JPH01209076A - Power source device for radiation remedying device - Google Patents

Abstract

PURPOSE:To easily control a voltage impressed to an electron gun by providing a voltage-dividing means between a common high voltage source and the electron gun. CONSTITUTION:The output of a pulse modulator 1A is shared for a magnetron 4 and an electron gun 8. When a high voltage switch 16 is in a prescribed first condition and in a direct impressing mode at the electron gun 8 side, a high voltage from the pulse modulator 1A is directly impressed to a first pulse transformer 6. When the high voltage switch 16 is in a prescribed second condition and in a voltage-dividing impressing mode, the high voltage of a J from the pulse modulator 1A is voltage-divided by a voltage-dividing resistance 14 and a vacuum tube 15 and, thereafter, impressed to the second pulse transformer 6. Thus, the voltage impressed to the electron gun 8 is changed.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a power supply device for a radiation therapy device, and in particular, in a radiation therapy device using a linear accelerator, a microwave power source and an electron gun power source are connected to each other. The present invention relates to a power supply device for a radiation therapy apparatus that can be shared.

[Prior Art] FIG. 2 is a schematic configuration diagram showing a power supply device for a radiation therapy apparatus as a conventional example. In this Figure 2, a first pulse modulator (1) is associated with a first heater transformer (3) for a magnetron (4) via a first pulse transformer (2), and a second pulse modulator (1) is associated with a first heater transformer (3) for a magnetron (4). (
5) connects the electron gun (
8) is associated with the second heater transformer (7). And (10) is an accelerator, and this accelerator (
A magnetron (4) is connected to the first input terminal of 10), and an electron gun (8) is connected to the second input terminal thereof.

Note that a current monitor (9) is provided in connection with the conductor connecting the electron gun (8) and the second input terminal of the accelerator (10), and the conventional power supply device for radiation therapy equipment is configured as described above. has been done.

Next, the operation of the above conventional example will be explained. A large pulsed power is supplied from the first pulse modulator (1) to a magnetron (4) for generating high-power microwaves via a first pulse transformer (2) for boosting. Further, power is supplied from the second pulse modulator (5) to the electron gun (8) via a second pulse transformer (6) for boosting the voltage. The current corresponding to the electron flow from the electron gun (8) to the accelerator (1o) is measured by the current monitor (
9) is monitored.

By the way, when a radiation therapy apparatus using such a power supply device is an apparatus for electron beam therapy, normally,
It is necessary to significantly reduce the amount of electron beam extracted from the electron gun. Therefore, it is inevitable that the operation of the second pulse modulator provided in connection with the electron gun becomes complicated.

[Problems to be Solved by the Invention] The conventional power supply device for radiation therapy equipment is configured and operates as described above, and separate pulse modulators are provided for each of the magnetron and the electron gun. Therefore, there are problems in that the installation area becomes large, the manufacturing cost and maintenance cost become high, and the handling becomes complicated.

This invention was made in order to solve the above-mentioned problems, and allows the pulse modulator for the magnetron and electron gun to be shared, reducing the installation area and reducing the manufacturing and maintenance costs. The object of the present invention is to obtain a power supply device for a radiation therapy device that is easy to handle.

[Means for Solving the Problems] A power supply device for a radiation therapy apparatus according to the present invention includes a magnetron, an electron gun, a high voltage source common to these, and inputs for the magnetron and the electron gun, respectively. an accelerator connected to a terminal, and voltage dividing means is provided between the common high voltage source and the electron gun.

[Function] In the present invention, the voltage applied to the electron gun can be easily controlled by the voltage dividing means provided between the common high voltage source and the electron gun.

[Example] Hereinafter, an example of the present invention will be described with reference to the drawings. 1st
The figure is a schematic configuration diagram showing a power supply device for a radiation therapy apparatus which is an embodiment of the present invention. In this FIG. 1, a pulse modulator (IA) as a high voltage source is associated via a first pulse transformer (2) with a first heater transformer (3) for the magnetron (4). Further, this pulse modulator (1△) is connected to the electron gun (8) from a connection circuit (described later) via a second pulse transformer (6).
) is also associated with a second heater transformer (7). And (10) is an accelerator, and this accelerator (
A magnetron (4) is connected to the first input terminal of the IO), and an electron gun (8) is connected to its second input terminal. In addition, the electron gun (8) and the second accelerator (10)
A current monitor (9) is provided in connection with the conductor connecting the input terminal. The above connection circuit includes a series circuit consisting of a voltage dividing resistor (14) and a predetermined vacuum tube (15) as voltage dividing means, which are connected in parallel to the pulse modulator (1^), and a voltage dividing resistor (14) and a predetermined vacuum tube (15). 14) and a high voltage switch (16) connected in parallel with the high voltage switch (16), and a second pulse is connected between the output side of this high voltage switch (16) and the quad of the vacuum tube (15). A primary winding of a transformer (6) is interposed. Furthermore, a conductor connected to the current monitor (9) is connected to the negative input terminal of the differential amplifier (11).
A conducting wire connected to an emission setting device (12) is connected to the other input terminal. And differential amplifier (11)
The output terminal side of is connected to a grid of vacuum tubes (15) via a suitable amplifier (13).

Next, the operation of the embodiment of the present invention shown in FIG. 1 will be explained. The output of the pulse modulator (IA) is shared by the magnetron (4) and the electron gun (8), but the magnetron (4) side is similar to the conventional example described above. The explanation will be omitted.

Looking at the electron gun (8) side, the high voltage switch (16
) is in a predetermined first state and in direct application mode, the high voltage from the pulse modulator (1Δ) is directly applied to the second pulse transformer (6). On the other hand, when the high voltage switch 16) is in the predetermined second state and in the divided voltage application mode, the high voltage from the pulse modulator (18) is applied to the voltage dividing resistor (14) and the vacuum tube (15). ) and then applied to the second pulse transformer (6). And the ratio of the above partial pressures is:
It can be arbitrarily changed depending on the operation of the emission setter (12) or the connected differential amplifier (11).

In this way, since the magnitude of the voltage applied to the electron gun (8) can be arbitrarily changed, the amount of electron beam from this electron gun (8) can be easily adjusted. can.

In addition, in the embodiment described in -F, the voltage dividing resistor (14) and the vacuum tube (
15) are used, but these may be replaced in reverse.

[Effects of the Invention] As explained above, the power supply device for a radiation therapy apparatus according to the present invention includes a magnetron, an electron gun, a high voltage source common to these, and a power source for each of the magnetron and the electron gun. and an accelerator connected to a corresponding input terminal, and a voltage dividing means is provided between the common high voltage source and the electron gun.
The installation area is reduced, manufacturing costs and maintenance costs are reduced, and handling is simplified.

[Brief explanation of the drawing]

FIG. 1 is a schematic configuration diagram showing a power supply device for a radiation therapy apparatus as an embodiment of the present invention, and FIG. 2 is a schematic configuration diagram showing a power supply device for a radiation therapy device as a conventional example. (18) is a pulse modulator (high voltage source), (4) is a magnetron, (8) is an electron gun, (10) is an accelerator, 14) is a voltage dividing resistor, and 15) is a vacuum tube. Here, voltage dividing means is constituted by a voltage dividing resistor (14) and a vacuum tube (15). In addition, in the figures, the same reference numerals indicate the same or corresponding parts.

Claims (1)

[Claims] (1) A power supply device for a radiation therapy apparatus comprising a magnetron, an electron gun, a high voltage source common to these, and an accelerator in which the magnetron and the electron gun are connected to respective input terminals, A power supply device for a radiation therapy apparatus, characterized in that a voltage dividing means is provided between the common high voltage source and the electron gun.