DE417711C - Device for deep irradiation with X-rays - Google Patents

Description

According to your main patent 417121 and the Additional patents 417709 and 417710 are included a device for deep irradiation with X-rays the X-ray tube and the high-voltage parts are completely separated from the treatment room by the tube and its supply lines are housed in a radiation-tight and gas-tight protective housing are. To allow freedom of movement to position the patient to be treated under the aperture for the exit of the X-rays In particular, a proposal was made to obtain an X-ray tube to use, the electrode necks are arranged in a V-shape against each other, so that the The tubular ball containing the anticathode is as close as possible to the aperture and the Side walls of the chamber beveled downwards and those containing the tube Part cone or pyramid shape can be tapered downwards.

According to the invention, an even further tapering of the protective housing and thus an increase in the accessibility of the space under ^{1 of} the tube is brought about by using an X-ray tube with only one electrode neck and a grounded anti-cathode. The X-ray tube can be provided in a known manner with a metallic or glass wall and a metallic anticathode inserted into it.

Some embodiments of the invention are shown in the figures. Fig. 1 first shows the tube for itself. This consists of a cylindrical glass tube 1, the upper end of which is provided with a connection cap 2 for the anticathode 3. In the A circular platinum foil 4 is embedded in the lower end of the glass tube the cathode rays strike, and from the outside of which emits the X-rays. This anticathode is made of glass Surrounding vessel 5, by means of pipe connections 6 and 7 during the pipe operation Cooling water is passed.

Fig. 2 shows a side view of a wall-mounted tubular chamber with the um the focal point of the X-ray tube, which can be moved in all directions.

Fig. 3 is a cross-section along the line AB.

The protective housing 8 surrounding the high-voltage line and the X-ray tube runs conically downwards at a relatively acute angle. Subsequently to this conical housing part 9, which is provided with a round cutout, is the tube holder arranged. This consists of a thick-walled one provided with a cylinder diaphragm 11 Ball shell 12 made of lead, the center of which is the starting point of the X-ray radiation coincides and which is mounted on the housing part 9 in all directions up to a certain angle. On this bowl .12 there are two rods 14 made of insulating material, between the ends of which the upper part of the X-ray tube is clamped is. At the lower end, the tube with the cooling container 5 rests in the spherical shell 12. The tube's anticathode is

Claims (2)

provided with a conductor that connects to the spherical shell and through it to the earthed Protective housing connects so that the return line of the tube current is secured via earth is. The ones required for the cooling water connection with the pipe sockets 6 and 7 connected hoses 15, 16 are inside of the protective housing 9, 8 through the wall 10 separating the treatment room led outside. The X-ray tube can also be fixed by means of the [Cooling vessel 5 directly to the spherical shell 12 so that the rods can be omitted fourteenth For the incident radiation · in vertical; In the direction from top to bottom, the axis of the X-ray tube coincides with that of the conical part 9 of the protective housing. For oblique failure radiation, obtainable by ^comparison: make the spherical shell, tilts the cathode i denhals according to the Auefallwinfcel, and <therefore, it is the taper angle of the conical j-shaped housing part 9 such that i at .the largest tube inclination, the distance ; the cathode connection point 2 from the inside wall of the chamber is sufficiently large to prevent flashover even at the highest voltages used. ; An even narrower, and therefore more space let free end of the tubular housing is _in: shown a section through a somewhat different embodiment AB pointing Fig. 4. In general, the structure is; the same as in the case of the housing according to FIG. 2. There is only a difference in that the conical housing part 9 does not have a circular cross-section, but is designed to be pressed flat on the side. This is made possible by the fact that the X-ray tube is only adjustable in the longitudinal direction of the protective housing, so that the tapering angle of the conical housing part 9 in the plane lying parallel to the wall 10 is less than perpendicular to it, as the cross-section according to Fig 4 shows. The tube holder 12, designed as a spherical shell according to Fig. 2, is now expediently cylindrical and rotatable with the tube about its axis running parallel to the wall 10 the exit point of the x-ray: the whole: room is free on all sides. A cylindrical iron frame 20 covered with lead plates is arranged next to an opening 18 in the ceiling 19 of the treatment room. Around this are on the ceiling; Rollers 21 are provided, over which weight-loaded wire ropes run, which carry a cylindrical part 22 which can be displaced over the first cylinder 20. This part 22 is adjoined by a conical part 23 which tapers to a point and in which the X-ray tube is fastened in a holder 24. The connection line for the cathode of the X-ray tube is routed vertically through the individual parts of the Schuitz housing and the opening in the ceiling, which is also used to remove nitorser gases. The tube holder 24 has the shape of a spherical shell and is rigidly connected to the conical housing part 23. He has a larger opening which is covered by a provided with a cylinder diaphragm 11 spherical hood 25 made of lead. This spherical cap is mounted in such a way that it can be displaced in all directions along the surface of the holder 24, so that up to a certain maximum angle of inclination any obliquely directed beam bundles can be cut out of the radiation emanating from the anticathode of the X-ray tube in all directions. In the event that no opening in the ceiling can be used, the protective housing can as shown in Fig. 5 and the connection line through its upper to the Ceiling-attached part in the form of a heavily protected high-voltage cable with expedient grounded metal jacket laterally hergo. One can also be in his Length according to Fig. 5 adjustable protective housing on a self-supporting horizontal Connect the line protection duct arranged on the wall. Patent claims : ι. Facility for deep irradiation with X-ray tubes according to patent 417121, thereby characterized in that in the downwardly tapered protective housing with a substantially tubular X-ray tube earthed anticathode, suitably connected to the metal parts of the protective housing and the cathode connected to the high voltage is arranged, for the purpose of a greater tapering of the conical or pyramidal shape Enable part. 2. Hardware- according to claim 1, characterized in that a suitably mounted to the ceiling of cylindrical or prismatic, adjustable in its length part is positioned above the tapered portion of the protective housing to the X-ray greater Hö'henverstellungen n ₅ genröhre to achieve can. 1 sheet of drawings.