KR20060087788A - Lithium rechargeable battery - Google Patents

Abstract

In a lithium secondary battery comprising an electrode assembly including a positive electrode, a separator, and a negative electrode and a case for sealing the electrode assembly, at least one of two electrodes of the secondary battery so as to exhibit a depth of charge at an externally observable position. Disclosed is a lithium secondary battery, which is provided by providing an indicator that is electrically connected to a battery. According to the present invention, the user of the secondary battery can accurately determine the state of charge and discharge of the battery, i.e., the remaining charge, and thus, it is easy to use the battery reasonably and efficiently. There is an advantage to be able to pinpoint the remaining amount.

Description

Lithium secondary battery {Lithium rechargeable battery}

1 is a perspective view illustrating a secondary battery in which an indicator that changes color according to a voltage change of a battery is installed as an embodiment of the present invention;

FIG. 2 is a perspective view illustrating a secondary battery having an indicator in which an indicator bar of an LCD window is changed according to a voltage change of a battery according to another embodiment of the present invention;

3 is a perspective view illustrating a hot melt can type secondary battery in which an indicator that changes color according to a voltage change of a battery is installed as another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: hard case 20,125: electrode terminal

30, 40, 127: indicator 100: bare cell

110: resin 120: protective circuit board

The present invention relates to a lithium secondary battery capable of charging and discharging, and relates to a lithium secondary battery capable of confirming a charging and discharging state.

Lithium secondary batteries that can be charged and discharged have higher energy density per unit weight and rapid charging than conventional rechargeable batteries such as lead acid batteries and nickel-cadmium batteries due to the light atomic characteristics of lithium. This is actively going on.

Lithium secondary batteries use nonaqueous electrolytes because of their reactivity with lithium. In this case, the non-aqueous electrolyte may be a solid polymer containing a lithium salt. Lithium ion polymer battery using solid polymer electrolyte is divided into fully solid lithium ion polymer battery containing no organic electrolyte and lithium ion polymer battery using gel polymer electrolyte containing organic electrolyte. Can be. Usually, a lithium ion battery means using electrolyte solution among lithium secondary batteries. Lithium secondary batteries may broadly also include lithium metal batteries, but are rarely used due to the risks due to the strong activity of lithium.

In the lithium secondary battery, an electrode assembly is formed of a laminate, a multilayer laminate, and a jellyroll formed by winding a laminate between electrodes of two polarities, and the electrode assembly is formed together with an electrolyte in a case. Each electrode is usually formed by coating a slurry formed by stirring an electrode active material, a conductive aid, a binder, a solvent, etc. according to polarity, and removing the solvent.

The lithium secondary battery maintains the same level of voltage in a significant period during normal charging and discharging, but has a characteristic that the voltage changes regularly depending on the charging and discharging state. Using these characteristics, electric and electronic product set companies that install lithium secondary batteries as power sources often install circuits that detect and display voltage changes in the product sets, and display the charge and discharge status of the lithium secondary battery as a power source. many.

However, when the lithium secondary battery is independently charged and discharged without being connected with the product set, or when the product set does not have a function indicating the charge / discharge state of the battery, the user cannot check the remaining time of the device. . Accordingly, a user may not be able to efficiently and efficiently use a device that uses a secondary battery as a power source.

In addition, when the battery is discarded for some reason, a plurality of lithium secondary batteries are often loaded and transported in a bulk state. When these batteries are in a charged state, external terminals may touch each other, or two poles of the same battery may be shorted via different conductors, resulting in safety-related accidents such as severe heat generation, increased internal pressure, and explosion. However, there is usually no method of determining the state of charge by the secondary battery itself, and it is cumbersome to check the remaining amount of the secondary battery that is discarded every day.

Of course, when charging the secondary battery, when the secondary battery is not sufficiently charged, a specific color appears in the charger, and when fully charged, it may be a different color. However, the function of such a charger alone cannot overcome the problems in the above cases, and the color of the charger is limited to about two to three colors, so it is very difficult to accurately determine the remaining charge of the secondary battery.

 An object of the present invention is to provide a lithium secondary battery that enables a user of a secondary battery to accurately grasp the state of charge and discharge of the battery, that is, the remaining charge.

An object of the present invention is to provide a lithium secondary battery that can accurately grasp the remaining amount of charge only by the secondary battery itself without a separate charger or a product set.

The present invention for achieving the above object is characterized by providing an indicator that can show the depth of charge (charge level) on the outside of the lithium secondary battery.

In the present invention, the indicator is preferably installed at a position outside the secondary battery, which is easy for the user to check.

The indicator is electrically connected to at least one of the two electrodes of the secondary battery, and when both electrodes are connected, it is preferable that the resistance thereof is large so that there is almost no flow of current therethrough.

In addition, when the electrode of the secondary battery is connected via a protective circuit board forming a safety device, the applied voltage may be weakened. Therefore, the closer the indicator terminal is to the electrode tab of the electrode assembly, the better.

In the present invention, the indicating means of the indicator may be a change in color or a size displayed on the display window. When the indicator means a change in color, the indicator may be an electrochromic material that changes color in accordance with the magnitude of the voltage or current applied to the terminal.

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

1 is a perspective view illustrating a secondary battery in which an indicator that changes color according to a voltage change of a battery is installed as an embodiment of the present invention, and FIG. 2 is another embodiment of the present invention. It is a perspective view which shows the secondary battery in which the indicator in which the size of an indication bar changes is installed.

3 is a perspective view illustrating a hot melt can type secondary battery in which an indicator that changes color according to a voltage change of a battery is installed as another embodiment of the present invention.

Referring to Figure 1, the indicator 30 has an electrochromic portion in the form of a circular window. Within this window is installed an electrochromic material that changes color with voltage. The electrochromic material is connected to one electrode shaped like a window, or is installed between two electrodes. Each electrode is connected to the corresponding electrode terminal 20 of the secondary battery hard case 10. However, when provided between two electrodes, at least the outer electrode uses a transparent electrode such as indium tin oxide (ITO) so that the color of the electrochromic material can be observed. The two electrode terminals may be two electrode terminals exposed to the outside of the secondary battery hard case, two electrode terminals formed in the protection circuit board, or two electrode tab terminals drawn out from the bare cell.

Referring to FIG. 3, when the secondary battery exterior is formed by tubing in a state in which a hot melt resin is filled between the bare cell and the protection circuit board, the protection circuit board may be connected to the electrode terminal 125 formed on the protection circuit board 120. The indicator 127 of the present invention may be formed at a portion on the surface of 120. That is, when the exterior of the secondary battery is formed by connecting the bare cell 100 and the protection circuit board 120 with the hot melt resin 110, the indicator 127 is the hot melt resin 110 among the rebound circuit boards 120. It may be formed in a portion that is not covered with). Indicator 127 is preferably installed in a position that can be easily confirmed even when mounted on a charger or other set device. That is, it is preferable to install the indicator 127 so that the indicator 127 can be easily checked during charging and discharging or in use.

In the present embodiment, the window can be installed in a small space. Therefore, when the protective circuit board is formed, the indicator of the present invention may be installed together with the external electrode terminals on the side exposed to the side or the outside of the protective circuit board.

Electrochromic materials exist in various forms, such as polymer compounds, among organic materials, inorganic materials, and organic materials. There are various kinds of electrochromic materials from simply having two or three color changes to various color changes. Can be used.

For example, the electrochromic polymer window has a property of converting colors as thought of chameleons, and the conductive polymer has a sandwich structure sandwiched between conductive glass electrodes. It is designed to be converted into various absorption states by passing electric current (for example, blue or green). It can be used to shield unwanted forms of electromagnetic waves or to control solar energy.

It has been confirmed that the absorption characteristics of the electron spectrum of such an electrochromic polymer can be optimized. Since it can cover almost all electron spectra, it is possible to be used for a wide range of applications. The conductive polymer is also designed at the molecular level.

Referring to FIG. 2, the indicator 40 is formed to be long in a bar shape with an LCD window. This indicator 40 is also connected to the two electrode terminals 20 of the secondary battery hard case 10.

The indicator 40 may be installed such that the size of the bar of the indicator 40 varies according to the voltage, as the length of the indicator bar of the sound device increases depending on the volume.

On the other hand, the indicator is formed to have a different color for each length section, the electrochromic polymer window is installed thereon, the polymer design is changed for each window section, the transparency of the polymer changes according to the voltage change, corresponding to the battery voltage Only the part to be transparent may be formed to show the color of the part.

In the present embodiment, as in the embodiment of FIG. 1, when the secondary battery exterior is in the form of a hard case 10, an indicator is formed on a portion of the surface of the hard case to be connected to the electrode terminal 20 formed in the hard case 10. will be. Alternatively, the indicator bar may be provided along the side of the protective circuit board.

In the present invention, the indicator is usually connected in parallel with the two electrodes. In this case, if the indicator does not have a high resistance, the leakage current increases between the electrodes, thereby decreasing the use efficiency of the battery. Therefore, the electrochromic material used in the indicator usually uses a semiconductor or a high resistor.

The electrochromic material may be installed in the secondary battery in such a manner as to form an electrochromic part by replacing a part of the exterior material and the tubing material covering the can forming one electrode of the bare cell. The electrochromic part may be installed at two or more places of such an exterior material to facilitate external observation.

Compounds that can be used in such an embodiment include polythiophene series, polypyrrole series, and polyaniline series, which are conductive polymers. For example, the polythiophene compound has a brown color tone in the reduced natural state, but a dark green color tone when an oxidation potential is applied or an electric current passes. Thus, when a short circuit occurs between the pouch metal foil and the negative electrode or a short circuit between the negative electrode and the positive electrode through the pouch metal foil, the electrochromic part is discolored to dark green.

In the present invention, the current flowing through these compounds and the potential change applied are likely to have a minute size. Therefore, in order to detect such a small potential change or an electric current, it is preferable that the electrochromic compound has a low energy band interval for change of state, that is, embolization. The thiophene, pyrrole, and aniline of these polymer compounds used in the examples have low band gaps for transition of states, and when they are substituted with substituents, their color and range may be The advantage is that the degree is adjustable.

According to the present invention, since the user of the secondary battery can accurately determine the state of charge and discharge of the battery, that is, the remaining charge, the device equipped with the secondary battery in consideration of the remaining amount of the secondary battery can be used reasonably and efficiently. To help. Therefore, it is possible to reduce the case where the power supply is exhausted at an undesired time so that the necessary use cannot be made.

In particular, the present invention has the advantage that it is possible to accurately determine the remaining amount of charge only by the secondary battery itself without a separate charger or a product set.

Claims (8)

An electrode assembly including an anode, a separator, and a cathode; In a lithium secondary battery comprising a case for sealing the electrode assembly, A lithium secondary battery comprising an indicator electrically connected to at least one of two electrodes of a secondary battery so as to show a depth of charge at a position observable from the outside. The method of claim 1, The case is made of a metal can, The indicator is a lithium secondary battery, characterized in that installed on a portion of the outer cover covering the metal can. The method of claim 2, The indicator system is a lithium secondary battery, characterized in that formed using one of polythiophene (Polythiophene) series, polypyrrole series, polyaniline (Polyaniline) series of the electrochromic material. The method of claim 1, The indicator is a lithium secondary battery, characterized in that directly connected in parallel to the lead electrode tab of the bare cell. The method of claim 1, The indicator is a lithium secondary battery, characterized in that formed by installing an electrochromic material of different color or transparency according to the voltage change between the two electrodes. The method of claim 5, wherein An electrode installed in at least an outer direction among two electrodes of the indicator is a lithium secondary battery, characterized in that formed as a transparent electrode. The method of claim 1, The indicator is a bar-shaped lithium secondary battery, characterized in that the size of the bar is changed according to the voltage between the two electrodes of the secondary battery. The method of claim 1, The indicator is provided in a bar shape, the bar is a lithium secondary battery, characterized in that by installing a window made of an electrochromic material having a different voltage to be transparent for each region on the cover that is different in color depending on the region.

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