Lathe and method of detecting cut-off tool breakage

What is claimed is: 1. A lathe comprising: a spindle capable of releasably holding a bar material; an opposite spindle capable of releasably holding an end of the bar material protruded from the spindle; a tool post on which a cut-off tool is removably attached to cut off the bar material held by the spindle so as to separate the end of the bar material from the bar material; a controller adapted to control operations of the spindle, the opposite spindle, and the tool post; and a contact-type breakage detector provided with a sensor retractably advancing to an advancing position where the sensor could hit the end of the bar material if it remains after the cut-off tool cuts off the bar material, the contact-type breakage detector being capable of detecting breakage of the cut-off tool if the sensor hits the end of the bar material in the advancing position, wherein the controller performs a non-mechanical-type breakage detection to determine whether the cut-off tool is broken according to a control parameter for controlling at least one of the spindle and the opposite spindle to make the spindle and the opposite spindle move away from each other at a first detection timing immediately after the cut-off tool cuts off the bar material while the opposite spindle holds the bar material held by the spindle, and performs a mechanical-type breakage detection to determine whether the cut-off tool is broken according to a detection result by the contact-type breakage detector at a second detection timing different from the first detection timing. 2. The lathe of claim 1 , wherein the second detection timing comprises at least one of timings comprising a timing immediately after the cut-off tool cuts off the bar material while the opposite spindle does not hold the bar material held by the spindle and a timing of a start of continuous machining of the bar material. 3. The lathe of claim 2 , wherein the control parameter comprises a position deviation which is a difference signal between a position command and a position feedback signal for a first spindle where the first spindle comprises one of the spindle and the opposite spindle and a second spindle comprises the other of the spindle and the opposite spindle, and the controller controls separation of the second spindle from the stopped first spindle at the first detection timing and determines that the cut-off tool is broken if the position deviation exceeds a set value and that the cut-off tool is not broken if the position deviation does not exceed the set value. 4. The lathe of claim 3 , the contact-type breakage detector further comprising a sensor driver capable of advancing the sensor in a direction perpendicular to a spindle axis of the spindle and a contact detector capable of detecting whether the sensor advanced toward the spindle axis hits the end of the bar material, wherein the contact-type breakage detector detects breakage of the cut-off tool if the contact detector detects that the sensor hits the end of the bar material. 5. The lathe of claim 2 , the contact-type breakage detector further comprising a sensor driver capable of advancing the sensor in a direction perpendicular to a spindle axis of the spindle and a contact detector capable of detecting whether the sensor advanced toward the spindle axis hits the end of the bar material, wherein the contact-type breakage detector detects breakage of the cut-off tool if the contact detector detects that the sensor hits the end of the bar material. 6. The lathe of claim 1 , wherein the control parameter comprises a position deviation which is a difference signal between a position command and a position feedback signal for a first spindle where the first spindle comprises one of the spindle and the opposite spindle and a second spindle comprises the other of the spindle and the opposite spindle, and the controller controls separation of the second spindle from the stopped first spindle at the first detection timing and determines that the cut-off tool is broken if the position deviation exceeds a set value and that the cut-off tool is not broken if the position deviation does not exceed the set value. 7. The lathe of claim 6 , the contact-type breakage detector further comprising a sensor driver capable of advancing the sensor in a direction perpendicular to a spindle axis of the spindle and a contact detector capable of detecting whether the sensor advanced toward the spindle axis hits the end of the bar material, wherein the contact-type breakage detector detects breakage of the cut-off tool if the contact detector detects that the sensor hits the end of the bar material. 8. The lathe of claim 1 , the contact-type breakage detector further comprising a sensor driver capable of advancing the sensor in a direction perpendicular to a spindle axis of the spindle and a contact detector capable of detecting whether the sensor advanced toward the spindle axis hits the end of the bar material, wherein the contact-type breakage detector detects breakage of the cut-off tool if the contact detector detects that the sensor hits the end of the bar material. 9. A method of detecting cut-off tool breakage in a lathe comprising: a spindle capable of releasably holding a bar material; an opposite spindle capable of releasably holding an end of the bar material protruded from the spindle; a tool post on which a cut-off tool is removably attached to cut off the bar material held by the spindle so as to separate the end of the bar material from the bar material; and a contact-type breakage detector provided with a sensor retractably advancing to an advancing position where the sensor could hit the end of the bar material if it remains after the cut-off tool cuts off the bar material, the contact-type breakage detector being capable of detecting breakage of the cut-off tool if the sensor hits the end of the bar material in the advancing position, the method comprising: performing a non-mechanical-type breakage detection to determine whether the cut-off tool is broken according to a control parameter for controlling at least one of the spindle and the opposite spindle to make the spindle and the opposite spindle move away from each other at a first detection timing immediately after the cut-off tool cuts off the bar material while the opposite spindle holds the bar materiral held by the spindle, and performing a mechanical-type breakage detection to determine whether the cut-off tool is broken according to a detection result by the contact-type breakage detector at a second detection timing different from the first detection timing.