EP0562960A1 - Surveillance and alarm device for monitoring and control system - Google Patents

Abstract

The invention relates to a surveillance and alarm system for monitoring the operation of a piece of equipment (6), comprising one or more detector means (4, 5) each capable of detecting a malfunction condition of the equipment, a control arrangement (2, 3) linked to each detector means and to an audio indicator (1) intended to emit an audio alarm signal in order to signal at least the appearance of a malfunction condition of the equipment. The audio signal is emitted periodically in the case of correct operation or of malfunction of the equipment. Moreover, it has an audio spectrum, during the emission periods, which consists of a first fixed frequency and of a second variable frequency, the value of which is determined on the basis of the malfunction condition or conditions detected. <IMAGE>

Description

A monitoring and alarm system for monitoring the operation of equipment, comprising one or more detector means each capable of detecting a condition of equipment malfunction, a control arrangement connected to each detector means and an audible indicator for emitting an audible alarm signal to signal at least the appearance of a condition of malfunction of the equipment.

A similar monitoring and alarm system is known from European patent application No. 82301785. It is designed for monitoring different protected areas of a room but can be adapted for an industrial control / command installation.

In the system presented in this document, the control arrangement is arranged to control the audible indicator so that it emits an audible signal upon detection of an alarm condition.

The drawback of such a monitoring and alarm system for a control / command installation is that the audible alarm signal is emitted only when a condition of equipment malfunction is detected. A monitoring and alarm system is itself liable to be faulty and therefore incapable of alerting an operator when a detection of an equipment malfunction has occurred. In addition, an audible alarm signal emitted suddenly and only in the event of a malfunction of the equipment to be monitored tends to disturb the behavior of the operator who is likely to react under the influence of panic.

The object of the invention is to provide a solution to these different problems, by making it possible to signal to the operator, on the one hand, different levels of severity equipment malfunction conditions, and secondly, multiple malfunction conditions occurring at the same time using a single audible indicator.

To this end, the invention relates to a monitoring and alarm system, characterized in that the control arrangement is arranged to control the sound indicator so that said sound signal is emitted periodically in the event of correct operation or malfunction of the equipment, and in that the sound signal has a sound spectrum, during the emission periods, which consists of a first fixed frequency and a second variable frequency whose value is determined depending on the malfunction condition (s) detected.

Other characteristics and advantages of the invention will appear even better in the detailed description which follows of an embodiment of the invention made with reference to the drawings.

FIG. 1 schematically represents an embodiment of the monitoring and alarm system according to the invention.

Figure 2 is a time diagram illustrating the characteristics of the alarm sound signal.

Referring to Figure 1, there is shown an example of implementation of the monitoring and alarm system 7 according to the invention. This monitoring and alarm system can be part of a larger whole of a control / command installation of equipment such as 6 to be monitored.

The monitoring and alarm system firstly comprises one or more detectors 5 capable of each detecting a condition of malfunction of the equipment 6. They may, for example, be position, level, variation or other detectors. known per se. In Figure 1, five detectors are shown but it is obvious that a larger number of detectors are usually used in industrial control systems. Each detector 5 produces a detection signal when it detects a condition of equipment malfunction. Each detector 5 is connected to a memory device 4 which on the one hand records alarm information in response to a detection signal supplied by the detector to which it is connected and on the other hand supplies this alarm information to a processing unit 3. The recorded alarm information can subsequently be modified or even erased by the action of an operator who has validated the alarm information. In this figure, three processing or functional units are shown, each connected to a group of memory organs. The grouping of memory organs by processing unit can correspond to a grouping of detectors by function or organ of the equipment. The memory members 4 can be inputs monitored by a program loaded in a computer.

Each processing unit 3 which can be a program loaded into a computer, is arranged to assign to each alarm information item it receives a value representative of an alarm severity level. This severity level value can for example be between 0 and 255. It is also arranged to process the received alarm information and the severity level values associated with each information to provide general alarm information and a value level of general severity. This processing can consist, for example, in finding the alarm information which has the highest level of severity. This processing results in a pair of data which is general alarm information obtained by processing the received alarm information and a general severity level value obtained by processing the severity level values assigned to the alarm information. The processing could also, alternatively, take account of acknowledgment information associated with alarm information transmitted by memory devices.

Each processing unit 3 supplies a pair of data (general alarm information, general severity level value) to a sequencer such as 2. The function of sequencer 2 is to control an audible indicator 1 so that the indicator sound periodically emits an audible alarm signal and that this audible signal emitted periodically has a different sound spectrum depending on whether the equipment is faulty or not. If no audible signal is emitted for a period greater than a period of emission of the audible signal, the operator will detect a failure of the monitoring and alarm system.

The sound signal can be of the form:
sin F1.t + sin F2.t where t is the time, F1 is a first fixed frequency and F2 is a second variable frequency fixed by the sequencer.
As can be seen in FIG. 2, each sound emission period 8 comprises a succession of sound emission sub-periods S1, S2, S3, each relating to a particular processing unit 3. The sound signal during each sub-period S1, S2, S3 has a sound spectrum consisting of the frequency F1 and a particular frequency F2. The sequencer works as follows. As long as the general severity is not significant of a fault, it fixes for each subsequent sound emission sub-period, the value of the frequency F2 equal to twice the value of the frequency F1. As soon as it receives a pair of data coming from a particular processing unit 3, it fixes for the following sound emission sub-period concerned by this processing unit, the value of the frequency F2 so that the ratio F2 / F1 is included in the set (1.1; 1.33; 1.5). This ratio can be determined by a table which corresponds to a pair of data (general alarm information, general severity level value) a frequency ratio included in the set previously mentioned. A ratio equal to 1.5 will preferably be chosen for high values of level of general severity (low gravity) and a ratio equal to 1.1 for low values of level of general severity (high gravity). Consequently, the dissonance of the sound signal will be proportional to the severity of the malfunction of the equipment to be monitored. At each sound emission period, an operator can discriminate three or more types of equipment malfunction to be monitored according to the number of sub-periods that comprise a sound emission period. Preferably, a period 8 of sound emission with a duration of between 0.2 and 1 second and two consecutive sound emissions are separated by a time interval of between 2 and 30 seconds. The first SI sub-period can have a duration ranging between 0.1 and 0.4 seconds. The second sub-period S2 can have a duration ranging from 0.2 to 0.6 seconds. The third sub-period S3 can have a duration ranging from 0.1 to 0.4 seconds.

Of course, the invention is not limited to the embodiment described above, and we can provide other variants without departing from the scope of the invention.

Claims (5)

1.) A monitoring and alarm system for monitoring the operation of equipment (6), comprising one or more detector means (4,5) each capable of detecting a condition of malfunction of the equipment, an arrangement of control (2,3) connected to each detector means and to an audible indicator (1) intended to emit an audible alarm signal to signal at least the appearance of a condition of malfunction of the equipment, characterized in that the control arrangement is arranged to control the sound indicator so that said sound signal is emitted periodically in the event of proper functioning or malfunction of the equipment, and in that the sound signal has a sound spectrum, during transmission periods, which consists of a first fixed frequency and a second variable frequency, the value of which is determined according to the detected malfunction condition (s). 2.) The system according to claim 1, in which the variable frequency is equal to twice the fixed frequency when the equipment is operating correctly and in which the ratio between the variable frequency and the fixed frequency takes values in the together (1.1; 1.33; 1.5) when the equipment malfunctions. 3.) the system according to claim 1, wherein each detector means (4,5) is arranged to supply, to the control arrangement, alarm information representative of an alarm condition in the event of detection of '' a malfunction of the equipment, and in which the control arrangement is arranged for: - assign to each alarm information that it receives a value representative of a level of alarm severity, - processing the received alarm information and the severity level values to determine general alarm information and a general severity level value; - determine the value of the second frequency from the general alarm information and the general severity level value. 4.) The system according to claim 3, in which the control arrangement is arranged to determine several pairs (general alarm information, value of general severity level) corresponding to sets of detector means, determining several values of seconds corresponding specific frequencies and control the sound indicator (1) so that the sound signal, during a transmission period, consists of a succession of sound signals each having a sound spectrum consisting of the first frequency and a second particular frequency. 5.) The system according to one of the preceding claims, in which a period of sound emission with a duration of between 0.2 and 1 second and two consecutive sound emission periods are separated by a time interval of between 2 and 30 seconds.

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