DE2123464B2 - X-ray apparatus with automatic displayed fault cut-out - switches generator tube off and leaves lights lit to show cause of the failure - Google Patents

Abstract

A system for driving X-ray apparatus is used in which the generator tube is automatically switched off in the event of failures and the cause of the failure is indicated on lights remaining lit after the shut down. Two classes of fault are detected and displayed, namely those associated with high voltage failure at the generator tube, and the tube continuing to emit X-rays after the allowed period, indicated by the closure of a switch. In both cases the supply to the main tube transformer is interrupted by a multiple switch and a light is illuminated to indicate the class of fault. This is achieved by a high voltage detector and divider circuit in conjunction with a simple logic network.

Description

The invention relates to an X-ray diagnostic apparatus with a plurality of control members for Shutdown of apparatus, each of which responds when a predetermined fault occurs and which Shutdown causes.

Known X-ray diagnostic apparatus of this type (DTPS 9 66 314) are used when a fault occurs automatically switched off, whereby the fault disappears again after switching off, because the X-ray diagnostic apparatus is disconnected from the supply network. Finding the cause of the malfunction is difficult connected, because it cannot be determined which control element is switching off the X-ray diagnostic apparatus caused what kind of malfunction. The cause of the malfunction can therefore only be in the way be found that the X-ray diagnostic apparatus with regard to all types of disturbance in question is checked. However, this procedure is very cumbersome and time-consuming.

The object of the invention is to provide an X-ray diagnostic apparatus of the type mentioned in such a way that the type of malfunction is determined and in a simple manner so that the cause of the fault can be found.

This task ^; st in an X-ray diagnostic apparatus of the type mentioned according to the invention solved in that each control member is assigned a memory for storing the output signal of the control member after switching off the X-ray diagnostic apparatus, which controls a signal generator indicating the corresponding fault.

In the case of the X-ray diagnostic apparatus embodied according to the invention, the type of malfunction is thus after switching off indicated by a signal generator, so that the X-ray diagnostic apparatus only with regard to each indicated malfunction type needs to be checked. Finding the cause of the fault is therefore significantly simplified compared to the known X-ray diagnostic apparatus of the type mentioned. The signal generator can, for. B. be indicator lights that illuminate a display panel on which the type of malfunction is specified.

In the DT-AS 10 06 981 is an X-ray diagnostic apparatus described, in which, if an overcurrent occurs in the X-ray tube, the X-ray tube takes place, and in which the switch-off signal is saved after switching off. This storage but only takes place through a switch-off contactor. At die- & 5 sem X-ray diagnostic apparatus there is also no indicating signal transmitter for a fault signal. Such a signal generator is also not necessary because the known X-ray diagnostic apparatus only occurs when it occurs switched off automatically after a single fault. The storage function of the shutdown contactor is therefore only used to the extent that the shutdown that has taken place remains, but not for the purpose of clearing it up a certain type of fault.

The invention is illustrated in the following description of an exemplary embodiment with reference to the drawing explained in more detail

The X-ray diagnostic apparatus shown in the drawing contains a three-phase high-voltage transformer 1 with one group of primary windings 2 and two groups of secondary windings 3 and 4. The secondary windings 3 and 4 are connected to two high voltage rectifiers 5 and 6, which are connected in series to one another via a resistor 7 and feed an X-ray tube 8. Parallel to the Kaihoden-anode section of the X-ray tube 8 is a voltage divider, which consists of resistors 26 and 27 exists.

To make a recording, the X-ray diagnostic apparatus shown is used by means of an exposure protection 10 switched on. The receiving contactor 10 is determined by a control device 11 controlled by the recording time. In series with the contacts of the receiving contactor 10 are the contacts of a Fault contactor 12 which is controlled by a fault signal generator 13.

The fault signal generator 13 is connected to the outputs of two AND gates 14 and 15. The one Input 19 of AND gate 14 is direct and one input 20 of AND gate 15 is via one Reversing stage 28 on a recording sounder 16, which is closed while a recording is being made is. The input 17 of the AND gate 14 is connected to the output of a NAND gate 25, whose Inputs to the taps of the voltage divider resistors 26 and 27 are connected. D; r entrance 18 of AND gate 15 is connected to a tap of resistor 7.

While making a recording, i. H. during the recording time, gives way during normal operation both the potential at the input 19 from the potential at the input 17 of the AND gate 14 and that Potential at input 20 from the potential at input 18 of AND gate 15. This is through the potential reversal reached in the inverter 28 and in the NAND gate 25. The AND gates 14 and 15 therefore deliver the fault signal generator 13 has no output signal, so that the supply dti high-voltage transformer 1 via the receiving contactor 10 excited by means of the control device 11 during the recording and the wah The fault contactor 12 is guaranteed to be permanently energized at the end of operation.

The X-ray diagnostic apparatus shown is automatically switched off if there is a short circuit in the High voltage circuit occurs or when the X-ray tube 6 after the completion of the exposure, i. H. after the opening of the recording switch 16 is not switched off, so after the end of the recording through the recording switch 16, current continues through the X-ray tube 8 and thus through the resistor 7 flows.

If a short circuit occurs in the high-voltage circuit while making a recording, d. H. During the time during which the recording switch 16 is closed, the voltage breaks one of the voltage divider resistors 26 and 27 or

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ϊη two voltage divider resistors 26, 27 and thus also the voltage at one or both inputs of the NAND gate 25 together. In each In these cases, the NAND gate 25 supplies a signal to the input 17 of the AND gate 14 which is linked to the at the input 19 corresponds to the signal. As a result, the fault signal generator 13 is controlled and causes the high-voltage transformer 1 to be switched off via the fault contactor 12.

If, after opening the recording switch 16, current still flows through the X-ray tube 8, the potentials at the inputs 18 and 20 of the AND gate 15 match, since the recording switch 16 is now open and the input 18 from the tap of the resistor 7 has the same potential which is generated at the input 20 by the inverter 28. In this case, the AND gate 15 therefore controls the fault signal generator 13 to switch off the high-voltage transformer 1.

A memory 21 which controls a signal lamp 22 is connected to the output of the AND gate 14. From the The output signal of the AND gate 15 influences a memory 23 which controls a signal lamp 24.

When a short circuit occurs in the high voltage circuit of the X-ray tube 8, the AND gate causes 14 in addition to switching off the X-ray diagnostic apparatus via the fault contactor 12, the switchover of the memory 21 and the switching on of the Stönjngs lamp 22. The fault lamp 22 remains switched on even after the X-ray diagnostic apparatus has been switched off. In the same way, the AND gate 15 causes the fault lamp to be switched on via the memory 23 24, if current still flows through the X-ray tube 8 after the exposure switch 17 has been opened.

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If a short circuit occurs in the high voltage circuit while taking a picture, it will thus indicated by the fault lamp 22. If after opening the recording switch 16 still Current flows through the X-ray tube 8, this is indicated by the malfunction lamp 24. After the occurrence a fault and the associated shutdown of the X-ray diagnostic apparatus by the fault contactor 12 thus lights up one of the fault lamps 22 and 24 and indicates what type of fault it is acts. The cause of the malfunction can therefore be found in a simple manner because only the one indicated in the Type of malfunction possible causes of malfunction must be investigated. If after opening the record switch 16 still current flows through the X-ray tube 8, such a cause of failure can be: z. B. a Clamps of the receiving contactor 10. A short circuit in the high voltage circuit can, for. B. by a Flashover between a high-voltage cable leading to the X-ray tube 8 and the one connected to ground X-ray tube housings occur.

The invention is described in connection with two fault lamps associated with two different types of faults. Within the scope of the invention can even more than two fault lamps and memory allocated to them are used. Essential for The invention is always that each of the control members that shutdown the X-ray diagnostic apparatus when certain faults occur, each have a memory for storing the output signal of the Steuerglicdes is assigned after switching off the X-ray diagnostic apparatus, so that after the Switch off the type of fault is displayed until the memory z. B. is deleted manually.

1 sheet of drawings

Claims (1)

Claim: X-ray diagnostic apparatus with a plurality of steering members to switch off the apparatus, each of which responds when a predetermined stoning occurs and causes shutdown, characterized in that each Control element (14, 15) each have a memory (21, 23) for storing the output signal of the control element after the X-ray diagnostic apparatus has been switched off, which one is assigned the corresponding Signal transmitter (22, 24) indicating faults. ! 5