KR20010091239A - Magnetic measuring device of cycloron electromagnet - Google Patents

Abstract

PURPOSE: An apparatus for measuring a magnetism of a cyclotron electromagnet is provided to efficiently use a cyclotron by including an X-axis driving unit, a Y-axis driving unit, and a driving control unit. CONSTITUTION: A measuring bar(2) is fixed with a magnetic flux sensor(1). An X-axis driving unit shifts the measuring bar(2) to the X-axis direction. A Y-axis driving unit shifts the measuring unit(2) to the Y-axis direction. A driving control unit controls the X-axis driving unit(3) and the Y-axis driving unit so that the magnetic flux sensor(1) moves from the center of the magnetic flux to a radioactive direction. The measuring bar(2) is restrictively installed by the Y-axis driving unit in horizontal components(6) installed on a main frame(7).

Description

Magnetic measuring device of cyclotron electromagnet

The present invention relates to a magnetic measuring device of a cyclotron electromagnet, and more particularly, to configure the magnetic field sensor so as to be movable in the X-axis and the Y-axis so that the entire magnetic field data from the center of the magnetic flux of the electromagnet to the radial can be obtained. I did it.

In general, cyclotron draws out 18 ~ 50MeV proton beams with 20 ~ 70 세기 intensity according to the purpose of cyclotron application research, neutron irradiation and radioisotope production. And a large-scale system with strong nonlinear characteristics in which the beam transporter and the like are mutually coupled.

Here, the electromagnet is usually H type, and the magnetic passage is composed of four pieces of upper and lower yokes and two pieces of left and right yokes, and two upper and lower magnetic poles, and the coil is a main coil and 10 sets of concentric circular controls. The main coil is a coil that controls the rotational movement of particles. The main coil is a square copper conductor tube, which is made of epoxy and 켑 ton thin film as an insulator.

Electromagnet as described above is provided with a magnetic flux sensor on the outer periphery of the electromagnet to secure the data of the magnetic field, and rotates the electromagnet to measure the magnetic field only in the concentric direction.

However, the conventional magnetic field measuring device for measuring the magnetic field only in the concentric direction on the outer circumferential edge away from the center of the electromagnet as described above cannot obtain the data of the entire magnetic field, and there is a limitation of the use space and the shape of the electromagnet If the size is changed, there was a problem that a new magnetic field measuring device must be manufactured.

Therefore, the problem of data acquisition ability, economic loss and legality has been raised continuously.

Thus, the present invention was created to solve the above problems, the measuring rod is fixed to the magnetic flux sensor, the X-axis drive unit for moving the measuring rod to the X-axis, the Y-axis drive unit for moving the measuring rod to the Y-axis And a drive control unit configured to control the X-axis drive unit and the Y-axis drive unit so that the measuring rod is radially formed at the center of the magnetic flux, and the magnetic flux sensor is movable in the X-axis and the Y-axis to radiate data from the center of the magnetic flux. It will be able to rotate 360 degrees while acquiring.

1 is a perspective view showing an embodiment according to the present invention.

Figure 2 is a cross-sectional view showing an embodiment according to the present invention.

3 is a circuit diagram showing an embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: Magnetic flux sensor 2: Measuring rod

3: X-axis drive unit 4: Y-axis drive unit

5: Z axis drive unit

6: horizontal member 7: main body

8: drive control unit

20: electromagnet

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to enable the efficient operation of the cyclotron by acquiring the overall magnetic field data of the electromagnet, Figure 1 is a perspective view showing an embodiment according to the present invention, Figure 2 is an embodiment according to the present invention 3 is a circuit sectional view showing an embodiment according to the present invention, a magnetic flux sensor 1, a measuring rod 2 to which the magnetic flux sensor 1 is fixed, and the measuring rod 2 X-side drive unit 3 for moving the X axis to the X axis, Y-side drive unit 4 for moving the measuring rod 2 to the Y axis, and the magnetic flux sensor 1 move in the radial direction from the center of the magnetic flux. It consists of a drive control unit 8 for controlling the X-side drive unit 3 and the Y-side drive unit (4).

Here, the measuring rod (2) can be implemented to be restrained on the horizontal member 6 is fixed to the main body 7 via the Y-side drive unit (4).

On the other hand, according to another embodiment of the present invention, the horizontal member 6 fixed to the main body 7 is provided with the Z-side driving part 5 so as to move up and down to secure the magnetic flux data of the electromagnet 20 in three dimensions. It can be.

Hereinafter, the operation of the present invention will be described.

As described above, the magnetic flux sensor 1 is provided with an X-side driving unit 3 and a Y-side driving unit 4 for moving in the radial direction from the center of the magnetic flux, and the X-side driving unit 3 and the Y-side driving unit 4 According to the present invention, there is provided a drive control unit (8) for controlling the above, and the horizontal member (6) on which the X-side drive unit (3), the Y-side drive unit (4), and the measuring rod (2) are fixedly installed. When installed in the electromagnet 20 to be operated, the magnetic flux sensor 1 moves in the radial direction to the center of the magnetic flux by controlling the X-side drive unit 3 and the Y-side drive unit 4 to the drive control unit 8 when actuated. The entire magnetic flux of the electromagnet 20 is measured.

In addition, since the horizontal member 6 includes the Z-side driving part 5 so as to be movable up and down, the magnetic flux data of the electromagnet 20 can be secured in three dimensions.

Therefore, the present invention is to provide the entire data of the electromagnet to operate the cyclotron efficiently by having the X-axis drive unit, Y-axis drive unit and the drive control unit to move the magnetic flux sensor in the radial direction from the center of the magnetic flux .

In addition, the three-dimensional magnetic flux data of the electromagnet can be secured by the Z-axis driving unit, and it is very useful that can be used universally regardless of the size and shape of the electromagnet.

Claims (2)

A measuring rod 2 to which the magnetic flux sensor 1 is fixed, an X side driving portion 3 for moving the measuring rod 2 to the X axis, and a Y side driving portion for moving the measuring rod 2 to the Y axis. (4) and a drive control unit 8 for controlling the X-side drive unit 3 and the Y-side drive unit 4 so that the magnetic flux sensor 1 is moved in the radial direction from the center of the magnetic flux. The measuring rod (2) is a magnetic measuring device of a cyclotron electromagnet, characterized in that configured to be restrained on the horizontal member (6) fixed to the main body (7) via the Y-side drive unit (4). The method of claim 1, The horizontal member (6) fixed to the main body (7) is provided with a Z-side drive unit (5) to move up and down, the magnetic measuring device of the cyclotron electromagnet.