DE1802868C3 - X-ray machine - Google Patents

Description

The invention relates to an X-ray device with an X-ray tube, which are in a vacuum flask with radiation exit fensier one cathode and one at the back Contains cooled anode, the thickness of which is placed on the Focal spot due to the mechanical strength begn-n / t is the result of the pressure of the liquid metal used as a coolant and circulated with a pump is conditional.

Such an X-ray device is known from GB-PS 716 405. The heat transfer from the anode The thinner the anode, the better the liquid metal coolant in this device. The fat however, the anode can only be reduced to such an extent that its mechanical strength is not impaired is, since the anode otherwise occupies an undefined position and the area of the focal spot, the forms part of the collimator system

Proceeding from this, the object on which the invention is based lies in such an X-ray device a constant spatially defined position and a constant area of the focal spot on the anode during to ensure the operation of such an X-ray device.

This object is achieved according to the invention in that the anode at the point of the focal point as thin, deformable metal foil is formed. which under the action of the coolant thereby a defined Assumes that a closed cooling circuit is used. with a tube that connects to the tubular piston and the electrodes of an electromagnetic pump form a unit which is immersed in the magnetic field the pump can be stimulated and that excitation current and voltage of the pump are stabilized.

In the X-ray device according to the invention, the liquid metal is thus through the electromagnetic Pump circulated under constant flow, temperature and pressure conditions. This will make the slide only burdened by the pressure of the circulating cooling metal caused by the use of the electromagnetic Pump can be kept constant very precisely. This makes it possible to attach the anode foil to the Make the point of the focal spot so thin that it is deformable because you kept constant by the Pressure of the coolant a constant bulge is given, which a spatially stable position of the Ensures focal spot. At the same time there is a high heat transfer from the anode to the liquid Coolant reached.

If desired, the cooling circuit, as it is closed, can be used, as can the piston of the X-ray tube evacuated, so that the air pressure on the anode foil is eliminated, which is an additional advantage of the X-ray device designed according to the invention.

Because of its low viscosity at room temperature and good thermal conductivity, is preferred a sodium-potassium alloy is used as the liquid cooling metal, which is 16 to 30%, preferably Contains 22.75% sodium. That a sodium-potassium alloy with a sodium content of about 22% one has a particularly low melting point, is already from "Chemie-Lexikon", by H. R ö m ρ ρ, 6th edition, 1966, Vol. II, columns 3118 and 3119, known. Since with one such an alloy the layer of laminar flow on the surface to be cooled becomes very thin and with Sufficient volume flow up to about 12 l / min largely turbulent flow is obtained, which is known is then particularly important for the heat transfer. if boiling bubbles appear immediately are to be torn away, such a coolant is particularly suitable.

The evenness of the circulation of the liquid

Metal can be further improved by keeping the temperature difference constant, for which purpose a heat exchanger, such as an oil or water cooling system attached to the cooling circuit, can be used can. Furthermore, this uniformity is achieved by using magnetic stabilizers for the current promoted by the electromagnetic pump.

In the electromagnetic pump, the pumping action is based on the fact that the liquid metal in A limited area flooded by a magnetic field flows an electric current, causing the liquid Me'.Hll is set in motion. With a well-known Embodiment, a stationary magnetic field is used and flows the necessary for pumping Current between electrodes arranged in the area of the magnetic field. [Such an electromagnetic Pump is from "Lexikon der Physik" by H. F r a η k e. 2nd Edition. 1959. Vol. II, p. 1119. right column, known

The anode foil preferably consists of a carrier foil made of a mechanically stable, highly thermally conductive one Material, e.g. B. made of molybdenum, on which a sirahlenemitting metal layer is applied.

In the following, an example is given on the basis of the drawing preferred embodiment of the invention - "> explained in more detail.

F i g. 1 shows an embodiment of the invention X-ray device in a partially perspective and partially sectioned view;

F 1 g. 2 shows, in a sectional view, a device yo for closing the beam exit window.

In Fig. 1, the area 1 comprising the X-ray tube, the area essentially comprising the cooling circuit 2 and the area y_ comprising the electromagnetic pump 3, are delimited by dash-dotted lines. The X-ray tube 4 includes in the vakuumdiehten glass bulb 5, formed in a known manner cathode 6 having the filament coil 7, and its 8 towards the anode which consists of a 0.0b mm-thick molybdenum foil, the supporting them together with the outside of the focal spot Sb and from the cooling circuit penetrated metal plate 8a closes off the end of the tubular piston 5 opposite the cathode β. In the side wall of the tube 4, the 0.5 mm thick beam exit window 9 made of beryllium is inserted vacuum-45 tight. The incandescent filament 7, which consists of 0.4 mm thick tungsten wire, is heated by means of the power source 10 with a voltage of 6 V and a current of 4. To generate the acceleration voltage between the cathode 6 and the anode 8, the high-voltage source II, which can be regulated from 20 to 100 kV, is connected to the cathode and to the grounded anode. With 12, 13 the grounds are designated.

The cooling circuit 2 is firmly connected to the tube itself. It essentially consists of a tube 14 and the flat one lying on the rear side of the anode 8 and adapted to the extent of the focal spot 86 Chamber 15, one wall of which is formed by the anode foil 8. The tube 14 has a circular shape Cross-section with a diameter of 10 mm. while the diameter of the flat chamber! 5 0.7 mm with a slurry of 20 mm. The tube 14 forms an annularly closed coolant duct, on which a water cooler 16 is attached as a heat exchanger. As a liquid metal is a sodium-potassium alloy filled, which contains 77.25% potassium and 22.75% sodium. The alloy exhibits at room temperature has a dynamic viscosity of 0.546 centipoises, which is the given dimension the flat chamber 15 allows a sufficient turbulent flow for cooling.

The electromagnetic pump consists of the magnet 17 and the electrodes 18 lying across it, 19 connected to a DC power source 20. The electrodes 18 and 19 are flattened on the one here Welded on a pipe that forms a 2 mm thick channel, the width of which approximates that of the magnetic field is equivalent to. The magnetic field of 10,000 Gauss of the permanent magnet 17 extends vertically with the North Pole above and the South Pole below, so qi'cr to that applied to the electrodes 18, 19, in horizontal direction flowing electrical current of 1000 A at a voltage of 0.2 V, in which the positive pole of the direct voltage <uial 20 at the electrode 18 and the negative pole is on the electrode 19. The direction of flow then results according to the arrow 21 in the plane of the drawing from left to right with a pump output of 12 l / min.

In the case of the alkali metal alloy used as a coolant in the exemplary embodiment, it is known dangerous if atmospheric air is allowed in. To secure the environment, it is therefore advantageous to to assign a slide to the tube 1 which, if the thin anode foil 8 is destroyed, the radiation exit window 9 covers the tube because this is a weak point because of the desired radiation permeability represents in the wall of the tubular flask. The slide of the protection device can be kept open by a spring are and is activated automatically, electromagnetically when the vacuum breaks down. the in Fig. 2 shown special embodiment of the slide consists of a wedge 22, which upon insertion presses into a wedge-shaped slot 23 against the ring seal 24 and so when the beam exit window is destroyed 9 covers this window.

For this purpose 2 sheets of drawing cords

Claims (8)

Patent claims: 1. X-ray machine with X-ray tube, which is in a vacuum flask with a radiation exit window Cathode and an anode, cooled on the back, whose thickness is at the location of the focal point is limited by the mechanical strength caused by the pressure of the coolant and is conditioned with a pump circulated, liquid metal, characterized in that the anode (8) is designed as a thin, deformable metal foil at the location of the focal point, which under the action of the coolant thereby assumes a defined position that a closed Cooling circuit (2) is used, with a tube (14) that connects to the tubular piston (5) and the electrodes (18,19) an electromagnetic pump? a unit forms, which can be used in the magnetic field of the pump (3), and that excitation current and voltage: o «1 pump are stabilized. 2. X-ray device according to claim 1, characterized in that the liquid cooling metal is a sodium-potassium alloy is that 16 to 30%. preferably contains 22.75% sodium. 3. X-ray device according to claim 1, characterized in that that means for keeping the temperature difference of the liquid metal constant are provided. 4. X-ray device according to claim 1 or the following, characterized in that magnetic stabilizers are provided that keep the current of the electromagnetic pump constant to ± 1%. 5. X-ray device according to one of the preceding claims, characterized in that the anode foil consists of a carrier film to which a radiation-emitting metal layer is applied. 6. X-ray device according to claim 5, characterized in that the carrier film consists of a 0.06 mm thick molybdenum foil. 7. X-ray device according to claim 2 and b, characterized in that the closed circuit (2) from a closed tube (14) with a diameter of 10 mm and one of the Extension of the focal spot adapted, flat chamber (15) with a thickness of 0.7 mm and a Width of 20 mm, one wall of which is formed by the anode foil. 8. X-ray device according to one of the preceding claims, characterized in that the ab so cover the radiation exit window (9) of the X-ray tube (1) a slide is attached. the off consists of a wedge and when inserted into a wedge-shaped slot together with a ring seal the radiation exit window seals, and that an electromagnetic device is provided which is controlled depending on the vacuum in the X-ray tube and if the anode foil is destroyed (8) actuates the slide. 60