Numerical control device and numerical control method

The invention claimed is: 1. A numerical control device for a machine tool, the machine tool including: a first drive shaft to move a first tool or a machining target, the first tool performing a first machining process; and a second drive shaft to move a second tool or the machining target, the second tool performing a second machining process, the numerical control device controlling the first drive shaft and the second drive shaft such that a movement of the second drive shaft is superimposed on a movement of the first drive shaft to allow the second machining process to be executed relative to the first machining process, the numerical control device comprising a control computer to, in response to a superimposition control command to superimpose the movement of the second drive shaft on the movement of the first drive shaft, perform control on the first drive shaft, the second drive shaft, and a main shaft by changing at least one of a first vibration rate, a second vibration rate and a main shaft rotation speed on a basis of a first vibration command, a second vibration command and a main shaft rotation speed command such that the first vibration rate stays constant and the second vibration rate stays constant, and changing a second amplitude such that the second drive shaft is vibrated with a third amplitude, the second amplitude being included in the second vibration command and being for vibrating the second drive shaft, the third amplitude being based on a difference obtained by subtracting a first amplitude from the second amplitude, the first amplitude being included in the first vibration command and being for vibrating the first drive shaft, the main shaft being a rotation axis of the machining target, the first vibration rate being the number of times that the first drive shaft vibrates per rotation of the main shaft, the second vibration rate being the number of times that the second drive shaft vibrates per rotation of the main shaft, the first vibration command being to vibrate the first drive shaft, the second vibration command being to vibrate the second drive shaft, the main shaft rotation speed command being directed to the main shaft, the main shaft rotation speed command being a command on the main shaft rotation speed per unit time. 2. The numerical control device according to claim 1 , wherein in a case where the machine tool including the first drive shaft and the second drive shaft is a lathe equipped with a single main shaft and two tool posts, one of the two tool posts having the first drive shaft, another one of the two tool posts having the second drive shaft, the control computer changes the main shaft rotation speed such that one of the first vibration rate and the second vibration rate stays constant, and changes another one of the first vibration rate and the second vibration rate such that the another one stays constant with respect to the changed main shaft rotation speed. 3. The numerical control device according to claim 1 , wherein in a case where the machine tool including the first drive shaft and the second drive shaft is a lathe equipped with a single main shaft and two tool posts, one of the two tool posts having the first drive shaft, another one of the two tool posts having the second drive shaft, the control computer changes the first vibration rate and the second vibration rate to an average rate of the first vibration rate and the second vibration rate, and changes the main shaft rotation speed such that the average rate stays constant per rotation of the main shaft. 4. The numerical control device according to claim 1 , wherein in a case where the machine tool including the first drive shaft and the second drive shaft is a lathe equipped with a single main shaft and two tool posts, the main shaft defining the first drive shaft, one of the two tool posts having the second drive shaft, the control unit computer makes the first and second vibration rates same by: changing the first vibration rate to the second vibration rate; changing the second vibration rate to the first vibration rate; or changing the first vibration rate and the second vibration rate to an average rate of the first vibration rate and the second vibration rate, and changes the main shaft rotation speed such that the same rate stays constant per rotation of the main shaft. 5. The numerical control device according to claim 1 , wherein in a case where the machine tool including the first drive shaft and the second drive shaft is a lathe equipped with a first main shaft, a second main shaft, and a single tool post, the tool post having the first drive shaft, the second main shaft defining the second drive shaft, the control computer makes the first and second vibration rates same by: changing the first vibration rate to the second vibration rate; changing the second vibration rate to the first vibration rate; or changing the first vibration rate and the second vibration rate to an average rate of the first vibration rate and the second vibration rate, the control computer changing a main shaft rotation speed of the first main shaft such that the same rate stays constant per rotation of the first main shaft, the control computer changing a main shaft rotation speed of the second main shaft such that the same rate stays constant per rotation of the second main shaft. 6. The numerical control device according to claim 1 , wherein the control computer controls the first drive shaft, using the second vibration command in absence of the first vibration command, and the control computer controls the second drive shaft, using the first vibration command in absence of the second vibration command. 7. The numerical control device according to claim 6 , wherein the control computer includes: a first vibration checker to check whether there is the second vibration command in the machining program; and a second vibration checker to check whether there is the first vibration command in the machining program, the control computer controls the second drive shaft using the first vibration command when the first vibration checker determines that there is not the second vibration command, and the control computer controls the first drive shaft using the second vibration command when the second vibration checker determines that there is not the first vibration command. 8. The numerical control device according to claim 1 , wherein the control computer changes at least one of the first vibration rate, the second vibration rate, and the main shaft rotation speed in compliance with a constraint condition for implementing vibration cutting using the first drive shaft and the second drive shaft and implementing superimposition control using the first drive shaft and the second drive shaft. 9. A numerical control method for a machine tool, the machine tool including: a first drive shaft to move a first tool or a machining target, the first tool performing a first machining process; and a second drive shaft to move a second tool or the machining target, the second tool performing a second machining process, the numerical control method being for controlling the first drive shaft and the second drive shaft such that a movement of the second drive shaft is superimposed on a movement of the first drive shaft to allow the second machining process to be executed relative to the first machining process, the numerical control method comprising in response to a superimposition control command to superimpose the movement of the second drive shaft on the movement of the first drive shaft, performing control on the first drive shaft, the second drive shaft, and a main shaft by changing at least one of a first vibration rate, a second vibration r