DE283858C - - Google Patents

Description

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PATENT OFFICE.

PATENT LETTERING

- JVi 283858 - CLASS 21g. GROUP

X-ray tube. Patented in the German Empire on February 11, 1914.

In the previous X-ray tubes, a converging beam of rays is applied to the antique code thrown. Here, the dimensions of the tube, the electrode spacing, etc. are made so that the point of convergence of the .Strahlenbündels is as possible on the anticathode. But there is the constriction point the cathode rays from the vacuum, the discharge curve and the type of

ίο depends on the tube and the cathode, so lies they are not always on the anticathode, so the focus is not always point-like and also is not constant.

The basic idea of the invention now lies in the constriction point of the converging Do not let the cathode ray beam fall onto the anticathode at all and therefore not to use it as a focus, but first in the path of the X-rays To involve organs that are decisive for the type of imaging. It doesn't matter whether the cathode rays in front of or behind their largest constriction point on the anticathode to meet. In this way it is possible either to achieve a very sharp central projection with an absolute radiation center or through a grid-like design of the artificial, projecting radiation source enlarged, reduced or parallel projective To achieve representations.

An absolute radiation center can be achieved by using a diaphragm only a very small opening within the tube is brought as close as possible to the anticathode (Fig. 5). This device blocks out all stray rays, while those passing through the opening, that is, crossing each other in it, and therefore rays emanating from a very small projection center alone are decisive for the image generation. Enlarged, reduced or parallel projective Representations can be achieved by placing a mitrailleusen-like in front of the anticathode inside or outside the tube Grid is set from individual, through one from a radiopaque or at least tubes connected to radiation strongly absorbing mass. The individual tubes of the grid stand, depending on whether they are enlarged or reduced or want to achieve parallel projective representations, divergent, convergent or parallel. With the facility, however, you can not only zoom in and out at will or images of the same size can be generated, but it can either be created by using a parallel raster a parallel irradiation of a body can be achieved, so that the doses given at the different depths are only gradually distributed distinguish the absorption loss or by using a converging grid larger doses are given even at depth than at the surface. With converging Radiation can also be the problem

jection center are relocated into the body, so that isolated images of otherwise themselves covering organs can be achieved. As particularly indicative of this invention it may be emphasized that the cathode rays cover a fairly large area of the Anticathode must hit, so a diffuse X-ray beam from the anticathode emanates from everyone who is there

ίο formed innumerable individual centers the ray paths can be cut out for the purposes of the picture because they are under run the intended angle.

FIGS. 1 to 5 illustrate the subject matter of the invention. FIGS. 1 to 3 and 5 are self-evident after the statements made above. Fig. 4 illustrates the application in a stereoscopic recording, which is supposed to show that the recordings are being made at the same time can make. The numbers in the figures have the following meanings: 1 cathode, 2 cathode rays, 3 anti-cathode, 4 x-rays, which pass through the grid or the small opening (Fig. 5) and onto the object hit, 5 and 6 x-rays absorbed by the pipe grid, 7 pipe grid, 8 object, 9 plate.

Claims (1)

Patent Claims: i. X-ray tube, characterized in that the point of convergence of the cathode rays does not lie on the anticathode and in the pang of the x-rays to enhance the image appropriate Organs are turned on. .2. X-ray tube according to Claim 1, characterized in that the diffuse X-ray bundles through the inclusion of diverging, converging or parallel tube grids those rays are dimmed, which should not be used to generate the X-ray image (Fig. ι to 4). 3. X-ray tube according to claim 1, characterized in that the X-rays go through a narrow hole that acts like a pinhole camera (Fig. 5). 1 sheet of drawings.