DE3516200A1 - Method for level monitoring and device for carrying out the method - Google Patents

Abstract

The decay response of the oscillations of an oscillating device (2) is used to form level signals. Said device is excited intermittently by a pulse generator (4) to produce oscillations which are damped as a function of level. The amplitude of the decaying oscillations is measured during a segment (ta) of the decay time. The measured value is compared with a threshold value (13), and a signal is transmitted if overshooting occurs. A high degree of insensitivity to extraneous oscillations is achieved. <IMAGE>

Description

description

The invention relates to a method for level control, such as it is specified in the preamble of claim 1. The invention also relates to a facility to carry out this procedure.

In a known such method (DE-PS 30 44 354) is the Time measured in which the oscillation amplitude up to has dropped to a predetermined value. External vibrations can cause this However, the duration can be changed in an uncontrolled manner, which leads to false signals. the Exceeding or falling below a predetermined period of time signals the fill level.

The object of the present invention is to provide a method of the above to create the type mentioned, in the case of external vibrations, which may affect the vibration device act, are largely without disturbing influence on the level signal.

By the features of the invention specified in claim 1, this is Task solved.

Instead of the decay time, the size of the Vibration amplitude during a limited period of time is the characteristic variable for the level signal. The measurement period can cover a very short section the decay time between two excitation pulses can be limited. As a result of the small portion of the measurement time from the total decay time is the probability that disturbing external vibrations flow into the level signal is considerably reduced.

The dependent claims 2 to 4 have advantageous developments of the Method according to the invention to the subject.

External vibrations acting on the vibration device result according to claim 2 always an increase in the oscillation amplitude. Since external vibrations thus always acting in one and the same signal direction is the functional reliability additionally increased.

The features of claim 3 result even with a very high one Share of disruptive external vibrations that affect the vibration device, a reliable level signal.

Claim 4 finally increases the functional reliability by that a defect is signaled in the measuring system.

A particularly advantageous device for carrying out the invention Method has claim 5 as its subject.

The function of the method specified in claim 3 is carried out by the device further developed according to claim 6 realized. Go to the integrator The integrator delivers signals from the first comparator in the rhythm of the pulse generator an integrator voltage exceeding the level threshold value to the second comparator; a corresponding level signal is given. On the other hand, the integrator does not go or - which is the case with external vibrations - only sporadic signals become the level threshold is not reached; is a correspondingly different level signal the consequence. The features also have a particularly advantageous effect in this context of claim 7 from.

A preferred implementation of the method specified in claim 4 represents the device according to claim 8.

Especially for those cases where in the vibration device one and the same element both as a vibration exciter and as a vibration sensor serves, the features of claim 9 prove to be advantageous. You prevent that the oscillation amplitudes during the decay time the actuating device interfering with the switch.

In the drawing is an embodiment of the invention Device shown schematically.

Is on the side wall 1 of a container not shown in detail at the level of the level to be controlled a vibration device 2 with a preferably piezoelectric transducer 3 arranged. A pulse generator 4 is over a line 5, which contains a blocking element 6, is connected to the converter 3. Between the pulse generator 4 and the locking member 6 is an actuating device on the line 5 connected. It consists of a delay element 7 and a switching timer. 8, A line is also connected to the line 5 between the blocking element 6 and the converter 3 9 connected. It contains a rectifier 10, a switch 11 and a comparator 12 connected in series. At the comparator 12 are also an input side Amplitude threshold value generator 13 and the switching timer 8 connected. The latter also controls switch 11.

The output of the comparator 12 leads into one with a consumption load 14 provided integrator 15 and from there further into a second comparator 16. This is also connected on the input side to a level threshold value transmitter 17.

The line 9 is between the switch 11 and the comparator 12, a second integrator 19 provided with a consumption load 18 is connected.

A comparator 20 is connected to it, the second input of which is on a fault threshold value generator 21 leads.

in the diagrams are the prevailing voltages over time t u applied. The diagram areas A each show the voltages with undamped Vibration device 2, while in the diagram areas B the situation in the damped State is shown without interference. Points indicate on the abscissas the times at which the pulse generator 4 applies an excitation voltage to the converter 3 the vibration device 2 gives.

Is the intended fill level in the illustrated embodiment is not reached, the vibration device 2 is not to be monitored Filling medium applied. After the discontinuation of the pulse generator 4 intermittently The excitation voltage applied to the transducer 3 therefore oscillates the oscillation device 2 accordingly intensively. During the decay time, the converter generates 3 the voltage amplitudes plotted in diagram area A.

When the intended level is reached, the vibration device 2 acted upon by the filling medium and strongly damped in their vibrations.

In this case, the converter 3 delivers the values shown in diagram area B, rapidly decreasing stress amplitudes.

The locking member 6 prevents the during the decay of the converter 3 generated voltage amplitudes as disruptive control pulses to the Delay member 7 can arrive.

The excitation voltage of the pulse generator 4 is also applied to the delay element 7, which starts the switching timer 8 after time tv. The square wave voltage it generates closes switch 11 for time ta. Only those that occur during time ta The voltage amplitudes of the transducer 3 arrive after they rectified are, in the comparator 12. If they exceed the target value of the amplitude threshold value generator 13, the comparator 12 supplies a voltage of a predetermined magnitude. After elapse the switching time ta causes this voltage present at the comparator output by the drop in the square-wave voltage of the switching timer 8 - back to zero set.

The output voltage of the comparator 12 is increased in the integrator 15 one of the frequency of the pulse train of the pulse generator 4 proportional voltage converted.

Is the comparator 12 in the rhythm of the pulse generator 4 each for the time ta, the predetermined output voltage on the integrator 15, so this supplies in turn, an integrator voltage to the comparator 16, which the desired value of the Level threshold 17 exceeds. The comparator 16 then delivers that Signal "level fallen below.

If, on the other hand, the predetermined level has been reached in the container and so that the oscillation device 2 is damped, then the comparator 12 does not supply any Output voltage (see diagram section B). One of the target value of the level threshold value transmitter As a result, the integrator voltage exceeding 17 is missing, and the comparator 16 delivers the signal "level reached !!.

External vibrations act on the vibration device 2, e.g. mechanical vibrations of the container, the rectifier 10 ensures that these external vibrations lead to an increase in the voltage amplitudes, they thus always act in the signal direction "level not reached".

If this level is actually present, the malfunctions can by no means Trigger alarm. But if the fill level is reached, then the disturbances can be isolated Bring voltage pulses of time ta at the output of the comparator 12. So long however, these voltage pulses are nowhere near in rhythm with the Pulse generator 4 occur, the voltage of the integrator 15 does not reach the target value of the level threshold value transmitter 17. The comparator 16 delivers despite the effects on the oscillation device 2 External vibrations give the signal "level reached", even with a very high proportion of interference.

If the switch 11 does not have an intermittent minimum voltage on the output side on, then the voltage of the integrator 19 falls below the target value of the disturbance threshold value generator 21. The comparator 20 then emits a fault signal, so that there is also a defect is reported to the facility.

LIST OF REFERENCE NUMERALS 1 side wall 2 vibration device 3 transducer 4 pulse generator 5 line 6 blocking element 7 delay element 8 switching timer 9 line 10 Rectifier 11 Switch 12 Comparator 13 Amplitude threshold value transmitter 14 Consumption load 15 Integrator 16 Comparator 17 Level threshold sensor 18 Consumption load 19 Integrator 20 Comparator 21 Fault threshold value generator t time ta switching time tv delay time u Spannuna Ap chart areas

Claims (9)

Procedure for level control and device for implementation of the procedure ========================================================================== Claims 1) Method for level control, in which vibrations of a vibration device are attenuated depending on the fill level of the fill medium to be monitored, the vibration device is stimulated to vibrate intermittently by pulses becomes and after the impulses the decay behavior of the vibrations for level signal formation it is used that - the amplitude of the decaying vibrations measured during a section of the decay time - the measured oscillation amplitude with a predetermined amplitude threshold value is compared and - if the amplitude threshold value is exceeded, a signal is given. 2) Method according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the oscillation amplitude is rectified. 3) experience according to one or both of claims 1 and 2, d a d u r c h e k e n n n n z e i c hn e t that - the signaling on the section of the Decay. takes place for a limited time, - the temporal sequence of appearance of the signal is checked over and - in the case of one of the temporal impulse sequence essentially corresponding A level signal is given. 4) Method according to one or more of the preceding claims, d a d u r c h e k e n nz e i c n n e t that - the measured oscillation amplitude is quarried with a disruption threshold value and - if the disruption threshold value is not reached a fault signal is given. 5) device for performing the method according to claim 1, with - a vibration device, the vibrations of which are dependent on the level of the filling medium to be monitored are damped, - one the vibration device iLtermitting to vibrations stimulating pulse generator and - a device for Monitoring of the decay behavior of the vibrations e i c h n e t that the device for monitoring - one via a switch (11) with the oscillation device (2) connected comparator (12), - one with one second input of the comparator (12) connected amplitude threshold value transmitter (13) and - an actuating device (7, 8) for the switch controlled by the pulse generator (4) (11). 6) Device according to claim 5, d a d u r c h g e k e n n z e i c h n e t that - the comparator (12) is followed by a second comparator (16), - Between the two comparators (12, 15) one provided with a consumption load (14) Integrator (15) is provided and - the second comparator (16) with a tWlveau-Schasellenwertgeber (17) is in connection. 7) Furnishing according to claim 6, d a d u r c h g e k e n n z e i c h n e t that the comparator (12) or one of the actuating device (7, 8) controlled reset for the output signal. 8) Device according to one or more of claims 5 to 7, d a d u r c h g e k e n n -z e i c h n e t that - with the switch (11) another Comparator (20) is connected - between the switch (11) and the further omparator (20) an integrator (19) provided with a consumption relay (18) is provided and - the further comparator (20) with an interference threshold value generator (21) in FIG Connection. 9) Device according to one or more of claims 5 to 8, d a d u r c h g e k e n n -z e i c h n e t that one for the oscillation amplitude during the decay time impermeable locking member (6) between the pulse generator (4) and the actuating device (7, 8) on the one hand and the vibration device (2) and the switch (11) is provided on the other side.