DE102009047531A1 - Smoke detector with ultrasonic cover monitoring - Google Patents

Abstract

It is described a smoke detector for closed rooms with a fastened to the ceiling or a wall of the room housing (1). In the housing, a separate smoke chamber (6, 7) with smoke inlet openings (10) is divided, in which a measuring electronics (12, 14) is arranged, which generates an evaluable measurement signal upon detection of smoke particles. At least one ultrasonic transceiver (8) is arranged on the outer edge of the detector such that it can emit ultrasonic signals at least laterally and facing away from the ceiling or wall and can receive reflected ultrasonic signals.

Description

Smoke detectors are used for the early detection of fires. There are various detection principles known as radioactive or optical scattered light, just to name two. Smoke detectors intended for use in commercial or industrial installations must have the characteristics and functions, among others, of DIN EN 54-ff suffice.

Smoke detectors to be used for homes, apartments or rooms with residential use must meet requirements that are different from those of the industrial alarms DIN EN 54 because these smoke detectors are not part of a fire alarm system. In this case, the demand of the customer is a standalone smoke detector, which, in contrast to the industrial alarms, also has the alarm display function as well as an alarm that indicates the presence of a danger to the user present. Furthermore, the smoke detector, which is operated as a standalone smoke detector, must have its own power supply, since it is not supplied via a mains network from the fire alarm control panel, as in industrial alarms.

As different standards for smoke detectors existed in the different European countries, CEN / TC72 adopted at European level the European standard Standard DIN EN 14604 "Smoke detector" developed as a product standard for the living area. This European standard is mandated by the European Commission and the European Free Trade Association within the framework of the EU Construction Products Directive (CPD) and forms the basis for the review of the "Smoke Detector" construction product harmonized with the CPD. If such smoke detector after the DIN EN 14604 standard have been tested, there is a presumption that the prospective customer or user receives more security with regard to the performance and quality standard of so-called home smoke detectors. The DIN EN 14604 is valid since 01.08.2008.

This means that only smoke detectors that comply with this standard, certified by a certified testing institute, may be placed on the European Free Trade Area.

A smoke alarm in the private sector, if it is then installed, is then no longer perceived by the private user as a waiting device. There are application standards for such smoke detectors but the private user are usually not known and also have no regulatory character, so that cyclical checks of the device during operation are usually not made.

Investigations have shown that a very high percentage of the installed smoke detectors after some time in operation often did not fully work after only a few years, because the main function of smoke detection has been significantly reduced by environmental influences. Frequently, furnishings or lamps, for example, were installed in the vicinity of the smoke detector, and then the detection function of the smoke detector was drastically worsened by shadowing or by thermal influences, as in the case of the lamps.

Usually in the manuals hints are given to such work, but one can assume that these are no longer available after a few years or simply ignored, since these smoke detectors are used exclusively in the private sector. The conclusion of maintenance contracts for such detectors in the private sector is not standardized and also not mandatory, so that one must assume that a very small number of such contracts.

Known smoke detectors work like this: A transmitter diode (LED) radiates into a smoke chamber. Various apertures or aperture functions prevent direct light entry into a receiving diode. Are there however particles, z. As smoke particles, in the smoke chamber, then light is reflected by the particles and detected by the receiving diode. It is therefore of the utmost importance that smoke particles can enter the smoke chamber.

In the standardization series of the EN 54 There are hints for the installation of smoke detectors, here however for the professional area to the effect that during the installation is to make sure that around the detector at a distance of 50 cm radius no obstacles or other objects may be located. To prevent this from being intended for private use by smoke detectors and for which no maintenance contract is then concluded, a function shall be provided to monitor and, at least within the order of 50 cm radius, surround the smoke detector Determines whether a change has been made there after installation. Of course, it is important to know here whether the change has an influence on the detection behavior of the smoke detector so that it can no longer detect the standard according to the changes.

The aim of the invention is therefore to provide a smoke detector, which is able to detect the environment to a radius of 50 cm and at the same time determine whether a possibly detected obstacle or detected object hampered or reduced its own detection properties to such an extent that they no longer conform to the standard. In addition, a method is to be specified, as the smoke detector is to operate.

This object is achieved with a smoke detector for closed rooms with a fastened to the ceiling or a wall of the room housing in which a separate smoke chamber with smoke inlet openings is divided, in which a measuring electronics is arranged, which generates an evaluable measuring signal upon detection of smoke particles, characterized achieved that at least one ultrasonic transceiver is arranged at its outer edge so that it at least laterally and ceiling or wall facing away send out ultrasonic signals and can receive a possibly reflected signal again.

The invention makes use of the physical fact that sound propagates at a speed of about 330 m / s in air, so that from the period between the transmitted signal and the receiving signal directly on the distance of the reflecting object can be closed , If the distance to be detected, for example 50 cm radius, is fixed, in a preferred embodiment, for example, a time window between the transmission and reception of the ultrasound signal can be opened, within which a reflected signal must be detected. Otherwise, the object is not within the distance to be detected.

According to a preferred embodiment, it is provided that three ultrasonic transceivers are arranged at equidistant intervals on the outer edge of the smoke detector, for example at an angular distance of 120 °. In practice it has been shown that hereby an excellent monitoring of the environment of the smoke detector is possible with still acceptable apparatus design.

To simplify the handling of the smoke detector according to the invention, it may be particularly preferred that the ultrasonic transceivers are arranged within the outer contours of the smoke detector. This considerably facilitates the handling and transport of the smoke detector.

According to a particularly preferred embodiment of the smoke detector, it is provided that each ultrasonic transceiver is assigned a reflector which allows a portion of the ultrasonic signals radiated by the ultrasonic transceivers to pass on one side away from the ceiling or wall and, on the other hand, deflects a portion sideways. Part of the ultrasonic signals is thus radiated unhindered by the transceivers, whereas a different portion of the signals is deflected sideways. As a result, the entire interest environment of the smoke detector is detected by the detection of an obstacle to a shadow cone.

The inventive method for operating a prescribed smoke detector is characterized in that cyclically, for example at intervals of one week, an ultrasonic transceiver is switched to the transmit mode in which it emits ultrasonic signals, then emits an ultrasonic signal and then all ultrasonic transceivers within a predetermined time window in be switched to the receiving mode in which they can receive ultrasonic signals, which are reflected for example by obstacles or objects within the monitored space around the smoke detector around.

According to a variant of this method of operation, it is provided that after each measurement cycle it is determined whether a change in a predeterminable degree has occurred as a reference value relative to the at least one preceding ultrasonic signal measurement result, and if the transmission power of the ultrasound transceivers is increased to such an extent in that the reference value is again determined on the ultrasound transceivers in the next measurement cycle. If, for example, the changes amount to a maximum of 1%, the transmission power of the ultrasound transceivers is increased to such an extent that the same value is detected at the ultrasound transceivers as in the previous measurement. Compensation may be performed until the compensated amount reaches the value set for the maximum acceptable smoke detector coverage for standard smoke detection.

In order to be able to take account of very small changes, it is provided in a further embodiment variant that not only the respectively preceding measurement result is compared with the current measurement result, but also results from all previous measurements by averaging serve as the reference value. With this variant also changes can be included, which are very slow.

The invention will be explained in more detail with reference to an embodiment. Hereby shows:

1 a vertical section through the smoke detector;

2 a plan view of the smoke detector 1 ; and

3 schematically the operation of the smoke detector.

1 shows a vertical section through a smoke detector. Inside the case 1 is a power supply 2 as well as a sound generator 3 arranged. Furthermore, there is a measuring electronics 12 . 14 from transmitting or receiving diode etc. within the housing 1 , The smoke chamber base 6 is on a backing plate 4 assembled. In the drawing figure is still the smoke chamber upper part 7 and the insect screen commonly used to protect against insects 5 shown. With the reference number 13 is called a diaphragm, which - as described - a direct light entry into the receiving diode 14 prevented. On the carrier plate 4 There are three ultrasonic transceivers 8th , They are in the area of the outer edge of the housing 1 arranged. The ultrasound transceivers 8th are components that can both emit ultrasonic signals and receive ultrasonic signals.

Both outgoing and reflected incoming ultrasonic radiation is from a reflector 9 led, with each ultrasonic transceiver 8th a reflector 9 assigned. The arrows are intended to symbolize that part of the outgoing ultrasonic radiation is emitted unobstructed ceiling or wall facing away, whereas another part sideways through the reflector 9 is distracted. The same applies, of course, when receiving the ultrasonic radiation.

2 shows the top view of the smoke detector 1 , so the smoke detector off 1 seen from above. It can be clearly seen that in the area of the outer edge of the housing 1 three ultrasound transceivers 8th are arranged, each with an associated reflector. The three ultrasonic transceivers 8th are present equidistant with an angular distance of 120 °.

3 illustrates the operation of the smoke detector from the 1 and 2 , reference numeral 15 refers to the sound lobe in the transmission mode of the ultrasonic transceivers 8th going on. It is clear that the reflectors 9 serve to direct the ultrasonic radiation sideways.

The space around the smoke detector is adequately monitored in this way. Only a sonic shadow 16 is formed, but which is not relevant to the monitoring of the area surrounding the detector. Meet the ultrasound beams 15 now on an object 11 in the monitored room, there is a partial reflection of the ultrasonic radiation. These reflected ultrasound beams are then transmitted by the ultrasound transceivers 8th , which are then in receive mode, received. The signals are evaluated by the measuring electronics.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• DIN EN 54-ff [0001]
• DIN EN 54 [0002]
• Standard DIN EN 14604 [0003]
• DIN EN 14604 standard [0003]
• DIN EN 14604 [0003]
• EN 54 [0009]

Claims (7)

Smoke detector for closed rooms with a housing that can be fixed to the ceiling or wall of the room ( 1 ), in which a separate smoke chamber ( 6 . 7 ) with smoke inlets ( 10 ) is divided, in which a measuring electronics ( 12 . 14 ) is arranged, which generates an evaluable measuring signal upon detection of smoke particles, characterized in that at its outer edge at least one ultrasonic transceiver ( 8th ) is arranged so that it can emit ultrasonic signals at least laterally and away from the ceiling or wall and can receive reflected ultrasonic signals. Smoke detector according to claim 1, characterized in that three ultrasonic transceivers ( 8th ) on the outer edge of its housing ( 1 ) are arranged at equidistant intervals. Smoke detector according to claim 1 or 2, characterized in that the ultrasonic transceivers ( 8th ) are arranged within its outer contours. Smoke detector according to one of claims 1 to 3, characterized in that each ultrasonic transceiver ( 8th ) a reflector ( 9 ), which is a part of the ultrasound transceivers ( 8th ) radiated ultrasound signals on the one hand ceiling or wall facing away happen and on the other hand deflects a part sideways. Method for operating a smoke detector according to one of claims 1 to 4, characterized in that an ultrasonic transceiver ( 8th ) is switched to the transmit mode in which it emits ultrasonic signals, emits an ultrasonic signal and then all ultrasonic transceivers ( 8th ) within a predetermined time window in the receiving mode in which they receive ultrasonic signals are switched. A method according to claim 5, characterized in that it is determined after each measurement cycle, whether the reference value has a change to a predetermined extent compared to the at least one preceding ultrasonic signal measurement result, and that exceeds the change in the change of this measure, the transmission power of the ultrasonic transceiver so far is that at the ultrasonic transceivers ( 8th ) the reference value is determined again. A method according to claim 6, characterized in that all previous measurement results serve by Mittellung as a reference value.

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