DE581946C - Arrangement for material examination by means of X-rays - Google Patents

Description

ISSUED ON
AUGUST 5, 1933

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21 g GROUP 19 oi

C. H. F. Müller Akt.-Ges. in Hamburg-Fuhlsbüttel *) Arrangement for material examination by means of X-rays

Patented in Deutsclien Reiche on November 17, 1928

To generate the monochromatic ones used for material investigation purposes X-rays are used X-ray tubes with an anode material of different types Ordinal numbers whose characteristic K-radiation can be obtained by electron bombardment stimulates.

The specific load capacity of the anode surface, i. H. the maximum that can be supplied electrical Power per unit area, depends on the melting point and the thermal conductivity of the anode material. she is therefore limited and thus also the maximum achievable X-ray yield.

In order to still be able to carry out an increase in intensity, a trick has been used which consists of ¹ shortening an elongated focal point in perspective.

In materials investigation technology, it is due to the extensive mechanization of the Examination method desired, several recording cameras with one X-ray tube at the same time to irradiate and yet for everyone

As the recording camera, the highest possible X-ray intensity available. In itself it is now known with an X-ray tube irradiate several objects at the same time. However, the tubes that have been used for such purposes up to now have have a round focal point and can take into account the circumstances described above are not burdened enough. If you wanted instead of such tubes with a round focal point If you use tubes that have a band-shaped focal point, only two could Cameras are irradiated at the same time, as the shortened perspective of the Increase in intensity occurring in the focal spot can only be carried out from two directions leaves.

In order to now have more than two recording cameras at the same time for material inspections To be able to irradiate effectively, are with arrangements for material investigations X-ray tubes according to the invention used which have a cross, angled or T-shaped focal point exhibit. According to the number of band-shaped legs of the focal spot can now several beam exit directions are used by placing cameras in front of them will. X-ray tubes in which a focal point that has a cross or star shape is generated are known per se. However, they have not yet been used in the manner according to the invention.

Figs. 1, 2 and 3 show, for example, embodiments of those related to the invention Tubes. In all three figures, ι is the anode front surface of the X-ray tube, on the in Fig. 1 the cross-shaped focal spotr 2, iii Fig., 2 the angular

*) The patent seeker stated as the inventor:

Max Weißensee in Munich.

Focal point 3 and in Fig. 3 a T-shaped focal point 4 is generated. The figures clearly show that a shortened perspective and thus the attachment of a camera in the four directions A ₃ B ₁ C and D is possible.

The previously known X-ray tubes with four beam exit directions are with provided with a round focal spot, as already said at the beginning and in Fig. 1 by the dashed line indicated circle 5. The opposite of this arrangement by the invention The main advantage achieved should be explained by the following example: If you create a cross on the anode or angular Brennneck with a width (6 in Fig. i) of 2 mm and one Length (7 in Fig. 1) of 12 mm, so the Radiation yield with this compared to an equally resilient - so also with the same area - increase the round focal spot 1.6 times in the direction of the beam exit.

The creation of such a focal point on the anode implies a cathode construction ahead, the execution of which in Figs. 4 and 5 for a cruciform and in the-Fig. 6 is shown for an angular focal point.

In Fig. 4 the cross-shaped focal point is created by a on the collecting device 8 and in front of the glow coil 9 attached diaphragm 10 with a cross-shaped Cutout.

In Fig. 5 the same effect is achieved by a suitable form of the collecting device achieved.

In Fig. 6, 11 and 12 mean two at 90 ° Staggered filament filaments, which are housed in an angular collecting device. the Power is supplied through the wire rods 14, 15 and 16 that are led out.

This arrangement has the advantage over the cross-shaped focal point that one of the incandescent coils can be used in a manner known per se by suitable switching operate or by differently strong heating of the two filaments of different sizes Can generate X-ray intensities on both legs of the focal point.

It is of course also conceivable to have a cross-shaped focal point according to Fig. 1 or a T-shaped focal point according to Fig. 3 by two Reaching glow coils. It would also be possible to have an angled or T-shaped focal point through a diaphragm, as in Fig. 4, or through a correspondingly designed collecting device, as shown for a cross-shaped focal point in Fig. 5.

Claims (4)

Patent claims: I. Arrangement for material examination by means of X-rays, characterized in that that they have an X-ray tube with a cross, angle or T-shape Contains focal spot, so that ·, corresponding to the number of band-shaped legs of the Focal spot, the use of several beam exit directions by means of pre-setting is made possible by cameras. 2. Arrangement according to claim 1, characterized in that it is an X-ray tube contains whose collecting device surrounding the filament in the form of a spiral disk has the shape of a cross, angled or T-shaped trough. 3. Arrangement according to claim 1, characterized in that it is an X-ray tube contains whose cathode consists of two cross, angled or T-shaped to each other Wire coils consists of a trough-shaped collecting device adapted to the shape of the coils are surrounded. 4. Arrangement for operating the X-ray tube according to claim 3, characterized in that that the two wire coils are to be operated separately from one another. 1 sheet of drawings