DE4430623C2 - X-ray image intensifier - Google Patents

Description

The invention relates to an X-ray image intensifier with a Input screen, which is connected to a Housing is connected vacuum-tight. Such an x-ray amplifier is known from DE 25 13 894 A1. The clamp connection is made there by means of an additionally required Rings created.

In known vacuum tubes, such as. B. X-ray image intensifiers, there is the one that transmits the X-rays or gamma rays Entrance screen made of weakly absorbent materials, such as e.g. B. beryllium, titanium or aluminum. The casing of the Roentgen gene image intensifier consists of heavy metals such as steel or Stainless steel. For vacuum-tight connection of the entrance screen with the housing it is known, at least those to be connected Nickel-plated or silver-plated surfaces and then carry out a diffusion welding. As is known, can a pressure weld or a friction weld, a wedge friction welding or with particularly thin foils, such as titanium fo lien, a direct weld a corresponding connection bring about. Such an X-ray image intensifier is off known from DE 26 19 293 B2.

The object of the invention is a vacuum-tight connection between an input screen of an X-ray image intensifier and to manufacture its housing in a cost-effective manner.

The object is achieved by the subject of Claim 1 solved. Advantageous configurations are specified in the subclaims.

To explain the invention, reference is made below to FIGS. 1 to 4.

Fig. 1-4 show the process steps for bringing about a clamping connection between the edge of the input screen and the edge of the housing.

In the figures, the same elements are provided with the same reference characters. Reference number 1 denotes a housing and reference number 2 denotes an input screen of an x-ray image intensifier. From Fig. 1 it can be seen that an edge 3 of the housing 1 is angled Z-shaped. An edge 4 of the input screen 2 is placed on the part of the edge 3 which is oriented horizontally in the figures. To manufacture a clamping connection according to the invention, the vertically oriented end edge part in FIG. 1 is bent around the edge 4 of the input screen 2 , so that the edge 4 is held in a clamping connection ( FIG. 2).

In Fig. 3 it is shown that a clamping device 5 engages the flanged edge 3 of the housing 1 and that a force P acts on it to bring about a diffusion adhesion. The edges 3 , 4 are pressed for about 30 minutes at a temperature of about 500 ° C., so that the aluminum begins to flow and the aluminum oxide skin tears open, causing diffusion adhesion between the aluminum and the steel.

Provided, as shown in Fig. 4, a section 6 of the pressing device 5 with a spline 7 , surface defects of the edges 3 and 4 , such as. B. scratches and Drehril len be equalized when pressing.

According to an advantageous variant, the mutually facing contact surfaces of the edges 3 and 4 are provided with a sealing material, for example an adhesive, which cures during a subsequent vacuum heating. Suitable adhesives are e.g. E.g .: EPO.Tek 314 , Shore D80, No. 7030, No. 952, No. 954, Durapot 863 , which are manufactured by Polytec GmbH, Waldbornn.

According to a further variant, the mutually facing contact surfaces of the edges 3 , 4 are coated with a polyimide lacquer as a sealing compound. During the vacuum bake at a temperature of e.g. B. 250 ° C, the polyimide reacts to a completely and vacuum-filling film.

Claims (4)

1. X-ray image intensifier with an input screen (2) which is vacuum-tightly connected by means of a clamping connection with a housing (1), characterized in that an edge (3) of the housing (1) around the edge (4) of a gear shield (2) is laid to generate the clamp connection. 2. X-ray image intensifier according to claim 1, wherein the edge ( 4 ) of the input screen ( 2 ) via a diffusion adhesion with the edge ( 3 ) of the housing ( 1 ) is connected. 3. X-ray image intensifier according to claim 1, wherein the edge ( 4 ) of the input screen ( 2 ) via an adhesive connection with the edge ( 3 ) of the housing ( 1 ) is connected. 4. X-ray image intensifier according to claim 1, wherein the edge ( 4 ) of the input screen ( 2 ) via a polyimide with the edge ( 3 ) of the housing ( 1 ) is connected.