KR101290890B1 - Wireless multi purpose battery charging instrument - Google Patents

Abstract

The present invention relates to a rechargeable AA, AAA, a battery pack, a battery for a mobile phone, a cordless and wireless universal charger for a variety of rechargeable batteries that can be charged regardless of the form and capacity of a variety of charging batteries for wireless control devices.
As portable electronic products such as mobile phones, digital cameras, PMPs, and laptops are used, batteries that can be recharged with their operating power supplies are widely used.
These rechargeable batteries are so diverse in size and shape depending on the type of electronic product used that they are equipped with a separate charger for each product. The redundant purchase of such a charger is not only a user's inconvenience but also a waste of money.
The present invention is to provide a charger capable of charging a variety of batteries in the charger of the rechargeable battery, by allowing the terminal portion in contact with the battery to be charged can be arbitrarily modified according to the type and type of the battery.
The present invention further provides a charging device capable of charging a variety of charging batteries without limitation by a wireless signal having a transmission device for generating a unified transmission signal.
More specifically, the DC power supply unit 1b by a dedicated charger and an external power supply unit 1 composed of a power pickup circuit unit 50 and a DC supply unit 1a for converting an irregular external signal into a battery chargeable voltage are installed at the same time. When the battery to be charged in the battery charging unit 4 is mounted, when the external power supply to the external power supply unit 1 is supplied, the charging current is supplied from the external power supply unit to the battery charging unit, thereby changing the power change unit C and the switch unit. A charging circuit unit configured to be chargeable by the enable signal from the central processing unit 2 by the second switch s / w2 of (5), and to display such an operation state by the display unit 7;
A charging / discharging terminal part which is connected to the output switch part of the charging circuit part and has terminals 10 configured to be freely moved along the terminal guide part 11a,
The terminals of the charging / discharging terminal part are partially exposed, and form a charging battery loading part (V) into which the charging batteries can be loaded, and a fixing device for pressing and fixing the lower part of the loaded battery to the lower side of the charging part. We developed a universal charger for wired and wireless charging of various types of rechargeable batteries, which consists of a battery loading section where 20 is installed.
It is possible to charge a variety of batteries regardless of size and shape capacity at the same time as both wired and wireless, unified the charger that had to be provided for each conventional device. As a result, a single device is discontinued and the battery charger is disposed of together to prevent enormous resource waste and environmental pollution. In addition, the convenience of use has been greatly emphasized as it can be charged with one charger without requiring a separate purchase for each device.

Description

Wired / wireless universal charger for various rechargeable batteries {Wireless multi purpose battery charging instrument}

The present invention relates to a wired and wireless combined use universal charger for a variety of rechargeable batteries.

As portable electronic products such as mobile phones, digital cameras, PMPs, and laptops are used, batteries that can be recharged with their operating power supplies are widely used.

These rechargeable batteries are so diverse in size and shape depending on the type of electronic product used that they are equipped with a separate charger for each product. The redundant purchase of such a charger is not only a user's inconvenience but also a waste of money.

In order to solve this problem, there is provided a universal charger which is capable of moving the terminal of the charger and allowing the battery fixing device to be arbitrarily resized under the charger.

In addition, the wireless charger of the mobile device is divided into a transmitter and a receiver. The wireless charger of such a mobile device is standardized, and charging is performed when a charger equipped with a receiver is placed in a transmitter.

However, mobile phones and other wireless control devices vary in size and size from manufacturer to manufacturer. The user has a separate charger for each of these various types of portable radio controls or mobile phones, and the chargers are used repeatedly in a normal home. Especially, the problem is that they are disposed of after use, and waste of resources as well as serious There is a problem of environmental pollution.

The present invention provides a charger capable of charging a variety of batteries in the charger of the rechargeable battery, by allowing the terminal portion in contact with the battery to be charged to be arbitrarily modified according to the type and type of the battery.

The present invention also provides a charger having a stable fixing device that can be fixed in the bottom of the battery even if the battery is different sizes, there is no shaking of the battery during charging once it is fixed.

The charger of the present invention is capable of charging all types of rechargeable batteries by being compatible with the charging transmitter of other portable devices without installing a separate transmitter for each device to be charged in a wired or wireless manner. Therefore, the user can charge the battery of the portable device without difficulty, such as the location or the voltage used.

The present invention is to provide a charging device capable of charging a variety of charging batteries in particular by a wireless signal having a transmission device for emitting a unified transmission signal.

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The present invention provides an external power supply unit capable of simultaneously supplying power by wire and wireless, a charging circuit unit chargeable by an enable signal from the central processing unit to supply a charging current to the battery charging unit; The charging / discharging terminal part, the charging battery loading part and the battery loading part with the fixing device are configured to enable simultaneous charging of wired and wireless.
The present invention also provides a fixing device for directly fixing the battery to be charged at the bottom of the battery even if the size of the battery is different, so that charging can be performed without shaking once charging is started.

The present invention further seeks to provide a charger capable of simultaneously charging a wired as well as a wireless charger by unifying a charger separately purchased according to a mobile phone or various wireless control devices.

Due to the configuration of the present invention, even if the terminal position of the battery is different depending on the type, the charging operation is performed by exactly contacting the charging terminal with the battery.

In addition, even when the size of the battery is different, it is possible to charge the battery directly from the lower portion to be charged without shaking during the charging operation.

Specifically, as shown in the actual charging state in Figure 9, in addition to the general charging battery AA, AAA type, the general four-sided battery for mobile phones can be directly charged regardless of size and shape.

Due to such various charging operations, it is possible to charge all with one charger without having to provide a separate charger according to the type or type of battery used in a mobile phone or various wireless devices. Therefore, it is possible to charge a unified number without having to have a variety of chargers for each individual or company in the home or business can be a significant contribution to environmental protection and saving resources.

1 is a block diagram of a charging circuit of the present invention;
2 is a perspective view of the charger of the present invention,
3 is a plan view,
4 is a cross-sectional view taken along line CC of the plan view;
5 is a front view as viewed from the bottom,
6 and 7 are AA and BB cross-sectional view,
8 is a block diagram of a power pickup unit of the present invention;
Figure 9 is a picture of the actual state of use mounted in the charger of the present invention for charging the actual charging battery for a mobile phone.

The present invention relates to a charger for a variety of rechargeable batteries, such as lithium polymer, nickel cadmium, nickel hydrogen batteries of various sizes and shapes.

The present invention relates in particular to a charger that enables wired and wireless charging simultaneously with a wireless charging function with an improved invention of the inventor's pre-registered utility model registration No. 20-0452549-0000.

The present invention has a fixed structure of its own so that there is no further movement once the charging and discharging terminal part is freely movable and once the setting for charging is performed.

The present invention is also fixed to the charge battery directly from the bottom, even if the battery of different sizes, this high pressure locking structure to facilitate the use of anyone.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 shows a charging circuit block diagram of the present invention, FIG. 2 is a perspective view of the charger of the present invention, FIG. 3 is a plan view, FIG. 4 is a sectional view taken along line CC of the plan view, and FIG. 5 is in contact with an external power supply. 6 and 7 are sectional views taken along line AA and BB, respectively, and Fig. 8 is a block diagram of the power pickup section of the present invention.

The present invention comprises a DC power supply unit (1a), a power pick-up circuit unit 50 for converting an external signal supplied for charging into a battery chargeable signal, when the battery to be charged in the battery charging unit (4) external power supply unit ( When the external power supply to 1) is supplied to the battery charging unit from the external power supply unit to the battery charging unit by the power switch (C) and the second switch (s / w2) of the switch unit 5 by the central processing unit ( A charging circuit part to be chargeable by the enable signal from 2) and to display such an operation state by the display part 7;

A charging / discharging terminal part which is connected to the output switch part of the charging circuit part and has terminals 10 configured to be freely moved along the terminal guide part 11a,

The terminals of the charging / discharging terminal part are partially exposed, and form a charging battery loading part (V) into which the charging batteries can be loaded, and a fixing device for pressing and fixing the lower part of the loaded battery to the lower side of the charging part. It relates to a secondary battery charging device composed of a battery loading portion is provided (20).

In the present invention, the power pickup circuit unit 50 is installed on the bottom surface side opposite to the charging battery loading unit (V).

In the present invention, the power pick-up circuit unit 50 is a frequency or magnetic field signal by the signal of the transmission unit for supplying a charging signal not shown by the resonance circuit unit, rectifier, signal modulator, output control unit, voltage sensor unit and the signal control unit It mainly charges AA, AAA type rechargeable batteries.

The wireless power receiver secondary coil receives a signal (frequency or magnetic field signal) generated from the wireless power transmitter 100 such as the primary coil of the power supply unit shown in FIG. 5 and converts the signal back into power. The rectifier converts the power signal supplied through the wireless power receiver secondary coil into an appropriate power source (usually a direct current conversion). The signal modulator switches the signal to the signal control unit mainly by a resistance element in the case of a DC power source and a capacitor element in the case of an AC power source. The signal controller performs a comprehensive operation on the voltage signal in the rectifier, the signal from the signal modulator, and the signals on the load side, and sends an on / off signal or a delay signal to the output controller to adjust the overall control.

In the present invention, when the mounted state of the battery to be charged to the battery charging unit (4) is reverse connection to prevent the flow of reverse current by the reverse connection prevention circuit (3) to prevent circuit breakage due to the reverse current flow It was.

The present invention also supplies the charging current supplied from the power pickup section to the battery charging section 4 via the internal power supply section 6 and the converter C. Power supplied by the power pickup unit may not be charged sufficiently with their own voltage. Therefore, the voltage from the power pick-up circuit unit is boosted by the converter C to 4.2V, which is the charging voltage, and supplied.

In the present invention, the switch unit 5 includes a first switch s / w1 and a second switch s / w2 capable of generating control signals for each of the power pickup circuit unit 50 and the battery charging unit. The battery charging unit may frequently charge the battery in reverse due to a user's mistake. However, since the power pick-up circuit unit is in a fixed state, there is no fear of reverse connection. It was made.

In the present invention, as shown in FIG. 1, when the power supply of 0.5 to 12 or 24 V is supplied to the external power supply unit 1 as shown in FIG. 1, a power supply unit for generating a voltage 4.2V required for charging is installed. A switch s / w3 for turning on and off is provided. The internal power supply unit 6 is composed of a Vcc power supply unit and an auxiliary power supply unit for directly supplying power to a power pickup unit installed therein. The internal power supply unit is connected to the power pick-up circuit unit 50 to properly convert the power to the battery mounted on the battery charging unit 4 to supply the charging power.

In addition, the present invention provides a battery reverse connection prevention circuit (3) between the switch unit 5 and the power pick-up circuit unit 50 for the internal power supply to block the flow of reverse current by the reverse connection. If the user loads the battery while loading the battery in reverse, this is to eliminate the damage that may be caused by the power remaining inside the battery. In the present invention, if the operation of the battery reverse connection prevention circuit does not receive the operation signal from the central processing unit, and the power supply of the mounted battery is at least 1V or more remaining, the circuit operates to block the entry of reverse current.

As another feature of the present invention, an uneven portion 2 is formed on an upper side of the terminal body portion 12 supporting the terminal 10 of the charge / discharge terminal portion, and a protrusion portion is provided on the opposite side of the terminals exposed to the front of the body portion. (15), and the projections are configured such that the projections are elastically caught by the fixed gear portion 18 formed in the terminal guide portion.

As another feature of the present invention, the lower side fixing device 20 of the charging battery loading part catches the locking protrusion 22 on the locking gear 21 which is installed to be symmetrical to the left and right side surfaces of the battery loading part V.

The locking projection 22 is connected by the battery pressing portion 25 and the elastic connecting portion 24 installed on the lower side of the charging battery loading portion,

The elastic connection portion is connected to the key holder 27 spanning the guide slit 26 formed on the left and right sides of the charging battery loading portion is configured to be able to arbitrarily adjustable engagement of the locking gear and the locking projection by the pressure and release of the key holder.

Therefore, even if the battery is long or short in size, it is stably loaded with this fixing device, and in particular, once fixed, the fixed state is not released unless the key holder 27 installed between the locking protrusion 22 and the locking gear 21 is released. Keep it going.

1a: DC supply unit 1: external power supply unit, 4: battery charge unit, C: power supply unit, 5: switch unit, s / w2: second switch, 2: central processing unit, 7: display unit, 11a: terminal guide unit 10: terminal, V: charging unit, 20: fixing unit, 50: power pick-up circuit unit (wireless power receiver) 100: wireless power transmitter 101: wireless power receiver secondary coil, 102: rectifier unit, 103: signal modulator. 104: output control unit, 105: signal control unit

Claims (3)

DC power supply unit (1a), and the power pickup circuit unit 50 for converting the external signal supplied for charging to the battery chargeable signal, and when the battery to be charged in the battery charger (4) is placed in the external power supply (1) When the external power is supplied to the battery, the charging current is supplied to the battery charger from the external power supply unit, and the power is changed from the central processing unit 2 by the second switch s / w2 of the power change unit C and the switch unit 5. The charging circuit unit to be chargeable by the enable signal of, and to display such an operation state by the display unit 7,
Charge / discharge terminal unit is connected to the output switch unit of the charging circuit unit, the terminals 10 are provided to move freely along the terminal guide portion (11a),
The terminals of the charging / discharging terminal part are partially exposed, and form a charging battery loading part (V) into which the charging batteries can be loaded, and a fixing device for pressing and fixing the lower part of the loaded battery to the lower side of the charging part. In the wired / wireless universal charger for a variety of rechargeable batteries consisting of a battery loading section is installed (20),
The power pickup circuit unit 50 receives a signal generated from the primary coil of the wireless power transmitter 100 of the charging power supply unit and converts the signal back into a power source secondary coil 101,
Rectifier 102 for converting the power signal supplied through the wireless power receiver secondary coil 101 into a battery chargeable power,
Comprising the voltage signal at the rectifying unit and the signal at the load side of the signal control unit 105 for controlling the overall control by sending an on / off signal or a delay signal to the output control unit 104 Wire and wireless combined use universal charger for a variety of rechargeable batteries, characterized in that.
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