JPH03146030A - Magnetic resonance imaging device - Google Patents

Abstract

PURPOSE:To easily set a surface coil to a desired position by moving an arm supporting body in the lengthwise direction of a top board by an arm supporting body moving mechanism. CONSTITUTION:On a top board 4 of a bed 3, a guide rail 6 is provided along the lengthwise direction of the top board 4. To this guide rail 6, an arm supporting body 8 for supporting a flexible arm 7 is engaged so as to be freely slidable, and to the tip of the flexible arm 7, a coil holder 9 for holding a surface coil 5 is attached. On the inside of the arm supporting body 8, an arm supporting body moving mechanism 10 for moving it in the lengthwise direction of the top board 4 is provided. When an ultrasonic motor 11 is driven by a remote controller 19, driving force of the ultrasonic motor 11 is transmitted to a driving roller 15 through a pulley 12, a belt 13 and a pulley 14, therefore, the arm supporting body 8 is moved in the lengthwise direction of the top board 4. Accordingly, the surface coil 5 can be set easily to a desired position, and an operator's burden can be reduced.

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial Application Field) The present invention relates to a magnetic resonance imaging apparatus (hereinafter referred to as an MRI apparatus) for obtaining tomographic images of a living body using magnetic resonance phenomena. It is.

(Prior Art) An outline of an MRI apparatus is shown in FIG. In the same figure, MR
A cylindrical cavity 2 is formed in the center of the I-device main body 1. A magnet for generating a static magnetic field, a coil for generating a gradient magnetic field, a transmitting/receiving coil, etc. are arranged around the cylindrical cavity 2.Three magnetic fields (static magnetic field) are generated within the cylindrical cavity 2 by these magnets and coils. , gradient magnetic field, and excitation rotating magnetic field) are generated in a superimposed manner.

Further, a bed 3 is installed near the MRI apparatus main body 1 so as to face the cylindrical cavity 2 . A top plate 4 is provided on the bed 3, and is slidable in the length direction by a top plate sliding mechanism (not shown).

Therefore, when obtaining a tomographic image of a living body (subject) with the MRI apparatus configured as described above, the top plate 4 is slid in the length direction and the subject on the top plate 4 is placed in the cylindrical cavity 2. A static magnetic field, a gradient magnetic field, and an excitation rotating magnetic field are generated respectively by a static magnetic field generating magnet, a gradient magnetic field generating coil, and a transmitting/receiving coil arranged around the cylindrical cavity 2. Then, magnetic resonance signals excited by these magnetic fields are extracted by a transmitting/receiving coil, and a tomographic image of the subject is obtained through signal processing.

However, in such an MRI apparatus, the surface coil 5 may be used to detect magnetic resonance signals in order to diagnose a local region. This surface = coil 5 can be placed at a desired position, but conventionally, the surface coil 5 was placed above the subject to detect magnetic resonance (No. 3), so the surface coil 5 The position of the camera may shift.

Therefore, in order to solve this problem, the surface coil 5 is held in a coil holder provided at the tip of the flexible arm, and the flexible arm is supported by an arm support screwed onto the top plate 4. There is a method that prevents misalignment of the 1 (Problems to be Solved by the Invention) However, in the above-mentioned MRI apparatus, the arm support screwed onto the top plate 4 is attached and detached to set the surface coil 5 at a desired position. The problem was that it was a heavy burden.

The present invention has been made in view of the above problems, and its object is to provide an MRI apparatus in which the surface coil can be easily set at a desired position.

[Structure of the Invention] (Means for Solving the Problems) In order to solve the above problems, the present invention provides an MRI apparatus main body L1 having a built-in static magnetic field generating magnet, a gradient magnetic field generating coil, a transmitting/receiving coil, etc. A bed installed opposite to the hollow part of the MRI apparatus main body, a top plate provided on the bed, a top plate sliding mechanism for sliding the top plate in the length direction, and a top plate provided on the top plate. A guide rail provided along the length, an arm support slidably engaged with the guide rail, a flexible arm supported by the arm support, and a surface provided at the tip of the flexible arm. a coil holder that holds the coil;
The apparatus includes an arm support moving mechanism that moves the arm support in the length direction of the top plate, and a remote control means that remotely controls the arm support moving mechanism.

(Function) In the present invention, since the arm support can be moved in the length direction of the top plate by the arm support movement mechanism, the surface coil can be easily moved to a desired position.

(Example) Hereinafter, an example of the present invention will be described with reference to FIGS. 1 and 2.

FIG. 1 is a perspective view showing a part of the bed in the MRI apparatus, and as shown in the figure, a guide rail 6 is provided on the top plate 4 of the bed 3 along the length direction of the top plate 4. There is. An arm support 8 that supports a flexible arm 7 is slidably engaged with the guide rail 6, and a coil holder 9 that holds the surface coil 5 is attached to the tip of the flexible arm 7. ing. Note that the top plate 4
is adapted to slide in the length direction by a top plate sliding mechanism (not shown).

Further, inside the arm support 8, as shown in FIG. 2, an arm support moving mechanism 10 for moving the arm support 8 in the length direction of the top plate 4 is provided. This arm support moving mechanism 10 includes an ultrasonic motor 11 fixed to the arm support 8, and transmits the driving force of the ultrasonic motor 11 to a drive roller 5 via a pulley 12, a belt 13, and a pulley 14. Consists of a power transmission mechanism 16,
The drive roller 15 is in contact with the inner surface of the guide rail 6. Note that 17 is a guide roller. Further, as shown in FIG. 1, a remote controller 19 is connected to the arm support 8 via a cable 18, and the arm support moving mechanism 10 can be remotely controlled by this remote controller 19. Therefore, the flexible arm 7 can be moved in the length direction of the top plate 4 using this remote controller 19. At this time, the flexible arm 7 can be moved in the length direction of the top plate 4 by a certain amount by setting a button or the like. Furthermore, by connecting the cable 18 to the control section of the MRI apparatus, the operator can perform remote control not only from a single remote controller but also from a console (not shown).

In such a configuration, when the ultrasonic motor 11 is driven by one remote controller, the ultrasonic motor 11
Since the driving force is transmitted to the drive roller 15 via the pulley 12, belt 13, and pulley 14, the arm support 8 can be moved in the longitudinal direction of the top plate 4. therefore,
In this embodiment, the surface coil 5 can be easily set at a desired position, and the burden on the operator can be reduced. Further, in this embodiment, since the ultrasonic motor 11 is used as the drive source for the arm support moving mechanism 10, the surface coil 5 can be moved in the length direction of the top plate 4 even under a static magnetic field.

Note that the present invention is not limited to the above embodiments,
Various modifications can be made without departing from the spirit of the invention.

[Effects of the Invention] As explained above, the present invention includes an MRI apparatus main body which includes a magnet for generating a static magnetic field, a coil for generating a gradient magnetic field, a transmitting/receiving coil, etc. a bed installed on the bed, a top board provided on the bed, a top slide mechanism for sliding the top board in the length direction, and a guide provided along the length on the top board. A rail, an arm support slidably engaged with the guide rail, a flexible arm supported by the arm support, a coil holder provided at the tip of the flexible arm to hold a surface coil, and the arm. The apparatus includes an arm support moving mechanism that moves the support in the length direction of the top plate, and a remote control means that remotely controls the arm support moving mechanism.

Therefore, it is possible to provide an MRI apparatus in which the surface coil can be easily set at a desired position and the burden on the operator can be reduced.

[Brief explanation of the drawing]

1 and 2 show one embodiment of the present invention, FIG. 1 is a perspective view showing a part of a bed in an MRI apparatus, and FIG. 2 is a sectional view taken along the line ■-■ in FIG. 1. , FIG. 3 is a perspective view schematically showing the MRI apparatus. 1... MRI apparatus body, 2... Cylindrical cavity, 3...
Bed, 4... Top plate, 5... Surface coil, 6... Guide rail, 7... Flexible arm, 8... Arm support, 9... Coil holder, 10... Arm Support moving mechanism, 11... Ultrasonic motor, 15...
Drive roller, 17...Guide roller, 1...Remote controller.

Claims (2)

[Claims] (1) An MRI device main body that contains a magnet for generating a static magnetic field, a coil for generating a gradient magnetic field, a transmitting/receiving coil, etc., a bed installed facing the cavity of the MRI device main body, and a bed installed on the bed. a top plate, a top plate slide mechanism for sliding the top plate in the length direction, a guide rail provided along the length direction on the top plate, and a slideably engaged with the guide rail. a flexible arm supported by the arm support; a coil holder provided at the tip of the flexible arm to hold a surface coil; and a coil holder for moving the arm support in the length direction of the top plate. A magnetic resonance imaging apparatus comprising: an arm support moving mechanism; and remote control means for remotely controlling the arm support moving mechanism. (2) The magnetic resonance imaging apparatus according to claim 1, wherein the arm support moving mechanism uses an ultrasonic motor as a driving source.