Control device for wire electrical discharge machine and control method of wire electrical discharge machine

What is claimed is: 1. A control device for a wire electrical discharge machine configured to perform electrical discharge machining on a workpiece with a wire electrode by relatively moving the wire electrode with respect to the workpiece in accordance with a numerical control program having a plurality of blocks configured to define a machining path, the control device comprising a processor configured to: obtain a discharge status value, which is a gap voltage between the wire electrode and the workpiece or a reciprocal of number of electrical discharge pulses between the wire electrode and the workpiece, set a relative movement speed of the wire electrode with respect to the workpiece depending on the discharge status value per unit time, and set the relative movement speed so as to move the wire electrode backward when the discharge status value per unit time is less than a threshold, when the discharge status value per unit time has changed in a decreasing direction and an amount of change in the discharge status value per unit time becomes equal to or greater than a predetermined variation, change the threshold from a first threshold that is set when the amount of change in the discharge status value per unit time is lower than the predetermined variation, to a second threshold that is greater than the first threshold, perform control so as to relatively move the wire electrode with respect to the workpiece along the machining path at the set relative movement speed, and when the discharge status value per unit time changes in a decreasing direction and the amount of change in the discharge status value per unit time is equal to or greater than the predetermined variation, set the second threshold depending on the discharge status value per unit time obtained when the discharge status value per unit time changes in a decreasing direction. 2. The control device for the wire electrical discharge machine according to claim 1 , wherein the processor is further configured to, after changing the threshold from the first threshold to the second threshold, reset the threshold to the first threshold after the wire electrode has passed through a segment of the machining path defined by one of the blocks in the numerical control program. 3. The control device for the wire electrical discharge machine according to claim 1 , wherein the processor is further configured to, in a segment of the machining path defined by one of the blocks that has a specific command code in the numerical control program, change the threshold to the second threshold when the discharge status value per unit time has changed in a decreasing direction and the amount of change in the discharge status value per unit time is equal to or greater than the predetermined variation. 4. The control device for the wire electrical discharge machine according to claim 1 , wherein the processor is further configured to, in a segment of the machining path designated by an operator from among segments of the machining path defined by the blocks in the numerical control program, change the threshold to the second threshold when the discharge status value per unit time has changed in a decreasing direction and the amount of change in the discharge status value per unit time is equal to or greater than the predetermined variation. 5. A control method of a wire electrical discharge machine configured to perform electrical discharge machining on a workpiece with a wire electrode by relatively moving the wire electrode with respect to the workpiece in accordance with a numerical control program having a plurality of blocks configured to define a machining path, the method comprising: obtaining, as a discharge status value, a gap voltage between the wire electrode and the workpiece or a reciprocal of number of electrical discharge pulses between the wire electrode and the workpiece; setting a relative movement speed of the wire electrode with respect to the workpiece depending on the discharge status value per unit time and setting the relative movement speed so as to move the wire electrode backward when the discharge status value per unit time is less than a threshold; and performing control so as to relatively move the wire electrode with respect to the workpiece along the machining path at the set relative movement speed, wherein said setting the relative movement speed comprises, when the discharge status value per unit time has changed in a decreasing direction and an amount of change in the discharge status value per unit time becomes equal to or greater than a predetermined variation changing the threshold from a first threshold that is set when the amount of change in the discharge status value per unit time is lower than the predetermined variation, to a second threshold that is greater than the first threshold, and the second threshold is a value set depending on the discharge status value per unit time obtained when the discharge status value per unit time changes in a decreasing direction. 6. The control method of the wire electrical discharge machine according to claim 5 , wherein said setting the relative movement speed further comprises resetting the threshold to the first threshold after the wire electrode has passed through a segment of the machining path defined by one of the blocks in the numerical control program. 7. The control method of the wire electrical discharge machine according to claim 5 , wherein said setting the relative movement speed further comprises, in a segment of the machining path defined by one of the blocks that has a specific command code in the numerical control program, changing the threshold to the second threshold when the discharge status value per unit time has changed in a decreasing direction and the amount of change in the discharge status value per unit time is equal to or greater than the predetermined variation. 8. The control method of the wire electrical discharge machine according to claim 5 , wherein said setting the relative movement speed further comprises, in a segment of the machining path designated by an operator from among segments of the machining path defined by the blocks in the numerical control program, changing the threshold to the second threshold when the discharge status value per unit time has changed in a decreasing direction and the amount of change in the discharge status value per unit time is equal to or greater than the predetermined variation.