An all solid state battery in which positional displacement of a plurality of cells arranged along a thickness direction can be prevented is provided. The all solid state battery includes a plurality of cells connected in series, wherein the all solid state battery includes a cell unit A and a cell unit B, a first current collector A in the cell A and a second current collector B in the cell B are arranged to face each other, the first current collector A includes a tab A, the second current collector B includes a tab B, and the tab A and the tab B are fixed by a fixing portion.

A rechargeable battery includes: an electrode assembly including a first electrode, a second electrode, a separator located between the first electrode and the second electrode, a first electrode tab extended from the first electrode, and a second electrode tab extended from the second electrode; a case connected to the first electrode tab to accommodate the electrode assembly, and including an opening portion to expose the electrode assembly; a cap plate coupled with the case to cover an outer peripheral region of the opening portion and including a through-hole to expose a center region of the opening portion; and a terminal plate connected to the second electrode tab to be insulation-bonded to the cap plate, and including a flange part covering the through-hole and a protruding part passing through the through-hole from a center portion of the flange part.

A rechargeable battery includes: an electrode assembly including a first electrode, a second electrode, a separator located between the first electrode and the second electrode, a first electrode tab extended from the first electrode, and a second electrode tab extended from the second electrode; a case connected to the first electrode tab to accommodate the electrode assembly, and including an opening portion to expose the electrode assembly; a cap plate coupled with the case to cover an outer peripheral region of the opening portion and including a through-hole to expose a center region of the opening portion; and a terminal plate connected to the second electrode tab to be insulation-bonded to the cap plate, and including a flange part covering the through-hole and a protruding part passing through the through-hole from a center portion of the flange part.

A battery module including a cell assembly and a first circuit board. The cell assembly includes a plurality of battery cells. The plurality of battery cells are connected to the first circuit board. The plurality of battery cells include a first battery cell and a second battery cell, and the first battery cell is inclined with respect to the second battery cell. The first circuit board is disposed between the first battery cell and the second battery cell, the first circuit board is inclined with respect to the first battery cell, and the first circuit board is inclined with respect to the second battery cell. In the battery module, the space inside a battery is sufficiently utilized by disposing the first circuit board in the space between the first battery cell and the second battery cell, thereby effectively improving an energy density.

A battery module including a cell assembly and a first circuit board. The cell assembly includes a plurality of battery cells. The plurality of battery cells are connected to the first circuit board. The plurality of battery cells include a first battery cell and a second battery cell, and the first battery cell is inclined with respect to the second battery cell. The first circuit board is disposed between the first battery cell and the second battery cell, the first circuit board is inclined with respect to the first battery cell, and the first circuit board is inclined with respect to the second battery cell. In the battery module, the space inside a battery is sufficiently utilized by disposing the first circuit board in the space between the first battery cell and the second battery cell, thereby effectively improving an energy density.

A battery unit includes a housing assembly; an electrode assembly; a conductive plate; and a feedthrough assembly including a first washer and a rivet. The first washer includes a first gasket portion accommodated in the housing assembly, a second gasket portion disposed on an outer surface of the housing assembly, and a connecting portion connecting the first gasket portion and the second gasket portion. The housing is provided with a through hole for the connecting portion to run through. The rivet runs through and abuts against the first gasket portion, the connecting portion, and the second gasket portion to seal the through hole. The first washer and the rivet are mounted to the housing assembly via a clamping force applied to the first gasket portion and the second gasket portion after the rivet is riveted and deforms and a counterforce of the housing assembly.

A battery unit includes a housing assembly; an electrode assembly; a conductive plate; and a feedthrough assembly including a first washer and a rivet. The first washer includes a first gasket portion accommodated in the housing assembly, a second gasket portion disposed on an outer surface of the housing assembly, and a connecting portion connecting the first gasket portion and the second gasket portion. The housing is provided with a through hole for the connecting portion to run through. The rivet runs through and abuts against the first gasket portion, the connecting portion, and the second gasket portion to seal the through hole. The first washer and the rivet are mounted to the housing assembly via a clamping force applied to the first gasket portion and the second gasket portion after the rivet is riveted and deforms and a counterforce of the housing assembly.

A cylindrical secondary battery includes: an electrode assembly including a positive electrode plate having a positive electrode multi-tab, a separator, and a negative electrode plate having a negative electrode multi-tab, the positive electrode plate, the separator, and the negative electrode plate being laminated and wound; a cylindrical can accommodating the electrode assembly; a cap plate coupled at an upper end of the cylindrical can and being electrically connected to the negative electrode multi-tab; and a positive electrode terminal protruding upwardly through the cap plate and being electrically connected to the positive electrode multi-tab.

A cylindrical secondary battery includes: an electrode assembly including a positive electrode plate having a positive electrode multi-tab, a separator, and a negative electrode plate having a negative electrode multi-tab, the positive electrode plate, the separator, and the negative electrode plate being laminated and wound; a cylindrical can accommodating the electrode assembly; a cap plate coupled at an upper end of the cylindrical can and being electrically connected to the negative electrode multi-tab; and a positive electrode terminal protruding upwardly through the cap plate and being electrically connected to the positive electrode multi-tab.

Electrochemical device for storing electrical energy in rectangular geometric cells, narrow stack geometry, according to the above claims wherein for being built from a sturdy housing (4) in the form of a straight rectangular parallelepiped and where hollow metal rods (5) run on the metal substrate (14) of the base (1) and through the through holes (16) of the base (16) and through the through holes (16) of it run hollow metal rods (5) and on each one of them, the positive electrode is inserted followed by a separating element and so on, while the other hollow metal bar (5) is inserted the negative electrode, followed by a separating element and so on forming a “stack” of electrodes (6) which would fit into the base (1) forming the central structure of the device, with the hollow metal rods (5) serving as current collectors. The rectangular narrow stack geometry electrode (6) allows to carry out the pre-metallisation stage necessary to create the SEI, and the subsequent cycle stage in the same device, without reopening it.