KR101102821B1 - Public address control system - Google Patents

Abstract

PURPOSE: A predecessor broadcasting control system is provided to normally operate predecessor broadcasting control system and to output a fire alarm through a speaker by an emergency operation unit. CONSTITUTION: A predecessor broadcast control unit(200) controls the overall operation of a system. An emergency operation unit(700) is installed between the control device and the fire alarm system. In case the control device is normally operated, the emergency operation unit is not operated. In case the control device is not normally operated, the emergency operating unit is operated. The emergency operating unit outputs a fire alarm through a speaker which is equipped in the system.

Description

Public address control system {PUBLIC ADDRESS CONTROL SYSTEM}

The present invention relates to a public address control system, and more particularly, when a central processing unit (CPU) of a public address control device cannot perform a function due to a fuse of a fuse, static electricity caused by a surge, or the like. The present invention also relates to a public address control system equipped with means for performing a fire alarm.

Public address broadcasting system is a broadcasting system that is constructed in a limited range requiring emergency broadcasting such as a building and a school, and guide, music, and fire alarm broadcasting are provided through speaker devices installed in each of a plurality of broadcasting zones in a limited output area. It is a system that emits sound.

1 shows a schematic block diagram of a digital PA system. The public address broadcasting system shown in FIG. 1 is currently widely used (see, for example, Patent No. 10-0923488, etc.).

The remote devices 110, 120, and 130 are for controlling the system remotely from an administrator, such as a principal's office or a management office, which is far from the public address system of FIG. 1. The timer device 140 is a device for inputting a timer so that the public address system can operate by time (for example, a device for setting the time so that a bell to notify the start and end of the class sounds at a predetermined time). The computer 150 is a device for the administrator to collectively control and manage the public address broadcasting system.

The other devices, including the above devices, are all connected to the public address control device 200. The public address broadcast control device 200 includes a central processing unit (CPU) for controlling the operation of the system, a memory device that stores setting values of a speaker, an input / output device, and the like. The control device, for example, when a fire occurs, receives a signal indicating the fire occurrence from the fire alarm system 300, extracts speaker settings from the memory (e.g., not all of the floors of a ten-story building, but rather a particular floor). The setting value for the output speaker is stored in the memory in advance, such as when broadcasting only through the speaker of the speaker), the sound source generator 410 is driven, and the input / output channel control, volume control, and output for the sound source generated therefrom. Perform speaker selection control and so on. The audio splitter (audio matrix) 420 mixes and converts an analog signal output from the sound source generator 410 under a control operation of the control device 200, distributes the sound source signal, and outputs the amplifier signal 430. After amplified through, the relay group 500 distributes the output to the selected speaker according to the selection control of the output speaker of the control device 200 via the medium. Accordingly, the analog sound source generated by the sound source generator is mixed and transmitted through an audio distributor according to the control operation of the control device 200, amplified by an amplifier, and then selected through the speaker 600 selected through the relay group 500. Is output. At this time, when a predetermined voltage difference (typically, 20 to 24 V) is generated (that is, by the control device), the sound source generator 410, the relay group 500, and the like, each function, that is, in the case of the sound source generator The relay group is turned on to output sound through the speaker. In addition, according to the provisions of the Fire Code, when a fire is detected on a specific floor, the circuit is configured such that a fire alarm is generated through the speaker of the floor higher than the floor including the floor. Although the operation and configuration of the public address control apparatus and the components controlled by the apparatus are minutely different, the basic operation or configuration thereof is widely known, and in response to various aspects, a predetermined sound may be transmitted through a speaker. Output

However, the digital PA system has the following fatal problems. That is, unlike the analog public address system, the digital public address system includes a central processing unit such as a CPU in the control device, and the overall operation is controlled and executed by the CPU, and complicated control can be easily performed. In other words, the conventional public address system is highly dependent on the control device, but when a fuse occurs due to a voltage abnormality or a power failure occurs, the CPU of the control device does not operate properly. The operation cannot be performed, such as being unreadable. Usually this is not a big problem, but in the case of an extremely emergency situation such as a fire, a fire alarm is not output through the speaker, causing a fatal problem that it is not possible to respond quickly to the fire.

However, the conventional digital public address broadcasting system assumes that the control device is operating normally, and does not provide any means for coping with a situation in which the control device does not operate properly in case of abnormality.

The present invention is to solve the above-mentioned problems in the prior art, even if the public address control device that plays a key role in the digital public address broadcast system can not perform the operation due to power failure, static electricity due to surge, etc. It is an object of the present invention to provide a digital public address broadcasting system equipped with means for allowing the digital public address broadcasting system to operate normally.

In order to achieve the above object, the digital PA system according to the present invention includes a control device for controlling the overall operation of the system, and an emergency operation unit provided between the control device and the fire alarm system, the emergency operation unit If the control device is operating normally, the operation does not operate, the control device does not operate normally, according to the fire alarm signal transmitted from the fire alarm system through the speaker device provided with the fire alarm sound in the system And to output.

In one embodiment, the emergency operation unit is connected to the fire receiving panel of the fire alarm system of each floor of the building.

In one embodiment, the emergency operation unit is connected to the fire receiving panel of the fire alarm system, the RC circuit including a resistor and a condenser, in series with the RC circuit, and connected to the control device It may include a relay unit for operating in accordance with the control operation of the control device.

In one embodiment, the capacitor of the RC circuit is connected to a relay group provided in the system, it can be charged by a voltage applied from the relay group.

In one embodiment, when the fire alarm signal is input through the fire receiving panel during the normal operation of the control device, the control device determines whether the fire alarm signal is a normal fire alarm signal, the normal fire When it is determined that the alarm signal, the relay unit may be switched from the on state to the off state to turn off the operation of the emergency operation unit.

In one embodiment, when a fire alarm signal is input from the fire receiving panel during the normal operation of the control device, the operation of the emergency operation unit is delayed due to the resistance of the RC circuit, the time required for operating the emergency operation unit The control device may be longer than the time for determining whether the fire alarm signal is normal.

In one embodiment, when a fire alarm signal is input from the fire receiving panel during the normal operation of the control device, the capacitor of the RC circuit is gradually discharged through the resistor, so that the time required for the emergency operation unit to operate is It is characterized in that the control device is longer than the time for determining whether the fire alarm signal is normal.

In one embodiment, the delay time of the emergency operation unit may be adjusted by the RC time constant of the RC circuit.

In one embodiment, when a fire alarm signal is input from the fire receiving panel in a situation in which the control device does not operate normally, the emergency operation unit and the fire receiving panel are connected to the circuit, the fire sound source generator connected to the emergency operation unit The sound generated therefrom may be output through a corresponding speaker through a relay of a relay group to which the emergency operation unit is connected.

In one embodiment, when a fire alarm signal is input from the fire receiver in a situation in which the control device does not operate normally, the emergency operation unit and the fire receiver are connected to a circuit, and the condenser of the emergency operation unit is gradually discharged to low. When the state is reached, a voltage difference is formed between the relay group and the emergency operation unit and between the fire sound source generation unit and the emergency operation unit connected to the emergency operation unit, so that the relay group and the fire sound source generation unit operate to generate the sound. Can be output via

In one embodiment, further comprising a diode between the emergency operation unit and the relay group, the diode may be connected to the control device and the relay of the relay group.

According to the public address system of the present invention, even when a fire occurs in a situation in which the control device does not operate normally, the emergency operation unit may output a fire alarm through the speaker.

1 is a block diagram showing the configuration of a digital PA system according to the prior art.
2 is a block diagram showing the configuration of a digital PA system according to an embodiment of the present invention.
3 is a circuit diagram showing a circuit configuration of the emergency operation unit.
4 is a diagram illustrating a voltage drop delay mode according to a signal input to an emergency operation unit.
5 is a view showing in detail two paths of the signal input through the fire receiving panel.
6 is a view showing a modified embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in more detail. In the following description, description of the configuration already well known in the art will be omitted. In particular, since the configuration, operation, and the like of the digital PA system are already widely known, the description thereof is omitted. Even if this description is omitted, those skilled in the art will be able to easily understand the features of the present invention through the following description. In addition, in the following drawings, the part corresponding to FIG. 1 is represented with the same reference numeral.

2 is a block diagram of an overall configuration of a public address system according to an exemplary embodiment of the present invention.

As shown, the digital PA system of the present invention is substantially the same as the PA system of the prior art shown in FIG. However, the digital PA system of the present invention, unlike the prior art, means for enabling the digital PA system of the present invention to operate normally even when the public address broadcast control device 200 does not operate properly due to a power failure or the like. That is, it is distinguished from the prior art in that the emergency operation unit 700 is provided.

Specifically, the emergency operation unit 700 is installed between the fire alarm system 300 and the public address control device 200, when a signal indicating a fire is transmitted from the fire alarm system 300, the control device 200 and Similarly receive the signal. In this case, when the control device 200 operates normally, the emergency operation unit 700 may not perform the operation according to the control operation of the control device 200, but when the control device 200 does not operate normally, Perform an operation, and output a sound such as a fire alarm instead of the control device. That is, as will be described in detail below, when the control device 200 does not operate normally, the emergency operation unit 700 operates by receiving a signal transmitted through the fire alarm system 300, and accordingly The sound source generation unit 410 connected to the emergency operation unit 700 is driven to perform the same operation as described in the prior art, and thus to the speaker 700 of the building floor to which the emergency operation unit 700 is connected. Sound is output through. At this time, of course, as described in the prior art, the system of the present invention is also configured to generate a fire alarm for the floor above the floor where the fire occurred. Therefore, even when the central processing unit of the control apparatus 200 cannot operate properly due to an abnormal power supply, sound is normally output through the speaker, so that it is possible to quickly cope with an emergency situation such as a fire.

Hereinafter, the configuration of the emergency operation unit 700 will be described in more detail with reference to FIG. 3.

3 is a diagram schematically illustrating a configuration of a public address system including an emergency operation unit 700 in a circuit diagram form.

As shown, the emergency operation unit 700 is connected in series with the RC circuit 710, RC circuit 710, which is connected to the fire receiving panel of the fire alarm system 300 and includes a resistor and a capacitor, and controls It is connected to the central processing unit (CPU) of the device, and includes a relay unit 720 which is controlled by the central processing unit. In FIG. 3, only one emergency operation unit 700 is illustrated for convenience of description. That is, it should be understood that the emergency operation unit 700 is connected to the fire receiving panel of each floor.

The resistance of the RC circuit 710 is connected to the fire receiving panel, and is connected to the fire sound source generator 410, as shown in FIG. The capacitor of the RC circuit 710 receives power from the relay group 500 to charge the voltage. That is, as shown in FIG. 3, the emergency operation unit 700 is normally supplied with a voltage, for example, 24V, through the relay group 500, and this voltage is charged in the capacitor. At this time, the emergency operation unit 700 is not connected to the fire receiving panel, and thus a constant voltage (eg, 24 V) is maintained from the relay group 500 to the emergency operation unit 700, and the relay group because there is no voltage difference. Relay does not work. That is, as described in the related art, both the relay group 500 and the fire sound source generator 410 operate when a predetermined threshold voltage difference (eg, 24V) is formed. In this regard, the emergency operation unit 700 is charged with a voltage through the relay group 500, and the capacitor is charged. Usually, the emergency operation unit 700 is not connected to the fire receiving board on a circuit, and thus the relay group And no voltage difference is formed between the emergency operating unit and the relay group 500 is not operated. The same is true of the fire sound source generator 410.

On the other hand, as will be described later, when an emergency situation such as a fire occurs, the switch of the fire receiver is turned on and connected to the emergency operation unit 700, so that the capacitor is discharged through the resistance, and eventually low. When a state (for example, 0V) is reached, a voltage difference 24V occurs between the relay group 500 and the emergency operation unit, and the relay of the relay group 500 operates to be connected to the emergency operation unit 700. Sound emissions will occur through the speakers. In this case, when the emergency operation unit 700 momentarily reaches a low state, since the control device 200 may not have enough time to calculate, by connecting a resistor to the condenser as shown in the figure, the condenser gradually discharges. . This will be described in more detail below. On the other hand, the relay unit 720 is elevated in the closed state (on state) in the normal state, is connected to the central processing unit of the control unit 200, and is opened and switched to the off state according to the control operation of the central processing unit. Can be.

3, the CPU of the control device 200 is illustrated in a flowchart form. In other words, in order to make the description and understanding easier, the central processing unit is shown in the form of a flowchart in relation to its operation.

As will be appreciated by those skilled in the art, it is understood that the digital PA system is substantially the same as the conventional digital PA system except for the emergency operation unit 700, that is, the RC circuit 710 and the relay unit 720.

Hereinafter, the operation of the digital PA system consisting of the above circuit will be described by dividing the normal and abnormal time.

First, in a situation where the central processing unit (CPU) is operating normally, it is assumed that the fire is detected by the fire alarm system 300, and this signal is input to the control device 200 through the fire receiving panel. At this time, a signal is not input through the fire receiving panel, but a signal is continuously input, and the fire receiving panel is switched on accordingly, and the control device determines whether the signal is a malfunction signal. Specifically, the signal input through the fire receiving panel is input to the central processing unit (CPU) of the control device 200 via the AD converter. Then, the central processing unit determines whether a signal of a predetermined number (N times) or more is continuously input for each predetermined time (for example, 100 µsec). That is, for example, it reads the input signal continuously every 100μsec (makes the circuit low (0V)), and if the signal is input less than a predetermined number of times, it is like a temporary error signal. The central processing unit does not perform additional operations. In addition, in the case of a malfunction, the fire receiving panel and the emergency operation unit 700 is instantaneously connected to a capacitor which is charged with a low voltage (for example, 0 V) for a short time, but is charged and charged through the relay group 500. As a result, the emergency operation unit 700 is maintained at a high state (eg, 24V) as a whole, so that the relay group 500 may not operate and thus no sound is output through the speaker.

However, for example, when more than N signals are input every 100 mu sec, this means that a fire has occurred. Therefore, the central processing unit primarily stops the operation of the emergency operation unit 700. That is, as shown, the relay unit 720 of the emergency operation unit 700 is connected to the central processing unit, and receives the control operation. When it is determined that a fire occurs as described above, the central processing unit is primarily By switching the pin of the relay unit 720 in the closed state to the open state, the circuit of the emergency operation unit is switched to the off state as a whole (see FIG. 3 for reference, the pin number table of the relay unit). Is shown). Therefore, when the central processing unit operates normally, the emergency operation unit does not operate. At this time, the emergency operation unit 700 is provided with a resistance, as shown in the figure, gives a time that can be determined by the central processing unit, and delays the operation of the emergency operation unit 700. This will be described in more detail with reference to FIG. 4 as follows.

Figure 4 shows the change in voltage over time according to the signal input to the emergency operation unit and the signal input through the central processing unit through the normal route in the control system according to the present invention. In FIG. 4, the delay unit is a time-dependent voltage change due to a signal input to the emergency operation unit, and the fire input unit is a time-dependent voltage change due to a signal input to the CPU (see FIG. 5).

First, as shown in (a) of FIG. 4, the signals input to each input unit are detected and compared in units of 100 μsec (lowest graph in (a)). As described above, the signals input through the fire receiving panel are described. If is not continuous, this becomes a kind of error signal, not a signal indicating a true fire, the voltage of the emergency operation unit 700 does not fall to a low state due to the capacitor (see Fig. 4 (b)). However, when the fire alarm signal is normally input continuously, the voltage of the emergency operation unit 700 starts to fall to a low state. As shown in FIG. 4C, unlike the voltage drop of the fire input unit, Because of the resistance, the voltage drops slowly (ie, the capacitor discharges slowly due to the resistance), and it takes, for example, about 10 msec to fall completely low. This delay can be adjusted by the RC time constant. When the operating voltage of the relay unit 720 is 20 ~ 24 volts, it can be seen as a stable delay time up to 5 msec. Therefore, the central processing unit continuously detects N input signals every 100 μsec, and performs the operation when the condition is satisfied, so that the operation of the emergency operation unit 700 takes about 10 msec (or stable delay time). 5 msec), the central processing unit can stop the operation of the emergency operation unit, that is, to turn off the relay unit 720.

After the emergency operation unit 700 is turned off as described above, the control device 200 extracts the speaker setting value from the memory, performs the selection control of the speaker, and drives the sound source generator 410. The analog sound source is transmitted to the audio distributor 420. The audio distributor 420 mixes, converts, and distributes the signal, amplifies the signal through the amplifier 430 selected according to the selection control of the controller, and then outputs sound through the selected speaker 600. This operation is the same as in the prior art.

Operation in the normal state of the control device 200 as described above is substantially the same as the operation of the public address control system of the prior art except for blocking the operation of the emergency operation unit 700. The conventional system cannot cope with a case in which the central processing unit of the control device 200 does not operate normally, but according to the present invention, the emergency operation unit 700 may cope with such a situation.

That is, when the central processing unit of the control device 200 is unable to perform the operation due to static electricity or abnormal power supply or the like, assuming that a fire occurs, the fire alarm system 300 indicates the fire through the fire receiving panel. The signal is continuously input. The signal is input to the central processing unit (CPU), but since the CPU cannot perform normal operation, no operation can be performed. However, as described above, since the RC circuit 710 of the emergency operation unit 700 is connected to the switch of the fire receiver, the emergency operation unit 700 may operate. That is, the relay unit 720 of the emergency operation unit 700 is continuously in a closed state, and the voltage from the relay group 500 is supplied to the capacitor of the RC circuit 710 via the diode and charged. On the other hand, as shown in FIG. 2, one end of the RC circuit 710 is also connected to the fire sound source generator 410 by a circuit. Therefore, when a fire is generated and a signal is continuously input through the fire receiving panel, the fire receiving panel and the emergency operating unit 700 are always connected, and the capacitor of the emergency operating unit 700 gradually begins to discharge through the resistance. . Finally, when the capacitor is completely discharged and falls to a low state, a voltage difference (eg, 24 V) capable of operating the relay group is formed between the relay group 500 and the emergency operation unit 700, and similarly the emergency operation unit 700. ) And the fire sound source generator 410 is also formed a voltage difference. Accordingly, the fire sound source generator 410 is operated, and a corresponding speaker is connected through the corresponding relay RYn1 of the relay group 500 to which the emergency operation unit 700 is connected, and the speaker is predetermined through the speaker. Sound is output. Therefore, even in a situation in which the control device 200 does not operate normally, the emergency operation unit 700 may output the fire alarm sound through the speaker 600.

As described above, according to the present invention, an emergency operation unit including an RC circuit and a relay is connected between the control device 200 and the fire alarm system 300 to an existing digital public address system, and the emergency operation unit is a fire sound source. Through a simple circuit configuration that connects to the generator 410, and a correspondingly simple configuration that modifies the program of the control device accordingly, even when a fire occurs in a situation where the control device 200 does not operate properly You can generate sound.

On the other hand, it is to be understood that the above embodiments are merely exemplary and that various modifications and changes can be made. For example, as shown in FIG. 6, according to the existing digital public address system, a diode is provided between the relay group 500 and the control device 200 corresponding to each relay RYn1... That is, the speaker device provided in each floor is provided with a volume adjusting means for allowing the user to arbitrarily adjust the volume, which may be the minimum. In this case, no sound is output through the usual relay Ryn2 and the speaker connected thereto. In preparation for such a case, an emergency relay RYn1 is provided. At this time, since the sound should not be output through the speaker for emergency, diodes are connected to each relay, and each of these diodes is connected to the control device. Therefore, even when the relay RYn2 for everyday use is driven, diodes are arrange | positioned in the same direction mutually, and an electric current does not flow to the emergency relay RYn1, and an emergency relay is not driven. In this manner, the present invention can also be applied to a digital PA system including a diode corresponding to each relay in the relay group. As shown, if a diode is installed between the relay unit 720 and the relay group 500, and the diode is connected to the control device 200, even if the control device does not operate properly as described above Therefore, both the emergency relay RYn1 and the normal relay Ryn2 operate to output sound through the speakers connected to each relay. On the other hand, an instantaneous high voltage may occur such as a surge, and an overvoltage (voltage of 24 V or more) may be applied to the emergency operation part. However, since the overvoltage is not transmitted to the relay group due to the diode, the emergency operation part 700 is normally operated. You can perform the operation.

Although the present invention has been described with reference to preferred embodiments, the present invention is not limited to the above embodiments. That is, the embodiments may be variously modified and modified within the scope of the following claims, which are also within the scope of the present invention. Accordingly, the invention is limited only by the claims and the equivalents thereof.

200: public address control device
300: fire alarm system
410: fire sound source generation unit
700: emergency operation unit
710: RC circuit
720: relay unit

Claims (11)

delete delete In the digital PA system,
The system
A control device for controlling the overall operation of the system;
Emergency operation unit installed between the control device and the fire alarm system
Including,
The emergency operation unit does not operate when the control device operates normally, operates when the control device does not operate normally, and includes a fire alarm sound in the system according to a fire alarm signal transmitted from the fire alarm system. Configured to output through the speaker device,
The emergency operation unit is connected to the fire receiver of the fire alarm system of each floor of the building,
The emergency operation unit,
An RC circuit connected to the fire receiver of the fire alarm system and including a resistor and a capacitor;
A relay unit connected in series with the RC circuit and connected with the control unit and operating according to a control operation of the control unit
Digital PA system comprising a. The digital public address system according to claim 3, wherein the condenser of the RC circuit is connected to a relay group provided in the system and charged by a voltage applied from the relay group. The fire alarm signal according to claim 4, wherein when the fire alarm signal is input through the fire receiving panel during the normal operation of the control device, the control device determines whether the fire alarm signal is a normal fire alarm signal, and the normal fire alarm signal. And if it is determined that the relay unit is switched from an on state to an off state, the operation of the emergency operation unit is turned off. The fire alarm signal is input from the fire receiving panel during the normal operation of the control device. Digital public address system, characterized in that the control device is longer than the time for determining whether the fire alarm signal is normal. The control device according to claim 6, wherein when a fire alarm signal is input from the fire receiving panel during the normal operation of the control device, the capacitor of the RC circuit is gradually discharged through the resistor, so that the time required for the emergency operation unit to operate is controlled. Digital public address broadcasting system characterized in that the longer than the time to determine whether the fire alarm signal is normal. The digital PA system according to claim 7, wherein the delay time of the emergency operation unit is adjusted by an RC time constant of the RC circuit. According to claim 4, When the fire alarm signal is input from the fire receiving panel in a situation that the control device does not operate normally, the emergency operation unit and the fire receiving panel is connected to the circuit, the fire sound source generator connected to the emergency operation unit is driven And the sound generated therefrom is output through the corresponding speaker through the relay of the relay group to which the emergency operation unit is connected. 10. The method of claim 9, when the fire alarm signal is input from the fire receiving panel in a situation in which the control device does not operate normally, the emergency operation unit and the fire receiving panel is connected to the circuit, the capacitor of the emergency operation unit is gradually discharged to As early as possible, a voltage difference is formed between the relay group and the emergency operation unit and between the fire sound source generator and the emergency operation unit connected to the emergency operation unit, so that the relay group and the fire sound source generator operate to output the sound through a speaker. Digital PA system, characterized in that the. The digital electric field system according to any one of claims 4 to 10, further comprising a diode between the emergency operation unit and the relay group, wherein the diode is connected to the control device and the relay of the relay group. Broadcasting system.

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