KR101925843B1 - System for changing capacity of battery pack - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a system for varying the capacity of a battery pack, and more particularly, to a system in which a battery pack is slidably inserted into or removed from a battery pack, , It is possible to carry only the necessary capacity, so that it is not only easy to carry according to the purpose of use, but also it is possible to adjust the power supply capacity by the required capacity, and the outer rail guide and the both side portions So that the battery pack can be easily assembled and disassembled individually. Each battery pack is provided with a pair of contacts at the upper and lower ends of the battery pack, , Negative contacts, and communication contacts are exposed to the outside, The master controller can control the number of battery packs, voltage, output control, and I / O terminals in a single unit, so that the control of the system that varies the capacity of the battery pack It is easy to connect and detach the battery pack by the rail or the fitting method so that the end or the end of the master controller can be connected mechanically continuously and the handle or the ring can be attached So that the portability can be improved.

Description

[0001] The present invention relates to a system for changing the capacity of a battery pack,

According to the present invention, since the battery pack can be inserted or removed according to circumstances, the battery pack can be pushed into the slide, and the battery pack can be separately assembled and separated, thereby making it portable. The power supply capability can be adjusted to the required capacity and the inner rail guide can be formed on both sides of the upper part of the upper part of the battery pack and on the entire sides of both sides of the lower part of the lower part of the battery pack, The battery pack is exposed to the outside so that both the battery pack and the communication port can be connected to each other. Both the upper and lower ends of the battery pack are exposed to the outside of the two contacts, the negative contacts and the communication contacts, The packs can easily be connected to the contacts to expand capacity, and the number, voltage, Output control, and I / O terminal are controlled by the master controller, it is easy to control the system that varies the capacity of the battery pack, and the method of combining and separating the battery pack is a rail type or an insertion type The capacity of the battery pack that can improve portability can be varied by attaching a knob or a ring to attach the handle or the carrier to the upper portion of the master controller System technology.

BACKGROUND ART [0002] Generally, a rechargeable battery pack is used as a power source for a mobile communication terminal. The battery pack used in a mobile communication terminal is divided into a small capacity or a large capacity according to its size or thickness. Is used.

The structure of coupling the battery pack to the back surface of the conventional mobile communication terminal is as follows.

A battery pack coupling portion having an operation tab serving as a fixing means of the battery pack is formed on the back surface of the mobile communication terminal body and a separate fixing groove is formed in the battery pack coupled to the battery pack coupling portion, The operation tab is engaged with the fixing groove so as to fix the battery pack to the battery pack coupling portion. When the battery pack is to be separated from the battery pack coupling portion, So as to be separated from the groove.

However, the conventional battery pack coupling structure as described above requires a lot of space for installing the operation tab in the battery pack coupling part formed on the back surface of the mobile communication terminal, .

The battery used in the portable digital device uses a rechargeable secondary battery, and representative examples of the secondary battery are semi-permanently usable batteries such as a lithium ion battery, a nickel cadmium battery, and a nickel metal hybrid battery .

Such a general secondary battery can be classified into a wire-connected battery type, an inner battery pack type, and a tubing battery type, depending on the use and mounting manner thereof.

The inner battery pack includes a battery cell, a battery case, and a battery cover, and is inserted into a portable digital device to supply power. The inner battery pack type is composed of a hard pack type and a soft pack type according to the coupling structure.

Since the hard pack type battery pack must be bonded by using an ultrasonic welding machine, the thickness of the molded product must be thick. If the thickness of the molded product increases, the product becomes slim.

In the soft pack type, there is a problem that the support portion of the side breaks or warps and the battery cell detaches from the battery pack.

On the other hand, since the battery pack can be inserted or removed depending on the situation, the battery pack can be pushed into the slide so that the battery pack can be individually assembled and separated. Thus, the portable battery pack can be carried only by the required capacity. The power supply capability can be adjusted by the required capacity, and the master controller controls all the control of the number of the battery packs, the voltage, the output control, and the input / output terminals to control the capacity of the battery pack. , Automation systems, and systems for varying battery packs in the aviation industry have not yet been developed.

Therefore, the battery pack can be added or removed depending on the situation, so that the battery pack can be pushed into the slide so that the battery pack can be individually assembled and separated. Thus, the battery pack can be carried only by the required capacity. The power supply capability can be adjusted by the required capacity. In order to connect the power supply or communication port of each battery pack, both the upper and lower ends of the battery pack are exposed to the outside, the negative contacts and the communication contacts, respectively The individual battery packs can be easily connected to the contact points and the capacity can be increased. The master controller controls all the control of the number of the battery packs, the voltage, the output control, and the input / output terminals. The control of the system is easy, and the handle or carrier is attached to the upper part of the master controller It is given by attaching a handle or a ring so that a situation which is to develop a system for varying the capacity of the battery pack which can improve portability urgently required.

KR 20-2006-0013522 (May 19, 2006)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a battery pack, And it is an object of the present invention to provide a system for varying the capacity of a battery pack, which can easily adjust the power supply capacity to a required capacity, as well as being portable easily according to the purpose of use.

It is another object of the present invention to provide a battery pack in which an inner rail guide is formed on the entire side portions of both sides of an upper end of the battery pack and on both sides of the lower end of the lower end of the battery pack, The capacity of which is variable.

Another object of the present invention is to provide a battery pack in which each of the battery packs is exposed to the outside of both the upper and lower ends of the battery pack so that the power supply or the communication port can be connected to each other, In which the packs are easily connected to the contact points, thereby varying the capacity of the battery pack.

It is another object of the present invention to provide a battery pack which can easily control the system for varying the capacity of the battery pack by allowing the master controller to collectively control the number of battery packs, And a system for varying the capacity.

It is another object of the present invention to provide a system for varying the capacity of a battery pack which can be coupled continuously in an infinite fashion by employing a rail system or an insertion system in which battery packs are coupled and separated.

It is another object of the present invention to provide a system for varying the capacity of a battery pack capable of improving portability by attaching a handle or a ring so that a handle or a carrier can be attached to an upper portion of a master controller.

According to an aspect of the present invention, there is provided a system for varying the capacity of a battery pack, including a handle or a ring for mounting a handle or a carrier on an upper portion of the master controller, A master controller for collectively processing all controls of voltage, output control, and input / output terminals; The power supply capability can be adjusted by a required capacity, and the battery pack can be easily assembled and separated individually to slide the battery pack into the slide so that it can be added or removed depending on the situation. The outer rail guide on the whole part and the rail type in which the inner rail guide is formed on the entire sides of the lower part of the lower part of the battery pack to or from which the individual battery packs can be easily connected to each other. An individual battery pack in which both contacts, negative contacts, and communication contacts are exposed to the upper and lower ends of the battery pack, respectively, so that the power supply or communication port can be connected; And a battery built in the individual battery pack is a lithium battery or a lithium iron phosphate battery selected from a lithium ion battery and a lithium ion polymer battery.

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In the present invention, the method of joining and separating the individual battery packs may include a method of rails or fittings, which can be engaged mechanically continuously.

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In the present invention, the individual battery pack may further include a protection circuit module including a circuit for performing an overcharge protection function, an overcurrent protection function, an over-discharge protection function, and a short-circuit protection function to safely use the battery .

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As described above, the system for varying the capacity of the battery pack of the present invention has the following effects.

First, according to the present invention, a battery pack can be inserted into or removed from a slide so that the battery pack can be added or removed according to circumstances, This ease of operation as well as the power supply capability can be adjusted to the required capacity.

Second, the inner rail guide is formed on the entire side portions of both sides of the upper end of the battery pack, and the inner rail guides are formed on the entire sides of both sides of the lower end of the battery pack, thereby easily joining and separating the battery packs individually.

Third, in the present invention, each of the battery packs is exposed to the outside of both the upper and lower ends of the battery pack so that the power supply or the communication port can be connected to each other. Can easily be connected to the contact point, and the capacity can be expanded.

Fourth, the present invention controls the number of battery packs, the voltage, the output control, and all the controls of the input / output terminals by a master controller, thereby easily controlling the system for varying the capacity of the battery pack.

Fifth, according to the present invention, the method of assembling and separating the battery packs is a rail system or an insertion system, so that the system can continuously and infinitely couple.

Sixth, the present invention can improve the portability by attaching a handle or a hook so that a handle or a carrier can be attached to an upper part of the master controller.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a combined structure of a capacity varying system of a battery pack according to an embodiment of the present invention; FIG.
2 is a view showing a configuration for coupling individual battery packs in a system for varying the capacity of a battery pack according to an embodiment of the present invention;
FIG. 3 is a cross-sectional view of a battery pack according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of a battery pack according to an embodiment of the present invention. Fig. 8 is a view showing a shape in which an outer rail guide is formed;
FIG. 4 is a cross-sectional view of a battery pack according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of a battery pack according to an embodiment of the present invention. Fig. 8 is a view showing a shape in which an inner rail guide is formed.
FIGS. 5A and 5B are views showing a configuration in which a handle or a ring is mounted so that a handle or a carrier can be attached to an upper portion of a battery pack in a system for varying the capacity of the battery pack according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of related art or configuration may unnecessarily obscure the gist of the present invention, The description will be omitted, and the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator, and the like. It should be understood that the present invention is not limited thereto.

Hereinafter, a system for varying the capacity of a battery pack according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a configuration in which a system for varying the capacity of a battery pack according to an embodiment of the present invention is combined. FIG. 2 is a schematic view of a system for varying the capacity of a battery pack according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of a battery pack according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of a battery pack according to an embodiment of the present invention. FIG. 4 is a perspective view of a system for varying the capacity of a battery pack according to an embodiment of the present invention. FIG. 4 is a cross- 5A to 5C are views showing a state in which a positive contact, a negative contact and a communication contact are exposed to the outside and an inner rail guide is formed on the entire sides of both sides of the lower end of the battery pack. FIG. 5B is a view illustrating a configuration in which a handle or a ring is attached to an upper portion of a battery pack in a system for varying the capacity of the battery pack according to an embodiment of the present invention so that a handle or a carrier can be attached.

The system 40 for varying the capacity of the battery pack of the present invention includes a master controller 10, an individual battery pack 20, an outer rail guide 21, an inner rail guide 22, a positive contact 23, 24, a communication contact 25, a handle 30, and a ring 31.

1 to 5B, a system 40 for varying the capacity of a battery pack according to the present invention includes a master controller (not shown) for collectively processing the number of battery packs, voltage, output control, ) 10; An individual battery pack 20 connected to the master controller 10 for coupling or disconnecting the battery packs in a rail manner in which the power supply capability can be adjusted by a required amount, ); Respectively.

The function of each technical means constituting the system for varying the capacity of the battery pack of the present invention will be described as follows.

The master controller 10 collectively processes the number of battery packs, the voltage, the output control, and all the controls of the input / output terminals.

A handle 30 or a ring 31 is mounted on the upper end of the master controller 10 so that a handle or a carrier can be attached.

The individual battery pack 20 is connected to the master controller 10 and is coupled to the slide so that it can be added or removed depending on the situation so that the power supply capability can be adjusted by a required capacity. To be separated.

Each of the individual battery packs 20 has an outer rail guide 21 and a lower end of the battery pack 20 on both sides of the upper end of the battery pack 20, The inner rail guide 22 is formed on the entire side surfaces of both sides of the inner rail guide 22.

The individual battery pack 20 can be easily connected to the individual battery packs 20 so that the battery pack 20 can be easily connected to the battery pack 20 at the upper and lower ends of the battery pack 20, The positive contacts 23, the negative contacts 24 and the communication contacts 25 are exposed to the outside.

The method of coupling and separating the individual battery packs 20 may be a rail type or a fitting type so that they can be continuously connected mechanically. Any method other than the above-described method may be used.

In addition, the individual battery pack 20 includes a protection circuit module (not shown) that includes a circuit for performing an overcharge protection function, an overcurrent protection function, an over-discharge protection function, and a short-circuit protection function, .

Here, the protection circuit module (not shown) is a safety device that allows the battery to be used safely and for a long time, and is a necessary circuit to be always used together when the battery is used. The reason why the protection circuit module is needed is that the lithium ion battery and the lithium polymer battery should be protected from overcharging and overdischarging in order to maintain optimal performance. , The electrolyte is decomposed and gas is generated or pressure is applied to the safety valve, which causes the pressure between cells to increase. As a result, the electrolyte leaks from the cell. That is, it causes the risk of explosion. On the other hand, when the battery is overdischarged, the negative electrode is broken and the performance of the battery is deteriorated. As a result, a protection circuit module having the following functions is required to prevent the risk of the lithium ion secondary battery. Overcharge protection, Overdischarge protection, Overcurrent protection, and Short-circuit protection are all available.

The overcharge protection function is a function of detecting the battery voltage when the battery voltage rises due to the charging voltage and current inputted from the outside and blocking and releasing the battery from being charged to a voltage exceeding the overcharge voltage set in the module, Is a function of detecting the battery voltage when the voltage of the battery is gradually discharged by the current consumed to the outside and blocking and releasing the battery from discharging below the over discharge voltage set in the module, And the charging and discharging current is blocked or released in order to prevent the charging and discharging current from being charged or discharged due to an overcurrent set in the module. The shorting protection function is a function of shorting the +, - terminal from the outside of the battery Since 20 times the current of the battery capacity flows momentarily, It is a function to prevent accidents and to protect the battery.

In addition, a lithium battery selected from the group consisting of a lithium ion battery and a lithium ion polymer battery is most suitable as the battery included in the individual battery pack 20, but a lithium iron phosphate battery may be used.

The lithium battery refers to a lithium ion battery. The lithium ion battery is a kind of secondary battery, in which lithium ions move from a cathode to an anode during a discharge process. At the time of charging, lithium ions move from the anode to the cathode again and find their place. A lithium ion battery is different from a lithium battery, which is a primary cell that can not be charged and reused, and is different from a lithium ion polymer battery using a solid polymer as an electrolyte.

Lithium-ion batteries have high energy density and no memory effect, and they are widely used in portable electronic devices because of their small self-discharge even when not in use. In addition, the frequency of use is increasing in defense industry, automation system, and aviation industry by using characteristics of high energy density. However, care should be taken in general lithium-ion batteries as they may explode if misused.

Lithium-ion batteries can be roughly divided into three parts: anodes, cathodes, and electrolytes. A wide variety of materials can be used. The most commonly used cathode material is graphite. In the anode, a layered oxide such as lithium cobalt oxide, a polyanion such as lithium iron phosphate (LiFePO ₄ ), lithium manganese oxide, and spinel are used. In the beginning, titanium disulfide (TiS ₂ ) Used. The voltage, lifetime, capacity, and stability of the battery can be greatly changed depending on which material is used as the cathode, the anode, and the electrolyte. In recent years, the performance of batteries has been improved by applying nanotechnology.

The capacity of the battery is indicated by mAh (milliamperes) or Ah (amperage). The battery used for the mobile phone is 800 ~ 1000mAh, and the battery used for the smartphone is 1500 ~ 5000mAh. 2400 ~ 5500mAh is the most used battery for notebook.

In addition, since the lithium iron phosphate battery has a long life time of about 3 to 5 times as compared with the conventional lead acid battery, it can reduce the frequent replacement cost of the battery and is a sealed battery and the electrolytic solution is lithium salt, The battery can exhibit battery performance even at a low temperature of -20 ° C.

As described above, the system for varying the capacity of the battery pack of the present invention can be applied to defense industry, automation system, and aviation industry fields in addition to electronic devices for mobile phones, various leisure equipment, and sports equipment, will be.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

10: Master controller 20: Individual battery pack
21: outer rail guide 22: inner rail guide
23: positive contact 24: negative contact
25: Communication contact point 30: Handle
31: Ring
40: System for varying the capacity of the battery pack

Claims (7)

In a system for varying the capacity of a battery pack,
A master controller is equipped with a handle or a ring for attaching a handle or a carrier to the upper part of the master controller and collectively controls the number of batteries, voltage, output control, and I / ;
The power supply capability can be adjusted by a required capacity, and the battery pack can be easily assembled and separated individually to slide the battery pack into the slide so that it can be added or removed depending on the situation. The outer rail guide on the whole part and the rail type in which the inner rail guide is formed on the entire sides of the lower part of the lower part of the battery pack to or from which the individual battery packs can be easily connected to each other. An individual battery pack in which both contacts, negative contacts, and communication contacts are exposed to the upper and lower ends of the battery pack, respectively, so that the power supply or communication port can be connected; Wherein the battery included in the individual battery pack is a lithium battery or a lithium iron phosphate battery selected from a lithium ion battery and a lithium ion polymer battery. delete delete The method according to claim 1,
Wherein the method of combining and separating the individual battery packs includes a method of rails or fittings, and a method of continuously connecting the battery packs. delete The method according to claim 1,
Wherein the individual battery pack includes a protection circuit module that includes a circuit for performing an overcharge protection function, an overcurrent protection function, an over-discharge protection function, and a short-circuit protection function to safely use the battery. System. delete

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