WO2020184689A1 - 包装容器及びこれを備える蓄電デバイス - Google Patents

包装容器及びこれを備える蓄電デバイス Download PDF

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Publication number
WO2020184689A1
WO2020184689A1 PCT/JP2020/010965 JP2020010965W WO2020184689A1 WO 2020184689 A1 WO2020184689 A1 WO 2020184689A1 JP 2020010965 W JP2020010965 W JP 2020010965W WO 2020184689 A1 WO2020184689 A1 WO 2020184689A1
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WO
WIPO (PCT)
Prior art keywords
valve structure
packaging container
seal portion
valve
internal space
Prior art date
Application number
PCT/JP2020/010965
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
高萩 敦子
美帆 佐々木
Original Assignee
大日本印刷株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 大日本印刷株式会社 filed Critical 大日本印刷株式会社
Priority to JP2021505148A priority Critical patent/JP7609059B2/ja
Publication of WO2020184689A1 publication Critical patent/WO2020184689A1/ja

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M50/00Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
    • H01M50/30Arrangements for facilitating escape of gases
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D33/00Details of, or accessories for, sacks or bags
    • B65D33/01Ventilation or drainage of bags
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01GCAPACITORS; CAPACITORS, RECTIFIERS, DETECTORS, SWITCHING DEVICES, LIGHT-SENSITIVE OR TEMPERATURE-SENSITIVE DEVICES OF THE ELECTROLYTIC TYPE
    • H01G11/00Hybrid capacitors, i.e. capacitors having different positive and negative electrodes; Electric double-layer [EDL] capacitors; Processes for the manufacture thereof or of parts thereof
    • H01G11/78Cases; Housings; Encapsulations; Mountings
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M50/00Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
    • H01M50/10Primary casings; Jackets or wrappings
    • H01M50/102Primary casings; Jackets or wrappings characterised by their shape or physical structure
    • H01M50/105Pouches or flexible bags
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

Definitions

  • the present invention relates to a packaging container and a power storage device including the packaging container.
  • Patent Document 1 discloses a battery in which a battery element is housed in a pouch-shaped container.
  • a valve structure having a check valve is attached to a seal portion formed along the peripheral edge of the container. This check valve is configured to operate when the internal pressure of the container rises above a certain level to vent gas.
  • the present invention is a packaging container having a valve structure for venting gas, and a packaging container capable of suppressing the liquid contained therein from entering a passage in the valve structure and impairing its function. It is an object of the present invention to provide a power storage device comprising the above.
  • the present invention is not limited to the above-mentioned example of the power storage device, and can be applied to all packaging containers that can block the liquid contained in the packaging container when it enters the passage in the valve structure.
  • the packaging container includes a container body and a valve structure.
  • the container body is made of a packaging material and has a peripheral seal portion that defines the peripheral edge of the internal space.
  • the valve structure is attached to the peripheral seal portion and has a passage for communicating the internal space with the external space, and when the pressure in the internal space is increased by the gas generated in the internal space, the passage is provided. The gas is released through.
  • the passage has an inlet facing the interior space and an exit facing the exterior space.
  • the container body further has a pattern seal portion including a sealed region and a non-sealed region. The unsealed region forms a plurality of flow paths that guide the gas generated in the internal space to the inlet.
  • the seal region defines the wall surface of the plurality of flow paths.
  • the packaging container according to the second aspect of the present invention is the packaging container according to the first aspect, and the pattern seal portion is formed at least around the inlet.
  • the packaging container according to the third aspect of the present invention is the packaging container according to the first aspect or the second aspect, and the pattern seal portion is not in contact with the external space.
  • the packaging container according to the fourth aspect of the present invention is a packaging container according to any one of the first to third aspects, and the pattern seal portion is arranged so as to surround the entrance.
  • the packaging container according to the fifth aspect of the present invention is a packaging container according to any one of the first to fourth aspects, and the valve structure includes a check valve.
  • the packaging container according to the sixth aspect of the present invention is a packaging container according to any one of the first to fifth aspects, and the valve structure includes a breaking valve.
  • the power storage device is a packaging container according to any one of the first to sixth aspects, and the packaging material is composed of a laminated film.
  • the power storage device is a packaging container according to any one of the first to seventh aspects, and is adhered to the outer surface of the valve structure and to the peripheral seal portion. Further provided with an adhesive member.
  • the power storage device includes a packaging container according to any one of the first to eighth aspects and a power storage device element housed in the internal space.
  • a packaging container provided with a valve structure for venting gas.
  • the valve structure is attached to the peripheral seal portion of the container body.
  • the container body has a pattern seal portion including a sealed region and a non-sealed region.
  • the unsealed region forms a plurality of channels, which extend so as to guide the gas generated in the vessel body to the inlet of the valve structure.
  • the sealing area defines the walls of these channels.
  • the plurality of flow paths formed by such a pattern seal portion have a more complicated configuration as a whole flow path than when a single flow path is formed, and the liquid in the container body is a valve structure. It becomes a resistance to reach the entrance of.
  • the gas generated in the container body has higher fluidity than the liquid, so that it easily passes through the flow path. Therefore, according to the above configuration, it is possible to prevent the liquid contained in the packaging container from entering the passage in the valve structure and impairing the function while ensuring the function of venting the gas by the valve structure. it can.
  • FIG. 1 is a sectional view taken along line II-II of FIG. Top view of the valve structure.
  • FIG. 3 is a sectional view taken along line IV-IV of FIG.
  • FIG. 3 is a sectional view taken along line VV of FIG.
  • FIG. 11 is a cross-sectional view taken along the line XII-XII.
  • FIG. 1 shows a plan view of the power storage device 1 including the packaging container 10 according to the present embodiment.
  • FIG. 2 is a sectional view taken along line II-II of FIG.
  • the parts that are originally invisible from the outside are partially shown by dotted lines for reference.
  • the vertical direction of FIG. 1 is referred to as "front and back”
  • the horizontal direction is referred to as “left and right”
  • the vertical direction of FIG. 2 is referred to as "up and down”.
  • the orientation of the power storage device 1 when used is not limited to this.
  • the packaging container 10 of the present embodiment is used as a power storage device, and includes a tab 300 and a tab film 310 attached to the container body 100 in addition to the container body 100.
  • the power storage device element 400 is housed in the internal space S1 of the container body 100.
  • the container body 100 is composed of packaging materials 110 and 120.
  • the packaging materials 110 and 120 are heat-sealed and fused to each other on the outer peripheral portion of the container body 100 when viewed from a direction orthogonal to the vertical direction, whereby the peripheral edge sealing portion 130 is formed.
  • the peripheral space S1 of the container body 100 that is shielded from the external space is formed by the peripheral seal portion 130.
  • the peripheral edge sealing portion 130 defines the peripheral edge of the internal space S1 of the container body 100 when viewed from a direction orthogonal to the vertical direction.
  • modes such as heat welding from a heat source and ultrasonic welding are assumed.
  • the peripheral seal portion 130 means a portion where the packaging materials 110 and 120 are fused and integrated.
  • the packaging materials 110 and 120 are made of, for example, a resin molded product or a film.
  • the resin molded product referred to here can be manufactured by a method such as injection molding, compressed air molding, vacuum forming, blow molding, or the like, and in-mold molding may be performed in order to impart designability and functionality.
  • the type of resin may be polyolefin, polyester, nylon, ABS, or the like.
  • the film referred to here is, for example, a plastic film or a metal foil that can be manufactured by a method such as an inflation method or a T-die method.
  • the film referred to here may or may not be stretched, and may be a single-layer film or a laminated film.
  • the laminated film referred to here may be produced by a coating method, a plurality of films bonded by an adhesive or the like, or may be produced by a multilayer extrusion method.
  • the packaging materials 110 and 120 can be variously composed, but in the present embodiment, they are composed of a laminated film.
  • the laminated film can be a laminated body in which a base material layer, a barrier layer and a thermosetting resin layer are laminated.
  • the base material layer functions as a base material for the packaging materials 110 and 120, and is typically a resin layer that forms the outermost layer of the container body 100 and has an insulating property.
  • the barrier layer has a function of improving the strength of the packaging materials 110 and 120 and preventing water vapor, oxygen, light, etc. from entering the power storage device 1, and is typically a metal layer made of aluminum or the like. is there.
  • the thermosetting resin layer is typically made of a thermosetting resin such as polyolefin, and forms the innermost layer of the container body 100.
  • the shape of the container body 100 is not particularly limited, and can be, for example, a bag shape (pouch shape).
  • the bag shape referred to here may be a three-way seal type, a four-way seal type, a pillow type, a gusset type, or the like.
  • the container body 100 of this embodiment has the shapes shown in FIGS. 1 and 2. That is, the container body 100 of the present embodiment heat-seals the tray-shaped packaging material 110 and the sheet-shaped packaging material 120 superposed on the tray-shaped packaging material 120 along the outer peripheral portion in a plan view. Manufactured.
  • the packaging material 110 includes an annular flange portion 114 corresponding to an outer peripheral portion in a plan view, and a molding portion 112 that is continuous with the inner edge of the flange portion 114 and bulges downward from the flange portion 114.
  • the flange portion 114 and the outer peripheral portion of the packaging material 120 facing the flange portion 114 in a plan view are heat-sealed so as to be integrated to form the peripheral edge seal portion 130.
  • the peripheral edge seal portion 130 extends over the entire outer circumference of the container body 100 and is formed in an annular shape.
  • the packaging material 110 may have the same shape as the packaging material 120, or the packaging material 120 may have the same shape as the packaging material 110.
  • the power storage device element 400 is, for example, a power storage member such as a lithium ion battery (secondary battery) or a capacitor, and includes an electrolytic solution.
  • a power storage member such as a lithium ion battery (secondary battery) or a capacitor
  • an electrolytic solution When an abnormality occurs in the power storage device element 400, gas may be generated in the internal space S1 of the container body 100. Further, when the power storage device element 400 is a capacitor, gas may be generated in the internal space S1 of the container body 100 due to a chemical reaction in the capacitor.
  • Either a primary battery or a secondary battery may be housed in the packaging container 10, but a secondary battery is preferably housed.
  • the type of the secondary battery housed in the packaging container 10 is not particularly limited, and for example, in addition to the lithium ion battery, a lithium ion polymer battery, an all-solid-state battery, a lead storage battery, a nickel / hydrogen storage battery, a nickel / cadmium storage battery, etc.
  • Examples thereof include nickel / iron storage batteries, nickel / zinc storage batteries, silver oxide / zinc storage batteries, metal air batteries, polyvalent cation batteries, capacitors, and capacitors.
  • the tab 300 is a metal terminal used for input / output of electric power in the power storage device element 400.
  • the tabs 300 are separately arranged at the left and right ends of the container body 100, one of which constitutes a terminal on the positive electrode side and the other of which constitutes a terminal on the negative electrode side.
  • One end of each tab 300 in the left-right direction is electrically connected to an electrode (positive electrode or negative electrode) of the power storage device element 400 in the internal space S1 of the container body 100, and the other end is a peripheral seal portion. It protrudes outward from 130.
  • the above-described form of the power storage device 1 is particularly preferable for use in an electric vehicle such as an electric vehicle or a hybrid vehicle in which a large number of power storage devices 1 are connected in series and used at a high voltage.
  • the metal material constituting the tab 300 is, for example, aluminum, nickel, copper, or the like.
  • the tab 300 connected to the positive electrode is typically made of aluminum or the like, and the tab 300 connected to the negative electrode is typically copper, nickel or the like. Consists of.
  • the tab 300 on the left side is sandwiched between the packaging materials 110 and 120 via the tab film 310 at the left end portion of the peripheral seal portion 130.
  • the tab 300 on the right side is also sandwiched between the packaging materials 110 and 120 via the tab film 310 at the right end portion of the peripheral sealing portion 130.
  • the tab film 310 is an adhesive film and is configured to adhere to both the packaging materials 110 and 120 and the tab 300 (metal). By passing through the tab film 310, even if the tab 300 and the innermost layers (thermosetting resin layers) of the packaging materials 110 and 120 are different materials, both can be fixed.
  • the packaging container 10 includes a valve structure 200 as a mechanism for preventing such a situation.
  • the valve structure 200 is a gas vent valve for adjusting the pressure in the internal space S1, and is attached to the peripheral seal portion 130 of the container body 100.
  • the container body 100 of the present embodiment is formed with a pattern seal portion 500 in order to maintain the degassing function of the valve structure 200.
  • the configurations of the valve structure 200 and the pattern seal portion 500 will be described in detail.
  • FIG. 3 is a plan view of the valve structure 200.
  • FIG. 4 is a sectional view taken along line IV-IV of FIG. 3
  • FIG. 5 is a sectional view taken along line VV of FIG.
  • the valve structure 200 of the present embodiment is a check valve capable of repeatedly venting gas, and is particularly a ball spring type check valve.
  • the valve structure 200 is a relief valve that switches between an open state and a closed state according to the pressure in the internal space S1.
  • the valve structure 200 includes a valve function portion 210 and a mounting portion 220.
  • the mounting portion 220 is a portion for mounting the valve structure 200 to the container body 100.
  • the mounting portion 220 is fixed to the container body 100 by being heat-sealed while being sandwiched between the packaging materials 110 and 120 constituting the peripheral seal portion 130 (see FIG. 2).
  • the valve function portion 210 is arranged outside the peripheral edge sealing portion 130 and is not sandwiched between the packaging materials 110 and 120 (see FIGS. 1 and 2).
  • the heat generated when the mounting portion 220 is attached to the container body 100 by the heat seal reduces the possibility that various parts constituting the valve function portion 210 will be destroyed due to deformation or the like.
  • the mounting portion 220 is preferably composed of a material that directly adheres to the innermost layers of the packaging materials 110 and 120.
  • the mounting portion 220 can be made of a material having the same heat-sealing properties as the innermost layers of the packaging materials 110 and 120, for example, a resin such as polyolefin. If the mounting portion 220 cannot be made of the above materials due to heat resistance or the like, these can be attached via a film that can be adhered to both the mounting portion 220 and the innermost layers of the packaging materials 110 and 120. Can be glued.
  • the mounting portion 220 is connected to the valve function portion 210.
  • the outer shapes of the valve function portion 210 and the mounting portion 220 are each substantially cylindrical and coaxial with each other.
  • the central axis common to both is represented by reference numeral C1.
  • the central axis C1 extends parallel to or substantially parallel to the front-rear direction.
  • the valve function portion 210 and the mounting portion 220 are both tubular as a whole.
  • the inner space of the valve function portion 210 and the inner space of the attachment portion 220 communicate with each other, whereby a passage L1 is formed inside the valve structure 200.
  • the passage L1 extends along the central axis C1 direction.
  • the passage L1 has an inlet O1 facing the internal space S1 of the container body 100 and an outlet O2 facing the external space. Therefore, the passage L1 communicates the internal space S1 with the external space in the open state of the valve structure 200.
  • the valve structure 200 seals the internal space S1 from the external space in the closed state. When the pressure in the internal space S1 rises due to the gas generated in the internal space S1, the valve structure 200 is opened and the gas is discharged to the external space through the passage L1.
  • the valve function unit 210 has a tubular body 211, an O-ring 212, a ball 214, and a spring 216.
  • the tubular body 211 and the mounting portion 220 can be integrally configured, or can be manufactured as separate parts and then connected to each other.
  • the tubular body 211 may be made of a metal such as stainless steel, or may be made of a resin such as polyolefin.
  • the tubular body 211 defines an internal space as a part of the passage L1, and the O-ring 212, the ball 214, and the spring 216 are arranged in this order toward the outside in the central axis C1 direction in the internal space.
  • the tubular body 211 has a valve seat 211a.
  • the valve seat 211a defines an inverted truncated cone-shaped space whose diameter increases toward the external space as a part of the internal space of the tubular body 211.
  • the valve seat 211a receives the ball 214 as a valve body urged from the outside by the spring 216, and at this time, the closed state of the valve structure 200 is formed.
  • the spring 216 is a coil spring in the example of FIG. 5, but the spring 216 is not limited to this, and may be, for example, a leaf spring.
  • the O-ring 212 eliminates the gap between the ball 214 and the valve seat 211a and assists in improving the airtightness in the closed state.
  • the O-ring 212 is a hollow circular ring, and is made of, for example, fluororubber.
  • the materials of the balls 214 and the springs 216 are not particularly limited, and for example, both may be made of metal such as stainless steel. Further, the ball 214 may be made of resin or rubber.
  • the internal space of the mounting portion 220 communicates with the internal space S1 of the container body 100.
  • the pressure in the internal space S1 that is, the pressure in the internal space of the mounting portion 220 reaches a predetermined pressure
  • the gas guided from the internal space S1 presses the ball 214 upward in FIG.
  • the spring 216 is deformed and the ball 214 moves upward to form an open state of the valve structure 200.
  • the gas generated in the internal space S1 flows out into the valve function portion 210 through the gap formed between the ball 214 and the O-ring 212, and is further discharged to the external space through the outlet O2. Will be done.
  • the valve structure 200 can prevent the entry of air into the internal space S1 of the container body 100 in the closed state. On the other hand, even in the open state, it is unlikely that the atmosphere will enter the internal space S1. This is because, in the open state, the pressure in the internal space S1 is maintained higher than or equivalent to the pressure in the external space. Therefore, the valve structure 200 can effectively prevent the entry of the atmosphere into the container body 100, and can prevent the power storage device element 400 from being deteriorated by the moisture contained therein.
  • the valve structure 200 is a gas vent valve that adjusts the pressure in the internal space S1 of the container body 100.
  • the liquid mainly the electrolytic solution
  • the degassing function of the valve structure 200 may be impaired. This is because a solid such as a salt or an electrolytic solution component precipitated from such a liquid can block the passage L1.
  • the container body 100 has a pattern seal portion 500 shown by hatching in a diagonal line in FIG. 1 around the inlet O1 of the valve structure 200.
  • FIG. 6 is an enlarged plan view of the periphery of the pattern seal portion 500.
  • the heat-sealed seal area is indicated by cross-line hatching.
  • the unsealed area that is not heat-sealed is shown without hatching and filling.
  • the enclosed line of the alternate long and short dash line indicating the pattern seal portion 500 is a reference line and is not actually visible.
  • the pattern seal portion referred to here does not mean a solid seal portion that is sealed substantially without gaps, but a region in which a pattern or a pattern is formed as a whole by combining a seal region and a non-seal region. To do.
  • the heat-sealed sealing region means a portion where the facing packaging materials 110 and 120 are fused and integrated.
  • the pattern seal portion 500 is arranged so as to surround the inlet O1 of the attachment portion 220 of the valve structure 200. Therefore, the gas and the liquid in the internal space S1 of the container body 100 cannot reach the inlet O1 of the valve structure 200 without passing through the pattern seal portion 500.
  • the dotted line indicates the portion of the mounting portion 220 that is attached to the peripheral seal portion 130.
  • the non-seal region 520 included in the pattern seal portion 500 forms a plurality of flow paths L2 extending so as to branch, and the seal region 510 included in the pattern seal portion 500 defines the wall surface of these flow paths L2.
  • These flow paths L2 extend so as to guide the gas generated in the internal space S1 to the inlet O1. Therefore, through these flow paths L2, the passage L1 in the valve structure 200 is inside the central portion of the internal space S1 (excluding the space formed by the flow path L2 in the internal space S1) and inside the pattern seal portion 500. It communicates with the space).
  • the sealed region 510 is arranged so as to branch the flow path L2 formed by the non-sealed region 520. Therefore, as compared with the case where the pattern seal portion 500 does not exist and the entire region occupied by the pattern seal portion 500 is the non-seal region, the flow reaching the inlet O1 from the central portion of the internal space S1 around the inlet O1 of the valve structure 200.
  • the road is narrowed.
  • the shape of the flow path L2, which is branched in this way and whose cross-sectional area (pipe diameter) is narrowed, is the resistance until the liquid in the internal space S1 passes through the flow path L2 and reaches the inlet O1 of the valve structure 200. (Piping resistance) is increased.
  • the frictional force acting between the wall surface of the flow path L2 defined by the seal region 510 and the liquid increases, and it becomes difficult for the liquid to enter the pattern seal portion 500.
  • the shape of the flow path L2 as described above can be a resistance to reach the inlet O1.
  • the pattern seal portion 500 allows sufficient permeation of gas while suppressing permeation of liquid.
  • the pattern seal portion 500 stably guides the gas in the internal space S1 into the passage L1 of the valve structure 200, while the liquid in the internal space S1 invades the passage L1 and impairs its function. Can be suppressed.
  • the pattern seal portion 500 of the present embodiment forms a pattern in which elongated seal regions 510 extending in the left-right direction are intermittently arranged. More specifically, patterns in which elongated seal regions 510 extending in the left-right direction are arranged at intervals in the left-right direction are arranged in a multi-stage configuration in the front-rear direction. It should be noted that the patterns of each stage may be the same or different (the matching and the difference here do not consider the deviation in the left-right direction, and the patterns overlap when they are translated. Matching and not overlapping is called difference).
  • the seal regions 510 are staggered in adjacent steps.
  • the non-seal region 520 between the seal regions 510 in a certain stage overlaps with the seal region 510 in the adjacent stage with reference to the left-right direction.
  • the flow path L2 is bent many times in the pattern seal portion 500 and comes into contact with the wall surface formed by the seal region 510 in a larger area. Therefore, the pattern seal portion 500 having such a shape can efficiently suppress the permeation of the liquid.
  • the peripheral seal portion 130 is a solid seal portion, and together with the mounting portion 220, surrounds the pattern seal portion 500 from the outside.
  • the pattern seal portion 500 is not in contact with the external space in a plan view, and the gas and liquid in the internal space S1 do not leak directly from the flow path L2 to the outside.
  • the packaging container 10 of the above embodiment is configured for a power storage device, but the use of the packaging container according to the present invention is not limited to this, and the contents thereof are not particularly limited.
  • the packaging container according to the present invention has contents that generate gas with the passage of time, and contains components that may clog the passage such as solidifying when entering the passage of the valve structure. Excellent for accommodating contents containing liquids contained.
  • the valve structure 200 of the above embodiment is a ball spring type, but is not limited to this, and may be, for example, a poppet type, a duck bill type, an umbrella type, a diaphragm type, or the like.
  • the valve body included in the valve structure 200 of the above embodiment is a spherical ball 214, but the shape is not limited to such a shape, and various shapes are adopted as long as the valve body functions as a valve body. be able to.
  • the valve body may be hemispherical, oblong, or oblate.
  • the spherical side may be received by the valve seat 211a, and a columnar member may extend from the central portion of the flat surface on the opposite side to the spherical surface to the opposite side to the spherical surface.
  • the position of the valve body in the tubular body 211 can be stabilized by configuring the columnar member so as to receive it inside the spring 216.
  • valve structure 200 of the above embodiment is a check valve capable of repeatedly degassing, but may be a destructive valve capable of degassing only once.
  • the number of valve mechanisms included in the valve structure 200 is not particularly limited.
  • the valve structure 200 may include both a check valve and a break valve, and includes a plurality of break valves. It may be included, or may include a plurality of check valves.
  • the break valve referred to in this modification can be configured in various ways.
  • the break valve can be constructed by a thin plate or film 250 arranged so as to block the passage L1 in the valve structure 200.
  • This breaking valve (hereinafter, the breaking valve is designated by the reference numeral 250) can be configured, for example, by attaching a laminate film to the cylinder 211 by heat sealing so as to cover the outlet O2.
  • the breaking valve 250 may be a thin plate made of metal such as aluminum, and as shown in FIG.
  • a notch 251 extending radially from the vicinity of the center thereof may be formed in the thin plate.
  • the notch portion 251 does not penetrate the break valve 250 in the thickness direction, and is formed thinner than other portions.
  • the breaking valve 250 can be opened by breaking the breaking valve 250 instead of dropping it from the cylinder 211.
  • the pattern formed by the pattern seal portion 500 is not limited to that described in the above embodiment.
  • the pattern seal portion 500 may be formed by arranging the cross-shaped seal regions 510A at intervals.
  • the pattern seal portion 500 may have only one continuous seal region 510B.
  • the flow path L2 is branched, and the pattern seal portion 500 can suppress the permeation of the liquid.
  • the seal region included in the pattern seal portion 500 can have any shape such as a circle, a square, and a star shape.
  • the arrangement of the pattern seal portion 500 in the container body 100 is not limited to the vicinity of the inlet O1 of the valve structure 200 as in the above embodiment.
  • the pattern seal portion 500A may be formed at a position adjacent to the peripheral seal portion 130 along the entire circumference of the inner end portion of the peripheral seal portion 130.
  • a pattern seal portion 500B is formed in the peripheral seal portion 130 at a position adjacent to the peripheral seal portion 130 along the entire side to which the valve structure 200 is attached. May be good.
  • a pattern seal portion 500 as shown in FIG. 10 is also conceivable. That is, in the above-described aspects of FIGS. 6, 8A and 8B, the branch point of the flow path L2 was located around the inlet O1 of the valve structure 200, but as shown in FIG. 10, the seal region 510C The branch point of the flow path L2 formed by the disconnection may be arranged at a position away from the periphery of the inlet O1 of the valve structure 200.
  • the adhesive member is a member having adhesiveness to both the mounting portion 220 of the valve structure 200 and the packaging materials 110 and 120 constituting the peripheral seal portion 130, and is, for example, as shown in FIGS. 11 and 12. It can be configured as an adhesive film 600.
  • FIG. 11 is an enlarged plan view of the periphery of the mounting portion 220 of the valve structure 200
  • FIG. 12 is a sectional view taken along line XII-XII thereof.
  • the mounting portion 220 is sandwiched between the packaging materials 110 and 120 via the adhesive film 600.
  • the adhesive film 600 By using the adhesive film 600 in this way, even if the outer surface of the mounting portion 220 and the innermost layers (thermosetting resin layers) of the packaging materials 110 and 120 are different materials, both are firmly fixed. can do.
  • the portion of the adhesive film 600 sandwiched between the packaging materials 110 and 120 cannot be visually recognized, but in the same figure, the position of the portion is indicated by a dotted line for reference. ..
  • the adhesive film 600 is heat-sealed together with the mounting portion 220 while being sandwiched between the packaging materials 110 and 120 constituting the peripheral seal portion 130 when the container body 100 is molded. By this heat seal, the outer surface of the mounting portion 220 and the innermost layer of the adhesive film 600 are fused and joined, and the innermost layers of the packaging materials 110 and 120 and the outermost layer of the adhesive film 600 are fused. Be joined.
  • the innermost layer of the adhesive film 600 is preferably composed of a material that easily adheres to the mounting portion 220.
  • the outermost layer of the adhesive film 600 is preferably composed of a material that easily adheres to the innermost layers of the packaging materials 110 and 120.
  • the adhesive film 600 may be a single-layer film of maleic anhydride-modified polypropylene (PPa).
  • PPa maleic anhydride-modified polypropylene
  • the adhesive film 600 is preferably a laminated film having a three-layer structure or a three-layer or more structure having a core material between the innermost layer and the outermost layer.
  • the adhesive film 600 may be, for example, a laminated film of PPa, polyethylene naphthalate (PEN) as a core material, and PPa, or a laminated film of PPa, polypropylene (PP) as a core material, and PPa. It may be.
  • PEN polyethylene naphthalate
  • PPa polypropylene
  • the core material polyester fiber, polyamide fiber, carbon fiber and the like can also be preferably used.
  • a resin that can be adhered to a metal such as an ionomer resin, modified polyethylene, and EVA can also be applied.
  • Power storage device 10 Packaging container 100 Container body 130 Peripheral seal part 200 Valve structure 400 Power storage device element 500, 500A, 500B Pattern seal part 510, 510A, 510B, 510C Seal area 520 Non-seal area L1 Passage L2 Flow path O1 Inlet O2 Exit S1 internal space

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Power Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Packages (AREA)
  • Sealing Battery Cases Or Jackets (AREA)
PCT/JP2020/010965 2019-03-12 2020-03-12 包装容器及びこれを備える蓄電デバイス WO2020184689A1 (ja)

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JP2023520641A (ja) * 2021-01-11 2023-05-18 エルジー エナジー ソリューション リミテッド 電池セル及びそれを含む電池モジュール
JPWO2024185789A1 (enrdf_load_stackoverflow) * 2023-03-06 2024-09-12

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