Probe head of three-dimensional coordinate measuring device and touch detection method

What is claimed is: 1. A probe head of a three-dimensional coordinate measuring device comprising: a measurer extending in a first direction; first and second diaphragms provided at two different positions along the measurer, at respective first and second positions, the first and second diaphragms configured to support the measurer such that the measurer displaceable in the first direction; a first oscillator configured to cause the measurer to oscillate along the first direction; and a second oscillator configured to cause a predetermined portion of the measurer between the first and second diaphragms to oscillate along each of a second direction orthogonal to the first direction, and a third direction orthogonal to both the first and second directions. 2. The probe head of the three-dimensional coordinate measuring device according to claim 1 , wherein: the measurer further comprises a ball tip provided at a distal end of the measurer, and the second oscillator is configured to oscillate the predetermined portion of the measurer such that the ball tip makes a circular motion in a plane orthogonal to the first direction. 3. The probe head of the three-dimensional coordinate measuring device according to claim 1 , wherein the predetermined portion is a middle portion between the first and second diaphragms. 4. The probe head of the three-dimensional coordinate measuring device according to claim 1 , wherein the first and second oscillators are configured to cause the measurer to oscillate without touching the measurer. 5. The probe head of the three-dimensional coordinate measuring device according to claim 1 , wherein the second oscillator comprises: a first oscillation applier configured to cause the predetermined portion to oscillate along the second direction; and a second oscillation applier configured to cause the predetermined portion to oscillate along the third direction. 6. The probe head of the three-dimensional coordinate measuring device according to claim 5 , wherein: the first oscillator is configured to cause the measurer to oscillate at a first frequency, and the first and second oscillation appliers are configured to cause the predetermined portion to oscillate at a second frequency lower than the first frequency. 7. The probe head of the three-dimensional coordinate measuring device according to claim 6 , wherein: the first oscillation applier is configured to cause the predetermined portion to oscillate in a sine wave shape, and the second oscillation applier is configured to cause the predetermined portion to oscillate in a sine wave shape such that a phase of the oscillation differs by 90° from the oscillation caused by the first oscillation applier. 8. The probe head of the three-dimensional coordinate measuring device according to claim 1 , further comprising: a first detector configured to detect displacement of the measurer in the first direction; and a second detector configured to detect displacement of the predetermined portion in each of the second and third directions. 9. The probe head of the three-dimensional coordinate measuring device according to claim 8 , wherein the first and second detectors are further configured to detect displacement of the measurer without touching the measurer. 10. The probe head of the three-dimensional coordinate measuring device according to claim 8 , wherein the second detector further comprises: a first displacement sensor configured to detect displacement of the predetermined portion in the second direction; and a second displacement sensor configured to detect displacement of the predetermined portion in the third direction. 11. The probe head of the three-dimensional coordinate measuring device according to claim 1 , wherein the first oscillator is configured to cause the measurer to oscillate in a state where a force is applied to the measurer from one end side of the measurer to contact a measurable object toward an opposite end side of the measurer. 12. A touch detection method comprising: supporting a measurer such that the measurer is displaceable in a first direction, the measurer extending in the first direction and supported by first and second diaphragms which are provided at two different positions, at respective first and second positions, on the measurer; oscillating the measurer along the first direction; oscillating, along each of a second direction orthogonal to the first direction, and a third direction orthogonal to both the first and second directions, a predetermined portion of the measurer between the first and second diaphragms; displacing a ball tip provided at a distal end of the measurer toward a measurable object; and detecting contact between the ball tip and the measureable object based on displacement of the measurer in the first direction and displacement of the predetermined portion in each of the second and third directions. 13. The touch detection method according to claim 12 , wherein the detecting contact further comprises detecting a direction of the contact of the ball tip with the measurable object based on displacement of the measurer in the first direction and displacement of the predetermined portion in each of the second and third directions.