FI13185Y1 - Acoustic alarm device - Google Patents

Description

BACKGROUND OF THE INVENTION The invention relates to an audible alarm device for giving an alarm.

An example of an audible alarm device is the public population alarms used by the authorities, which are used to warn the public, for example, of imminent danger, in which case there may be a need to protect themselves as quickly as possible.

In this case, it is particularly important that the public alarm sounds over a sufficiently large area in a sufficiently large area.

Typically, population alarms are therefore located at least partially outdoors to transmit the sound over as wide a range as possible.

Pop-up alarms are large in physical size and produce a high-intensity public alarm sound, which also consumes more energy.

The public alarm sound is typically generated at an intensity of more than 100 dB.

However, one problem with the population alarm sound is that the person does not necessarily hear the said population alarm sound.

The person may not hear the population alarm sound, as the population alarm sound may be too low at the viewing point, for example.

Brief Description of the Invention It is an object of the invention to provide a new type of audible alarm device for giving an alarm.

The solution according to the invention is characterized by what is stated in the independent claim.

The basic idea of the invention is that the audible alarm device generates an alarm when it receives an alarm signal transmitted by radio.

One advantage of the solution according to the invention is that an alarm, such as a population alarm, can be transmitted via an audible alarm device to an area S where an alarm, such as said population alarm, would otherwise not necessarily belong.

Ek Some embodiments of the invention are set forth in the dependent claims. BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail in connection with some embodiments, with reference to the accompanying drawings, in which: Figure 1 schematically shows an audible alarm device;

Fig. 2 schematically shows a second audible alarm device, Fig. 3 schematically shows a third audible alarm device, and Fig. 4 schematically shows a fourth audible alarm device.

In the figures, some embodiments of the invention are shown simplified for clarity.

Similar parts are denoted by the same reference numerals in the figures.

DETAILED DESCRIPTION OF THE INVENTION Fig. 1 schematically shows an audible alarm device 100. Figs.

An advantage of using the audible alarm device 100 indoors is that the alarm indicated by the sound of the audible alarm device 100 is more reliable for persons indoors.

However, the use of the audible alarm device 100 is not necessarily limited to indoor use, but may also be used outdoors within the limits allowed by the characteristics of the device.

When the audible alarm device 100 is intended to be placed indoors, such as in an office space, the interior of a factory building or the interior of a private residential building, the audible alarm generated by it is intended to belong to at least that interior or part thereof in which said audible alarm device 100 is located.

The audible alarm device 100 can produce sound indoors at, for example, 85 dB, which is in most cases sufficient for indoor sound to sound an alarm.

The sound level can also be lower than 85 dB.

In addition, the audible alarm device 100 is dimensioned so that the components are small in size, inexpensive, and suitable for indoor use.

The audible alarm device 100 is for generating an audible alarm.

In the embodiment of Figures 1, 2 and 3, the alarm produced by the audible alarm device 100 is an alarm sound produced at a certain volume and frequency or frequencies.

In the embodiment of Q 4 according to Figure 4, the sound produced by the voice alarm device 100 is a speech instruction or an alarm sound, wherein the speech instruction comprises frequencies and combinations thereof by means of which the voice can be intelligible speech.

The audible alarm device 100 according to the figures comprises a power supply 120. The power supply 120 produces the necessary energy, i.e. voltage and current, for the functions of the audible alarm device N 100.

The power supply 120 shown in the figures is a mains power supply.

The power supply 120 of Figures 1 and 2 comprises a plug 122 for plugging into an electrical outlet.

For example, in Finland, mains power from sockets is alternating current with a voltage of 230 volts and a frequency of 50 Hz.

The mains power supply may comprise the necessary components, such as a transformer, for converting the voltage to a specified DC voltage.

The advantage of using the mains power supply is that the mains power supply can be connected in a versatile manner to a comprehensive part of the sockets indoors to obtain energy, where energy is needed by the audible alarm device 100 to produce an alarm sound or voice instruction.

In the embodiments of Figures 3 and 4, the audible alarm device 100 comprises a power supply 120 to which a separate wiring is connected for energy during installation.

This has the advantage of placing the audible alarm device 100, for example, inside the fireproof structure, so that there is no need to provide a space-consuming socket inside the fireproof structure.

Alternatively, in the embodiment of Figures 3 and 4, the power supply 120 may also comprise a plug 122. The audible alarm device 100 of the figures further comprises an arrangement 110 for generating an audible alarm, such as an alarm sound or voice instruction.

The arrangement 110 is connected to at least a power supply 120. The arrangement 110 comprises at least a sound generating device 112. The sound generating device 112 may be, for example, a speaker or a siren.

The sound generating device 112 produces sound at a specified volume and frequency or frequencies when power is supplied from or via the power supply 120.

Said sound is intended to be heard especially indoors, in which case the sound need not be as loud as the alarm sound produced over a large area outdoors.

Since the volume of the alarm sound or voice instruction may be lower indoors than outdoors, the sound generating device 112 of the arrangement 110 in the indoor audible alarm device 110 may be physically smaller and less power consuming, so that the power supply 120 also needs to produce less power. In this case, the power supply 120 may also be smaller in physical dimensions. N nempi. In the embodiments of Figures 1, 2 and 3, the arrangement 110 further comprises a switch 114 connected between the audio output device 112 and the power supply 120.

The switch 114 is adapted in the open mode to prevent power communication from the power supply 120 to the audio output device 112. Thus, in said open mode of the switch 114, the audio output device 112 is not intended to generate an alarm.

S 35 In addition, the switch 114 is adapted to be controlled to a closed mode of operation to establish a power connection from the power supply 120 to the sound generating device 112 to generate an audible alarm. The switch 114 may include, for example, a relay or semiconductor switch that can block power from the power supply 120 to the audio output device 112 and establish a power connection from the power supply 120 to the audio output device 112 to generate an alarm. When the switch 114 is controlled to the closed mode, the audio output device 112 receives power from the power supply 120 or through the power supply 120, causing the audio output device 112 to generate an alarm. The switch 114 may include the necessary components to transmit current to the audio output device 112 so that the audio output device 112 produces an alarm sound at a specified volume and frequency or frequencies.

In the embodiments of the figures, the audible alarm device 100 further comprises a receiver 130 for receiving an alarm signal transmitted by radio, such as a population alarm signal. The receiver 130 is connected to a power supply 120 and said arrangement 110, as shown in more detail in Figures 1-3, to a switch 114 of the arrangement 110. Alternatively, the switch 114 of the arrangement 110 comprises a receiver 130. The receiver 130 comprises everything necessary, e.g. for transmitting the control signal CO-A to the switch 114 of the arrangement 110, wherein the receiver 130 may transmit the control signal CO-A to the switch 114 of the arrangement 110, for example, by generating a control signal CO-A based on the alarm signal received by the receiver 130. For the sake of clarity, these components, which are not mentioned by name and may be obvious to a person skilled in the art, are not shown in the figures. The receiver 130 of the audible alarm device 100 may also be programmed to receive specific alarms specifically targeted to a particular area, such as alarms for a particular city or municipality. A register database can be considered as an audible alarm device, where the audible alarm device comprises a serial number and the address information AN to be connected to it, for example at the city level. The switch 114 of the arrangement 110 blocks and establishes a power connection from the power supply 120 to the sound generating device 112 at least on the basis of said control signal CO-A. The switch 114 of the arrangement 110 comprises the necessary components to receive the control signal CO-A. When the receiver 130 of the audible alarm device 100 receives the alarm signal, the receiver 130 transmits the alarm signal as a control signal to the CO-A switch 114 to control the switch 114 to a closed mode, whereby the receiver 130 can transmit the control signal to the CO-A switch 114, e.g. -A for controlling the switch to the closed mode based on the alarm signal received by the receiver 130, wherein the switch 114 of the arrangement 110 is directed to the closed mode to produce an alarm sound. The switch 114 may comprise the necessary components to keep the closed mode on for a specified time after the switch 114 receives the control signal CO-A. The advantage of the closed operating mode being on for a certain time is that the alarm sound 5 can be heard by people long enough, even if the alarm signal is not continuously transmitted to the receiver 130 for some reason. In an alternative embodiment, the switch 114 may be in the closed mode only as long as the receiver 130 receives the alarm signal and transmits a control signal to the switch 114 to control the switch 114 to the closed mode.

In the embodiment of Figure 2, the audible alarm device 100 comprises a detector 200 for detecting a fire. The operation of the detector 200 may be based on the detection of flue gases, carbon monoxide gases, smoke, heat and / or flame. The detector 200 may comprise, for example, an ion detector whose operation is based on a change in voltage between the measuring and reference chambers. In another alternative, the detector 200 is powered by, for example, an optical detector that detects a fire passing through the measurement chamber based on a change in scattering. In a third alternative, the detector 200 may be a temperature sensor adapted to measure the ambient temperature to detect a fire.

The audible alarm device 100 of Figure 2 further comprises a transmitter 202 to which a detector 200 is connected. The transmitter 202 is adapted to receive an indication of a fire detected by the detector 200, wherein said indication of a detected fire is transmitted from the detector 200 to the transmitter 202 by generating a control signal CO-TA when the detector 200 detects a fire. Transmitter 202 is adapted to transmit a fire alarm signal when detector 200 detects a fire. The transmitter 202 is connected to a power supply to generate the energy required, for example, to transmit a fire alarm signal from the transmitter 202. The fire alarm signal can be transmitted, for example, to the user of the audible alarm device 100 or to extinguish the fire. The transmitter 202 may comprise everything necessary to establish, for example, a GSM network connection or a WiFi connection, so that the address information of, for example, the location of the audible alarm device 100 can be transmitted with the fire alarm signal. S The address information can be the exact address of the audible alarm device, such as the address information of an apartment or N property. The fire alarm signal transmitted by the audible alarm device may comprise, for example, a serial number, whereby the address information can be found out based on the serial number when a connection between the serial number and the address information of the audible alarm device is added to the previously mentioned register database.

In the embodiment of Figure 2, the detector 200 is further connected to the switch 114 of the arrangement 110. The detector 200 comprises all the necessary control signals for generating the CO-TB to the switch 114. The switch 114 comprises all the necessary control signals for receiving the CO-TB.

When the detector 200 detects a fire, the detector 200 generates a control signal to the CO-TB switch 114, the switch 114 establishing a power connection from the power supply 120 to the audio output device 112 to produce an audible alarm.

The audible alarm device 100 is thus - adapted to also produce an alarm expressed via said sound when the detector 200 detects a fire.

In an alternative embodiment, the audible alarm device 100 may comprise a battery or accumulator device.

The battery or accumulator device may be a backup power supply as part of the power supply 120 to allow the audible alarm device 100 to operate without mains power for a specified period of time, with the benefit of reliability provided by the battery or accumulator device in the event of a power failure.

Alternatively, the battery or accumulator device may form a power supply 120 for the audible alarm device 100, whereby the audible alarm device 100 receives its energy only from the battery or accumulator device.

Fires can produce smoke indoors, which impairs visibility.

A problem with this may be that the emergency exit signs above the interior door are not clearly visible during a fire, as fire and / or flue gases may obscure the visibility of the sign.

Flue and / or flue gases descending from the top down may burn, for example, at about 800 degrees, exploding into a fire, which may melt the emergency exit signs out of operation.

Emergency exit signs are mostly illuminated but do not produce a sound N or a blink.

The solutions of the embodiments according to Figures 3 and AN 4, which will now be described in more detail, aim to alleviate a situation such as that described above, so that the audible alarm device 100 is adapted to facilitate the finding of an emergency exit during a fire.

Finding emergency exits during a fire A 30 is facilitated, for example, by the production of sound and / or light.

Finding emergency exits E during a fire can also be facilitated by placing the audible alarm device 0 100 close to the floor level, so that the flue and fire gases do not obscure its visibility, for example in the early stages of a fire.

In addition, finding emergency exits during a fire N can be facilitated by coating the audible alarm device 100 at least in part with, for example, fire-resistant R-2 film reflector tape, whereby the audible alarm device 100 is more easily detected by the visual sense.

In the embodiments of Figures 3 and 4, the audible alarm device 100 includes an attention light 300 connected to the receiver 130 and the power supply 120. Said attention light 300 is adapted to produce light when the receiver 130 receives an alarm signal. When the receiver 130 receives the alarm signal, the receiver 130 generates a control signal CO-L for the attention light 300, whereby the attention light 300 connects to the power supply 120 and the attention light 300 produces light. The power connection can be established, for example, by means of a switch or relay inside the attention light 300. The light produced may be, for example, a flashing and / or bright light intended to attract the attention of a person, which may also guide a person in an emergency escape route when the audible alarm device 100 is located in the emergency exit route. The light produced by the audible alarm device 100 is intended to enhance the visibility of the audible alarm device in its located environment, which may assist a person in finding an emergency exit route if the audible alarm device is located in an emergency exit route.

In the embodiment according to Figure 4, the alarm detected by the voice alarm device 100 via the voice is an alarm sound or a voice instruction, where the voice instruction can thus be, for example, intelligible speech. In the embodiment of Figure 4, the arrangement 110 comprises a microcontroller 400 connected to a power supply 120 and a receiver 130. The arrangement 110 further comprises an audio output device 112 to which the microcontroller 400 is connected. The microcontroller 400 comprises a D / A (Digital to Analog Converter) converter which converts the digital signal generated by the microcontroller 400 into an analog signal to the audio output device 112. The generated digital signal is thus an alarm sound or speech instruction in digital form. When the receiver 130 receives the alarm signal, the receiver 130 transmits the alarm signal as a control signal CO-A to the microcontroller 400, where the receiver 130 can transmit the alarm signal as the control signal CO-A, for example, by generating a control signal CO-A based on the received signal. Based on the received control signal CO-A, the microcontroller 400 transmits, for example, a digitally determined alarm tone or A30 speech instruction to a D / A converter, which converts the digital alarm tone or speech instruction E to an analog alarm tone or speech instruction 400 to the audio output device 112. Step be a computer unit or a processing unit. Further, the microcontroller 400 of Fig. 4 may comprise, for example, memory locations for generating different voice instructions for various incidents. The control signal CO-A transmitted by the receiver 130 may contain information

what type of alarm it is.

The alarm signal can be, for example, a warning of fire, smoke or other danger.

Since the control signal contains information about the type of alarm, the microcontroller 400 may send a specific speech instruction from the designated memory location to the audio output device 112. Thus, the speech instruction may include intelligible speech mentioning, for example, “general hazard”, “gas hazard” or helps the person to take into account any special features related to the accident.

Comprehensible speech can also be produced in many different languages.

Different incidents can also be identified by means of individual alarm tones, where the identified alarm tones differ in an identifiable manner.

Also in the embodiments of Figures 1-3, switch 114 may be replaced with microcontroller 400 to provide individualized alarm tones or voice instructions.

In an embodiment not shown in the figures, a detector 200 is further connected to the microcontroller 400 for detecting a fire, the microcontroller 400 comprising all necessary to receive the control signal generated by the detector 200.

Based on this, the microcontroller 400 of the audible alarm device 100 can generate an alarm when the detector 200 detects a fire.

In one embodiment, the audible alarm device 100 of Figure 4 further comprises a modem in the microcontroller 400.

The modem in the microcontroller 400 is adapted to establish an Internet connection through which the microcontroller 400 can receive and transmit information.

The microcontroller 400 includes software that records, for example, for statistics or processing, the functions performed by the audible alarm device 100, such as alarms issued by the audible alarm device 100 and fault conditions generated by the audible alarm device 100.

The microcontroller 400 may be connected via an Internet connection to, for example, a cloud service, to which said stored alarms and fault states may be forwarded to the AN for processing.

Through the cloud service, the microcontroller 100 can also receive, for example, software updates, by means of which, for example, the functions of the audible alarm device 100 can be developed.

The cloud service can also maintain said A 30 register database, from which the connection between the serial number and the address information of the voice alarm device E can be forwarded. In the embodiments according to the figures, the audible alarm device 100 comprises, for example, a housing 140 made of plastic and / or metal, in which the arrangement 110, the power supply 120 and the receiver 130 are arranged.

It has previously been mentioned that in the embodiment according to Figures 1 and 2, the power supply 120 of the audible alarm device 100 comprises a plug 122 adapted to be connected to a socket.

It is now mentioned in connection with the plug 122 that the plug 122 is further provided in the housing 140. When, for example, the plug 122 of the power supply 120 of the audible alarm device 100 of Figures 1 and 2 is plugged into the socket, the plug 122 substantially supports the housing 140. 120 and receiver 130. The above allows for easy deployment, handling, and placement of the audible alarm device 100 indoors.

For example, the audible alarm device 100 is easy to place in an outlet on a wall or ceiling so that it does not take up space on the floor or other surface.

In the embodiment of Fig. 2, in addition to the above, a transmitter 202 and a detector 200 are provided in the housing. In the embodiments of Figs. the protection may have different protection properties in different embodiments.

If the audible alarm device 100 is intended, for example, in a production hall, the housing 140 can be dimensioned to better withstand the conditions prevailing in the production facilities and / or, for example, truck collisions, which ensures the operation of the components inside even in an emergency.

Further, the audible alarm device 100 to be located in the production hall may comprise in the housing 140 a resilient element which resilient, displaces and / or rotates when a force is transmitted to the resilient member as a result of the collision, the resilient element

If the audible alarm device 100 is intended, for example, for the interior of a private residential building, the housing 140 does not necessarily have to withstand conditions and collisions similar to the above-mentioned production space, which enables lower production costs for the housing 140. The embodiments according to Figures 1 and 2 are or suitable for the interior of private residential buildings = audible alarm devices 100. The audible alarm device 100 then typically has a plug A 30 to facilitate connection.

E The embodiments according to Figures 3 and 4 are examples of audible alarm devices to be placed in production halls in particular.

The audible alarm device 100 may not have a plug S, but the power lines supplying the operating energy N to the audible alarm device 100 are connected directly to the power supply 120. Also in this embodiment, the audible alarm device 100 , and said light may guide a person to get out along the emergency exits. Since the components to be placed inside the housing 140 of the audible alarm device 100 are small, the housing 140 may be small within the limits allowed by the components. The physically smaller housing 140 allows for a physically smaller size of the audible alarm device 100 as a whole, as well as lower production costs for the housing 140. The use of the audible alarm device 100 indoors provides a cost-effective enclosure solution, as the enclosure 140 need not withstand varying weather conditions.

In one embodiment, the audible alarm device 100 of Figure 1, 2, 3, or 4 is adapted to receive a test alarm signal to verify the operation of the audible alarm device, and the audible alarm device generates a test alarm sound that may be less attenuating than the actual alarm. A lower volume may be used in the test alarm sound so that the sound does not disturb persons in the condition in which the audible warning device is located. In the embodiment of Figure 4, the microcontroller 400 may be programmed to transmit a test alarm tone or test call instruction from a memory location at a volume lower than the actual hazard alert tone or speech instruction. In addition, the test speech instruction may include comprehensible instruction such as, for example, “this is a test”. For testing, the audible alarm device 100 may further comprise a test button not shown in the figures. In the embodiments of Figures 1-3, in which the test button is still not shown, by pressing the test button, the audible alarm device establishes a power connection from the power supply 120 to the audio output device 112, thereby verifying the operation of the audio output device. In the embodiment of Fig. 4, in which the test button is still not shown, by pressing the test button, the microcontroller instructs the sound generating device AN to generate a test speech instruction. The test alarm sound generated by the test button may be equal in volume to the actual hazard alarm sound, in which case it is possible to test how far the sound generated by the audible alarm device A30 is heard. The audible alarm device may also be switched to a state E in which the audible alarm device does not generate a test alarm sound even though the audible alarm device receives a test alarm signal. Said mode can be switched on, for example, by means of a separate command sent to the receiver of the voice alarm device or by means of a separate button, which is not shown in the figures.

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In an embodiment not shown in the figures, the audible alarm device 100 comprises a solar cell arranged in the power supply 120 to generate energy for the functions of the audible alarm device. It will be apparent to those skilled in the art that as technology advances, the basic idea of the invention may be practiced in many different ways. The invention and its embodiments are thus not limited to the examples described above, but may vary within the scope of the protection requirements.

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Claims (8)

Protection requirements An audible alarm device (100), characterized in that the audible alarm device (100) comprises: an arrangement (110) for producing an alarm with a sound, a power source (120) connected to said arrangement (110), a receiver (130) for receiving the alarm signal via radio, which receiver (130) is connected to the power source (120) and said arrangement (110) and that said arrangement (110) is arranged to produce an alarm when the receiver (130) receives the alarm signal. Audible alarm device (100) according to protection requirement 1, characterized in that the power source (120) is a mains power source and comprises a socket (122) for connection to an electrical outlet. Audible alarm device (100) according to claim 1 or 2, characterized in that said arrangement (110) for producing an alarm comprises: a sound production device (112) arranged to produce said alarm with a sound in a power connection. , and a coupling (114) connected to the receiver (130) and connected between the power source (120) and the sound production device (112), the coupling (114) being arranged to prevent current connection from the power source (120) to the sound production device (112) in an open operating mode. and wherein the coupling (114) is arranged to be controlled in a closed operating position to form a current connection from the power source (120) to the jud production device (112) to produce an alarm when the receiver (130) receives the alarm signal. AN 4. A sounding alarm device (100) according to any one of the protection claims 1- N 3, characterized in that the sounding alarm device (100) further comprises: = a detector (200) for detecting fire, a transmitter (202) connected to the detector (200) and the power source E (120) and arranged to send a fire alarm signal when the detector (200) detects the fire. S 5. An audible alarm device (100) according to claim 4, characterized in that the detector (200) is further coupled to the coupling (114) and that said audible alarm device (100) is arranged to produce an alarm when the detector (200) detects a fire. The audible alarm device (100) according to any one of the protection claims 1-5, further comprising a warning light (300) coupled to the receiver (130) and the power source (120), said warning light (300) being arranged to produce a light. when the receiver (130) receives the alarm signal. An audible alarm device (100) according to any one of the protection claims 1, 2, 4, 5 or 6, characterized in that the arrangement (110) comprises: an audio production device (112) arranged to produce a voice voice or an alarm signal, and a microcontroller ( 400) which is connected to said sound production device (112), the power source (120) and the receiver (130) and that the microcontroller (400) is arranged to send a voice instruction or an alarm signal to the sound production device (112) to generate a sound alarm when the receiver (130) receives the alarm signal. An audible alarm device (100) according to any one of claims 1-7, characterized in that the audible alarm device (100) further comprises an enclosure (140), wherein at least one arrangement (110), a power source (120) and a receiver (130) are arranged in the enclosure (140). N N O N Sat. I + O I a a LO + O + N N O N> ”