An energy storage apparatus includes an energy storage device and a spacer, in which the spacer has a first member that abuts on a side surface of the energy storage device that faces a first direction, and a second member that is disposed on the first member in a second direction, the second direction intersecting the first direction, the second member supporting an end portion of the first member in the second direction, and the first member has higher heat resistance than the second member.

The present disclosure relates to the technical field of energy storage devices, and in particular, to a secondary battery. The secondary battery includes a case, an electrode assembly, and a top cover assembly. The case has an opening, and the electrode assembly is received in the case. The top cover assembly includes a top cover plate and an electrode terminal disposed on the top cover plate. The top cover plate is disposed at the opening. The connection sheet is connected between the electrode assembly and the electrode terminal. The secondary battery provided by the present disclosure further includes an insulation thermal-dissipation member disposed between the top cover plate and the connection sheet. The insulation thermal-dissipation member has a thermal conductivity larger than 1 W/(m.Math.k).

A battery pack supplies an electrically driven treatment apparatus with an electric driving power and includes: a plurality of accumulator cells, wherein the accumulator cells have cell contacts; at least one circuit board, wherein the at least one circuit board is electrically connected to the cell contacts; and a battery pack housing, wherein the battery pack housing has a first battery pack housing part and a second battery pack housing part, wherein the first battery pack housing part and the second battery pack housing part are closed by each other. The accumulator cells are disposed within the battery pack housing. The cell contacts and the at least one circuit board are disposed within the second battery pack housing part, wherein the second battery pack housing part is configured as a mold for a casting compound, and the cell contacts and the at least one circuit board are enclosed by the casting compound, and/or the at least one circuit board is disposed within the battery pack housing, wherein the one battery pack housing part has at least one thread, and the other battery pack housing part has at least one head abutment surface, wherein the head abutment surface is disposed on an end adjacent to the one battery pack housing part of the other battery pack housing part, wherein the battery pack has at least one screw which is screwed into the thread for mechanical connection of the one battery pack housing part and the other battery pack housing part to each other, and a screw head bears on the head abutment surface.

The present invention relates to a secondary battery including: a can having an opening in which an electrode assembly and an electrolyte are accommodated; a cap assembly mounted on the opening of the can; and a safety assembly disposed between the electrode assembly and the cap assembly and including a first fire extinguishing member that is configured to be scattered into the electrolyte when the electrode assembly experiences an increase in temperature to suppress the increase in temperature of the electrode assembly.

A wound-type battery includes a wound electrode group having a first electrode and a second electrode with polarity opposite to the first electrode, an electrolyte, a battery case, a sealing plate that seals an opening of the battery case, an insulating plate that is disposed between the electrode group and the sealing plate and that has a hole, and a first tab that passes through the hole to electrically connect the first electrode and the sealing plate to each other. At least a part of a region of the first tab that extends through the hole to a sealing plate side is covered with a tab tape on a side facing the insulating plate. The tab tape includes at least a first adhesive layer and a second adhesive layer on a side opposite the first adhesive layer and is in contact with the first tab through the first adhesive layer.

A purpose of one embodiment of the present invention is to provide a highly safe lithium ion secondary battery comprising a layered lithium nickel composite oxide with high nickel content and a polyethylene terephthalate separator. The first lithium ion secondary battery of the present invention is characterized by comprising a positive electrode comprising a positive electrode mixture layer and an insulation layer, and a separator comprising polyethylene terephthalate, wherein the positive electrode mixture layer comprises a layered lithium nickel composite oxide having a nickel ratio of 60 mol % or more based on metals other than lithium.

Provided herein is a lithium battery including: a cathode including a cathode active material; an anode including an anode active material; an electrolyte between the cathode and the anode; and a separator impregnated with the electrolyte, wherein the separator includes carboxyl group-containing microbial cellulose nanofibers, and wherein a differential scanning calorimetry (DSC) thermogram of the separator evinces an exothermic reaction peak, represented by a differential value (dH/dT), at a temperature in a range of about 150? C. to about 200? C.

A battery cell may include an electrode assembly and a buffer pad, where the electrode assembly may include a main body portion and a tab extending from the main body portion, the main body portion may include a first main body region and a second main body region, and the thickness of the first main body region along a first direction (T) may be smaller than the thickness of the second main body region along the first direction (T); and where the buffer pad may include a compressible first side wall, the first side wall may include a first buffer portion and a second buffer portion, the thickness of the first buffer portion along the first direction (T) may be greater than the thickness of the second buffer portion along the first direction, and the buffer pad may be provided on a side face of the main body portion.

A battery cell may include an electrode assembly and a buffer pad, where the electrode assembly may include a main body portion and a tab extending from the main body portion, the main body portion may include a first main body region and a second main body region, and the thickness of the first main body region along a first direction (T) may be smaller than the thickness of the second main body region along the first direction (T); and where the buffer pad may include a compressible first side wall, the first side wall may include a first buffer portion and a second buffer portion, the thickness of the first buffer portion along the first direction (T) may be greater than the thickness of the second buffer portion along the first direction, and the buffer pad may be provided on a side face of the main body portion.

There is provided a nickel-zinc secondary battery including, in a sealed container, a positive electrode, a negative electrode, a separator provided between the positive electrode and the negative electrode, and an electrolytic solution. An oxygen absorber is provided in a position where oxygen generated in the positive electrode in the sealed container is absorbable.