DE1036407B - X-ray tube - Google Patents

Description

GERMAN

In the German patent 1 015 547 an X-ray tube is described in which the anode relative to the cathode is movably arranged and the usable X-rays through the focal point of the anode in enter the usable space, with one between the body carrying the cathode and the anode body Seal is arranged. Furthermore, replaceable anode membranes have already been proposed in the main patent to use. The arrangement according to the invention, in particular, the X-ray tube ίο further perfected after the main patent.

In the case of an X-ray tube with a replaceable anode membrane, in particular according to patent 1 015 547, according to the invention, the anode membrane on which the The body carrying the anode membrane by means of a two-part clamping ring into which the anode membrane is clamped is, mechanically releasably attached, and between the anode membrane and said body a vacuum seal is arranged.

In a preferred embodiment, the anode membrane is with the two-part clamping ring advantageously by means of screws on a flange of the Anode membrane-supporting body attached. The named body expediently has a recess for receiving the flange-side ring of the said two-part clamping ring. The one facing away from the flange Part of the clamping ring advantageously has a trapezoidal cross-section. Furthermore it is favorable to form the body carrying the anode membrane in such a way that the attached anode membrane with the outside of the ring facing away from the flange lies approximately in one plane.

In an advantageous embodiment, the anode membrane is opposite to atmospheric pressure relieved by a support body. To attach the said support body, for example on the The anode membrane can also be soldered on or cemented, and is conveniently located in the middle of the anode membrane a preferably circular opening seen in front, so that the support body, which is expedient consists of a mushroom-shaped upper part, a seal and a lower part by pressing the lower part is connected to the membrane in a vacuum-tight manner.

The housing part ·.} Surrounding the anode membrane and / or the support body are provided with such a housing geometric shape that the flow resistance of the cooling liquid is preferably due to the in the surrounding area of the focal point (circular ring) is determined by the prevailing flow conditions.

The invention is to be explained in more detail using an exemplary embodiment shown in FIGS. 1 and 2. In

Fig. 1 is an overall diagram of an X-ray tube

Addendum to patent 1,015,547

Applicant:

Max Planck Society

for the promotion of science e.V.,

Göttingen, Bunsenstr. 10

Dr. Otto Heuse, Kronberg (Taunus), has been named as the inventor

Embodiment of the X-ray tube according to the invention shown, while in

Fig. 2 schematically and compared to Fig. 1 enlarged and disassembled some of the in a replacement the anode membrane parts to be loosened are shown.

As can be seen from FIG. 1, the lower part of the rotatable anode 111, which, among other things, consists of parts 121, 122 releasably connected to one another by screws 140, 191 , and the membrane 13, which is shown only by a line in the figure, surrounded by a cooling medium 16. Said parts that are detachably connected to one another are sealed against the vacuum by seals 76 a, 76 b. It can also be seen from the figure that the lower part of the rotatable anode is surrounded by housing parts 180, 181, 182, 183 which are mechanically releasably connected to one another by screws and the outer window membrane 15 which is expediently made of aluminum and which is only shown by a line in the figure . The ball bearings 202, 203 are sealed off from the coolant by means of sealing sleeves. For the sake of clarity, only the inlet connection 141 and the outlet connection 142 of the cooling circuit are shown. To replace the anode membrane, the lower, fixed part of the X-ray tube can be removed after loosening the sleeve 190 and the screws 143. This makes the screws 191, which are used to fasten the anode membrane, accessible. After it has been released, the membrane 13 clamped between the rings 192, 193 of a two-part clamping ring can easily be exchanged. The rings 192, 193 are expediently connected to one another by screws. As can be seen from the figure, there is between anode mem-

£ C9 597/457

bran 13 and the part 122 a seal 76 b. Before an anode membrane 13 fastened between two rings 192, 193 is clamped , the ring 194 and the seal 76 b are inserted into recesses in the part 122 provided for this purpose. After the screws 191 have been tightened, the anode membrane is then pressed firmly against them.

Furthermore, the part 122 has a flange in which a recess for receiving the flange-side ring 192 is provided. In addition, the flange is designed so that the tightly tightened anode membrane lies approximately in one plane with the outside of the side of the ring 193 facing away from the flange. As a result, flow resistances which are disruptive to the cooling medium 16 are avoided.

After the anode membrane 13 has been clamped in, a support body is attached by means of which the anode membrane is relieved of atmospheric pressure.

As can be seen from the figure, the support body consists of a mushroom-shaped upper part 195 which can be inserted through an opening provided in the center of the anode membrane. For the vacuum seal, as can be seen from the figure, a sealing ring 76 d is used, against which the stamp 199 presses the membrane in the tightened state, whereby a vacuum-tight seal is effected. In the exemplary embodiment, the tightening takes place by means of the sleeve 190.

The support body is movably mounted in a ball bearing 203, which absorbs the proportion of the atmospheric pressure acting in the direction of the axis of rotation. It can also be seen from the figure that a sleeve 196, the position of which can be adjusted by means of the nut 197 and the lock nut 198 , is provided between the ball bearing 203 and the upper part 195. By means of the aforementioned setting, the distance between the anode membrane 13 and the outer window membrane 15 can be changed in a simple manner. The outer window membrane 15 is stretched over the portion 181 using the same principles used in attaching the anode membrane 13. The outer window membrane 15 also has an opening in its center. At the opening, the membrane is pressed against the part 183 by a ring (not shown in more detail in the figure) after a seal has been placed in between. The outer window membrane is clamped between a clamping ring and part 182 by means of small screws and, after inserting a seal 76c, is fastened to part 181 by means of screws.

It is also advantageous that the part 121 is mechanically releasably connected to the part 122 by screws 140 with the interposition of a seal 76a. With this construction, after loosening the screws 140 and the nut 197, which also loosens the seat of the support body in the ball bearing 203 in such a way that the lower housing part can be easily removed, and after loosening the screws 140 without unclamping the anode membrane and without any other changes the centering of the support body, the cathode easily accessible.

Claims (13)

Patent claims: J. X-ray tube with exchangeable anode membrane, in particular according to patent 1 015 547, characterized in that the anode membrane is mechanically detachable attached to the body (122) carrying the anode membrane by means of a two-part clamping ring in which the anode membrane is clamped and that between the anode membrane and a vacuum seal is placed on said body (122). 2. X-ray tube according to claim 1, characterized in that a flange is provided on the body (122) for fastening the anode membrane. 3. X-ray tube according to claim 1 or 2, characterized in that the anode membrane is fastened to the body (122) by means of screws. 4. X-ray tube according to claim 1 or one of the following, characterized in that a recess for receiving the flange-side ring (192) of the two-part clamping ring is provided on the body (122). 5. X-ray tube according to claim 1 or one of the following, characterized in that the ring (193) of the two-part clamping ring has a trapezoidal cross-section. 6. X-ray tube according to claim 1 or one of the following, characterized by such a design of the body (122) that in the attached anode membrane, the outside of the ring (193) and the anode membrane are approximately in one plane. 7. X-ray tube according to claim 1 or one of the following, characterized in that the The anode membrane is relieved of atmospheric pressure by a support body. 8. X-ray tube according to claim 7, characterized in that the support body with the anode membrane, which has a preferably circular opening in its center, connected in a vacuum-tight manner is. 9. X-ray tube according to claim 8, characterized in that the support body consists of a mushroom-shaped Consists of an upper part, a seal and a lower part. 10. X-ray tube according to claim 7 or one of the following, characterized in that the Support body is movably mounted in such a way that the proportionate, acting in the direction of the axis of rotation Atmospheric pressure is absorbed by the camp. 11. X-ray tube according to claim 10, characterized in that a sleeve (196) fastened by a nut in the bearing is provided for mounting the mushroom-shaped upper part. 12. X-ray tube according to claim 7 or one of the following, characterized in that mechanical means, for. B. lock nuts (198) are provided for adjusting the layer thickness of the cooling liquid between the anode membrane and the outer window membrane. 13. X-ray tube according to claim 1 or one of the following, characterized by such geometric shape of the housing parts surrounding the anode membrane and / or of the support body, that the flow resistance of the cooling liquid is preferably due to the environment of the focal point (circular ring) prevailing. Flow conditions is determined. Considered publications:
Austrian Patent No. 125 917;
U.S. Patent Nos. 2,209,963, 2,342,789. 1 sheet of drawings © 809 597/457 p. 5 »