KR20110118195A - Battery pack for cell phone - Google Patents

Abstract

The present invention relates to a mobile phone battery pack, and more particularly to a mobile phone battery pack by providing a charge active induction layer inside the battery pack, a plurality of battery cells in parallel.
According to the present invention, when energy is applied to a reactant by using ionization characteristics of the reactant inside the battery, the battery cell 1 is ionized to a polarity that is easy to be affinity and has a positive / negative polarity. In the battery pack 10 of the built-in mobile phone, the charge active inducing layer 12 for actively inducing the movement of the charge is provided inside the battery pack body 11 in which the electrolyte is charged, and a plurality of battery cells 1 are provided. It is characterized by being connected to the electrode in parallel.
The present invention provides a charge active induction layer inside the battery pack, induces the movement of charges to be constantly and actively moving, and by providing a plurality of battery cells in parallel, the charge is made in a short time and the discharge is made for a long time As a result, the discharge time can be significantly increased compared to the charging time.

Description

Mobile phone battery pack {BATTERY PACK FOR CELL PHONE}

The present invention relates to a mobile phone battery pack, and more particularly to a mobile phone battery pack by providing a charge active induction layer inside the battery pack, a plurality of battery cells in parallel.

In general, batteries can be divided into primary batteries such as alkaline batteries and mercury batteries that we frequently use and throw away, and rechargeable batteries such as nickel-acid batteries, nickel-hydrogen batteries, and lithium ion batteries that can be recharged and used repeatedly. have.

These are all chemical cells, and when the energy is applied to the reactants using the ionization characteristics of the reactants inside the cells, they are ionized to a polarity that is easy to be affinity, and have a positive / negative polarity, and are converted into electrical energy if necessary. These reactions are classified as irreversible primary cells and reversible secondary batteries, and the former is often referred to as batteries and the latter as accumulators (or rechargeable batteries).

The storage battery has been developed into a lead-acid battery mainly used in automobiles, a Ni-cad battery, a nickel-metal hydride battery, and the like, and mobile phones use high-efficiency, pollution-free lithium-ion batteries. Many companies are using lithium polymer batteries.

In the lithium ion battery, as shown in the accompanying drawings, as shown in FIG. 1, an aluminum foil is used as a current collector to a compound combined with a specific metal group, such as lithium ions, cobalt, and molybdenum, and oxygen, as a positive electrode (+) as an active material. In (-), a battery cell (C) made of a copper foil as a current collector in a carbonaceous material is housed in a can (H) filled with an electrolyte solution composed of an aprotic organic solvent in which lithium salt is dissolved. It is possible to reciprocate, and the charging and discharging effect can be obtained by causing oxidation and reduction reaction of electrons in the positive anode.

During charging, lithium ions moved from the anode to the cathode are stabilized by the electrons supplied from the charger to the carbon material of the cathode to have energy. During discharge, the lithium ions are returned from the cathode to the cathode, and current flows through the external circuit. Will lose.

The basic principle of the lithium polymer battery is the same as that of the lithium ion battery, but by polymerizing a liquid electrolyte in a polymer state and combining the polymer in a polymer state, it is possible to further stabilize and have a high energy density by preventing gas or leakage caused by decomposition of the electrolyte. .

The conventional mobile phone battery pack as described above consists of a single battery cell, the charge capacity is limited, there is a problem that the discharge time, that is, the use time (about 24 Hour to 48 Hour) short.

The present invention created to solve the above problems, by providing a charge active induction layer inside the battery pack to induce the movement of the charge to move constantly and vigorously, by providing a plurality of battery cells in parallel and a plurality of short time The aim is to provide a cell phone battery pack that charges and discharges for a long time.

According to the present invention, when energy is applied to a reactant by using ionization characteristics of the reactant inside the battery, the battery cell 1 is ionized to a polarity that is easy to be affinity and has a positive / negative polarity. In the battery pack 10 of the built-in mobile phone, the charge active inducing layer 12 for actively inducing the movement of the charge is provided inside the battery pack body 11 in which the electrolyte is charged, and a plurality of battery cells 1 are provided. It is characterized by being connected to the electrode in parallel.

The present invention provides a charge active induction layer inside the battery pack, induces the movement of charges to be constantly and actively moving, and by providing a plurality of battery cells in parallel, the charge is made in a short time and the discharge is made for a long time As a result, the discharge time can be significantly increased compared to the charging time.

1 is a cross-sectional view showing the configuration of a conventional battery pack.
2 is a perspective view showing an appearance according to an embodiment of the present invention.
Figure 3 is an exploded perspective view showing the internal configuration according to an embodiment of the present invention.
4 is a cross-sectional view showing in more detail the internal configuration and structure according to an embodiment of the present invention.
5 is a cross-sectional view showing a configuration of a battery cell according to another embodiment of the present invention.

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

First, as shown in FIGS. 2 to 4, when the energy is applied to the reactants using the ionization characteristics of the reactants inside the battery, the present invention is ionized to a polarity that is easy to be affinity, and thus has a positive / negative polarity. In the battery pack 10 of the mobile phone with the battery cell 1, which is converted into electrical energy when necessary, charge active induction which actively induces the movement of electric charges inside the battery pack main body 11 in which the electrolyte is charged. The layer 12 may be provided, and a plurality of battery cells 1 may be connected to electrodes in parallel.

Before explaining the present invention, for reference, in the accompanying drawings, the electrode specific structure of the battery pack 10 is omitted, but a battery pack main body having a one-side open housing shape for accommodating the battery cell 1 and the battery pack It may be made of a plate provided with a terminal portion such as a positive terminal and a negative terminal fixed to the open end of the main body, a gasket and an insulator to prevent the airtightness and short-circuit of the battery pack body and the plate or the terminal connecting portion.

Here, in the present invention, the battery cell 1 may be a cathode made of a lithium metal oxide between the separator, a cathode made of a carbon-based compound such as graphite, and an electrolyte of a lithium salt component around the anode and the cathode material. .

In this case, the number of parallel connections of the battery cells 1 may be connected between two to ten depending on conditions such as the use of the battery, capacity, and specification.

In addition, the electrolyte may be a solution or gel type.

The battery cell 1, when an electrical signal is applied, lithium ions from the lithium metal oxide of the positive electrode moves through the electrolyte to the carbon-based compound of the negative electrode to generate electricity, the amount of electricity generated over time Many charges are made.

On the contrary, when lithium ions of the negative electrode flow to the positive electrode, discharge occurs, thereby supplying electricity required for the cell phone circuit.

Meanwhile, in the present invention, the charge active inducing layer 12 is a thin film made of glass, and may be formed by being deposited or adhered to or coated on an inner surface of the battery pack body 11.

Here, the movement of metal ions inside a solid such as glass is a well known phenomenon, and in general, alkali metal ions such as Li +, Na + and K + are highly mobile and active ions on the glass surface.

At this time, the charge-inducing layer 12 is combined with an alumina or tantala film as a cation percent value, and the formula P1 = [Na ++ Li ++ K ++ Cs ++ Rb +] + 2 [Sr2 + + Bm2 + + Ca2 + / 2]-[ Al 3+] and the silica film combined to make the formula P = P1- 0.6 [B 3+]-[Zn2 + + Be2 + + Mg2 + + Ca2 + / 2] negative, so that the flow direction of the moving alkali ions is Consisting of silica, alumina, and tantala films on a glass surface with a composition containing a high amount of high field strength ions and a content of mobile alkali metal ions, possibly altering the coordination It may be a barrier layer oxide film selected from the group or a glass film on which the film is deposited.

At this time, in the present invention, an embodiment of the alkali metal ion is referred to as lithium ion.

In addition, the charge active inducing layer 12 may be deposited or coated or laminated on the surface of the anode film made of lithium metal oxide, but may be folded and formed of several layers.

In addition, the charge active induction layer 12 is deposited or bonded or coated on the inner surface of the mobile phone battery pack 10, at the same time, deposited or coated or laminated on the surface of the anode film made of lithium metal oxide, folded several layers It can also be made.

Meanwhile, in the present invention, the plurality of battery cells 1 connected in parallel may be connected to each of the positive / negative electrodes by being welded to the corresponding electrode terminal through one electrode wire.

In this case, the battery cells 1 connected in parallel may be blocked through the partition wall 13 made of an insulator. The charge active inducing layer 12 may also be provided on the surface of the partition 13.

In addition, the present invention compares the temperature sensor and the real-time temperature of the battery pack 10 detected by the temperature sensor and the temperature detection sensor for maintaining a proper temperature and the overheat prevention circuit or overheating prevention device to block the charge if more than + It may be provided on the electrode side. In this case, the temperature sensor and the overheat protection circuit or element may be a resistor and / or a diode or a combination thereof.

Then, by monitoring that the battery pack 10 is ideally overheated by overcharging or overvoltage, it is possible to prevent the battery pack 10 from swelling or exploding in severe cases due to overheating.

Referring to the operation of the present invention configured as described above are as follows.

According to the present invention, when an electrical signal is applied to the electrode terminal of the battery cell 1, lithium ions from the lithium metal oxide of the positive electrode move through the electrolyte to the carbon-based compound of the negative electrode, and electricity is generated. Over time, it accumulates and charges.

In this case, as a thin film made of glass, electricity, that is, lithium ion particles are actively flowed through the charge active inducing layer 12 that is deposited, adhered, or coated on the inner surface of the battery pack 10, thereby quickly filling. .

In addition, the charge active induction layer 12 is deposited or coated or laminated on the surface of the anode film made of lithium metal oxide, the same effect is achieved in the structure consisting of several layers folded, the charge active induction layer 12 While being deposited or adhered to or coated on the inner surface of the battery pack 10, the anode film is made of lithium metal oxide, which is deposited, coated, or laminated on the surface of the battery pack 10. As a result, rapid charging is achieved.

At this time, the present invention is a plurality of battery cells (1) are connected in parallel, contrary to the state of charge, when the lithium ion of the negative electrode flows to the positive electrode starts to discharge, supply the electricity required for the cell phone circuit, connected in parallel By significantly increasing the discharge time, the battery life is extended.

According to the present invention as described above, the charge active inducing layer 12 is provided inside the battery pack, thereby inducing the movement of the charge constantly and actively, and providing a plurality of battery cells 1 in parallel to charge in a short time. By making this and discharging for a long time, the discharge time can be significantly increased compared to the charging time.

In the accompanying drawings of the present invention, "+" and "-" indicate polarities of electrode terminals.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described.

10: battery pack 11: battery pack body
12: charge active induction layer 13: partition wall
1: battery cell

Claims (2)

When the energy is applied to the reactants by using the ionization characteristics of the reactants inside the battery, the mobile phone is equipped with a battery cell (1) that is ionized to a polarity that is easy to be affinity and has a positive / negative polarity and is converted into electrical energy if necessary. In the battery pack 10 of
A mobile phone battery comprising a charge active inducing layer 12 for actively inducing charge movement in a battery pack body 11 in which an electrolyte is charged, and connecting a plurality of battery cells 1 to electrodes in parallel. pack.
The method of claim 1,
The battery cell 1 is formed by filling an anode made of a lithium metal oxide between the separator, a cathode made of a carbon-based compound such as graphite, and an electrolyte of a lithium salt component around the anode and the cathode material, and inducing the charge active induction. Layer 12 is a thin film of glass material, characterized in that the mobile phone battery pack, characterized in that the deposition or adhesion or coating on the inner surface of the battery pack body (11).

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