DE646988C - Air cooler for discharge tubes, especially X-ray tubes, which is located outside the actual tube and is connected to the parts to be cooled in a way that conducts heat - Google Patents

Description

The subject matter of the invention is an air cooler for discharge tubes, in particular X-ray tubes, which is located outside the actual tube and which is connected to the parts to be cooled in a manner that conducts heat well. The known coolers of this type are designed as finned coolers or as solid anode coolers. But fin cooler be no sufficient cooling effect _o and let the tube for longer uninterrupted operation come to higher temperatures than is permissible for the operability. A solid anode cooler cools quite well at the beginning of the load, but the permanent cooling that can be achieved with it is relatively low, and above all a tube provided with a solid cooler cools down only very slowly after the load has ceased.
The inventively designed air

cooler consists of a uniform body with good thermal conductivity in which a large ■ Number of tubular longitudinal and possibly also. Cross channels recessed in the way are that they are of the remaining material in the form of walls with after outside decreasing cross-section are surrounded as thin, heat-conducting webs works. For example, such an air cooler can be made from a solid metal cylinder formed with 'a number of holes arranged in several concentric circles be, the distance of the holes from each other from the center to the circumference of the cylinder becomes smaller.

By, the inventive design of the cooler is on the one hand a considerable Enlargement of the cooling surfaces and, on the other hand, a flawless supply of the Heat dissipated to these surfaces is ensured because the distribution of the anode material remaining between the tubular channels is chosen so that the on Every point of the cooler occurring heat inflow an adequate heat dissipation possibility assigned. Compared to the solid cooler, the cooler according to the present Invention has the further advantage that it only requires a fraction of the cost of materials is required and, as a result, has a significantly lower weight.

It has already been proposed that the interior of an X-ray tube be fan-like or rust-like to use subdivided or ribbed anticathodes to degas the in the Tube located metal masses to facilitate. However, such anticathodes do not have

*) The patent seeker stated as the inventor:

Dr. Paul Vierkötter in Berlin-Grunewald.

the technical effect of the air cooler according to the invention, which is outside the actual Tube is located.

There are also already arranged inside a tube, preferably with cooling liquid working circulation cooling known, which consists of several nested, flat are made of fluted metal pipes. With these cooling devices intended for other purposes However, neither the heat-emitting surfaces are large enough, nor is the heat flow within the cooler sufficient, to the known arrangement in the manner of the cooler designed according to the invention use.

The invention is illustrated in the drawing using an exemplary embodiment, namely shows

Fig. Ι a cooler designed according to the invention partly in view and partly in Vertical section from the side,

Fig. 2 the same cooler partly in plan view and partly in cross section.

The cooler consists of a body 1, which is with a plurality of in several concentric Circles arranged holes 2 is provided, so that of the body itself only the walls surrounding the holes left over. At its upper end, the body 1 can have several heels be provided, which build up like a pyramid. In the outer walls of the body Cross bores 3 can be provided. The distance between the individual longitudinal holes from each other is, as Fig. 2 clearly shows, near the center of the cooler relatively large and decreases towards the circumference of the cooler more and more, so that the walls between the bores act as thin, thermally conductive webs with an outwardly decreasing cross-section.

On the outside of the body 1 a number of tubes 4 can be attached, the protrude downwards over the body 1. The stem 5 holding the heat sink 1 is made of one piece with the shaft 6 of the anode of an X-ray tube so that the Heat transfer from the anode mirror, not shown, of the X-ray tube to the heat sink is unhindered. It it should be noted that the WoIframplätchen, which is on the anode mirror is located, is kept very thin, so that a build-up of heat is also avoided at this point will.

Claims (5)

Claims: I. Air cooler for discharge tubes, especially special X-ray tubes that are located outside the actual tube and is connected to the parts to be cooled with good thermal conductivity, characterized in that that the air cooler consists of a unitary body of good thermal conductivity in which a large number of tubular longitudinal and possibly also transverse channels are spared in such a way that they are separated from the remaining Material in the form of walls with an outwardly decreasing cross-section are surrounded, which are considered to be thin, thermally conductive Bars work. 2. Cooling device for discharge tubes according to claim. 1, characterized in that that the air cooler consists of a solid body (1) with corresponding There are holes. 3. Cooling device for discharge tubes according to claim 2, characterized in that that at least some of the longitudinal bores (2) of the body (1) with each other through transverse bores (3) connected is. 4. Cooling device for discharge tubes according to claim 2 and 3, characterized characterized in that those arranged on the periphery of the solid body (1) Pipes (4) are extended in the direction of the pipe beyond the solid body. 5. Cooling device for discharge tubes according to claim 1, characterized in that that the anode shaft (6) consists of one piece with the shaft (5) of the cooler. For this purpose ι sheet of drawings