DE1198464B - Adjustment device for an X-ray diagnostic apparatus with initial load control - Google Patents

Description

Adjustment device for an X-ray diagnostic apparatus with initial load control The invention relates to an adjustment device for an X-ray diagnostic apparatus with initial load control, in which the exposure time with both automatic exposure units automatically determinable as well as with an adjustment device in connection with can be preset with a time switch and in the case of automated operation (with Automatic exposure machines) the value of the tube voltage, in the case of timer operation it is the opposite both the value of the tube voltage and the mAs product can be entered.

X-ray machines are known which have automatic overload protection into which the imaging factors voltage (kV) and amount of electricity (mAs) must be entered. The permissible tube current is determined in it by means of arithmetic units and determines the time required to implement the set mAs product, the X-ray tube is just so loaded that its anode at the end of the exposure time the permissible temperature has been reached.

It is also known to have such X-ray machines with an automatic exposure device to operate. However, this has the disadvantage that the image is blackened correctly necessary mAs amount can be estimated and entered into the overload protection got to. If the set mAs value is selected too low, the overload protection switches the exposure already starts before the switch-off signal is given by the exposure automat becomes, which is a sign of insufficient blackening of the recording. Will the mAs value on the other hand, if set too large on the overload protection device, it switches the automatic exposure unit switches off after the desired density has been reached. But that's for it the required exposure time is longer than with timer mode. That's because that if a higher mAs amount than required is preselected the X-ray tube is not fully loaded: A solution to this problem is provided by devices that in automated operation with initial load - falling load - work, there Precautions are taken to keep the apparatus in place at all times during the exposure time delivers a power that applies the currently permissible load to the tube.

To ensure the initial load on an X-ray tube, there are a number of has been given of possible solutions.

So it is known to set in the tube heating circuit after the expiration of Time intervals to switch on resistors and this switch-on if necessary to be caused by the timer. Load-dependent resistances were also used already firmly connected to the heating circuit. It is also known in the heating circuit to switch a transducer whose control winding is connected to an amplifier tube. The voltage of a capacitor is applied to the grid of this amplifier tube. whose discharge begins when the tube voltage is switched on. For continuous Reduction of the tube current in the sense of an initial load on the X-ray tube it would also be conceivable to change the tap on the heating converter and to drive it the adjustment device to use the timer. To an increase in the tube voltage to avoid over the preselected value during recording, it is known in Dependence on the influence of the means in the heating circuit Resistances in the primary or to switch the secondary circuit of the high-voltage transformer. Analogous to that already The measure described in the heating circuit, it is also known, a load-dependent Arrange the resistor firmly in the primary circuit of the high-voltage transformer.

The cathode of the X-ray tube has also been considered to supply an intermittent heating current and the initial load by change the ratio of current flow time / pause time to be realized. With such designs of the apparatus requires the setting of the imaging in automated operation Factor »mAs« no longer. Rather, this would be when the automatic exposure machine was put into operation to decouple the automatic setting. It is now only the preselection of the X-ray tube voltage necessary. This is why one speaks of one-button operation. The attitude of the other The imaging factor »mAs« is not required because the automatic exposure device measures the dose delivered to the film and after reaching a dose. which is the optimal Blackening guaranteed, the switch-off signal issued. A prediction the tube current and its setting on the heating converter are also not required, because the tube during the entire recording time - even with the longest recording times - is always operated with the current permissible tube current. With the decoupling the automatic setting is only to ensure that the setting element for the tube voltage acts on the heating voltage regulator in such a way that the set Tube voltage associated with the highest tube current flows.

Such an arrangement is disadvantageous in that it is significant The effort for the overload protection nor the effort for the implementation of the initial load comes. The overload protection is only rarely used, because in the majority the cases that occur in routine operation with automatic exposure - and thus with Initial load - is working, It is the purpose of the invention to provide an adjustment device for an X-ray machine with initial load control that can also be used without automatic exposure can be operated, the effort for the adjustment device can be reduced target.

The invention is intended to create a simple adjustment device which enables both two-button operation and one-button operation and the it allows for two-button operation - timer operation - with initial load the necessary exposure time in. To determine in advance, to convey the timer and display it if necessary.

The invention is based on an adjusting device with the initially specified features. The invention is characterized in that the adjusting member for the tube voltage both on the heater voltage regulator for the purpose of setting the Initial tube current as well as acting on a computing organ, in which also over the mAs setting element can be used to enter the mAs value required for timer operation is, and that the product of kV and mAs obtained from the arithmetic unit is a functional transmission influences, which in turn, the operation at time switch under consideration the required exposure time determined by the load reduction during the exposure and the Time switch mediated.

The subject matter of the invention is explained in principle with reference to the figure.

In the figure, 1 denotes the X-ray tube, which is connected to a high-voltage transformer 2 regulated on the primary side and to a heating transformer 3. The high-voltage transformer 2 receives its voltage from the variable transformer 4 via the exposure switch 5. The object to be photographed is designated with 6 and the automatic exposure machine with 7. An adjusting element for the tube voltage 8 influences the variable transformer 4 and also acts on a differential gear 9. A motor 11 acts on a further link of the differential gear 9 via a converting gear 10. This has the task of reducing the X-ray tube current during the exposure according to the law following the initial load. At the same time, the motor 11 effects a change in the tap on the variable transformer 4 via the conversion gear 10 and the differential gear 9 in the sense of keeping the tube voltage constant despite the tube current dropping. The motor 11 is switched on via a pair of contacts connected in parallel to the exposure protection 5 at the start of exposure and switched off at the end of the exposure. He then runs back to his starting position. A computing element 12 is also influenced by the kV setting element 8, into which the mAs value desired during timer operation is also entered via the mAs setting element 13.

The kilowatt-second amount determined in this way is fed to a functional gearbox 14 , which has the task of taking into account the selected mAs value and the reduction in the power supplied to the tube during the recording, the time required to achieve the mAs value, i.e. the expected time To determine the switching time, the function gear 14 acts on the timer 15 and also shows the switching time on the scale 16 before the recording. The control switch is labeled 17. It causes the X-ray exposure to be initiated, while the voltage is switched off in automated operation by the control contact contained in the automatic exposure device 7, whereas in timer operation the recording is terminated by opening the control contact in the timer 15. In the following, the mode of operation of the X-ray apparatus is shown once with one-button operation with automatic exposure and a second time with two-button operation without automatic exposure.

When operating with automatic exposure machines, the selector switch 18 must first be brought into the position shown in the figure. It is expedient to move the mAs setting element to a certain position (eg start or end position) when the selector switch 18 is switched to the “automated operation” position. To select the image character, the desired tube voltage is set on the setting element 8. At the same time, the heating value assigned to this tube voltage is determined for the tube current and the heating transformer tap is brought into the correct position. In addition, with the setting of the tube voltage, a tap on the variable transformer 4 is adjusted so that the desired tube voltage is applied for the set tube current. By actuating the exposure switch 17, the X-ray exposure is initiated, since the switching magnet of the contactor 5 receives voltage and attracts. At the same time as the X-ray main circuit is switched on, the motor 11 receives voltage and influences the heating converter via the conversion gear 10 and differential gear 9 in such a way that the tube current decreases as the recording time increases 4 adjusted in the sense of keeping the tube voltage constant. When the desired film blackening is reached, the control circuit of the exposure contactor 5 is interrupted by opening a control contact in the automatic exposure device 7 and the contactor 5 drops out. Means not shown have the effect that the motor 11 now runs back into its starting position.

When operating with a time switch, the changeover switch 18 must first be brought into the position intended for time switch operation. The imaging values kV and mAs are preselected. The switching time resulting from the combination of the set tube voltage and the set amount of electricity is determined by a computer and converter, transmitted to the timer and displayed on the scale 16 before the recording. There is therefore the possibility here of determining the time resulting from the X-ray exposure in advance and, if necessary, of changing it by lengthening the image factors entered. The advantage of the subject matter of the invention is to be seen in the fact that the advance display of the time is possible with timer operation, although the X-ray apparatus according to the present invention is operated with initial load in order to avoid the other advantages that occur when operating with initial load, e.g. B. exist in the saving of switching time, to be effective even with two-button operation. After actuation of the recording switch 17, the magnet system of the contactor 5 receives voltage here too, but now via the control contact in the time switch. After the switching time predetermined in the arithmetic unit 12 and the forming gear 14 has elapsed, the timer 15 switches off the X-ray exposure. The motor 11 has influenced the heating converter and the tap on the variable transformer in the sense of a falling load at constant tube voltage, just as in operation with automatic exposure devices. The tube current flowing at the beginning of the X-ray exposure is predetermined by the differential gear 9 and corresponds to the tube current in automated operation - provided that the voltage is the same. The computing gear 12 is not used to influence the heating converter 3, but only to determine the necessary exposure value and to influence the time display device. It is of course possible not to let the differential gear 9 act directly on a tap on the heating transformer, but rather to influence a continuously controllable or stepwise adjustable resistance in the heating circuit. The increase in tube voltage can also be corrected by influencing a resistance from the differential gear.

Furthermore, an X-ray apparatus is already known that can be operated with one-button operation (kV setting) with automatic exposure device as well as with two-button operation (kV and mAs setting) is operated with initial load control.

However, this device does not allow a preview in the two-button operation the resulting recording time.

Claims (4)

Claims: 1. Setting device for an X-ray diagnostic apparatus with initial load control, in which the exposure time can be determined automatically with automatic exposure devices and can also be preset with a timer, and in which the value of the tube voltage in automated operation (with automatic exposure apparatus), and in contrast to the value of the in timer operation The tube voltage as well as the mAs product can be entered, characterized in that the setting element (8) for the tube voltage acts both on the heating voltage regulator for the purpose of setting the initial tube current and on a computing element (12) , which is also entered via the mAs setting element (13 ) the mAs value required for timer operation can be entered, and that the product of kV and mAs obtained from the arithmetic unit influences a function gear (14) , which in turn determines the exposure time required for timer operation, taking into account the load reduction during recording, and the timing older (15) mediated. 2. Adjusting device according to claim 1, characterized by means of a display device (16) which, in timer operation with initial load control which mediated the timer from the function gear (14) to implement the shows the required time in advance of the set mAs amount. 3. Adjustment device according to claim 1, characterized in that a preferably constant speed motor (11) is used for the initial load control, which influences the heating voltage regulator to lower the tube current and a tap of a variable transformer (4) to keep the tube voltage constant. 4. Adjustment device according to claim 1 and 3, characterized in that the motor acts on a differential gear of a differential gear (9) via a forming gear (10) , the second differential gear of which is influenced by the kV setting element (8) and its planetary gear on both the heating voltage regulator as well as the means to compensate for the tube voltage increase, possibly via a further conversion gear. Publications considered: German Auslegeschrift No. 1095 956.