JPH05328499A - Public address device - Google Patents

Abstract

PURPOSE:To decides whether a microphone, an amplifier and a speaker constructing a public address device are normally working or not. CONSTITUTION:In a broadcasting state, the voice signals supplied to an amplifier 22 from a microphone 20 via a relay switch 26 are amplified and transmitted through a speaker 24. In a non-broadcasting state, the switch 26 is turned off and a check signal of an approximately non-audible frequency is supplied to the microphone 20 from a 1st check signal supply means 30. The normal working of the microphone 20 is decided when the 1st check signal is detected by a detector 38 set at the output side of the microphone 20. Then a 2nd check signal of an approximately non-audible frequency is supplied to the amplifier 22 from a check signal generating source 42 via an adder 40 in an OFF state of the switch 26. The normal working of the adder 40, the amplifier 22 and the speaker 24 are decided if the 2nd check signal can be detected from the speaker 24 by a detecting means 44.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a loudspeaker, and more particularly to a loudspeaker provided with a device for constantly monitoring whether or not the loudspeaker is ready for broadcasting without failure.

[0002]

2. Description of the Related Art Conventionally, as a loudspeaker equipped with the above-mentioned monitoring device, for example, there is one as shown in FIG. This is an amplifier 4 for the audio signal from the microphone 2.
In an emergency broadcast apparatus, for example, which is configured to be amplified by the speaker 6 after being amplified by, the adder 8 is provided between the microphone 2 and the amplifier 4, and the adder 8 outputs the signal from the inspection signal generator 10 to the adder 8. Supply test signal and amplifier 4
A detector 12 for the inspection signal is provided on the output side of, and an open / close switch 14 is provided between the output side of the amplifier 4 and the speaker 6.

In this loudspeaker, when the microphone 2 is not used, the open / close switch 14 is opened so that the loudspeaker 6 does not give the examination signal, and the detector 12 detects the examination signal. If so, the loudspeaker is normal, and if the inspection signal is not detected, it is determined that the loudspeaker is out of order.

[0004]

However, in such a loudspeaker, a test signal is supplied to the input side of the amplifier 4,
Since the inspection signal is detected on the output side of the amplifier 4, it is possible to judge whether the amplifier 4 is normal or defective, but it is judged whether the microphone 2 and the speaker 6 are normal or defective. I couldn't.

[0005]

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and therefore, the first
According to the invention of claim 1, to a loudspeaker having a microphone, an amplifier and a speaker, an inspection signal supply means for supplying an inspection signal of substantially inaudible frequency to the microphone, and an inspection provided on the output side of the microphone or the output side of the amplifier. And a means for detecting a use signal.

A second aspect of the present invention provides a loudspeaker as described above,
An inspection signal supply means for supplying an inspection signal of substantially inaudible frequency to the input side of the amplifier, and a detection means for detecting the inspection signal generated from the speaker are provided.

According to a third aspect of the present invention, in the above-described loudspeaker, an inspection signal supplying means for supplying an inspection signal of substantially inaudible frequency to a microphone and a detection for detecting an inspection signal generated from a speaker. And means.

According to a fourth aspect of the present invention, in the above-described loudspeaker, the first inspection signal supplying means for supplying the first inspection signal of substantially inaudible frequency to the microphone and the output side of the microphone. The first inspection signal detecting means provided, the signal interrupting means provided between the output side of the microphone and the input side of the amplifier, and the second inaudible frequency second means provided at the input side of the amplifier. Second supply of inspection signal
And a second inspection signal detecting means for detecting the second inspection signal generated from the speaker,
It is equipped with.

A fifth aspect of the present invention is, in the above-mentioned loudspeaker, a test signal supply means for supplying a test signal of substantially inaudible frequency to the microphone, and an output side of the microphone and an input side of the amplifier. A high-pass filter having a variable cut-off frequency provided between them and a control means for changing the cut-off frequency of the high-pass filter are provided.

[0010]

According to the first aspect of the invention, when the microphone and the amplifier are normal, the inspection signal is supplied from the microphone to the amplifier. Therefore, when the detection means is provided on the output side of the microphone, it can be determined that the microphone is normal when the detection means detects the inspection signal, and it is determined that the microphone is defective unless the detection means detects the inspection signal. it can. Further, when the detecting means is provided on the output side of the amplifier, when the detecting means detects the inspection signal, it can be judged that the microphone and the amplifier are normal, and when the detecting means does not detect the inspection signal, the microphone and the amplifier are detected. At least one can be determined to be defective.

According to the second invention, when the amplifier and the speaker are normal, the inspection signal is amplified by the amplifier and amplified by the speaker. When the amplified inspection signal is detected by the detection means, it can be determined that the amplifier and the speaker are normal, and when not detected, it can be determined that at least one of the amplifier and the speaker is defective.

According to the third aspect of the invention, when the microphone, the amplifier and the speaker are normal, the inspection signal is supplied from the microphone to the amplifier, amplified here, and then amplified by the speaker. When the amplified inspection signal is detected by the detection means, it can be determined that the microphone, the amplifier and the speaker are normal. Further, when the inspection signal cannot be detected, it can be determined that any one of the microphone, the amplifier and the speaker is defective.

According to the fourth aspect of the invention, if the microphone is normal, the first inspection signal is input from the microphone and detected by the first detecting means. Therefore, it can be determined that the microphone is normal. On the contrary, if the first inspection signal cannot be detected by the first detection means, it can be determined that the microphone is out of order. Further, when the amplifier and the speaker are normal, the second inspection signal is amplified by the amplifier, amplified by the speaker, and detected by the second detecting means. Therefore, it can be determined that the amplifier and the speaker are normal. If the second detection signal cannot be detected by the second detection means, it can be determined that at least one of the amplifier and the speaker is out of order.

According to the fifth aspect of the invention, by the control means,
If the cutoff frequency of the high-pass filter is controlled to pass the inspection signal, and the microphone, amplifier, and speaker are normal, the inspection signal is supplied from the microphone to the amplifier through the high-pass filter. After being amplified here, the sound is amplified from the speaker. When the amplified inspection signal is detected by the detection means, it can be determined that the microphone, speaker, and amplifier are all normal. If the inspection signal cannot be detected, the microphone, speaker,
It can be determined that one of the amplifiers is defective.

[0015]

EXAMPLE A first example is shown in FIG. This example
The present invention is applied to a loudspeaker for an emergency broadcast, for example, a microphone 20 provided in a broadcasting room is provided, and a voice signal from the microphone 20 is amplified by an amplifier 22 to reach an area where the emergency broadcast needs to be sent. The speaker 24 is arranged so as to be loud. Although only one speaker 24 is shown in FIG. 1, a plurality of speakers 24 may be provided. A relay switch 26 is provided between the microphone 20 and the amplifier 22. The relay switch 26 is turned off when the microphone 20 is not used to prevent noise in the broadcasting room from flowing into the area.
The relay switch 26 is turned on in the state of use, and the on / off control of the relay switch 26 is performed by turning on / off the switch 28.

An inspection signal generating means 30 is provided in the broadcasting room. The inspection signal generating means 30 has a frequency close to the upper limit of the audible band, and a frequency higher than that.
That is, it has a generation source 32 of an inspection signal having a substantially inaudible frequency, for example, a frequency of 15 KHz or higher.
The inspection signal from is amplified by the amplifier 34 and is amplified by the speaker 36. The amplified inspection signal is picked up by the microphone 20 in the broadcast room. The frequency of the inspection signal is set as described above in order to prevent the person in the broadcasting room from feeling uncomfortable even if the inspection signal is expanded in the broadcasting room.

On the output side of the microphone 20, a detector 38 for detecting the inspection signal is provided. This detector 38 is composed of, for example, a filter having a pass band for passing the inspection signal, a level detector for detecting the level of the signal from this filter, and an indicator for displaying the detection level of this level detector. Can be configured. When the microphone 20 is normal, the inspection signal from the inspection signal generating means 30 is picked up by the microphone 20, so that the detector 38 detects the inspection signal. Therefore, it turns out that the microphone 20 is normal. On the contrary, when the microphone 20 is out of order, the microphone 20 does not pick up the inspection signal and the detector 38 does not detect the inspection signal. Therefore, it can be determined that the microphone 20 is out of order.

An adder 40 is provided between the relay switch 26 and the amplifier 22. This adder 4
An inspection signal from the inspection signal generation source 42 is supplied to 0. This inspection signal also generates a signal of substantially inaudible frequency, for example, 15 KHz, similarly to the inspection signal generating means 30, and this inspection signal and the relay switch 26.
Is added to the signal supplied via the signal and supplied to the amplifier 22. However, when the microphone 20 is not used,
Since the relay switch 26 is off, in this state,
The signal supplied from the adder 40 to the amplifier 22 is only the inspection signal.

The inspection signal supplied from the adder 40 is amplified by the amplifier 22 and amplified by the speaker 24. The amplified inspection signal is detected by the inspection signal detecting means 44. The detection means 44 has a microphone 46 for picking up an inspection signal, and the output of the microphone 46 is amplified by an amplifier 48 and then supplied to a detector 50 similar to the detector 38.
Therefore, when the amplifier 22 and the speaker 24 are normal,
Since the inspection signal is detected by the inspection signal detecting means 44, it can be judged that the adder 40, the amplifier 22 and the speaker 24 are normal, and the inspection signal detecting means 4 is detected.
If the inspection signal is not detected by 4, the adder 4
It is possible to determine that any one of 0, the amplifier 22, and the speaker 24 is out of order. The inspection signal supplied to the adder 40 is also a signal of substantially inaudible frequency so that unpleasant sound is not amplified from the speaker 24 into the area.

In the above-described embodiment, the inspection signals are generated by the inspection signal generators 32 and 42, respectively. The reason why the inspection signals are generated from the microphone 20 side when the relay switch 26 is off is that the microphone is not used. This is because the inspection signal is not supplied to the amplifier 22 side. if,
If the noise in the broadcast room may be loud in the area,
The relay switch 26 can be removed, and in that case, the detector 38 and the inspection signal generating source 42 may be removed.

In the above embodiment, the microphone 2 is used.
In the unused state of 0, since the relay switch 26 is in the off state, the inspection signal does not pass through the relay switch 26, and it is not possible to inspect whether the relay switch 26 is operating normally. . Therefore, not all components of the loudspeaker can be tested.

In order to solve this point, the second shown in FIG.
In this embodiment, a high pass filter 52 is provided instead of the relay switch 26, and the detector 38 and the inspection signal generation source 42 are removed.

The high-pass filter 52 passes a signal having a frequency equal to or higher than the frequency of the inspection signal from the output signals supplied from the microphone 20 when the switch 54 is off, and the microphone 20 when the switch 54 is on. Is configured to pass all output signals supplied from the.

Therefore, when the microphone 54, the high-pass filter 52, the amplifier 22 and the speaker 24 are normal when the switch 54 is off, the inspection signal from the inspection signal generating means 30 is picked up by the microphone 20. , The high-pass filter 52, and the amplifier 2
Since the signal is amplified by 2, amplified by the speaker 24, and detected by the inspection signal detecting means 44, it can be judged that all the components of this speaker are normal.
Further, if the inspection signal is not detected by the inspection signal detecting means 44, it can be determined that at least one of the components of the loudspeaker is out of order. Further, the detector 38, the detection signal generating source 42 and the adder 40 in the embodiment shown in FIG.
The configuration of the entire device can be simplified.

FIG. 3 shows a third embodiment. This embodiment monitors whether or not both the microphone 20 and the amplifier 22 are normal. Between the amplifier 22 and the speaker 24, noise from the microphone 20 is detected when the microphone 20 is not used. An open / close switch 56 is provided in order to prevent loud sound. And the amplifier 22
A detector 38 is provided on the output side of. When the microphone 20 and the amplifier 22 are in a normal state, the inspection signal from the inspection signal generating means 30 is picked up by the microphone 20 and amplified by the amplifier 22, so that the amplified inspection signal is detected by the detector 38. Detected,
It can be determined that the microphone 20 and the amplifier 22 are normal. If the detector 38 cannot detect the inspection signal, it can be determined that at least one of the microphone 20 and the amplifier 22 is out of order.

If the detector 38 is provided on the output side of the microphone 20, it is possible to determine whether only the microphone 20 is normal or has a failure.

FIG. 4 shows a fourth embodiment. In this embodiment, it is determined whether both the amplifier 22 and the speaker 24 are normal or defective, and the relay switch 2 of the first embodiment is provided between the microphone 20 and the adder 40.
An open / close switch 58 is provided in place of 6, and the inspection signal generating means 30 and the detector 38 of the first embodiment are removed.

In this configuration, the adder 40, the amplifier 22,
When the speaker 24 is normal, the inspection signal from the inspection signal generation source 42 is supplied to the amplifier 22 via the adder 40, amplified, amplified by the speaker 24, and detected by the inspection signal detecting means 44. To be done. Therefore, it can be determined that the adder 40, the amplifier 22, and the speaker 24 are normal. Further, if the inspection signal is not detected by the inspection signal detecting means 44, it can be determined that any one of the adder 40, the amplifier 22 and the speaker 24 is out of order.

[0029]

As described above, according to the first aspect of the present invention,
It can be determined whether the microphone alone or the microphone and amplifier are normal. Further, according to the second aspect, it is possible to determine whether the amplifier and the speaker are normal. Furthermore, according to the third and fifth aspects, it is possible to determine whether or not the microphone, the amplifier, and the speaker are normal. According to the fourth aspect of the present invention, whether or not the microphone, the amplifier and the speaker are normal is provided even if the signal connecting / disconnecting means is provided in order to prevent the unnecessary signal from the microphone from being amplified by the speaker. You can judge. Further, according to the first to fifth inventions, since the signal of substantially inaudible frequency is used as the inspection signal, the person in the vicinity of the microphone or the speaker does not feel uncomfortable.

[Brief description of drawings]

FIG. 1 is a first loudspeaker system with an abnormality monitoring device according to the present invention.
2 is a block diagram of an embodiment of FIG.

FIG. 2 is a block diagram of the second embodiment.

FIG. 3 is a block diagram of the third embodiment.

FIG. 4 is a block diagram of the fourth embodiment.

FIG. 5 is a block diagram of a conventional loudspeaker with an abnormality monitoring device.

[Explanation of symbols]

 20 Microphone 22 Amplifier 24 Speaker 26 Relay Switch (Signal Intermittent Means) 30 Inspection Signal Generation Means 38 Detector 42 Inspection Signal Generation Source 44 Inspection Signal Detection Means

Claims (5)

[Claims] 1. A loudspeaker equipped with a microphone, an amplifier for amplifying a sound signal from the microphone, and a speaker to which an output signal of the amplifier is supplied. A loudspeaker with an abnormality monitoring device, comprising: an inspection signal supply means for supplying an inspection signal; and an inspection signal detection means provided on the output side of the microphone or the output side of the amplifier. 2. A loudspeaker equipped with a microphone, an amplifier for amplifying a sound signal from the microphone, and a speaker to which an output signal of the amplifier is supplied, and a test signal of substantially inaudible frequency is supplied to the amplifier. A loudspeaker with an abnormality monitoring device, which is provided with an inspection signal supply means to be supplied to the input side of the device and a detection means to detect the inspection signal generated from the speaker. 3. A loudspeaker including a microphone, an amplifier for amplifying a sound signal from the microphone, and a speaker to which an output signal of the amplifier is supplied. A loudspeaker with an abnormality monitoring device, comprising: an inspection signal supply means for supplying an inspection signal; and a detection means for detecting the inspection signal generated from the speaker. 4. A loudspeaker comprising a microphone, an amplifier for amplifying a sound signal from the microphone, and a speaker to which an output signal of the amplifier is supplied. 1
First inspection signal supply means for supplying the inspection signal of
A first inspection signal detecting means provided on the output side of the microphone, a signal disconnecting means provided between the output side of the microphone and the input side of the amplifier, and an input side of the amplifier. Second inspection signal supply means for supplying a second inspection signal of substantially inaudible frequency, and second inspection signal detection means for detecting the second inspection signal generated from the speaker, A loudspeaker equipped with an abnormality monitoring device. 5. A loudspeaker comprising a microphone, an amplifier for amplifying a sound signal from the microphone, and a speaker to which an output signal of the amplifier is supplied. And a cutoff provided between the output side of the microphone and the input side of the amplifier, and a test signal supply means for supplying a test signal, a test signal detection means for detecting a test signal generated from the speaker, and a shutoff circuit. A loudspeaker with an abnormality monitoring device, comprising a high-pass filter having a variable frequency and a control means for changing the cut-off frequency of the high-pass filter.