JP2013191442A - Power supply control board of accelerator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power supply control board the installation area of which is reduced, and the maintenance of which can be facilitated.SOLUTION: A power supply control board 3 includes an RF amplifier board 31 having a plurality of components constituting an RF amplifier circuit 31b, and a first housing 31a for housing the plurality of components, an RF control board 32 having a plurality of components constituting an RF power supply circuit 32b, and a second housing 32a for housing the plurality of components, a cyclotron control board 33 having a plurality of components constituting a cyclotron control circuit 33b, and a third housing 33a for housing the plurality of components, and a magnet control board 34 having a plurality of components constituting a magnet power supply circuit 34b, and a fourth housing 34a for housing the plurality of components. The first through fourth housings 31a-34a are installed along a wall surface 101a.

Description

  The present invention relates to a power control panel for an accelerator.

  Conventionally, as a technique in such a field, the facility described in Patent Document 1 below is known. This facility includes a cyclotron housed in a cyclotron room in the building. In this type of equipment, a cyclotron power supply control panel is provided, and the power supply control panel is composed of a large number of box-shaped units. The power supply control panel is installed, for example, in the center of the cyclotron room, with a large number of box-shaped units being fitted into a single frame.

JP-T-2006-504103

  However, when the power control panel is installed in the center of the room, the installation area of the power control panel becomes large. Further, in a configuration in which a large number of units are gathered, maintenance is complicated. In facilities equipped with this type of accelerator, it has been required to reduce the installation area of the power control panel and facilitate maintenance.

  An object of the present invention is to provide a power control panel for an accelerator that reduces the installation area and facilitates maintenance.

  The accelerator power control panel of the present invention is an accelerator power control panel, and includes a plurality of components constituting an RF amplifier circuit for amplifying high-frequency power supplied to the accelerator, and a first component housing the plurality of components. An RF amplifier board, a plurality of components constituting an RF power supply circuit for supplying high-frequency power to the RF amplifier, and a second casing for housing the plurality of components. An accelerator control panel having a power supply panel, a plurality of components constituting an accelerator control circuit for controlling the accelerator, and a third housing for housing the plurality of components, and a current in a magnet coil of the accelerator A plurality of components constituting a magnet power supply circuit for supplying a power supply, a fourth housing for housing the plurality of components, And a magnet power panel having the first to fourth housing is characterized by being installed along the wall surface in a building in which the accelerator is installed.

  In this power supply control panel, components constituting the RF amplifier circuit, the RF power supply circuit, the accelerator control circuit, and the magnet power supply circuit are collectively stored in the first to fourth casings. Furthermore, since the first to fourth housings are installed along the wall surface in the building, the installation area of the entire power control panel can be reduced. In addition, since the components constituting the RF amplifier circuit, the RF power supply circuit, the accelerator control circuit, and the magnet power supply circuit are collectively stored in the first to fourth housings for each function, maintenance is easy.

  Further, the cables that interconnect the RF amplifier panel, the RF power panel, the accelerator control panel, and the magnet power panel may be drawn from the upper surface side of each of the first to fourth housings. According to this configuration, it is not necessary to secure an extra cable installation space in addition to the installation spaces for the first to fourth housings.

  The accelerator has a movable opening / closing door that shields radiation and is opened / closed by parallel movement, and the first to fourth housings are arranged on a wall surface parallel to the moving direction of the moving opening / closing door. It is good to be. According to this configuration, the movable opening / closing door can move without interfering with the first to fourth housings.

  Moreover, said wall surface is a wall surface in the room where an accelerator is installed, and the first to fourth housings are arranged so as to be installed closer to the accelerator as the thickness protruding from the wall surface is thinner. It is good as well. According to this configuration, it is easy to effectively use the space between the first to fourth housings and the accelerator.

  The accelerator has an outer wall for shielding radiation, and the outer wall includes a movable opening / closing door that is shielded against radiation and opened / closed in parallel, among the first to fourth casings. The at least one casing may be installed in close contact with a wall surface of any one of the outer walls other than the movable opening / closing door.

  An object of the present invention is to provide a power control panel for an accelerator that reduces the installation area and facilitates maintenance.

It is a top view which shows the building where the power supply control panel which concerns on embodiment of this invention is installed. It is a front view of the power supply control panel of FIG. It is a top view which shows the example of other arrangement | positioning of a power supply control panel. It is a top view which shows the example of other arrangement | positioning of a power supply control panel. It is a top view which shows the state which changed the system of the moving door of the accelerator in FIG.

  Hereinafter, embodiments of a power control panel according to the present invention will be described in detail with reference to the drawings.

  In the cyclotron chamber 101 of the building 100 shown in FIG. 1, a cyclotron (accelerator) 1 used for positron emission tomography (PET) and a power control panel 3 for the cyclotron 1 according to this embodiment are installed. Has been. The adjacent room 105 partitioned by the cyclotron room 101 and the partition wall 103 is used as a hot lab room, for example.

  The cyclotron 1 having a square shape in plan view has four outer walls 5a, 5b, 5c and 5d for shielding radiation from the cyclotron main body (accelerator main body) 1a. The outer walls 5a to 5d are made of concrete, for example. Of these, the outer wall 5d is a movable door that is opened and closed during maintenance of the cyclotron main body 1a. Hereinafter, the outer wall 5d may be referred to as a “movable opening / closing door 5d”. The movable opening / closing door 5d is opened / closed by translating in the direction of arrow A. On the floor surface of the cyclotron chamber 101, a guide rail 107 for guiding the movable door 5d in the direction of arrow A is laid. The outer walls 5a to 5c are fixed to the cyclotron main body 1a. The cyclotron 1 is installed with the outer wall 5 b in close contact with the partition wall 103.

  The power supply control panel 3 is composed of four parts: an RF amplifier board 31, an RF power supply board 32, a cyclotron control board 33, and a magnet power supply board 34.

  The RF amplifier board 31 includes a plurality of components and one metal casing 31a that collectively stores the plurality of components. The plurality of components included in the RF amplifier board 31 constitute an RF amplifier circuit 31b for amplifying the high-frequency power supplied to the cyclotron 1. The RF amplifier circuit 31b includes, for example, a vacuum tube. The “component” refers to an assembly of electronic components including, for example, a circuit board on which each electronic component is mounted. Hereinafter, the metal casing 31a may be referred to as “first casing 31a”.

  The RF power supply panel 32 includes a plurality of components and a single metal casing 32a that collectively stores the plurality of components. The plurality of components included in the RF power supply panel 32 constitute an RF power supply circuit 32b for supplying high-frequency power to the RF amplifier circuit 31b. The RF power supply circuit 32b includes various power supply devices, for example. Hereinafter, the metal casing 32a may be referred to as a “second casing 32a”.

  The cyclotron control panel (accelerator control panel) 33 has a plurality of components and one metal casing 33a that collectively stores the plurality of components. The plurality of components included in the cyclotron control panel 33 constitute a cyclotron control circuit (accelerator control circuit) 33 b for controlling each part of the cyclotron 1. The cyclotron control circuit 33b includes, for example, a PLC circuit and an interface circuit. Hereinafter, the metal casing 33a may be referred to as a “third casing 33a”.

  The magnet power supply panel 34 includes a plurality of components and one metal casing 34a that collectively stores the plurality of components. The plurality of components included in the magnet power supply panel 34 constitute a magnet power supply circuit 34b for supplying current to the magnet coil of the cyclotron 1. The magnet power supply circuit 34b includes various power supply devices, for example. Hereinafter, the metal casing 34a may be referred to as a “fourth casing 34a”.

  The RF amplifier board 31, the RF power board 32, the cyclotron control board 33, and the magnet power board 34 are arranged in the arrow A direction along the wall surface 101a extending in parallel with the arrow A direction (the moving direction of the movable door 5d). ing. Further, the passing area B through which the movable opening / closing door 5d passes is an area indicated by a one-dot chain line in the drawing. The passage region B and the cyclotron main body 1a are arranged in a direction parallel to the wall surface 101a. According to such an arrangement, the movable open / close door 5d can move without interfering with the RF amplifier board 31, the RF power board 32, the cyclotron control board 33, and the magnet power board 34.

  The first casing 31a, the second casing 32a, the third casing 33a, and the fourth casing 34a are all arranged so that the back side is in close contact with the wall surface 101a of the cyclotron chamber 101. The first casing 31a, the second casing 32a, the third casing 33a, and the fourth casing 34a are respectively fixed to the wall surface 101a and the floor surface, for example. In such an arrangement, cables (for example, a data cable and a power cable) interconnecting the RF amplifier board 31, the RF power board 32, the cyclotron control board 33, and the magnet power board 34 are connected to the back side (the wall surface 101a side). ) Can not be pulled out. Therefore, as shown in FIG. 2, this type of cables 41 are drawn from the upper surface side of each of the first to fourth housings 31 a to 34 a. According to this configuration, it is not necessary to secure an extra space for the cables 41 in addition to the installation space for the first to fourth housings 31a to 34a.

  Components constituting the RF amplifier circuit 31b, the RF power supply circuit 32b, the cyclotron control circuit 33b, and the magnet power supply circuit 34b are respectively from the front side (the side opposite to the wall surface 101a) of the first to fourth casings 31a to 34a. Accessible. Therefore, when maintaining the RF amplifier board 31, the RF power board 32, the cyclotron control board 33, and the magnet power board 34, the front panel is opened and the maintenance is performed from the front side. That is, in this case, the space on the front side of the first to fourth housings 31 a to 34 a becomes the maintenance space 109.

  The first to fourth housings 31 a to 34 a are arranged so as to be installed at a position closer to the cyclotron 1 as the thickness protruding from the wall surface 101 a is thinner. Specifically, the third casing 33a and the fourth casing 34a have a relatively small thickness protruding from the wall surface 101a, and thus are disposed at positions close to the cyclotron 1. On the other hand, the first casing 31a and the second casing 32a have a relatively large thickness protruding from the wall surface 101a, and therefore are disposed at positions away from the cyclotron 1. According to such an arrangement, the space between the first to fourth housings 31a to 34a and the cyclotron 1 can be effectively used as the maintenance space 109, and the RF amplifier board 31, the RF power board 32, and the cyclotron control board. Maintenance of each part of 33 and the magnet power supply panel 34 can be performed easily.

  The outer walls 5a and 5c on the fixed side of the cyclotron 1 may be provided with mounting seats for fixing peripheral devices. As illustrated in FIGS. 3 and 4, some or all of the RF amplifier board 31, the RF power board 32, the cyclotron control board 33, and the magnet power board 34 are respectively connected to the mounting seats. It may be installed in close contact with the wall surface of the outer wall 5a or 5c. As an example of such an arrangement, FIG. 3 shows an example in which a cyclotron control panel 33 is attached to the fixed outer wall 5c, and FIG. 4 shows a magnet power panel 34 attached to the fixed outer wall 5a. This shows an example in which a cyclotron control panel 33 is attached to the outer wall 5c.

  In the power supply control panel 3 described above, the components constituting the RF amplifier circuit 31b, the RF power supply circuit 32b, the cyclotron control circuit 33b, and the magnet power supply circuit 34b each have one casing (first to fourth casings 31a to 31b). 34a) are stored together. Furthermore, since the first to fourth housings 31a to 34a are installed along the wall surface 101a, the installation area of the entire power supply control panel 3 can be reduced. The components constituting the RF amplifier circuit 31b, the RF power supply circuit 32b, the cyclotron control circuit 33b, and the magnet power supply circuit 34b are grouped into one casing (first to fourth casings 31a to 34a) for each function. Since it is stored, maintenance is easy. Further, according to the power supply control panel 3, the number of housings can be reduced as compared with the conventional power supply control panel having a configuration in which a large number of box-shaped units are gathered together, and thus the cost can be reduced.

  Further, since the installation area of the power supply control panel 3 can be reduced, the cyclotron chamber 101 of the PET cyclotron can be made smaller than before, so the construction cost of the building 100 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 may be modified without changing the gist described in each claim.

  For example, as shown in FIG. 5, instead of the movable opening / closing door 5d of the cyclotron 1, a double door type movable opening / closing door 15d may be adopted. In this case, the passing area through which the movable opening / closing door 15d passes is the area C indicated by a one-dot chain line in the drawing, and the passing area C and the cyclotron main body 1a are arranged in a direction parallel to the wall surface 101a.

  DESCRIPTION OF SYMBOLS 1 ... Cyclotron (accelerator), 1a ... Cyclotron main body (accelerator main body), 3 ... Power supply control panel, 5a-5d ... Outer wall, 5d ... Moving door, 31 ... RF amplifier board, 31a ... 1st housing | casing, 31b ... RF Amplifier circuit, 32 ... RF power supply panel, 32a ... second casing, 32b ... RF power supply circuit, 33 ... cyclotron control panel (accelerator control panel), 33a ... third casing, 33b ... cyclotron control circuit (accelerator control circuit) 34 ... Magnet power supply panel, 34a ... 4th housing, 34b ... Magnet power supply circuit, 100 ... Building, 101 ... Cyclotron room, 101a ... Wall surface, A ... Direction of movement of moving door, B, C ... Passing area.

Claims (5)

An accelerator power control panel,
An RF amplifier board having a plurality of components constituting an RF amplifier circuit for amplifying high-frequency power supplied to the accelerator; and a first housing for housing the plurality of components;
An RF power supply panel having a plurality of components constituting an RF power supply circuit for supplying high-frequency power to the RF amplifier, and a second housing for housing the plurality of components;
An accelerator control panel having a plurality of components constituting an accelerator control circuit for controlling the accelerator, and a third housing for housing the plurality of components;
A magnet power board having a plurality of components constituting a magnet power supply circuit for supplying a current to the magnet magnet coil of the accelerator, and a fourth housing for housing the plurality of components;
The accelerator power supply control panel, wherein the first to fourth casings are installed along a wall surface in a building where the accelerator is installed.   The cables that interconnect the RF amplifier board, the RF power board, the accelerator control board, and the magnet power board are drawn from the upper surface side of each of the first to fourth housings. The accelerator power supply control panel according to claim 1, wherein the accelerator power control panel is an accelerator. The accelerator has a movable opening / closing door that shields radiation of the accelerator body and is moved and opened with respect to the accelerator body,
The passing area through which the movable opening / closing door passes is as follows:
3. The accelerator power control panel according to claim 1, wherein the accelerator main body is arranged in a direction parallel to a wall surface on which the first to fourth housings are arranged with respect to the accelerator main body. The wall surface is a wall surface in the room where the accelerator is installed,
The said 1st-4th housing | casing is arrange | positioned so that it may be installed in the position near the said accelerator, so that the thickness which protrudes from the said wall surface is thin. The power control panel of the accelerator described in 1. The accelerator has an outer wall for shielding radiation;
The outer wall includes, in part, a movable opening / closing door that shields radiation and moves and opens and closes,
The at least one casing among the first to fourth casings is installed in close contact with a wall surface of any one of the outer walls other than the movable opening / closing door. The power control panel of the accelerator according to 1 or 2.

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