Magnetic resonance imaging apparatus and control method thereof

What is claimed is: 1. A magnetic resonance imaging (MRI) apparatus comprising: MRI gantry components including static and gradient magnetic field generators, at least one radio frequency (RF) coil coupled to an imaging volume, at least one RF transmitter, at least one RF receiver and at least one control computer having a processor and memory configured to control said gantry components so as to effect operations including: applying a uniform static magnetic field to a subject; applying a radio-frequency magnetic field and a gradient magnetic field to the subject in accordance with a predetermined pulse sequence and collecting from the subject within one heart beat period of the subject (a) magnetic resonance signals for reconstruction acquired using phase encoding magnetic gradient fields, and (b) a magnetic resonance signal for monitoring and at least one magnetic resonance signal for display both acquired without applying phase encoding gradient magnetic fields; detecting a first respiratory level for the subject using the magnetic resonance signal for monitoring; detecting a second respiratory level for the subject using the at least one magnetic resonance signal for display; generating a display image of the detected second respiratory level, an upper threshold of an allowable range and a lower threshold of the allowable range; causing a display system to display the generated display image to the subject; and reconstructing an image of the subject using the collected magnetic resonance signals for reconstruction when the detected first respiratory level falls within the allowable range. 2. The magnetic resonance imaging apparatus according to claim 1 , wherein the at least one control computer being further configured to effect: collecting the magnetic resonance signals for monitoring and display for an excitation slice or an excitation slab disposed in a target part that is present in the subject; and acquiring positional information of the target part based on the collected magnetic resonance signals for monitoring and display; and detecting the respiratory levels based on the acquired positional information. 3. The magnetic resonance imaging apparatus according to claim 2 , wherein the at least one control computer is configured to determine a diaphragm as the target part. 4. The magnetic resonance imaging apparatus according to claim 1 , wherein the at least one control computer is further configured to effect collecting the magnetic resonance signals for monitoring and display without applying the phase encoding gradient magnetic field immediately before collecting the magnetic resonance signals for reconstruction with application of the phase encoding gradient magnetic field. 5. The magnetic resonance imaging apparatus according to claim 1 , wherein the at least one control computer is further configured to effect detecting the second respiratory level at each of plural predetermined timings, and generating the display image showing a relationship between the latest detected second respiratory level and the upper and lower thresholds. 6. The magnetic resonance imaging apparatus according to claim 1 , wherein the at least one control is further configured to effect correcting the collected magnetic resonance signals for reconstruction in order to reduce an influence of a fluctuation in the respiratory level. 7. The magnetic resonance imaging apparatus according to claim 1 , wherein: at least one display device of the display system is disposed in a magnetically shielded first room where the static magnetic field generator is disposed, the display image being generated in a second room different from the first room, and wherein the magnetic resonance imaging apparatus further comprises a transmission unit configured to optically transmit the generated display image from the second room to the first room. 8. The magnetic resonance imaging apparatus according to claim 7 , wherein: The at least one control computer is further configured to effect generating image information for the display image, the transmission unit is configured to transmit the image information using an optical signal, and the display system is configured to reproduce and display the display image using the image information. 9. The magnetic resonance imaging apparatus according to claim 7 , wherein: The at least one control computer is further configured to effect generating the display image as a visible light image, the transmission unit is configured to transmit the visible light image, and the display system is configured to project the visible light image to eyes of the subject. 10. A method for controlling a magnetic resonance imaging (MRI) apparatus, the apparatus comprising MRI gantry components including static and gradient magnetic field generatore, at least one radio frequency (RF) coil coupled to an imaging volume, at least one RF transmitter, at least one RF receiver and at least one control computer having a processor and memory configured to control said gantry components so as to effect operations including applying a uniform static magnetic field to a subject in the imaging volume, a radio-frequency magnetic field, and a gradient magnetic field to the subject in accordance with a predetermined sequence, collecting from the subject within one heart beat period of the subject (a) magnetic resonance signals for reconstruction acquired using phase encoding magnetic gradient fields, and (b) a magnetic resonance signal for monitoring and at least one magnetic resonance signal for display both acquired without applying a phase encoding gradient magnetic field, and reconstructing an image of the subject based on the collected magnetic resonance signals for reconstruction, said method comprising: detecting a first respiratory level for the subject using the magnetic resonance signal for monitoring; detecting a second respiratory level for the subject using the at least one magnetic resonance signal for displaying; generating a display image depicting the detected second respiratory level and an upper threshold of an allowable range and a lower threshold of the allowable range; displaying the display image to the subject; and controlling the magnetic resonance imaging apparatus to reconstruct the image of the subject using the magnetic resonance signals for reconstruction collected by the magnetic resonance imaging apparatus when the detected first respiratory level falls within the allowable range.