JP3890652B2 - Evacuation guidance device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an evacuation guidance device, and more particularly to an evacuation guidance device including a xenon blinking unit that operates with a storage battery as a power source and an audio output unit in an emergency.
[0002]
[Prior art]
FIGS. 7 to 10 show a conventional evacuation guidance device (first conventional example). The evacuation guidance device includes a charging circuit unit 1, a storage battery 2, and a xenon as shown in FIGS. 7 and 8. A xenon blinking block configured to include a blinking unit 3 and a control unit 4, and a charging circuit unit 1, a storage battery 2, a control unit 4, and an audio output unit 5 as illustrated in FIGS. 9 and 10. And an audio output block configured as described above.
[0003]
In the xenon blinking block, the charging circuit unit 1 is connected to the commercial power supply AC, is normally connected to the storage battery 2 via the first switch SW1, and is configured to charge the storage battery 2 by feeding from the commercial power supply AC. Has been. The xenon flashing unit 3 includes an oscillation circuit unit 3a and a xenon lamp 3b, and is connected to the storage battery 2 via the second switch SW2. The control unit 4 receives a fire alarm signal, which is a signal from a fire alarm facility (not shown), and controls the first switch SW1 and the second switch SW2, and the fire alarm facility detects a fire. In an emergency state in which a fire signal is detected, for example, a low signal is always received, for example, a high signal is received, the first switch SW1 is turned on and the second switch SW2 is turned off. The first switch SW1 is turned off and the second switch SW2 is turned on.
[0004]
In other words, at all times when the fire alarm facility is in a state where no fire is detected, the storage battery 2 is charged by a commercial power source and charged, the xenon blinking portion 3 is turned off (non-operating), and the fire alarm facility fires. In an emergency (time t0 shown in FIG. 8), the storage battery 2 is disconnected from the charging circuit unit 1, and the xenon flashing unit 3 performs a flashing operation using the storage battery 2 as a power source. In addition, the time t1 shown in FIG. 8 has a required operation time of 20 minutes that requires a blinking operation in accordance with the Japan Lighting Equipment Manufacturers Association standard guide lamp apparatus and evacuation guide lamp system technical standard (JIL5502), Time t2 represents about 40 minutes, which is the actual blinking duration in this device.
[0005]
In the audio output block shown in FIGS. 9 and 10, the charging circuit unit 1, the storage battery 2, the control unit 4, and the like are the same as the xenon blinking block, and therefore different parts will be described here. As shown in FIG. 9, the audio output block is provided with an audio output unit 5 including an audio unit 5a and a speaker 5b via a converter 6 instead of the xenon blinking unit 3 of FIG. When the fire notification facility is in a state where no fire is detected, the second switch SW2 is turned off, so that the audio output unit 5 is in a stopped (non-operating) state, and the fire notification facility In an emergency state (time t0 shown in FIG. 10), the first switch SW1 is turned off and the second switch SW2 is turned on, and the audio output unit 5 operates using the storage battery 2 as a power source. And make a sound. Note that the time t3 shown in FIG. 10 indicates a required operation time of 60 minutes that is required to operate according to the Japan Lighting Equipment Manufacturers Association standard guide light fixture and evacuation guide light system equipment technical standard (JIL5502), t4 represents about 120 minutes which is the actual duration of operation in this device.
[0006]
11 and 12 show another conventional evacuation guidance device (second conventional example). The difference from the first conventional example is that the xenon blinking unit 3 and the audio output unit 5 are the same. The second battery SW is connected in parallel to the non-power supply side of the second switch SW2 so as to be operated by the storage battery 2, and the other configuration is the same as that of the first conventional example.
[0007]
Therefore, the operation is controlled by the control unit 4 at all times when the fire alarm facility does not detect a fire, the first switch SW1 is on, the second switch SW2 is off, and the storage battery 2 is charged. While being charged from the commercial power supply AC via the circuit unit 1, the xenon blinking unit 3 and the audio output unit 5 remain inactive. Further, in an emergency (time t0 shown in FIG. 12) in which the fire alarm facility detects a fire, the first switch SW1 is turned off and the second switch SW2 is turned on, and the xenon blinking unit. 3 and the audio | voice output part 5 start operation | movement using the same storage battery 2 as a power supply, and stop operation | movement substantially simultaneously. Note that the times t1 and t3 shown in FIG. 12 indicate the necessary operation time, 20 minutes, and 60 minutes, as described above, and at the time t5, the xenon blinking unit 3 and the audio output unit 5 in this apparatus actually operate. Indicates the time to stop.
[0008]
[Problems to be solved by the invention]
However, in the evacuation guidance device shown in the first conventional example configured as described above, the charging circuit unit 1, the storage battery 2, and the like are separately required for the xenon blinking unit 3 and the audio output unit 5, respectively. There was a problem that the apparatus was increased in size.
[0009]
Further, in the evacuation guidance device shown in the second conventional example, there is one storage battery 2, and in an emergency, the xenon flashing section 3 and the audio output section 5 are supplied with power from the same storage battery 2 and operate simultaneously. Moreover, since the power consumption is approximately 9 W for the xenon flashing unit 3, the audio output unit 5 is approximately 3 W, and the xenon flashing unit 3 is approximately three times that of the audio output unit 5, the power from the storage battery 2 is reduced. There is a problem in that the operation time required for the audio output unit 5 to continue the operation cannot be secured because the xenon blinking unit 3 is used.
[0010]
The present invention has been made in view of the above problems, and an object of the present invention is to provide an evacuation guidance device that is easy to ensure the required operation time of the audio output unit in an emergency while reducing the size.
[0011]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides a charging circuit unit connected to a commercial power source via the first switch, and is normally supplied with power from the commercial power source. A storage battery in a charged state, a xenon blinking unit connected to the storage battery via a second switch that is normally turned off, and a parallel connection with the xenon blinking unit connected to the storage battery via the second switch In an emergency when receiving a fire alarm signal from the sound output unit and the fire alarm facility, which consumes less power than the xenon flashing unit connected to the, the charging to the storage battery is stopped by turning off the first switch, In an evacuation guidance device comprising a control unit that turns on the second switch and connects the xenon blinking unit and the audio output unit to the storage battery. Immediately after receiving the signal, the control unit operates the xenon flashing unit and the audio output unit using the storage battery as the same power source, and stops the operation of the xenon flashing unit after a predetermined time from the start of the operation. Control is performed so that only the sound output unit continues to operate , and a power failure detection unit for detecting a power failure of the commercial power source is provided on the commercial power source side of the first switch, and the storage battery is turned off when the commercial power source is energized. And an emergency lighting unit that is connected via a third switch that is turned on by the control unit when a commercial power failure occurs and is turned on by the storage battery during a power failure. during a power failure of the commercial power supply, the emergency lighting unit for a predetermined time to light from generation detection of a power failure, and also controlled to operate continuously after turning off of the very lighting unit the audio output unit It is characterized in.
[0012]
According to a second aspect of the present invention, in the evacuation guidance device according to the first aspect, when the operation of the xenon blinking unit is stopped by the control unit in an emergency, the output of the audio output unit is increased. It is characterized by being controlled as follows.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
1 and 2 show a first reference example of an evacuation guidance device of the present invention, which includes a charging circuit unit 1, a storage battery 2, a xenon blinking unit 3, a control unit 4, and And an audio output unit 5.
[0015]
The charging circuit unit 1 is connected to the commercial power source AC, connected to the storage battery 2 via the first switch SW1, and is configured to charge the storage battery 2 by power supply from the commercial power source AC at all times. The xenon flashing unit 3 includes an oscillation circuit unit 3a and a xenon lamp 3b, and is connected to the storage battery 2 via the second switch SW2. The audio output unit 5 includes an audio unit 5a and a speaker 5b, and is connected in parallel with the xenon blinking unit 3 to the non-power supply side of the second switch SW2 via the converter unit.
[0016]
The control unit 4 receives a fire alarm signal, which is a signal from a fire alarm facility (not shown), and outputs the first switch SW1, the second switch SW2, and the oscillation circuit unit 3a of the xenon flashing unit 3 and the sound output. The voice unit 5a of the unit 5 is controlled. This control unit 4 receives, for example, a high (no fire) signal as a fire alarm signal from the fire alarm facility when the fire alarm facility does not detect a fire, and turns on the first switch SW1. 2 is turned off, and the storage battery 2 is charged from the commercial power source AC via the charging circuit unit 1.
[0017]
Further, in an emergency where the fire alarm facility detects a fire, the first switch SW1 is turned off at time t0 in FIG. 2 in response to, for example, a low (fire present) signal from the fire alarm facility. The second switch SW2 is turned on, the voltage is converted by the converter unit 6 using the storage battery 2 as a power source to oscillate the oscillation circuit unit 3a, and the xenon lamp 3b blinks to start the operation of the xenon blinking unit 3. Let At the same time, the converter unit 6 converts the voltage to operate the sound unit 5a and emits sound from the speaker 5b to start the operation of the sound output unit 5. Further, since the power consumption is approximately 9 W for the xenon blinking unit 3 and approximately 3 W for the audio output unit 5, the control unit 4 requires the operation time (t1 shown in FIG. 20 minutes), for example, after 35 minutes (t6 shown in FIG. 2), the timer provided in the control unit 4 is controlled to stop the operation of the oscillation circuit unit 5a.
[0018]
Since it is configured in this way, in the evacuation guidance apparatus according to the present reference example , the charging circuit unit 1, the storage battery 2, the control unit 4, etc. can be used in common between the xenon blinking unit 3 and the audio output unit 5. Therefore, it is possible to reduce the size of the apparatus. In addition, since the operation of the xenon blinking unit 3 with high power consumption is stopped for a predetermined time exceeding the required operation time from the start of operation, the operation duration time of the audio output unit 5 can be lengthened and the required operation time can be easily secured. When the audio output unit 5 is also stopped at a time exceeding the required operation time, the extra power consumption can be reduced and the number of cells of the storage battery 2 can be reduced.
[0019]
3 and 4 show the first embodiment of the evacuation guidance apparatus of the present invention. The difference from the first reference example is that the commercial power source AC is connected to the commercial power source AC side of the first switch. The power failure detection unit 7 for detecting the power failure is provided, and the storage battery 2 is turned off when the commercial power source AC is energized and connected via the third switch SW3 that is turned on by the control unit 4 when the commercial power source AC is powered off. An emergency lighting unit 8 including an oscillation circuit unit 8a and a lamp 8b that are sometimes turned on by the storage battery 2 is provided, and this emergency lighting unit is in an emergency when the control unit 4 receives a fire alarm signal and a power failure occurs in the commercial power supply AC. 8 is a predetermined time after the occurrence of a power failure, and is turned off during the operation of the audio output unit 5, and the rest is configured in the same manner as in the first reference example .
[0020]
That is, at all times when the fire alarm facility is in a state where no fire is detected, the control unit 4 receives, for example, a high (no fire) signal as a fire alarm signal from the fire alarm facility, and turns on the first switch SW1. The second switch SW2 is turned off, the storage battery 2 is charged from the commercial power supply AC by the charging circuit unit 1, and the third switch SW3 is also turned off when the commercial power supply AC is energized. On the other hand, in an emergency when the fire alarm facility detects a fire, the control unit 4 receives, for example, a low (fire present) signal from the fire alarm facility, and at time t0 in FIG. The SW1 is turned off, the second switch SW2 is turned on, the oscillation circuit unit 3a is oscillated using the storage battery 2 as a power source, and the xenon lamp 3b is flashed to start the operation of the xenon flashing unit 3, and at the same time the converter unit 6, the voltage is converted to operate the sound unit 5a, and the sound output unit 5 is started to operate by generating sound from the speaker 5b. Further, at the time of a power failure of the commercial power supply AC, the power failure detection circuit 7 detects the power failure, so that the third switch SW3 is turned on, and the lamp 8b of the emergency lighting unit 8 is moved by the storage battery 2 at time t0 in FIG. Light up.
[0021]
Further, since the power consumption is about 9 W for the xenon flashing unit 3, about 3 W for the audio output unit 5, and about 8 W for the emergency lighting unit 8, the control unit 4 requires the necessary operation time from the start of the operation of the xenon flashing unit 5 (FIG. After a predetermined time (t1 shown in 4 is 20 minutes) or more (for example, 35 minutes after time t6 in FIG. 4), the operation of the oscillation circuit unit 5a is stopped by a timer provided in the control unit 4 For example, 35 minutes after time t6 in FIG. 4, which is a predetermined time after lighting, the oscillating circuit unit 8a is stopped and the emergency lighting unit 8 is turned on by detecting the occurrence of a power failure. Is controlled to turn off (stop operation).
[0022]
Even if comprised in this way, while there exists an effect similar to the said 1st reference example , when the control part 4 has received the fire alarm signal and the commercial power supply AC has a power failure, the emergency lighting part 8 is It is possible to enhance the evacuation guidance effect by lighting for a predetermined time from the detection of the occurrence of a power failure.
[0023]
In the present embodiment, the case where the reception of the fire alarm signal and the detection of the occurrence of the power failure occurred in FIG. 4 is illustrated, but the present invention is not limited to this, and the emergency lighting unit 8 is provided. The operation may be started only when a power failure is detected and a fire report signal is received.
[0024]
FIG. 5 shows a second reference example of the evacuation guidance device of the present invention. The difference from the first reference example is that the control unit 4 outputs the output of the voice output unit 5 and the operation of the xenon flashing unit 3. In order to amplify with stop, that is, as shown in the figure, the sound is level 2 after time t6 with respect to level 1 from time t0 when the fire alarm signal is received to operation stop time t6 of the xenon flashing unit 3. The amplification level is increased to increase the output, and the rest is configured in the same manner as in the first reference example . Even if comprised in this way, while there exists an effect similar to the said 1st reference example , after the operation | movement stop of the xenon blinking part 3, the output of the audio | voice output part 5 is raised, and the evacuation guidance effect by an audio | voice is heightened. be able to.
[0025]
Figure 6 shows a second embodiment of the evacuation guidance device of the present invention, the is different from the first embodiment, the output of the audio output section 5 by the control unit 4, xenon flash unit 3 As shown in the figure, the level 1 from the time t0 when the fire alarm signal is received to the operation stop time t6 of the xenon flashing unit 3 is compared to the level 2 after the time t6. The output level is increased by increasing the sound amplification level, and the rest is configured in the same manner as in the first embodiment. Even if comprised in this way, while having the effect similar to the said 1st Embodiment, after stopping the operation | movement of the xenon blinking part 3, raising the output of the audio | voice output part 5 further raises the evacuation guidance effect. be able to.
[0026]
In each of the above-described embodiments, the battery 2 supplies power to the oscillation circuit unit 3a of the xenon blinking unit 3 and the oscillation circuit unit 5a of the audio output unit 5 via the converter unit 6. However, the present invention is not limited to this, and when the voltage of the storage battery is a necessary voltage for driving each oscillation circuit, the xenon blinking part or the audio output part or both directly from the storage battery without going through the converter part Alternatively, power may be supplied.
[0027]
Since the present invention is configured as described above, in the invention according to claim 1, the charging circuit unit, the storage battery, the control unit, and the like can be shared between the xenon blinking unit and the audio output unit, Can be miniaturized. In addition, since the operation of the xenon flashing unit with high power consumption was stopped for a predetermined time exceeding the required operation time from the start of operation, the operation duration time of the audio output unit can be lengthened and the required operation time can be secured easily. When the output unit is also stopped at a time exceeding its required operating time, it is possible to reduce the extra power consumption and the number of storage battery cells , and the control unit receives a fire alarm signal. When the commercial power supply fails in the state, the emergency lighting part can be turned on for a predetermined time from the detection of the occurrence of the power failure, and the evacuation guidance effect can be enhanced.
[0029]
In the second aspect of the present invention, in addition to the effect of the invention of claim 1 Symbol placement, after the stop of the operation of the xenon flash unit, by increasing the output of the audio output unit, enhancing the evacuation effect by audio be able to.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first reference example of an evacuation guidance apparatus according to the present invention.
FIG. 2 is a time chart showing the operation of the above.
FIG. 3 is a block diagram showing a first embodiment of the evacuation guidance device of the present invention.
FIG. 4 is a time chart showing the operation of the above.
FIG. 5 is a time chart showing a second reference example of the evacuation guidance apparatus of the present invention.
FIG. 6 is a time chart showing a second embodiment of the evacuation guidance device of the present invention.
FIG. 7 is a block diagram showing a xenon blinking block which is a main part of a conventional evacuation guidance device (first conventional example).
FIG. 8 is a time chart showing the operation of the above.
FIG. 9 is a block diagram showing an audio output block which is a main part of the above.
FIG. 10 is a time chart showing the operation of the above.
FIG. 11 is a block diagram showing another conventional evacuation guidance device (second conventional example).
FIG. 12 is a time chart showing the operation of the above.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Charging circuit part 2 Storage battery 3 Xenon blinking part 4 Control part 5 Audio | voice output part 7 Power failure detection part 8 Emergency lighting part AC Commercial power supply SW1 1st switch SW2 2nd switch SW3 3rd switch

Claims (2)

A storage battery connected to a charging circuit unit connected to a commercial power source via a first switch and normally charged by power supply from the commercial power source, and a second switch normally turned off to the storage battery A connected xenon flashing unit, an audio output unit connected to the storage battery via the second switch and connected in parallel with the xenon flashing unit, and a power output smaller than that of the xenon flashing unit; In the event of an emergency signal reception, the first switch is turned off to stop charging the storage battery, and the second switch is turned on to turn the xenon flashing section and the audio output section to the storage battery. In an evacuation guidance apparatus comprising a control unit to be connected, immediately after receiving a fire alarm signal from a fire alarm facility in an emergency, the control unit includes the xenon blinking unit and the audio output. DOO is operated as the same power source the battery and to control so that the operation of the xenon flash unit from the start of operation after a predetermined time is stopped to operate continuously only the audio output unit, of said first switch Provided on the commercial power supply side is a power failure detection unit for detecting a power failure of the commercial power supply, and is turned off when the commercial power supply is energized to the storage battery and is turned on by the control unit when the commercial power supply is interrupted. In addition, an emergency lighting unit that is connected and is turned on by the storage battery in the event of a power failure is provided. The evacuation guidance apparatus is characterized in that the voice output unit is controlled to continue operation even after the emergency lighting unit is turned off . Wherein the control unit, at the time of stopping the operation of the xenon flash unit in an emergency, claim 1 Symbol placement evacuation guidance device, characterized in that the control to raise the output of the audio output unit.

Images