SU663338A3 - Device for regulating voltage of x-ray tube - Google Patents

Claims (2)

a .., ..i., .- g VT: ..V-, JIYadvigatel to move the brush through the noto resistance in the direction determined by the results of the comparison of these voltages 2. The known device cannot work the KaiK servo, This will lead to the absence of the full automation of the radiography process and to the irrational expenditure of energy, which is especially important in the case of autonomous devices,. and the invention is to reduce the energy consumption of the complete automation of the radiography process. The goal is achieved by the fact that in the proposed device the means for radiating; The electrical voltage is distributed in the form of the Eehner circuit, where n is the number of nominal positions of the X-ray tube and the means for obtaining a voltage proportional to the voltage on the Ungent tube, contains a cord connected to the contact brush. resistance and resistance circuit of (p-1) zener diodes ,. moreover, these means are equipped with position switches and. connected via a polarized relay, which is connected with the means of switching on the motor. . . The power supply voltage of the X-ray tube is stabilized by the nominal power supply for this tube using an electronic stabilizer that also controls the time sensor for radiographic exposure, including the installation only when the nominal operating conditions in the X-ray tube are reached. This ensures perfect exposure. The stabilizer torus cuts off the voltage supply to the x-ray tube at the end of the radiographic exposure. In the stabilizer, the output alternating sign from the alternator – alternator generator is fed to the adjacent transformer clamps with an adjustable transformation ratio. Contact brush varicapture; from the motor of the post current, which operates from the polarized burner, which reacts to the voltage across the nominal value of the X-ray plasma voltage and the voltage on the contact brush. ka (transformer with variable transform coefficient), which is supplied; rf to x-ray tube. - (th e electronic stabilizer. Alternating current from the gene: riepeContinuous current G, operating from the internal edge 2 motor, is applied to the clamps AB of overcurrent resistance 3, and after straightening with a PM4 rectifier 4 - to the terminals 38. - resistance from Zener diodes 5, which subdivide the voltage so that points C, D correspond to the different nominal operating voltages of the x-ray tube. The contact brush 6 of variable resistance 3 is driven by a DC motor 7, the excitation system of which can be reversed and, thus, it is possible. to move the brush 6 down or up, respectively. Closed pins 8 and 9. These contacts control the relays 10 and 11, which energize the polarized relay 12. On the excitation side of the relay 10 there is a switch 13 that opens when the contact brush 6 of the lower position (variac in the zero position: as shown in the drawing). The relay 11 controls the contact 14 of the excitation system of the time sensor 15, which gives the radiographic exposure time. . The alternating voltage supplied from alternating resistance 3, which is the voltage between the contact brush 6 and point B, is fed to the X-ray tube 1.6, is rectified by means of the rectifier 17, and is applied to the terminals of the resistance circuit containing a resistor 18 and a series of (n-1) series-connected Zener diodes 19, similar to diodes 5 ,. . The winding 20 of the polarized relay 12 is connected to the output of the rectifier 17 at the point H and to the pointer 21 of the switch with the ends: c, d, e, f, g for setting "different nominal operating voltages for the X-ray tube ,. and these voltages will be B, CfD E, F and Q, respectively. In the same way as the pointer 21, the second pointer 22, combined with the first, but rotating in the opposite direction, passes through the position c, d, e, f; TH then enters, respectively, a series of Zener diodes 19, in the same quantity, as the Zener diodes turn on with the first indicator 21. -. :. -: J .. Etb is made to limit the current, the excitation in the winding 20, arising from the difference in voltage between the point H and one of the selected points C, 9. The excitation current should depend only on the difference in the drop of the voltage at the ends of the resistance 18 and the fall the voltage caused by the first zener 5 diode, which is connected to the point s, as it is increased -. The determination of the established voltage, determined by the inclusion of another Zener 3 diode, 1 is coupled by an equal increase in voltage at the point H, on the eIv signal by switching on the same Zener diode 19. 5. The polarized relay 12 operates from an electronic programmer 23 of the electronic installation, which switches the switch 24 from position 1 to position II, thus connecting the pointer 25 of the relay 12 with the negative pole of the supply winding (feeder) of the engine 7, the operation process is as follows. Suppose that the operating voltage on the X-ray tube, which is to be stabilized, must be equal to the voltage corresponding to the voltage at point c, at which the indicators 21 and 22 should be in the positions shown in the drawing. At the beginning of the contact brush 6 of variable resistance 3 is in the lowest position, and therefore the switch 13 is open and the voltage at the terminals of the x-ray tube 16 is zero. When electronic programming device 23 receives a radiographic exposure command, it switches the switch 24 from plozheya I to position 11, thus connecting the pointer 25 of the polarized relay 12 with a negative pole. AC voltage from alternator 1, rectifier c. straightener 4 ,. yields at fixed points C, i, .. fixed voltages. Thus, at point C we will have a control voltage value, which must be stabilized and superimposed on the X-ray tube. At the same time, zero point will be zero voltage, since (as indicated by the pin) brush 6 is in the lowest position, Poetomu winding 20 of the relay 12 passes the current from C to H, as shown by the arrow that translates the pointer. 25 relay 12 to the 1P position. Thus stimulating the relay 11, which closes the contacts 9 and opens contact 14. Thus, the motor 7 causes it to start rotating, raising the stroke brush 6 of variable resistance 3. When the brush 6 rises, switch 13 An alternating voltage at the terminals of the X-ray tube and a constant voltage at the point of inert grows. When the constant voltage at point H is compared with that at point C, and therefore the alternating voltage at the x-ray tube clamps reaches a predetermined nominal value, the current flowing in the winding 20 of relay 12 stops and the pointer 25 takes an intermediate position again. rest, thus turning off the relay 11, which opens the contacts 9 and closes the contact 14. Closing the contact 14 allows the emulsion to turn on the sensor in the belt 15 for the radiographic 8 exposure stage, which starts only when zhimah nominal X-ray tube is obtained. national value for this tube. On the other hand, this voltage is stabilized at this value throughout the entire period of the X-ray exposure. For example, increasing or bringing the potential of point H to a level exceeding the value of potential at point C, we get in winding 20 a current flowing from C to H in the direction opposite to the arrow that switches the pointer 25 of relay 12 to position IV. Thus, a relay 10 is energized, which closes the contacts 8 and starts the engine 7. In turn, the engine 7 lowers the contact brush 6 of variable resistance 3 and. thus, the alternating voltage at the clamps of the x-ray tube is reduced. Finally, at the end of the radiographic exposure, the time sensor 15 sends a signal to the programmer 23, which again switches the switch 24 to the position .1,. Excited in this way, relay 10 closes contacts 8 and excites motor 7, thus lowering the contact brush of variable resistance, 3 full-fret. When the brush is fully lowered, the switch 13 is turned off, the engine 7 is turned off and the equipment is again: occupies the initial position, prepared for a new stabilization cycle and radiographic exposure. An electronic stabilizer not only alters the x-ray voltage. the tube to its nominal value stabilizes and controls the onset of radiographic exposure, but also relieves the voltage C of the tube at the end of the process. Claims. A device for stabilizing the voltage of an x-ray tube, containing a variable resistance with a contact brush, a motor connected to a contact brush of variable resistance; the comparison circuit being connected to the means of switching on the motor for moving the brush of variable resistance in the direction determined by the results Neither of the indicated voltages, but because of this, in order to reduce energy consumption with the full automatisation of the radiography process, the means for obtaining the reference voltage are made in the form of a resistance circuit on Zener diodes, where - the number of nominal positions of the X-ray tube operation, the means for obtaining a voltage proportional to the voltage on the X-ray tube / contain a resistor connected to the contact brush of the transferred resistance and the resistance circuit of (p-1) Zener diodes, and These tools are equipped with eight the position switches and are connected via a polarized relay, which is connected to the means of switching the engine on. Sources of information taken into account in the examination 1, US Patent No. 2702934, cl. 250-52, 1972. 2. Authors certificate of the USSR 369738, cl. H 05 Q 1/32, 1970. CZ3