KR20080082240A - Battery pack having polymer electrolyte - Google Patents

Abstract

A polymer battery pack is provided to increase the contact area of an electrode and a polymer electrolyte and to reduce the interval between two electrodes, thereby increasing ion conductivity and lowering internal resistance. A polymer battery pack comprises at least one bare cell(20,30) which comprises two electrodes with an electrode tap(23,33), a polymer electrolyte interposed between the two electrodes and a pouch type case accommodating the two electrodes and the polymer electrolyte where the electrode tap passes; two plate materials(210,230) which are installed at the both sides of the polymer bare cell so as to apply pressure to the two large area surfaces of the polymer bare cell with an interval with the polymer bare cells; and an interval control device which controls the distance between the plate materials so as to control the pressure applied to the polymer bare cell.

Description

Polymer battery pack {BATTERY PACK HAVING POLYMER ELECTROLYTE}

1 and 2 are a front view and a plan view showing a basic configuration of a polymer battery pack according to an embodiment of the present invention.

3 and 4 are a front view and a plan view showing the shape of the plate used to press the polymer bare cell in another embodiment of the present invention.

The present invention relates to a nonaqueous electrolyte battery, and more particularly to a nonaqueous electrolyte battery pack consisting of one or more bare cells.

Recently, with the development of the high-tech electronic industry, it is possible to reduce the weight and weight of electronic equipment, thereby increasing the use of portable electronic devices. In particular, the need for a battery having a high energy density as a power source for portable electronic devices has increased, and research and development of lithium secondary batteries has been actively conducted. Lithium metal oxide is generally used as a positive electrode active material of a lithium secondary battery, and carbon or a carbon composite material is used as a negative electrode active material. The active material is applied to the current collector with a suitable thickness and length, or the active material itself is formed into a film, laminated, laminated, or wound together with the separator, which is an insulator, to form an electrode group, and then placed in a can, pouch, or similar container, and then the electrolyte solution. To prepare a secondary battery.

According to the needs of portable electronic devices requiring small size, light weight, and thinness, lithium secondary batteries that are frequently used as power sources are required to be further thinned and shape freedom is improved. According to this demand, a lithium secondary battery of a pouch type case having enhanced form flexibility has been developed and used.

The pouch type lithium secondary battery is advantageous in terms of thinning and shape freedom, but has a problem in that when the non-aqueous organic electrolyte is filled into the case similar to the can type lithium ion battery, the strength of the case is low, so that leakage of the electrolyte is likely to occur. Leakage of organic electrolytes causes problems of safety by increasing the possibility of ignition beyond the problem of battery termination or contamination. Therefore, in the pouch type lithium secondary battery, it is preferable to use an electrolyte in which no electrolyte flows.

In order to prevent the electrolyte from flowing, use a solid electrolyte itself to serve as a separator between the two electrodes, or a gel polymer electrolyte impregnated with an electrolyte solution in a polymer substrate or an organic solvent as a plasticizer in a solid electrolyte. Can be used to construct a battery. Among such solid electrolyte batteries, a battery in which a polymer is used in an electrolyte is often referred to as a polymer battery.

Polymer batteries have been widely developed and used as a power source having a relatively small thickness of small electronic devices, but on the other hand, polymer battery packs in which a plurality of polymer bare cells are combined for the use of high-capacity high-output batteries have also been developed.

In the pouch-type polymer battery, the pressure applied to the electrode assembly by the case is weak, so that the stacking of the electrode assembly is loosened, and thus the adhesion between the electrode and the separator is weakened, and the electrode assembly is deformed for various reasons to form the positive and negative electrodes. And the contact between the polymer electrolyte layers is likely to be loose or cracked. In this case, the area in which ions are conducted as a whole may be reduced, and thus the ion conductivity may be reduced, and the difference in ion conductivity may occur, and thus, dendrites may be increased. In addition, the part may not participate in the charging and discharging activities, which may lead to a decrease in the total battery capacity. Therefore, a problem arises in that a high rate charge / discharge characteristic deteriorates or a lifetime deteriorates in a polymer battery.

In order to solve this problem, U.S. Patent No. 5,981,107 and the like have been proposed a method of forming a resin adhesive layer and a binder layer between the electrode plate and the separator. However, these adhesive layers and binder layers usually have a problem of increasing internal ion conductivity resistance because of low ion conductivity. In addition, the adhesive layer or binder layer further contains a substance that is not associated with an increase in the capacity of the battery, thereby causing a problem of lowering the electric capacity per battery volume or electric capacity per battery mass.

The present invention is to reduce the above problems, in the polymer battery pack comprising a polymer bare cell having a pouch case to prevent the internal current flow is weakened, to provide a structure for preventing the deterioration of life characteristics The purpose.

The polymer battery pack of the present invention for achieving the above object is made by installing at least one polymer bare cell having a pouch-type case between at least two plates (plates) coupled through the mutual gap adjusting device.

In the present invention, the two plates may be made of a material having good thermal conductivity, for example, a metal material.

In the present invention, the plate means a structure that forms a flat state as a whole in contact with the wide surface of the polymer bare cell and does not necessarily have to be formed thin and wide in its entirety.

In the present invention, in the case where a plurality of polymer bare cells are used, the polymer battery pack is provided with a plate at an appropriate interval between one or a plurality of polymer bare cells between each bare cell, and a plate is provided at each end to provide each plate and It may be formed to compress the bare cell located between the plate material.

On the other hand, in order to properly cope with the expansion and contraction of the polymer bare cell, the plate material for compressing the polymer bare cell may be coupled to the gap adjusting device and the pack through a buffer material such as a spring. For example, at least one of the plate may be installed to be movable in a predetermined range through the buffer in the gap adjusting device so that the gap between the plate is varied according to the volume change of the polymer bare cell.

In the present invention, the mutual gap adjusting device may be a screw hole formed in each plate, a rod penetrating these holes and a thread formed on the surface thereof, and a nut, screw, and bolt head installed at a portion where the screw hole of each plate is formed. Can be.

In the present invention, the two plates and the mutual gap adjusting device on both sides of the polymer bare cell may be formed in the form of a vise.

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

1 and 2 are a front view and a plan view showing a basic configuration of a polymer battery pack according to an embodiment of the present invention.

1 and 2, two polymer bare cells 20 and 30 are installed so that the large area planes are parallel to each other between the two plates 210 and 230 at the front and rear ends. In addition, a separate plate 220 is installed between the two polymer bare cells 20 and 30. Holes are formed at four corners of each rectangular plate, and bolts 110 and 120 threaded on the surface penetrate the holes while the holes of these plates are aligned. One position fixing means is provided per plate to contact the hole, and bolt heads 111, 121, 131, and 141 nuts 113, 115, 123, and 125 may be used as the position fixing means.

The polymer bare cell can be formed by a conventional method. For example, in order to form a pouch type lithium polymer battery, an electrode assembly including an electrolyte is placed in a pouch in which a groove for accommodating the electrode assembly is formed or not formed in advance, and an open portion of the pouch is sealed to expose a portion of the electrode tab to the outside. The gel polymer electrolyte may be formed by polymerizing at a predetermined temperature or more, and formed by a method of performing initial charge and discharge. The gel polymer electrolyte may be formed by applying energy for polymerization to monomers, oligomers, lithium salts, and plasticizer solvents of the polymer material. If necessary, an initiator may be added to form a gel polymer electrolyte. In this case, the polymerization may be performed in a state in which the polymer bare cell and the plate and the plate gap adjusting device are bonded to each other in the form of the polymer battery pack of the present invention.

The positive electrode and the negative electrode of the electrode assembly may be formed by coating and rolling the active material slurry on the surface of the current collector. The gel polymer layer may be laminated on either of the anode and the cathode. The electrode assembly may be formed by laminating such electrodes. As an active material, a material capable of intercarting and deintercalating lithium ions is common. Lithium cobalt, lithium nickelate, lithium manganate, and the like are used as a cathode.

Above the figure, the electrode tabs 21, 23, 33 of the polymer bare cell are exposed through the pouch constituting the case of the polymer bare cell. These electrode tabs 21, 23, 33 are connected to separate terminals (not shown) so as to connect the polymer bare cells in series or in parallel as necessary for the polymer battery pack, and these separate terminals are charged and discharged in the polymer battery pack. It may be connected to a protective circuit module (not shown) of the board form for managing the.

The plate is formed to overlap the electrode assembly of the polymer bare cell in the form of a flat plate, preferably made of a material having high mechanical strength and thermal conductivity, such as a metal plate. When the thermal conductivity is high, it can act as a heat sink to easily dissipate heat generated from each polymer bare cell to the outside to increase the safety of the entire polymer battery pack.

In the present embodiment, two bare cells are used, but the bare cells may be formed as one, or dozens may be installed side by side. In addition, in this embodiment, a plate is installed between the bare cells so that pressure can be adjusted separately for each bare cell, but only the front and rear ends of the bare cells aligned in the front-rear direction are installed so that the entire bare cell is divided into two plates. It may also be used in the form of compression.

In this embodiment, the Bessel is a plate that pressurizes the bare cell is relatively fixed position by the bolt head, nut, screw, etc. in the pack, but the spring and the like buffering between the nut and the plate, bolt head and plate The member may be installed to vary the position of the plate within the pack. For example, if the negative electrode material of the polymer bare cell is made of a material with a large volume change during charge and discharge, such as graphite, if the gap between the plates is completely fixed, the pressure on the bare cell of the plate during charge is reduced. It will increase dramatically. If the pressure increases, mechanical damage may occur to the polymer electrolyte or the substrate in the internal structure of the bare cell, and problems such as an internal short circuit may occur. In addition, the pressure on the bare cell is increased, the charge and discharge action may not be made smoothly.

For example, the plate is formed with a hole in the periphery, the rod through which the thread is formed on the outer surface and the position fixing means such as nuts or screws for defining the position of each plate forms a gap adjusting device, It is conceivable that the spring is provided as a cushioning material between the and at least one of the plates. In this configuration, the plate is installed in the polymer battery pack through a shock absorber such as a spring. Therefore, as the spring is compressed or tensioned due to the increase of the volume of the bare cell during filling, the pressure of the plate against the bare cell is gradually increased due to the restoring force of the spring, but the plate itself is partially moved, so that the distance between the plates increases, and The sudden increase can be prevented.

3 and 4 are a front view and a plan view showing the shape of the plate used to press the polymer bare cell in another embodiment of the present invention.

3 and 4, the polymer bare cell is indicated by a dotted line to show a relationship or overlapping relationship between the position where the polymer bare cell is installed and the step groove 315 of the plate 310. The stepped groove overlaps the portion where the electrode tab of the polymer bare cell is formed. Therefore, it is possible to prevent the plate pressure from being concentrated on the electrode assembly portion formed with the electrode tab thickly formed. As a result, the stepped groove of the plate substantially compresses the entire wide outer surface of the electrode assembly evenly to increase the contact area between the electrode plate of the electrode assembly and the polymer electrolyte, and to shorten the gap between the electrode plates to increase the ion conductivity and the internal resistance. Can be lowered. Reference numeral 313 in the drawing represents a hole used in combination with bolts and the like to squeeze the bare cell by combining the plate 310.

According to the present invention, in a battery pack employing a polymer bare cell, pressure is applied to the entire electrode assembly to increase the contact area between the electrode and the electrolyte, and reduce the internal resistance of the polymer battery pack by increasing the ion conductivity by reducing the gap between the electrodes. Can be.

In addition, the present invention can prevent the problem of reducing the battery capacity by forming a gap between the electrolyte and the electrode in the battery does not contribute to charging and discharging, to reduce the battery life by forming a dentite.

Claims (12)

At least one polymer bare cell having two electrodes provided with electrode tabs, a polymer electrolyte interposed between the two electrodes, a pouch-shaped case accommodating the two electrodes and the polymer electrolyte, and passed through the electrode tabs; Two plates installed on both sides of the polymer bare cell so as to apply pressure to two large surface areas of the polymer bare cell with the polymer bare cell interposed therebetween, And a gap adjusting device for controlling a pressure applied to the polymer bare cell by adjusting a distance between the plates. The method of claim 1, The plurality of polymer bare cells are installed so that the large area of the pouch-shaped case is parallel to each other, A polymer battery pack, characterized in that at least one plate is installed between the plurality of polymer bare cells separately from the two plate to adjust the distance between the two plate. The method according to claim 1 or 2, At least one of the plate material is a polymer battery pack, characterized in that made of a metal. The method of claim 1, The plate is formed around the hole, The gap adjusting device includes a rod having a thread formed on an outer surface of the gap adjusting device and a position fixing means defining a position of each of the plate members. The method of claim 4, wherein The position fixing means is a polymer battery pack, characterized in that consisting of one or a combination of bolt head, nut, screw. The method according to claim 1 or 2, Wherein the sheet material is a polymer battery pack, characterized in that the stepped groove is formed at a position overlapping with the electrode tab of the polymer bare cell of the portion in contact with the polymer bare cell. The method of claim 1, A protective circuit module for controlling the charge and discharge of the polymer bare cell is further provided, The electrode tab is electrically connected to the protective circuit module, characterized in that the polymer battery pack. The method of claim 1, Polymerization forming the polymer electrolyte of the polymer bare cell is a polymer battery pack, characterized in that the polymer bare cell, the plate material and the spacing device is combined. The method of claim 1, Wherein the polymer electrolyte is integrally stacked on the surface of at least one of the two electrodes. The method of claim 1, The polymer electrolyte is a polymer battery pack, characterized in that consisting of a gel polymer containing a polymer, a lithium salt, an organic solvent for a plasticizer. The method of claim 1, At least one of the plate material is a polymer battery pack, characterized in that the space between the plate is changed so as to be movable in a predetermined range through the buffer material in the gap adjusting device to vary the volume of the polymer bare cell. The method of claim 11, The plate is formed around the hole, The gap adjusting device has a rod through which the thread is formed on the outer surface and the position fixing means for defining the position of each of the plate member, And a spring is provided between the position fixing means and at least one of the plate members as a cushioning material.

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