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EP 1 169 689 B1 |
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EUROPEAN PATENT SPECIFICATION |
(45) |
Mention of the grant of the patent: |
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26.11.2003 Bulletin 2003/48 |
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Date of filing: 02.03.2000 |
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International Patent Classification (IPC)7: G08B 17/00 |
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International application number: |
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PCT/SE0000/410 |
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International publication number: |
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WO 0005/4235 (14.09.2000 Gazette 2000/37) |
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ALARM
ALARMSIRENE
SIRENE D'ALARME
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Designated Contracting States: |
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AT BE CH CY DE DK ES FI FR GB GR IE IT LI LU MC NL PT SE |
(30) |
Priority: |
05.03.1999 SE 9900801
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(43) |
Date of publication of application: |
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09.01.2002 Bulletin 2002/02 |
(73) |
Proprietor: Kobusinskiehn, Ann-Christin |
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605 91 Norrköping (SE) |
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(72) |
Inventor: |
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- KOBUSINSKI, Karl
S-60591 Norrköping (SE)
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(74) |
Representative: Berglund, Erik Wilhelm et al |
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Berglunds Patentbyra AB
Aspebraten 590 55 Sturefors 590 55 Sturefors (SE) |
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] In order to secure that also deaf or persons with reduced hearing are warned when
there is a fire it is known to use a flashing fire alarm. If you look in another direction
or maybe even sleep the probability that you do not discover a flashing light is large,
as at strong sunlight. It is further known to use vibrators, that are worn in the
pocket and that are activated wirelessly at alarm. To remember always to transfer
a vibrator when one changes clothes is not that easy and to put it under the pillow
when sleeping do not guarantee that you notice it since it may move somewhat during
sleep. Furthermore this type of alarm can only be used where there exist a transmitter
that can activate the vibrator, in other words the alarm is normally only active in
the home environment of the person with impaired hearing and it is furthermore expensive.
Additionally, always to remember the vibrator, that hopefully never will be used,
is in reality an impossibility. As is realized these alarm possibilities are not as
efficient as the penetrating sound signals from ordinary fire alarms are for those
who hear.
[0002] In order to make life safer for persons with impaired hearing there exist a need
for better alarm possibilities for those with impaired hearing. The object of the
invention is to achieve this object.
[0003] In accordance with the invention this object is solved with an alarm with a sound
signal. An alarm with a sound signal may seem improbable for persons with impaired
hearing, but since the majority of persons with impaired hearing has the reduction
in the high or middle area low tones can be used that are audible for the majority
of those with impaired hearing.
[0004] In order further to improve the possibility for persons with impaired hearing to
hear and recognize the alarm a square wave shape is used. For instance a frequency
of 100, one of 200, one of 300 and one of 500Hz may be mixed. Since it is a square
wave and in the frequency area up to 500Hz it is possible to use a sufficiently powerful
sound in order to make the sound audible also to persons with impaired hearing in
this frequency area, at the same time as it is possible to stay below the pain threshold
level for persons with ordinary hearing.
[0005] By further, in addition to feeding the loudspeaker with square wave shaped pulses,
also add one or several signals with sawtooth shape and a low frequency, for instance
coinciding with those of the square wave, a corresponding additional sound is obtained
in the low frequency area facilitating the hearing for persons with impaired hearing.
[0006] One can also consider to allow the sawtooth wave or waves to have a slightly differing
frequency as compared to that of the square wave so that one also obtain an interference
that result in a variation in amplitude and shape for the different sound pulses,
or tones. In this way the adaptability of the ear is eliminated. With adaptability
is here ment the ability of the ear to cut out a continuous tone or other sound so
that it is not noticed. By the use of a sawtooth shape for the interfering additional
sound wave a greater variation in the sound is achieved and the probability for a
person with impaired hearing to hear and notice it increases.
[0007] Since furthermore low tones are used there is also the possibility at lucky circumstances
that different objects in the room can be induced to vibrate and through their vibration
can bring the alarm to the attention of a person with impaired hearing even if he
or she can not hear the alarm. For persons with that impaired hearing it is however
appropriate also to use light or vibrator alarm to increase the safety.
[0008] By, in a preferable further development of the inventive thought, providing the alarm
with a discharge flashlight there is in the usual way the possibility for a person
that cannot hear at all to see the alarm and for a person with faint hearing it is
possible to get confirmation that it is the alarm he or she is hearing.
[0009] Further advantages of the invention as well as further developments of this is apparent
from the claims as well as the following description of a preferred embodiment of
the invention shown in the enclosed drawings. In these
fig 1 shows an alarm in accordance with the invention in a top view and fig 2 the same
device seen from an end.
[0010] The alarm shown in fig 1 includes a battery unit 1, an electronic sound circuit with
an amplifier 2, a smoke detector 3 and a flashlight 4. The amplifier 2 is connected
to a loudspeaker 5 to which is added a resonator 6 comprising a cylindric tube with
a diameter corresponding to the outlet opening of the loudspeaker and extending axially
out from the loudspeaker. The resonator tube provides together with the depth of the
loudspeaker a suitable resonance length for one of the desired frequencies. In front
of the opening of the resonator tube in the end opposed to that of the loudspeaker
end a loudspeaker grid 7 is arranged.
[0011] The fire alarm shown in the drawings function in such a manner that at a possible
fire the smoke detector 3, that preferably is of ionization type, in order to ascertain
a long time of use, detect the smoke. The smoke detector 3 activates the flashlight
4 and the sound circuit with its amplifier. The amplifier feeds the loudspeaker with
a signal in accordance with the invention. The signal consist of square waves mixed
with sawtooth waves and delivers a wobbling hard sound. The square wave in itself
sound approximately as a net frequency buzz from a poorly fastened apparatus but with
a higher frequency, while the saw tooth wave gives more normal tone. When put together
however the varying and easily recognizable alarm signal is obtained that does not
risk to be confused with the buzzing from a refrigerator or the like. By the use of
the resonator a considerable gain is obtained for the sounds or tones that are of
interest from a hearing point of view for persons with impaired hearing. This gain
is apparent from the enclosed table that has been measured for an alarm sound in accordance
with the invention.
[0012] As is apparent from the table the straight cylindrical shown resonator tube can be
exchanged for an outward from the loudspeaker slightly conically converging tube,
at which a certain additional gain is obtained for the interesting frequencies. Recalculated
to a maximum power of 10W fed to the loudspeaker element this means that the sound
pressure levels i the 50Hz-octave at a distance of 1m would be in the size of 95dB.
The conical resonator gives somewhat higher sound pressure levels than the straight
in the 500Hz band and somewhat lower in the 1000-2000Hz band. From the point of hearing
the 500Hz band is the most important, which is apparent from a comparison of the sound
providers sound levels in relation to the threshold values in the column most to the
right. As is apparent the measured sound levels at 500Hz 75 - 79dB over the normal
hearing threshold while at 250Hz the above values are 49 - 61dB over a normal hearing
threshold. At a free propagation of the sound the sound level is reduced with 6dB
at every doubling of the distance. Indoors the sound level is less reduced due to
reflexes in floor, roof etc. The maximum sound level at ca. 10m distance with a nominal
power feed of 10W will be at least 75-80dB SPL in the 500Hz-band. In other words the
signal can be appreciated to be well audible for persons with a hearing reduction
of 50dB at 500Hz. Thus the signal can be registered by the majority of all persons
with impaired hearing, since the dominating types of hearing damages leave comparatively
well preserved hearing thresholds in the low frequency area.
[0013] The electric signals, that is in particular the electric square pulses and sawtooth
pulses that are made and mixed in the sound circuit and amplified with the connected
amplifier and resonator may either be stored digitally as a recorded and tested sound
sequence, that is then played over and over again at activation or as mathematical
functions for the voltage pulses or current signals that the loudspeaker is fed with.
[0014] In the present case the sawtooth shape as well as the square shape are symmetric.
[0015] Within the frame of the inventive thought one can also consider at alarm to vary
the frequency either for square wave or sawtooth wave so that a varied frequency is
obtained in the wobbling of the sound which further reduces the risk that the sound
seems continuous and therefor is missed.
[0016] At an output level of 10W of the alarm the alarm can be activated and heard for a
long time when sounding and with a high sound level even with a moderate battery size.
[0017] The above described device is intended to be arranged as an individual fire alarm,
for instance at the home of a person with reduced hearing.
[0018] Within the frame of the inventive thought the used sound frequencies can be varied
in different ways and be tested to obtain the best possible hearability for persons
with impaired hearing. In the extreme case one can also consider that a person with
impaired hearing may have his own alarm signal developed if he has difficulties to
hear the normal alarm signal for persons with impaired hearing. Preferably however
the alarm signal should be comparatively normalized so that a person with impaired
hearing may realize that it is a fire alarm or other alarm he is hearing independent
of if he is at home, at a hospital etc.
[0019] The invention provide in relation to the known and used alarms improved safety for
the majority, and a cost per alarm device that is only a fraction of the cost for
a vibrator alarm device.
Table
Sound levels at a distance of one meter straight in front and 90° from the side in
an echo free measuring room. The sound pressure level is given in dB re. 20 µPa for
an electric signal voltage to the loudspeaker of 1V RMS. |
Oktave band freq. (Hz) |
Straight resonator |
Conical resonator |
Normal hearing threshhold in free sound field |
|
Measured from the front |
Measured from the side |
Measured from the front |
Measured from the side |
|
63 |
48 |
47 |
49 |
46 |
37,5 |
125 |
58 |
50 |
59 |
48 |
22 |
250 |
72 |
60 |
72 |
64 |
11 |
500 |
80 |
79 |
83 |
82 |
4 |
1000 |
68 |
70 |
66 |
68 |
2 |
2 000 |
69 |
61 |
66 |
63 |
-1,5 |
4 000 |
66 |
53 |
65 |
52 |
-6,5 |
8 000 |
59 |
41 |
56 |
40 |
11,5 |
16 000 |
43 |
< 30 |
42 |
< 30 |
43,5 |
A-weighted |
78 |
77 |
80 |
80 |
- |
C-weighted |
81 |
80 |
84 |
83 |
- |
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1. Alarm, in particular fire alarm for persons with impaired hearing, characterized in that it delivers sound constituted by one or several square waves and one or several sawtooth
waves.
2. Alarm according to claim 1, characterized in that the frequency of the square waves are in the area 100 - 500Hz.
3. Alarm according to any of the preceding claims, characterized in that the square waves are symmetric.
4. Alarm according to any of the preceding claims, characterized in that for square waves and/or sawtooth waves the frequencies are 100, 200, 300 and 500
Hz.
5. Alarm according to any of the preceding claims, characterized in that in front of a sound generating loudspeaker a resonator is arranged with such length
that a gain is obtained in a low frequency area.
6. Alarm according to claim 5, characterized in that the resonator is conically narrowing from the loudspeaker.
7. Alarm according to any of the preceding claims, characterized in that it is provided with a flashlight to enable control of if a heard alarm is correct
or not.
8. Alarm according to any of the preceding claims, characterized in that one or several frequencies of sawtooth waves or square waves are varied when sound
is generated.
9. Alarm according to any of the preceding claims, characterized in that it is integrated with a smoke detector and powered by batteries so that it in a known
manner can be suspended in the roof.
10. Alarm according to any of the preceding claim, characterized in that the alarm sound is a digitally recorded and stored sound.
1. Alarm, insbesondere Feueralarm für Personen mit beeinträchtigtem Gehör, dadurch gekennzeichnet, dass er einen Klang abgibt, der durch eine oder mehrere Rechteckwellen und eine oder mehrere
Sägezahnwellen gebildet ist.
2. Alarm nach Anspruch 1, dadurch gekennzeichnet, dass die Frequenz der Rechteckwellen im Bereich von 100 bis 500 Hz ist.
3. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass die Rechteckwellen symmetrisch sind.
4. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass die Frequenzen für Rechteckwellen und/oder Sägezahnwellen 100, 200, 300 und 500 Hz
sind.
5. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass vor einem einen Klang erzeugenden Lautsprecher ein Resonator mit einer derartigen
Länge angeordnet ist, dass eine Verstärkung in einem Bereich niedriger Frequenz erhalten
wird.
6. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass sich der Resonator vom Lautsprecher aus konisch verschmälert.
7. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass er mit einem Blitzlicht versehen ist, um eine Kontrolle diesbezüglich zu ermöglichen,
ob eine gehörter Alarm richtig ist oder nicht.
8. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass eine oder mehrere Frequenzen von Sägezahnwellen oder Rechteckwellen variiert werden,
wenn ein Klang erzeugt wird.
9. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass er mit einem Rauchdetektor integriert ist und mit Batterien betrieben wird, so dass
er auf eine bekannte Weise im Dach aufgehängt werden kann.
10. Alarm nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass der Alarmklang ein digital aufgezeichneter und gespeicherter Klang ist.
1. Alarme, en particulier alarme d'incendie, pour personnes affligées d'altération auditive,
caractérisée en ce qu'elle délivre un son constitué d'une ou de plusieurs ondes carrées et d'une ou de plusieurs
ondes en dents de scie.
2. Alarme selon la revendication 1, caractérisée en ce que la fréquence des ondes carrées se situe dans une plage de 100 à 500 Hz.
3. Alarme selon l'une quelconque des revendications précédentes, caractérisée en ce que les ondes carrées sont symétriques.
4. Alarme selon l'une quelconque des revendications précédentes, caractérisée en ce que, pour les ondes carrées et/ou les ondes en dents de scie, les fréquences sont de
100, 200, 300 et 500 Hz.
5. Alarme selon l'une quelconque des revendications précédentes, caractérisée en ce que, devant un haut-parleur générant un son, est disposé un résonateur présentant une
longueur telle qu'un gain est obtenu dans une plage de basses fréquences.
6. Alarme selon la revendication 5, caractérisée en ce que le résonateur se rétrécit coniquement à partir du haut-parleur.
7. Alarme selon l'une quelconque des revendications précédentes, caractérisée en ce qu'elle est pourvue d'une lumière à éclats qui permet de vérifier si une alarme entendue
est avérée ou non.
8. Alarme selon l'une quelconque des revendications précédentes, caractérisée en ce qu'une ou plusieurs fréquences des ondes en dents de scie ou des ondes carrées sont modifiées
lorsque le son est généré.
9. Alarme selon l'une quelconque des revendications précédentes, caractérisée en ce qu'elle est intégrée à un détecteur de fumée et est alimentée par des batteries, de telle
sorte qu'elle puisse être, d'une manière connue, suspendue dans les combles.
10. Alarme selon l'une quelconque des revendications précédentes, caractérisée en ce que le son de l'alarme est un son enregistré et mémorisé sous forme numérique.