JP4884043B2 - Earthquake safety light - Google Patents

Description

  The present invention relates to an earthquake safety light installed in a house or the like.

Conventionally, a seismic sensor that detects an earthquake and gives an alarm, and an emergency light (stand-by light) that lights an illumination (lamp or light) in the event of a power failure are well known.
Moreover, the seismic safety light which integrates functions of these seismic sensors and emergency lights is a known technique. (Hereafter, these are collectively referred to as “earthquake security lights”.)

An earthquake safety light (earthquake safety light) is equipped with a battery power source such as a household power plug and a rechargeable battery (storage battery). When an earthquake or power failure is detected (detected), a lamp (light) such as a light bulb will be turned on for a predetermined time. Light.
In addition, since the switch for manually turning on / off the light is provided on the surface of the seismic safety light housing, the light can be manually turned off by operating the switch when the power is restored from a power failure. .

In addition to the functions described above, the seismic safety light is further equipped with a light / dark detection circuit, etc., which turns on the light when it detects that the area around the seismic safety light is dark. function). It can also be carried and used as a flashlight. (For example, patent document 1).
JP-A-7-73701

However, since such a seismic safety light has a built-in seismic sensor, the seismic sensor detects the vibration generated by this plug-in operation when plugged into a household power supply (outlet, socket). May light up.
Therefore, in this case, the user has to manually turn off the switch to turn off the light of the earthquake safety light, which is troublesome.

Accordingly, the present invention provides a seismic safety lamp as described above, further improve the operability, and to provide a seismic safety lamp you reliably test known shaking of an earthquake.

In order to solve the above-mentioned problem, the earthquake safety light (earthquake-sensitive safety light) according to claim 1 of the present invention is connected to at least a household power source and converts the household power source into a predetermined power source to supply power. A power supply unit comprising a power supply circuit that performs power supply and a storage battery that is charged by being supplied with power from the power supply circuit, a seismic sensor that senses shaking, a light emitting source for projecting light to project to the surroundings , In the seismic safety light having a control unit that performs control by supplying power from the power source unit to the light emitting source for light projection according to a detection signal of the seismic sensor, the control unit is connected to a household power source. In the initial predetermined period, the detection signal of the seismic sensor is invalidated and control is performed so that the light emission source is not lit.

  According to the first aspect of the present invention, the light is not turned on even if the seismic sensor detects a vibration (vibration) generated by an operation of inserting the seismic safety light into a household power source. Can easily install an earthquake safety light in a household power supply (outlet, socket).

The earthquake safety light according to claim 2 of the present invention includes at least a power supply circuit that is connected to a household power supply, converts the household power supply into a predetermined power supply, and supplies power, and is supplied from the power supply circuit. The light source is composed of a storage battery that is charged and supplied with power, a seismic sensor that senses shaking, a light emitting source for projecting light to the surroundings, and the light projection by the detection signal of the seismic sensor In the earthquake safety light having a control unit for controlling the light source to be turned on by supplying power from the power source unit, the control unit detects the seismic sensor during an initial predetermined period when connected to a household power source. Control is performed to disable the signal and set the signal state immediately after the end of the predetermined period as a state in which no shaking is detected.

  According to the second aspect of the present invention, the detection signal is initialized regardless of the detection characteristics of the seismic sensor generated by the state of attachment to the household power supply, and the earthquake is reliably detected after a predetermined period of time, The light emission source for projection can be turned on.

According to a third aspect of the present invention, there is provided an earthquake safety light that is connected to at least a household power source, converts the household power source into a predetermined power source, and supplies power from the power source circuit. The light source is composed of a storage battery that is charged and supplied with power, a seismic sensor that senses shaking, a light emission source for projecting light to the surroundings, and the light projection by the detection signal of the seismic sensor A seismic safety light having a control unit for controlling the lighting source to be turned on by supplying power from the power source unit, and the control unit detects a detection signal of the seismic sensor during a period when it is not connected to a household power source. The control is performed such that the light emission source for projection is not turned on.

  According to the third aspect of the present invention, since the light is not turned on even when the seismic sensor of the seismic safety light senses a shake when being carried, waste of battery power such as a rechargeable battery (storage battery) is wasted. Consumption can be reduced.

According to the present invention, the operability of the multifunctional earthquake safety light can be further improved .

(Structure of earthquake safety light)
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a configuration diagram showing an example of the earthquake safety light 1 of the present invention, and is an external front view showing the earthquake safety light 1.
FIG. 2 is a schematic circuit configuration diagram of the earthquake safety light 1 of FIG.
FIG. 3 is a diagram illustrating a usage state of the earthquake safety light 1.
As shown in FIG. 1, the earthquake safety light 1 of the present invention includes a floodlight 11, a light sensor 12 , a light OFF switch 16 a, a light ON switch 16 b, a siren switch 17, a siren sound hole 14, and a night light mode lamp 13. And the front cover 18 and the like. A foldable retractable power plug 9 is provided on the back side of the earthquake safety light 1 main body.

  The seismic safety light 1 includes a seismic sensor (25), a buzzer (24), a light emitting source (light projecting light) 11, a light sensor (12), and an indicator light that constitute the circuit of FIG. (13) (Night light mode lamp), the storage battery 32 is built in and connected to a circuit board (not shown).

  The retractable power plug 9 is a plug that is inserted into the household power outlet 5 (FIG. 3) to receive power from the household power supply (AC 100V). Further, the retractable power plug 9 has a structure that can be folded and stored in a storage portion (not shown) on the back side of the seismic safety light 1 in order to improve operability and storage property when being carried.

  2 mainly responds to the detection signal of the seismic sensor 25, the power failure detection signal, the detection signal of the optical sensor 12, and the operation signal of the operation switch SW1 (16). This is a CPU for controlling the light 11 and the indicator lamp 13.

The power supply unit 30 shown in FIG. 2 includes a power supply circuit 31 or a storage battery 32 and supplies power to a load such as a light emission source (light projection light) 11.
The power supply circuit 31 is a circuit that rectifies an AC power source that receives power supply from a household power source (AC 100 V) to obtain a DC power source having a predetermined voltage.
The storage battery 32 is charged by this power supply while receiving power supply from the power supply circuit 31, and supplies power to the load when there is no power supply from the power supply circuit 31.

  The power failure detection line (power failure detection unit) 33 notifies the control unit 20 that there is no power supply from the power circuit 31 by removing the power failure or the earthquake safety light 1 from the household power outlet (power socket) 5. A diode 40 is inserted between the positive electrode side of the storage battery 32 in order to cut off the current from the storage battery 32 in the line (power failure detection unit).

The seismic sensor 25 is a seismic switch that outputs a detection signal to the control unit 20 when a seismic intensity (for example, seismic intensity 4) or more is detected.
The seismic switch is conventionally known. For example, the primary side contact, the secondary side contact, and at least a part of the short-circuiting metal piece that is always electrically connected to the primary side contact are always in a horizontal and normal state. If it is installed, it is electrically connected on the primary side to maintain the stopped state and does not short-circuit with the secondary side contact (contact OFF). The secondary contact is short-circuited (contact ON), and is a so-called metal ball or shaft rod (not shown).

The buzzer 24 is connected to the power supply unit 30 via the connection switch SW2 (17) and is driven to emit an alarm sound (siren), for example, an alarm sound device (electronic buzzer) for notifying the user of the location. .
The connection SW2 is switched on and off by a slide-type siren switch 17 as shown in FIG.

The light emission source for light projection (light projection light) 11 is a light source that is controlled to be turned on by the control unit 20 and includes a high-intensity white LED or the like, and has a sufficient amount of light to illuminate the surroundings.
In order to further increase the amount of light, a reflecting mirror is provided behind the light emitting source for projecting light (light for projecting light) 11.

  The optical sensor 12 detects ambient brightness, and controls the light emission source (projection light) as a night light (nightlight or security light) according to the ambient brightness by the control unit 20. It is an illuminance sensor that outputs a detection signal.

  An indicator lamp (nightlight mode lamp) 13 displays that the nightlight function is on (in the nightlight mode).

The operation switch SW1 (16) is an ON / OFF switch for the light emission source (light projection light) 11 when it is removed from the household power outlet 5 and used as a portable light (flashlight).
Further, when it is connected to a household power outlet 5 and used as an earthquake safety light, it is an on / off switch for a nightlight function (nightlight mode).
As shown in FIG. 1, SW1 (16) is provided separately as an ON switch 16a and an OFF switch 16b.

(Explanation of functions and operation of earthquake safety light)
Hereinafter, functions and operation methods of the earthquake safety light 1 and automatic control of the control unit 20 will be described.
In addition, in the following description, when there is no description in particular, the storage battery 32 at the time of the state which connected the earthquake safety light 1 to the household power outlet 5 shall be a full charge state.
A signal that the power failure detection line (power failure detection unit) 33 detects and outputs a power failure is referred to as a power failure detection signal, and a signal indicating a non-power failure detection state is referred to as a non-power failure signal.
A signal that is output when the optical sensor 12 detects that the surrounding is dark is called a dark signal, and a signal that the seismic sensor 25 detects and outputs a shake is called a seismic signal.

(Seismic signal invalidation function when carrying)
When not connected to the household power outlet 5, the night light mode lamp 13 and the floodlight 11 of the earthquake safety light 1 are turned off (manual operation of turning on / off the floodlight 11 or manual siren). Only ringing operation is possible).

At this time, the control unit 20 senses shaking from the seismic sensor 25 for reasons such as being carried and receives a seismic signal, but receives a power failure detection signal, so even if it receives a seismic signal, it is invalid As a result, control is performed so as not to turn on the floodlight 11 (power failure mode).
Accordingly, the control unit 20 invalidates the detection signal (seismic signal) of the seismic sensor during the period when the household power outlet 5 is not connected (during carrying or power failure), and the light emitting source for projecting (light for projecting) ) Control that does not light 11 is performed.
That is, the floodlight 11 of the earthquake safety light 1 is not lit by shaking (earthquake) when it is not connected to a household power source such as when it is carried or when a power failure occurs.
At this time, by turning on / off the light ON switch 16b and the light OFF switch 16a in FIG. 1, the light for projection 11 can be turned on and off as a portable light (flashlight).

(When installed)
The retractable power plug 9 stored on the back of the earthquake safety light 1 is hooked with a finger to protrude and inserted into a household power outlet 5 (AC100V).
At this time, the night light mode lamp 13 is lit in green when the mode setting is ON, and is not lit when the mode setting is OFF (it remains off).
In addition, the light for projection 11 of the earthquake safety light 1 is turned off (it remains in the off state).

At this time, the control unit 20 receives the non-power failure signal from the power failure detection line 33 and changes from the power failure mode to the non-power failure mode.
In addition, timing is started by a timer (not shown). Note that the timer timing is an initial predetermined period after the power failure detection line (power failure detection unit) 33 changes from the power failure detection state to the non-power failure detection state, for example, 20 seconds after being inserted into the household power outlet 5.

Moreover, when the control part 20 of the earthquake safety light 1 is not receiving the detection signal from the seismic sensor 25 when attached to the household power outlet 5, the primary side contact and the secondary side in the seismic sensor are not received. When the contact is not short-circuited (contact OFF → ON state), this reception state is set as an initial state.
Therefore, when an earthquake shake is detected after installation, a short circuit signal between the primary side contact and the secondary side contact becomes a seismic signal.
However, when installed in a slightly tilted state (because it is tilted, the primary side contact and secondary side contact in the seismic sensor are always short-circuited, and the primary side contact and 2 In a state where the short circuit of the secondary contact is released (contact ON → OFF state), this reception state is set as an initial state.
Therefore, when an earthquake shake is detected after installation, the opening signal of the primary side contact and the secondary side contact of the seismic switch becomes the seismic signal.
Therefore, regardless of the mounting state of the seismic safety light 1, the light for projection 11 can be reliably turned on when an earthquake occurs.

Further, the control unit 20 has received the seismic signal from the seismic sensor 25 that has detected the shaking due to the mounting operation, but since the timer is counting, the seismic signal is invalidated and the light for projection 11 is not turned on. Take control.
Therefore, the control unit 20 invalidates the detection signal (seismic signal) of the seismic sensor for an initial predetermined period (for example, 20 seconds after the transition from the power failure mode to the non-power failure mode) connected to the household power outlet 5. Control is performed so that the light emission source (light for projection) 11 is not turned on.
That is, the light for projection 11 of the earthquake safety light 1 is not turned on due to shaking at the time of attachment.

The purpose of the night light mode lamp 13 described above is to allow the mode setting state to be confirmed even in a bright environment such as daytime.
Therefore, in the embodiment of the present invention, when the nightlight mode is set when the earthquake safety light 1 is connected to the household power outlet 5 (hereinafter, when the household power supply is connected), the nightlight mode lamp is set. 13 lights up in green. Further, when the night light mode is not set when the household power supply is connected, the night light mode lamp 13 is not turned on.

The earthquake safety light 1 can be turned on / off by setting the night light mode by turning on / off the light ON switch 16b and the light OFF switch 16a of FIG. 1 when the household power supply is connected.
Further, when the household power supply is connected, the setting is made so that the light for projection 11 is not turned on by operating the light ON switch 16b.

  Note that if the light-off switch 16a is pressed while the night light mode is set (the night light mode light is green) and the floodlight 11 is dimmed, the floodlight 11 is turned off. , Nightlight mode is set off.

(Night)
When the household power supply is connected and the night light mode is set to ON (if the night light mode lamp 13 is lit), the seismic safety light 1 Then, the floodlight 11 is turned on (dimmed) as a night light (security light).

  At this time (20 seconds after connecting the household power supply and before the earthquake is detected), the control unit 20 receives the non-power failure signal from the power failure detection line 33 and detects the darkness from the optical sensor 12 that has detected that the surroundings are dark. The dimming light 11 is controlled to be dimmed on condition that a signal is received.

(At the time of earthquake)
When an earthquake with a seismic intensity of 4 occurs when the household power supply is connected, the earthquake safety light 1 detects shaking by the seismic sensor 25, and the floodlight 11 is turned on for a predetermined period (for example, 20 minutes) and the night light mode is ON. If it is set, it lights up more brightly than when it is dimmed. If the night light mode is set to OFF, it lights up brightly.
In other words, when the household power supply is connected, the earthquake safety light 1 turns on the light for projection 11 brightly when an earthquake is detected, regardless of the surrounding brightness.
When the light OFF switch 16a in FIG. 1 is operated, the light is turned off even during a predetermined period.

  Thus, the control unit 20 at the time of the occurrence of the earthquake (and when the household power supply is connected) turns on the light for projection 11 on the condition that the seismic signal is received from the seismic sensor 25 that has detected the shaking. Brighter lighting control.

The predetermined time (for example, 20 minutes) described above is set as a sufficient time for an earthquake to occur at night and for the user to prepare for evacuation by relying on the light of the earthquake safety light 1.
Furthermore, in the embodiment of the present invention, for example, a storage battery (32) capable of supplying power for 6 hours or more in a fully charged state is used, and the light for projection 11 at the time of earthquake is, for example, 20 minutes at maximum (bright) Even if it is turned on, even if a power failure or the like further occurs after the occurrence of an earthquake, the earthquake safety light 1 can be made to function sufficiently as an emergency light or an alarm sound device.

In addition, when the control unit 20 receives the seismic signal, the timer starts measuring 20 minutes.
When the timer measures 20 minutes, the control unit 20 controls the light projection light 11 to be turned off or dimmed in accordance with the setting state of the night light mode.

(When power failure occurs)
When a power failure occurs when the household power supply is connected, the floodlight 11 of the seismic safety light 1 lights up more brightly than when dimmed if the nightlight mode is set to ON, and the nightlight mode is turned off. Lights up brightly if set.
That is, when the earthquake safety light 1 is connected to a household power supply, the light for projection 11 is lit brightly when a power failure is detected regardless of the surrounding brightness.
At this time, the light for projection 11 continues to be lit until the light OFF switch 16a is operated or the power supply from the storage battery 32 is interrupted.

When the power failure occurs (and when the household power supply is connected), the control unit 20 receives the power failure detection signal from the power failure detection line 33 and controls the lighting of the projection light 11 brightly.
On the other hand, the storage battery 32 starts discharging when a power failure occurs, and starts supplying power to a load such as the control unit 20.

(When power is restored)
After recovery from a power failure (after reconnecting the household power supply), the light for projection 11 of the seismic safety light 1 is turned off.
The night light mode lamp 13 is turned on or off depending on the setting state of the night light mode.
On the other hand, charging of the storage battery 32 is started by supplying power from the household power source.

  Therefore, when the power failure is restored, the control unit 20 controls to turn off the light for projection 11 and controls to turn on the night light mode lamp 13 according to the setting state of the night light mode.

As described above, each function / operation of the earthquake safety light 1 and the control of the control unit 20 when the earthquake safety light 1 is attached to the household power outlet 5 have been described. Even in this state, the siren can be sounded by manually sliding the siren switch 17.
That is, when the siren switch 17 at the upper center of the front of the earthquake safety light 1 is slid to the right, the circuit switch SW2 (17) is turned on and the electronic buzzer 24 (siren) starts ringing.
When the siren switch 17 is slid to the left, the circuit switch SW2 (16) is turned off and the electronic buzzer 24 (siren) stops ringing.

  Therefore, if the user who owns the earthquake safety light 1 moves to the place where the earthquake safety light 1 is installed in the event of an earthquake, or if the earthquake safety light 1 is removed and carried, the user may be injured by the collapse of furniture or houses. Even if it is difficult to move, the siren switch 17 can be turned on to inform the surroundings with a siren sound, and prompt search or rescue activities can be promoted.

  As described above, the earthquake safety light of the present invention reduces the troublesome setting operation at the time of installation to a household power source (outlet) caused by the seismic function of the conventional earthquake safety light, and can be used as a household power source. When not connected, the seismic function was disabled, so operability was greatly improved.

In daily life, whether or not to use the nightlight function at night can be arbitrarily set.
In addition, it can be used as a portable light (flashlight) because of its compact shape when carried.
Furthermore, in the event of an earthquake or power outage, it becomes an emergency light and can be evacuated quickly.

In addition, since the siren sounding function of the seismic safety light is manually operated, if there is an earthquake or power outage when no user is present, the siren will not sound, so there will be no problem of false alarms or noise.
On the other hand, if an earthquake or power outage occurs at home, and the user is injured or alive, he / she wants to notify his / her location to the surrounding area by a loud siren sound. It is very useful because it can be used.
Furthermore, the siren function of the earthquake safety light 1 of the present invention can be used as an emergency notification device for crime prevention.

In addition, this invention can be suitably changed in the range which does not deviate from this invention.
For example, the projection light 11 is turned on at the time of an earthquake or a power failure regardless of the setting state of the night light mode. However, the present invention is not limited to this. Thus, the lighting light 11 may be controlled to be turned on.

  Further, for example, the siren function can be output (soundable) only when the siren switch 17 is manually operated. However, the siren function is not limited to this. For example, when the level of seismic intensity is large (for example, seismic intensity 7), In addition to the lighting of the light 11, the siren may be sounded for a predetermined time.

  The present invention can be used as an evacuation device at the time of an earthquake disaster in any building other than a house. It can also be used as an emergency call device for crime prevention.

The external appearance front view of the earthquake safety light which shows embodiment of this invention. The schematic circuit block diagram of the earthquake safety light of FIG. FIG. 2 is a diagram showing an installation state of the earthquake safety light of FIG.

Explanation of symbols

1 Seismic safety light 10 Seismic safety light circuit configuration 11 Emitting light source (lighting light)
12 light sensor 13 (for night light mode light) indicator light 14 siren sound hole 16a light OFF switch 16b light ON switch 17 siren switch 18 front cover 20 control unit 24 buzzer 25 seismic sensor 30 power supply unit 31 power supply circuit 32 storage battery 33 power failure Detection line (power failure detection unit)
40 Diode 5 Household power outlet (AC100V)
9 Retractable power plug

Claims (3)

At least a power supply circuit that is connected to a household power supply and converts the household power supply into a predetermined power supply to supply power, and a storage battery that receives power from the power supply circuit and is charged to supply power; and a seismic sensor for sensing a shake, and light projecting light emitting source for projecting around, control of lighting by supplying power from the power supply unit to the light-projecting light emitting source by the detection signal of the seismic sensor In an earthquake safety light having a control unit that performs
The said control part performs the control which makes the detection signal of the said seismic sensor invalid, and does not light the said light emission light source for the projection for the initial predetermined period connected to a household power supply. At least a power supply circuit that is connected to a household power supply and converts the household power supply into a predetermined power supply to supply power, and a storage battery that receives power from the power supply circuit and is charged to supply power; and a seismic sensor for sensing a shake, and light projecting light emitting source for projecting around, control of lighting by supplying power from the power supply unit to the light-projecting light emitting source by the detection signal of the seismic sensor In an earthquake safety light having a control unit that performs
Wherein, the original predetermined period connected to the household power performs control to invalidate the detection signals of the seismic sensor, sets the signal state immediately after the predetermined period ends in a state where no sense shaking An earthquake safety light characterized by At least a power supply circuit that is connected to a household power supply and converts the household power supply into a predetermined power supply to supply power, and a storage battery that receives power from the power supply circuit and is charged to supply power; and a seismic sensor for sensing a shake, control the light projecting light emitting source for projecting around and lights to supply power from the power supply unit to the light-emitting source for the projection light by the detection signal of the seismic sensor In an earthquake safety light having a control unit that performs
The control part performs control which makes the detection signal of the seismic sensor invalid and does not turn on the light emitting source for projection during a period when it is not connected to a household power source.

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