Multiply stacked electrochemical cell and method for preparing the same

US 20020160258A1
Filed: 10/05/2001
Published: 10/31/2002
Est. Priority Date: 02/08/2000
Status: Active Grant

First Claim

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1. An electrochemical element comprising electrochemical cells which are multiply stacked, said electrochemical cells formed by stacking full cells having a cathode, a separator layer, and an anode sequentially as a basic unit, and a separator film interposed between each stacked full cell wherein, said separator film has a unit length which is determined to wrap the electrochemical cells, and folds outward every unit length to fold each electrochemical cell in a Z-shape starting from the electrochemical cell of a first spot to the electrochemical cell of the last spot continuously while the remaining separator film wraps an outer portion of the stacked cell.

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Abstract

The present invention relates to an electrochemical element, specifically an electrochemical element with improved energy density comprising stacked electrochemical cells. In order to achieve such objects, the present invention provides an electrochemical element comprising electrochemical cells which are multiply stacked, said electrochemical cells formed by stacking full cells or bicells having a cathode, a separator layer, and an anode sequentially as a basic unit, and a separator film interposed between each stacked cell wherein, said separator film has a unit length which is determined to wrap the electrochemical cells, and folds outward every unit length to fold each electrochemical cell in a Z-shape starting from the electrochemical cell of a first spot to the electrochemical cell of the last spot continuously while the remaining separator film wraps an outer portion of the stacked cell and a method for manufacturing the same.

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24 Claims

1. An electrochemical element comprising electrochemical cells which are multiply stacked, said electrochemical cells formed by stacking full cells having a cathode, a separator layer, and an anode sequentially as a basic unit, and a separator film interposed between each stacked full cell wherein, said separator film has a unit length which is determined to wrap the electrochemical cells, and folds outward every unit length to fold each electrochemical cell in a Z-shape starting from the electrochemical cell of a first spot to the electrochemical cell of the last spot continuously while the remaining separator film wraps an outer portion of the stacked cell.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The electrochemical element according to claim 1, wherein an outermost end of said separator film is fixed by taping.
  - 3. The electrochemical element according to claim 1, wherein an outermost end of said separator film is fixed by heat-sealing.
  - 4. The electrochemical element according to claim 1, wherein said separator film is selected from a group consisting of a micro-porous polyethylene film, a micro-porous polypropylene film, or a multi-layer film prepared by a combination thereof, and a polymer film for polymer electrolyte of polyvinylidene fluoride, polyethylene oxide, polyacrylonitrile, or polyvinylidene fluoride hexafluoropropylene copolymer.
  - 5. The electrochemical element according to claim 4, wherein said polymer film for polymer electrolyte comprises a primary micro-porous polymer layer and a secondary gelling polymer layer of polyvinylidene fluoride-chlorotrifluoroethylene copolymer.
  - 6. The electrochemical element according to claim 1, wherein said each cathode of the full cell is an electrode coated with a cathodic material on both sides of a cathode current collector, and said each anode is an electrode coated with an anodic material on both sides of an anode current collector.
  - 7. The electrochemical element according to claim 1, wherein each full cell placed in the outermost side of said electrochemical cell comprises a cathode coated with a cathodic material on a single side of a cathode current, or an anode coated with an anodic material on a single side of an anode current collector, and a current collector foil is placed in the outermost side.

8. A method of manufacturing an electrochemical element comprising electrochemical cells which are multiply stacked and filled within a battery case, said electrochemical cells formed by stacking full cells having a cathode, a separator layer, and an anode sequentially as a basic unit, and a separator film having a unit length which is determined to wrap the electrochemical cells and folding outward every unit length to fold each electrochemical cell in a Z-shape starting from the electrochemical cell of a first spot to the electrochemical cell of the last spot continuously while the remaining separator film wraps an outer portion of the stacked cell, said separator film interposed between each stacked full cell comprising the steps of, a) placing a full cell on and below the separator film continuously or alternately;
- b) laminating said placed full cells and said separator film of a); and
  
  c) folding outward said laminated full cells and said separator film of b) to the full cell adjacent next to the first full cell to fold each full cell in a Z-shape and wrapping the remaining separator film round an outer portion of the stacked full cell at least once so that each full cell is stacked.
- View Dependent Claims (9, 10, 11, 13, 14, 15, 16, 17, 18, 19)
- - 9. The method according to claim 8, further comprising a step of d) fixing the end of said separator film by taping.
  - 10. The method according to claim 8, further comprising a step of e) fixing the end of said separator film by heat sealing which carry out bring a thermo-welding machine, or a hot plate into contact with the separator film.
  - 11. The method according to claim 8, wherein said each full cell of a) is placed on or below the separator film.
  - 13. The electrochemical element according to claim 12, wherein an outermost end of said separator film is fixed by taping.
  - 14. The electrochemical element according to claim 12, wherein an outermost end of said separator film is fixed by heal-sealing.
  - 15. The electrochemical element according to claim 12, wherein said separator film is selected from a group consisting of a micro-porous polyethylene film, a micro-porous polypropylene film, or a multi-layer film prepared by a combination thereof, and a polymer film for polymer electrolyte of polyvinylidene fluoride, polyethylene oxide, polyacrylonitrile, or polyvinylidene fluoride hexafluoropropylene copolymer.
  - 16. The electrochemical element according to claim 15, wherein said polymer film for polymer electrolyte comprises a primary micro-porous polymer layer and a secondary gelling polymer layer of polyvinylidene fluoride-chlorotrifluoroethylene copolymer.
  - 17. The electrochemical element according to claim 12, wherein said electrochemical cells are formed by alternately stacking i) a bicell having a cathode;
    - a separator layer;
      
      an anode;
      
      another separator layer; and
      
      another cathode sequentially; and
      
      ii) a bicell having an anode;
      
      a separator layer;
      
      a cathode;
      
      another separator layer; and
      
      another anode sequentially.
  - 18. The electrochemical element according to claim 12, wherein said each cathode of the bicell is an electrode coated with a cathodic material on both sides of a cathode current collector, and said each anode is an electrode coated with an anodic material on both sides of an anode current collector.
  - 19. The electrochemical element according to claim 12, wherein each bicell placed in the outermost side of said electrochemical cell comprises a cathode coated with a cathodic material on a single side of a cathode current collector, or an anode coated with an anodic material on a single side of an anode current collector, and a current collector foil is placed in the outermost side.

12. An electrochemical element comprising electrochemical cells which are multiply stacked, said electrochemical cells formed by stacking i) a bicell having a cathode;
- a separator layer;
  
  an anode;
  
  another separator layer; and
  
  another cathode sequentially as a basic unit;
  
  or ii) a bicell having an anode;
  
  a separator layer;
  
  a cathode;
  
  another separator layer; and
  
  another anode sequentially as a basic unit;
  
  and a separator film interposed between each stacked bicells wherein, said separator film has a unit length which is determined to wrap the electrochemical cells, and folds outward every unit length to fold each electrochemical cell in a Z-shape starting from the electrochemical cell of a first spot to the electrochemical cell of the last spot continuously while the remaining separator film wraps an outer portion of the stacked cell.

20. A method of manufacturing an electrochemical element comprising electrochemical cells which are multiply stacked, said electrochemical cells formed by alternately stacking i) a bicell having a cathode;
- a separator layer;
  
  an anode;
  
  another separator layer; and
  
  another cathode sequentially as a basic unit;
  
  or ii) a bicell having an anode;
  
  a separator layer;
  
  a cathode;
  
  another separator layer; and
  
  another anode sequentially as a basic unit; and
  
  a separator film having a unit length which is determined to wrap the electrochemical cells and folding outward every unit length to fold each electrochemical cell in a Z-shape starting from the electrochemical cell of a first spot to the electrochemical cell of the last spot continuously while the remaining separator film wraps an outer portion of the stacked cell, said separator film interposed between each stacked bicell comprising the steps of, a) placing a bicell on and below the separator film continuously or alternately;
  
  b) laminating said placed bicells and said separator film of a); and
  
  c) folding outward said laminated bicells and said separator film of b) to the bicell adjacent next to the first bicell to fold each bicell in a Z-shape and wrapping the remaining separator film round an outer portion of the stacked bicell at least once so that each bicell is stacked.
- View Dependent Claims (21, 22, 23, 24)
- - 21. The method according to claim 20, further comprising a step of d) fixing the end of said separator film by taping.
  - 22. The method according to claim 20, further comprising a step of e) fixing the end of said separator film by heat sealing which carry out bring a thermo-welding machine, or a hot plate into contact with the separator film.
  - 23. The method according to claim 20, wherein said each bicell of a) is placed on or below the separator film.
  - 24. The method according to claim 20, wherein said electrochemical cells are formed by alternately stacking i) a bicell having a cathode;
    - a separator layer;
      
      an anode;
      
      another separator layer; and
      
      another cathode sequentially; and
      
      ii) a bicell having an anode;
      
      a separator layer;
      
      a cathode;
      
      another separator layer; and
      
      another anode sequentially.

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Current Assignee
LG Energy Solution Limited (LG Corporation)
Original Assignee
Hyang-Mok Lee, Jae-Hyun Lee, Kyung-Joon Kim, Soon-Ho Ahn
Inventors
Lee, Jae-Hyun, Kim, Kyung-Joon, Ahn, Soon-Ho, Lee, Hyang-Mok

Granted Patent

US 6,726,733 B2
Time in Patent Office

Days
Field of Search
US Class Current

429/130
CPC Class Codes

H01M 10/0413   Large-sized flat cells or b...

H01M 10/0436   Small-sized flat cells or b...

H01M 10/0459   Cells or batteries with fol...

H01M 10/0468   Compression means for stack...

H01M 10/0525   Rocking-chair batteries, i....

H01M 10/0565   Polymeric materials, e.g. g...

H01M 10/0583   of accumulators with folded...

H01M 50/417   Polyolefins

H01M 50/426   Fluorocarbon polymers

H01M 50/449   having a layered structure

H01M 50/466   U-shaped, bag-shaped or folded

H01M 50/489   Separators, membranes, diap...

Y02E 60/10   Energy storage using batteries

Y02P 70/50   Manufacturing or production...

Y10T 29/49112   including laminating of ind...

Multiply stacked electrochemical cell and method for preparing the same

First Claim

2 Assignments

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Abstract

85 Citations

24 Claims

Specification

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Multiply stacked electrochemical cell and method for preparing the same

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

85 Citations

24 Claims

Specification

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Solutions

Use Cases

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