A battery assembly and an assembling method of the assembled battery are provided. The assembled battery includes a first battery, a second battery, and a busbar. The first battery includes a first post assembly. The second battery includes a second post assembly. The busbar is bent into a first section, a second section, and a third section. The first section is connected to the first post assembly, and the third section is connected to the second post assembly. The busbar is an integrated U-shaped structure.

A battery assembly and an assembling method of the assembled battery are provided. The assembled battery includes a first battery, a second battery, and a busbar. The first battery includes a first post assembly. The second battery includes a second post assembly. The busbar is bent into a first section, a second section, and a third section. The first section is connected to the first post assembly, and the third section is connected to the second post assembly. The busbar is an integrated U-shaped structure.

The disclosure discloses a battery and a battery apparatus. The battery includes two opposite first surfaces and four second surfaces disposed around the first surfaces, a pole assembly and a busbar. An area of the first surface is larger than an area of the second surface. The pole assembly is disposed on the first surface. The busbar is bent into a first segment and a second segment. The first segment is located at a side of the first surface where the pole assembly is disposed and is connected to the pole assembly. The second segment is parallel to or substantially parallel to a second surface and is used for electrically connecting the pole assembly of another battery.

The disclosure discloses a battery and a battery apparatus. The battery includes two opposite first surfaces and four second surfaces disposed around the first surfaces, a pole assembly and a busbar. An area of the first surface is larger than an area of the second surface. The pole assembly is disposed on the first surface. The busbar is bent into a first segment and a second segment. The first segment is located at a side of the first surface where the pole assembly is disposed and is connected to the pole assembly. The second segment is parallel to or substantially parallel to a second surface and is used for electrically connecting the pole assembly of another battery.

Provided is a secondary battery, in the secondary battery, the positive electrode has a covering portion covered with a positive electrode active material layer and a positive electrode active material non-covered portion on a strip-shaped positive electrode foil, a negative electrode has a covering portion covered with a negative electrode active material layer and a first negative electrode active material non-covered portion on a strip-shaped negative electrode foil, the positive electrode active material non-covered portion is joined to the positive electrode current collector plate at one end portion of the electrode winding body, the first negative electrode active material non-covered portion is joined to the negative electrode current collector plate at the other end portion of the electrode winding body, the electrode winding body has flat surface formed by bending one or both of the positive electrode active material non-covered portion and the first negative electrode active material non-covered portion.

Provided is a secondary battery, in the secondary battery, the positive electrode has a covering portion covered with a positive electrode active material layer and a positive electrode active material non-covered portion on a strip-shaped positive electrode foil, a negative electrode has a covering portion covered with a negative electrode active material layer and a first negative electrode active material non-covered portion on a strip-shaped negative electrode foil, the positive electrode active material non-covered portion is joined to the positive electrode current collector plate at one end portion of the electrode winding body, the first negative electrode active material non-covered portion is joined to the negative electrode current collector plate at the other end portion of the electrode winding body, the electrode winding body has flat surface formed by bending one or both of the positive electrode active material non-covered portion and the first negative electrode active material non-covered portion.

The disclosure provides a battery, a battery module, a battery pack, and a battery manufacturing method. The battery includes a housing, a cell, a pole assembly and a connecting piece. The housing includes two first surfaces opposite to each other in a first direction. The cell is arranged in the housing and includes a cell body and a tab portion. The tab portion includes two or more single-piece tabs extending from the lateral side of the cell body. The pole assembly is arranged on the first surface, and the tab portion and the pole assembly are connected through the connecting piece. The vertical distance between an end of the tab portion away from the lateral side of the cell body and the lateral side of the cell body is smaller than the vertical distance between the pole assembly and lateral side of the cell body.

Disclosed is a secondary battery in which a negative electrode has a covered portion covered with a negative electrode active material covering portion and a negative electrode active material non-covered portion on a strip-shaped negative electrode foil, the negative electrode active material non-covered portion is joined to a negative electrode current collector plate at the other end portion of the electrode winding body, the electrode winding body has a flat surface formed by bending any one or both of a positive electrode active material non-covered portion and the negative electrode active material non-covered portion toward a central axis of the wound structure and overlapping the positive electrode active material non-covered portion and the negative electrode active material non-covered portion, and a first groove formed in the flat surface, at least one C-shaped second groove is included in a can bottom of a battery can.

Disclosed is a secondary battery in which a positive electrode active material non-covered portion is joined to a positive electrode current collector plate at one end portion of an electrode winding body, a negative electrode active material non-covered portion is joined to a negative electrode current collector plate at the other end portion of the electrode winding body, the electrode winding body has a flat surface formed by bending at least the positive electrode active material non-covered portion toward a central axis of the wound structure and overlapping each other, a groove formed in the flat surface, and an inner peripheral portion located inside innermost peripheries of a positive electrode and a negative electrode and including only a separator.

Embodiments provide an electrode assembly, a battery cell, a battery, an electrical apparatus, and a manufacturing method and device. In those embodiments, the electrode assembly includes: an electrode plate, including a main portion and at least one protruding portion. The main portion includes a metal substrate and an active material layer coated on a surface of the metal substrate. The protruding portion is connected to the metal substrate. The metal substrate protrudes along a length direction of the electrode assembly. Along a thickness direction of the electrode assembly, a size of at least a part of the protruding portion is greater than a size of the metal substrate. The electrode assembly according to the Embodiments aims to solve a technical problem of severe heat emission of a tab.