WO2014192324A1 - Charger for mobile phone - Google Patents

Charger for mobile phone Download PDF

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Publication number
WO2014192324A1
WO2014192324A1 PCT/JP2014/051069 JP2014051069W WO2014192324A1 WO 2014192324 A1 WO2014192324 A1 WO 2014192324A1 JP 2014051069 W JP2014051069 W JP 2014051069W WO 2014192324 A1 WO2014192324 A1 WO 2014192324A1
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WO
WIPO (PCT)
Prior art keywords
storage battery
power
circuit
rectifier
charger
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Application number
PCT/JP2014/051069
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French (fr)
Japanese (ja)
Inventor
光典 歌田
昌弘 大橋
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株式会社西日本エイテック
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Publication of WO2014192324A1 publication Critical patent/WO2014192324A1/en

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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J9/00Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting
    • H02J9/04Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source
    • H02J9/06Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems
    • H02J9/062Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems for AC powered loads
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/34Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
    • H02J7/342The other DC source being a battery actively interacting with the first one, i.e. battery to battery charging

Definitions

  • the present invention relates to a mobile phone charging device that is installed at an evacuation site in the event of a disaster and can charge a mobile phone even in the event of a power failure.
  • a power plug inserted into a commercial AC power outlet provided in an evacuation site and a commercial AC power supplied from the power plug are set to a predetermined DC voltage.
  • a power supply device for a mobile phone comprising: a plurality of external connection lines for taking out the output to the outside; and a male connector provided at the tip of each of the plurality of external connection lines and inserted into a signal power supply connector of the mobile phone Is disclosed.
  • Patent Document 2 a casing that can be installed outdoors and a solar cell panel that receives sunlight and generates DC power are provided separately.
  • a battery for storing the DC power of the panel via the charge control means and an inverter for converting the DC power of the battery into AC power are provided, and a plurality of different types of mobile phones are connected to the mobile phone charger connected to the inverter.
  • An independent charging power source is disclosed in which a telephone connection connector is led outside the casing.
  • Patent Document 1 or Patent Document 2 uses a commercial AC power source, a wind power generator, or a solar panel as a power source, a power failure occurs due to a disaster such as an earthquake, and the mobile phone is turned off at night. There was a problem that it could not be used as a charging facility.
  • the present invention was devised in view of these problems, and a mobile phone charging device that can charge a mobile phone even during a power outage, no wind, at night in a public evacuation site at the time of disaster, and is easily noticed by the refugee even in the dark.
  • the issue is to provide.
  • the mobile phone charging device 1 includes a housing 3 installed in a park or building as an evacuation site and used as a facility tool, a power cord 6 having a plug connected to a commercial AC power source, A rectifier 7 provided in the housing 3 for converting commercial AC power from the commercial AC power source into DC power, a power failure detection unit 8 for detecting power reception or power failure of the commercial AC power source, and the housing 3
  • a storage battery 2 which is installed inside and is connected to a circuit with the rectifier 7 when receiving a commercial AC power supply and charged by the commercial AC power supply, and which is disconnected from the circuit with the rectifier 7 in the event of a power failure;
  • a lighting fixture 5 which is disposed on the outer wall surface and is turned off by turning off the circuit with the storage battery 2 when receiving a commercial AC power supply, and is turned on by a discharge from the storage battery 2 by being connected to the circuit with the storage battery 2 at the time of a power failure.
  • the circuit is arranged on the wall surface, connected to the circuit with the rectifier 7 when receiving a commercial AC power source, and connected to the circuit with the storage battery 2 in the event of a power outage by energizing the commercial AC power source through the rectifier 7.
  • the battery 4 that charges the battery of the mobile phone 20 during power reception and power outage due to discharge from the storage battery 2, and the circuit between the rectifier 7 and the battery 2 when power reception is detected by the power reception detection unit 8.
  • the circuit between the lighting fixture 5 and the storage battery 2 is cut off, or when the power failure detection of the power failure detection unit 8 is detected, the circuit between the rectifier 7 and the storage battery 2 is cut off and the lighting fixture 5 and the
  • the first switching means 9 for connecting the circuit with the storage battery 2 and the circuit for the charger 4 and the rectifier 7 are connected when the power reception detection of the power failure detection unit 8 is detected, and the charger 4 and the storage battery 2 are connected.
  • the mobile phone charging device 1 according to claim 2 is characterized in that, in claim 1, the storage battery 2 is a used storage battery 2.
  • the mobile phone charging apparatus 1 connects the storage battery 2 side terminal to the rectifier 7 side terminal or the charger 4.
  • the form which consists of the 1st changeover switch 11 switched by the said lighting fixture 5 side terminal, or the 1st on-off switch 13 which turns on and off the connection between the said storage battery 2 side terminal and the said rectifier 7 side terminal, and the said storage battery 2 side terminal and the said The second on / off switch 14 is used to turn on / off the connection between the lighting equipment side terminals, and the second switching means 10 connects the charger 4 side terminal to the rectifier 7 side terminal or the storage battery 2. It is the form of the 2nd changeover switch 12 switched by a side terminal.
  • the mobile phone charging device 1 according to claim 4 is the mobile phone charging device 1 according to any one of claims 1 to 3, wherein the casing 3 is a public place such as a park, a hospital waiting room, an accommodation facility, a large retail store, or a school. It is a bench or sofa, or a counter in an accommodation or hospital.
  • the casing 3 is a public place such as a park, a hospital waiting room, an accommodation facility, a large retail store, or a school. It is a bench or sofa, or a counter in an accommodation or hospital.
  • the mobile phone charging device 1 can charge the mobile phone 20 at the time of receiving power, at the time of disaster, power outage, no wind, and at night, and a plurality of chargers 4 can be installed. Thus, it is possible to charge the plurality of mobile phones 20 even during a power failure, no wind, or at night.
  • the mobile phone charging device 1 according to claim 2 has the same effect as that of claim 1, and uses a storage battery that is no longer suitable for use as a storage battery 2 installed in the mobile phone charging device 1 due to deterioration. Since it is used for a new application as a power source of the mobile phone charging device 1 according to the present invention, there is an effect that the used storage battery 2 that is normally discarded is reused. There is an effect that the installation cost is reduced compared to the installation.
  • the mobile phone charging device 1 according to claim 3 has the same effect as that of claim 1 or 2.
  • the mobile phone charging device 1 according to claim 4 has the same effects as any one of claims 1 to 3, and is used daily as a bench or sofa in a park, a waiting room of a hospital, an accommodation facility, a commercial facility, or a school. Or, since it is used as an accommodation facility or a hospital counter, a space as a charging facility for the mobile phone 20 is not ensured, and an effect of effective use of the space is obtained.
  • the mobile phone 20 can be charged even when receiving power, some evacuees remember where the mobile phone 20 can be charged by using the power, and the evacuees settle down and charge the mobile phone 20. The effect of being able to do.
  • FIG. 1 is a schematic diagram of a mobile phone charging device according to the present invention using a housing as a bench. It is explanatory drawing of the circuit of a mobile telephone charging device, Comprising: (a) is the time of receiving commercial alternating current power, (b) is explanatory drawing which shows the time of a power failure of commercial alternating current power. It is explanatory drawing of the circuit of a mobile telephone charging device, Comprising: (a) is the time of receiving commercial alternating current power, (b) is explanatory drawing which shows the time of a power failure of commercial alternating current power.
  • the mobile phone charging device 1 of the present invention is a public place such as a park, a hospital waiting room, an accommodation facility, a large retail store or a school, which serves as an evacuation site in the event of a disaster. Installed inside the counter.
  • the mobile phone charging device 1 of the present invention includes a housing 3 installed in a park or building as an evacuation site and used as a facility tool, a power cord 6 having a plug connected to a commercial AC power source, and the housing 3, a rectifier 7 that converts commercial AC power from the commercial AC power source into DC power, a power failure detection unit 8 that detects power reception or power failure of the commercial AC power source, A storage battery 2 that is connected to a circuit with the rectifier 7 at the time of receiving a commercial AC power supply and charged by the commercial AC power supply, and is disconnected from the circuit with the rectifier 7 at the time of a power failure;
  • the lighting fixture 5 that is disposed and shuts off the circuit with the storage battery 2 when receiving a commercial alternating-current power supply, is connected to the circuit with the storage battery 2 at the time of a power failure, and is turned on by discharge from the storage battery 2;
  • the outer wall surface of the housing 3 The circuit is connected to the rectifier 7 when the commercial AC power is received, and the circuit is connected to the storage
  • the charger 4 that charges the battery of the mobile phone 20 during power reception and power outage due to discharge from the battery, and when the power reception detection of the power reception detection unit 8 is detected, the circuit of the rectifier 7 and the storage battery 2 is connected and The circuit between the luminaire 5 and the storage battery 2 is cut off, or the circuit between the rectifier 7 and the storage battery 2 is cut off and the luminaire 5 and the storage battery 2 are cut off when the power failure detection unit 8 detects a power failure.
  • the first switching means 9 for connecting the circuit and the power receiving detection of the power failure detection unit 8 are connected to the circuit of the charger 4 and the rectifier 7 and between the charger 4 and the storage battery 2 Shut off the circuit or detect the power failure When the 8 power failure detection and a second switching means 10 for connecting the circuit of said blocking circuit the charger 4 and the rectifier 7 and with the charger 4 and the battery 2.
  • the power cord 6 extends from the inside of the casing 3 such as a bench or a counter to the outside, and the rectifier 7, the storage battery 2, the power failure detection unit 8, the first switching means 9, and the second switching means 10 are included in the casing 3.
  • the lighting fixture 5 and the charger 4 are disposed on the outer wall of the housing 3.
  • One end of the power cord 6 is connected by inserting a plug into an outlet that is a commercial AC power source installed in a building or the like, and the other end is connected to a rectifier 7 in the housing 3.
  • a commercial AC power source installed in a building or the like
  • commercial AC power can be applied to the rectifier 7 provided in the housing 3.
  • the rectifier 7 is a power converter that converts commercial AC power into DC power.
  • the rectifier 7, the storage battery 2 and the charger 4 are connected to each other, and the commercial AC power is interrupted.
  • the circuit of the rectifier 7, the storage battery 2 and the charger 4 is cut off.
  • the storage battery 2 is installed in the housing 3, and either a new storage battery 2 or a used storage battery 2 may be used. When the used storage battery 2 is used, the installation cost and the like can be reduced. it can.
  • the storage battery 2 is charged by, for example, floating charging from commercial AC power through the rectifier 7 when receiving power, and is discharged at the time of a power failure due to a disaster or the like, and becomes a power source for the mobile phone 20 or the lighting fixture 5.
  • the charger 4 is an instrument for charging the battery of the mobile phone 20 installed on the outer surface of the housing 3 such as a bench, a sofa, or a counter, and when receiving power, by energizing the commercial AC power through the rectifier 7, At the time of a power outage such as a disaster, the mobile phone 20 can be charged by the discharge from the storage battery 2 regardless of whether it is a power outage or during a disaster, day or night. Further, for example, 10 to 80 chargers 4 can be installed depending on the size of the housing 3 such as a bench, and it is easy to cope with the influx of those who want to charge the mobile phone 20. .
  • the lighting device 5 is installed on the outer surface of the housing 3 such as a bench, a sofa, or a counter, and does not light up when receiving power, but lights up due to discharge from the storage battery 2 during a power failure such as a disaster, and at the time of power failure and at night Even if it exists, the presence of the housing 3 such as a bench can be easily seen, and the surrounding darkness is brightened.
  • the light source of the luminaire 5 is not limited to the type of the light source as long as it is turned on by the discharge of the storage battery 2. For example, there are a light emitting diode, an organic EL, a fluorescent lamp, an incandescent lamp, and the like.
  • the power failure detection unit 8 is a means for detecting whether the mobile phone charging device 1 is receiving commercial AC power or whether the commercial AC power is a power failure. This is transmitted to the second switching means 10 by a control device or the like.
  • the first switching means 9 is connected between the rectifier 7 and the storage battery 2 and connected between the storage battery 2 and the lighting fixture 5 when receiving power from the commercial AC power source to the rectifier 7 in the mobile phone charger 1.
  • the first switch 11 shown in FIG. 2 or the combination of the first on / off switch 13 and the second on / off switch 14 shown in FIG. 3 may be used.
  • the second switching means 10 is connected to the rectifier 7 and the charger 4 and cuts off between the rectifier 7 and the storage battery 2 when receiving power from the commercial AC power source to the rectifier 7 in the mobile phone charger 1. And a circuit in which the storage battery 2 and the charger 4 are connected and the rectifier 7 and the charger 4 are disconnected during a power failure when the rectifier 7 is not energized from the commercial AC power source.
  • the second changeover switch 12 as shown in FIGS.
  • the first switching means 9 When power reception is detected by the power failure detection unit 8, as shown in FIG. 2 (a) or FIG. 3 (a), in the first switching means 9, the first switching with one end connected to the storage battery 2 side terminal.
  • the connection destination of the other end of the switch 11 is switched from the charger 4 and lighting fixture 5 side terminal side to the rectifier 7 side terminal side, or the first on / off switch 13 is turned on to connect the rectifier 7 and the storage battery 2.
  • the state between the rectifier 7 and the storage battery 2 can be energized.
  • the second switching means 10 the second changeover switch 12 is connected between the rectifier 7 and the charger 4 so that the rectifier 7 and the charger 4 can be energized.
  • the charger 4 can be energized from the storage battery 2 by switching the second switch 12 to connect the charger 4 and the storage battery 2. .
  • the charger 4 can charge the mobile phone 20 by discharging from the storage battery 2.
  • the charger 4 can charge the mobile phone 20 even in the event of a power failure due to a disaster or the like, and the charger 4 can maintain the chargeable state of the mobile phone 20 at all times for 24 hours, both during power reception and during a power failure.
  • the lighting device 5 can be energized between the storage battery 2 and the lighting device 5, or the power failure.
  • the storage battery 2 and the luminaire 5 are not energized.
  • the power failure detection unit 8 When power reception is detected by the power failure detection unit 8, for example, by switching the circuit between the storage battery 2 and the luminaire 5 to the cutoff state as shown in FIG.
  • the circuit between the lighting fixture 5 and the storage battery 2 as a power source is cut off so that the light source of the lighting fixture 5 is not turned on.
  • the surroundings of the housing 3 such as a bench, a sofa, or a counter are brightly lit by an outside light, a room light, etc., so that the lighting fixture 5 installed in the housing 3 is turned on. It is not necessary.
  • the first changeover switch 11 switches the circuit between the storage battery 2 and the lighting fixture 5 to the energized state, or FIG.
  • the second on / off switch 14 By turning on the second on / off switch 14 as shown in (b), the circuit between the luminaire 5 and the storage battery 2 is connected, and the light source of the luminaire 5 is turned on.
  • the surroundings of the housing 3 such as the bench can be brightened, and the presence of the charger 4 of the mobile phone 20 can be easily noticed. Can ease the fear of evacuees coming from the dark.
  • a plurality of the lighting fixtures 5 can be installed.
  • the lighting fixture 5 can be installed to brighten the periphery of the charger 4 or to brighten the vicinity of the feet such as a bench.

Abstract

A charger for a mobile phone comprises: a housing used as a facility tool in an evacuation area; a power source cord; a rectifier; a power distribution state detector; a storage battery; an illumination tool; a charger; a first switching means for connecting a circuit between the rectifier and the storage battery and breaking a circuit between the illumination tool and the storage battery when the power distribution state detector detects the distribution of power or breaking the circuit between the rectifier and the storage battery and connecting the circuit between the illumination tool and the storage battery when the power distribution state detector detects a power failure; and a second switching means for connecting a circuit between the charger and the rectifier and breaking a circuit between the charger and the storage battery when the power distribution state detector detects the distribution of power, or breaking the circuit between the charger and the rectifier and connecting the circuit between the charger and the storage battery when the power distribution state detector detects a power failure.

Description

携帯電話充電装置Mobile phone charger
 本発明は、災害発生時の避難場所に設置され、停電時においても携帯電話への充電ができる携帯電話充電装置に関するものである。 The present invention relates to a mobile phone charging device that is installed at an evacuation site in the event of a disaster and can charge a mobile phone even in the event of a power failure.
 避難場所における携帯電話への充電装置としては、例えば特許文献1に、避難場所に設けた商用交流電源のコンセントに差し込まれる電源プラグと、上記電源プラグより供給される商用交流電源を所定の直流電圧に変換するAC/DC回路及びこの直流電圧を携帯電話に必要な所定の直流電圧に変換するDC/DC回路を含む電源変換装置と、上記電源変換装置のDC/DC回路の同一又は異なる電圧の出力を外部に取り出す複数の外部接続線と、それら複数の外部接続線の各々の先端部に設けられ、携帯電話の信号電源兼用コネクタに差し込まれる雄型コネクタと、を具備する携帯電話の電源装置が開示されている。 As a charging device for a mobile phone in an evacuation site, for example, in Patent Document 1, a power plug inserted into a commercial AC power outlet provided in an evacuation site and a commercial AC power supplied from the power plug are set to a predetermined DC voltage. AC / DC circuit for converting to DC and DC / DC circuit for converting this DC voltage to a predetermined DC voltage required for a mobile phone, and the DC / DC circuit of the power converter having the same or different voltage A power supply device for a mobile phone, comprising: a plurality of external connection lines for taking out the output to the outside; and a male connector provided at the tip of each of the plurality of external connection lines and inserted into a signal power supply connector of the mobile phone Is disclosed.
 また、特許文献2には、戸外に設置可能な筐体と、太陽光を受光して直流電力を発生する太陽電池パネルとが別体に設けられ、前記筐体の内部には、前記太陽光パネルの直流電力を充電制御手段を介して蓄電するバッテリーと、該バッテリーの直流電力を交流電力に変換するインバータとが設けられ、該インバータに接続した携帯電話用充電器から異種タイプの複数の携帯電話用接続コネクタが前記筐体の外部に導かれてなる充電用独立電源が開示されている。 In Patent Document 2, a casing that can be installed outdoors and a solar cell panel that receives sunlight and generates DC power are provided separately. A battery for storing the DC power of the panel via the charge control means and an inverter for converting the DC power of the battery into AC power are provided, and a plurality of different types of mobile phones are connected to the mobile phone charger connected to the inverter. An independent charging power source is disclosed in which a telephone connection connector is led outside the casing.
特開2004-364347号公報JP 2004-364347 A 実登第3139032号公報JITTO No.3139032
 しかし、特許文献1又は特許文献2に記載の技術は、商用交流電源、風力発電機やソーラーパネルを電源としているので、地震などの災害で停電になり、無風状態になり、夜間においては携帯電話の充電設備として使用できないという問題があった。 However, since the technology described in Patent Document 1 or Patent Document 2 uses a commercial AC power source, a wind power generator, or a solar panel as a power source, a power failure occurs due to a disaster such as an earthquake, and the mobile phone is turned off at night. There was a problem that it could not be used as a charging facility.
 また、災害時は停電状態であることが多いので、暗闇の中では携帯電話の充電設備に避難者が気づきにくいので利用されにくく、多くの避難者が公園等の公共の避難場所に集まってごったがえすことから避難者が暗闇の中で携帯電話の充電設備に衝突して打撲や擦り傷等の傷害が発生しやすいという問題があった。 Also, because there are many power outages at the time of disasters, it is difficult to use evacuees in the dark because it is difficult for evacuees to notice mobile phone charging facilities, and many evacuees gather at public evacuation sites such as parks. As a result, there has been a problem that evacuees collide with the charging equipment of a mobile phone in the dark and easily cause injuries such as bruises and scratches.
 本発明はこうした問題に鑑み創案されたもので、災害時の公共の避難場所において、停電、無風、夜間においても携帯電話に充電でき、暗闇においても避難者に存在に気づきやすい携帯電話充電装置を提供することを課題とする。 The present invention was devised in view of these problems, and a mobile phone charging device that can charge a mobile phone even during a power outage, no wind, at night in a public evacuation site at the time of disaster, and is easily noticed by the refugee even in the dark. The issue is to provide.
 請求項1に記載の携帯電話充電装置1は、避難場所となる公園や建物内に設置され施設用具として使用される筐体3と、商用交流電源に接続されるプラグを有する電源コード6と、前記筐体3内に設けられ、該商用交流電源からの商用交流電力を直流電力に変換させる整流器7と、前記商用交流電源の受電又は停電を検出する受停電検出部8と、前記筐体3内に内設され、商用交流電源の受電時に前記整流器7との回路を接続されて商用交流電源により充電され、停電時には前記整流器7との回路を遮断される蓄電池2と、前記筐体3の外壁面に配設され、商用交流電源の受電時に前記蓄電池2との回路を遮断されて消灯し、停電時に前記蓄電池2との回路を接続されて前記蓄電池2からの放電により点灯する照明器具5と、前記筐体3の外壁面に配設され、商用交流電源の受電時に前記整流器7との回路を接続されて商用交流電源から前記整流器7を介しての通電により、停電時は前記蓄電池2との回路を接続されて前記蓄電池2からの放電により、受電時も停電時も携帯電話20の電池を充電させる充電器4と、前記受停電検出部8の受電検出のときは前記整流器7と前記蓄電池2との回路を接続しかつ前記照明器具5と前記蓄電池2との回路を遮断し、又は前記受停電検出部8の停電検出のときは前記整流器7と前記蓄電池2との回路を遮断しかつ前記照明器具5と前記蓄電池2との回路を接続する第一切替手段9と、前記受停電検出部8の受電検出のときは前記充電器4と前記整流器7との回路を接続しかつ前記充電器4と前記蓄電池2との回路を遮断し、又は前記受停電検出部8の停電検出のときは前記充電器4と前記整流器7との回路を遮断しかつ前記充電器4と前記蓄電池2との回路を接続する第二切替手段10と、を備えることを特徴とする。 The mobile phone charging device 1 according to claim 1 includes a housing 3 installed in a park or building as an evacuation site and used as a facility tool, a power cord 6 having a plug connected to a commercial AC power source, A rectifier 7 provided in the housing 3 for converting commercial AC power from the commercial AC power source into DC power, a power failure detection unit 8 for detecting power reception or power failure of the commercial AC power source, and the housing 3 A storage battery 2 which is installed inside and is connected to a circuit with the rectifier 7 when receiving a commercial AC power supply and charged by the commercial AC power supply, and which is disconnected from the circuit with the rectifier 7 in the event of a power failure; A lighting fixture 5 which is disposed on the outer wall surface and is turned off by turning off the circuit with the storage battery 2 when receiving a commercial AC power supply, and is turned on by a discharge from the storage battery 2 by being connected to the circuit with the storage battery 2 at the time of a power failure. And the housing 3 The circuit is arranged on the wall surface, connected to the circuit with the rectifier 7 when receiving a commercial AC power source, and connected to the circuit with the storage battery 2 in the event of a power outage by energizing the commercial AC power source through the rectifier 7. The battery 4 that charges the battery of the mobile phone 20 during power reception and power outage due to discharge from the storage battery 2, and the circuit between the rectifier 7 and the battery 2 when power reception is detected by the power reception detection unit 8. And when the circuit between the lighting fixture 5 and the storage battery 2 is cut off, or when the power failure detection of the power failure detection unit 8 is detected, the circuit between the rectifier 7 and the storage battery 2 is cut off and the lighting fixture 5 and the The first switching means 9 for connecting the circuit with the storage battery 2 and the circuit for the charger 4 and the rectifier 7 are connected when the power reception detection of the power failure detection unit 8 is detected, and the charger 4 and the storage battery 2 are connected. Or the circuit And a second switching means for shutting off a circuit between the charger and the rectifier and connecting a circuit between the charger and the storage battery when a power failure is detected by the detector. And
 請求項2に記載の携帯電話充電装置1は、請求項1において、前記蓄電池2が中古蓄電池2であることを特徴とする。 The mobile phone charging device 1 according to claim 2 is characterized in that, in claim 1, the storage battery 2 is a used storage battery 2.
 請求項3に記載の携帯電話充電装置1は、請求項1又は2において、第一切替手段9が、前記蓄電池2側端子との接続先を、前記整流器7側端子か、前記充電器4及び前記照明器具5側端子かで切り替える第一切替スイッチ11からなる形態、あるいは前記蓄電池2側端子と前記整流器7側端子間の接続をオンオフさせる第一オンオフスイッチ13、及び前記蓄電池2側端子と前記照明機器側端子間の接続をオンオフさせる第二オンオフスイッチ14からなる形態であり、第二切替手段10が前記充電器4側端子との接続先を、前記整流器7側端子か、あるいは前記蓄電池2側端子かで切り替える第二切替スイッチ12の形態であることを特徴とする。 According to a third aspect of the present invention, there is provided the mobile phone charging apparatus 1 according to the first or second aspect, wherein the first switching unit 9 connects the storage battery 2 side terminal to the rectifier 7 side terminal or the charger 4. The form which consists of the 1st changeover switch 11 switched by the said lighting fixture 5 side terminal, or the 1st on-off switch 13 which turns on and off the connection between the said storage battery 2 side terminal and the said rectifier 7 side terminal, and the said storage battery 2 side terminal and the said The second on / off switch 14 is used to turn on / off the connection between the lighting equipment side terminals, and the second switching means 10 connects the charger 4 side terminal to the rectifier 7 side terminal or the storage battery 2. It is the form of the 2nd changeover switch 12 switched by a side terminal.
 請求項4に記載の携帯電話充電装置1は、請求項1乃至3のいずれかにおいて、前記筐体3が、公共の場所である公園、病院の待合室、宿泊施設、大型小売店舗又は学校内のベンチ又はソファ、あるいは宿泊施設や病院内のカウンターであることを特徴とする。 The mobile phone charging device 1 according to claim 4 is the mobile phone charging device 1 according to any one of claims 1 to 3, wherein the casing 3 is a public place such as a park, a hospital waiting room, an accommodation facility, a large retail store, or a school. It is a bench or sofa, or a counter in an accommodation or hospital.
 請求項1に記載の携帯電話充電装置1は、受電時においても、災害時においても、停電、無風、夜間においても携帯電話20に充電でき、また、充電器4は複数設置できるので、避難時で停電、無風、夜間時においても、複数の携帯電話20に充電できるという効果を奏する。 The mobile phone charging device 1 according to claim 1 can charge the mobile phone 20 at the time of receiving power, at the time of disaster, power outage, no wind, and at night, and a plurality of chargers 4 can be installed. Thus, it is possible to charge the plurality of mobile phones 20 even during a power failure, no wind, or at night.
 また、災害時の夜間の暗闇であっても、照明の点灯によって周囲を明るくさせることができるので、携帯電話の充電器4の存在に気づきやすく、避難者の恐怖を和らげることができるという効果を奏する。 In addition, even in the darkness of the night at the time of a disaster, the surroundings can be brightened by lighting, so that the presence of the mobile phone charger 4 can be easily noticed, and the fear of evacuees can be reduced. Play.
 請求項2に記載の携帯電話充電装置1は、請求項1と同じ効果を奏するとともに、携帯電話充電装置1内に設置する蓄電池2として、劣化によってそれまでの用途に適さなくなった蓄電池を用途を変えて本発明の携帯電話充電装置1の電源としての新しい用途に使用することから、通常廃棄される中古蓄電池2を再利用するという効果を奏し、さらに中古蓄電池2を設置することにより新品蓄電池の設置に比較して設置コストが低減されるという効果を奏する。 The mobile phone charging device 1 according to claim 2 has the same effect as that of claim 1, and uses a storage battery that is no longer suitable for use as a storage battery 2 installed in the mobile phone charging device 1 due to deterioration. Since it is used for a new application as a power source of the mobile phone charging device 1 according to the present invention, there is an effect that the used storage battery 2 that is normally discarded is reused. There is an effect that the installation cost is reduced compared to the installation.
 請求項3に記載の携帯電話充電装置1は、請求項1又は2と同じ効果を奏する。 The mobile phone charging device 1 according to claim 3 has the same effect as that of claim 1 or 2.
 請求項4に記載の携帯電話充電装置1は、請求項1乃至3のいずれかと同じ効果を奏するとともに、日常は公園、病院の待合室、宿泊施設、商業施設又は学校内のベンチやソファとして使用され、又は宿泊施設や病院のカウンターとして使用されていることから、携帯電話20の充電設備としてのスペースを確保することがないので、スペースの有効活用という効果を奏する。 The mobile phone charging device 1 according to claim 4 has the same effects as any one of claims 1 to 3, and is used daily as a bench or sofa in a park, a waiting room of a hospital, an accommodation facility, a commercial facility, or a school. Or, since it is used as an accommodation facility or a hospital counter, a space as a charging facility for the mobile phone 20 is not ensured, and an effect of effective use of the space is obtained.
 そして、受電時にも携帯電話20の充電ができるので、受電時の使用によって避難者の中には携帯電話20の充電できる場所を覚えている者もいて、避難者が落ち着いて携帯電話20の充電をできるという効果を奏する。 Since the mobile phone 20 can be charged even when receiving power, some evacuees remember where the mobile phone 20 can be charged by using the power, and the evacuees settle down and charge the mobile phone 20. The effect of being able to do.
筐体をベンチとした本発明に係る携帯電話充電装置の概要図である。1 is a schematic diagram of a mobile phone charging device according to the present invention using a housing as a bench. 携帯電話充電装置の回路の説明図であって、(a)は商用交流電力の受電時、(b)は商用交流電力の停電時を示す説明図である。It is explanatory drawing of the circuit of a mobile telephone charging device, Comprising: (a) is the time of receiving commercial alternating current power, (b) is explanatory drawing which shows the time of a power failure of commercial alternating current power. 携帯電話充電装置の回路の説明図であって、(a)は商用交流電力の受電時、(b)は商用交流電力の停電時を示す説明図である。It is explanatory drawing of the circuit of a mobile telephone charging device, Comprising: (a) is the time of receiving commercial alternating current power, (b) is explanatory drawing which shows the time of a power failure of commercial alternating current power.
 本願発明の携帯電話充電装置1は、図1に示すように、災害時に避難場所となる、公共の場所である公園、病院の待合室、宿泊施設、大型小売店舗又は学校内に設置されるベンチやカウンターの内部に設置される。 As shown in FIG. 1, the mobile phone charging device 1 of the present invention is a public place such as a park, a hospital waiting room, an accommodation facility, a large retail store or a school, which serves as an evacuation site in the event of a disaster. Installed inside the counter.
 本願発明の携帯電話充電装置1は、避難場所となる公園や建物内に設置され施設用具として使用される筐体3と、商用交流電源に接続されるプラグを有する電源コード6と、前記筐体3内に設けられ、該商用交流電源からの商用交流電力を直流電力に変換させる整流器7と、前記商用交流電源の受電又は停電を検出する受停電検出部8と、前記筐体3内に内設され、商用交流電源の受電時に前記整流器7との回路を接続されて商用交流電源により充電され、停電時には前記整流器7との回路を遮断される蓄電池2と、前記筐体3の外壁面に配設され、商用交流電源の受電時に前記蓄電池2との回路を遮断されて消灯し、停電時に前記蓄電池2との回路を接続されて前記蓄電池2からの放電により点灯する照明器具5と、前記筐体3の外壁面に配設され、商用交流電源の受電時に前記整流器7との回路を接続されて商用交流電源から前記整流器7を介しての通電により、停電時は前記蓄電池2との回路を接続されて前記蓄電池2からの放電により、受電時も停電時も携帯電話20の電池を充電させる充電器4と、前記受停電検出部8の受電検出のときは前記整流器7と前記蓄電池2との回路を接続しかつ前記照明器具5と前記蓄電池2との回路を遮断し、又は前記受停電検出部8の停電検出のときは前記整流器7と前記蓄電池2との回路を遮断しかつ前記照明器具5と前記蓄電池2との回路を接続する第一切替手段9と、前記受停電検出部8の受電検出のときは前記充電器4と前記整流器7との回路を接続しかつ前記充電器4と前記蓄電池2との回路を遮断し、又は前記受停電検出部8の停電検出のときは前記充電器4と前記整流器7との回路を遮断しかつ前記充電器4と前記蓄電池2との回路を接続する第二切替手段10とを備える。 The mobile phone charging device 1 of the present invention includes a housing 3 installed in a park or building as an evacuation site and used as a facility tool, a power cord 6 having a plug connected to a commercial AC power source, and the housing 3, a rectifier 7 that converts commercial AC power from the commercial AC power source into DC power, a power failure detection unit 8 that detects power reception or power failure of the commercial AC power source, A storage battery 2 that is connected to a circuit with the rectifier 7 at the time of receiving a commercial AC power supply and charged by the commercial AC power supply, and is disconnected from the circuit with the rectifier 7 at the time of a power failure; The lighting fixture 5 that is disposed and shuts off the circuit with the storage battery 2 when receiving a commercial alternating-current power supply, is connected to the circuit with the storage battery 2 at the time of a power failure, and is turned on by discharge from the storage battery 2; The outer wall surface of the housing 3 The circuit is connected to the rectifier 7 when the commercial AC power is received, and the circuit is connected to the storage battery 2 in the event of a power outage due to energization from the commercial AC power through the rectifier 7. The charger 4 that charges the battery of the mobile phone 20 during power reception and power outage due to discharge from the battery, and when the power reception detection of the power reception detection unit 8 is detected, the circuit of the rectifier 7 and the storage battery 2 is connected and The circuit between the luminaire 5 and the storage battery 2 is cut off, or the circuit between the rectifier 7 and the storage battery 2 is cut off and the luminaire 5 and the storage battery 2 are cut off when the power failure detection unit 8 detects a power failure. The first switching means 9 for connecting the circuit and the power receiving detection of the power failure detection unit 8 are connected to the circuit of the charger 4 and the rectifier 7 and between the charger 4 and the storage battery 2 Shut off the circuit or detect the power failure When the 8 power failure detection and a second switching means 10 for connecting the circuit of said blocking circuit the charger 4 and the rectifier 7 and with the charger 4 and the battery 2.
 電源コード6はベンチやカウンター等の筐体3内から外部に延出し、筐体3内には整流器7、蓄電池2、受停電検出部8、第一切替手段9、及び第二切替手段10が内設され、照明器具5及び充電器4は筐体3の外壁に配設されている。 The power cord 6 extends from the inside of the casing 3 such as a bench or a counter to the outside, and the rectifier 7, the storage battery 2, the power failure detection unit 8, the first switching means 9, and the second switching means 10 are included in the casing 3. The lighting fixture 5 and the charger 4 are disposed on the outer wall of the housing 3.
 前記電源コード6は、一端は建物等に設置された商用交流電源であるコンセントにプラグを嵌挿させて接続され、他端は筐体3内の整流器7と接続されている。これにより、商用交流電力が前記筐体3内に内設された整流器7に通電可能となる。 One end of the power cord 6 is connected by inserting a plug into an outlet that is a commercial AC power source installed in a building or the like, and the other end is connected to a rectifier 7 in the housing 3. As a result, commercial AC power can be applied to the rectifier 7 provided in the housing 3.
 前記整流器7は、商用交流電力を直流電力に変換する電力変換器であり、商用交流電力の受電時には前記整流器7と、蓄電池2及び充電器4との回路が接続され、商用交流電力の停電時には前記整流器7と、蓄電池2及び充電器4との回路が遮断される。 The rectifier 7 is a power converter that converts commercial AC power into DC power. When the commercial AC power is received, the rectifier 7, the storage battery 2 and the charger 4 are connected to each other, and the commercial AC power is interrupted. The circuit of the rectifier 7, the storage battery 2 and the charger 4 is cut off.
 前記蓄電池2は、筐体3内に内設されており、新品蓄電池2を使用しても中古蓄電池2を使用してもよく、中古蓄電池2を使用した場合は設置コスト等を低減させることができる。蓄電池2は、受電時は商用交流電力から整流器7を介して例えば浮動充電等により充電しており、災害等による停電時には放電して携帯電話20や照明器具5の電源となる。 The storage battery 2 is installed in the housing 3, and either a new storage battery 2 or a used storage battery 2 may be used. When the used storage battery 2 is used, the installation cost and the like can be reduced. it can. The storage battery 2 is charged by, for example, floating charging from commercial AC power through the rectifier 7 when receiving power, and is discharged at the time of a power failure due to a disaster or the like, and becomes a power source for the mobile phone 20 or the lighting fixture 5.
 前記充電器4は、ベンチ、ソファ又はカウンター等の筐体3の外面に設置された、携帯電話20の電池を充電する器具であり、受電時は商用交流電力からの整流器7を介する通電により、災害等の停電時には蓄電池2からの放電により、停電時であっても、受電時や災害時を問わず、昼夜を問わずに携帯電話20に充電させることができる。また、前記充電器4はベンチ等の筐体3の大きさに応じて、例えば10台から80台設置することができ、携帯電話20の充電をさせたい希望者が殺到しても対応できやすい。 The charger 4 is an instrument for charging the battery of the mobile phone 20 installed on the outer surface of the housing 3 such as a bench, a sofa, or a counter, and when receiving power, by energizing the commercial AC power through the rectifier 7, At the time of a power outage such as a disaster, the mobile phone 20 can be charged by the discharge from the storage battery 2 regardless of whether it is a power outage or during a disaster, day or night. Further, for example, 10 to 80 chargers 4 can be installed depending on the size of the housing 3 such as a bench, and it is easy to cope with the influx of those who want to charge the mobile phone 20. .
 前記照明器具5は、ベンチ、ソファ又はカウンター等の筐体3の外面に設置され、受電時は点灯しないが、災害等の停電時には蓄電池2からの放電により点灯して、停電時でかつ夜間であってもベンチ等の筐体3の存在を見えやすくし、かつ周囲の暗闇を明るくする。照明器具5の光源としては、蓄電池2の放電により点灯すれば光源の種類を限定するものでなく、例えば発光ダイオード、有機EL、蛍光灯又は白熱灯等があるがこれらにこだわらない。 The lighting device 5 is installed on the outer surface of the housing 3 such as a bench, a sofa, or a counter, and does not light up when receiving power, but lights up due to discharge from the storage battery 2 during a power failure such as a disaster, and at the time of power failure and at night Even if it exists, the presence of the housing 3 such as a bench can be easily seen, and the surrounding darkness is brightened. The light source of the luminaire 5 is not limited to the type of the light source as long as it is turned on by the discharge of the storage battery 2. For example, there are a light emitting diode, an organic EL, a fluorescent lamp, an incandescent lamp, and the like.
 受停電検出部8は、携帯電話充電装置1が商用交流電力を受電しているか、商用交流電力が停電かを検出する手段であり、受電か停電かの検出結果は第一切替手段9及び第二切替手段10に制御装置等によって伝えられる。 The power failure detection unit 8 is a means for detecting whether the mobile phone charging device 1 is receiving commercial AC power or whether the commercial AC power is a power failure. This is transmitted to the second switching means 10 by a control device or the like.
 第一切替手段9は、商用交流電源から携帯電話充電装置1内の整流器7に通電がされている受電時は、整流器7と蓄電池2間が接続され、かつ蓄電池2と照明器具5間が接続されない回路を形成する手段であって、並びに商用交流電源から整流器7に通電がされない停電時は、整流器7と蓄電池2間が遮断され、かつ蓄電池2と照明器具5間が接続される回路を形成する手段であればよく、例えば図2に示す第一切替スイッチ11からなる形態、又は図3に示す第一オンオフスイッチ13及び第二オンオフスイッチ14の組み合わせからなる形態がある。 The first switching means 9 is connected between the rectifier 7 and the storage battery 2 and connected between the storage battery 2 and the lighting fixture 5 when receiving power from the commercial AC power source to the rectifier 7 in the mobile phone charger 1. A circuit that is not connected to the rectifier 7 from a commercial AC power source, and that forms a circuit in which the rectifier 7 and the storage battery 2 are disconnected and the storage battery 2 and the lighting fixture 5 are connected. For example, the first switch 11 shown in FIG. 2 or the combination of the first on / off switch 13 and the second on / off switch 14 shown in FIG. 3 may be used.
 第二切替手段10は、商用交流電源から携帯電話充電装置1内の整流器7に通電がされている受電時は、整流器7と充電器4とが接続され、かつ整流器7と蓄電池2間が遮断される回路が形成される手段であって、並びに商用交流電源から整流器7に通電がされない停電時は、蓄電池2と充電器4とが接続されかつ整流器7と充電器4間が遮断される回路が形成される手段であればよく、例えば図2や図3に示すような第二切替スイッチ12からなる形態がある。 The second switching means 10 is connected to the rectifier 7 and the charger 4 and cuts off between the rectifier 7 and the storage battery 2 when receiving power from the commercial AC power source to the rectifier 7 in the mobile phone charger 1. And a circuit in which the storage battery 2 and the charger 4 are connected and the rectifier 7 and the charger 4 are disconnected during a power failure when the rectifier 7 is not energized from the commercial AC power source. For example, there is a form including the second changeover switch 12 as shown in FIGS.
 受停電検出部8で受電を検出した場合は、図2(a)又は図3(a)に示すように、第一切替手段9においては、一端を蓄電池2側端子と接続された第一切替スイッチ11の他端の接続先を、充電器4及び照明器具5側端子側から整流器7側端子側に切替えて、又は、第一オンオフスイッチ13をオンさせて整流器7と蓄電池2とを接続状態にして、前記整流器7から前記蓄電池2間を通電可能状態にする。同時に、第二切替手段10においては、第二切替スイッチ12を整流器7と充電器4間を接続状態にすることによって前記整流器7から前記充電器4間を通電可能状態にする。これにより、商用交流電源が通電状態のときは、前記蓄電池2は商用交流電源から充電され、前記充電器4は商用交流電源からの携帯電話20の充電が可能状態となる。 When power reception is detected by the power failure detection unit 8, as shown in FIG. 2 (a) or FIG. 3 (a), in the first switching means 9, the first switching with one end connected to the storage battery 2 side terminal. The connection destination of the other end of the switch 11 is switched from the charger 4 and lighting fixture 5 side terminal side to the rectifier 7 side terminal side, or the first on / off switch 13 is turned on to connect the rectifier 7 and the storage battery 2. Thus, the state between the rectifier 7 and the storage battery 2 can be energized. At the same time, in the second switching means 10, the second changeover switch 12 is connected between the rectifier 7 and the charger 4 so that the rectifier 7 and the charger 4 can be energized. As a result, when the commercial AC power supply is energized, the storage battery 2 is charged from the commercial AC power supply, and the charger 4 is ready to charge the mobile phone 20 from the commercial AC power supply.
 次に、前記受停電検出部8で停電を検出した場合は、図2(b)又は図3(b)に示すように、第一切替手段9においては、一端を蓄電池2側端子と接続された第一切替スイッチ11の他端の接続先を、整流器7側端子から充電器4及び照明器具5側端子に切替えて、又は、第一オンオフスイッチ13をオフさせて、整流器7と蓄電池2間を遮断状態にする、同時に第二切替手段10においては、第二切替スイッチ12を充電器4と蓄電池2間を接続させるように切り替えることによって前記蓄電池2から前記充電器4を通電可能状態にする。これにより、商用交流電源が停電状態のときは、前記蓄電池2からの放電によって前記充電器4は携帯電話20の充電が可能状態となる。これにより、災害等で停電時であっても前記充電器4は携帯電話20の充電が可能となり、前記充電器4は受電時も停電時も24時間常時携帯電話20の充電可能状態が維持される。 Next, when a power failure is detected by the power failure detection unit 8, one end is connected to the storage battery 2 side terminal in the first switching means 9 as shown in FIG. 2 (b) or 3 (b). The connection destination of the other end of the first changeover switch 11 is switched from the rectifier 7 side terminal to the charger 4 and the luminaire 5 side terminal, or the first on / off switch 13 is turned off to connect the rectifier 7 and the storage battery 2. At the same time, in the second switching means 10, the charger 4 can be energized from the storage battery 2 by switching the second switch 12 to connect the charger 4 and the storage battery 2. . Thereby, when the commercial AC power supply is in a power failure state, the charger 4 can charge the mobile phone 20 by discharging from the storage battery 2. As a result, the charger 4 can charge the mobile phone 20 even in the event of a power failure due to a disaster or the like, and the charger 4 can maintain the chargeable state of the mobile phone 20 at all times for 24 hours, both during power reception and during a power failure. The
 また、前記照明器具5は、図2又は図3に示すように、前記受停電検出部8で停電を検出した場合は蓄電池2と照明器具5間は通電可能となるように、又は前記受停電検出部8で受電を検出した場合は蓄電池2と照明器具5間は通電されないように設けられている。 In addition, as shown in FIG. 2 or FIG. 3, when the power failure detection unit 8 detects a power failure, the lighting device 5 can be energized between the storage battery 2 and the lighting device 5, or the power failure. When receiving power is detected by the detection unit 8, the storage battery 2 and the luminaire 5 are not energized.
 前記受停電検出部8で受電を検出した場合は、例えば図2(a)に示すように第一切替スイッチ11を蓄電池2と照明器具5間の回路を遮断状態に切替えることによって、又は、図3(a)に示すように第二オンオフスイッチ14をオフにすることによって、照明器具5と電源である蓄電池2との回路を遮断させて前記照明器具5の光源が点灯しないようにする。これは、停電になっていない受電時は、外灯や室内灯等により、ベンチ、ソファ又はカウンター等の筐体3の周囲が明るいことから、前記筐体3に設置された照明器具5を点灯させる必要がないからである。 When power reception is detected by the power failure detection unit 8, for example, by switching the circuit between the storage battery 2 and the luminaire 5 to the cutoff state as shown in FIG. By turning off the second on / off switch 14 as shown in FIG. 3 (a), the circuit between the lighting fixture 5 and the storage battery 2 as a power source is cut off so that the light source of the lighting fixture 5 is not turned on. This is because when the power is not interrupted, the surroundings of the housing 3 such as a bench, a sofa, or a counter are brightly lit by an outside light, a room light, etc., so that the lighting fixture 5 installed in the housing 3 is turned on. It is not necessary.
 前記受停電検出部8で停電を検出した場合は、例えば図2(b)に示すように第一切替スイッチ11を蓄電池2と照明器具5間の回路を通電状態に切替えることによって、又は図3(b)に示すように第二オンオフスイッチ14をオンにすることによって、照明器具5と蓄電池2間との回路を接続状態にし、前記照明器具5の光源を点灯させる。これにより、停電時の暗闇の中において前記照明器具5の光源が点灯するので、前記ベンチ等の筐体3の周囲を明るくさせることができ、携帯電話20の充電器4の存在に気づきやすくなり、暗闇からくる避難者の恐怖心を和らげることができる。 When the power failure detection unit 8 detects a power failure, for example, as shown in FIG. 2B, the first changeover switch 11 switches the circuit between the storage battery 2 and the lighting fixture 5 to the energized state, or FIG. By turning on the second on / off switch 14 as shown in (b), the circuit between the luminaire 5 and the storage battery 2 is connected, and the light source of the luminaire 5 is turned on. Thereby, since the light source of the lighting fixture 5 is turned on in the dark at the time of a power failure, the surroundings of the housing 3 such as the bench can be brightened, and the presence of the charger 4 of the mobile phone 20 can be easily noticed. Can ease the fear of evacuees coming from the dark.
 前記照明器具5は複数台設置可能であり、例えば、充電器4周辺を明るくさせたり、ベンチ等の足元周辺を明るくさせたりするように設置させることができる。 A plurality of the lighting fixtures 5 can be installed. For example, the lighting fixture 5 can be installed to brighten the periphery of the charger 4 or to brighten the vicinity of the feet such as a bench.
 1   携帯電話充電装置
 2   蓄電池
 3   筐体
 4   充電器
 5   照明器具
 6   電源コード
 7   整流器
 8   受停電検出部
 9   第一切替手段
 10  第二切替手段
 11  第一切替スイッチ
 12  第二切替スイッチ
 13  第一オンオフスイッチ
 14  第二オンオフスイッチ
 20  携帯電話 DESCRIPTION OF SYMBOLS 1 Cellular phone charging device 2 Storage battery 3 Case 4 Charger 5 Lighting fixture 6 Power cord 7 Rectifier 8 Power failure detection part 9 First switching means 10 Second switching means 11 First changeover switch 12 Second changeover switch 13 First on / off Switch 14 Second on / off switch 20 Mobile phone

Claims (4)

  1.  避難場所となる公園や建物内に設置され施設用具として使用される筐体と、
     商用交流電源に接続されるプラグを有する電源コードと、
     前記筐体内に設けられ、該商用交流電源からの商用交流電力を直流電力に変換させる整流器と、
     前記商用交流電源の受電又は停電を検出する受停電検出部と、
     前記筐体内に内設され、商用交流電源の受電時に前記整流器との回路を接続されて商用交流電源により充電され、停電時には前記整流器との回路を遮断される蓄電池と、
     前記筐体の外壁面に配設され、商用交流電源の受電時に前記蓄電池との回路を遮断されて消灯し、停電時に前記蓄電池との回路を接続されて前記蓄電池からの放電により点灯する照明器具と、
     前記筐体の外壁面に配設され、商用交流電源の受電時に前記整流器との回路を接続されて商用交流電源から前記整流器を介しての通電により、停電時は前記蓄電池との回路を接続されて前記蓄電池からの放電により、受電時も停電時も携帯電話の電池を充電させる充電器と、
     前記受停電検出部の受電検出のときは前記整流器と前記蓄電池との回路を接続しかつ前記照明器具と前記蓄電池との回路を遮断し、又は前記受停電検出部の停電検出のときは前記整流器と前記蓄電池との回路を遮断しかつ前記照明器具と前記蓄電池との回路を接続する第一切替手段と、
     前記受停電検出部の受電検出のときは前記充電器と前記整流器との回路を接続しかつ前記充電器と前記蓄電池との回路を遮断し、又は前記受停電検出部の停電検出のときは前記充電器と前記整流器との回路を遮断しかつ前記充電器と前記蓄電池との回路を接続する第二切替手段と、
    を備えることを特徴とする携帯電話充電装置。     A housing used as a facility tool installed in a park or building as an evacuation site;
    A power cord having a plug connected to a commercial AC power source;
    A rectifier provided in the housing for converting commercial AC power from the commercial AC power source into DC power;
    A power failure detection unit for detecting power reception or power failure of the commercial AC power supply;
    A storage battery installed in the housing, connected to a circuit with the rectifier when receiving a commercial AC power supply and charged with a commercial AC power supply, and shutting off the circuit with the rectifier during a power failure;
    A lighting device that is disposed on the outer wall surface of the housing and is turned off by turning off the circuit with the storage battery when receiving a commercial AC power supply, and is turned on by discharge from the storage battery when the circuit with the storage battery is connected at the time of a power failure When,
    Arranged on the outer wall surface of the housing and connected to the circuit with the rectifier at the time of receiving commercial AC power, and connected to the circuit with the storage battery at the time of power failure by energization from the commercial AC power through the rectifier. A charger for charging the battery of the mobile phone during power reception or power outage by discharging from the storage battery,
    When the power reception detection of the power failure detection unit is performed, the circuit between the rectifier and the storage battery is connected and the circuit between the lighting fixture and the storage battery is interrupted, or when the power failure detection of the power failure detection unit is detected, the rectifier And a first switching means for cutting off the circuit between the storage battery and connecting the circuit between the lighting device and the storage battery,
    At the time of power reception detection of the power failure detection unit, the circuit of the charger and the rectifier is connected and the circuit of the charger and the storage battery is cut off, or when the power failure detection of the power failure detection unit is detected A second switching means for interrupting a circuit between the charger and the rectifier and connecting a circuit between the charger and the storage battery;
    A mobile phone charging device comprising:
  2.  前記蓄電池が中古蓄電池であることを特徴とする請求項1に記載の携帯電話充電装置。 The mobile phone charging device according to claim 1, wherein the storage battery is a used storage battery.
  3.  第一切替手段が、前記蓄電池側端子との接続先を、前記整流器側端子か、前記充電器及び前記照明器具側端子かで切り替える第一切替スイッチからなる形態、あるいは前記蓄電池側端子と前記整流器側端子間の接続をオンオフさせる第一オンオフスイッチ、及び前記蓄電池側端子と前記照明機器側端子間の接続をオンオフさせる第二オンオフスイッチからなる形態であり、第二切替手段が前記充電器側端子との接続先を、前記整流器側端子か、あるいは前記蓄電池側端子かで切り替える第二切替スイッチの形態であることを特徴とする請求項1又は2に記載の携帯電話充電装置。 A form in which the first switching means comprises a first changeover switch for switching the connection destination with the storage battery side terminal between the rectifier side terminal, the charger and the lighting fixture side terminal, or the storage battery side terminal and the rectifier A first on / off switch for turning on / off the connection between the side terminals, and a second on / off switch for turning on / off the connection between the storage battery side terminal and the lighting device side terminal, wherein the second switching means is the charger side terminal. 3. The mobile phone charging device according to claim 1, wherein the connection destination is a second changeover switch that switches the connection destination between the rectifier side terminal and the storage battery side terminal. 4.
  4.  前記筐体が、公共の場所である公園、病院の待合室、宿泊施設、大型小売店舗又は学校内のベンチ又はソファ、あるいは宿泊施設や病院内のカウンターであることを特徴とする請求項1乃至3のいずれかに記載の携帯電話充電装置。 The said housing | casing is a park which is a public place, a waiting room of a hospital, an accommodation facility, a large retail store or a bench or a sofa in a school, or a counter in an accommodation facility or a hospital. The mobile phone charging device according to any one of the above.
PCT/JP2014/051069 2013-05-29 2014-01-21 Charger for mobile phone WO2014192324A1 (en)

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