KR20130087809A - Automatic fault detection system of speakers - Google Patents

Abstract

PURPOSE: A failure diagnosis system of a speaker is provided to solve the inconvenience by the separate power line laying and is provided to reduce the installation cost. CONSTITUTION: A failure diagnosis system of a speaker is comprised of a speaker unit (10-10+N), an amplifier (20), a diagnosis result collector (30), and a controller (40). More than one speaker units are connected with an amplifier and a signal line transmitting the broadcasting signal, diagnosis the failure of speaker by using the output of amplifier as the driving power, and output the diagnosis result as the signal line. The diagnosis result collector collects the diagnosis result, which combines with the signal line and which is outputted from at least one speaker unit. The controller demodulates the diagnosis result, which his collected in the diagnosis result collector, as the original signal, analyzes the demodulated signal, and indicates the speaker failure status. [Reference numerals] (20) Amplifier; (30) Diagnosis result collector; (40) Controller; (AA) Amplifier output; (BB) FSK communication

Description

Automatic fault detection system of speakers

The present invention relates to a system for diagnosing a speaker, and more particularly, to troubleshoot a speaker for automatically diagnosing a speaker in a broadcasting system using a plurality of speakers without installing a separate power and communication line. It is about the system.

In general, hospitals, schools, large performance halls, intelligent buildings through the broadcast system using a plurality of speakers to deliver announcements and emergency to the speaker.

By using a plurality of speakers as described above it is difficult to identify when a specific speaker failure occurs. In particular, since the administrator directly finds the speaker and determines whether there is a failure, when the speaker is distributed and installed, it may take a long time to find and repair the failed speaker, thereby reducing the ability to cope in an emergency.

In order to solve this problem, one of the conventionally proposed techniques is a method of connecting one or two speakers in parallel to an amplifier and determining whether the speaker is defective by checking the impedance of the speaker (hereinafter, Technology 1 ").

In addition, another one of the techniques proposed in the prior art is disclosed in the Korea Utility Agency Registration Utility Model Publication No. 20-0416479 (registered on June 15, 2006) (designated name: automatic failure diagnosis system of the speaker) , Abbreviated as "prior art 2").

The disclosed prior art 2 is to minimize the hardware configuration and to send and receive only simple data to determine whether the speaker is abnormal, through a Zigbee module connected to the speaker diagnostic circuit, and a Zigbee module for bidirectional communication The wireless speaker is connected to a Zigbee module that sequentially receives or transmits a signal, and a central speaker diagnostic controller that is connected to a Zigbee module and to which an object selection and abnormality determination signal of a speaker is applied.

The prior art 2 configured as described above can control the failure diagnosis of the speaker wirelessly by using the Zigbee wireless module, there is an advantage to facilitate the troubleshooting due to the use of wireless.

Registered Utility Model Publication No. 20-0416479 (Registered on June 15, 2006)

However, the prior art 1 as described above has a disadvantage in that there is a limit in finding a malfunctioning speaker when a plurality of floors are formed, such as a building. For example, a building loudspeaker pipe has a main line, and since the main line is divided into several lines in each floor, it is difficult to determine which speaker has a failure in a method of checking the impedance of the speaker line. .

In addition, the conventional technology 2 has the advantage that it is convenient to diagnose the speaker failure compared to the wired use because of the use of wireless, while on the other hand to install a wireless communication module on both the diagnostic side and the speaker side, each wireless communication module Since the driving power is supplied through a separate power line, there was an inconvenience of having to install a separate power line for power supply. In addition, since a signal transmission method is a wireless method, when a radio interference occurs, communication is cut off and diagnosis of a speaker is impossible.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

The problem to be solved by the present invention is to provide a system for diagnosing a failure of a speaker to automatically diagnose the failure of a speaker in a broadcasting system using a plurality of speakers without installing a separate power and communication lines.

Another problem to be solved by the present invention is to use the output of the amplifier as a driving power source for wired communication to solve the inconvenience of installing a separate power line, and to provide a failure diagnosis system of a speaker to reduce the installation cost There is.

Another problem to be solved by the present invention is to perform the communication between the speaker side and the information processing side by the frequency shift keying (FSK) communication method to ensure the long-distance communication distance and to accurately transmit the diagnostic data fault diagnosis of the speaker To provide a system.

"Failure diagnosis system of the speaker" according to the present invention for solving the above problems,

At least one speaker connected to an amplifier for transmitting a broadcast signal and a signal line, using the output of the amplifier as a driving power source to diagnose a speaker failure, and outputting a diagnosis result to the signal line;

A diagnosis result collecting unit coupled to the signal line and collecting a diagnosis result output from the at least one speaker unit;

And a control device for demodulating the diagnosis result collected by the diagnosis result collecting unit into an original signal and analyzing the demodulated signal to display a speaker failure state.

The speaker unit and a power converter for amplifying the output of the amplifier sent to the signal line to supply a driving power;

A failure diagnosis unit receiving driving power from the power conversion unit and performing a failure diagnosis of a speaker;

And a communication unit which receives the driving power from the power converter and generates a diagnosis result based on the result of the failure diagnosis unit and outputs the diagnosis result to the signal line.

Wherein,

A diagnosis result generated by combining the diagnosis result output from the failure diagnosis unit and a preset unique number for distinguishing each speaker is generated.

The communication unit modulates the generated diagnosis result by a frequency shift modulation (FSK) method and outputs the signal to the signal line.

The control device includes a demodulator for demodulating the diagnostic result transmitted from the diagnostic result collection unit into an original signal;

A control unit for separating a unique number and fault diagnosis result data from the signal demodulated by the demodulator, analyzing the fault diagnosis result data to determine whether there is a speaker failure, and generating a display control signal indicating a speaker failure in case of failure; ;

It characterized in that it comprises a display unit for displaying a speaker failure by displaying the display control signal generated in the control unit on the screen.

According to the present invention, there is an advantage of automatically diagnosing a speaker failure in a broadcasting system using a plurality of speakers without installing a separate power and communication line.

In particular, according to the present invention by using the output of the amplifier as a driving power source for wired communication, there is an effect that can eliminate the inconvenience caused by the installation of a separate power line, reducing the installation cost.

Further, according to the present invention, the communication distance between the speaker side and the information processing side can be secured by performing a frequency shift modulation (FSK) communication method, and the diagnostic data can be transmitted accurately over a long distance.

In addition, by displaying the location (specific number) of the speaker and the presence of the failure through the display device, there is an advantage that the administrator can easily know the location of the broken speaker.

1 is a schematic configuration diagram of a failure diagnosis system of a speaker according to the present invention;
FIG. 2 is a diagram illustrating an embodiment of the speaker unit of FIG. 1; FIG.
3 is a block diagram of an embodiment of the control device of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a schematic configuration diagram of a system for diagnosing a failure of a speaker according to the present invention, and includes a speaker unit 10 to 10 + N, an amplifier 20, a diagnosis result collecting unit 30, and a control device 40.

The amplifier 20 is a device for transmitting a broadcast signal to a speaker in a conventional broadcast system, and also serves to amplify and output the broadcast signal.

The speaker units 10 to 10 + N are connected to the signal line 50 of the amplifier 20, and diagnose the presence or absence of a speaker failure by using the output of the amplifier 20 as a driving power source, and the diagnosis result is described. Output to the signal line 50.

Here, the speaker units 10 to 10 + N are installed in a large number in various places when implemented as a broadcasting system, and the configuration and operation of each speaker unit are the same, and therefore only one speaker unit 10 will be described below.

As shown in FIG. 2, the speaker unit 10 includes a power converter 10a which amplifies the output of the amplifier 20 transmitted to the signal line 50 and supplies the amplified power to a driving power source; A failure diagnosis unit (10b) receiving driving power from the power conversion unit (10a) and performing failure diagnosis of a speaker; And a communication unit 10c which receives the driving power from the power converter 10a and generates a diagnosis result based on the result of the failure diagnosis unit 10b and outputs the diagnosis result to the signal line 50.

The diagnosis result collecting unit 30 is coupled to the signal line 50 and collects the diagnosis result output from the at least one speaker unit 10 to 10 + N. For example, the diagnosis result collection unit 30 is connected to a large number of speaker units, and as the number of speaker units increases, communication errors may occur, so that the data collected by the speaker units 10 to 10 + N are buffered and controlled. It serves to sequentially deliver the device 40.

The control device 40 demodulates the diagnosis result collected by the diagnosis result collecting unit 30 into an original signal, and analyzes the demodulated signal to display a speaker failure state. Such a control device 40 can be implemented by a personal computer.

As shown in FIG. 3, the control device 40 includes a demodulator 41 for demodulating the diagnosis result transmitted from the diagnosis result collection unit 30 into an original signal; Separating the unique number and the fault diagnosis result data from the signal demodulated by the demodulator 41, and analyzes the fault diagnosis result data to determine the presence or absence of a speaker failure, and generates a display control signal for displaying the speaker failure in case of failure A control unit 42; And a display unit 43 which displays a display speaker signal generated by the controller 42 on the screen to display a malfunctioning speaker.

Herein, the display unit 43 refers to a conventional monitor and may be implemented as a liquid crystal display (LCD).

In the failure diagnosis system according to the present invention configured as described above, when a broadcast signal is installed in a broadcasting system in which a plurality of speakers are to be transmitted or when a failure of the speaker is to be diagnosed, the broadcast signal is provided at a predetermined level through the amplifier 20. After amplified by the signal line 50 is output to each speaker unit (10 ~ 10 + N) is delivered. Since the configuration and operation of each speaker unit are the same, only one speaker unit 10 will be described below.

The power converter 10a of the speaker unit 10 amplifies the output of the amplifier 20 transmitted to the signal line 50. Here, the signal output from the amplifier 20 has a voltage / current, but its strength is insufficient to be used as a power source immediately. Therefore, in the present invention, a conventional voltage / current amplifier is provided and amplifies the weak signal output from the amplifier 20 to be a driving power source, and supplies it to the communication unit 10c and the failure diagnosis unit 10b. By using the output of the amplifier 20 as a driving power in this way can eliminate the inconvenience of installing a separate power line for power supply as in the prior art, and can also reduce the power line installation cost .

The failure diagnosis unit 10b operates when the driving power is supplied, and diagnoses whether there is a failure of the speaker. At this time, the method of diagnosing the failure transmits a signal to the speaker in the same manner as a normal hardware failure diagnosis method, and impedance Measure and compare with the reference value.

After diagnosing a speaker failure using the impedance measuring method, the result is provided to the communication unit 10c. Here, the result is "0" as a digital signal when there is no speaker failure, and "1" as a digital signal when a speaker failure occurs and is provided to the communication unit 10c.

The communication unit 10c receives the driving power from the power converter 10a and generates diagnostic result data based on the result of the failure diagnosis unit 10b and outputs the result to the signal line 50. The diagnosis result data may be generated by combining the speaker diagnosis result signal acquired by the failure diagnosis unit 10b with a unique number (ID) including the classification information and installation location information of the corresponding speaker.

In addition, the communication unit 10c generates the diagnosis result data in a known manner, modulates the diagnosis result data in a frequency shift modulation (FSK) method, and transmits the result to the signal line 50. In this case, since the frequency shift modulation method is used to modulate a signal in a general communication method, detailed description thereof is omitted.

By performing communication in such a frequency shift modulation method, it is possible to extend the communication distance to several km.

On the other hand, the diagnostic result collection unit 30 receives the diagnostic result data transmitted from the signal line 50, that is, the diagnostic result data of the FSK method transmitted from each speaker unit and temporarily stores in the buffer, in turn, the control device The diagnostic result data stored in the 40 is transmitted. In this case, it is assumed that the diagnosis result data is data transmitted from one speaker unit. It is possible to receive and process the diagnosis result data transmitted from the signal line 50 in the control device 40 without the diagnosis result collecting unit 30, but if there are many speakers, communication failure may occur due to data congestion. For example, in order to establish a more stable communication environment, it is desirable to establish a stable communication network by having a diagnostic result collection unit 30 as a buffering device in the middle.

The control device 40 receives the diagnosis result data transmitted from the diagnosis result collecting unit 30 through the demodulator 41 and demodulates the original signal. The demodulated diagnosis result data is transmitted to the control unit 42. Delivered. Since the method for demodulating the modulated signal in the FSK communication method is also well known in the art, detailed description thereof will be omitted.

The controller 42 separates the unique number and the fault diagnosis result data from the demodulated diagnosis result data, and analyzes the fault diagnosis result data to determine whether or not the speaker is broken. That is, when the fault diagnosis result data is "0", the speaker is normal, and when the fault diagnosis result data is "1", it is determined that the speaker is broken.

If there is a broken speaker through this analysis, since the location information of the speaker is also known through the unique number, the display unit 43 transmits a display control signal for displaying the speaker installation location information and the presence of a failure.

The display unit 43 displays the presence or absence of the speaker failure and the installation location of the speaker on the screen according to the display control signal transmitted, thereby allowing the administrator to easily check the presence of the speaker failure and the location of the failed speaker remotely. . Here, the method of displaying the speaker diagnosis result information on the screen may vary. For example, the speaker diagnosis result information may be displayed by a method of displaying a speaker that has a failure on a design in which a speaker is installed, or by a method of displaying a speaker failure on a first floor corridor through text information.

After that, the manager who easily checks the failure of the speaker can quickly follow up, so that the emergency situation can always be made perfect.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10 to 10 + N... Speaker
10a ... Power converter
10b ... Fault diagnosis section
10c ... Communication section
20... Amplifier
30 ... Diagnostic result collection unit
40 ... Control device
41 ... Demodulator
42 ... The control unit
43 ... Display portion

Claims (5)

At least one speaker connected to an amplifier for transmitting a broadcast signal and a signal line, using the output of the amplifier as a driving power source to diagnose a speaker failure, and outputting a diagnosis result to the signal line;
A diagnosis result collecting unit coupled to the signal line and collecting a diagnosis result output from the at least one speaker unit;
And a control device for demodulating the diagnosis result collected by the diagnosis result collecting unit into an original signal, and analyzing the demodulated signal to display a speaker failure state.
The apparatus of claim 1, wherein the speaker unit comprises: a power converter configured to amplify the output of the amplifier transmitted to the signal line and supply the amplified output to a driving power source;
A failure diagnosis unit receiving driving power from the power conversion unit and performing a failure diagnosis of a speaker;
And a communication unit which receives the driving power from the power converter and generates a diagnosis result based on a result of the failure diagnosis unit, and outputs the diagnosis result to the signal line.
The method according to claim 2, The communication unit,
And a diagnosis result generated by combining a diagnosis result output from the failure diagnosis unit and a preset unique number to distinguish each speaker.
The system of claim 3, wherein the communication unit modulates the generated diagnosis result by a frequency shift modulation (FSK) method and outputs the signal to a signal line.
The apparatus of claim 1, wherein the control device comprises: a demodulator for demodulating the diagnostic result transmitted from the diagnostic result collection unit into an original signal;
A control unit for separating a unique number and fault diagnosis result data from the signal demodulated by the demodulator, analyzing the fault diagnosis result data to determine whether there is a speaker failure, and generating a display control signal indicating a speaker failure in case of failure; ;
And a display unit for displaying a failed speaker by displaying a display control signal generated by the controller on a screen.

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