DE19808999A1 - X=ray diagnostic device with interruption free voltage supply - Google Patents

Abstract

The X-ray diagnostic device has an interruption free voltage supply device (11) for at least one beam detector (12) and/or computer unit (13). The device has a mains voltage detection device (10). It also has a room OFF switch (2) and a system OFF switch (5). The voltage supply device (11) receives a signal from the mains voltage detector (10) and the two OFF switches (5). The voltage supply device (11) is actively connected when no mains voltage is detected. The voltage supply device (11) is passively connected when an OFF signal is generated by either or both of the OFF switches (2,5). The beam detector (12) may have several detector elements for generating electric signals in dependence on incident radiation.

Description

The invention relates to an X-ray diagnostic device generally known type and a method for operating the X-ray diagnostic device in which a radiation detector for Receive a beam from a radiation transmitter len bundle is provided. The radiation detector generates on reason and depending on the incident radiation Output signals that are fed to a computing unit. Is the radiation detector one by the radiation shadow beamed object received, so the generated Converted signals from the computing unit into image signals that can be displayed, for example, on a display device.

With these X-ray diagnostic devices there is a risk that if the mains voltage supply fails, for example can also occur when testing the emergency power supply can set undefined system states. This undefi System states can cause the computing unit to "crash" and / or for the loss of patient data or image data and / or in extreme cases damage to the hard and / or soft goods, but especially for the loss of electrical signals of the radiation detector. The loss of the signals of the Radiation detector makes a new examination of the object and an associated renewed exposure to radiation un negligible, especially when examining Lebe be particularly unwanted.

The object of the invention is therefore an X-ray diagnostic advises of the type mentioned in such a way that in particular Another data loss in the event of a failure of the mains voltage supplier is avoided.  

The object is achieved by the subject of Claim 1 solved.

It is seen as an advantage of the invention that the x-ray slide gnostic device according to the invention now with at least one a radiation detector and / or an arithmetic unit see uninterruptible power supply device is executed, the uninterruptible voltage ver Care device a signal of a mains voltage detection device, the room OFF switching means and the system OFF Switching means is supplied and the interruption free voltage supply device is activated, if no mains voltage is detected and the under refractive power supply device passive ge is switched when an OFF signal from the room off and / or the system OFF switching means is generated. With a grid voltage Power failure thus creates the uninterruptible voltage supply device the supply voltage for at least the radiation detector and / or the computing unit, so that ins particular a loss of data as well as an undefined System state, especially the computing unit, avoided becomes. In contrast, the X-ray diagnostic device is defined with the room OFF switching means or the system OFF switching with switched "OFF", so the uninterrupted span remains voltage supply device switched passive, so that this when the X-ray diagnostic device is switched off intentionally Radiation detector and the computing unit no longer with chip supply and discharges itself.

Further advantages and details of the invention emerge from the following description of an exemplary embodiment les based on the drawing in conjunction with the dependent claims chen.

In the figure are the compo essential for the invention elements of an X-ray diagnostic device according to the invention in shown in principle.  

In the figure, the reference numeral 1 denotes a mains connection which has one, two or, as shown, three phases L1, L2, L3, which supply the X-ray diagnostic device with electrical voltage. The exemplary embodiment shows that this mains voltage supply can be interrupted by means of a room OFF switching means 2 , which can be switched, for example, but not necessarily via a contactor 4 which can be controlled by an emergency OFF switch 3 . However, other suitable switching means, for example relays, thyristors or transistors, can also be used within the scope of the invention. The room OFF switching means 2 is followed by a system OFF switching means 5 , which is part of a voltage supply device 6 for components of the X-ray diagnostic device. In particular, this voltage supply device 6 has a transformer 7 which provides the voltages required. This transformer 7 can be, for example, a single-phase or three-phase, preferably a two-phase, transformer or voltage converter, which converts the voltage existing between two phases L1, L2 into the voltages required for the components. In the exemplary embodiment, but not necessarily, the system OFF switching means 5 is actuated via a contactor 9 controlled by a system ON / OFF switch B. Within the scope of the invention, relays, thyristors, transistors and other switching means can also be used.

A mains voltage detection device is identified by the reference character 10 . This line voltage detection device 10 and the room OFF switching means 2 and the system OFF switching means 5 each deliver a signal to an uninterruptible voltage supply device 11 which supplies at least one downstream radiation detector 12 , preferably also a downstream computing unit 13 with a voltage, if the mains voltage fails, but which does not supply a voltage supply for the radiation detector 12 and the computing unit 13 in the case of an OFF signal from the room OFF switching means 2 and the system OFF switching means 5 . In the exemplary embodiment, the uninterruptible voltage supply device 11 is preceded by a switching logic 15 which is supplied with the signal from the room OFF switching means 2 , the system OFF switching means 5 and the mains voltage detection device 10 . The mains voltage detection device 10 can detect the current or preferably the voltage, for which purpose a contactor, a relay or an electronic detection means is not necessarily provided in the exemplary embodiment. The contactor shown in the exemplary embodiment switches a switch 14 , which is connected to the switching logic 15 . The switching logic 15 supplies, based on the input signals, as already explained, a signal for active or passive switching of the uninterruptible voltage supply device 11 . In order to be able to supply the uninterruptible voltage supply device 11 itself with a voltage, it is still connected to the transformer 7 with a line, in order to thus supply the energy store with voltage in normal operation.

Claims (7)

1. X-ray diagnostic device with an uninterruptible voltage supply device ( 11 ) for at least one radiation detector ( 12 ) and / or computing unit ( 13 ),
with a mains voltage detection device ( 10 ),
with a room OFF switching means ( 2 ) and
with a system OFF switching means ( 5 ),
wherein the uninterruptible power supply device is supplied (11) a signal of the supply voltage detection device (10), the space-off switching means (2) and the system-off Schaltmit means of (5),
wherein the uninterruptible voltage supply device ( 11 ) is switched active when no mains voltage is detected, and
wherein the uninterruptible voltage supply device ( 11 ) is switched passive when an OFF signal is generated by the room OFF switching means ( 2 ) and / or the system OFF switching means ( 5 ). 2. X-ray diagnostic device according to claim 1, wherein the radiation detector ( 12 ) has a plurality of detector elements for generating electrical signals as a function of incident radiation. 3. X-ray diagnostic device according to claim 1 or 2, wherein the uninterruptible voltage supply device ( 11 ) has a switching logic ( 15 ) to which the signals of the mains voltage detection device ( 10 ) of the room and the system OFF switching means ( 2 , 5 ) are supplied and wherein the switching logic ( 15 ) switches the uninterruptible power supply device ( 11 ) actively or passively as a function of these signals. 4. X-ray diagnostic device according to claim 1 to 3, wherein the mains voltage detection device ( 10 ) detects the voltage at least one network phase ( 2 ). 5. X-ray diagnostic device according to one of claims 1 to 4, wherein the line voltage detection device ( 10 ) detects the voltage between a first and a second line phase (L1, L2). 6. X-ray diagnostic device according to one of claims 1 to 5, wherein the computing unit ( 13 ) is supplied with a voltage emanating from a first and a second phase. 7. Method for operating an X-ray diagnostic device, which includes an uninterruptible voltage supply device ( 11 ) for at least one radiation detector ( 12 ) and / or a computing unit ( 13 ), a mains voltage detection device ( 10 ), a room OFF switching means ( 2 ) and a system -OFF- switching means ( 5 ),
wherein the uninterruptible power supply device is supplied (11) a signal of the supply voltage detection device (10), the space-off switching means (2) and the system-off Schaltmit means of (5),
wherein the uninterruptible voltage supply device ( 11 ) is switched active when no mains voltage is detected and
wherein the uninterruptible voltage supply device ( 11 ) is switched to passive when an OFF signal is generated by the room OFF switching means ( 2 ) and / or in the system OFF switching means ( 5 ).