DE622642C - Facility for brief exposure to roses - Google Patents

Description

Device for short-term x-rays according to patent 581 160 Das The main patent relates to a device for short-term x-rays for measurement of the time integral of the during the short X-ray exposure = duration X-ray tube current intensity occurring during this period, being in the circuit of the X-ray tube a capacitor is connected. A is parallel to the capacitor Voltmeter used to measure the capacitor charge (milliampere seconds) or a discharge path (spark gap or glow lamp) from which a relay is operated, which is an interruption of the X-ray tube current on the primary or Secondary side of the X-ray machine causes.

In this known device, the response of the discharge path occurs only a short-term, through. the charge of the capacitor certain discharge current surge conditions. However, this brief current surge is intended to cause a permanent interruption of the X-ray tube current causes «ground. This is possible, for example, by that the short-term current surge actuates a mechanical relay directly or indirectly, which causes the interruption of the X-ray tube current. But since it is in general If the X-ray tube current is switched on for extremely short periods of time, the Use of a mechanical relay that always has a certain inertia practically out of the question.

It is also known to measure the X-ray tube current using an in Series with the X-ray tube or in the primary circuit of the high-voltage product switched grid-controlled discharge tube, a so-called switching valve tube, can be switched on and off without delay. The use of such a switching valve tube is not, however, in the case of a device as it is the subject of the main patent easily possible. One would namely the grid potential of the switching valve tube from the capacitor in the X-ray tube circuit, the X-ray tube current does not, as it is required, at a certain voltage-des Capacitor suddenly interrupted, but with increasing negative grid voltage the switching valve tube will gradually weaken.

A sudden, immediate and permanent interruption of the X-ray tube current can be according to the invention achieve; that the control of the grid is one in the primary current circuit of the high voltage generator or grid-controlled discharge tube located in the X-ray tube circuit by means of a gas or vapor discharge tube with control grid located in an auxiliary circuit takes place, which in turn from the capacitor lying in the X-ray tube circuit is controlled from. Such a tube (glow relay or power gate) is known to have the property that at a sufficiently negative grid voltage it reduces the anode current blocks and as soon as the negative grid voltage is reduced to a certain amount (ignition voltage), the anode current without delay with little voltage loss lets through, a further change in the grid voltage not affecting the anode current more affected. The onset of the anode current is therefore instantaneous, as soon as the charge of the capacitor has reached a certain value, and the anode current remains in full strength even if the capacitor voltage collapsed again is.

The interruption of the X-ray tube current can, for example, thereby caused that one in the anode circuit of the controlled gas discharge tube switches on a resistor and the constant arising at this resistor Voltage drop used for this in the primary circuit of the high voltage generator or a grid-controlled discharge tube located in the X-ray tube circuit sufficient for the interruption of the primary current or the X-ray tube current supply high grid voltage.

An embodiment of the new device is shown in the figure Circuit arrangement shown schematically according to.

In series with the X-ray tube i, the capacitor 2 is in the high-voltage circuit of the high-voltage transformer 3, in whose primary circuit the grid-controlled Valve tube 4. is switched on. The grid-controlled mercury vapor discharge tube 5 is in series with the anode battery 6 'and the resistor 7 in an auxiliary circuit. The positive assignment of the capacitor 2 is with the control grid and the negative one Occupancy via the grid battery 8 with the cathode of the tube 5 conductively connected. The negative bias of the grid of the tube caused by the grid battery 8 5 becomes lower as soon as the voltage of the capacitor 3 after the onset of the X-ray tube current increases. Has the charge and thus the voltage of the capacitor 2 a certain When the value is reached, the anode current starts in the circuit of the tube 5, and at the Resistor 7 creates a constant voltage drop. The poles of resistance 7 are so connected to the grid and the cathode of the grid-controlled valve tube 4 connected that the grid of the tube 4 'creates a negative voltage, the one causes immediate interruption of the primary current.

For regulating the amount of current flowing through the X-ray tube (milliampere second product) the capacitance of the capacitor 2 can be made variable in a manner known per se will. Another way is according to the invention that by the grid battery 8 supplied negative bias of the grid of the tube 5 by means of the voltage divider 9 is made controllable. In this case it becomes the grid bias of the tube 5 indicating voltmeter io useful directly in milli = ampereseconds calibrated.

Claims (3)

PATENT CLAIMS 'i. Facility for short-term x-rays according to patent 581 16o with an inertia-free interruption of the X-ray tube current - in the primary circuit of the high voltage generator or in the X-ray tube circuit lying discharge tube with control grid, characterized in that the control of the grid of the discharge tube by means of a lying in an auxiliary circuit Gas or vapor discharge tube with control grid takes place, the "in turn of the in the X-ray tube circuit lying capacitor is controlled. 2. Establishment according to claim i, characterized in that the control of the grid of the discharge tube takes place from a resistor, which is in the circuit of the grid-controlled gas or. Vapor discharge tube lies. 3. Device according to claim i or 2, characterized in that that for the purpose of changing the time integral of the X-ray tube current intensity the negative Grid bias of the controlled gas or vapor discharge tube made adjustable and the measuring instrument indicating this voltage, preferably in milliampere seconds is calibrated.