Cell and electrochemical device

What is claimed is: 1. A cell, comprising: a first electrode plate ( 1 ) comprising a first current collector ( 11 ) and a first active material layer ( 12 ) which is selectively provided on a surface (S 11 ) of the first current collector ( 11 ) and contains a first active material; a second electrode plate ( 2 ) opposite to the first electrode plate ( 1 ) in electric polarity, comprising a second current collector ( 21 ) and a second active material layer ( 22 ) which is selectively provided on a surface (S 21 ) of the second current collector ( 21 ) and contains a second active material; a first electrode tab ( 3 ) provided and electrically connected to the first current collector ( 11 ) of the first electrode plate ( 1 ); a second electrode tab ( 4 ) provided and electrically connected to the second current collector ( 21 ) of the second electrode plate ( 2 ); and a separator ( 5 ) provided between the first electrode plate) and the second electrode plate ( 2 ); the surface (S 11 ) of the first current collector ( 11 ) having a part which is not provided with the first active material layer ( 12 ) thereon and this part being defined as a first surface uncoated region (B 11 ); the surface (S 21 ) of the second current collector ( 21 ) having a part which is not provided with the second active material layer ( 22 ) thereon and this part being defined as a second surface uncoated region (B 21 ); the first electrode tab ( 3 ) being provided on the first surface uncoated region (B 11 ) and the second electrode tab ( 4 ) being provided on the second surface uncoated region (B 21 ); the first electrode tab ( 3 ) extending toward two opposite transverse edges (TE 11 ) of the first surface uncoated region (B 11 ) along a width direction (W) and one side edge ( 31 ) positioned outside in the width direction (W) being close to one corresponding transverse edge (TE 11 ) of the first surface uncoated region (B 11 ), and the first electrode tab ( 3 ) extending toward two opposite longitudinal edges (LE 11 ) of the first surface uncoated region (B 11 ) along a length direction (L) and two outer side edges ( 32 ) in the length direction (L) being close to the two longitudinal edges (LE 11 ) of the first surface uncoated region (B 11 ), respectively; and/or the second electrode tab ( 4 ) extending toward two opposite transverse edges (TE 21 ) of the second surface uncoated region (B 21 ) along the width direction (W) and one side edge ( 41 ) positioned outside in the width direction (W) being close to one corresponding transverse edge (TE 21 ) of the second surface uncoated region (B 21 ), and the second electrode tab ( 4 ) extending toward two opposite longitudinal edges (LE 21 ) of the second surface uncoated region (B 21 ) along the length direction (L) and two outer side edges ( 42 ) in the length direction (L) being close to the two longitudinal edges (LE 21 ) of the second surface uncoated region (B 21 ), respectively; the first electrode tab ( 3 ) and the second electrode tab ( 4 ) being spaced apart from each other in the width direction (W), and the separator ( 5 ) being presented between the first electrode tab ( 3 ) and the second electrode tab ( 4 ); when the cell is subjected to a mechanical shock, the first electrode tab ( 3 ) and the second electrode tab ( 4 ) being deformed to puncture the separator ( 5 ) between the first electrode tab ( 3 ) and the second electrode tab ( 4 ) such that the first current collector ( 11 ) and the second current collector ( 21 ) being electrically connected. 2. The cell according to claim 1 , wherein the first electrode tab ( 3 ) is welded to the first current collector ( 11 ) of the first electrode plate ( 1 ) or is formed by cutting the first current collector ( 11 ) of the first electrode plate ( 1 ); and/or the second electrode tab ( 4 ) is welded to the second current collector ( 21 ) of the second electrode plate ( 2 ) or is formed by cutting the second current collector ( 21 ) of the second electrode plate ( 2 ). 3. The cell according to claim 1 , wherein the first electrode tab ( 3 ) and the second electrode tab ( 4 ) each have a thickness of TT, and 5 μm≤TT≤100 μm; the first electrode tab ( 3 ) and the second electrode tab ( 4 ) each have a length of LT, and 10 mm≤LT≤500 mm; the first electrode tab ( 3 ) and the second electrode tab ( 4 ) each have a width of WT, and 2 mm≤WT≤250 mm. 4. The cell according to claim 1 , wherein a minimum distance between the one side edge ( 31 ) of the first electrode tab ( 3 ) positioned outside in the width direction (W) and the one corresponding transverse edge (TE 11 ) of the first surface uncoated region (B 11 ) is 3 mm; a minimum distance between the each outer side edge ( 32 ) of the first electrode tab ( 3 ) in the length direction (L) and the one corresponding longitudinal edge (LE 11 ) of the first surface uncoated region (B 11 ) is 3 mm; a minimum distance between the one side edge ( 41 ) of the second electrode tab ( 4 ) positioned outside in the width direction (W) and the one corresponding transverse edge (TE 21 ) of the second surface uncoated region (B 21 ) is 3 mm; a minimum distance between the each outer side edge ( 42 ) of the second electrode tab ( 4 ) in the length direction (L) and the one corresponding longitudinal edge (LE 21 ) of the second surface uncoated region (B 21 ) is 3 mm. 5. The cell according to claim 1 , wherein a distance between the one side edge ( 31 ) of the first electrode tab ( 3 ) positioned inside in the width direction (W) and the one side edge ( 41 ) of the second electrode tab ( 4 ) positioned inside in the width direction (W) is 1 mm˜5 mm in the width direction (W). 6. The cell according to claim 1 , wherein the one side edge ( 31 ) of the first electrode tab ( 3 ) positioned inside in the width direction (W) and the one side edge ( 41 ) of the second electrode tab ( 4 ) positioned inside in the width direction (W) are respectively provided with a plurality of first protruding portions (P 1 ) and a plurality of second recessing portions (R 2 ) which farm a jagged shape and are matched in form of concave-convex, or the one side edge ( 31 ) of the first electrode tab ( 3 ) positioned inside in the width direction (W) and the one side edge ( 41 ) of the second electrode tab ( 4 ) positioned inside in the width direction (W) are respectively provided with a plurality of first recessing portions (R 1 ) and a plurality of second protruding portions (P 2 ) which form a jagged shape and are matched in form of concave-convex, or the one side edge ( 31 ) of the first electrode tab ( 3 ) positioned inside in the width direction (W) and the one side edge ( 41 ) of the second electrode tab ( 4 ) positioned inside in the width direction (W) are respectively provided with a plurality of first protruding portions (P 1 ) and a plurality of second protruding portions (P 2 ) which form a jagged shape and are matched in clearance fit, or the one side edge ( 31 ) of the first electrode tab ( 3 ) positioned inside in the width direction (W) and the one side edge ( 41 ) of the second electrode tab ( 4 ) positioned inside in the width direction (W) are respectively provided with a plurality of first recessing portions (R 1 ) and a plurality of second recessing portions (R 2 ) which form a jagged shape and are matched in clearance fit. 7. The cell according to claim 6 , wherein the first electrode tab ( 3 ) and the first protruding portion (P 1 ) or the first recessing portion (R 1 ) provided on the first electrode tab ( 3 ) are integrally formed; the second electrode tab ( 4 ) and the second protruding portion (P 2 ) or the second recessing portion (R 2 ) provided on the second electrode tab ( 4 ) are integrally formed. 8. The cell acco