WO2023191246A1 - 전지 케이스 및 이차 전지 - Google Patents
전지 케이스 및 이차 전지 Download PDFInfo
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- WO2023191246A1 WO2023191246A1 PCT/KR2022/020385 KR2022020385W WO2023191246A1 WO 2023191246 A1 WO2023191246 A1 WO 2023191246A1 KR 2022020385 W KR2022020385 W KR 2022020385W WO 2023191246 A1 WO2023191246 A1 WO 2023191246A1
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- WO
- WIPO (PCT)
- Prior art keywords
- battery
- gas
- battery case
- gas adsorption
- case
- Prior art date
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Images
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/50—Current conducting connections for cells or batteries
- H01M50/572—Means for preventing undesired use or discharge
- H01M50/574—Devices or arrangements for the interruption of current
- H01M50/581—Devices or arrangements for the interruption of current in response to temperature
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/05—Accumulators with non-aqueous electrolyte
- H01M10/052—Li-accumulators
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/10—Primary casings; Jackets or wrappings
- H01M50/102—Primary casings; Jackets or wrappings characterised by their shape or physical structure
- H01M50/105—Pouches or flexible bags
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/30—Arrangements for facilitating escape of gases
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/30—Arrangements for facilitating escape of gases
- H01M50/342—Non-re-sealable arrangements
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/30—Arrangements for facilitating escape of gases
- H01M50/342—Non-re-sealable arrangements
- H01M50/3425—Non-re-sealable arrangements in the form of rupturable membranes or weakened parts, e.g. pierced with the aid of a sharp member
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/30—Arrangements for facilitating escape of gases
- H01M50/394—Gas-pervious parts or elements
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Definitions
- the present invention relates to a battery case and a secondary battery. More specifically, the present invention relates to a battery case and a secondary battery. More specifically, the gas generated as the secondary battery is activated or degenerated is quickly adsorbed by opening the gas adsorption pack contained within the case without an additional system or sensing device, thereby absorbing the gas of the battery. It relates to a battery case and secondary battery that ensures stability and further allows the secondary battery to operate even after the gas adsorption pack is opened.
- Secondary batteries are rechargeable batteries manufactured using materials that can repeat multiple oxidation and reduction processes between current and materials. In other words, when a reduction reaction is performed on a material by current, the battery is charged, and when an oxidation reaction is performed on the material, the battery releases electricity.
- types of secondary batteries include nickel cadmium batteries, nickel hydrogen batteries, lithium secondary batteries, and lithium ion polymer batteries. These secondary batteries are used not only for small products such as digital cameras, P-DVDs, MP3Ps, mobile phones, PDAs, portable game devices, power tools, and e-bikes, but also for large products requiring high output such as electric vehicles and hybrid vehicles, as well as for surplus power generation. It is also applied and used in power storage devices that store power or renewable energy, or as backup power storage devices.
- the lithium secondary battery for example, is formed by stacking a cathode, a separator, and an anode, and lithium ions intercalate and deintercalate from the lithium metal oxide of the anode to the graphite electrode of the cathode. Charging and discharging proceeds as the process is repeated. And these materials are selected considering battery life, charge/discharge capacity, temperature characteristics, and stability.
- the lithium secondary battery is classified into a can-type secondary battery in which the electrode assembly is embedded in a metal can and a pouch-type secondary battery in which the electrode assembly is embedded in a pouch of an aluminum laminate sheet.
- the can-type secondary batteries are classified into cylindrical batteries and prismatic batteries.
- a safety vent is mainly used to attach a safety vent to the cap plate, which is the top plate of the battery. This safety device prevents battery explosion by safely discharging internal gases to the outside when the internal temperature of the battery rises abnormally.
- the present invention is a battery case by automatically opening and adsorbing the gas generated within the battery by automatically opening and adsorbing the gas generated within the battery without recognition through a sensing device.
- the purpose is to provide a battery case that can ensure the stability of the battery by delaying the point at which it explodes due to gas.
- Another object of the present invention is to provide a secondary battery including the battery case, an electrode assembly accommodated inside the battery case, and an electrolyte charged inside the battery case.
- the present invention provides a battery case comprising a battery case cover and a gas adsorption unit housed inside the case, wherein the gas adsorption unit opens the gas adsorption pack when the internal temperature of the case increases. do.
- the gas adsorption unit may preferably include a gas adsorption pack filled with a gas adsorbent, and a shape memory alloy that bends to pierce the gas adsorption pack when the internal temperature increases.
- the shape memory alloy is preferably nickel-titanium alloy (Ni-Ti), copper-zinc alloy (Cu-Zn), copper-zinc-aluminum alloy (Cu-Zn-Al), copper-cadmium alloy (Cu-Cd). ), nickel-aluminum alloy (Ni-Al), copper-zinc-aluminum alloy (Cu-Zn-Al), and copper-aluminum-nickel alloy (Cu-Al-Ni). .
- the shape memory alloy preferably has a shape recovery temperature of 70 to 100°C.
- the shape memory alloy may preferably have a unidirectional shape memory effect.
- the gas adsorption unit may be preferably attached to the inner wall of the case cover.
- the gas adsorbent may preferably include at least one selected from the group consisting of gas adsorbent molecular sieves, gas adsorbent metals, and gas adsorbent materials.
- the gas-adsorbing molecular sieve may preferably be one or more selected from the group consisting of silica gel, carbon fiber, porous carbon material, porous metal oxide, porous gel, and zeolite.
- the gas-adsorbing metal is preferably nickel (Ni), platinum (Pt), palladium (Pd), calcium (Ca), strontium (Sr), barium (Ba), thallium (Tl), zirconium (Zr), and hafnium ( It may be one or more selected from the group consisting of Hf), vanadium (V), niobium (Nb), tantalum (Ta), chromium (Cr), molybdenum (Mo), and tungsten (W).
- the gas adsorption material is preferably BaTiO 3 , PB(Mg 3 Nb 2/3 )O 3 -PbTiO 3 (PMN-PT), hafnia (HfO 2 )SrTiO 3 , SnO 2 , CeO 2 , MgO, NiO, CaO , ZnO, ZrO 2 , Y 2 O 3 , Al 2 O 3 , TiO 2 , sodium hydroxide (NaOH), calcium hydroxide (Ca(OH) 2 ), and potassium hydroxide (KOH). .
- the gas absorption pack may preferably include at least one selected from the group consisting of olefin resin, fluorine resin, and polyamide resin.
- the gas adsorption unit may be preferably installed so that the shape memory alloy is located between the inner wall of the case cover and the gas adsorption pack, or may be installed so that the shape memory alloy is located on the side of the gas adsorption pack located on the inner wall of the case cover.
- the present invention provides a secondary battery including the battery case, an electrode assembly accommodated within the battery case, and an electrolyte charged within the battery case.
- the secondary battery may have a gas absorption pack blocked or opened from the outside air.
- the secondary battery may preferably be a pouch-type battery.
- the anode structure collapses and gas is generated, or abnormal operating conditions such as overcharging and exposure to high temperatures occur, the internal electrolyte decomposes and gas is generated, which causes damage to the battery.
- the gas adsorption pack contained inside the battery case is automatically opened and quickly adsorbs the gas, ensuring the stability of the battery, preventing deformation of the battery case, and lowering the resistance of the battery.
- the battery case according to the present invention has the effect of simplifying the manufacturing process because it does not require an additional sensing device to check the temperature or voltage of the battery, and preventing non-operation due to errors in the sensing device.
- stability is improved by reacting sensitively to changes in the internal temperature of the battery case, and the battery case is not damaged, allowing the battery to operate even after the gas adsorbent is opened.
- Figure 1 is a diagram showing a state in which an electrode assembly and electrolyte are filled inside a conventional battery case.
- Figure 2 is a side view of a gas adsorption unit accommodated inside a battery case filled with an electrode assembly and an electrolyte according to an embodiment of the present invention.
- Figure 3 is a diagram showing a gas adsorption unit accommodated inside a battery case according to an embodiment of the present invention from the top.
- Figure 4 is a side view of a gas adsorption unit accommodated inside a battery case filled with an electrode assembly and an electrolyte according to an embodiment of the present invention.
- Figure 5 is a view showing the gas adsorption unit accommodated inside the battery case according to an embodiment of the present invention from the top.
- Figure 6 is a diagram for explaining changes in the gas adsorption unit due to an increase in internal temperature due to gas generation in the battery case according to an embodiment of the present invention.
- Figure 7 is a diagram for explaining the shape of the shape memory alloy and its sharp ends according to an embodiment of the present invention.
- Figure 8 is a diagram for explaining a cross section of an elongated shape memory alloy according to an embodiment of the present invention.
- Figure 9 is a perspective view to explain before and after deformation of the shape memory alloy according to an embodiment of the present invention.
- Figure 10 is a diagram for explaining various shapes of a thin-film shape memory alloy according to an embodiment of the present invention.
- the present inventors While researching a method of removing gas generated inside a secondary battery, the present inventors discovered a gas adsorption pack filled with a gas adsorbent inside the battery case, and a gas adsorption pack that bends when the internal temperature increases due to gas generation, which can pierce the gas adsorption pack.
- the gas generated inside the battery case When equipped with a shape memory alloy, the gas generated inside the battery case is deformed by an increase in temperature due to the gas generated inside the battery case, and the gas can be removed before it leads to an explosion, thereby ensuring the stability of the battery and lowering the resistance of the battery case. It was confirmed that the battery cell was operated and battery performance was secured even after the gas adsorption pack was opened because the gas adsorption pack was not damaged, and based on this, further research was devoted to completing the present invention.
- the battery case according to an embodiment of the present invention includes an electric case cover 10 and a gas adsorption unit 20 accommodated inside the case, wherein the gas adsorption unit 20 is a gas adsorbent when the internal temperature of the case rises.
- the charged gas adsorption pack 21 is opened, and in this case, the gas that causes the temperature rise is quickly adsorbed and removed, thereby ensuring the stability of the battery and lowering the resistance of the battery.
- the gas adsorption unit 20 may include a gas adsorption pack 21 filled with a gas adsorbent, and a shape memory alloy 22 that bends when the internal temperature rises to pierce the gas adsorption pack.
- secondary battery refers to an electrode assembly sealed inside a battery case along with an electrolyte.
- a battery module can be configured by connecting secondary batteries, batteries, and/or battery cells in series
- a battery pack can be configured by connecting a plurality of battery modules in parallel and/or series depending on the required charge/discharge capacity.
- the battery case cover has an empty space inside, and can be formed to accommodate an electrode assembly and an electrolyte in this inner space.
- the gas adsorption unit 20 may be attached to the inner wall of the battery case cover 10, and in this case, it may not affect charging and discharging of the secondary battery.
- the gas adsorption unit 20 may be preferably installed on the inner wall of the upper or lower cover, or both, based on the position of the electrode assembly 110 to be accommodated, and in this case, it can more quickly adsorb the generated gas. By rapidly lowering the internal temperature, the stability of the battery is ensured, the deformation of the case is prevented, and the resistance of the battery is lowered.
- the gas adsorption unit 20 may be attached to the top of the electrode assembly, and in this case, it may not affect charging and discharging of the secondary battery.
- the gas adsorption portion 20 may be fixed to the inner wall of the battery case cover 10 or the top of the electrode assembly with PET tape, for example. In this case, it does not affect the charging and discharging of the secondary battery and is not affected by the electrolyte. There is an advantage to not having it.
- the PET tape may be a tape in which a silicone-based adhesive is applied to a polyester film.
- the gas adsorption pack 21 may be similar to the outer shape of the case, and may preferably have a square shape, but may also be amorphous, with the shape freely changing.
- a gas adsorbent capable of adsorbing gas is built inside the gas adsorption pack 21.
- the gas generated inside the secondary battery may be a gas generated due to decomposition of the electrolyte, or a gas generated due to the collapse of the anode structure as the life of the battery deteriorates.
- the gas generated due to decomposition of the electrolyte may be, for example, oxygen, carbon monoxide (CO), and/or carbon dioxide (CO 2 ), and the gas generated due to collapse of the anode structure when the life of the battery deteriorates may be oxygen, for example. there is.
- the type of the gas adsorbent is not greatly limited as long as it is a material that can easily adsorb a large proportion of gases generated inside the battery, and is preferably made of a gas-adsorbing molecular sieve, a gas-adsorbing metal, and a gas-adsorbing material. It may include one or more types selected from the group, and in this case, the gas inside the battery can be efficiently adsorbed to ensure the stability of the battery, lower the resistance of the battery, and prevent deformation and explosion of the case.
- the gas-adsorbing molecular sieve may be one or more selected from the group consisting of silica gel, carbon fiber, porous carbon material, porous metal oxide, porous gel, and zeolite.
- the porous carbon material may be one or more selected from the group consisting of carbon molecular sieve and activated carbon.
- the activated carbon may preferably be one or more types selected from the group consisting of granular carbon, powdered carbon, coal carbon, and activated fiber.
- the porous metal oxide may be one or more types selected from the group consisting of silica gel, alumina, and molecular sieve.
- the zeolite may be classified by crystal structure and may be, for example, one or more types selected from the group consisting of A-type zeolite, L-type zeolite, ⁇ -type zeolite, MFI-type zeolite, and faujasite-type zeolite.
- gas-absorbing metal examples include nickel (Ni), platinum (Pt), palladium (Pd), calcium (Ca), strontium (Sr), barium (Ba), thallium (Tl), zirconium (Zr), and hafnium (Hf). ), vanadium (V), niobium (Nb), tantalum (Ta), chromium (Cr), molybdenum (Mo), and tungsten (W).
- the gas adsorption material is, for example, BaTiO 3 , PB(Mg 3 Nb 2/3 )O 3 -PbTiO 3 (PMN-PT), hafnia (HfO 2 )SrTiO 3 , SnO 2 , CeO 2 , MgO, NiO, CaO , It may be one or more selected from the group consisting of ZnO, ZrO 2 , Y 2 O 3 , Al 2 O 3 , TiO 2 , sodium hydroxide (NaOH), calcium hydroxide (Ca(OH) 2 ), and potassium hydroxide (KOH).
- the gas adsorption pack 21 has a space portion to accommodate a gas adsorbent and may be made of a shape memory alloy material with a predetermined thickness that can be perforated or torn.
- the gas absorption pack 21 may include one or more selected from the group consisting of olefin-based resin, fluorine-based resin, and polyamide-based resin, and in this case, it may not have a negative effect on the electrolyte.
- the olefin-based resin may include one or more selected from the group consisting of polypropylene, polyethylene, polyethylene acrylic acid, and polybutylene.
- the polyamide-based resin is, for example, a group consisting of polyamide 4.6, polyamide 6, polyamide 6.6, polyamide 6.10, polyamide 7, polyamide 8, polyamide 9, polyamide 11, polyamide 12, and MXD 6. It may be one or more types selected from.
- the fluorine-based resin may preferably be polytetrafluoroethylene (PTFE).
- a separate gas removal process is performed to remove the gas generated when the secondary battery is overcharged or charging and discharging is repeated, and a separate sensing device is required for this, but the present invention, as shown in FIGS. 2 to 5, , It includes a gas adsorption unit inside the case, and the gas adsorption unit is sensitive to internal temperature changes due to gas generation, including a gas adsorption pack filled with a gas adsorbent and a shape memory alloy that bends when the internal temperature rises to pierce the gas adsorption pack.
- the gas can be quickly removed by reacting quickly, which greatly ensures the stability of the battery and improves battery performance by lowering the resistance of the battery.
- the present invention adsorbs and removes the gas without damaging the case, so that the gas adsorption pack is opened. There is an advantage that the battery continues to run even after it is turned off.
- the internal temperature of the shape memory alloy 22 increases due to the gas generated inside the case, it is deformed at a predetermined angle and pierces the gas adsorption pack to expose the gas adsorbent to adsorb and remove the gas.
- a gas adsorbent means that a gas-containing fluid and a gas adsorbent come into contact, and may mean that the gas adsorbent is discharged into the fluid or the fluid is introduced into the gas adsorbent.
- the fluid may be, for example, an electrolyte, an inert gas (eg, N 2 , Ar, etc.), or steam.
- a shape memory alloy is an alloy that remembers its original shape and returns to its original shape even if it is deformed by heat or pressure.
- the bonds within the metal are released or new ones are created, but in shape memory alloys, the bonds within the metal are preserved even when deformed, and under certain conditions, the deformation is released and the original shape is restored .
- shape memory alloy is deformed and then heated again, it remembers the shape before it was first deformed and returns to its original shape.
- the degree of deformation must be applied below a certain critical temperature, for example, and as a specific example, the deformation must be less than about 10%.
- the shape memory alloy is able to restore and remember the crystal structure and the appropriate shape that it should take priority at high temperatures.
- a shape memory alloy remembers a certain shape, even if it is transformed into various shapes, it has the property of returning to the shape before deformation when heated to an appropriate temperature.
- certain heat treatment is required.
- Ni-Ti nickel-titanium alloy
- the alloy remembers this shape. Once you remember it, no matter how many times you change it, it will return to its original shape as long as you heat it above a certain temperature. This constant temperature is called ‘shape recovery temperature’.
- the shape recovery temperature can be set in various ways by changing conditions.
- the shape memory alloy 22 is, for example, nickel-titanium alloy (Ni-Ti), copper-zinc alloy (Cu-Zn), copper-zinc-aluminum alloy (Cu-Zn-Al), copper-cadmium alloy (Cu -Cd), nickel-aluminum alloy (Ni-Al), copper-zinc-aluminum alloy (Cu-Zn-Al), and copper-aluminum-nickel alloy (Cu-Al-Ni).
- Ni-Ti nickel-titanium alloy
- Cu-Zn copper-zinc-aluminum alloy
- Cu-Cd copper-cadmium alloy
- Ni-Al nickel-aluminum alloy
- Cu-Zn-Al copper-zinc-aluminum alloy
- Cu-Al-Ni copper-aluminum-nickel alloy
- the shape memory alloy may have a shape recovery temperature of 70 to 100 °C, preferably 75 to 90 °C, more preferably 80 to 90 °C, and within this range, the temperature of the battery due to an increase in the internal temperature of the secondary battery
- a shape recovery temperature 70 to 100 °C, preferably 75 to 90 °C, more preferably 80 to 90 °C, and within this range, the temperature of the battery due to an increase in the internal temperature of the secondary battery
- the shape memory alloy is heated at, for example, 70 to 100°C, preferably 75 to 90°C, more preferably 80 to 90°C, for example, 15 to 40 minutes.
- heat treatment can be performed for 20 to 35 minutes, and within this range, the shape memory alloy bends and pierces the gas adsorption pack before battery deformation such as swelling occurs due to an increase in the internal temperature of the secondary battery, thereby improving the stability of the battery. There is an advantage in securing .
- the shape memory alloy may have a unidirectional shape memory effect, and in this case, it has the advantage of reducing manufacturing costs and reducing installation space.
- the one-way shape memory effect refers to the shape memory alloy that has been stored in an appropriate shape, transformed at a low temperature, and then restored to its original shape when heated above a certain temperature. This refers to something that does not return to the deformed shape it had before raising.
- the two-way shape memory effect simultaneously remembering the shape at high temperature and the shape at room temperature before raising the temperature is called the two-way shape memory effect or reversible shape memory effect. It is a reversible motion in which two shapes are repeated through heating and cooling.
- the alloy In order to achieve this directional shape memory effect, there is a problem in the process that the alloy must be subjected to special heat treatment or must be combined with parts such as springs.
- the gas adsorption unit 20 may be attached to the inner wall of the case cover.
- the shape memory alloy can be immediately bent to puncture or tear the gas absorption pack 21.
- the gas adsorption unit 20 may be attached to the upper surface of the electrode assembly, for example, and in this case, it does not affect the charging and discharging of the secondary battery and immediately removes the gas rising to the top due to its low density, resulting in higher stability. There is an advantage in providing.
- the shape memory alloy 22 is preferably located, for example, near the middle of the battery case cover 10, which means that when a swelling phenomenon occurs in which the battery 1 swells due to a rise in internal temperature, it is located near the middle. It has the advantage of expanding first and reacting more quickly.
- the shape memory alloy 22 may be, for example, a thin film or an elongated shape, and has a straight shape when the secondary battery operates at a normal temperature, and when the internal temperature rises due to gas generation, at least one end is bent and forms a gas adsorption pack ( 21) to open the gas adsorbent.
- the shape memory alloy 22 may become thinner toward the end or may have a shape with a sharp end.
- the cross section of the elongated shape memory alloy 22 may have various shapes as shown in FIG. 8 below, and for example, may be plate-shaped, circular, triangular, square, or pentagonal.
- the thin-film shape memory alloy 22 may have various shapes as shown in FIG. 10 below, and may be, for example, a triangle, diamond, pentagon, or hexagon.
- the shape memory alloy 22 is heat-treated at a high temperature in a bent shape, then transformed into a straight shape at a low temperature and installed inside the battery case.
- the shape memory The alloy is bent to pierce the gas adsorption pack 21, which exposes the gas adsorbent and adsorbs and removes the gas, thereby controlling overheating or fire of the battery and preventing deformation of the case.
- the low temperature form of the shape memory alloy 22 is referred to as a deformed form or deformed state, and the return to the pre-deformed form at the shape recovery temperature is indicated as a restored form or restored state.
- the shape memory alloy 22 may be formed in a shape where the deformed and restored portion has sharp ends, and in this case, the gas adsorbent pack 21 can be easily pierced and the gas adsorbent can be easily opened.
- the shape memory alloy 22 may be made of one of the structures shown in FIG. 9, and at the shape recovery temperature, one end or both ends are bent toward the gas adsorption pack 21 and restored.
- the gas adsorption pack 21 is perforated or torn by the restored shape memory alloy, and through this, the gas adsorbent is exposed to adsorb the gas, thereby ensuring battery stability.
- the gas adsorption unit may be installed so that the shape memory alloy is located between the inner wall of the case cover and the gas adsorption pack, or may be installed so that the shape memory alloy is located on the side of the gas adsorption pack located on the inner wall of the case cover. In this case, it does not affect the charging and discharging of the secondary battery and responds sensitively to the increase in internal temperature of the battery, improving battery stability and preventing deformation of the battery case.
- the shape memory alloy When the shape memory alloy is installed to be located on the side of the gas adsorption pack located on the inner wall of the case cover, for example, the shape memory alloy may be installed on one side or both sides of the gas adsorption pack.
- the gas adsorption pack It has the effect of opening more quickly and adsorbing gas.
- the gas adsorption pack and the shape memory alloy may be fixed with PET tape, for example, but are not limited to this.
- the gas adsorption unit may be installed, for example, at the top of the electrode assembly. In this case, it does not affect the charging and discharging of the secondary battery and responds sensitively to the increase in internal temperature of the battery, improving battery stability and preventing deformation of the battery case. It has a preventive effect.
- the present invention may include the battery case, an electrode assembly accommodated inside the battery case, and an electrolyte charged inside the battery case.
- the electrode assembly is composed of a jelly-roll type electrode assembly in which a separator is sandwiched between a long sheet-shaped anode and a cathode and then wound, and unit cells in which a rectangular anode and cathode are stacked with a separator interposed between them.
- it is not limited to this.
- the electrode assembly has an electrode tab (not shown) extending therefrom.
- the positive electrode tab extends from the positive electrode
- the negative electrode tab extends from the negative electrode.
- the electrode tab extends from each anode and cathode. At this time, the electrode tab is not directly exposed to the outside of the case and may be connected to another component such as the electrode lead 130.
- the electrode lead 130 is partially electrically connected to electrode tabs extending from the anode or cathode, respectively. One end of this electrode lead is connected to the electrode tab and the other end is exposed to the outside of the case, so that the other end exposed to the outside can function as an electrode terminal. Therefore, the secondary battery can be charged and discharged by connecting a charger or load to the other end of the electrode lead 130. Additionally, an insulating film may be attached to some of the upper and lower surfaces of the electrode lead to increase sealing with the battery case and at the same time ensure electrical insulation.
- the positive electrode is manufactured, for example, by applying a positive electrode composite containing a positive electrode active material onto a positive electrode current collector and then drying it.
- the positive electrode composite may optionally further include a binder, a conductive material, a filler, etc., as needed.
- the positive electrode current collector is made to have a thickness of 3 to 500 ⁇ m.
- This positive electrode current collector is not particularly limited as long as it has high conductivity without causing chemical changes in the battery, and examples include stainless steel, aluminum, nickel, titanium, fired carbon, surface-treated aluminum, and surface-treated stainless steel. It may be one or more types selected from the group consisting of.
- the surface treatment may be surface treatment with one or more types selected from the group consisting of carbon, nickel, titanium, and silver.
- the positive electrode current collector can increase the adhesion of the positive electrode active material by forming fine irregularities on its surface, and can take various forms such as film sheets, foils, nets, porous materials, foams, and non-woven materials.
- transition metal oxide for example, lithium cobalt oxide (LiCoO 2 ) substituted with one or two or more transition metals, lithium nickel oxide ( layered compounds such as KiNiO 2 ); Lithium manganese oxide substituted with 1 or 2 or more transition metal
- the conductive material is added in an amount of 1 to 30% by weight based on the total weight of the mixture including the positive electrode active material, the conductive material, and the binder.
- These conductive materials are not particularly limited as long as they are conductive without causing chemical changes in the battery. Examples include graphite such as natural graphite or artificial graphite; Carbon black such as carbon black, acetylene black, Ketjen black, channel black, furnace black, lamp black, and summer black; Conductive fibers such as carbon fiber and metal fiber; Metal powders such as aluminum and nickel powder; Conductive whiskeys such as zinc oxide and potassium titanate; Conductive metal oxides such as titanium oxide; and conductive materials such as polyphenylene derivatives and fluorinated carbon. One or more types selected from the group consisting of may be used.
- the binder is a component that assists the bonding of the active material and the conductive material and the bonding to the current collector.
- the binder is added in an amount of 1 to 30% by weight based on the total weight of the mixture including the positive electrode active material, the conductive material, and the binder.
- the binder includes, for example, polyvinylidene fluoride, polyvinyl alcohol, carboxymethyl cellulose (cmC), starch, hydroxypropyl cellulose, regenerated cellulose, polyvinylpyrrolidone, tetrafluoroethylene, and polyethylene. , polypropylene, ethylene-propylene-dienter polymer (EPDM), sulfonated EPDM, styrene butylene rubber, and fluororubber.
- the filler is selectively used as a component to suppress the expansion of the electrode, and is not particularly limited as long as it is a fibrous material that does not cause chemical changes in the battery.
- examples include olefin-based polymers such as polyethylene and polypropylene; and/or fibrous materials such as glass fiber and carbon fiber; are used.
- the negative electrode is manufactured, for example, by applying a negative electrode composite containing a negative electrode active material onto a negative electrode current collector and then drying it. If necessary, the negative electrode composite may contain components such as conductive materials, binders, and fillers as described above. You can.
- the negative electrode current collector is made to have a thickness of 3 to 500 ⁇ m.
- These negative electrode current collectors are not particularly limited as long as they have high conductivity without causing chemical changes in the battery, and examples include copper, stainless steel, aluminum, nickel, titanium, calcined carbon, surface-treated copper, and surface-treated stainless steel.
- One or more types selected from the group consisting of steel and aluminum-cadmium alloy may be used.
- the surface treatment may be surface treatment with one or more types selected from the group consisting of carbon, nickel, titanium, and silver.
- the negative electrode current collector can form fine irregularities on the surface to strengthen the bonding power of the negative electrode active material, and can be used in various forms such as films, sheets, foils, nets, porous materials, foams, and non-woven materials. there is.
- the negative electrode active material includes, for example, carbon such as non-graphitized carbon and graphitic carbon; Li x Fe 2 O 3 ( 0 ⁇ x ⁇ 1 ) , Li x WO 2 (0 ⁇ x ⁇ 1 ) , Sn , B, P, Si elements of groups 1, 2, and 3 of the periodic table, halogens; metal complex oxides such as 0 ⁇ x ⁇ 1; 1 ⁇ y ⁇ 3; 1 ⁇ z ⁇ 8); lithium metal; lithium alloy; silicon-based alloy; tin-based alloy; SnO, SnO 2 , PbO, PbO 2 , Pb 2 O 3 , Pb 3 O 4 , Sb 2 O 3 , Sb 2 O 4 , Sb 2 O 5 , Sb 2 O 6 , GeO, GeO 2 , Bi 2 O 3 , Metal oxides such as Bi2O4, Bi 2 O 4 , and Bi 2 O 5 ; Conductive polymers such as polyacetylene; And it may be one or more selected from the group consisting of Li-Co
- a filler may be selectively added as a component to suppress expansion of the cathode.
- These fillers are not particularly limited as long as they are fibrous materials that do not cause chemical changes in the battery, and examples include olefin polymers such as polyethylene and polypropylene; and/or fibrous materials such as glass fiber and carbon fiber; are used.
- the negative electrode composite may further include other components such as viscosity modifiers and adhesion promoters, selectively or in a combination of two or more.
- the viscosity regulator is a component that adjusts the viscosity of the electrode composite to facilitate the mixing process of the electrode composite and the application process on the current collector.
- the viscosity modifier is 1 to 1 based on the total weight of the negative electrode active material, conductive material, binder, and filler. It can be added at 30% by weight.
- examples of such viscosity modifiers include, but are not limited to, carboxymethylcellulose and/or polyvinylidene fluoride.
- the solvent described above may also serve as a viscosity regulator.
- the adhesion promoter is an auxiliary component added to improve the adhesion of the active material to the current collector, and may be added in an amount of 10% or less by weight or more than 0% by weight to 10% by weight compared to the binder, and may include oxalic acid. , adipic acid, formic acid, acrylic acid derivatives, itaconic acid derivatives, etc.
- the separator is located between the anode and the cathode, electrically insulating the anode and the cathode from each other, and may be formed in the form of a porous membrane to allow lithium ions, etc. to pass between the anode and the cathode.
- this separator may be made of a porous membrane using polyethylene, polypropylene, or a composite film thereof.
- the electrolyte is used to move lithium ions generated by an electrochemical reaction of an electrode during charging and discharging of a secondary battery, and may be an electrolyte solution, a solid electrolyte, and/or a semi-solid electrolyte.
- the electrolyte solution may be a non-aqueous electrolyte solution containing lithium salt.
- the lithium salt-containing non-aqueous electrolyte solution includes, for example, an electrolyte and a lithium salt, and the electrolyte solution may include, for example, a non-aqueous organic solvent, an organic solid electrolyte solution, and an inorganic solid electrolyte solution.
- the non-aqueous organic solvent may be, for example, an aprotic organic solvent, and specifically, N-methyl-2-pyrrolidinone, propylene carbonate, ethylene carbonate, butylene carbonate, and dimethyl carbonate. , diethyl carbonate, gamma-butylo lactone, 1,2-dimethoxy ethane, tetrahydroxy franc, 2-methyl tetrahydrofuran, dimethyl sulfoxide, 1,3-dioxorane, formamide.
- the organic solid electrolyte solution includes, for example, polyethylene derivatives, polyethylene oxide derivatives, polypropylene oxide derivatives, phosphoric acid ester polymers, poly agitation lysine, polyester sulfide, polyvinyl alcohol, polyvinylidene fluoride, and ionic electrolytes.
- polyethylene derivatives polyethylene oxide derivatives
- polypropylene oxide derivatives polypropylene oxide derivatives
- phosphoric acid ester polymers phosphoric acid ester polymers
- poly agitation lysine polymers
- polyester sulfide polyvinyl alcohol
- polyvinylidene fluoride polyvinylidene fluoride
- ionic electrolytes ionic electrolytes.
- One or more types selected from the group consisting of polymerizers containing a dissociation group may be used.
- the inorganic solid electrolyte solution may be, for example, one or more selected from the group consisting of nitrides, halides, and sulfates of Li, specifically Li 3 N, LiI, Li 5 NI 2 , Li 3 N-LiI-LiOH, LiSiO 4 , LiSiO 4 -LiI-LiOH, Li 2 SiS 3 , Li 4 SiO 4 , Li 4 SiO 4 -LiI-LiOH, and Li 3 PO 4 -Li 2 S-SiS 2 .
- the lithium salt is a material that is easily soluble in the non-aqueous electrolyte, and examples include LiCl, LiBr, LiI, LiClO 4 , LiBF 4 , LiB 10 Cl 10 , LiPF 6 , LiCF 3 SO 3 , LiCF 3 CO 2 , LiAsF 6 , One or more selected from the group consisting of LiSbF 6 , LiAlCl 4 , CH 3 SO 3 Li, (CF 3 SO 6 ) 2 NLi, lithium chloroborane, lithium lower aliphatic carboxylate, lithium 4-phenyl borate, and imide may be used.
- non-aqueous electrolyte solution for example, pyridine, triethyl phosphite, triethanolamine, cyclic ether, ethylene diamine, n-glyme, hexaphosphoric acid triamide, From the group consisting of nitrobenzene derivatives, sulfur, quinone imine dyes, N-substituted oxazolidinones, N,N-substituted imidazolidines, ethylene glycol dialkyl ethers, ammonium salts, pyrrole, 2-methoxy ethanol, and aluminum trichloride. One or more selected types may be added.
- a halogen-containing solvent such as carbon tetrachloride or ethylene trifluoride may be further included, and carbon dioxide gas may be further included to improve high-temperature storage characteristics, FEC (Fluoro-Ethylene Carbonate), PRS (Propene sultone), etc. may be further included.
- lithium salts such as LiPF 6 , LiClO 4 , LiBF 4 , and LiN(SO 2 CF 3 ) 2 are mixed with cyclic carbonates of EC or PC, which are high-dielectric solvents, and linear carbonates of DEC, DMC, or EMC, which are low-viscosity solvents.
- a non-aqueous electrolyte solution containing lithium salt can be prepared by adding it to a mixed solvent.
- the solid electrolyte may be one or more selected from the group consisting of an organic solid electrolyte, an inorganic solid electrolyte with ion conduction activity, and a composite solid electrolyte.
- the semi-solid electrolyte may be a gel-type electrolyte in which a polymer additive is added to an electrolyte solution consisting of a lithium salt, an additive, and an organic solvent.
- the polymer additive may be one or more selected from the group consisting of POE (Polyethyleneoxide) and PTFE (Polytetrafluoroethylene).
- POE Polyethyleneoxide
- PTFE Polytetrafluoroethylene
- the electrode assembly includes an electrode tab.
- the electrode tab is connected to the anode and cathode of the electrode assembly, respectively, and protrudes outward on one side from the electrode assembly, providing a path for electrons to move between the inside and outside of the electrode assembly.
- Electrode leads are connected to the electrode tabs of the electrode assembly through spot welding or the like. And, part of the electrode lead is surrounded by an insulating portion.
- the insulating portion is located limited to the sealing portion where the upper and lower cases of the battery case are heat-sealed, thereby bonding the electrode lead to the battery case. Additionally, it prevents electricity generated from the electrode assembly from flowing into the battery case through the electrode lead and maintains the sealing of the battery case. Therefore, this insulating part is made of a non-conductive material that does not conduct electricity well.
- an insulating tape that is easy to attach to the electrode lead and has a relatively thin thickness is often used, but it is not limited to this and various members can be used as long as they can insulate the electrode lead.
- the electrode lead includes a positive electrode lead with one end connected to the positive tab and extending in the direction in which the positive electrode tab protrudes, and a negative lead with one end connected to the negative electrode tab and extending in the direction in which the negative electrode tab protrudes.
- the other ends of both the positive and negative leads protrude to the outside of the battery case. By doing so, electricity generated inside the electrode assembly can be supplied to the outside. Additionally, since the positive and negative electrode tabs each protrude in various directions, the positive and negative electrode leads can also extend in various directions.
- the battery case may have a laminated sheet structure of an inner layer/metal layer/outer layer.
- the material of this inner layer may be one or more selected from the group consisting of polyolefin resins such as polypropylene, polyethylene, polyethylene acrylic acid, and polybutylene, polyurethane resins, and polyamide resins with excellent chemical resistance and good sealing properties.
- polypropylene which has excellent mechanical properties such as tensile strength, rigidity, surface hardness, and impact resistance, and chemical resistance, may be preferable.
- the metal layer is in contact with the inner layer and corresponds to a barrier layer that prevents moisture or various gases from penetrating into the battery from the outside.
- a barrier layer that prevents moisture or various gases from penetrating into the battery from the outside.
- metal layers include aluminum, aluminum alloy, copper, and stainless steel, which are light but have excellent formability.
- iron alloys such as can be used.
- an outer layer is provided on the other side of the metal layer, and the outer layer can be made of a heat-resistant polymer with excellent tensile strength, moisture permeation prevention, and air permeation prevention properties to secure heat resistance and chemical resistance while protecting the electrode assembly.
- a heat-resistant polymer with excellent tensile strength, moisture permeation prevention, and air permeation prevention properties to secure heat resistance and chemical resistance while protecting the electrode assembly.
- polyamide or polyethylene terephthalate may be used, but is not limited thereto.
- the secondary battery may preferably be a pouch-type battery.
- the risk of gas explosion or fire can be prevented by adsorbing gas generated inside the battery, various sizes and shapes can be implemented, and high energy density can be achieved. There is an advantage to having it.
- the secondary battery may have its gas adsorption pack blocked or opened from the outside air, that is, the gas adsorption pack is blocked from the outside air before the battery operates normally or its life deteriorates, and its life deteriorates or the battery operates abnormally.
- the gas adsorption pack is opened and the gas adsorbent is exposed, which absorbs and removes the gas to ensure the stability of the battery and lowers the resistance of the battery, improving battery performance.
- the advantage is that the battery runs even after the gas adsorption pack is opened. There is. Conventionally, when gas is generated inside a battery, it is removed by drilling a hole in the battery case to discharge the gas. In this case, there is a problem that the battery no longer operates because electrolyte flows out from the perforated battery case.
- a battery module can be formed by stacking a plurality of secondary batteries according to the present invention in a vertical or horizontal direction.
- the gas generated inside the battery case due to abnormal operation of the battery is easily removed and the gas is removed. This has the effect of keeping the battery running even afterward.
- a battery pack can be formed by stacking a plurality of the battery modules in a vertical or horizontal direction.
- the gas generated inside the battery case due to abnormal operation of the battery can be easily removed and even after the gas has been removed. This has the effect of driving the battery.
- the method for manufacturing a secondary battery is, for example, applying a positive electrode active material slurry in which a positive electrode active material is dissolved in a solvent to a positive electrode current collector, and applying a negative electrode active material slurry in which a negative electrode active material is dissolved in a solvent to the negative electrode current collector to manufacture a positive electrode and a negative electrode. step; Forming a unit cell by stacking a separator between the manufactured anode and cathode; forming an electrode assembly by stacking the formed unit cells; and a step of accommodating the formed electrode assembly in a case with a gas adsorption portion attached to the inner wall of the case cover and injecting an electrolyte.
- the method of manufacturing a secondary battery includes applying a positive electrode active material slurry in which a positive electrode active material is dissolved in a solvent to a positive electrode current collector, and applying a negative electrode active material slurry in which a negative electrode active material is dissolved in a solvent to the negative electrode current collector to manufacture a positive electrode and a negative electrode. ; Forming a unit cell by stacking a separator between the manufactured anode and cathode; forming an electrode assembly by stacking the formed unit cells; and installing a gas absorption portion on top of the formed electrode assembly; and a step of accommodating the electrode assembly installed with the gas adsorption unit in the case and injecting the electrolyte.
- FIG. 2 is a side view showing the gas adsorption unit 20 accommodated inside the battery case cover 10 in which the electrode assembly 110 and the electrolyte 120 are charged with the battery 1 according to an embodiment of the present invention. am.
- a gas adsorption unit 20 is attached to the inner wall of the battery case cover 10, and the gas adsorption unit 20 has a shape memory alloy 22 between the inner wall of the case cover and the gas adsorption pack 21. It is installed.
- FIG 3 below is a top view showing the gas adsorption unit 20 accommodated inside the battery case cover 10 according to an embodiment of the present invention. Specifically, a shape memory alloy (22) is installed between the inside of the case cover and the gas adsorption pack (21).
- Figure 4 below is a side view showing the gas adsorption unit 20 accommodated inside the battery case cover 10 filled with the electrode assembly 110 and electrolyte 120 in the battery 1 according to an embodiment of the present invention. am.
- a gas adsorption unit 20 is attached to the inner wall of the battery case cover 10, and a shape memory alloy 22 is installed on one side of the gas adsorption pack 21. .
- the gas adsorption unit 20 may have shape memory alloy 22 installed on both sides of the gas adsorption pack 21.
- Figure 5 below is a view showing the gas adsorption unit 20 accommodated inside the battery case cover 10 according to an embodiment of the present invention from the top.
- a gas adsorption pack 21 is located inside the case cover, and a shape memory alloy 22 is located on one side of the gas adsorption pack 21.
- the gas adsorption unit 20 may have shape memory alloy 22 installed on both sides of the gas adsorption pack 21.
- Figure 6 below is a diagram for explaining changes in the gas adsorption unit 20 due to an increase in internal temperature due to gas generation in the secondary battery 1 according to a preferred embodiment of the present invention.
- the shape memory alloy 22 when the internal temperature of the shape memory alloy 22 increases due to gas generation, the shape memory alloy 22 is bent into a predetermined shape toward the gas adsorption pack 21 and pierces the gas adsorption pack 21, resulting in The contained gas adsorbent is released, making it possible to control overheating or fire of the battery and prevent deformation of the case.
- Figure 7 below is a diagram to explain the shape of the shape memory alloy 22 and its sharp ends according to an embodiment of the present invention.
- the shape memory alloy 22 becomes thinner toward the end and has a sharp end.
- the gas absorption pack 21 can be more easily perforated or torn.
- Figure 8 below is a diagram for explaining the cross section of the shape memory alloy 22 according to an embodiment of the present invention, and is an enlarged view of the cross section taken along section A-A of Figure 7.
- the cross section of the shape memory alloy 22 may have various shapes as shown in FIG. 8.
- Figure 8(a) shows a plate-shaped cross-sectional shape
- Figure 8(b) shows a circular cross-sectional shape
- Figure 8(c) shows a square cross-sectional shape
- Figure 8(b) shows a square cross-sectional shape
- d) shows the cross-sectional shape of a triangle.
- the cross-sectional shape of the shape memory alloy 22 may be changed into various forms.
- Figure 9 below shows a perspective view of the shape memory alloy 22 before and after deformation.
- the shape memory alloy 22 has the overall shape of a thin cylinder, becomes thinner toward the right end, and has a sharp shape. It is deformed into a straight shape at normal temperature, but the shape recovery temperature Because it is restored to its pre-deformation form within the body, the right end becomes bent.
- the left end of the shape memory alloy 22, which is not bent within the shape recovery temperature range, has a flat shape, while the right end, which is bent within the shape recovery temperature range, has a pointed shape.
- the shape memory alloy 22 has an overall shape of a thin cylinder, becomes thinner toward both ends, and has a sharp shape. At normal temperature, it is deformed into a straight shape, but the shape recovery temperature If this happens, the shape before deformation is restored, so both ends are bent in the same direction.
- the shape memory alloy 22 has an overall shape of a thin and flat square pillar, becomes thinner toward the right end, and has a sharp shape. At normal temperature, it is deformed into a straight shape, but recovers its shape. When the temperature rises above, the right end becomes bent because it is restored to its pre-deformation shape. The left end of the shape memory alloy 22, which is not bent above the shape recovery temperature, is flat, while the right end, which is bent above the shape recovery temperature, is pointed.
- Figure 10 below shows various shapes of the thin film shape memory alloy 22. Specifically, in Figure 10 (a) the shape memory alloy 22 has a triangular shape, in Figure 10 (b) the shape memory alloy 22 has a diamond shape, and in Figure 10 (c) the shape memory alloy 22 has a diamond shape. This has a pentagonal shape, and in Figure 3(d), the shape memory alloy 22 has a hexagonal shape.
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Abstract
Description
Claims (15)
- 전지 케이스 커버 및 케이스 내부에 수용된 가스 흡착부를 포함하고,상기 가스 흡착부는 케이스의 내부 온도가 증가하면 가스 흡착 팩이 개봉되는 것을 특징으로 하는전지 케이스.
- 제1항에 있어서,상기 가스 흡착부는 가스 흡착제가 충전된 가스 흡착 팩, 및 내부 온도가 증가하면 구부러져 상기 가스 흡착 팩을 뚫는 형상기억합금을 포함하는 것을 특징으로 하는전지 케이스.
- 제2항에 있어서,상기 형상기억합금은 니켈-티타늄합금(Ni-Ti), 구리-아연합금(Cu-Zn), 구리-아연-알루미늄합금(Cu-Zn-Al), 구리-카드늄합금(Cu-Cd), 니켈-알루미늄합금(Ni-Al), 구리-아연-알루미늄합금(Cu-Zn-Al) 및 구리-알루미늄-니켈합금(Cu-Al-Ni)으로 이루어진 군으로부터 선택된 1종 이상인 것을 특징으로 하는전지 케이스.
- 제2항에 있어서,상기 형상기억합금은 형상회복온도가 70 내지 100 ℃인 것을 특징으로 하는전지 케이스.
- 제2항에 있어서,상기 형상기억합금은 일 방향 형상기억 효과를 갖는 것을 특징으로 하는전지케이스.
- 제1항에 있어서,상기 가스 흡착부는 상기 케이스 커버 안쪽 벽에 붙어있는 것을 특징으로 하는전지 케이스.
- 제2항에 있어서,상기 가스 흡착제는 가스 흡착성 분자체, 가스 흡착성 금속 및 가스 흡착 물질로 이루어진 군으로부터 선택되는 1종 이상을 포함하는 것을 특징으로 하는전지 케이스.
- 제7항에 있어서,상기 가스 흡착성 분자체는 실리카겔, 탄소섬유, 다공질성 탄소재료, 다공질성 금속산화물, 다공성 겔, 및 제올라이트로 이루어진 군으로부터 선택된 1종 이상인 것을 특징으로 하는전지 케이스.
- 제7항에 있어서,상기 가스 흡착성 금속은 니켈(Ni), 백금(Pt), 팔라듐(Pd), 칼슘(Ca), 스트론튬(Sr), 바륨(Ba), 탈륨(Tl), 지르코늄(Zr), 하프늄(Hf), 바나듐(V), 니오븀(Nb), 탄탈륨(Ta), 크롬(Cr), 몰리브덴(Mo) 및 텅스텐(W)으로 이루어진 군으로부터 선택되는 1종 이상인 것을 특징으로 하는전지 케이스.
- 제7항에 있어서,상기 가스 흡착 물질은 BaTiO3, PB(Mg3Nb2/3)O3-PbTiO3 (PMN-PT), hafnia (HfO2)SrTiO3, SnO2, CeO2, MgO, NiO, CaO, ZnO, ZrO2, Y2O3, Al2O3, TiO2, 수산화나트륨(NaOH), 수산화칼슘(Ca(OH)2) 및 수산화칼륨(KOH)으로 이루어진 군에서 선택되는 1종 이상인 것을 특징으로 하는전지 케이스.
- 제1항에 있어서,상기 가스 흡착 팩은 올레핀계 수지, 불소계 수지 및 폴리아미드계 수지로 이루어진 군으로부터 선택된 1종 이상을 포함하여 이루어진 것을 특징으로 하는전지 케이스.
- 제2항에 있어서,상기 가스 흡착부는 케이스 커버 안쪽 벽과 가스 흡착 팩 사이에 형상기억합금이 위치하도록 설치되거나, 또는 케이스 커버 안쪽 벽에 위치한 가스 흡착 팩의 측면에 형상기억합금이 위치하도록 설치되는 것을 특징으로 하는전지 케이스.
- 제1항 내지 제12항 중 어느 한 항의 전지 케이스, 상기 전지 케이스 내부에 수용되는 전극조립체, 및 상기 전지 케이스 내부에 충전되는 전해질을 포함하는 것을 특징으로 하는이차 전지.
- 제13항에 있어서,상기 이차 전지는 가스 흡착 팩이 외기에 차단 또는 개봉된 상태인 것을 특징으로 하는이차 전지.
- 제13항에 있어서,상기 이차 전지는 파우치형 전지인 것을 특징으로 하는이차 전지.
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CN202280047298.4A CN117597828A (zh) | 2022-03-31 | 2022-12-14 | 电池壳体和二次电池 |
EP22935916.1A EP4343957A1 (en) | 2022-03-31 | 2022-12-14 | Battery case and secondary battery |
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KR10-2022-0040251 | 2022-03-31 | ||
KR1020220040251A KR20230141116A (ko) | 2022-03-31 | 2022-03-31 | 전지 케이스 및 이차 전지 |
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JP2004103415A (ja) * | 2002-09-10 | 2004-04-02 | Nissan Motor Co Ltd | ラミネート二次電池、複数のラミネート二次電池からなる組電池モジュール、複数の組電池モジュールからなる組電池ならびにこれらいずれかの電池を搭載した電気自動車 |
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KR20220040251A (ko) | 2020-09-23 | 2022-03-30 | 펄스나인 주식회사 | 트랜스퍼 생성모델의 보편적 성능을 높이는 트랜스퍼 이미지 생성 방법 |
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KR20130078953A (ko) | 2012-01-02 | 2013-07-10 | 현대모비스 주식회사 | 차량용 배터리안전장치 |
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- 2022-12-14 WO PCT/KR2022/020385 patent/WO2023191246A1/ko active Application Filing
- 2022-12-14 CN CN202280047298.4A patent/CN117597828A/zh active Pending
- 2022-12-14 EP EP22935916.1A patent/EP4343957A1/en active Pending
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JP2004103415A (ja) * | 2002-09-10 | 2004-04-02 | Nissan Motor Co Ltd | ラミネート二次電池、複数のラミネート二次電池からなる組電池モジュール、複数の組電池モジュールからなる組電池ならびにこれらいずれかの電池を搭載した電気自動車 |
KR20130019477A (ko) * | 2011-08-17 | 2013-02-27 | 에스케이이노베이션 주식회사 | 이차전지 |
KR20160004247A (ko) * | 2015-12-22 | 2016-01-12 | 주식회사 코캄 | 안전성이 향상된 리튬 이차전지 모듈 및 리튬 이차전지 팩 |
KR20190084794A (ko) * | 2018-01-09 | 2019-07-17 | 주식회사 엘지화학 | 가스 흡착층을 포함하는 전지케이스 |
KR20200069752A (ko) * | 2018-12-07 | 2020-06-17 | 주식회사 엘지화학 | 벤팅 부재를 포함하는 파우치형 전지셀 및 이를 포함하는 전지팩 |
KR20220040251A (ko) | 2020-09-23 | 2022-03-30 | 펄스나인 주식회사 | 트랜스퍼 생성모델의 보편적 성능을 높이는 트랜스퍼 이미지 생성 방법 |
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