SU616717A1 - X-ray diffractometer - Google Patents

Description

(54) X-RAY DIFFRACTOMETER

The invention relates to X-ray technology and can be used in X-ray diffractometers with forced cooling of an X-ray tube.

An X-ray generator is known that contains a secure casing in which an X-ray tube is installed to the means for forcing the cooling fluid through the cavity of l casing to be forced.

X-ray diffractometers are known to contain a safe housing, an X-ray tube and a system for supplying coolant to the anode of an X-ray tube {not fitted in the shell 2

The closest technical solution to the invention is an X-ray diffractometer comprising a goniometer, a radiation detector and an X-ray tube with point and linear foci, an X-ray tube casing with windows for the X-ray emission, means for supplying a cooling medium to the anode of the X-ray tube, including channels in the housing and the channels associated with them in the anode of the tube; means for fastening the tubes in the casing to the means of alignment; casing with the tube h.

A disadvantage of the known device is that when turning from one type of focus to another, turning the casing together with the tube, which violates the adjustment of the differential meter, is a disadvantage of this device.

The purpose of the invention is to simplify the restructuring of the field of interest from one TMPA focus to another.

This is achieved by the fact that four through-jallaas are made in the casing, the outlets of which are located at one end of the casing with a symmetric circumference, and the tube is installed in the casing with possible connection to any pair of outputs of non-adjacent channels of simultaneous matching of the channel in the anode of pipes with another pair of channels.

Preferably, the inputs and outputs of the channels are located on the same circle.

FIG. 1 shows a diffractometer, a general view; in fig. 2 - X-ray tube assembly in the housing, top view; in fig. 3 diffractometer, side view; in fig. 4 shows section A-A in FIG. 2; in fig. 5 is a section through PB in FIG. 2

The diffractometer contains a goniometer 1 on which the holder of 2 samples is located, the detector 3 located on the bracket 4, the casing 5 with windows 6 for the output of x-rays and the x-ray tube 7 fixed in the casing 5 with screws 8.

The X-ray tube 7 contains, for example, four windows 9, one pair of which serves to exit the point projections of the focus, and the second to exit the line projections of the focus.15

The casing 5 contains four through channels 10 for supplying cooling fluid to the anode, the outlets of which to the surface of the base end 11 of the casing 5 are located on the same circle at intervals through the EO and are threaded to secure the x-ray tube with screws 8.

Each of the pairs of non-adjacent channels 10 may alternately mate with channel 25.

12cooling anode x-ray tubes-. ki One of the diametrically opposed fittings 13 is an input for one pair of channels 10, the second fitting

13 is output. 39 In diffractometers, either a point projection of the focus or a linear focus is used during operation. This is achieved by having a weekend

The opening 6 of the casing 5 is aligned with one of the four windows 9 of the X-ray tube 7. After which the X-ray tube 7 is fixed to the casing 5 with two screws 8 that fall into the threaded holes of two diametrically opposite channels 10. At the same time, the outputs of the two other channels 10 on the surface of the base end 11 is mated to the cooling channel 12 of the anode of the x-ray tube 7. Thus, two channels 1O-45 are used to fix the x-ray rough 7, and the other two are used for circulating coolant.

When the focus projections change, i.e., when the X-ray tube 7 is turned at 90f so, the use of cavals is changed to opposite.

Due to the listed design features of the housing, the ecopressive transition from one projection of the focus of the x-ray tube to the other is achieved. At the same time, the X-ray tube adjustment is maintained, since the X-ray tube is rotated relative to the fixed casing, and the X-ray tube fixation ensures reproducibility of the position of any tube output window relative to the casing outlet opening.

The use of the present invention will significantly speed up the transition from one VDD to another due to the simplicity of the permutation of the X-ray tube and the absence of the need for subsequent adjustment. x-ray tube.

Claims (3)

1. An X-ray diffractometer containing a goniometer, a radiation detector and an X-ray tube with lens and point foci, an X-ray tube housing with windows for X-ray emission, means for supplying a cooling medium to the anode of the X-ray tube, including channels in the housing and corresponding channels to them tube anode, means for fixing the tube in the housing and means for adjusting the housing with the tube, characterized in that, in order to simplify the restructuring of the diffractometer from one type of focus to another, the housing made four through channels, the outlets of which are located at one end of the casing symmetrically along one circle, and the tube is fitted in the casing with the possibility of connecting to any pair of outlets of non-adjacent channels for simultaneous conjugation of the channel in the anode of the tube with another pair of channels. Sources of information taken during the examination: 1. US patent number 1986497, EL. 250-89, 1935. 2. The patent of Great Britain No. 1139434, H5I, 1969. 3.DRON-2, About X-ray dvfracto MeTp, Tecfi8iioifee3Cpoht SSSR Mosltvq Vneshtorgizdat, ed. No. 36M358, 1974./ . f 9 Ait.J AL Sb fff a at.4 .S