JPS6139830A - Inducting device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Field of Application of the Invention J The present invention relates to a guidance device.
In a guidance system that charges a battery from a power source and operates an alarm device or guide light using power supplied from the battery in an emergency, the battery must be connected while the power supply is cut off when installing, installing, or replacing the battery. This invention relates to a guidance device that does not operate in an emergency.

[Prior art] In an emergency, an alarm device that emits an alarm sound or a guidance device that provides guidance in the direction of evacuation cuts off the regular power supply in an emergency, switches to battery power that has been charged with the regular power supply, and starts the guidance device. do.

When installing this type of induction device, it is convenient for construction and Ueno to turn on the regular power supply after wiring the regular power supply and battery. Furthermore, when replacing a battery, the power source is often shut off before the work is performed. However, in conventional induction devices, when the normal power supply is cut off, it means switching to emergency operation. If you turn off the regular power supply while the unit is still in use, it will go into emergency operation. For this reason, in the conventional guidance device, when attaching a device or replacing a battery, there is a problem that the battery is consumed due to the alarm operation, and the alarm sound is generated, which hinders work.

[Object of the Invention] The present invention has been made in view of the problems in the prior art described above, and is designed to prevent emergency problems even if the battery is connected while the regular power supply is cut off when installing the guidance device or replacing the battery. It is an object of the present invention to provide a guiding device that does not move and has good workability.

[Summary of the Invention] The present invention is characterized by an induction device that charges a battery using a regular power source during normal times and operates by supplying power from the battery in an emergency, and which detects a disconnected state of the regular power source and switches on the connected power source. A first switch circuit switchably connected to the battery, a second switch circuit connected in series to the battery power supply circuit, and logic between the common power supply voltage and the battery voltage supplied via the second switch circuit. a comparison detection circuit that closes the second switch circuit according to the sum of the voltages, and when a battery is connected to the battery power supply circuit in a state where the normal power supply is cut off, power is supplied from the battery by the second switch circuit. The second switch circuit is closed when the normal power supply is turned on after the battery is connected, and thereafter the battery is connected to the first switch circuit.

Embodiments of the invention Hereinafter, embodiments of the invention will be described in detail with reference to the accompanying drawings. The attached figure is an overall configuration diagram of an induction device according to an embodiment of the present invention, in which 1 and 2 are connection terminals for a common power source such as a commercial power source, and 3
is a relay coil inserted between its terminals, 4 is a power transformer, 5 is a diode, and 6 is a resistor. The diodes 5 and 6 constitute a rectifier circuit for battery charging. 7 is a contact of the relay coil 3; 8 is an alarm unit composed of an IC and an amplifier circuit; and 9 is a speaker.

10 is a comparator, 11 is a photocoupler activated by the output of the comparator 10, and is composed of a light emitting diode 12 and a light receiving transistor 13. 14 is a relay coil that is magnetized by the output of the top cover 11, and 15 is its contact, which is inserted into one line of the battery 16. 17 is a diode, and 18 is a resistor.

According to the same configuration, before commercial power is supplied, the voltage at the child terminal of the comparator is "off", and the photocoupler 11 and therefore the relay coil 14 are in a non-energized state, so that the contact 15 is open. Therefore, in this state, the battery 16
Even if " is connected, power will not be supplied to the alarm unit 8.

When the commercial power is turned on after connecting the battery 16, the relay coil 3 is excited and the contact 7 is switched to the a contact side.

At the same time, the child terminal of the comparator 10 becomes rHJ level, the relay coil 14 is excited via the photocoupler 17, and the battery 16 is charged by opening the contact 15.

Now, if the commercial power supply is cut off and the power between terminals 1 and 2 is cut off, the relay coil 3 is de-energized and the contact 7 is switched to the contact side. This causes the alarm unit 8 to
It is activated by the power supply from 6, and the speaker 9 makes a sound.

In this case, the child terminal of the comparator 10 is connected from the child terminal of the battery 16 to the relay contact 15 and the photocoupler 11.
photodetector transistor 13, resistor 18 and diode 1
Since an “H” level voltage is applied through 1,
The photocoupler 10 remains on and the relay coil 14
is held in an energized state to keep its contact 15 open.

In this way, in an induction device that detects the interruption of commercial power supply as an emergency signal such as a fire alarm signal by the detection circuit (relay coil 3) provided on the input side of the commercial power supply, the interruption of commercial power supply as an emergency signal and the battery A circuit is added that closes the contact 75 connected in series to the battery in the R direction (11 m) to distinguish between commercial power supply cutoff for replacement, so when installing equipment or replacing the battery, a new battery 16 can be inserted while the commercial power supply is cut off. Even if connected, the relay contact 15 remains open, and the replaced battery will not cause the speaker 9 to sound.

Furthermore, when a commercial N source is supplied after the battery is connected, the relay coil 3 is excited and the comparator circuit 10
is turned on to excite the relay coil 14, and thereafter the comparator circuit 10 maintains the excitation of the relay coil 14 by the power source of the battery 16. Therefore, after connecting the battery and turning on the commercial power, it will charge the battery in normal times, as with conventional guidance devices, and in an emergency, it will detect the emergency signal caused by cutting off the commercial power and provide an alarm. Perform the action.

[Effects of the Invention] As is clear from the above-mentioned embodiments, according to the present invention, when installing the guidance device or replacing the battery, even if the battery is connected first with the regular power supply cut off, the alarm device will not activate. With this structure, the replacement work is not disturbed by an alarm sound, and there is no unnecessary battery consumption due to this alarm operation. Furthermore, since the operation is automatically detected, there is no risk of forgetting to do something.

[Brief explanation of the drawing]

The attached drawing is a specific circuit configuration diagram of a guidance device showing one embodiment of the present invention. 4...Power transformer, 5,11...Diode, 6
゜18...Resistor, 7,15...Contact, 8...Output amplifier, 9...Speaker, 10...Comparator,
11...Photocoupler, 16...Battery.

Claims (1)

[Claims] The induction device is an induction device that charges a battery using a regular power source during normal times and operates using power supplied from the battery in an emergency, and a first switch circuit that detects a cutoff state of the regular power source and switches the connected power source to the battery. , the second switch circuit is connected in series to the battery power supply circuit, and the second switch circuit is closed by the logical sum of the common power supply voltage and the battery voltage supplied via the second switch circuit. If a battery is connected to the battery power supply circuit in a state where the normal power supply is cut off, the second switch circuit cuts off the power supply from the battery, and the normal power supply is turned off after the battery is connected. The induction device is characterized in that the second switch circuit is closed when the battery is turned on, and thereafter the battery is connected to the first switch circuit.