KR101523699B1 - Battery pack pouch apparatus with charger and discharger - Google Patents

Abstract

The present invention relates to a battery pack pouch system (2) comprising a pouch main body (4) having a USB input (18) and a USB output (20), a packaging part of a cylindrical large-capacity battery for charging and discharging (6), and a packaging part of a quadrangular mobile terminal battery for charging and discharging (8). In the packaging part of the cylindrical large-capacity battery for charging and discharging (6) and the packaging part of the quadrangular mobile terminal battery for charging and discharging (8), corresponding charging and discharging terminals (14, 16) are provided, and within the pouch main body (4), a charging and discharging control circuit part performing charging and discharging functions related to the cylindrical high-capacity battery (10) packaged in the packaging parts (6, 8) and a number of the quadrangular mobile terminal batteries (12), a self-charge function from the cylindrical high-capacity battery (10) to the quadrangular mobile terminal battery (12), and a rapid battery charging function for the quadrangular mobile terminal battery (12) using external commercial power is installed. The charging and discharging control circuit part (22) is provided with a battery selector (28) selecting one from a plurality of quadrangular batteries (12) packaged in the packaging part of the quadrangular mobile terminal battery for charging and discharging (8), and the charging input power supplied from outside through the USB input (18) is applied to the cylindrical high-capacity battery (10) and the selected quadrangular batteries (12).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery pack pouch device having a charge /

The present invention relates to a battery pack pouch device for a portable terminal, and more particularly, to a battery pack pouch device for portable terminals that can be used not only as a battery but also as an always-on battery charger of various models, To a battery pack pouch device having a charge and discharge function that allows a genuine battery of an existing portable terminal to be used as a secondary battery after replacing a portable terminal such as a battery of various models or a smart phone.

Nowadays, the use of smartphones and tablet PCs has increased considerably, and it has become almost universal. Smartphones are basic phone calls and can provide various functions such as music and video playback, Internet browsing, memos, games, etc., so they are used more and more quickly than conventional phones with only phone functions and battery consumption is fast. In fact, when a smartphone is used continuously, the power supply of the battery runs within a few hours.

Therefore, in order to replace the battery, it is often carried around with a spare battery charged in a dedicated charging cradle or carrying a charger to charge the mobile terminal with the battery in a state of being charged. In such a case, And a large-capacity battery which can be mounted on a portable terminal is provided in case of using the terminal.

If the portable high capacity battery is purchased separately, it is good for long time use of the portable terminal, but the purchase cost thereof can not be ignored, and if the large capacity battery is not a genuine battery, the performance guarantee may not be guaranteed.

In addition, there are cases where a plurality of batteries are used together to implement a large-capacity battery. In this method, a plurality of batteries are connected in parallel. However, such a large-capacity battery is not only very long in charging time but also in terms of circuit stability. That is, as the batteries are connected in parallel, the charging current is divided due to the division of the applied current to each battery, so that the charging time is lengthened. Also, when the voltage difference occurs due to the minute characteristic difference between the batteries, there is also a loss due to the generation of the internal circulating current. In addition, when a battery having poor operating characteristics is mixed, there is also a problem that the entire battery performance characteristic is confined to the characteristic battery which is bad. Occasionally, a protection circuit is built in to compensate for this problem, but the problem of price and circuit complexity arises, so it is not used well.

Patent Document 10-10-2010-0082812 "Portable Terminal Protection Case"

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a battery pack pouch device having a charge and discharge function capable of charging a portable terminal battery without charging the sunlight in a place where the charging environment is insufficient.

It is another object of the present invention to provide a battery pack pouch device having a charge / discharge function that enables quick charging of various types of portable terminal batteries when charging using an external commercial power source.

Another object of the present invention is to provide a battery pack pouch device having a charge / discharge function that can serve as a power storage by utilizing a genuine battery of a conventional portable terminal remaining after replacing a portable terminal such as a smart phone as an auxiliary battery.

A battery pack pouch device according to the present invention is characterized in that a pouch main body (4) having a USB input part (18) and a USB output part (20) is provided with a cylindrical large capacity battery dedicated mounting part (6) Discharge terminal portions 14 and 16 are formed in the cylindrical large capacity battery charging dedicated mounting portion 6 and the rectangular portable terminal battery charging dedicated mounting portion 8 so as to form the rectangular portable terminal battery charging dedicated mounting portion 8, A cylindrical large capacity battery 10 mounted on the mounting portions 6 and 8 and a plurality of rectangular portable terminal batteries 12 are provided in the pouch body 4. The cylindrical large capacity battery 10, Discharge control circuit unit 22 for performing a self-charging function to the rectangular portable terminal battery 12 and a quick charging function to the rectangular portable terminal battery 12 using an external commercial power supply, (22) comprises: A constant voltage section 24 for maintaining the charge input voltage applied to the USB input section 18 at a constant constant voltage in response to variations in the output load and an output power supply for the cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12, A DC boosting section 26 for boosting the voltage of the constant voltage section 24 so as to be able to be charged to the USB output section 20 and for discharging the constant voltage input power of the constant voltage section 24 to the portable battery charging / A feed back line 30 connected between the output terminal of the DC boosting section 26 and the input terminal of the constant voltage section 24, .

In another aspect of the present invention, in a battery pack pouch device, a pouch body 4 having a USB input portion 18 and a USB output portion 20 is provided with a cylindrical large capacity battery loading exclusive mounting portion 6, And the corresponding charging / discharging terminal portions 14 and 16 are formed in the cylindrical large capacity battery charging dedicated mounting portion 6 and the rectangular portable terminal battery charging dedicated mounting portion 8 so as to form the portable terminal battery charging dedicated mounting portion 8 Discharge function related to the cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12 mounted in the mounting portions 6 and 8 and the cylindrical large capacity battery 10 in the pouch body 4. [ A charging / discharging control circuit unit 22 for performing a self-charging function for the rectangular portable terminal battery 12 and a quick charging function for the rectangular portable terminal battery 12 using an external commercial power supply, 22); The cylindrical large capacity battery 10 mounted in the mounting portions 6 and 8 and the plurality of rectangular portable terminal batteries 12 are connected in parallel to each other and the mounting portion 6 And a battery selector 28 for selecting one of the plurality of rectangular portable terminal batteries 12 so that the charging input power supplied through the USB input 18 is supplied to the battery selector 28 together with the cylindrical large- And is applied to the rectangular portable terminal battery 12 selected by the user.

The present invention is also applicable to the case where the self-charging feed back line 30 is internally connected from the USB output unit 20 to the USB input unit 18 or from the USB output unit 20 to the USB input unit 18 So that the discharge output power from the cylindrical large capacity battery 10 is applied to the rectangular portable terminal battery 12 selected by the battery selector 28. [

In the present invention, the USB input unit 18 may be configured as a dual USB input unit connected in parallel to the constant voltage unit 24,

The apparatus further includes a remaining capacity display circuit unit 36 for checking and displaying the remaining capacity of the cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12 mounted on the mounting portions 6, .

The present invention is configured to be connected to the USB input unit 18 from the USB output unit 20 through the self-charging cable 56 so that the discharge output power from the cylindrical large capacity battery 10 is connected to the square selected by the battery selector 28 To be applied to the portable terminal battery (12).

The constant voltage section 24 of the present invention further includes a PCM protection circuit 38 for preventing overcharge discharge to the cylindrical large capacity battery 10.

The DC boosting unit 26 and the USB outputting unit 20 are constructed so that two independent DC boosting units and a USB outputting unit are provided, each having the same output voltage and different USB output currents.

Also, in the present invention, in the case of constructing the mounting portion 8 for exclusive use of the rectangular portable terminal battery, a plurality of fitting slots 40 are formed so that a plurality of kinds of rectangular portable terminal batteries 12 can be fixedly supported, (42) that is inserted into the insertion hole (40).

The charging state of each of the plurality of rectangular portable terminal batteries 12 mounted on the mounting portion 8 for charging the rectangular portable terminal battery is set to be the charging state of the rectangular portable terminal battery 12, And a control unit 54 for providing a battery selection control signal to the battery selector 28 based on the check result of the charge state check unit 50. [

As another aspect of the present invention, in a battery pack pouch device, a rectangular portable terminal battery charging-only mounting section 8, which can be housed in a pouch main body 4 having a USB input section 18 and a USB output section 20, And a charging and discharging terminal portion 16 is provided in the portable terminal battery charging and discharging dedicated portion 8 and a plurality of rectangular portable terminal batteries 12 mounted in the mounting portion 8 are provided in the pouch body 4 Discharge control circuit unit 22 for performing a rapid charging function to the rectangular portable terminal battery 12 using an associated charge / discharge function and an external commercial power supply, wherein the charge / discharge control circuit unit 22 comprises: A constant voltage section 24 for maintaining the charge input voltage applied to the USB input section 18 at a constant constant voltage in response to variations in the output load and a constant voltage section 24 for boosting the output power of the plurality of rectangular portable terminal batteries 12 A DC boosting section 26 for discharging the constant voltage input power of the constant voltage section 24 to the USB output section 20 and a DC boosting section 26 for boosting the constant voltage input power of the constant voltage section 24 among the plurality of portable terminal batteries 12 mounted in the portable terminal battery charging- And a battery selector 28 for selectively switching to one of the plurality of battery cells.

In another aspect of the present invention, in a battery pack pouch device, a pouch body 4 having a USB input unit 18 and a USB output unit 20 is provided with a rectangular portable terminal bulk-battery dedicated mounting unit 7 The rectangular portable terminal has a mounting portion (8) for exclusive use of the large capacity battery, and a mounting portion (8) for charging the rectangular portable terminal battery are provided with a corresponding charging / discharging terminal portion Discharging function 14 related to the rectangular portable terminal large capacity battery 11 and the plurality of rectangular portable terminal batteries 12 mounted in the mounting portions 7 and 8 is provided in the pouch body 4 A charge / discharge control circuit part 22 for performing a self-charging function to the rectangular portable terminal battery 12 in the rectangular portable terminal large capacity battery 11 and a quick charging function to the rectangular portable terminal battery 12 using the external commercial power supply Composed of Back,

The charge / discharge control circuit unit 22 includes: And a battery selector 28 for selecting one of a plurality of rectangular portable terminal batteries 12 mounted on the portable terminal battery charging and discharging exclusive mounting portion 8 so as to be electrically connected to the charging input Characterized in that the power source is configured to be applied to the rectangular portable terminal battery (12) selected by the battery selector (28) together with the cylindrical large capacity battery (10).

The present invention can mount a cylindrical large capacity battery (cylindrical lithium ion battery or the like) which is not used in a detachable form in a portable terminal, can mount a rectangular portable terminal battery together, The portable terminal battery can be charged without performing solar charging or the like in a place where the charging environment can not be achieved by utilizing the self-charging function with the portable terminal battery.

In addition, the present invention has an advantage in that a large number of various rectangular portable terminal batteries mounted on a pouch main body can be charged quickly by charging using an external commercial power supply and can be charged quickly, There is an advantage that a pouch device can serve as a power storage by utilizing a genuine battery of an existing portable terminal as an auxiliary battery.

FIGS. 1A and 1B are exploded perspective views illustrating a battery pack pouch device having a charge / discharge function according to an embodiment of the present invention.
FIG. 2 is a perspective view of the battery in FIGS. 1A and 1B,
3 is a circuit configuration diagram of the charge / discharge control circuit portion according to the first embodiment in the battery pack pouch device having the charge / discharge function of the present invention.
FIG. 4 is a circuit configuration diagram of a charge / discharge control circuit according to a second embodiment of the present invention. FIG. 4 is a circuit diagram for enabling charging of a mounted rectangular portable terminal battery 12 by automatic control.
5 is a circuit diagram of a battery pack pouch device having a charge / discharge function according to an embodiment of the present invention in which a self-charging function using a USB cable is implemented.
6 is a perspective view of an adapter for adopting a cylindrical large-capacity battery and a small-sized large-capacity battery,
7A and 7B are perspective views showing examples of other large batteries and adapters other than the cylindrical large capacity battery,
FIG. 8 is a perspective view of a battery pack pouch device of the present invention for rapidly charging a portable terminal battery according to the present invention; FIG.
Fig. 9 and Fig. 10 are circuit configuration diagrams of the charge / discharge control circuit portion constituting the battery pack pouch device according to Fig. 8,
11A and 11B are perspective views illustrating a battery pack pouch device having a charge / discharge function according to a third embodiment of the present invention.
12 is a circuit configuration diagram of the charge / discharge control circuit portion according to Figs. 11A and 11B;

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

Even a battery that is usable due to a short replacement cycle of a portable terminal such as a smart phone widely spread nowadays is actually left unused or disposed of. In the present invention, various kinds of portable terminal- A battery pack pouch device having a charge / discharge function that allows the portable terminal battery to be used to be charged even in a place where the charge environment can not be achieved (in an environment where the commercial AC power source can not be used) can be implemented.

In addition, the battery pack pouch device of the present invention serves not only as a dedicated charger for a general portable terminal battery that allows charging to the same manufacturer and the same model, but also allows charging of other manufacturers and portable terminal batteries of other models.

In addition, when charging the battery of another electronic device such as a camera or the like, which is not a portable terminal such as a smart phone, is required where commercial AC power is not available, the battery pack pouch device of the present invention can be used to charge the battery.

1A and 1B are exploded perspective views of a battery pack pouch device 2 having a charge / discharge function according to an embodiment of the present invention. FIG. 2 is a perspective view of the battery pack pouch device 2 of FIG. And the terminal batteries 12 are mounted.

A battery pack pouch device (2) of the present invention includes a pouch body (4) having a USB input part (18) and a USB output part (20).

The pouch main body 4 can be mounted with a cylindrical large capacity battery 10 such as a cylindrical 18650 lithium ion battery which is not used in a detachable form in a general portable terminal such as a smart phone and a plurality of rectangular portable terminal batteries 12 A cylindrical large capacity battery charging dedicated mounting portion 6 and a rectangular portable terminal battery charging dedicated mounting portion 8 are provided together so as to be mounted together.

One or more cylindrical large capacity batteries 10 may be mounted on the cylindrical large capacity battery charging dedicated mounting portion 6 having positive and negative charging and discharging terminal portions 14 at both ends thereof and a charging and discharging terminal portion 16, And a plurality of rectangular portable terminal batteries 12 are formed in a stacked structure.

According to the present invention, when two or more cylindrical large capacity batteries 10 are mounted on the cylindrical large capacity battery charging dedicated mounting portion 6, they are connected in parallel to each other and normally can be charged at all times.

The cylindrical large capacity battery 10 is not used as a removable battery which is mainly used in portable terminals such as a feature phone or a smart phone. Typical example is a cylindrical 18650 lithium ion battery and the charging capacity is about 2000 to 5000 mAh. If two 3000mAh cylindrical 18650 lithium-ion batteries are mounted in parallel, a cylindrical large-capacity battery (10) will store a charge capacity of 6000mAh.

On the other hand, when a plurality of rectangular portable terminal batteries 12 are mounted in a stacked structure in the rectangular portable terminal battery charging and discharging exclusive mounting portion 8, when the charging is performed, a plurality of rectangular portable terminal batteries 12 ) Can be charged.

The charging / discharging terminal 16 formed at one end of the rectangular portable terminal battery charging / discharging exclusive mounting section 8 is provided by the number of the rectangular portable terminal batteries 12 to be accommodated, On the upright circuit board 15 mounted on the side wall. In the example of FIGS. 1A and 1B, three rectangular portable terminal batteries 12 can be accommodated, and three charge / discharge terminals 16 are arranged on the upright circuit board 15 in a shifted manner.

The upright circuit board 15 is mounted with a battery selector 28 for enabling one of the plurality of charge / discharge terminals 16 to be activated.

The battery selector 28 can be implemented as a preferred embodiment of the present invention, operable as a manual switch 28a as shown in Figures 1a, 1b and 2, in which case the user can manually It is possible to select the rectangular portable terminal battery 12 to be activated.

A plurality of fitting slots 40 are arranged on both side walls of the rectangular portable terminal battery 10 in order to enable various kinds of rectangular portable terminal batteries 12 to be fixedly supported in the mounting portion 9 for charging the rectangular portable terminal battery And the elastic support type fitting members 42 are fitted in the fitting slots 40 in a fitting manner.

Since the elastic support type fitting base 42 has a height equal to the thickness of the rectangular portable terminal battery 12 and has a central portion bent slightly forwardly, the rectangular supporting portable terminal battery 12, when fitted into the fitting slot 40 at the fitting position, ) To push the front and rear sides. The lower end of the fitting base 42 is formed with a locking groove for allowing the user to easily pull up the fitting base 42 by using the nail.

If the fitting member 42 is not used, it is inserted into the fitting slot 40 of the final stage. Therefore, there is little fear of loss, and even when the longest battery accommodated in the mounting portion 8 is mounted, it does not become an obstacle. The elastic support type fitting piece 42 is prepared as many as the number of stacked batteries, and is laminated in the fitting slot 40 of the final stage when not in use.

In Figs. 1A, 1B and 2, reference numeral 44 denotes a cover which is assembled in a flange-like manner by covering a cylindrical large capacity battery 10 and a rectangular portable terminal battery 12 after they are mounted . Switch covers 46 and 48 are formed in the cover 44 so that the manual switches 28a and 32a mounted on the pouch body 4 can be exposed to the outside.

Referring again to FIGS. 1A and 2, a USB input unit 18 and a USB output unit 20 are formed on one side of the pouch body 4. A conventional USB cable capable of charging and signal transmission can be connected to the USB input unit 18 and the USB output unit 20. When the portable terminal charger is connected to the front end of the USB cable, .

According to the present invention, the USB input unit 18 is connected in parallel with each other as a dual USB input unit 18, and becomes, for example, a USB input port of 5V, 1A. If all of the dual USB inputs 18 of the 5V, 1A USB input port are used, the input charging power of 2A, 5V can be supplied to the cylindrical large capacity battery 10 and the rectangular portable terminal battery 14, 2A, the input charging power of 4A and 5V can be supplied to the cylindrical large capacity battery 10 and the rectangular portable terminal battery 14 by using all of the dual USB input ports 18 of the USB input port.

According to the present invention, the USB output unit 20 is provided in the same manner as the USB input unit 18, and the USB output voltages are the same but the USB output currents are different from each other so as to be compatible with various device types. For example, one USB output unit 20 may be configured as an output port of 5V, and the other USB output unit 20 may be configured as an output port of 5V and 2A.

The cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12 mounted in the mounting portions 6 and 8 are provided in the pouch body 4 of the present invention shown in Figs. 1A, 1B and 2 A charge / discharge control circuit 22 for performing a charge / discharge function, a self-charging function for the rectangular portable terminal battery 12 in the cylindrical large capacity battery 10, and a rapid charging function for the rectangular portable terminal battery 12 using an external commercial power supply It is built in.

3 is a circuit configuration diagram of the charge / discharge control circuit portion 22 of the battery pack pouch device 2 having the charge / discharge function according to the first embodiment of the present invention.

3, the charge / discharge control circuit portion 22 according to the first embodiment of the present invention includes a constant voltage portion 24, a DC boost portion 26, a battery selector 28, 30).

The constant voltage unit 24 applies the charged input power applied to the USB input unit 18 to the cylindrical large capacity battery 10 or the rectangular portable terminal battery 12 while maintaining a constant constant voltage (for example, 4.2 V) The DC boosting unit 26 boosts the output power (for example, 3 to 4.2 V) of the cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12 so as to charge another battery (20).

The DC boosting unit 26 has two DC boosting units 26 that are independent of each other so that the two USB outputting units 20 have the same output voltage and different output current values. One DC boosting unit 26 is connected to the USB output unit 20 of the USB_OUT1 port and boosts to a USB output value of 5V, 1A. The other DC boost unit 26 is connected to the USB output unit 20 of the USB_OUT2 port and boosts the voltage to a USB output value of 5V and 2A.

The constant voltage unit 24 is provided with a PCM protection circuit 38 for preventing an overcharge discharge to the cylindrical large capacity battery 10 and the DC boost unit 26 also has a PCM protection circuit 38 are provided.

Further, it is desirable that the constant voltage section 24 is equipped with a charge controller chip employed in advanced specifications in smartphones these days. The charge control chip initially controls the charge to be done quickly, and when the charge level exceeds 75 ~ 80%, it is charged slowly for battery stability, that is, to reduce the electric shock to the battery cell. These charge control chips are manufactured by several makers such as Qualcomm, TI and IDT. A typical example of a charge control chip is a power controller of Qualcomm and uses a technique called quick charge for fast battery charging. The quick charge technology is designed to adjust the charge rate with smaller or larger capacity depending on the capacity of the battery and the charge rate, and it is designed to adjust the charge rate from 0.7 to 2.5A , And a large capacity battery of 3000 mAh or more can realize a high current of 4 A or more.

The constant voltage input power source of the constant voltage unit 24 is directly applied to the cylindrical large capacity battery 10 and the one rectangular portable terminal battery 12 selected by the battery selector 28 among the plurality of rectangular portable terminal batteries 12, .

The battery selector 28 has one input terminal and an output terminal that is one more than the number of full-time rectangular portable terminal batteries 12 in the mounting portion 8. [ In the example shown in the accompanying drawings of the present invention, three rectangular portable terminal batteries 12 are shown mounted on the mounting portion 8, in which case the battery selector 28 has a 1 And has four input terminals I and four output terminals O ₁ to O ₄ .

3, the first to third output terminals O ₁ to O ₃ out of the four output terminals O ₁ to O ₄ are connected to three charging / discharging terminal portions 16 of the rectangular portable terminal battery charging / And the remaining one fourth output terminal O ₄ is placed in a disconnected state. A fourth output terminal (O ₄₎ placed in a non-connected state is an output terminal to be selected when a single charge of the battery in a cylindrical mass 10 is achieved.

 The charging / discharging control circuit unit 22 of the present invention is configured to perform a self-charging function to perform the self-charging function from the cylindrical large capacity battery 10 of the mounting portion 6 to the rectangular portable terminal battery 12 of the mounting portion 8 3, the self-charging feed back line 30 is connected between the output terminal of the DC step-up unit 26 and the input terminal of the constant voltage unit 24, as shown in FIG.

The self-charging activation switch 32 is also provided on the self-charging feed back line 30, and the self-charging activation switch 32 can also be implemented as a manual switch 32a which allows the user to switch directly. 1A, 1B, and 2 also show that the manual switch 32a of the self-charge activating switch 32 is mounted on the pouch main body 4. As shown in FIG.

3, the charge / discharge control circuit portion 22 of the present invention includes a self-charge activation switch (not shown) on the power line connected between the constant voltage portion 24 and the cylindrical large capacity battery 10, And a charging input opening / closing switch 34 which is operated in a switching manner opposite to the charging input opening /

The charge input opening / closing switch 34 may be operated in conjunction with the self-charge activating switch 32, but may be operated separately. When it is necessary to cut off the charging input power supply to the cylindrical large capacity battery 10, the individual switch 'off' is preferable.

As shown in FIG. 3, the charge / discharge control circuit portion 22 also includes a remaining amount display circuit portion 36 of the battery 10 (12). The remaining amount display circuit unit 36 according to the present invention includes an OK button switch and a display window for each battery for an interface with a user. It is preferable that the confirmation button switch and the battery specific display window are located on the opposite side of the cover 44 of the pouch body 4. [

Therefore, the remaining amount display circuit unit 36 of the present invention can display the remaining amount for the cylindrical large capacity battery 10 in accordance with the user's frequent confirmation request, and the remaining remaining amount display for each of the plurality of rectangular portable terminal batteries 12 .

The cylindrical large capacity battery 10 employed in the present invention is mainly used as a secondary battery for a lantern or a battery pack attached cell for a notebook computer. The large capacity battery 10 can be used as a battery for a portable terminal such as a smart phone, Can not be used. Such a cylindrical large capacity battery 10 has a large capacity such that one charging capacity is 2000 to 5000 mAh. If two pieces of one 3000 mAh are connected in parallel, a total charging capacity of 6000 mAh is obtained.

The battery pack pouch device (2) of the present invention mounts a cylindrical large capacity battery (10) having a considerable charging capacity and uses the large capacity battery (10) as a large capacity power storage.

When the charging input power is supplied to the USB input unit 18 of the pouch body 4 via the charger and the USB cable supplied with the commercial AC power, the charging input power is always supplied to the cylindrical large capacity battery 10 It is basically. Therefore, the battery pack pouch device 2 of the present invention can sufficiently serve as a large capacity power storage device.

In addition, according to the present invention, various rectangular portable terminal batteries 12 can be accommodated according to the type of the mobile terminal, and fast charging is ensured for each.

The battery pack pouch device 2 of the present invention having the charging and discharging control circuit portion 22 as shown in FIG. 3 is configured such that when a plurality of various rectangular portable terminal batteries 12 mounted on the pouch body 4 are charged using an external commercial power source The battery can be charged quickly by taking the alternative charging method using the battery selector 28. [

In general, when a plurality of portable terminal batteries 12 are charged at the same time, the charging current is dispersed due to being charged in a state of being connected in parallel with each other, so that the charging time becomes considerably long and causes a problem of heat generation, which is one of the factors shortening battery life.

On the other hand, according to the present invention, only a plurality of rectangular portable terminal batteries 12 mounted on the mounting portion 8 of the pouch body 4 are selected and charged in sequence, so that full charging can be accomplished quickly and the problem of heat generation can be avoided. Furthermore, if the amount of charge current is doubled through the two USB input units 18 using the dual charger, the charging time in relation to the amount of charge current is shortened in half. That is, the charging time to the rectangular portable terminal battery 12 is much shortened.

Turning to the embodiment of the present invention for filling a plurality of rectangular portable terminal battery 12 mounted on the mounting portion 8, for example concrete, the user corresponding to the first output terminal (O ₁₎ of the battery selector 28, the mounting portion When the rectangular portable terminal battery 12 connected to the charge / discharge terminal 16 of the battery charger 8 is charged, the battery selector 28 selects the first output terminal O using the manual switch 28a of the battery selector 28 ₁ ).

This charge input power through the constant-voltage unit 24, as soon filled in a cylindrical high-capacity battery 10 is charged in at the same time, the battery selector first output terminal (O ₁₎ corresponding square portable terminal battery 12 is enabled through a 28. At this time, however, the other rectangular portable terminal batteries 12 mounted on the pouch body 4 are not charged at all. Thus the ohrotyi is filled in the rectangular mobile terminal battery 12 corresponding to the first output terminal (O _1), not much heat is also a problem of the battery 12 during charging.

A first output terminal (O _1), the rectangular mobile terminal battery 12 is fully charged when the remaining amount display circuit 36, the user can determine the maximum charge through, and the other square portable terminal battery mounted on the mounting portion (8) corresponding to (12) can be selected using the battery selector (28) and individually charged.

In the present invention, a smartphone battery, which has been discharged by using a cylindrical large capacity battery 10 mounted on a mounting portion 6 of the pouch body 4 and serving as a large capacity power storage, Can be charged into the charging / discharging exclusive mounting section (8). The self-charging function from the charged cylindrical large capacity battery 10 to the uncharged rectangular portable terminal battery 12 can be performed by the portable terminal 10 without charging the sunlight at a place where the charging environment is not attained (commercial AC power is not used) It offers the advantage of charging the battery.

For example, when a user connects a rectangular portable terminal battery 12 to be charged to the charging / discharging terminal 16 of the mounting portion 8 corresponding to the first output terminal O ₁ of the battery selector 28, When the battery selector 28 selects the first output O1 using the switch 28a and the manual switch 32 of the self-charge enable switch 32 is turned on, Self-charging from the cylindrical large-capacity battery 10 to the uncharged rectangular portable terminal battery 12 is performed. The rectangular portable terminal 10 selected by the battery selector 28 is connected to the battery charger 28 through the cylindrical large capacity battery 10, the DC boost unit 26, the self-charge feed back line 30, the constant voltage unit 24, Self-charging is performed while passing through the path of the battery 12 '.

Although not shown in FIG. 3, it is to be understood that the flash function can be simply added to the pouch body 4 as needed by the manufacturer. At this time, by using the OK button switch of the remaining amount display circuit unit 36, Can also be implemented.

In Fig. 3, the reference symbol "R"

In FIG. 3, an example has been described in which the self-charging feed back line 30 is used to perform the self-charging function from the fully charged cylindrical large capacity battery 10 to the uncharged rectangular portable terminal battery 12 , The self-charging feed back line 30 may be omitted or not used, and the user may perform the self-charging cable 56 as shown in FIG.

The self-charging cable 56 shown in FIG. 5 is a commonly used USB cable, which is plugged into the port of the USB output unit 20 and the port of the USB input unit 18 to serve as a self-charging feed-back path. When the self-charging cable 56 is used, the discharge output power from the cylindrical large-capacity battery 10 is supplied to the DC boost unit 26, the USB output unit 20, the self-charging cable 56, the USB input unit 18, Is applied to the rectangular portable terminal battery 12 'selected by the constant voltage unit 24 → the battery selector 28 → the battery selector 28 and is supplied from the fully charged cylindrical high capacity battery 10 to the non- Self-charging to the terminal battery 12 is performed.

On the other hand, the charging / discharging control circuit portion 22 shown in FIG. 3 as the first embodiment is configured such that the user selects the rectangular portable terminal battery 12 to be charged by using the manual switches 28a and 32a and also selects the cylindrical large capacity battery 10 to the optional rectangular portable terminal battery 12, but can also be performed in an automatic control system.

4 is a circuit configuration diagram of the charging / discharging control circuit unit 22 according to the second embodiment of the present invention, and is a circuit configuration diagram for allowing charging of the mounted rectangular portable terminal battery 12 by automatic control.

The charge / discharge control circuit portion 22 shown in FIG. 4 is similar to the charge / discharge control circuit portion 22 shown in FIG. 3 except that there are no manual switches 28a and 32a but a charge state check portion 50, (52) and a control unit (54).

4, the charge state check unit 50 checks the state of charge of each of the plurality of rectangular mobile terminal batteries 12 mounted on the rectangular portable terminal battery charger dedicated mounting unit 8, and supplies the check result to the control unit 54 The self-charging cable connection check unit 52 checks that the self-charging cable 56 is plugged into the port of the USB input / output unit 18 or 20 as shown in FIG. 5 and provides it to the control unit 54. Also, the user can directly enter the self-charging mode by pressing the self-charging button provided in the pouch body 6 if necessary, and the control unit 54 may recognize the signal corresponding to the pressing of the self-charging button.

Of the control unit 54 hayeoseo applied to the battery selector 28, the battery selection control signal (SEL1) to the basis of the check result in the charged state checking section 50, the battery selector 28 has an output terminal (O ₁ ~ O ₄₎ Let's choose one. For example, when the charge state check unit 50 checks that the rectangular portable terminal battery 12 connected to the output terminal O ₁ currently charged is fully charged, the control unit 54 determines that the battery selector 28 is connected to the output terminal O ₁₎ to be converted, switched to the output (O ₂₎ from the battery to provide a selection control signal (SEL1) to the battery selector 28.

When the self-charging function is performed, the control unit 54 outputs the switching control signal SEL2 as a self-charging signal when there is a self-charging button input from the user or when the self-charging cable connection unit 56 is connected from the self- Activation switch 32 and the charging input opening / closing switch 34 so that the self-charging activating switch 32 is switched on and the charging input opening and closing switch 34 is switched off. Charging from the cylindrical large capacity battery 10 to the uncharged rectangular portable terminal battery 12 using the self-charging feed back line 30 shown in FIG. 4 or the self-charging cable 56 shown in FIG. It becomes possible.

Meanwhile, the cylindrical large-capacity battery 10 mounted on the cylindrical large-capacity battery charging-dedicated mounting portion 6 can be realized by using a cylindrical 18650 lithium-ion battery (3.7 V), and a cylindrical 14500 lithium ion The battery (3.7V) is also compatible. 6, a small cylindrical 14500 lithium ion battery 10a is inserted into a cylindrical 18650 lithium ion battery-sized adapter 58, and then a cylindrical large capacity battery charging dedicated mounting portion 6 is inserted into the adapter 58, As shown in Fig.

In the present invention, battery packs 60 and 64 of electronic products having different sizes as shown in FIG. 7A and FIG. 7B are connected to an adapter (not shown) Is connected to the USB input portion 18 of the pouch body 4 of the present invention by using the USB charging cable 62 and the USB charging cable 70 to charge the rectangular portable terminal battery 12 mounted on the mounting portion 8 can do.

7B, reference numeral 68 denotes a connector 66 of the battery pack 64. The battery pack 64 as shown in FIG. 7B is one type of battery pack built in Apple's iPad, A small cylindrical lithium ion battery is connected in parallel.

On the other hand, according to the present invention, the cylindrical large capacity battery 10 can be utilized as a multi-type charge / discharge unit that can be quickly charged by mounting only the rectangular portable terminal battery 12 without mounting.

FIG. 8 is a perspective view of a battery pack pouch device 2 of the present invention for quickly charging the portable terminal battery according to the present invention. Unlike FIGS. 1A, 1B and 2, the cylindrical battery pack pouch- And no cylindrical large-capacity battery 10 is provided.

9 and 10 are circuit configuration diagrams of the charge / discharge control circuit portion 22 for the battery pack pouch device 2 shown in FIG. 8, FIG. 9 shows a configuration in which the battery selector 28 has the manual switch 28a 10 shows a configuration including a charge state check unit 50, a charge selection button, and a control unit 54 for automatic charge control.

The battery pack pouch device 2 shown in Figs. 8 to 10 includes a rectangular portable terminal battery rechargeable dedicated mounting portion (not shown) that can be housed in the pouch main body 4 having the USB input portion 18 and the USB output portion 20 And a charging and discharging terminal portion 16 is provided in the portable terminal battery charging and discharging dedicated mounting portion 8 and a plurality of rectangular portable terminal batteries (not shown) mounted in the mounting portion 8 are provided in the pouch body 4 And a charging / discharging control circuit unit 22 for performing a quick charging function to the rectangular portable terminal battery 12 using an external commercial power source.

The charge / discharge control circuit portion 22 according to Fig. A constant voltage section 24 for maintaining the charge input voltage applied to the USB input section 18 at a constant constant voltage in response to variations in the output load and a constant voltage section 24 for boosting the output power of the plurality of rectangular portable terminal batteries 12 A DC boosting section 26 for discharging the constant voltage input power of the constant voltage section 24 to the USB output section 20 and a DC boosting section 26 for boosting the constant voltage input power of the constant voltage section 24 among the plurality of portable terminal batteries 12 mounted in the portable terminal battery charging- And a battery selector 28 for selectively switching to one.

The battery pack pouch device 2 of the present invention having such a configuration can be detachably used with a battery available in the home or a battery of a used bulk product. You can also select the battery capacity and number according to the smartphone model. Also, it can be attached and detached regardless of battery size. Since the battery selector 28 is used, it is possible to individually charge the battery, to check the individual charge remaining at any time, and to solve the problem of heat generation (life) at the source.

On the other hand, as a third embodiment of the present invention, instead of the cylindrical large capacity battery 10 employed in FIGS. 1A and 1B, a rectangular portable terminal large capacity battery 11 used in a smart phone is used.

11A and 11B are exploded perspective views of a battery pack pouch device 2 having a charge / discharge function according to a third embodiment of the present invention. FIG. 12 is a perspective view of the battery pack pouch device 2 according to the third embodiment of the present invention, Fig.

Referring to FIGS. 11A and 11B, instead of the cylindrical large capacity battery charging dedicated mounting portion 6 shown in FIGS. 1A and 1B, a square portable terminal large capacity battery charging dedicated mounting portion 7 is formed, In the dedicated mounting portion 7, a rectangular portable terminal bulk-capacity battery 11 capable of serving as a power storage is mounted.

The square portable terminal large capacity battery charging dedicated mounting portion 7 has the same structure as the rectangular portable terminal battery charging dedicated mounting portion 8 adjacent thereto and has a rectangular portable terminal large capacity battery 11 mounted on the mounting portion 7, Is preferably an older, large-capacity, genuine battery which is rarely used as a portable terminal battery.

The rectangular mobile terminal bulk-capacity battery 11 mounted on the mounting portion 7 is used as a power reservoir and is mounted on a portable terminal battery charging-only mounting portion 8 located next to the charging portion according to the present invention. And can charge the portable terminal battery 12.

When the portable terminal battery such as the smart phone currently used by the user is in a completely discharged state and the commercial power can not be charged, the rectangular portable terminal battery can be connected to the portable terminal battery charging- (8), and can be charged from the fully charged rectangular portable terminal large capacity battery (11).

It should be understood that the charging / discharging control circuit portion 22 shown in Fig. 12 exemplifies the use of the manual switches 28a and 32a, but it is also possible to perform the automatic control as shown in Fig. 4, It should be understood that the self-charging cable 56 may be used as in the example of FIG.

The self-charging function of the configuration of the battery pack pouch device 2 as shown in FIGS. 11A, 11B, and 12 can be applied to a fully charged spare battery of a friend of the portable terminal type in an environment It allows you to borrow and charge your cell phone battery.

In addition, the battery pack pouch device 2 of the present invention shown in Figs. 11A, 11B, and 12 can be used not only for charging the portable terminal battery of the same company and the same type, but also for charging portable terminal batteries of other manufacturers and other models It also serves as an all-purpose charger cradle, and dual charging is possible when charging with a commercial AC power source.

That is, the rectangular portable terminal batteries 11 and 12 are mounted one by one in all of the two rectangular portable terminal battery charging / discharging dedicated mounting portions 7 and 8, and charged using both of the two USB input portions 18 and the dual charger , All of the rectangular portable terminal batteries 11 and 12 are simultaneously charged and charged with a charging current of 1A, so that the charging is performed relatively quickly.

As described above, according to the present invention, a plurality of mobile phone batteries of various sizes can be separately installed, and a battery can be charged by receiving a DC power from a general battery charger, and a charged battery (a cylindrical large capacity battery, Battery) may be used and the battery of other electronic equipment may be charged by using the DC boosting unit 26, and an existing cell phone battery of various sizes and capacities may be integrally mounted.

In the present invention, the battery selector 28 is disposed at the front end of the rectangular portable terminal batteries 12, and is installed at the rear end of the rectangular portable terminal batteries 12 to control a plurality of rectangular portable terminal batteries 12 ) May be selected so that the discharge output can be applied to the DC boosting unit 26. [

When the two manual switches 28a and 32a provided in the pouch body 4 of the present invention are suitably used, the cylindrical large capacity charging dedicated mounting portion 6 and the rectangular portable terminal battery charging dedicated mounting portion 8 are provided with corresponding mounting The rectangular portable terminal battery 12 selected by the cylindrical large capacity battery 10 and the battery selector 28 can be simultaneously charged and the rectangular portable terminal battery 12 selected by the cylindrical large capacity battery 10 and the battery selector 28, The battery 12 can be independently charged and the charging time can be increased by using the two USB input units 18 and the dual charger.

Likewise, in the examples of Figs. 11A and 11B and Fig. 12, the rectangular large capacity battery 11 and the battery selector 28 corresponding to the rectangular large capacity charging dedicated mounting portion 7 and the rectangular portable terminal battery charging dedicated mounting portion 8 It is possible to simultaneously charge the rectangular portable terminal battery 12 selected by the rectangular high capacity battery 11 or the battery selector 28 and to charge the rectangular portable terminal battery 12 selected by the rectangular high capacity battery 11 and the battery selector 28, The charging time can be increased by using the input unit 18 and the dual charger.

It should be understood that although the lithium battery is mainly used for the rectangular portable terminal battery described in the embodiment of the present invention, it is also possible to use a lithium polymer battery which is advantageous in safety such as battery explosion.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of claims and equivalents thereof.

The present invention can be used to charge / discharge various types of batteries or to utilize a genuine battery of a conventional portable terminal as an auxiliary battery after replacing a portable terminal such as a smart phone.

(2) - battery pack pouch device (4) - pouch body
(6) - Cylindrical high capacity battery dedicated mounting part
(7) (8) - Rectangular portable terminal battery mounting part
(10) - Cylindrical large capacity battery
(11) - Rectangular mobile terminal large capacity battery (12) - Rectangular portable terminal battery
(14) (16) -charging / discharging terminal part (18) -USB input part
(20) - USB output section (22) - charge / discharge control circuit section
(24) - constant voltage section (26) - DC boost section
(28) - battery selector (28a) - manual switch
(30) - self-charging faded back line (32) - self-charging enable switch
(32a) - manual switch (34) - charge input opening / closing switch
(36) - remaining amount display circuit part (38) - PCM protection circuit
(40), a catching slot (42)
(44) - covers (46) (48) - switch holes
(50) a charge state check unit (52) a self charge cable connection check unit
(54) - control unit (56) - self-charging cable
(58) (62) (68) - Adapter

Claims (16)

In a battery pack pouch device,
The pouch body 4 having the USB input unit 18 and the USB output unit 20 is configured to have the cylindrical large capacity battery loading dedicated unit 6 and the large number of rectangular portable terminal battery loading dedicated loading units 8 And the corresponding charging / discharging terminal portions 14 and 16 are provided in the cylindrical large capacity battery charging dedicated mounting portion 6 and the rectangular portable terminal battery charging dedicated mounting portion 8,
The charging and discharging functions related to the cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12 mounted in the mounting portions 6 and 8 are formed in the pouch body 4, A charging / discharging control circuit unit 22 for performing a charging function to the battery 12 and a quick charging function to the rectangular portable terminal battery 12 using an external commercial power supply,
The charge / discharge control circuit unit 22 includes:
A constant voltage section 24 for maintaining the charge input voltage applied to the USB input section 18 at a constant constant voltage even with the output load fluctuation,
A DC boosting unit 26 for boosting the output power of the cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12 so as to charge other batteries and discharging the output power to the USB output unit 20,
A battery selector 28 for applying the constant voltage input power of the constant voltage section 24 to one of the plurality of portable terminal batteries 12 mounted in the portable terminal battery charging dedicated mounting section 8 or for switching all of the portable terminal batteries 12 to be unattended,
Charge feedback line (30) connected between the output terminal of the DC boosting unit (26) and the input terminal of the constant voltage unit (24).
The battery pack pouch device according to claim 1, wherein the battery selector (28) is configured to be operated by a manual switch (28a).
The battery pack pouch device according to claim 1, further comprising a self-charge activation switch (32) on the self-charge feed back line (30).
The charging device as claimed in claim 3, further comprising a self-charging activation switch (32) and a charging input opening / closing switch (34) for performing an upper / lower switching operation on a power supply line connected between the constant voltage unit (24) and the cylindrical large capacity battery Battery pack pouch device having charge / discharge function.
In a battery pack pouch device,
The pouch body 4 having the USB input unit 18 and the USB output unit 20 is configured to have the cylindrical large capacity battery loading dedicated unit 6 and the large number of rectangular portable terminal battery loading dedicated loading units 8 And the corresponding charging / discharging terminal portions 14 and 16 are provided in the cylindrical large capacity battery charging dedicated mounting portion 6 and the rectangular portable terminal battery charging dedicated mounting portion 8,
The charging and discharging functions related to the cylindrical large capacity battery 10 and the plurality of rectangular portable terminal batteries 12 mounted in the mounting portions 6 and 8 are formed in the pouch body 4, A charging / discharging control circuit unit 22 for performing a charging function to the battery 12 and a quick charging function to the rectangular portable terminal battery 12 using an external commercial power supply,
The charge / discharge control circuit unit 22 includes:
And a battery selector 28 for selecting one of a plurality of rectangular portable terminal batteries 12 mounted on the portable terminal battery charging and discharging exclusive mounting portion 8 so as to be electrically connected to the charging input Characterized in that the power source is configured to be applied to the rectangular portable terminal battery (12) selected by the battery selector (28) together with the cylindrical large capacity battery (10).
6. The method of claim 5,
A connection is established from the USB output unit 20 to the USB input unit 18 through the self-charging feed back line 30 or from the USB output unit 20 to the USB input unit 18 via the self-charging cable 56 Discharging power from the cylindrical large capacity battery (10) is applied to the rectangular portable terminal battery (12) selected by the battery selector (28).
The battery pack pouch device of claim 1 or 5, wherein the USB input unit (18) comprises a dual USB input unit connected in parallel to the constant voltage unit (24).
The battery pack according to any one of claims 1 to 5, further comprising: a remaining capacity display circuit unit for checking and displaying the remaining capacity of the cylindrical large capacity battery (10) and the plurality of rectangular portable terminal batteries (12) mounted on the mounting portions (6) (36) for charging / discharging the battery pack (10).
The battery charger according to claim 1 or 5, wherein the discharge output power from the cylindrical large capacity battery (10) is connected to the USB input unit (18) through a self-charging cable (56) ) To be applied to the rectangular portable terminal battery (12) selected by the user.
The battery pack pouch device according to claim 1, wherein the constant voltage unit (24) further comprises a PCM protection circuit (38) for preventing overcharge discharge to the cylindrical large capacity battery (10).
The method of claim 1, wherein the DC boosting unit (26) and the USB outputting unit (20) each have two independent DC boosting units and a USB outputting unit, but have mutually different output voltages and mutually different USB output currents Battery pack pouch device having a charge / discharge function.
The battery pack according to claim 1 or claim 5, wherein a plurality of fitting slots (40) are formed in the mounting portion (8) for charging the rectangular portable terminal battery so that a plurality of kinds of rectangular portable terminal batteries (12) (42) which is inserted into the fitting slot (40) of the battery pack pouch.
6. The method according to claim 1 or 5,
A charging state check unit 50 for checking the state of charge of each of the plurality of rectangular portable terminal batteries 12 mounted on the rectangular portable terminal battery lifting unit 8,
And a control unit (54) for providing a battery selection control signal to the battery selector (28) based on a result of the check by the charge state check unit (50).
delete In a battery pack pouch device,
The rectangular portable terminal large capacity battery charging dedicated mounting portion 7 and the large number of rectangular portable terminal battery charging dedicated charging mounting portion 8 are formed in the pouch main body 4 having the USB input portion 18 and the USB output portion 20 And a corresponding charging / discharging terminal portion (14) (16) is provided in the rectangular portable terminal large capacity battery charging dedicated mounting portion (7) and the rectangular portable terminal battery charging dedicated mounting portion (8)
A charging and discharging function related to the rectangular portable terminal large capacity battery 11 and a plurality of rectangular portable terminal batteries 12 mounted on the mounting portions 7 and 8 and a rectangular portable terminal large capacity battery 11 are provided in the pouch body 4. [ A charge / discharge control circuit unit 22 for performing a self-charging function to the rectangular portable terminal battery 12 and a quick charge function to the rectangular portable terminal battery 12 using an external commercial power supply,
The charge / discharge control circuit unit 22 includes:
A battery selector 28 for selecting one of a plurality of rectangular portable terminal batteries 12 mounted on the portable terminal battery charging and mounting section 8, Closing switch 32 for opening and closing the charging input power supplied to the dedicated mounting portion 7 so that the charging input power supplied from the outside through the USB input portion 18 is supplied to the rectangular portable terminal large capacity battery 11 And is configured to be simultaneously applied to the rectangular portable terminal battery 12 selected by the battery selector 28 or to be solely applied to the rectangular portable terminal large capacity battery 11 or the selected rectangular portable terminal battery 12. [ The battery pack pouch device having a charge / discharge function.
16. The method of claim 15,
A connection is established from the USB output unit 20 to the USB input unit 18 through the self-charging feed back line 30 or from the USB output unit 20 to the USB input unit 18 via the self-charging cable 56 Discharging power from the rectangular portable terminal's large capacity battery (11) is applied to the rectangular portable terminal battery (12) selected by the battery selector (28).

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