target, by moving the wire electrode and the measurement target relatively to each other to detect contact, comprising: a driver configured to relatively move the wire electrode to the measurement target; servomotors configured to move the driver; a setting changer configured to change a setting of a directive speed; a motor controller configured to control the servomotors in performing move-and-contact detection for detecting contact between the wire electrode and the measurement target by moving the wire electrode and the measurement target relative to each other, so that the wire electrode is moved relative to the measurement target based on the directive speed; and a contact detector configured to detect contact between the wire electrode and the measurement target, wherein the setting changer is configured to change the setting of a time constant; and, the motor controller is configured to control the servomotors in performing move-and-contact detection so that a relative motion speed of wire electrode to the measurement target comes to the directive speed with the time constant to thereby relatively move the wire electrode to the measurement target, and control the servomotors so that the wire electrode moving at the directive speed relative to the measurement target stops with the time contact when contact between the wire electrode and the measurement target is detected by the contact detector. 2. The wire electrical discharge machine according to claim 1 , wherein the motor controller is configured to control the servomotors so that the relative motion speed of the wire electrode to the measurement target varies with acceleration or deceleration of a bell-shaped curve until the time constant elapses. 3. A wire electrical discharge machine for positioning a wire electrode supported by upper and lower wire guides or measuring a shape of a measurement target, by moving the wire electrode and the measurement target relatively to each other to detect contact, comprising: a driver configured to relatively move the wire electrode to the measurement target servomotors configured to move the driver; a setting changer configured to change a setting of a directive speed; a motor controller configured to control the servomotors in performing move-and-contact detection for detecting contact between the wire electrode and the measurement target by moving the wire electrode and the measurement target relative to each other, so that the wire electrode is moved relative to the measurement target based on the directive speed; and a load torque estimator configured to estimate load torque of the servomotors; and a threshold setter configured to set a threshold of the load torque, wherein the setting changer is configured to change a setting of a directive acceleration in performing move-and-contact detection so as to vary a directive speed with a passage of time based on the directive acceleration until the load torque estimated by the load torque estimator exceeds the threshold and fix the directive speed when the load torque exceeds the threshold so that the wire electrode is moved at a constant speed relative to the measurement target. 4. The wire electrical discharge machine according to claim 3 , further comprising: a contact detector configured to detect contact between the wire electrode and the measurement target; wherein the motor controller is configured to control the servomotors so as to stop a relative motion of the wire electrode to the measurement target when contact between the wire electrode and the measurement target is detected by the contact detector. 5. A measuring method for use in a wire electrical discharge machine that includes: a driver configured to move a wire electrode supported by upper and lower wire guides relative to a measurement target; servomotors configured to move the driver; and a contact detector configured to detect contact between the wire electrode and the measurement target, to position the wire electrode or to measure a shape of the measurement target, by moving the wire electrode and the measurement target relatively to each other to detect contact, comprising: a setting change step of changing a setting of a directive speed; and, a motor control step of controlling the servomotors, in performing move-and-contact detection for detecting contact between the wire electrode and the measurement target by relatively moving the two relative to each other, so that the wire electrode is moved relative to the measurement target based on the directive speed, wherein: the setting change step is to change a setting of a time constant; and, the motor control step is to control the servomotors in performing move-and-contact detection so that a relative motion speed of wire electrode to the measurement target comes to the directive speed with the time constant to thereby relatively move the wire electrode to the measurement target, and control the servomotors so that the wire electrode moving at the directive speed relative to the measurement target stops with the time contact when contact between the wire electrode and the measurement target is detected by the contact detector. 6. The measuring method according to claim 5 , wherein the motor control step is to control the servomotors so that a relative motion speed of the wire electrode to the measurement target varies with acceleration or deceleration of a bell-shaped curve until the time constant elapses. 7. A measuring method for use in a wire electrical discharge machine that includes: a driver configured to move a wire electrode supported by upper and lower wire guides relative to a measurement target servomotors configured to move the driver; and a contact detector configured to detect contact between the wire electrode and the measurement target, to position the wire electrode or to measure a shape of the measurement target, by moving the wire electrode and the measurement target relatively to each other to detect contact, comprising: a setting change step of changing a setting of a directive speed; a motor control step of controlling the servomotors, in performing move-and-contact detection for detecting contact between the wire electrode and the measurement target by relatively moving the two relative to each other, so that the wire electrode is moved relative to the measurement target based on the directive speed; a load torque estimation step of estimating load torque of the servomotors; and a threshold setting step of setting a threshold of the load torque, wherein the setting change step is configured to change the setting of a directive acceleration in performing move-and-contact detection so as to vary the directive speed with the passage of time based on the directive acceleration until the load torque estimated by the load torque estimation step exceeds the threshold, and fix the directive speed when the load torque exceeds the threshold so that the wire electrode is moved at a constant speed relative to the measurement target. 8. The measuring method according to claim 7 , wherein the motor control step is configured to control the servomotors so as to stop a relative motion of the wire electrode to the measurement target when contact between the wire electrode and the measurement target is detected by the contact detector.