DE2008889A1 - Measuring arrangement for displaying measurement widths with the help of a cathode ray Os zillographen - Google Patents

Description

Measuring arrangement for displaying measured values with the aid of a cathode ray oscilloscope The invention relates to a measuring arrangement for displaying measured values with the aid a cathode ray oscilloscope. Such arrangements have long been used everywhere Used with advantage wherever the curves are rapidly changing measured value to make processes, especially alternating voltages, visible. For graphic representation Slowly changing measured values, on the other hand, are used almost exclusively on paper registering clerks.

In many branches of technology, especially in process engineering, need to control the process of production and the quality of the products more and more state variables are monitored by measurement technology. Often it applies to the dependency to monitor a process from a large number of measured variables. Here is the Display of the instantaneous measured values with the help of display instruments mostly required but not sufficient, since it is also often necessary to use the To see the course of the measured values over a longer period of time. This task has so far been generally resolved by the use of scribes. Is to be monitored at all Measured variables given approximately the same rate of change, so can when using A multi-channel recorder is also used by transducers with standardized output variables difficulties will arise, however, see where the number of measuring points to Available recorder channels or the rate of change the measured values are very different; because a large number of scribes and The measuring device does not make display instruments; only expensive but also confusing.

A'ifgabt of the invention is, previously used electro-mechanical Measuring devices such as gauges and recorders universal usable, electronically operating measuring devices, in particular using a Eathode ray oscilloscope, all of which are required to monitor a process sequence Information offers to replace.

This object is achieved according to the invention in that an electron beam is so distracted that an electronic pointer in the form of a Line or arrow appears within a on the screen displayed image assumes a position dependent on a measurement or control variable, and that the image has a labeled measuring scale or a measuring scale adapted to the measured variable including the oscillogram is a further measured variable and with the measuring or Control variable is coupled and exchangeable by electrical control.

So while the task of the display instrument is from one in front of a individually adapted scale moving electronic pointer is adopted, the oscillograph replaces the plot of curves of a recorder. A further development of the invention is that the electronic pointer or its extension the scale or the oscillogram intersects at a point whose analogue represented and readable instantaneous value is digitally recorded and displayed at the same time. Here the digital measurement of an instantaneous value of the one shown in the oscillogram takes place Measured variable curve such that by setting a control variable of the electronic Pointer intersects the oscillogram at the point whose amplitude value is of interest and a comparator, e.g. a periodically switching trigger or a monostable The multivibrator moves its switching point depending on the control variable in such a way that that the amplitude value of the measured variable is in the timer corresponding to the pointer position; a fine analog-digital wculfler. The digital t) display can be used in one special section of the screen or the analog measured value with dpm characteristic electrotic pointer coupled zein and with this the position switch.

As characterized in the subclaims, there are various possibilities project the scale images onto the screen.

It is only essential that the cathode ray oscilloscope with a Switching system is combined, which has a previously programmed and stored scale possibly with additional information after selecting a measuring point on the Displays the screen.

To solve the problem according to the invention, it is also important the slow process sequences previously shown on recorders with the help of a Only display suitable oscilloscopes for fast-running processes. That is achieved by using a magnetic drum or a similar memory that changes slowly Measured variables are registered on a closed track and then increased to that extent Speed feeds the oscillograph that on this a standing oscillogram of the measured values stored during a drum revolution. The transformation the lower recording speed to the higher recording speed The easiest way to do this is by increasing the speed of rotation of the accumulator. To get the necessary To avoid recording interruption, the invention provides that a magnetic disk the measured values continuously without interruption at a correspondingly slow rotational speed stores via a recording head and a reading head at increased speed so rotates with respect to the magnetic disk that on the screen of the oscilloscope a quasi-stationary oscillogram is created in which the ones that were the longest ago Values disappear continuously and they appear today at the beginning of the oscillogram.

A cyclical switchover of the measuring points for monitoring is not always possible suitable. Sometimes it is also useful to monitor several measuring points at the same time, to be able to recognize their mutual dependency. The invention provides for this suggests that a multi-track Tronel or disk storage device stores the measured values of different Measuring points on these specially assigned tracks saves by the measuring points after one revolution of the plate or in significantly shorter measuring cycles can be switched and one or more rapidly rotating read heads that are on the Record the measured value stored in the respective traces and use a single or multiple beam oscilloscope respectively.

Further refinements of the invention are set out in the subclaims Characterized0 The advantages of the invention are in particular that with extensive Measuring systems with numerous measuring points, as they often occur in process engineering, by means of a common storage and display system, they are considerably cheaper can be achieved and also the use of only one display-viewing device in the form of an oscilloscope is clearer and more convenient. In addition, the measuring arrangement according to the invention completely new advantageous possibilities for the evaluation of measured values, such as the digital measurement of certain amplitude values of an oscillogram. A Embodiment is shown in the drawings and described in more detail below.

1 shows a block diagram of the measuring arrangement, FIG. 2 shows the Oscilloscope screen in the form and style of a panel display instrument.

The block diagram of the measuring arrangement according to the invention shown in FIG. 1 shows how the desired one can be achieved by combining the various measuring systems Information is displayed on an oscilloscope 1. The controller 2, which is about Transmitter is connected to the various measuring points, contains an extensive Switching system and all electrical equipment required for selection and control.

Should, as shown in FIG. 2, a measured value in the manner of the display is more common Panel measuring devices are shown on the screen 3 of the oscilloscope, so this is done as follows: By selecting the desired measuring point on the control panel 2, an image memory 4 is controlled in such a way that it nit the oscilloscope 1 Measuring point coupled scale image 5 supplies. This can be done e.g. through direct projection of the image from a slide or film projector onto the screen 3.

At the same time, a vector image generator 6 is put into operation and generated, e.g. by simple vertical deflection, an electronic pointer 7 the screen. Will now deflect the horizontal amplifier when the time is switched off of the oscilloscope 1 is supplied with a DC voltage dependent on the measured variable, see above the electronic pointer is deflected accordingly and the measured value can be displayed on the calibrated scale can be read. The measured value can also be recorded digitally at the same time and displayed on a field outside or inside the screen 3 will.

The representation of slowly changing measured values in the form of a coherent curve 8 takes place according to FIG. 1 by using a buffer 9, e.g. a magnetic drum.

The measured values are included on a self-contained track recorded at lower speed and the jet system at increased speed 1a of the oscilloscope 1 is supplied.

Is the frequency of the time deflection of the jet system la with the speed synchronized with the storage drum, a stationary appears on the screen Oscillogram. The vector image generator generates again to analyze this curve a pointer 7, which is now set by changing a control variable to be set on the control panel 2 10 is shifted in its position on the time axis. A change in the tax variable corresponds to a certain time shift in the representation of the oscillogram.

A comparator 11 now takes into account the frequency of the Time deflection or the speed of the storage drum that a periodically switching Trigger or monostable multivibrator its switching point with the value of the control variable, So .ntspr.chend the position of the pointer 7, so the taß changes respectively set current amplitude value to the analog-Digi tal converter 12 is supplied and arrives at the display 14 via the memory 13. The measuring arrangement enables danit at the same time an analog and digital evaluation of measured values, provided that they e.g. are stored on a magnetic tape, can also be any long time ago They can also be used just as well when it comes to mutual To represent the dependence of the measured value curve of several measuring points, which is because of a However, it is not shown in FIG. 1 for better clarity. At a Displaying several curves on the screen is the analysis of individual curves difficult when the electronic pointer 7 intersects all curves. To the clear To mark the curve to be examined, it is advantageous if the pointer 7 just touches the curve in question, but without going beyond it.

The pointer must change its length with its position. That succeeds if the comparator 11 by selecting the respective measuring channel through the instantaneous amplitude value set by the pointer 7 not only to the analog-to-digital converter 12 but also to the vector image generator 6 via a measured variable converter 15. The pointer becomes 7 in any position only appear so long that the curve to be examined is straight touched. Of course, there is also the option of running the respective measurement curve to mark an electronically generated arrow and any measured values on a assigned scale.

Claims (18)

P a t e n t a n s p r ü c h e 9 measuring arrangement for the representation of measured values with the aid of an cathode ray oscilloscope, characterized in that an electron beam is deflected so that on the screen (3) an electronic pointer (7) appears in the form of a line or arrow, the one of within a picture also shown on the screen (3) a measurement or control variable is dependent position, and that the image is one of the Including a labeled measuring scale (5) or a measuring scale (5) adapted to the measured variable the oscillogram (8) is another measured variable and with the measured or control variable is coupled and exchangeable by electrical control. 2. Measuring arrangement according to claim 1, characterized in that the electronic pointer (7) or its extension, the scale (5) or the oscillogram (8) intersects at a point, its instantaneous value, which is represented analogously and can be read off is digitally recorded and shown at the same time. 3. Measuring arrangement according to claim 1 and 2, characterized in that the digital measurement of an instantaneous value of the one shown in the oscillogram (8) The course of the measured variable takes place in such a way that by setting a control variable (<0) the electronic pointer (7) intersects the oscillogram at the point whose amplitude value interested and a comparator (11), e.g. a periodically switching trigger or monostable multivibrator depending on the control variable its switching point changes in such a way that it changes the amplitude value of the measured variable in which the pointer position corresponding time moment to an analog-to-digital converter (12) supplies. 4. Measuring arrangement according to claim 1 to 3, characterized in that the digital display takes place in a special section of the screen or coupled to the electronic pointer (7) which characterizes the analog measured value and changes position with it. 5. Measuring arrangement according to claim 1, characterized in that the alternating Scale images with the help of a slide or film projector on the screen of the cathode ray tube are projected. 6. Measuring arrangement according to claim 1, characterized in that the alternating Scale images are recorded with the aid of an electro-optical camera and displayed on the screen the cathode ray tube are shown. 7. Measuring arrangement according to claim 1, characterized in that the different Scale images are stored on magnetic tape or in some other way and then the Cathode ray tube are supplied. 8. Measuring arrangement according to claim 1, characterized in that the cathode ray oscilloscope is combined with a switching system that has a previously programmed and stored Scale bit additional information after selecting a measuring point on the screen (3) brings to representation. 9. Measuring arrangement according to claim 1, characterized in that the illustrated Measured values of the cathode ray oscilloscope from a magnetic tape, a magnetic drum or a similar memory and the memory may also be supplied serves to transform the time base. 10. Measuring arrangement according to claim 9, characterized in that a Magnetic drum or a similar memory slowly changing measured variables on a closed lane registered and then at that increased speed to the Oscillograph supplies that on this a standing oscillogram during a Troinmelumlaufs stored measured values arises. 11. Measuring arrangement according to claim 9 and 10, characterized in that a magnetic disk the measured values continuously without interruption at a corresponding slow speed of rotation over a recording head and a read head rotates with increased speed in relation to the magnetic disk that on a quasi-stationary oscillogram is created on the screen of the oscillograph where the most recent values continuously ~ disappear and the new ones appear at the beginning of the oscillogram. 12. Measuring arrangement according to claim 1 to 3 and 9, 11, characterized in that that the recording head can be switched off and an interesting amplitude value on the constant oscillogram digital and analog is measured by adjusting of the electronic pointer that intersects the oscillogram at the respective point. 13. Measuring arrangement according to claim 9 to 11, characterized in that a multi-track drum or record memory the measured values of different measuring points stores on these specially assigned tracks, if necessary by adding the measuring points can be switched after one revolution of the plate or in significantly shorter measuring cycles, and that one or more read heads rotate over the respective tracks, the secured ones Record measured values and feed them to a nin or multi-beam oscilloscope. 14. Measuring arrangement according to claim 9 to 13, characterized in that in addition to a cyclic storage of the measured values on a drum or disk memory permanent storage on magnetic tapes takes place and by using the drum or Disk storage as a temporary storage, the representation of more distant Past values as an oscillogram on request 15. Measuring arrangement according to claim 1, characterized in that when predetermined limit values are reached the respective curves, the pointer-like line, the digital measured value display or something similar starts to flash. 16. Measuring arrangement according to claim 1 to 3 and 13, characterized in that that when several curves are displayed on one screen, the measurement is more specific instantaneous amplitude values of a curve takes place in such a way that the respective measuring point is selectable and is coupled to the electronic pointer in such a way that this its length is reduced so far that it has one end of the curve to be examined just touched. 17. Measuring arrangement according to claim 15, characterized in that the instantaneous amplitude value of a set by the electronic pointer (7) Oscillogram (8) fed to the vector image generator via a transducer (15) and the voltage output by this corresponding to the position of the pointer (7) partially compensated. 18. Measuring arrangement according to claim 1, characterized in that the The oscilloscope screen or its visible part has the dimensions of a rectangular standardized switch panel device.