DE674415C - High-voltage protective housing made of insulating material for cooled vacuum tubes, in particular X-ray tubes - Google Patents

Description

High-voltage protective housing made of insulating material for cooled Vacuum, in particular X-ray tubes. Patent 66ooi5 relates to an insulating material existing high-voltage protective housing for liquid-cooled vacuum, in particular X-ray tubes, which are provided with cable connections and divided into two rooms is one of which is a container for the tube and the other of which is optionally Multiple subdivided container for the liquid coolant is used. This arrangement has compared to the known cooling devices, which always use the entire X-ray tube is placed in the coolant, the advantage that a normally trained X-ray tube under normal conditions in a special compartment of the insulating housing and is not affected by the coolant. Still, this is only an insulating housing is required. According to the invention in the main patent treated arrangement even further improve and train that the as a container One-part or multi-part duct for the coolant with attachments for the coolant supply or -abführung is formed and at the same time receives the end of the high-voltage cable. The invention is not limited to the use of liquid coolants, but rather it can also be used for other than liquid-cooled vacuum or X-ray tubes. The cable end can be embedded in a special insulating body that is inserted into the Insulating housing is used and the channels for the coolant supply and / or discharge contains itself or forms together with the insulating housing. The channels run expediently in a spiral around the end of the cable.

In the figures, exemplary embodiments according to the invention are shown.

In Fig. R, the X-ray tube rz, the anode of which is designated by 12, is surrounded in its central part by a cylindrical, radiation-safe housing 13 which is provided with a radiation exit window 14. The openings of the cylindrical housing are closed by hoods 15 and 16, which for example consist of porcelain. The cables 17 and 18 used to connect the tube are embedded in these hoods. In the hood 16, which is located on the anode side of the X-ray tube and in which the cable end i8 is embedded, two channels 19 and 20 are provided, which run spirally around the cable end in the manner of a two-thread screw. As can be seen from the drawn arrows, the channel ig serves for the supply, the channel 2o for the discharge "of the coolant. In a bore of the anode 12 there is a tube 21 which is connected to the channel 2o The coolant thus reaches the anode 12 directly through the channel ig and the chamber 22 and is then discharged through the opening at the lower end of the tube 2i, through the tube 21 and the channel 2o the outer and inner surfaces of the insulating body of the hood 16 are metallized, as shown in broken lines in the figure, the inner metal coating is connected to the anode 12, the outer metal coating is connected to earth potential.

Fig. 2 to q. show other embodiments for the in fig, i labeled 16 hood. In the embodiment shown in Fig in the insulating body 25 at the point where the cable end is embedded, a coolant supply channel 26 and a drainage channel 127 running along the cable end. These Channels can have the shape shown in Fig. 2a. Those at high voltage potential or metal connections connected to earth potential are also shown in Fig. 2 dashed lines indicated.

In the exemplary embodiment shown in FIG. 3, the cable end z8 is embedded in a special insulating body 29. This insulating body is conical and is provided on its outer surface with two grooves 30 and 31 running spirally in the manner of a double screw. At its end facing the X-ray tube there are two openings 32 and 33 in which the two grooves 30 and 31 end. The insulating body 29 is ground on its outer surface and inserted into a correspondingly conical, likewise ground opening of the insulating screw 3: 4. In order to avoid harmful cavities at the point of the ground, it can also be cemented with suitable binders, so to speak. When using porcelain, the insulating body can be grinded in before firing, so that after firing, the insulating body and the insulating jacket form an indivisible whole. The metal coverings are also indicated here by dashed lines. The channels for the supply and discharge of the coolant are formed together by the insulating body 2 i and the insulating hood 3.4. The flow path of the coolant can be seen from the arrows shown.

In the embodiment shown in Fig. 4, as well as in Fig. 3. the cable end embedded in a special insulating body 35, which is not ground in here, but into the with the help of a potting compound Insulating hood 36 is used. The insulating body 35 is preserved on its outer periphery two tubular channels 37 wound in the manner of a double-threaded screw and 38, which open into two bores 39 and 4o at the end of the insulating body, which in a partition .I1 of the insulating hood - are provided. A third opening 42 in the intermediate wall 41 is used to lead through the cable core to the pole of the tube. The flow path of the coolant can be seen from the arrows shown. The metal coverings attached to the insulating hood 36 are also shown here by dashed lines Lines indicated.

One can use the one shown in Fig. Q. illustrated insulating body 35 even without potting compound Attach to the partition [1] of the insulating jacket 36 by garnishing. Appropriate the space that is filled with the casting compound in Fig. 4 is then covered with metal on the outer wall of the insulating body 35 and on its opposite inner surface of the insulating jacket 36 is deionized. These metal deposits are connected to an intermediate potential, better still connected to earth potential.

It is also possible to replace the cooling ducts with the least field stress, So to put as far out as possible.

Claims (7)

PATENT CLAIM: i. High-voltage protective housing according to patent 66o 015, characterized in that the one serving as a container for the coolant or multi-part channel formed with approaches for the coolant supply or discharge and at the same time picks up the end of the high voltage cable. 2. High voltage protective housing according to claim i, characterized in that the cable end in a special insulating body is embedded, which is inserted into the high-voltage protective housing and the channels for the coolant supply and / or discharge itself or with the high-voltage protective housing together forms. 3. High-voltage protective housing according to claim i or 2, characterized in that that the channels run spirally around the end of the cable. . 4. High voltage protective housing after Claim 2, characterized in that the cable end receiving Insulator is ground into the high-voltage protective housing. 5. High voltage protective housing according to claim 2, characterized in that the insulating body containing the cable end is inserted into the high-voltage protective housing with the aid of a potting compound. 6th High-voltage protective housing according to claim 2, characterized in that the (las Cable end containing insulating body on its side facing the X-ray tube fixed in the interior of the high-voltage protective housing, preferably by garnishing is. 7. High-voltage protective housing according to claim 6, characterized in that the space between your high-voltage protective housing and the one containing the cable end Insulating body through metal coverings attached to these two insulating bodies is deionized.