DE865776C - Synchronized electrocadioscope - Google Patents

Description

Synchronized Elektrokadioskop It is known to use the Hurvenzuge des Electrocardiogram without registration by observation on the photoluminescent To evaluate the screen of an electron beam oscilloscope. It's as an improvement have been specified (patent specification 700 763) that one is written by several under each other Lines can extend the observation period. However, the evaluation is more difficult compared to the consideration of a registered continuous curve, that in a line you only ever see the deflections of a single or a few heartbeats looks side by side. The stringing together of the individual lines is made more difficult by the different positions of the typical EKG peaks at the beginning and end of the line.

This is improved by the present invention in that the abrupt return of the time diversion in time dependence on excellent Characteristics of the polarity, amplitude or steepness of the observed curve is brought. According to the invention, the voltages of the EKG peaks are used to determine the length of the to influence individual lines of the screen. In the simplest version is caused by a particularly large and / or particularly rapid voltage change in the curve to be observed influences the time of the end of the line. Such only once voltage changes that occur per heartbeat and are characterized by their electrical characteristics are in all normal and pathological curves of the EKG and his Varieties included. In the electrical tensions of the heart it is evident in all Derivation types always use the R-S wave as excellent in terms of voltage size and steepness the change in voltage. In the curve of the heart sound there is always one group in the Sound waves larger in amplitude than the others or can be selected by selecting one high or low frequency range for generating the line length influencing Feature to be highlighted. In the pulse pressure curves is that associated with the systole Pressure change faster than the pressure curve in the meantime.

If the particular curve feature is used, the end of a The evaluation is used to determine the line or the beginning of the next line directly disturbed by the fact that the line break is straight with one also for the evaluation important feature of the curves coincides.

That is why there is nothing special in an expansion of the invention Curve feature is used directly to end the individual line, it is only used to initiate the expiration of a delay agent. Switching over to the The next line is only effected when the delay time has expired is. This expiry time of the delay means can be set so that the point in time of the line break falls to a point on the curve in which the evaluation of the individual Heartbeat is least disturbed.

For the voltage curve of the EKG, this is the so-called.

Transition time between the T-wave and the next P-wave.

The retarding means can be carried out by known mechanical means work, but electronic circuits can also be used.

A form which is particularly advantageous for this purpose is shown in the figure shown. The amplifier tube I has the task of triggering the retarder to make a certain impulse suitable for it in form, sign and size. The time constant of the coupling capacitor 2 with the leakage resistor 3 is chosen so that during the rise time of the pulse, e.g. the R-wave, already a substantial one Discharge of the coupling agent occurs. This also turns out to be a completely one-sided Direction of an R-S wave a voltage fluctuation with a positive and negative Proportion of. The triggering of the delay is no longer dependent on the polarity the pulse used it.

The delay circuit consisting of tubes 4 and 5 is only triggered by positively directed impulses on the grid of the tube 4. The grid of In the rest position, 4 is negative against the cathode via resistors 6, 7 and 8, which is kept positive by the cathode resistance common to both tubes. The anode of the tube 4 is made more negative and by a positive pulse on the grid does this via capacitor g and resistor Io so far via resistor 10 and II grid held at cathode potential negative against the cathode. The anode current in tube 5 is thus interrupted. Due to the inequality of the anode resistances I2 and I3 becomes that when the anode current changes between tube 5 and tube 4 at the cathode resistor resulting voltage drop changed so that a certain locking of the two Tubes in the now effected state occurs. It must be prevented that by an approximately following negative pulse for the grid of the tube 4 of the previous The delay process initiated by the positive impulse is prematurely interrupted will. Also the resistor I4 that is between the anode of 5 and the connection point of resistors 7 and 8 acts to lock the circuit by turning positive the anode of 5 is transferred to the grid of tube 4. The process of the retarder occurs when the grid of 5 is caused by a slow charge reversal of the capacitor g approaches the cathode potential again. The tubes 4 and 5 then tilt again return to the rest position, and from this process can be an impulse from the one or other anode to trigger the line break. The duration the delay can be adjusted by changing the bias voltage for the resistor II with the Controller 15 can be changed. Also a change in the capacitor g or the resistance 11 acts on the delay duration.

To the observer of the screen image an undisturbed one for a while To enable evaluation of the curves written in the afterglow image can be done by electronic or mechanical means after completing a certain number of lines an automatic shutdown of the electron beam can be effected. The reclosing after an adjustable pause during which no new curves are written, can by electronic means with the beginning of a new line or group of lines be synchronized. The insertion of such an observation pause can be achieved through a short keystroke can be initiated individually by pressing the part of the apparatus that is effective for the break is made ready for operation.

Claims (6)

PATENT CLAIMS: I. Electron microscope for observation of the electrocardiogram and its curve variants, characterized in that the stepwise reduction of the time diversion in time dependence of excellent Features brought about the polarity, amplitude or steepness of the observed curves will. 2. Arrangement according to claim I, characterized in that in one known arrangement with several lines written one below the other step-by-step return of the individual lines as well as those of an entire line sequence takes place as a function of time on certain curve features. 3. Arrangement according to the preceding claims, characterized in that that by the curve feature started up a delay means at the expiry of which the line return takes place. 4. Arrangement according to the preceding claims, characterized in that that as a delay means one of two amplifier tubes partly through capacitors, partly fed back by resistances and in certain operating states a time-locking circuit is used. 5. Arrangement according to the preceding claims, characterized in that that after the presentation of one built up from several lines with a synchronized line end On the screen, the electron beam is switched off for an adjustable period takes place. 6. Arrangement according to the preceding claims, characterized in that that the switching off of the electron beam is effected by a circuit arrangement that can be made ready for work while a screen is being built up, but only takes effect after an entire screen has been completed.