MRI apparatus, operation method thereof, and quenching prevention device

The invention claimed is: 1. A magnetic resonance imaging apparatus, comprising: a superconducting magnet; a gradient magnetic field coil that applies a gradient magnetic field to imaging space; a high-frequency coil that applies a high-frequency magnetic field to the imaging space; a control unit that controls operations of the gradient magnetic field coil and the high-frequency coil to execute a predetermined imaging sequence; and a quenching prevention sequence execution unit that executes a quenching prevention sequence to vibrate the superconducting magnet in a time period for which the control unit does not execute the imaging sequence. 2. The magnetic resonance imaging apparatus according to claim 1 , wherein the quenching prevention sequence is a sequence of applying a gradient magnetic field to the superconducting magnet by driving the gradient magnetic field coil. 3. The magnetic resonance imaging apparatus according to claim 1 , wherein the quenching prevention sequence execution unit includes a coil for vibration, which applies a gradient magnetic field for vibrating the superconducting magnet to the superconducting magnet, apart from the gradient magnetic field coil, and the quenching prevention sequence vibrates the coil for vibration. 4. The magnetic resonance imaging apparatus according to claim 1 , wherein the quenching prevention sequence is a sequence of applying alternating gradient magnetic fields with opposite gradient directions to the superconducting magnet. 5. The magnetic resonance imaging apparatus according to claim 4 , wherein a frequency of each of the alternating gradient magnetic fields or a frequency of the harmonic matches a resonance frequency of the superconducting magnet. 6. The magnetic resonance imaging apparatus according to claim 1 , wherein the quenching prevention sequence is an imaging sequence. 7. The magnetic resonance imaging apparatus according to claim 6 , wherein the control unit executes a phantom imaging sequence of capturing a phantom and performing predetermined image analysis before executing the predetermined imaging sequence, and the quenching prevention sequence is executed under the same imaging conditions as the phantom imaging sequence. 8. The magnetic resonance imaging apparatus according to claim 6 , wherein the quenching prevention sequence also serves as a phantom imaging sequence, and the control unit performs the image analysis using an image captured by the quenching prevention sequence. 9. The magnetic resonance imaging apparatus according to claim 1 , wherein the quenching prevention sequence execution unit executes the quenching prevention sequence repeatedly at predetermined time intervals. 10. The magnetic resonance imaging apparatus according to claim 1 , wherein the quenching prevention sequence execution unit notifies an object or an operator that the quenching prevention sequence is about to be executed before executing the quenching prevention sequence. 11. The magnetic resonance imaging apparatus according to claim 1 , wherein the quenching prevention sequence execution unit includes a detection section configured to detect that an object or an operator is in a predetermined range around the superconducting magnet before executing the quenching prevention sequence. 12. The magnetic resonance imaging apparatus according to claim 11 , wherein, when the detection section detects that an object or an operator is in the range, the execution of the quenching prevention sequence is delayed. 13. A magnetic resonance imaging apparatus, comprising: a superconducting magnet; a gradient magnetic field coil that applies a gradient magnetic field to imaging space; a high-frequency coil that applies a high-frequency magnetic field to the imaging space; and a control unit that controls operations of the gradient magnetic field coil and the high-frequency coil to execute a predetermined imaging sequence, wherein the control unit executes a predetermined imaging sequence for vibration in order to vibrate the superconducting magnet in a time period for which the imaging sequence is not executed. 14. An operation method of a magnetic resonance imaging apparatus that includes a superconducting magnet and images an object by executing a predetermined imaging sequence, the operation method comprising: vibrating the superconducting magnet in order to prevent quenching of the superconducting magnet in a time period for which the predetermined imaging sequence is not executed. 15. The operation method of a magnetic resonance imaging apparatus according to claim 14 , wherein the magnetic resonance imaging apparatus includes a gradient magnetic field coil, and the superconducting magnet is vibrated by generating a gradient magnetic field in the gradient magnetic field coil in order to prevent the quenching. 16. The operation method of a magnetic resonance imaging apparatus according to claim 14 , wherein the magnetic resonance imaging apparatus includes a gradient magnetic field coil for vibration, which generates a gradient magnetic field in order to apply the gradient magnetic field to the superconducting magnet, apart from a gradient magnetic field coil used in the imaging sequence, and the superconducting magnet is vibrated by generating a gradient magnetic field in the gradient magnetic field coil for vibration. 17. An operation method of a magnetic resonance imaging apparatus that includes a superconducting magnet and images an object by executing a predetermined imaging sequence, the operation method comprising: imaging a phantom in order to prevent quenching of the superconducting magnet in a time period for which the predetermined imaging sequence is not executed, and executing a quenching prevention sequence to vibrate the superconducting magnet in a time period for which the imaging sequence is not being executed. 18. An operation method of a magnetic resonance imaging apparatus including a superconducting magnet, the operation method comprising: a step of imaging an object by applying an imaging sequence; a step of performing an operation to pause the imaging; and a step of executing a quenching prevention sequence to vibrate the superconducting magnet after the pause operation is performed and in a time period for which the imaging sequence is not being executed. 19. A quenching prevention device of a magnetic resonance imaging apparatus including a superconducting magnet, comprising: a gradient magnetic field coil for vibration that generates a gradient magnetic field for vibrating the superconducting magnet; a current supply unit that performs an operation, which is for supplying an alternating current to the gradient magnetic field coil for vibration for a predetermined time, repeatedly at predetermined time intervals; and a quenching prevention sequence execution unit that executes a quenching prevention sequence to vibrate the superconducting magnet in a time period for which the magnetic resonance imaging apparatus does not execute an imaging sequence. 20. A magnetic resonance imaging apparatus, comprising: a superconducting magnet; a gradient magnetic field coil that applies a gradient magnetic field to imaging space; a high-frequency coil that applies a high-frequency magnetic field to the imaging space; and a control unit that controls operations of the gradient magnetic field coil and the high-frequency coil to execute a predetermined imaging sequence; and a quenching prevention