JPH01305800A - Acoustic device - Google Patents

Abstract

PURPOSE:To easily and quickly attain the automatic inspection of an individual speaker by inputting an inspection signal to a specified speaker for a prescribed period by controlling a switching circuit and a sound volume adjusting means according to an inspection request signal. CONSTITUTION:According to the inspection request signal from an inspection request signal generation circuit 14, a control circuit 13 outputs a control signal for a period before an inspection cancellation request signal is supplied, and controls a signal switching circuit 3a and the electric attenuator 4a of the sound volume adjusting means. Thus, the inspection signal from an inspection signal source 2 through the circuit 3a is supplied successively to specified speakers 9-12, and the plural speakers are inspected successively and automatically, and the automatic inspection of the individual speaker can be performed easily and quickly.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an audio device equipped with a circuit for testing the operation of a speaker.

[Conventional technology]

FIG. 3 is a connection diagram of an audio device equipped with a conventional speaker operation testing circuit. In the figure, 1 is an audio signal source, 2 is a test signal source for testing speaker operation, 3 is a signal switching circuit,
4 is a volume control, balance control, fader control, etc. various adjustment circuits, 5, 6.7.8
are amplifiers that amplify the signals from their respective inputs, 9,1
0.11.degree. 12 is a speaker layer driven by the outputs of amplifiers 5-8.

Next, let's move on! 1 I will explain. Speaker inspection signal R
2 is switched between the output from the audio signal source 1 and the signal switching circuit 3, and sent to each amplifier 5, 6, . Sent to 7.8.

The test signal input to each amplifier 5, 6, 7.8 is amplified there and reproduced as an audible signal by each speaker 9, 10, 11°12.

[Problem to be solved by the invention]

Conventional audio equipment is configured as described above, so even if one speaker 9 fails, the other normal speakers 6, 7, 8 will operate and output a signal, so it is possible to avoid failure of the speaker 9. Since it is difficult to detect, it is necessary to operate the volume 5, left/right balance, and fader (front/rear balance) adjustment circuit 4, and test each individual speaker, resulting in a problem that the test is complicated and takes time.

This invention was made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an audio device that can easily detect a malfunctioning speaker in a short time without requiring any human intervention. purpose.

[Means to solve the problem]

The audio device according to the present invention includes volume XI adjustment means for adjusting volume, left/right balance, and fader (front/rear balance);
Is this volume adjustment means controlled by a control signal to control the volume left/right balance and front/rear balance? The control circuit is equipped with a control circuit.

[For production]

Control No. 13 of the control circuit in this invention controls the volume adjustment means to increase the volume to 5.
By adjusting the left/right balance and fader (front/rear balance) and sequentially inputting signals to specific amplifiers, failures in individual speakers are automatically detected.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. 1st
The figure shows a connection diagram of this invention, with symbols 1 to 2', 5 to 12
is the same as the conventional sound+9 device shown in FIG. I
4. Reference numeral 13 denotes an inspection request signal generation circuit, and 13 a control which receives the request signal from the inspection request signal generation circuit 14 and sends a control signal to a signal switching circuit 3a and an electronic attenuator 4a as a sound N adjustment means for volume balance and fader control. It is a circuit. Further, 15 is an inspection cancellation request signal generation circuit.

Next, the operation will be explained using the flowchart shown in FIG. 2. Upon receiving the test request signal from the test request signal generation circuit 14 in step 31, the control circuit 13 outputs a mute signal in step S2, and in step S3 switches the signal from the audio signal source 1 to the test signal source 2 to the signal switching circuit 3a. At the same time, in step S4, the volume is balanced.

A control signal is output to the electronic attenuator 4a for fader control such that the signal is inputted only to a specific amplifier, for example, the amplifier 5, for a certain period of time.

Next, in step S5, muting is canceled and only the signal amplified by the amplifier 5 is outputted as an audible signal by the speaker 9, and no signal sound is outputted from the other speakers 10, 11, and 12. Thereby, it is possible to check whether or not the speaker 9 is out of order.

Next, the timer is reset in step S6, and after a certain period of time has elapsed by the timer counting ending in step S7, mute is output in step S8, and a signal is similarly sent for a certain period of time only to the next specific amplifier, for example, amplifier 6. The control circuit 13 sends control signals such as input to electronic attenuation for volume balance and fader control.
By sending the signal to a (step S9), the speaker 10 can be similarly inspected. Speaker 1 using the same procedure
1.12 can be checked sequentially.

Next, in step 310, if the electronic attenuator 4a is not the same as the initial setting value, the process returns from step 310 to step S5, and if it is the same as the initial setting value, the process moves from step 310 to step 311, and an inspection cancellation request signal is generated. The circuit 15 outputs an inspection cancellation request signal to the control circuit 13, and the control circuit 13 outputs a control signal to the signal switching circuit 3a to cancel the inspection signal switching.In step 312, muting is canceled and a series of The operation ends.

Further, if the timer count has not ended in step S7, and if the test cancellation request signal is not output from the test cancellation request signal generation circuit 15 to the control circuit 13 in step S13, the process returns to step S7 and the test cancellation request signal is output. If it has been output, mute is output in step S14, and thereafter steps stt and S12 are performed.

As mentioned above, since the configuration is such that the signal is output only from a specific speaker, there is no need to adjust the balance or fader control during inspection, and since the signal sound is not output from other speakers at the same time, Tests can be carried out reliably.

Furthermore, the inspection can be canceled at any time by the inspection cancellation request signal generation circuit 15.

In the above embodiment, the test signal was explained as one, but of course it is possible to use a plurality of test signals, and in addition to left/right balance and fader control, electronic volume or graphic equalizer for bass (low tone) and treble (treble) control may be used. Sound of electronic volume etc.ff1ff1
By controlling the node means, woofers connected in parallel,
It is also possible to test suyuka, tweek, etc. in the same way.

〔Effect of the invention〕

As explained above, according to the present invention, the volume control means is sequentially controlled corresponding to each speaker by the control signal from the control circuit, and a test signal is supplied to automatically detect failure of each speaker. Since it is configured to detect a faulty speaker, it is possible to detect a faulty speaker accurately and in a short time.
It is also possible to check the operation of volume control means such as faders.

[Brief explanation of the drawing]

FIG. 1 is a connection block diagram of an audio device according to an embodiment of the present invention, FIG. 2 is a flowchart showing the flow of its operation, and FIG. 3 is a connection block diagram of a conventional audio device. 1... Acoustic signal source, 2... Test signal source, 3a...
Signal switching circuit, 4a...electronic attenuator (sound ffi
Section 214 means), 5-8... amplifier, 9-12...
・Speaker, 13... Control circuit, 14...
Inspection request signal generation circuit, 15... Inspection cancellation request signal generation circuit. In addition, in the figures, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims] a speaker, an amplifier that drives the speaker, a test signal source that generates a test signal for testing the operation of the speaker, and a signal that switches between the test signal and the audio signal and outputs the signal to the speaker via the amplifier. a signal switching circuit; a volume adjusting means for adjusting the level of the test signal or audio signal switched by the signal switching circuit; and a volume control means for adjusting the level of the test signal or audio signal switched by the signal switching circuit; and a control circuit that outputs a control signal to the volume adjusting means so that the test signal is switched to the test signal and the test signal is input to a specific one of the speakers for a predetermined period of time.