DE138857C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

It is known that the gas residue that is located in the X-ray tubes is used same quickly used up. As a result of this increase in vacuum, the resistance increases the X-ray tube, the generated rays become more penetrable, but always less chemically effective and cannot be used very soon for exposure to X-rays use more. Various regeneration methods were used to address this problem to encounter. The best known, by patent 103100 protected is the melting of a palladium tube into a tube, which one on Heated end, and then allows hydrogen to diffuse into the interior.

In another X-ray tube described in US Pat. No. 594036 is parallel to the two electrodes, so in shunt, one with the main tube non-communicating auxiliary tube switchable by means of their rays or sparks hydrate located in the main tube can be volatilized at will, so that a Vacuum regulation is possible.

All of these tubes only allow the vacuum to be reduced.

On the other hand, for pelvic recordings, for example, you need more penetrative ones Rays than to hand images. There is therefore also an interest in air-rich, To make "soft" tubes evacuated, "harder", otherwise they would not be sufficiently penetrable Generate rays. For this purpose, z. B. Müller in Hamburg a spiral from a substance that atomized when the current passed and so when it was deposited occluded gas on the tube wall, made the tube harder.

All the methods that have been used so far have the first disadvantage that their Application affects the quality of the tube that the tube worse when used and the regeneration can only be carried out a limited number of times. Further they all have the even greater disadvantage that they are uncontrollable that one never know whether you are not making too much or too little soft or hard. A use of the Tube during regeneration is excluded anyway.

The invention described below is now intended to regulate the radiation quality of the X-ray tubes during operation and use of the same as their subject matter, which are carried out as often as desired and in any order without damaging the tube can be.

It consists in the fact that by changing the charge of the ions, the ability to penetrate the rays are affected. A change in the vacuum, as with the known ones Tubing does not take place.

In general, the tubes have three electrodes, a cathode and an anticathode and a so-called. Auxiliary anode.

If the cathode and anticathode are used alone, the tube is generally harder than if the auxiliary anode and the anticathode are connected to one another by a wire and used at the same time.

By appropriately designing these electrodes and by melting them down

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suitable places you can bezw the hardness of the tubes by production. Hold the interruption of the connection between the anticathode and the auxiliary anode in two extremes.
The present invention now enables regulation between these extreme limits in as many gradations as possible in that a connection is made between the anticathode and the auxiliary anode

ίο Resistance of this connection can be changed is designed.

The X-ray tube shown in the accompanying drawing has a cathode k, an anticathode d and an auxiliary anode A.

Between the anticathode and the auxiliary anode there is a connection in the form of a metal rod S, which is rotatably arranged in a hinge C and with the aid of the insulating handle G with its tip D can be approached and removed from the other electrode B. The lead of the tube is attached to the anticathode.

Depending on whether one approaches or removes the rod £ by means of the handle G from the electrode B before or during the work, the spark gap F and thus the resistance between the anticathode and auxiliary anode and the radiation character are regulated in infinitely many steps .

Claims (1)

Patent-An saying: X-ray tube, characterized by the regulation of the radiation quality in both directions by changing an adjustable resistor connected between the anti-cathode (d) and an auxiliary anode (B) . 1 sheet of drawings.