JPH03161Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field This invention relates to an antenna used in an MRI apparatus that creates an image of the inside of a patient's body using nuclear magnetic resonance phenomena.

PRIOR ART The antenna of an MRI apparatus is usually composed of a saddle-shaped coil.
As shown in the figure, a copper plate 6 was wound around the outer peripheral surface of a cylindrical body 1 made of acrylic resin. In this figure, a one-turn saddle-shaped coil is formed from the copper plate 6, but a variety of antennas can be made by using the copper plate 6 in various shapes.

Problems the invention aims to solve However, constructing the antenna of an MRI device by wrapping a copper plate around a synthetic resin cylinder has the drawbacks of requiring labor to manufacture and not being easy to replace. .

This device is easy to manufacture and easy to replace.
The purpose is to provide an antenna for an MRI device.

Means for Solving the Problems The antenna of the MRI apparatus according to this invention has a predetermined conductive pattern, and a planar flexible printed circuit board with removable connecting parts at the ends of the conductive pattern is curved into a cylindrical shape. The electrically conductive patterns are connected to each other by the detachable connection parts.

Function A conductive pattern is formed on a flat flexible printed circuit board, and a removable connection part is provided at the end of the conductive pattern.

Therefore, an antenna for an MRI apparatus can be constructed simply by curving this planar flexible printed circuit board into a cylindrical shape and connecting conductive patterns using detachable connecting parts.

Such curving is easy because the flexible printed circuit board is highly flexible, and the conductive patterns can be easily connected using detachable connecting parts.

Therefore, if several types of flexible printed circuit boards having different conductive patterns are prepared, it is easy to replace them to form a desired antenna.

Further, since the conductive patterns are connected by detachable connecting parts, the degree of freedom of the conductive patterns can be increased, and an antenna having any pattern can be constructed.

Embodiment In FIG. 1, a flexible printed circuit board 2 is wrapped around the outer peripheral surface of a cylindrical body 1 made of acrylic resin. A conductive pattern 3 having a predetermined pattern is formed on the flexible printed circuit board 2 . This conductive pattern 3 is, for example,
A pattern as shown in the developed view of FIG. 2 is used so that a one-turn saddle-shaped coil is formed. As shown in FIG. 1, a connector 4 is provided at one end of this flexible printed circuit board 2, and by inserting the other end 5 into this connector 4, the conductive patterns 3 are electrically connected to each other, and the cylindrical A loop is formed that goes around the body 1 once.

In this case, it is easy to improve the accuracy of the shape of the conductive pattern 3 formed on the flexible printed circuit board 2, and since the flexible printed circuit board 2 is highly flexible, it is tightly attached to the outer peripheral surface of the cylindrical body 1. It can be easily wrapped. Therefore, it is easy to reduce the unevenness of the surface of the antenna and improve the geometrical accuracy.

By attaching and detaching the connector 4, the flexible printed circuit board 2 itself can be easily attached and detached from the cylindrical body 1, so it is easy to prepare several types of flexible printed circuit boards 2 with different conductive patterns 3 and replace them. It is.

Note that the connector 4 may be configured to be attached and detached using detachable connecting parts other than the connector 4 as described above.

Furthermore, in the above, the flexible printed circuit board 2 was wrapped around the outer circumferential surface of the acrylic resin cylinder 1, but this flexible printed circuit board 2 can be used as a stand-alone device for patient care without using the acrylic resin cylinder 1. It is also possible to form an antenna for an MRI device by winding the antenna closely together to form a cylindrical shape.

Effects of the invention The antenna of the MRI apparatus of this invention is easy to process and manufacture, has high precision, is easy to replace, and has a large degree of freedom in conductive patterns.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of an embodiment of this invention, FIG. 2 is a developed view of a flexible printed circuit board, and FIG. 3 is a perspective view of a conventional example. DESCRIPTION OF SYMBOLS 1... Acrylic resin cylinder, 2... Flexible printed circuit board, 3... Conductive pattern, 4... Connector, 6... Copper plate.

Claims (1)

[Claims for Utility Model Registration] (1) A planar flexible printed circuit board having a predetermined conductive pattern and a removable connecting part at the end of the conductive pattern is curved into a cylindrical shape, and the above-mentioned removable MRI in which the above conductive patterns are connected by connecting parts.
device antenna. (2) The MRI apparatus antenna according to claim 1, wherein the flexible printed circuit board is curved into a cylindrical shape by being wrapped around a cylindrical body made of synthetic resin. (3) The MRI according to claim 1 of the utility model registration claim, wherein the flexible printed circuit board itself is curved into a cylindrical shape.
device antenna.