KR102073931B1 - Apparatus and method for handling the short of speaker lines and protecting the speaker lines, and the brosdcasting system comprising the same - Google Patents

Abstract

An objective of the present invention is to provide an apparatus and method for handling a malfunction of a speaker line, which uses a polyswitch to cut off a predetermined overcurrent when the predetermined overcurrent flows in an audio amplification circuit to normally perform broadcasting through lines of all speaker groups excluding the corresponding line and uses a photocoupler to check and monitor an overcurrent state of each line of the speaker groups so as to transfer the state to operation software, and a broadcasting system including the same. According to the present invention, the apparatus comprises: a speaker unit (200) having a plurality of speakers connected to a power amplifier (AMP, 100); a relay unit (300) including a plurality of relays between the power amplifier (AMP, 100) and each of the plurality of speakers (210, 220); a protection and detection circuit unit (400) interposed between the relay unit (300) and an input terminal of the speaker unit; the polyswitch (410) disposed at one side input terminal of each speaker (210) to be connected to each relay contact (A) of the relay unit (300); a protection and detection circuit (420) connected to the polyswitch (410) in parallel; and a monitoring unit (600) checking a state value of each speaker line in the protection and detection circuit (420) to monitor whether overcurrent is generated. Accordingly, upon generation of the overcurrent in a predetermined speaker line, a power amplifier input to the corresponding speaker line is changed to protect a circuit and inform a central control room (500) of the generation of the overcurrent.

Description

Apparatus and method for handling the short of speaker lines and protecting the speaker lines, and the brosdcasting system comprising the same}

The present invention relates to an apparatus and method for handling a failure in a speaker line, and more particularly, to detect a case where a failure such as a line short circuit occurs or may potentially occur at an output of an audio amplifier of a speaker line, thereby detecting the predetermined overcurrent. The present invention relates to an apparatus and method for handling a disturbance of a speaker line to detect and effectively block a predetermined overcurrent from being transmitted to an amplifier through a relay group and to notify the central control room.

In general, an audio amplifier (Amplifier) amplifies the audio signal input through the audio in terminal, and the amplified audio signal is delivered to the speaker through a plurality of relay groups and output.

However, when a short circuit occurs in the speaker line, a circuit exists to protect the audio amplifier by detecting a short inside the audio amplifier, but the audio output of each channel in the relay group does not go out.

As such, when a short occurs in a specific speaker line, the audio amplifier connected to the corresponding speaker group detects the short and shuts down the output of the amplifier through its own protection circuit, but as a result, all the speaker groups connected to the same amplifier There is a problem that the normal broadcasting is not performed in case of fire or emergency (emergency), and in case of remotely installed speaker group equipment, the administrator must go and check directly to check the short status of the speaker. Due to the problems, there is a problem that does not manage smooth broadcast operation.

In other words, the tenants of apartment complexes, apartment houses, residential complexes, office buildings with dense offices, factories, etc., in which a large number of buildings form a single complex, provide notice to the tenants at the station or security office. There is a need to transmit the evacuation signal in case of emergency. Before the broadcasting system was established, there was inconvenience of having to put a wallcloth at the entrance of each hall to guide the announcement or visit the staff. In order to solve this problem, a broadcasting system such as a microphone is provided in the station and the guard room, and a speaker is installed in each household and connected to guide the broadcast.

In a general acoustic system such as a conventional apartment broadcasting system, as shown in FIG. 1, all the individual speakers share a common line, and a wiring structure is connected to each of the individual lines branched from one broadcasting repeater. Have That is, each of the individual speakers has a structure connected to the common line (COM) and one individual line (1F, 2F, 3F, 4F), as shown in Figure 1, the common line in common with other individual speakers Each individual line has a wiring structure that is connected to the broadcast repeater alone. One common line may be used as shown in FIG. 1, or a plurality of common lines may be used.

These individual speakers 10 are to output the signal transmitted by the broadcast repeater 20 to the outside. The broadcast repeater 20 generally selects the broadcast control unit 24 and the individual lines 1F, 2F, 3F, and 4F, as is well known to those skilled in the art. A line select switch 22 for broadcasting is provided.

The broadcast control system having such a wiring structure has a problem in that it is not possible to broadcast all speakers when the common line and the individual line connected to any one speaker 10 are shorted due to a fire or the like. Is generated.

For example, when the common line COM and the individual line 1F connected to the individual speakers on the first floor are short-circuited, the entire speaker cannot be broadcast. This problem is not usually a big problem, but there is a problem that can not be evacuated in an emergency such as fire or earthquake.

On the other hand, as a related patent document 1, Patent Registration No. 10-1037381, "broadcasting control system using a polypolish position" is disclosed.

Broadcast control system according to the first conventional technology disclosed in the 'Patent Document 1', as shown in Figure 2, the broadcast repeater 100, the speaker unit 150, broadcast selection switching unit 140, and the police switching unit 130c is provided.

The broadcast repeater 100 receives a broadcast signal and provides a guide line and an emergency broadcast signal to the plurality of speakers through a common line (COM), one general broadcast line (NL), and one emergency broadcast line (EL). Send it through.

The broadcast repeater 100 is a broadcast repeater well known to those skilled in the art to which the present invention pertains, including a power source, a CPU, a driver, and the like. The announcement and emergency broadcast signals are transmitted to the plurality of speakers constituting the 150 through a common line COM, one general broadcast line NL, and one emergency broadcast line EL.

The broadcast repeater 100 includes a broadcast control unit for controlling the reception and transmission of broadcast signals and controlling the overall broadcast.

The speaker unit 150 is divided into a plurality of individual speaker groups having at least one speaker. Here, for convenience of understanding, it is assumed that the plurality of individual speaker groups are divided into a first floor group and a fourth floor group, and two individual speakers A and B are provided in one individual speaker group. For example, the first floor group is provided with two speakers 1A and 1B. However, one individual speaker group may be provided with one or a plurality of speakers.

Each of the individual speaker groups is connected in parallel with a common line COM, one general broadcasting line NL, and one emergency broadcasting line EL, respectively, and the plurality of speakers 1A, 1B, 2A, Each of 2B, 3A, 3B, 4A, and 4B has a wiring structure connected to one of the general broadcasting line NL and the one emergency broadcasting line EL and the common line COM. To have.

The common line COM is directly connected in parallel with the plurality of speakers 1A, 1B, 2A, 2B, 3A, 3B, 4A, and 4B, but the one general broadcasting line NL and the one emergency The broadcast line EL is connected to the plurality of speakers 1A, 1B, 2A, 2B, 3A, 3B, 4A, and 4B via the broadcast selection switching unit 140 and the police switching unit 130C, respectively. Will be.

The broadcast selection switching unit 140 selects any one broadcast line from the one general broadcast line NL and the one emergency broadcast line EL connected to the broadcast repeater 100 to the individual speaker groups. And select switches 140a to be connected to each other. Typically, the broadcast selection switching unit 140 selects the general broadcasting line NL, but performs a switching operation to select the emergency broadcasting line EL in case of an emergency such as a fire. To this end, the selection switches 140a constituting the broadcast selection switching unit 140 may be designed to respond to a fire detection signal of a fire repeater. Accordingly, the broadcast selection switching unit 140 may be installed together with a fire repeater terminal box, etc. In this case, the police switching unit 130C may also be designed to be installed in the fire repeater terminal box.

The broadcast selection switching unit 140 may include at least one selection switch 140a for each individual speaker group.

The poly switching unit 130c includes a plurality of polyswitches 132a and 132b respectively connected between at least one speaker provided in each of the individual speaker groups and any one broadcast line connected to each of the individual speaker groups. ).

The police switching unit 130C includes a plurality of individual police switching units 1P, 2P, 3P, and 4P connecting the broadcast line selected by the broadcast selection switching unit 140 and the individual speaker groups, respectively. do.

For example, the first individual polypolish switching unit 1P is composed of one polyswitch so that all the speakers 1A and 1B and one broadcast line in the first individual loudspeaker group (1F) and one broadcast line (the broadcast selective switching) are provided. The NL or EL selected by the unit 140 may be connected to each other.

As another example, the first individual pole switching unit 1P has the same number of pole positions as the number of speakers 1A and 1B in the first individual speaker group, so that each of the speakers 1A and 1B and the one Broadcast lines can be connected to each other.

In FIG. 2, the first individual polypolish 1P may include two polyswitches 132a and 132b equal to the number of speakers 1A and 1B in the first individual speaker group. The first pole position 132a is connected between the first speaker 1A in the first individual speaker group and the broadcast line (NL or EL selected by the broadcast selection switching unit 140), and the second pole position 132b has a structure connected between the second speaker 1B in the first individual speaker group and the broadcast line (NL or EL selected by the broadcast selection switching unit 140).

Wiring structure between the 2nd individual polypolish part 2P and the 2nd individual loudspeaker group, Wiring structure of the 3rd individual polypolish part 3P and the 3rd individual loudspeaker group, 4th individual polypolish part 4P, The wiring structure of the fourth individual speaker group is also the same as the wiring structure of the first individual polypolish part 1P and the first individual speaker group.

FIG. 2 illustrates a case in which a plurality of speakers share a broadcast line, and a short circuit occurs in any one speaker (or individual line) in the same individual speaker group by providing a poly switch corresponding to the number of speakers. When it occurs, it is possible that only the speaker with the short circuit does not operate and other speakers operate.

Therefore, according to the first conventional technology, the station or guard room side to the occupants of buildings such as apartment complexes, multi-unit houses, residential complexes, office buildings, factories, etc., in which a plurality of buildings form a single complex. This can be useful for informing the tenants in the announcement or for evacuation signals in an emergency.

However, the broadcast control system according to the first prior art does not notify which speaker has failed when a plurality of speaker units are formed in an array, and further, when the speaker is far from the central control room, There was a problem that it was not easy to find in time.

On the other hand, the second prior art of Patent Registration No. 10-1948753 disclosed in the related 'Patent Document 2' relates to an "amplifier protection circuit at the time of speaker line short circuit", and a speaker constituting a premises broadcasting system or public address system. It is related to the amplifier protection circuit when the speaker line is shorted so that the amplifier can be protected by blocking the overcurrent caused by the short circuit when the short circuit occurs in the speaker line and continue broadcasting through the remaining speakers except the speaker.

That is, the "amplifier protection circuit at the time of a speaker line short circuit" in the second prior art, as shown in Figures 3 and 4,

A fuse switch circuit 10 which connects the amplifier side and the speaker side to the fuse 11 and transmits a signal of the amplifier side to the speaker side; A poly switch circuit 20 connected to the amplifier side and the speaker side with a poly switch 21 to transmit a signal of the amplifier side to the speaker side and installed in parallel with the fuse switch circuit 10; It is provided upstream of the fuse switch circuit 10 and the poly switch circuit 20, when the fuse switch circuit 10 is cut off automatically provides the input of the amplifier side to the poly switch circuit 20 by a mechanical force. It comprises a; non-power switch unit 30.

Accordingly, the amplifier side and the speaker side are normally connected through the fuse switch circuit 10 so that an electric signal of the amplifier 100 is transmitted to the speaker 200 and the broadcast is output, and the fuse switch circuit ( When 10) is cut off, the non-power switch 30 is automatically connected to the poly switch circuit 20, the electrical signal of the amplifier 100 is transmitted to the speaker 200 via the poly switch circuit 20, the broadcast comes out. .

Here, the fuse switch circuit 10 is a fuse 11 for connecting the amplifier side and the speaker side, as shown in (a) of Figure 4, and the fuse 11 and the fuse side to connect the amplifier side and the speaker side; The display unit 12 is formed in parallel and includes a display unit 12 including an LED 12a and a resistor 12b which are turned on when the fuse 11 is disconnected. When the fuse 11 and the display unit 12 are connected in parallel, when power is connected to the fuse switch circuit 10, current flows to both the fuse 11 and the display unit 12, but the display unit 12 Due to the resistance 12b of), current is mainly supplied to the speaker 200 through the fuse 11. If the fuse 11 is cut off due to a short circuit of the speaker line, electricity supplied to the fuse switch circuit 10 flows only to the display unit 12 and passes through the resistor 12b of the display unit 12. When the current is supplied to the LED 12a, the LED 12a is turned on to indicate that the fuse 11 is cut off.

And, as shown in (b) of FIG. 4, the poly switch circuit 20 connects the amplifier side and the speaker side, and the poly switch 21 is cut off when an overcurrent occurs due to a short circuit, the amplifier side, and the speaker. It is provided in parallel with the poly switch 21 so as to connect the side, and the display unit 22 includes an LED 22a and a resistor 22b which are turned on when the poly switch 21 is cut off. Accordingly, when the fuse 11 of the fuse switch circuit 10 is cut off and the fuse switch circuit 10 is cut off, when the power is applied to the poly switch circuit 20 by the non-power switch 30, the poly switch The electrical signal of the amplifier 100 is transmitted to the speaker 200 through the 21.

In this case, in the poly switch circuit 20, the poly switch 21 and the display unit 22 are connected in parallel, so that when the power is applied to the poly switch circuit 20, the poly switch 21 and the display unit 22 are connected. Although current flows on both sides, current is supplied to the speaker 200 only through the poly switch 21 due to the resistance 22b of the display unit 22.

If the poly switch 11 is cut off due to a short circuit of the speaker line, the electricity supplied to the poly switch circuit 20 flows only to the display unit 22 and passes the resistor 22b of the display unit 22. When the current is supplied to the LED 22a, the LED 22a is turned on to indicate that the poly switch 21 is cut off.

Of course, when the short circuit problem of the speaker line is solved, the blocking of the poly switch 21 is released, and current flows to the poly switch 21 so that the poly switch circuit 20 operates normally. Therefore, the electric signal of the amplifier 100 is applied to the speaker 100 through the poly switch 21 of the poly switch circuit 20, so that the broadcast comes out of the speaker 200.

However, in the second conventional technology, when the fuse switch circuit 10 is cut off due to a speaker short circuit, the non-power switch unit 30 which automatically provides an input of the amplifier side to the poly switch circuit 20 by mechanical force. Since the system is complicated, the speaker is not informed of the failure of the speaker when the speaker unit is formed in an array, and the speaker is not found in time when the speaker is far from the central control room. There is a problem with the first prior art that it is not easy to bet.

Patent registration No. 10-1037381, "broadcasting control system using polypolis position" Patent registration No. 10-1948753, "Amp protection circuit in case of speaker line short circuit"

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is that when a predetermined overcurrent flows in an audio amplifier circuit, the predetermined overcurrent is cut off using a polyswitch, so that the lines of all speaker groups except the corresponding line are disconnected. With normal broadcasts, the photocoupler is used to check the overcurrent conditions for each line in the speaker group, monitor the status, and deliver it to the operating software.

Furthermore, it is to provide an audio line and an overcurrent protection device capable of confirming and blocking the predetermined overcurrent being transmitted to the amplifier through the relay group.

In particular, by detecting a potential failure such as a short circuit in the audio amplifier output of the speaker line and informing the central control room of the failure, it is possible to prevent or prevent the occurrence of a failure in advance. A fault handling apparatus and method are disclosed.

An apparatus for processing a failure of a speaker line according to an aspect of the present invention is an apparatus for handling failure of a speaker line that detects overcurrent protection and overcurrent of a speaker line, and notifies occurrence of a failure of the speaker line, and includes a power amplifier (AMP) 100. A speaker unit 200 having a plurality of speakers connected thereto; A relay unit 300 including a plurality of relays between the power amplifier 100 and each speaker 210 of the plurality of speakers 210 and 220; A protection and detection circuit unit 400 interposed between the relay unit 300 and the speaker unit; Including, but having a poly switch 410 connected to each relay contact A of the relay unit 300 at one input terminal of each speaker 210, the protection detection connected in parallel with the poly switch 410 And a monitoring unit 600 which checks the state value of each speaker line in the protection detection circuit 420 and monitors whether there is an overcurrent. By changing the power amplifier input of the line to protect the circuit and notifying the occurrence of overcurrent to the central control room (500) to take countermeasures due to the occurrence of the failure, in addition to the actual failure occurs, the line short circuit equipment When the monitoring unit detects a temporary failure, i) Even if the recovery is automatic, the time until recovery lasts longer than the specified time and is released. ii) Even if it recovers itself within a specified time period, it is also characterized by the notification of potential failures that exceed the specified number of occurrences within a predetermined period.

Preferably, the protection detection circuit 420, the series circuit of the LED (L) and the resistor (R) of the photocoupler 421, between one input terminal of the speaker and the movable contact (A) of the relay, Parallel to the poly switch 410, the LED (L) of the photocoupler 421 is connected in the reverse direction, the transistor (T) of the photocoupler 421 inserted between Vcc and the ground, the photocoupler On / off in response to the LED (L) of 421, it is characterized in that the monitoring unit 600 to monitor whether or not the on / off is delivered to the central control room (500).

More preferably, by connecting the photocoupler 421 and the resistor R in series with the LEDs 422 for indicating whether there is a failure, it is possible to easily check whether there is an overcurrent such as a short circuit in the field immediately. It is characterized by that.

On the other hand, a failure handling method of the speaker line according to another aspect of the present invention, a failure handling method of the speaker line using the failure processing apparatus of the speaker line, (a) the user terminal 530 sets a reference value for the release time (S31), transmitting a setting value to the broadcast control unit 510 (S32); (b) detecting the failure such as occurrence of a short circuit in the monitoring unit 600 (S33), and transmitting state information to the broadcast control unit 510 (S34); (c) checking, by the broadcast controller 510, whether a short circuit occurs or not (S35); (d) as a result of the determination in step (c), when the short circuit is not cleared, transmitting failure occurrence information to the user terminal 530 (S37), and transmitting state information (S37); (e) after the step (d), the user terminal 530 performs a failure alarm (S38); (f) when detecting the release of the short circuit in the monitoring unit (600) (S39) transmitting the state information on the release to the broadcast control unit (510) (S40); (g) in response to the release information in step (f), transferring release information to the user terminal 530 at the time of shorting release (S41), and transferring state information (S42); And (h) after the step (g), the user terminal 530 is to perform the failure alarm (S43); Characterized in that it comprises a.

In addition, in the speaker line failure processing method using the speaker line failure processing apparatus of the present invention, (a ') the user terminal 530 sets the reference value for the release time (S51), the broadcast control unit 510 is set Passing a value (S52); (b ') detecting the failure such as occurrence of a short circuit in the monitoring unit 600 (S53), and transmitting state information to the broadcast control unit 510 (S54); (c ') checking whether the broadcast controller 510 releases the short circuit after occurrence of a short circuit (S55); (f ') detecting the release of the short circuit in the monitoring unit (S56), and transmitting the state information regarding the release to the broadcast control unit (510) (S57); (k) in response to step (f '), determining a potential short circuit when the short circuit is released (S58); (m) After the step (k), the broadcast control unit 510 transmits the information when it is determined as a potential short (S59), and transmitting the status information regarding the potential short to the user terminal 530. ; And (n) after step (m), the user terminal 530 performs a potential short alarm (S61); Characterized in that it comprises a.

Further, in the method for handling a speaker line failure using the speaker line failure handling apparatus of the present invention, (A) the broadcast control unit 510 checks whether a failure occurs (S1), and checks whether a failure occurs (S2). ; (B) As a result of the determination in step (A), if a failure does not occur, it is continuously checked, and if a failure occurs, after waiting for a preset time (S3), it is checked whether or not the failure is released (S4). ; (C) increasing the value of "release counter within a predetermined time after the occurrence of a failure" if the release result is determined within a predetermined time (S5) (S5); (D) after step (C), determining whether the counter value exceeds a specified value (S6); (E) if it is not exceeded as a result of the determination in step (D), returns to the beginning and continues, and if exceeded, clearing the counter value (S7); (F) after step (E), registering a potential failure situation in a DB table (S8); (G) if the failure is not released within a predetermined time as a result of the determination in step (B), delivering a real-time failure occurrence message (S15); (H) after step (G), checking again whether the fault is automatically released (S16); And (J) if the result of the determination in the step (H) is not checked, continuously checks, and if released, transmits a real-time failure release message (S17) and registers a potential failure situation in the DB table ( S8); Characterized in that it comprises a.

On the other hand, according to another aspect of the present invention, the disturbance processing apparatus of the speaker line; And a central control room 500 for controlling the relay unit 300, the protection and detection circuit unit 400, and the monitoring unit 600. A broadcast system including a is proposed.

Preferably, the monitoring unit 600, the MCU for transmitting the line status value checking unit 620 for checking the line state value of each speaker and the checked line state value to the central control room 500 ( 610, wherein the central control room 500, the communication unit 520 and the communication unit 520 to communicate with the monitoring unit 600, and the status value for each line received through the communication unit 520, whether or not each speaker line is short-circuited It characterized in that it comprises a broadcast control unit 510 to monitor and deliver to the operating software.

According to the apparatus and method for processing a disturbance of a speaker line according to the present invention, when a predetermined overcurrent flows in an audio amplifier circuit, the predetermined overcurrent is cut off using a polyswitch, so that all speaker groups except for the line Using the photocoupler, the photocoupler is used to check the overcurrent condition of each line of the speaker group, monitor the state, and transmit it to the operating software to quickly restore the shorted line. For example, it is possible to detect a case where there is a potential for a short circuit such as a short circuit at the output of the audio amplifier of the speaker line and notify the central control room so that it can be prevented or prevented in advance.

1 is a block diagram of a general broadcasting system
2 is a block diagram of a broadcast control system using a poly switch according to the first conventional art.
3 is a diagram illustrating an amplifier protection circuit when a speaker line is shorted according to a second prior art.
FIG. 4 is a view illustrating a fuse switch circuit and a poly switch circuit of FIG. 3.
5 is a schematic block diagram of a broadcasting system including an apparatus for processing a failure of a speaker line according to a first embodiment of the present invention;
6 is a schematic block diagram of a broadcast system including an apparatus for processing a failure in a speaker line according to a second embodiment of the present invention.
7 is a detailed block diagram of a central control room of a broadcasting system according to an embodiment of the present invention.
8 is an example of the case determined as a potential obstacle of the present invention
9 is another example of determining that it is a potential obstacle of the present invention
10 is a flowchart of a method for determining a potential failure in a method for processing a failure in a speaker line according to an exemplary embodiment of the present invention.
11 is a flowchart illustrating a method for detecting whether a potential failure occurs in a failure processing method of a speaker line according to an exemplary embodiment of the present invention.
12 is a flow chart for the alarm of a real-time failure occurrence according to an embodiment of the present invention.
13 is a flow chart for alerting of a potential failure occurrence in accordance with an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail the configuration and operation of the invention.

FIG. 5 is a schematic block diagram of a broadcast system including an apparatus for processing a failure of a speaker line according to a first embodiment of the present invention, and FIG. 6 includes an apparatus for processing a failure of a speaker line according to a second embodiment of the present invention. 7 is a schematic block diagram of a broadcast system, and FIG. 7 is a detailed block diagram of a central control room of a broadcast system according to an embodiment of the present invention.

FIG. 8 is an example of a case of determining as a potential obstacle of the present invention, FIG. 9 is another example of a case of determining a potential obstacle of the present invention, and FIG. 10 is a method of handling a failure of a speaker line according to an embodiment of the present invention. 11 is a flowchart illustrating a method for determining a potential failure, and FIG. 11 is a flowchart illustrating a detection method for whether a potential failure occurs in a failure processing method of a speaker line according to an exemplary embodiment of the present invention, and FIG. 12 is a real time according to an exemplary embodiment of the present invention. Is a flow chart for alarm of a failure occurrence, and FIG. 13 is a flow chart for alarm of a potential failure occurrence according to an embodiment of the present invention.

(First embodiment)

First, with reference to Figs. 5 and 7, the apparatus for processing a failure in a speaker line according to the first embodiment of the present invention, and the method for handling a failure in a speaker line with reference to Fig. 13 will be described in detail.

In a broadcasting system including a speaker line failure processing apparatus according to a first exemplary embodiment of the present invention, each speaker 210 or 220 is connected to a power amplifier AMP 100 through each relay of the relay unit 300. In the speaker unit 200, the protection and detection circuit unit 400 is interposed at the input terminal of the speaker unit. More specifically, the relay contact A of the relay unit 300 is connected to one input terminal of each speaker 210 or 220. And a protection detection circuit (420, 420 ') connected in parallel with the poly switch (410, 410') having a poly switch (410, 410 ') connected to. At this time, the other input terminal of each speaker 210,220 is connected to the common ground terminal (B) corresponding to the lower power supply terminal of the amplifier 100, the movable contact (A) of each relay of the relay unit 300 When connected to the upper power supply terminal C of the amplifier 100, the output of the amplifier is transmitted to the speaker, and as shown in FIG. 5, the movable contact A of each relay is the lower power supply terminal of the amplifier 100. When connected to (B), the output of the amplifier is cut off.

The protection detection circuits 420 and 420 'connected in parallel with the polyswitches 410 and 410' are described with the first protection detection circuit 420 as an example. The LED L and the resistor R of the photocoupler 421 are connected in series. A circuit is connected in parallel with the poly switch 410 between one input terminal of the speaker and the movable contact A of the relay, and the LED (L) of the photocoupler 421 is connected in the reverse direction, and Vcc The transistor T of the photocoupler 421 inserted between the grounds is turned on / off in response to the LED L of the photocoupler 421. The monitoring unit 600 monitors whether the transistor T is turned on or off. To be delivered to the central control room 500.

The monitoring unit 600 controls the line-specific state value checking unit 620 and the communication unit 630 to check the line-specific state value of each speaker, and controls the checked line state values to the central control room 500. MCU 610 to control the transmission, and the broadcast control unit 510 of the central control room 500 has a line status value received through the communication unit 520 to monitor the short-circuit of each speaker line to the operating software By transmitting, the user terminal 530, which is a monitoring agent of the central control room, is notified of this, and promptly responds to post-measures such as troubleshooting.

Subsequently, the operation of the above-described speaker line failure processing apparatus and method will be described in detail. In the normal state, the audio signal of the power amplifier 100 is generated by the on / off operation of each relay of the relay unit 300. The second polyswitches 410 and 410 ′ are delivered to the respective speakers 201 and 220.

However, when a short circuit occurs in an arbitrary speaker (for example, the first speaker 210) of the speaker unit 200 and a transient current flows, the resistance of the first poly switch 410 is rapidly increased and shut off. When a threshold voltage or more is applied between the power amplifier 100 and the speaker, a breakdown occurs in the LED L of the photocoupler 421, so that the photocoupler 421 is turned on. The state value of the line connected to one end of the transistor of 421 is changed, which is checked by the line state value checking unit 620 of the monitoring unit 600 through the MCU 610 and the communication unit 630, 520. Notified to the broadcast control unit 510 of the central control room 500, now the broadcast control unit 510 of the central control room 500 blocks the output of the power amplifier 100 or each relay operation of the relay unit 300 Can be used to adjust the output or repair the track. When the line returns to the normal state, the poly switch 410 is turned on again, so that the photo coupler 421 is turned off, and the line state value checking unit 620 checks it again, so that the line is normal. You will be notified of the condition.

In more detail with respect to the central control room 500 of the failure processing apparatus of the speaker line of the first embodiment, an example of communicating with the communication unit 630 of the monitoring unit 630, a communication unit 520 such as a PLC module, and a user terminal 530 may be additionally included, in which the broadcast control unit 510 monitors the occurrence of a failure, and the web server 512 which communicates with the user terminal 530 as a web browser, for example, HTTP, and the failure. It may include a DB server 513 that stores and manages data information.

First, the monitoring unit 600 connected to the line short circuit equipment reads the state of each line periodically. Thus, when an abnormality (line short) event occurs among several lines, the abnormality information data is transmitted to the broadcast control unit 510 capable of generating monitoring information through, for example, a PLC (or other communication) line.

The log is recorded in the DB in the broadcast control unit 510. The monitor server 511 transmits the monitoring information to the user terminal 530 as a web browser through a web socket.

When the screen is configured with the responsive web through the web socket, the system can be configured to update the system events that are changed in real time in the same way as the administrator's PC screen.

Although the user terminal 530 as a web browser is connected with a web server to obtain screen information, the user terminal 530 is a monitor server 511 of the broadcast control unit 510 in order to display dynamic contents in real time. You can also connect directly with the websocket.

In the case of a short circuit that appears as a result of real-time monitoring, the occurrence area and the time value are recorded in the occurrence information field of the DB table. After that, even if it is automatically released, the data including the time is recorded in the DB.

The real-time failure occurrence alarm described above will be described with reference to FIG. 12. First, the user terminal 530 sets a reference value (release time) (S31), and transmits the set value to the broadcast control unit 510 (S32), and monitors it. When the unit 600 detects a failure such as occurrence of a short circuit (S33), and also transmits state information to the broadcast controller 510 (S34), the broadcast controller 510 determines whether or not to release (time) after the short circuit occurs. Upon checking (S35), when the short circuit is not released, the failure occurrence information is transmitted to the user terminal 530 (S36), and the state information is transmitted (S37). Thus, the user terminal 530 performs a failure occurrence alarm ( S38).

On the other hand, when detecting the release of the short circuit in the monitoring unit (600) (S39) transfers the status information on the release to the broadcast control unit (510) (S40), when the release of the short circuit release to the user terminal (530). The information is transmitted (S41), and also the status information is transmitted (S42), so that the user terminal 530 is to release the failure alarm (S43).

(2nd Example)

Next, with reference to FIG. 6, the apparatus and method for handling a disturbance of a speaker line according to a second embodiment of the present invention will be described in detail.

The broadcasting system including the apparatus for processing a disturbance of a speaker line according to the first embodiment of the present invention, when an overcurrent is caused to the speaker line, automatically cuts off the output of the power amplifier to protect the circuit, which is automatically controlled by the central control room. Notify that the broadcast control unit 510 controls the output to the speaker and at the same time has the advantage that the repair is made, but in some cases it is necessary to check directly on the spot whether or not.

At this time, the display through the LED of the photocoupler 421 has a limit. In the second embodiment, as shown in FIG. 6, in the series circuit of the photocoupler 421 and the resistor R, a failure occurs. By connecting the LED 422 for indicating whether or not in series, it is possible to easily check whether there is an overcurrent, such as a line short-circuit immediately in the field.

(Third Embodiment) (Possible Failure Determination and Warning)

In general, even if a short circuit occurs in the system, it may be temporarily shorted and then released.However, short-circuits and releases appear to be repeated periodically or non-periodically and cause fatal problems at critical moments. As a technology to prevent this, if this phenomenon occurs under the conditions registered by the user, it is not only a short circuit, but also a monitoring that informs the user of the current status as a potential short circuit. There is a need for a broadcast system with an additional warning function.

In addition, such a notice system is an advanced system capable of dealing more proactively than a system that copes with any after a short circuit occurs.

This embodiment is directed to a method of handling a disturbance of a speaker line for detecting and reporting such a potential disturbance.

For reference, the types of obstacles (paragraphs) include "actual obstacles" and "potential obstacles." The former refers to a state in which normal operation cannot be performed due to an equipment problem or an environmental problem. Is judged whether or not it is a real short depending on whether it is returned within a short but set time, and the latter is normal operation but the occurrence of short circuit and automatic release are repeated periodically or aperiodically. The actual state of failure is likely to occur, and the current state is not a short circuit.

There are three ways to judge potential failures: i) First, in order to determine failure, the monitoring unit of the track short equipment periodically analyzes the log data accumulated in the internal DB and causes the occurrence of failure (line short). (Ii) Second, if the occurrence time is sustained for longer than the specified time and then released, even if it is automatically recovered when the monitoring unit of the line short circuit equipment detects a fault (line short) (3) Third, when the monitoring unit of the line short circuit equipment detects a failure (line short), it recovers itself within the designated time even if the number of occurrences per day is exceeded. When the short circuit occurs only a few times or less within the designated time, it is determined that there is no event occurrence within a predetermined period (see Fig. 9).

In the second case, the criterion is the designated time, but in the third case, the first criterion is the designated time and the second criterion is the designated number of times.

That is, referring to FIG. 10, the method of determining whether a real-time and potential failure occurs in detail, first, the broadcast control unit 510 checks whether a failure occurs (S1), and checks whether a failure occurs (S2). If the failure does not occur, the check is continued. If a failure occurs, the controller waits for a preset time (S3) and checks whether the failure is released (S4).

Thus, if it is determined in the step S4 that the release is performed within a predetermined time, it is not a real-time failure, so only the "release counter within a predetermined time after the occurrence of a failure" value is increased (S5), and whether the counter value exceeds the specified value. It is determined whether or not (S6), if not exceeded, return to the beginning and continue, and if exceeded, a potential failure situation is registered in the DB table (S8). Of course, between the steps S6 and S7, the counter value is cleared for initialization (S7).

On the other hand, as a result of the determination in step S4, if the failure is not released within a certain time, a real-time failure occurrence message is delivered (S15), and again check whether or not the failure is automatically released (S16), if not released continues If it is checked, and if released, the real-time failure release message is transmitted (S17). In this case, of course, the potential failure situation is registered in the DB table regardless of the number of times (S8).

On the other hand, Fig. 11 shows a method of notifying the user of the determined information. The broadcast control unit 510 queries the potential failure situation DB (S21) to determine whether there is potential failure data. If it is not present (S22), if it does not exist, the inquiry and check are repeatedly performed, and if there is, it is checked whether or not it is connected to the user terminal 530 (S23). After inputting the data in step (S24), and returns to the step S23, on the other hand, if the result of the determination in step S23, if connected to deliver the data to the user terminal 530 through the web socket communication (S25), After waiting for an acknowledgment (S26), the process ends.

Finally, referring to FIG. 13, a potential failure (short) alarm will be described. First, the user terminal 530 sets a reference value (release time) (S51), and transmits a setting value to the broadcast controller 510 ( In operation S52, when the monitoring unit 600 detects a failure such as occurrence of a short circuit (S53) and also transmits state information to the broadcast control unit 510 (S54), the broadcast control unit 510 releases the short circuit after the short circuit occurs. Wait for checking (time) (S55), in this case, by receiving the status information on the short circuit release detection (S56) and the release from the monitoring unit (600) (S57), it is determined as a potential short circuit when the short circuit is released. In operation S58, the broadcast control unit 510 transmits the information when it is determined that the terminal is a potential short (S59), that is, transmits status information regarding the potential short to the user terminal 530, and the user terminal. 530 performs a potential short alarm (S61).

As described above, the present invention has been described with reference to a preferred embodiment of the present invention, but the present invention is within the scope not departing from the spirit and scope of the present invention as set forth in the appended claims by those skilled in the art. It will be understood that various modifications or variations may be made.

100: power amplifier
200: speaker unit
210: first speaker 220: second speaker
300: relay unit
400: protection and detection circuit portion 410,410 ': first and second poly switch
420,420 ': First and second protection detection circuit 421: Photo coupler
422: LED
500: central control room 510: broadcasting control unit
511: monitor server 512: web server
513: DB server 520: communication unit
530: user terminal
600: monitoring unit 610: MCU
620: line value check unit 630: communication unit

Claims (8)

An apparatus for handling failure of a speaker line, which detects overcurrent protection and overcurrent of a speaker line and notifies occurrence of a failure of the speaker line.
A speaker unit 200 having a plurality of speakers connected to the power amplifier 100;
A relay unit 300 including a plurality of relays between the power amplifier 100 and each speaker 210 of the plurality of speakers 210 and 220; And
A protection and detection circuit unit 400 interposed between the relay unit 300 and the speaker unit;
Including but not limited to:
Has a poly switch 410 connected to each relay contact A of the relay unit 300 at one input terminal of each speaker 210,
A protection detection circuit 420 connected in parallel with the poly switch 410,
The protection detection circuit 420 further comprises a monitoring unit 600 for monitoring the state value of each speaker line to monitor whether or not over current,
When an overcurrent occurs in a specific speaker line, change the power amplifier input to the corresponding speaker line to protect the circuit and notify the central control room 500 of the overcurrent occurrence to take countermeasures due to a failure.
When notifying the occurrence of the failure, when the monitoring unit of the line short circuit equipment detects a temporary failure as well as the actual failure, i) Even if the recovery is automatic, the time until recovery lasts longer than the designated time and is released. Or ii) notifying a potential failure occurrence that exceeds a specified number of occurrences within a predetermined period even if it recovers itself within a predetermined time period. The method of claim 1,
The protection detection circuit 420, the series circuit of the LED (L) and the resistor (R) of the photocoupler 421, between the one input terminal of the speaker and the movable contact (A) of the relay, the poly switch ( 410 is connected in parallel, LED (L) of the photocoupler 421 is connected in the reverse direction, the transistor (T) of the photocoupler 421 inserted between Vcc and ground, the photocoupler 421 It is turned on / off in response to the LED (L), the monitoring unit (600) monitors whether the monitoring unit 600 is delivered to the central control room 500, characterized in that the failure processing apparatus of the speaker line. The method of claim 2,
By connecting the photocoupler 421 and the resistor R in series with the LED 422 for indicating whether there is a failure, it is possible to easily check whether there is an overcurrent such as a short circuit in the field immediately. Disturbance device for speaker lines. A method for handling a failure in a speaker line using the obstacle handling apparatus of claim 1,
(a) setting, by the user terminal 530, a reference value for the release time (S31), and transmitting the set value to the broadcast control unit 510 (S32);
(b) detecting the failure such as occurrence of a short circuit in the monitoring unit 600 (S33), and transmitting state information to the broadcast control unit 510 (S34);
(c) checking, by the broadcast control unit 510, whether a short circuit occurs or not (S35);
(d) as a result of the determination in step (c), when the short circuit is not cleared, transmitting failure occurrence information to the user terminal 530 (S37), and transmitting state information (S37);
(e) after the step (d), the user terminal 530 performs a failure alarm (S38);
(f) when detecting the release of the short circuit in the monitoring unit (600) (S39) transmitting the state information on the release to the broadcast control unit (510) (S40);
(g) in response to the release information in step (f), transferring release information to the user terminal 530 at the time of shorting release (S41), and transferring state information (S42); And
(h) after the step (g), the user terminal 530 is to perform a failure alarm (S43);
Disturbance method of the speaker line comprising a. A method for handling a failure in a speaker line using the obstacle handling apparatus of claim 1,
(a ') setting the reference value for the release time by the user terminal 530 (S51), and transmitting the setting value to the broadcast control unit 510 (S52);
(b ') detecting the failure such as occurrence of a short circuit in the monitoring unit 600 (S53), and transmitting state information to the broadcast control unit 510 (S54);
(c ') checking whether the broadcast controller 510 releases the short circuit after occurrence of a short circuit (S55);
(f ') detecting the release of the short circuit in the monitoring unit (S56), and transmitting the state information regarding the release to the broadcast control unit (510) (S57);
(k) in response to step (f '), determining a potential short circuit when the short circuit is released (S58);
(m) After the step (k), the broadcast control unit 510 transmits the information when it is determined as a potential short (S59), and transmitting the status information regarding the potential short to the user terminal 530. ; And
(n) after step (m), the user terminal 530 causes a potential short alarm;
Disturbance method of the speaker line comprising a. A method for handling a failure in a speaker line using the obstacle handling apparatus of claim 1,
(A) the broadcast control unit 510 checks whether a failure occurs (S1), and checks whether a failure occurs (S2);
(B) As a result of the determination in step (A), if a failure does not occur, it is continuously checked, and if a failure occurs, after waiting for a preset time (S3), it is checked whether or not the failure is released (S4). ;
(C) increasing the value of "release counter within a predetermined time after the occurrence of a failure" if the release result is determined within a predetermined time (S5) (S5);
(D) after step (C), determining whether the counter value exceeds a specified value (S6);
(E) if it is not exceeded as a result of the determination in step (D), returns to the beginning and continues, and if exceeded, clearing the counter value (S7);
(F) after step (E), registering a potential failure situation in a DB table (S8);
(G) if the failure is not released within a predetermined time as a result of the determination in step (B), delivering a real-time failure occurrence message (S15);
(H) after step (G), checking again whether the fault is automatically released (S16); And
(J) As a result of the determination in the step (H), if it is not released, the check continues, and if it is released, deliver a real-time failure release message (S17), and register a potential failure situation in the DB table (S8) );
Disturbance method of the speaker line comprising a. Apparatus for handling a failure of the speaker line according to any one of claims 1 to 3; And
A central control room (500) for controlling the relay unit (300), the protection and detection circuit unit (400) and the monitoring unit (600);
Broadcasting system comprising a. The method of claim 7, wherein
The monitoring unit 600 includes a line state value checking unit 620 for checking line state values of each speaker and an MCU 610 for transmitting the checked line state values to the central control room 500. ,
The central control room 500 monitors whether each speaker line is short-circuited by the communication unit 520 communicating with the monitoring unit 600 and the line state values received through the communication unit 520, and transmits them to the operating software. Broadcasting system comprising a broadcast control unit (510).

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