EP2068288A1 - Device and method for monitoring the function of a device, in particular a smoke detector - Google Patents

Abstract

The device (100) has a functional unit (101) configured to process a provided output during application. A signal generator (104) is configured to generate a signal, if a function of the functional unit leaves a pre-determined operating range. The signal generator is configured to generate a permanent and visible signal (115) independent of the provided output. An independent claim is included for a method for monitoring a function of a unit.

Description

The present invention relates to a device for monitoring a function of a device and a method for monitoring the same, in particular a smoke detector.

Smoke alarms or fire alarms are technical devices or systems for triggering an alarm in the event of a fire in homes, public facilities, transport or industrial facilities. Automatic smoke detectors, for example, detect the fire on the basis of its physical properties and initiate fire-fighting measures, the warning of persons inside a building and property and personal protection, usually the alerting of the responsible security personnel and / or the fire brigade.

Smoke detectors can use various physical effects to detect smoke. Currently the most common fire detectors are the optical or photoelectric smoke detectors. These usually work according to the scattered light method, i. H. clear air reflects almost no light, but if there are smoke particles in the air and thus in the optical chamber of the smoke detector, a test light beam emitted by an infrared light emitting diode or a laser diode is scattered on the smoke particles. Part of this scattered light then falls on a photosensitive sensor, which is not directly illuminated by the light beam, and the smoke detector is activated.

The German Industrial Standard 14676 sets minimum requirements for the planning, installation, operation and maintenance of smoke detectors in residential buildings, apartments and rooms with similar dwellings Use firmly. In particular, a functional test or maintenance is required in at least an annual cycle.

Smoke detectors are smoke detectors in which the alarm is sounded in the event of a fire, whereby the sounder is integrated in the smoke detector. For battery-operated smoke detectors, the battery of the smoke detector should be replaced at least once a year or according to the manufacturer's instructions. The application standard DIN 14676 stipulates that the smoke detectors to be installed must be certified according to the device standard DIN EN 14604 in order to obtain the CE marking.

The functionality of common smoke detectors can currently be checked as follows: in some models, there is a test button, which the user at regular intervals, d. H. For example, once a month, must be pressed. If the smoke detector is functional, a beep will sound. For most models, however, only the contact with the battery is bridged and thus the functionality of the battery is checked. In other models, a small lever in the smoke chamber deflects the light beam, simulating smoke, which then triggers an alarm.

If the battery is coming to an end, often in conjunction with the blinking of a light emitting diode at intervals of approx. 30 seconds to 3 minutes, a short, usually soft beep sounds, which is initially supplied with power by the battery, then by a small emergency battery , After 30 days at the latest, the smoke detector will no longer send any signals. Then the smoke detectors on the ceiling only pretend safety, at least until it is removed from the ceiling and checked.

Other models send an impulse to a small LED every 30 seconds. As long as this diode flashes it can be assumed that the smoke detector is working or that the battery supplies sufficient voltage. If the functioning of the battery is coming to an end, often in conjunction with the flashing of the LED at intervals of approx. 30 seconds to 3 minutes, a short, usually low-pitched beep sounds, initially from the battery, then from a small emergency battery with power supplied. After about 30 days at the latest, the smoke detector will no longer send any signals.

The particular technical problem with smoke detectors therefore represents the fact that they are not regularly checked and therefore due battery changes are not recognized and made.

It is the object of the invention to provide an apparatus and a method which ensure that a situation in which a functional unit, such as e.g. a smoke detector leaves a predetermined operating range is detected by a user.

This object is achieved by a device according to claim 1 or by a method according to claim 12.

The present invention provides according to one embodiment, a permanent optical signal when the functionality of a device is no longer guaranteed or is coming to an end.

The device may be any type of technical device, but preferably, the present invention is intended to be applied to devices whose deviation from a predetermined operating range is a source of danger.

It should not matter whether the declining or non-existent functionality by lessening the Power supply, such as batteries, batteries, mains voltage or caused by the defect of other components in the device. It is also conceivable that an external influence, for example the penetration of moisture or an exceeding of the permitted temperature range, causes the functional unit to leave its predetermined operating range.

Furthermore, the invention is effective to indicate the failure of the operational readiness so obvious and conspicuous that the failure or lessening of the operational readiness is not to be ignored.

If a function of the functional unit leaves a predetermined operating range, which can be defined by the manufacturer of the device, this includes, for example, a decreasing power supply, a changeover to emergency operation, a defect of a component in the device, an increase in the temperature in the event of a failure of the cooling or any other decrease or failure of the operational readiness, this event is recognized by the device instructing the signaler to immediately generate a permanent and independent of the provided power visible signal that attracts the attention of the user of the device and unambiguously indicates it, that the device has failed or that a failure of the device is imminent.

Exemplary embodiments of such permanent, power-independent visible signals are colored signal bands or signal threads with or without printed warning, warning indicators on the device, flakes falling out of the device or even a color change of the housing or parts thereof.

Fig. 1

ein Blockschaltbild einer Vorrichtung zur Überwachung einer Funktion eines Geräts gemäß einem Ausführungsbeispiel;

Fig. 2

ein Blockschaltbild einer Vorrichtung zur Überwachung der Betriebsbereitschaft eines Rauchmelders gemäß einem Ausführungsbeispiel; und

Fig. 3

ein Blockschaltbild einer Vorrichtung zur Überwachung der Betriebsbereitschaft eines Rauchmelders gemäß einem weiteren Ausführungsbeispiel.

Preferred embodiments of the present invention will be explained below in detail with reference to the accompanying drawings. Show it:

Fig. 1

a block diagram of an apparatus for monitoring a function of a device according to an embodiment;

Fig. 2

a block diagram of an apparatus for monitoring the operational readiness of a smoke detector according to an embodiment; and

Fig. 3

a block diagram of an apparatus for monitoring the operational readiness of a smoke detector according to another embodiment.

Fig. 1 shows a block diagram of an apparatus 100 for monitoring a function of a device according to an embodiment. The device 100 consists of a functional unit 101, a sensor 102, a triggering controller 103 and a signal generator 104. The functional unit 101 has an output 110 which is connected to the sensor 102. Furthermore, the functional unit 101 has an input 111, which is connected to the sensor 102. The sensor 102 has the input 110 and the output 111 which, as already explained, are connected to the functional unit 101. In addition, the sensor 102 has another output 112 connected to the trip control 103. The trigger control 103 has two inputs, one of which, 112, is connected to the sensor 102, the other, 113, is input for a reference signal. The trigger control 103 has an output 114 connected to the signal generator 104. The signal generator 104 has the input 114 and has an output 115 which provides a visible signal. The entire device 100 is included with a housing 120.

The functional unit 101 provides a signal that provides information about its functional readiness, a possible reduction in its readiness for operation or a failure of the functional readiness. This operational readiness signal 110 is read by the sensor 102. For the If the signal for functional readiness 110 of the functional unit 101 is not permanently available, but must first be determined by a request, the sensor 102 sends an activation signal 111 to the functional unit 101, which causes it to check its operational readiness and in response to a signal to the operational readiness 110 or to lessen the readiness to function or to the failure of the readiness to function to the sensor 102 to send.

The sensor 102 forwards this signal to the operational readiness 110 at its output 112 to the tripping control 103. The trigger control 103 receives externally a reference signal 113, which serves to obtain a reference or a threshold for the functional readiness of the functional unit 101. The trigger control 103 now compares the signal to the operational readiness of the sensor output 112 with the reference signal 113. If a certain relationship, the trigger control 103 sends a signal 114 to trigger the visible signal 115 to the signal generator 104. If this relationship does not exist, so no signal 114 is sent to the signal generator 104 or a signal 114 is sent to the signal generator 104, which contains the command not to trigger the visible signal 115.

Both the functional unit 101 and the sensor 102 and the trigger control 103 may be configured as analog or digital circuits. The comparison in the triggering controller 103 can be carried out, for example, by a comparator circuit which compares two voltages applied to the input and, depending on the result, switches the output to the positive or the negative supply voltage. Alternatively, the comparator can also be designed as a digital microprocessor, which executes a program code which, in this case, compares two input signals with one another. Also a realization as a Field Programmable Gate Array (FPGA), which uses the comparison logic implemented directly with logic gates is possible. The signal 114 for triggering the signal generator 104 can be, for example, to trigger a mechanical force or to solve an electromagnetic connection. Further embodiments are in the Figures 2 and 3 specified.

If the signal generator 104 receives the signal 114 to trigger the visible signal 115, it triggers the visible signal 115, and a permanent, power-independent, visible signal is generated.

In this embodiment, the device 100 for monitoring a function of a device is housed in a housing 120. This means that both the functional unit 101 to be monitored and the sensor 102, the triggering controller 103 and the signal generator 104 are integrated together in a device 100.

By the in Fig. 1 As shown, device 100 may monitor a function of a device. The functional unit 101, which is responsible for the function of the device, is able to test the functional readiness of the function and display it by means of a signal. This ready-to-operate signal 110 may be detected by a sensor 102 and provided to a trip control 103. The trigger control 103 compares the signal provided by the sensor to the operational readiness 112 with a reference 113 and checks whether the function of the functional unit 101 is within a predetermined tolerance or whether the operational readiness of the function is given. The function may be, for example, the power supply or the correct operation of individual components or a switch to emergency power supply or another criterion specified by the manufacturer of the device. If the comparison in the triggering control 103 shows that the function of the functional unit 101 is leaving its operational readiness has, the trigger control 103 sends a signal 114 to the signal generator 104 to trigger a permanent visible signal 115, which draws the attention of the user of the device and is not ignorable for him. The signal 115 also does not depend on the power, ie it should also be visible if the power of the functional unit 101 or of the device 100 for monitoring a function of a device has failed or failed and was subsequently restored (eg temporary power interruption on one) freezer). Examples of such permanent visible power independent signal media are signal bands or signal threads of colored material or pointers that line up on the device, or flakes that fall out of the device. Also, a change in color of the device 100 or the housing 120 is to be considered.

The preferred application of the embodiment Fig. 1 However, it is the detection of a decrease or failure of the power supply of a device and warning to the device user by means of a permanent visible and power independent signal.

Fig. 2 shows a block diagram of an apparatus 200 for monitoring the operational readiness of a smoke detector according to an embodiment. The device 200 comprises a smoke detector 201, a signal processing unit 202 and a visible medium compartment 203. The smoke detector 201 has two outputs 210 and 211 which are connected to the signal processing unit 202. This has an exit 212 which is connected to the visible medium compartment 203. The visible media bin 203 has an exit 213 through which the visible signal is signaled.

The smoke detector 201 comprises a warning LED 220 and a warning loudspeaker 221, which in case of decreasing or non-existent functionality, caused by slackening the power supply, ie batteries, rechargeable batteries or mains voltage, or in the event of other impairments of functionality (eg contamination of sensors, failure of components, etc.) emit a warning signal 210,211. For example, the warning signal 210 may be the same signal applied to the warning LED 220, or the warning signal 210 may be, for example, the same signal applied to the warning speaker 221. The two warning signals 210 and 211 enter the signal processing unit 202 and are forwarded there in a preferred simple form to an OR stage 222. The OR stage 222 generates an output signal 212, which is only active when one of the two input signals 210 or 211 is active. In this case, active means that the warning LED 220 or the warning loudspeaker 221 are controlled with a warning signal and thus the warning signals 210 or 211 are active. If the output signal 212 of the signal processing unit 202 is active, this signals an opening mechanism 223 of the visible medium compartment 203 to open a flap 224. When the door 224 of the visible media compartment 203 opens, a signal tape 225 located in the visible media compartment 203 falls out of the compartment due to gravity. The signal band 225 drops down and is widely visible to the user of the smoke detector 201 by means of its signal markings. He can not ignore it and recognizes that the warning LED 220 or the warning speaker 221 of the smoke detector 201 were active, indicating to him that the operational readiness of the smoke detector 201 is no longer present.

The opening mechanism 223 can be realized, for example, by means of an electromagnet or a spring folding mechanism. Other designs are conceivable.

The device 200 for monitoring the operational readiness of a smoke detector 201 in this exemplary embodiment comprises a housing 230 which houses the smoke detector 201, which Signal processing unit 202 and the visible medium compartment 203 includes. It is envisaged to mount the device 200 in a suitable location so that upon release of the flap 224 the signal strip 225 may fall down due to gravity. For example, a mounting on the ceiling or on the wall is suitable.

The smoke detector is a preferred embodiment. The aim is to develop a smoke detector, which is characterized in that this is the case of decreasing or no functionality, caused by a decreasing power supply, d. H. Batteries, batteries or mains voltage, or by a defect or contamination of other components in the device is a permanent optical signal that is conspicuous and not ignorable.

A signal band dropping off when the readiness is reduced or when the functional readiness fails, it is constantly made clear that there is a need for action at this smoke detector. The tape can be located behind a flap in a small compartment inside the smoke detector, if available, as in Fig. 2 is shown. This flap opens when the readiness or failure of the function readiness and the tape falls down.

In an alternative exemplary embodiment, the flap 224 (or else referred to as a cover) can not be closed, for example, as long as the operational readiness of the smoke detector 201 is not restored or as a function of the functional unit 101 has left a predetermined operating range. Only after a repair of the smoke detector 201, for example by replacing the battery, or when the function of the functional unit 101 is again within the predetermined operating range, the flap 224 can close again.

In a further embodiment, the entire housing 230 may be fastened by means of a fastening device, for example to a wall, a ceiling or to a carrier. The attachment means may be, for example, a bottom plate to secure the housing 230 in a suitable location. If the smoke detector 201 loses its operational readiness or a function of the functional unit 101 leaves a predetermined operating range, the fastening device can release the fastening of the housing 230, for example by triggering via the output signal 212, so that the housing 230 is detached, for example, from the base plate and unfolds or even falls down. The housing 230 can thereby release the signal medium 105 or the detachment of the housing 230 from the fastening device can be regarded as a permanent visible signal 115.

A re-attachment of the housing 230 by means of the fastening device may, for example, only be possible if the smoke detector 201 again operates without errors, e.g. after a replacement of the battery, or if the function of the functional unit 101 is again within the predetermined operating range.

For example, a fixing mechanism of the housing 230 can be realized by a mechanism similar to that used by the opening mechanism 223 in FIG Fig. 2 is described with the difference that upon actuation of the opening mechanism 223, not only the flap 224 can open, but the entire housing can be detached from the fastening device, such as the bottom plate to release the visible signal medium 105.

Fig. 3 shows a block diagram of a device 300 for monitoring the operational readiness of a smoke detector according to another embodiment. The device 300 is, as in Fig. 2 shown, from one Smoke detector 201, a signal processing unit 202 and a visible medium compartment 303. The smoke detector 201, the signal processing unit 202 are similarly constructed as in the embodiment Fig. 2 , Different from Fig. 2 is the visible medium compartment 303. This includes an electromagnet 323 and a signal band 325 attached to the electromagnet 323 with a magnetic mount at one end of the band. The electromagnet 323 is driven by a signal 212 of the signal processing unit 202. If the signal 212 is active, this means to magnetize or demagnetize the electromagnet 323 so that the signal band 325 separates from the electromagnet 323 and falls to the ground due to gravity. The visible medium compartment 303 emits a signal 213 which is permanently visible and power independent in the form of the signal band.

Also, the device 300 for monitoring the operational readiness of a smoke detector 201 according to the embodiment Fig. 3 comprises a housing 230 containing the individual components smoke detector 201, signal processing unit 202 and visible medium compartment 303.

It is also advantageous to suspend the device on the ceiling or on a wall, so that upon release of the signal band 325, which is magnetically attached to the electromagnet 323, the force of gravity can act and the signal band 325 falls to the ground. The outlet opening of the compartment with visible medium 303 should also be arranged in such a way that unobstructed falling out of the signal band 325 is ensured.

In the embodiment according to Fig. 3 At the end of the tape 325 is a small magnet that holds the wound tape 325 in a small pocket 303 and drops the signal tape 325 when the readiness or failure of the readiness for operation is lost. Further developments of this embodiment, the safe and inexpensive can work, and energy-saving, can be derived from this embodiment.

The signal band 325 is recognizable to everyone, it is usually perceived as disturbing and therefore can not be ignored in the long run. To remove the signal band 325, the smoke detector 301 must be removed from the ceiling, hopefully the battery replaced and the signal band 325 returned to the home position.

Another embodiment is applications in which the failure of the operational readiness with simultaneous failure of the emergency power supply must be displayed or applications in which permanent signals must be given in extremely noisy environment.

To achieve this function, either on existing or to be developed electro-optical signals, d. H. LED, light, or acoustic signals, such as buzzer or buzzer, which signal the operational readiness, tapped a signal and processed so that a permanent optical signal is produced, which remains recognizable and indicates the failure or the decrease in the readiness to function, if the power supply is completely interrupted.

Or it will be due to existing or to be developed electro-optical signals, d. H. LED, luminaire or acoustic signals, such as buzzer or buzzer, which signal the easing or the failure of the operational readiness, tapped a signal and processed so that a permanent optical signal is generated, which remains recognizable and the failure or the lessening of Indicates operational readiness when the power supply is completely interrupted.

The triggered permanent signal may be z. B. be the following signal media: a signal band of colored Material with and without imprinted warning message that falls from the device when wall or ceiling mounted, and then hangs down or one or more colored signal wires with and without warning attached to the unit when mounted on the wall or ceiling fall and then hang down, or pointers that line up with the appliqué or flakes that fall off the unit when mounted on the wall or ceiling, or a color change on the case or parts thereof.

The positioning of the permanent signal media can be done for example by gravity or spring force or by chemical processes.

With the exception of the color change, a mechanical release mechanism is usually used for positioning the signal media. These may be, for example, electromagnets, capacitors, control switches, pulse switches, heat release or newly developed release mechanisms.

As a further embodiment in addition to the smoke detector, which there are also variants for mains-powered smoke detector, also offers the application in wireless alarm systems. In principle, it will always be applications where a malfunction can go unnoticed or ignored. Battery or battery applications are therefore in the foreground.

Further exemplary embodiments also represent the following applications: a hazard detector for radioactive radiation, toxic vapors, smoke or gases, a warning device for leaking or overflowing liquids, a consumption detector for indicating the residual value of consumables, a safety device for monitoring equipment, objects or persons, a monitoring device for measuring data monitoring or for monitoring of Flow rates, a communication device for communication of a person or a technical device with a person or a technical device, a Funktürgong, a baby monitor, an ultrasonic flowmeter, a Messdaten- and telemetry system, an irrigation computer, a level controller, for level measurement, a feeder, a motion detector, a CO detector, a water detector, a gas detector, a radioactive radiation alarm, a cat door, an electronic soap or towel dispenser, a circulation pump for aquariums or swimming pools or an anti-theft device for containers, such as TSR-KNL.

Some of the above embodiments concerned a smoke detector in which a signal band is provided which hangs in the event of failure of the detector to indicate this condition. This signal band may be made of a refractory or refractory material according to a further embodiment or contain such a material (eg a wire embedded in the signal band of a metal with a high melting point). The material is chosen to withstand the temperatures usually encountered during fires so that it can be detected even after a fire whether the signal band is present or not. In such a case, the existing signal band indicates that the smoke detector was present and functional because the signal band remains in the smoke detector body in this case. If the smoke detector was no longer functional, the signal band is located outside the smoke detector body. Furthermore, it can be detected whether a user has removed the signal band after the signaling of the failure of the smoke detector (eg cut off). In such a case, it can also be seen after a fire that the signal band is not present. This embodiment of the signal band is of particular interest for fire insurance, which require the installation of smoke detectors and ensuring their functionality for insurance coverage. By erfindungemäße Design of the smoke detector with a signal band of a refractory or fire-resistant material or with a signal band containing such a material can only be detected if at the time of the fire a functioning smoke detector was present. Likewise, the above-mentioned manipulation (cutting off the tape) can be recognized.

Claims (12)

Apparatus (100) having a functional unit (101) configured to operate upon application of a provided power; and a buzzer (104) configured to generate a signal (115) when a function of the functional unit (101) exits a predetermined operating range;
characterized in that
the buzzer (104) is configured to generate a persistent and independent of the provided power visible signal (115). The device (100) of claim 1 including a housing (120), wherein the functional unit (101) and the transducer (104) are disposed within the housing (120), and wherein the transducer (104) comprises a mechanical signal medium (115) that is displayed outside the case (120). Device (100) according to claim 2, in which the mechanical signal medium (115) has the following features: a signal strip (225) of colored material with or without printed warning, or one or more signal threads of colored material with or without printed warning, or a pointer that rests on the housing, or Flakes falling out of the housing wherein the positioning of the mechanical signal medium (115) is effected by means of gravity or spring force and controlled by an electrical or mechanical triggering mechanism (223, 323). The device (100) of claim 1 including a housing (120), wherein the functional unit (101) and the transducer (104) are disposed in the housing (120), and wherein the transducer (104) comprises a chemical signal medium (115) that is configured to cause a visible color change on the housing (120) or on parts of the housing. Device (100) according to one of claims 2 to 4, in which the housing (120) has the following feature: a lid (224) adapted to deploy to release the signal medium (115) when a function of the functional unit (101) exits a predetermined operating range and wherein the lid is configured to close again only when the lid is closed Function of the functional unit (101) is again within the predetermined operating range. The device (100) of any one of claims 2 to 5, wherein the housing (120) further comprises the following feature: a fastener configured to secure the housing (120) to a wall, ceiling or support, and configured to release the attachment of the housing (120) when the function of the functional unit (101 ) leaves a predetermined operating range to indicate the visible signal (115), and wherein the fastener is configured to allow re-attachment of the housing (120) only when the function of the functional unit (101) is again within the predetermined operating range. Device (100) according to one of the preceding claims, with a sensor (102) which is designed to determine the functional readiness of the functional unit (101) based on a signal (110) from the functional unit (101) and to generate a signal (112) indicating the operational readiness of the functional unit (101) , and a trigger controller (103) configured to receive the signal (110) read from the sensor (102) and to compare it with a reference signal (113) and to trigger the signal generator (104) when the signal (112) is opposite the reference signal (113) has a certain relationship, wherein the signal generator (104) is adapted to generate a permanent visible signal (115). Apparatus (100) according to claim 7, wherein the sensor (102) is adapted to send an activation signal (111) to the functional unit (101), the functional unit (101) being arranged to respond to the reception of the activation signal (111 ) to provide the signal to be detected by the sensor (102). The apparatus (100) of any one of the preceding claims, wherein the signal generator (104) is configured to generate a signal (115) when a power supply to the functional unit (101) decreases or a defective component in the functional unit (101) deviates from a predetermined operating range, or an external influence causes the functional unit (101) to deviate from a predetermined operating range. Device (100) according to one of the preceding claims, in which the functional unit (101) a hazard detector for radioactive radiation, toxic fumes, smoke or gases, or a warning device for leaking or overflowing liquids, or a consumption detector for indicating the remaining value of consumables, or a safety device for monitoring equipment, objects or persons, or a monitoring device for measuring data monitoring or for monitoring flow rates, or a communication device for communication of a person or a technical device with a person or a technical device is. Device (100) according to one of Claims 1-9, in which the functional unit (101) a smoke detector (200, 300), a wireless gong, a baby monitor, an ultrasonic flowmeter, a measurement and telemetry system, an irrigation computer, a level controller, for level measurement, a pet feeder, a motion detector, a CO detector, a water detector, a gas detector Radioactive radiation warning device, a cat door, an electronic soap or towel dispenser, a circulation pump for aquariums or swimming pools or an anti-theft device for containers. A method of monitoring a function of a device, comprising: a functional unit (101) configured to operate upon application of a provisioned power; and a buzzer (104) configured to generate a signal (115) when a function of the functional unit (101) exits a predetermined operating range, the method comprising the step of: Generating a permanent, visible signal (115) independent of the power provided to the functional unit (101) when a function of the functional unit (101) leaves a predetermined operating range.

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