SU559694A1 - Diaphragm - Google Patents

Description

one

This invention relates to the field of medical technology, in particular to diaphragms for medical accelerators and isotope installations.

A diaphragm is known, consisting of protective blocks, a cornus and mechanisms for independent movement of blocks 1.

However, such a diaphragm does not provide a clear formation of fields of various configurations.

The aim of the invention is to provide a clear formation of the fields of various configurations by moving the rectangular forming aperture during the irradiation process.

This goal is achieved by the fact that the diaphragm includes a movable frame with an independent drive, on which protective blocks are installed, with the possibility of moving it in a direction not perpendicular to the direction of non-displacement of the protective blocks, the movable frame being installed on the curved guide bodies such that when it is moved, they have a nonstop intersection point that coincides with the location of the radiation source.

FIG. 1 shows a diaphragm with a bearing removed, top view; in fig. 2 is a section along the line A-A in FIG. one.

The device comprises a housing 1, two protective blocks 2, 3 of the L-shaped form forming a rectangular forming hole, mechanisms 4, 5 of their independent movement, a movable frame 6 with an independent drive 7 on which the blocks 2, 3 are mounted, moving in the direction perpendicular to the direction of non-displacement of blocks. The frame 6 is installed on the curvilinear guides 8, 9 of the cornea 1 so that the forming planes of the blocks 2, 3 when it is moved have a nonstop intersection point,

coinciding with the location of the source of izlchencheniya (not shown in the drawing ah). The device works as follows. The forming planes of the protective blocks 2, 3 form a rectangular forming

a hole, one size of which is stationary and equal to the size of the l-shaped protrusion on the protective blocks, and the other size is changed by moving the protective blocks relative to each other along curvilinear

guides 10, 11, 12, 13. Thus, a rectangular forming hole of a given size is obtained. The protective blocks are moved using mechanisms 4 and 5.

The half of the rectangular forming aperture relative to the gamma axis is changed by the naked and displaced movable frame b along the curvilinear linear axis 1, their 8, 9, and those of the drive 7.

The change of protective blocks and iodvigy frame in the process of irradiation, gradually form iole arbitrary predetermined configuration.

By moving the protective blocks and the iodine frame along curvilinear directions, 10, 11, 12, 13, 8, and 9, the forming planes of the search blocks always have a common movement point and intersection where the gamma-ray source is located.

The proposed universal diaphragm allows the irradiation process to independently change the size of the rectangular forming hole relative to the gamma lens axis, postieino form an arbitrary configuration field without using special additional protective blocks placed between the diaphragm and the patient, significantly reduce the preparation time of the patient irradiation session and reduce the shadow along the edges of the irradiation floor.

Formula aa: about b and e and

Claims (2)

1. The diaphragm containing the case, two protective L-shaped blocks that form a rectangular forming hole, and mechanisms for their independent movement, characterized in that, in order to ensure the clear formation of fields of various configurations by moving the rectangular forming hole in the irradiation process it includes a mobile frame with an independent drive, protective blocks mounted on the frame, and the latter is mounted for movement in direction, perpendicular to the direction of movement of the protective units. 2. The diaphragm according to claim 1, characterized in that curved guides are installed in its housing, and the basement on the frame fixed on them so that when moving the frame, the forming planes of the protective blocks have a constant intersection point coinciding with the location of the radiation source. Sources of information required in the examination: 1. Pagent of Great Britain No. 802647, cl. 98/1 / R /, 1964. five J3 Iff ig. 2