KR20150094974A - The battery device having multi adapter function and multi size battery charge function using battery charger - Google Patents

Abstract

The present invention relates to a battery device which is mounted on a battery charger and provides a multi-adapter function and a multi-size battery charging function for a smart phone. The present invention relates to the battery device capable of charging various sizes of batteries. The present invention provides the battery device which is mounted on the battery charger, provides the multi-adapter function and the multi-size battery charging function for the smart phone, and includes a control module which includes an input contact terminal to receive a voltage and an output contact terminal to output the received voltage in contact with a battery terminal, a top module which is located in a receiving groove part and supports the control module, a size control module, and a receiving module.

Description

[0001] The present invention relates to a battery device having a battery charging function and a multi-adapter function,

The present invention relates to a battery device configured to charge batteries of various sizes instead of one type of battery by using a battery charging stand of a conventional smart phone.

More specifically, the present invention is configured such that not only a smartphone battery charging function of various sizes, which is mounted on a conventional battery charging stand, but also a multi-adapter function can be performed by mounting a model battery, , Household appliances, and the like, by replacing a battery used as a power source of various devices or devices with a model battery to supply power.

In today's modern life, smartphones are considered to be essential portable devices for modern people as they can not be thought of except smart phones.

Such a smartphone is supplied with power through a rechargeable battery, and the rechargeable battery is charged in a state where it is mounted on a smart phone or is charged in a battery charging stand.

Since the battery charging cradle is manufactured in a specific size for charging the battery of the corresponding smart phone, various portable smart phones and battery charging cradles can be replaced with a new type And are discarded as they are not compatible with each other.

In modern life, many devices and devices such as toys, door locks, home appliances, learning devices, etc. are used in the vicinity. Especially, in order to drive such devices and devices, Two to eight batteries or rechargeable batteries are mounted.

However, in the case of such a consumable battery or a rechargeable battery, the cost incurred by periodically replacing the battery or the rechargeable battery due to the capacity limit is considerable, and the environmental problems that may occur at the time of disposal when the life of the battery or the rechargeable battery is exhausted Another problem is emerging.

Statistically, about 300,000 tons of batteries are used worldwide in the year, assuming that a single battery weighs 40 grams, about 7.5 billion batteries are used in a year. In Korea, about 15,000 tons of batteries and about 1 billion batteries are sold or used annually.

The battery is divided into a primary battery that is used after being used once and a secondary battery that can be charged and discharged. The primary battery includes manganese batteries and alkaline batteries, which account for more than 90% of the total batteries. Nickel-cadmium batteries and nickel- Batteries, lithium batteries, silver oxide batteries, and mercury batteries.

In the case of primary batteries, which we commonly use, there are almost no harmful substances such as lead and mercury, but they contain manganese, zinc, iron and nickel.

In addition, the atmosphere is seriously polluted by exhaust gas containing manganese and zinc during incineration. A bigger problem is that the secondary battery can not distinguish between the primary battery and the secondary battery, and the secondary battery contains harmful substances such as mercury and cadmium. It is the garbage to the car rechargeable battery. Soil, groundwater and air pollution can cause pollutants to affect humans, which can lead to deadly diseases such as manganese pneumonia, cadmium poisoning and mercury poisoning.

In Korea, mercury batteries are banned from production and imports. However, since batteries from China and Southeast Asia are installed in children's toys, they are becoming more and more a problem.

In addition, in the case of many devices and devices such as the above-mentioned toys, door locks, home appliances, learning devices, etc., the voltages required for operation are different from each other. For example, they have various driving voltages such as 3V to 12V. Therefore, when a general battery is used for driving the power of the device or the device, the number of batteries required to match the driving voltage of each device or device must be changed according to the device, which is actually inconvenient and troublesome.

In addition, depending on the size of the battery, some devices or devices may use AA size, and some devices or devices may use AAA size batteries. In fact, the type and number of batteries required to drive such devices or devices The economic loss and hassle associated with this is a bigger issue.

In order to solve the above problems, the present invention provides a battery device configured to charge a smartphone battery of various sizes regardless of the battery size of the smart phone while recycling the waste batteries and the portable charge holder of the conventional smart phone .

In addition, the present invention provides a replacement battery for a battery or a device using a battery or a battery as a driving power by replacing a conventional battery or a conventional battery, And to provide a battery device that can provide the battery.

Another object of the present invention is to provide a model battery which can be used in various sizes without depending on the size of a battery or an accumulator necessary for a device or an apparatus.

In order to achieve the above object, the present invention provides a battery device for charging a power source through a battery charging stand comprising a seating groove and a battery terminal for applying a voltage to the seating groove, A control module including an input contact terminal to be applied and an output contact terminal to output an input voltage; An upper module positioned in the seating groove and attached to the control module to support the control module; A size adjusting module which is engaged with the upper module in the seating groove so that the battery terminal and the input contact terminal of the control module are in contact with each other, thereby closely fixing the upper module to the side surface of the seating groove; And an accommodating module for accommodating the lower end of the smartphone battery when the smartphone battery is placed on the upper module, the accommodating module contacting the charging part of the smartphone battery with the output contact terminal in close contact with the upper module, And a battery charger for charging the battery charger to charge the smartphone battery.

The control module includes an input contact terminal which receives a voltage applied to the battery terminal of the charging stand, An output contact terminal for outputting a voltage applied from the input contact terminal to apply a charging voltage to the smartphone battery; A DC jack terminal for applying a voltage input from the input contact terminal or a voltage output from the charged smartphone battery to an external device; And a voltage drop lowering voltage applied from the input contact terminal or a voltage output from the charged smartphone battery.

One end of the size adjustment module is mounted on the binding portion of the groove so that the size adjustment module is seated in the seating groove.

In addition, one end of the receiving module is mounted on the binding portion of the groove so that the smartphone battery charging portion is held in contact with the output contact terminal while receiving the lower end portion of the smartphone battery.

In addition, the present invention further comprises a model battery connected to the DC jack terminal to output power.

The model battery is characterized in that the model battery includes: a line portion having a DC jack terminal and a two-stranded wire line consisting of +/- poles connected to the DC jack terminal; A model battery main body having a hollow battery shape and formed with a through hole through which the two stranded wire lines are drawn and the two stranded wire lines drawn into the through holes are respectively fixed to both side ends, Is connected to the convex shape side of the model battery body having the battery shape.

And a model battery receiving portion in which the model battery main body and an inlet through which the two stranded wire lines of the model dry battery are inserted and a spring in which the model battery main body introduced into the inlet are in contact are formed.

The following effects can be achieved through a battery device that is mounted on a battery charging stand of the present invention and provides a smartphone battery charging function and a multi-adapter function of various sizes.

First, the battery device of the present invention is capable of charging various types of smartphone batteries regardless of the battery size of the smartphone while recycling the waste battery and the portable charge holder of the conventional smart phone.

Secondly, since each of the driving voltages necessary for a device or a device using a dry battery or a battery as a driving power source is generated and supplied through the model battery and the DC jack terminal configured in the battery device of the present invention, It is possible to drive a device or a device through the communication network.

Thirdly, there is an effect that various sizes can be adjusted and used regardless of the size of a battery or an accumulator necessary for an apparatus or a device through a model battery and a model battery receiving unit configured in the battery device of the present invention.

1 is a perspective view of a battery device according to the present invention.
FIG. 2 is a mounting state diagram of an upper module and a size adjustment module of a battery device according to the present invention.
3 is a mounting state diagram of an upper module and a receiving module of a battery device according to the present invention.
4 is a block diagram of the internal configuration of the control module of the battery device of the present invention.
5 is a configuration diagram of a model battery installed in a battery device of the present invention.
6 is a configuration diagram of a model battery receiving unit for receiving a model battery mounted in a battery device of the present invention and adjusting the size thereof.
7 is a use state diagram of a model battery receiving portion in which a model battery is accommodated in the battery device of the present invention.

Hereinafter, a battery device, which is mounted on a battery charging stand of the present invention and provides a smartphone battery charging function and a multi-adapter function of various sizes, will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a battery device according to the present invention, FIG. 2 is a mounting state view of an upper module and a size adjustment module of the battery device of the present invention, and FIG. 3 is a mounting state diagram of an upper module and a receiving module of the battery device of the present invention.

Referring to the drawings, the battery device of the present invention is configured using a battery, a waste battery, and the like used in a smart phone and a battery charging stand.

The conventional battery charging cradle 10 includes a seating recess 11 and a battery terminal 12 for applying a voltage to the seating recess.

The battery device of the present invention includes a control module 100 including an input contact terminal 110 for receiving a voltage in contact with the battery terminal 12 and an output contact terminal 120 for outputting a voltage input thereto .

In other words, the control module 100 is configured as means for allowing the charging unit 510 of the smartphone battery 500 to be charged to contact the output contact terminal 120, not the battery terminal of the conventional battery charging stand , And a detailed description thereof will be described later.

In the battery device of the present invention, the upper module 200 is disposed in the seating groove 11 in a state of being attached to the control module 100 and supports the control module.

In the battery device of the present invention, a size adjustment module 300 is formed. In the seating groove part 11, the upper module 200 (not shown) is positioned so that the battery terminal 12 contacts the input contact terminal 110 of the control module. So as to closely fix the upper module 200 to the side surface of the seating groove 11. As shown in FIG.

Referring to FIG. 2, a control module 100 is attached to the upper module 200, and a groove 220 having a predetermined length is formed.

The size adjusting module 300 is formed with a binding part 310 and the size adjusting module 300 is configured to be seated in the seating groove part 11 while being coupled with the upper module 200.

The size adjustment module 300 may be mounted on the seating groove 11 so that the binding portion 310 of the size adjustment module 300 is inserted into the groove 220 of the upper module, And adjusts the position of binding with the binding part 210 to fit the width of the seating groove part 11. [

As a result, the fixing part 310 of the size adjusting module 300 is inserted into the groove of the upper module in a predetermined width of the seating groove part 11 of the conventional battery charging cradle 10, The upper module 200 and the size adjustment module 300 are both fixed to the seating groove 11 so that the upper module 200 and the size adjustment module 300 can be seated.

The size adjustment module 300 is attached to the upper module in the seating groove part 11 so that the battery terminal 12 contacts the input contact terminal 210 of the control module 100, A force is applied to the upper module 200 and is tightly fixed to the side surface of the seating groove.

The elastic member such as the leaf spring 320 is attached to the lower end of the size adjustment module 300 so that the upper module 200 and the size adjustment module 300 are both resiliently mounted on the seat groove 11, The terminal 12 and the input contact terminal 210 of the control module 100 are brought into close contact with each other by the elastic force.

The battery device of the present invention includes a receiving module 400. When the smartphone battery 500 is placed on the upper module 200, the receiving module 400 binds to the upper module 200, And the charging part of the smartphone battery is tightly fixed to the output contact terminal 120 while the lower end of the smartphone battery 500 is received.

3 shows the mounting state of the upper module and the receiving module of the battery device. Referring to FIG. 3, the width of the receiving module 400 is wide enough to accommodate the lower end of the currently available smartphone battery 500 .

The binding portion 410 of the receiving module is also formed in the groove 220 of the upper module 200 so that the width in the longitudinal direction of the smartphone battery 500 And is engaged with the binding portion 210 of the upper module 200. [

As a result, the lower end portion of the smartphone battery 500 is accommodated in the accommodating module 400, and the charging portion 510 of the smartphone battery is tightly fixed in contact with the output contact terminal 120, .

The smartphone battery 500 located between the output contact terminal 120 and the receiving module 400 includes elastic material such as a leaf spring 420 inside the housing module 400, The charging portion 510 of the output contact terminal 120 is brought into close contact with the output contact terminal 120.

As a result, through this configuration of the battery device of the present invention, a smartphone battery of almost any existing size regardless of the battery size can be mounted through the battery device of the present invention.

The input contact terminal 110 of the control module 100 attached to the upper module 200 is formed at a position in contact with the battery terminal 12 of the battery holder 10, Is placed on the upper module 200 to be positioned at a position where the charger 510 of the smartphone battery 500 to be charged contacts.

4 is a block diagram of the internal configuration of the control module of the battery device of the present invention.

The control module 100 includes a DC jack terminal 130 for applying a voltage input from the input contact terminal 110 or a voltage output from the charged smartphone battery 500 to an external device.

In other words, the battery device of the present invention is configured such that the voltage input from the input contact terminal 110 at the time of charging and the voltage output from the smartphone battery 500 at the time of discharging are supplied to the external device through the DC jack terminal 130 .

The control module 100 includes a voltage lowering unit 140 for lowering the voltage applied from the input contact terminal 110 or the voltage discharged from the charged smartphone battery 500 .

It is possible to generate various voltages necessary for the external device in addition to the commercial voltage of 4.35 V applied from the input contact terminal 110 through the voltage lower portion 140.

The control module 100 further includes a noise removing unit 150 configured to prevent noise when a voltage is applied to the input contact terminal 110.

5 is a configuration diagram of a model battery installed in a battery device of the present invention.

Referring to the drawings, the battery device of the present invention further includes a model battery 700 connected to the DC jack terminal 130 of the control module 100 to output power.

In general, a battery or a battery is supplied as a voltage source. In the present invention, in place of the consumable battery, the output DC jack terminal 130 of the battery device By using the model batteries (600, 700) installed, various output voltages of the power source are controlled and various voltages are applied to various devices and devices.

That is, it is possible to generate and select various supply voltages in the battery device of the present invention, and to provide each driving voltage necessary for the device or the device through the model battery 700, so that various devices or devices can be used for general purpose battery devices There is an effect that can be.

The illustrated model dry batteries 600 and 700 of the present invention are composed of two types. However, the present invention is not limited thereto, and the technical content of the model battery may be applied to a model battery having a shape such as a mercury battery.

The illustrated model battery 600 has a hollow battery shape and is configured to have a wire line installed in the hollow inside thereof to energize the +/- polarity, and the size thereof is configured to have a size of a battery of AAA size or a size of a battery.

Another type of model battery 700 includes a line unit 730 having a DC jack terminal 740 and a two-stranded wire line consisting of +/- poles connected to the DC jack terminal, The size of the battery or the size of the battery.

In other words, in general, the DC jack terminal is designed such that the center portion of the DC jack terminal has a positive polarity and the side thereof has a negative polarity. Accordingly, the DC jack terminal 130, which is connected to the DC jack terminal 130 of the battery device of the present invention, 740, the central portion of the line portion 730 has positive polarity and the side portion has a negative polarity. Similarly, the two-stranded line of the line portion 730 has a positive polarity, The connected wire line is configured to have a - polarity.

In the model battery 700, a through-hole 750 is formed to have a hollow battery shape and to draw the two wire lines. The two wire lines drawn into the through hole 750 are connected to the opposite ends of the wire And a model battery body 710, 720 configured to be fixed.

The feature of the model battery 700 is that the wire line having the positive polarity in the two stranded wire lines 730 is connected to the convex side having the convex portion of the model battery body having the battery shape, as shown in the figure.

That is, in the model battery 700 configured in the battery device of the present invention, the polarity of the model battery can be easily found by constructing the electric battery line as having a positive polarity on the convex shape side of the model battery body, It can be easily mounted on a device or a device.

6 is a configuration diagram of a model battery receiving unit for receiving a model battery mounted in a battery device of the present invention and adjusting the size thereof.

The model battery housing unit 800 of the present invention includes an inlet port 810 through which the model battery cells 710 and 720 of the model battery 700 and the two stranded wire lines 730 of the model battery are inserted.

As shown in the figure, the shape of the inlet port 810 formed in the model battery receptacle 800 is formed in the upper part of the model battery main body 710, 720 and a hole formed in the upper part so as to allow the two stranded wire lines 730 of the model battery to be drawn in. And a groove formed in the side surface.

In addition, the model battery housing unit 800 includes a spring 820 to which the model battery main bodies 710 and 720 introduced into the inlet 810 are contacted.

That is, when the battery or the battery used in the device or apparatus of the model battery housing unit 800 is of a large size such as AA, the model battery 700 having a small size and AAA size is used as it is, Can be used to configure batteries.

7 is a use state diagram of a model battery receiving portion in which a model battery is accommodated in the battery device of the present invention.

Referring to the drawings, there is shown a state in which AAA-size model dry batteries 600 and 700 configured in the battery device of the present invention are installed in a device or apparatus requiring AAA size batteries or accumulators.

The illustrated support plate 900 serves to support the upper module, the scaling module, and the accommodating module of the separated battery device of the present invention after being charged in the battery charging cradle 10, and is larger than the size of the upper module , It is used attached to the upper module.

In the foregoing, the present invention has been described with reference to the preferred embodiments thereof with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings and the foregoing embodiments are provided by way of illustration for purposes of clarity of understanding to those skilled in the art to which the present invention pertains. It is, therefore, to be understood that the various embodiments of the present invention may be embodied in various forms without departing from the essential characteristics thereof, and the above-described embodiments are to be considered as illustrative and not restrictive. Accordingly, the scope of the present invention should be construed in accordance with the invention as set forth in the appended claims rather than the foregoing embodiments, and various changes, alternatives, and equivalents by those skilled in the art may be made by the inventions It is obvious that it is included in the range of.

10: Battery charging stand 11: Battery terminal
12: Do not groove
100: control module 110: input contact terminal
120: Output contact terminal 130: DC jack terminal
140: Voltage lower part 150: Noise removing part
200: upper module 210:
220: Home
300: size adjustment module 310:
320: leaf spring
400: receiving module 410:
420: leaf spring
500: Smartphone battery 510: Smartphone battery battery charger
600, 700: Model battery
710, 720: Model battery body 730: Line unit
740: DC jack terminal 750: Through hole
800: Model battery receptacle 810: Inlet port
820: spring
900:

Claims (7)

A battery device for charging a power source through a battery charging stand comprising a seating groove and a battery terminal for applying a voltage to the seating groove,
A control module including an input contact terminal for receiving a voltage in contact with the battery terminal and an output contact terminal for outputting an input voltage;
An upper module positioned in the seating groove and attached to the control module to support the control module;
A size adjusting module which is engaged with the upper module in the seating groove so that the battery terminal and the input contact terminal of the control module are in contact with each other, thereby closely fixing the upper module to the side surface of the seating groove; And
A receiving module for receiving a lower end portion of the smartphone battery while being attached to the upper module when the smartphone battery is located on the upper module and closely fitting the charging portion of the smartphone battery in a state of being in contact with the output contact terminal The battery charger of claim 1, wherein the battery charger is a battery charger. The control module according to claim 1,
An input contact terminal for receiving a voltage from a battery terminal of the battery charging stand;
An output contact terminal for outputting a voltage applied from the input contact terminal to apply a charging voltage to the smartphone battery;
A DC jack for applying a voltage input from the input contact terminal or a voltage output from the charged smartphone battery to an external device;
And a battery voltage lowering part for lowering the voltage applied from the input contact terminal or the voltage output from the charged smartphone battery. The battery charger of claim 1, Battery. The method according to claim 1,
Wherein one end of the size adjusting module is mounted on the binding portion of the groove so that the size adjusting module is seated in the seating groove portion, A battery device that is equipped with various size smartphone battery charging function and multi-adapter function. The method of claim 3,
Wherein one end of the receiving module is mounted on the binding portion of the groove so that the smartphone battery charging portion is closely contacted with the output contact terminal while receiving the lower end portion of the smartphone battery. A battery device that is equipped with various size smartphone battery charging function and multi-adapter function. 3. The method of claim 2,
And a model battery connected to the DC jack terminal for outputting power. The battery charger of claim 1, further comprising: In the model battery,
The model battery includes a line portion having a DC jack terminal and a two-stranded wire line composed of +/- poles connected to the DC jack terminal;
A model battery main body having a hollow battery shape and formed with a through hole through which the two stranded wire lines are drawn and the two stranded wire lines drawn into the through holes are respectively fixed to both side ends,
And a wire line having a positive polarity is connected to the convex shape side of the model battery main body having a battery shape among the two stranded wire lines. The battery charger includes a smart phone battery charging function and a multi-adapter function, Provided battery device. The method according to claim 5 or 6,
And a model battery receiving part having a built-in model battery main body and a spring in which an inlet port through which the two stranded wire lines of the model dry battery are inserted and a model battery main body introduced into the inlet are in contact with each other, It is equipped with a battery charger and battery charger.

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