JP2828975B2 - Magnetic resonance imaging equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to a magnetic resonance (MR) of a subject.
e) a magnetic resonance imaging apparatus that obtains an MR image of the subject using a phenomenon. (Prior art) Magnetic resonance imaging apparatus (hereinafter referred to as MRI apparatus)
Applies a uniform static magnetic field to a desired part of the subject, and a transmission RF coil that forms an RF magnetic field in a direction perpendicular to the static magnetic field causes a magnetic resonance phenomenon only in a specific slice portion where a tomographic image is obtained. And a magnetic resonance signal (hereinafter referred to as an MR signal) generated from the nucleus after the RF magnetic field is released.
A composite MR signal is obtained by applying a linear magnetic field gradient having a linear gradient to the X'-axis direction (a coordinate system rotated by θ ゜ from the X-axis) on the static magnetic field. By subjecting this signal to Fourier transform, the X 'axis of the slice portion is rotated in the XY plane, and projection information in each direction in the XY plane is obtained, so that an MR image can be formed. By the way, some of such MRI apparatuses include a magnet apparatus in which the strength of a magnetic field is enhanced by utilizing superconducting technology, and such an apparatus is particularly called a superconducting MRI apparatus. Superconductivity is realized by cooling the magnet device, particularly the coil portion, with liquid helium (L-He) as a cooling medium. The magnet device is usually provided with a liquid helium meter (L-He meter) for displaying the remaining amount of liquid helium, and the L-He meter is used to check the remaining amount of the cooling medium. (Problems to be Solved by the Invention) However, the conventional method for confirming the remaining amount of the cooling medium needs to be performed separately from the operation of the MRI apparatus by using an L-He meter arranged in a room different from the operation room. This is a major factor that hinders shortening of startup time. Also,
In some cases, the operator may fail to confirm the remaining amount of the cooling medium due to an error. SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has as its object to provide an MRI apparatus capable of shortening the system start-up time and preventing the remaining amount of the cooling medium from being confirmed. [Configuration of the Invention] (Means for Solving the Problems) The present invention relates to a magnet device for forming a predetermined magnetic field in a superconducting state by a cooling action of a cooling medium, a console for issuing various operation commands by an operator's operation, and A cooling medium detecting means for detecting the remaining amount of the cooling medium, and a display arranged near the console for displaying information on the remaining amount of the cooling medium based on the detection result of the cooling medium detecting means. Means. (Operation) According to the above configuration, since information on the remaining amount of the cooling medium can be displayed on the display means, the operator can grasp the remaining amount of the cooling medium on the console and start the system. It is possible to shorten the time and prevent the remaining amount of the cooling medium from being confirmed. (Examples) Hereinafter, the present invention will be described specifically with reference to examples. The drawings show an embodiment of the present invention. As shown in the drawing, the apparatus of this embodiment includes a console 1, a display unit 2, a comparator 3, a cooling medium detecting unit 5, and a magnet device 6. The console 1 issues various operation commands to the apparatus of this embodiment by an operation of an operator, and a display unit 2 is provided on the console 1. The display means 2 normally displays the imaging conditions and the MR image of the subject, but here, it can also display information on the remaining amount of the cooling medium, which is a feature of the present embodiment. It has become one of. The magnet device 6 includes a plurality of coils for generating various magnetic fields such as a static magnetic field, a gradient magnetic field, and a selective excitation magnetic field, and a subject is disposed in the magnet device 6. The static magnetic field forming coil is cooled by a cooling medium such as liquid helium, and the remaining amount of the liquid helium is detected by the cooling medium detecting means 5. For example, an existing liquid helium meter can be applied to the cooling medium detecting means 5. The detection result of the cooling medium detecting means 5 is transmitted to one input terminal of the comparator 3 as a change in the output voltage Vo. The comparator 3 compares the transmitted Vo with the reference voltage _VREF, and the result of the comparison is transmitted to the console 1. Here, the reference voltage V _REF is adjusted in advance to be equal to the output voltage Vo of the cooling medium detecting means 5 when the allowable remaining amount of the liquid helium is reached. Next, the operation of the embodiment apparatus configured as described above will be described. The value of the output voltage Vo of the cooling medium detecting means 5 changes in proportion to the remaining amount of liquid helium. And this Vo is the reference voltage
When V _REF or less, the output state of the comparator 3 changes, this state change is transmitted to the console 1, and information on the remaining amount of the cooling medium is displayed on the display means 2 according to the output state change of the comparator 3. . Various formats can be considered as the information display method. For example, host CPU
It is preferable to display a character indicating "injection required" on a part of the system initialization screen via the (central processing unit). By doing so, the operator always checks the remaining amount of liquid helium when starting up the system via the console 1. Note that the MR image formation by the apparatus of the present embodiment is the same as that of the conventional apparatus, and the description thereof will be omitted. As described above, in the apparatus of the present embodiment, the display means 2 on the console 1 displays information on the remaining amount of liquid helium, so that the operator always confirms the remaining amount of liquid helium when starting up the system. Can be performed, and the leakage of the remaining amount of liquid helium can be prevented. In addition, since it is not necessary to go out to the place where the liquid helium meter is provided for checking the remaining amount of the liquid helium, the time required for starting up the system can be reduced. Although one embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and it goes without saying that various modifications can be made. For example, in the above-described embodiment, a description has been given of a case in which a character display indicating "injection required" is performed in accordance with the output state of the comparator 3. Various data processing such as a change with time of the remaining amount of the data may be performed, and this may be displayed on the display unit 2. [Effects of the Invention] As described above in detail, according to the present invention, it is possible to provide an MRI apparatus which aims to shorten the system start-up time and prevent the remaining amount of the cooling medium from being confirmed.

[Brief description of the drawings] The drawing is an explanatory view of a main part of the apparatus according to one embodiment of the present invention. 1 ... console, 2 ... display means, 5 ... cooling medium detecting means, 6 ... magnet device.

Claims (1)

(57) [Claims] In a magnetic resonance imaging apparatus having a magnet device that forms a predetermined magnetic field in a superconducting state by a cooling action of a cooling medium and a console that performs various operation commands by an operation of an operator, and obtains magnetic resonance information of a subject, A cooling medium detecting unit configured to detect a remaining amount of the cooling medium; and a display unit disposed near the console and configured to display information regarding the remaining amount of the cooling medium based on a detection result of the cooling medium detecting unit. Magnetic resonance imaging device. 2. 2. The magnetic resonance imaging apparatus according to claim 1, wherein liquid helium is applied to the cooling medium.