Battery, electrical device, and method and device for manufacturing battery

What is claimed is: 1 . A battery, comprising: a plurality of battery cells arranged along a first direction, wherein each battery cell is a cylindrical structure and comprises an end cap and a housing, an opening is made at an end of the housing along the first direction, wherein the end cap is configured to close the opening, and the housing comprises a first wall extending along the first direction; and a pressure relief region is provided on the first wall, wherein the pressure relief region is configured to release pressure along a second direction when an internal pressure or temperature of the battery cell reaches a threshold, and the second direction intersects the first direction, wherein the first wall comprises a through-hole extending along the second direction and a pressure relief sheet is mounted on the first wall and covering the through-hole; the pressure relief region of the first wall comprises a fragile portion disposed on the pressure relief sheet, and the pressure relief region is configured to break the fragile portion to release the pressure when the internal pressure or temperature of the battery cell reaches the threshold, the fragile portion is formed on the first wall by making a first groove in the pressure relief region, and a thickness of the fragile portion is less than a thickness of a remaining part of the first wall, a bottom side of the first groove is a flat face, the thickness of the fragile portion gradually decreases from flanks to center in a width direction, the fragile portion is configured to be ruptured at a thinnest position of the fragile portion when the internal pressure or temperature of the battery cell reaches the threshold. 2 . The battery according to claim 1 , wherein the first groove is made on an outer surface of the first wall, and/or the first groove is made on an inner surface of the first wall. 3 . The battery according to claim 1 , wherein the first wall further comprises a body portion, and the body portion and the fragile portion are integrally formed. 4 . The battery according to claim 1 , wherein the first groove extends along the first direction, and a ratio of a dimension of the first groove in the first direction to a dimension of the first wall in the first direction is greater than ⅓. 5 . A battery comprising: a plurality of battery cells arranged along a first direction, wherein each battery cell is a cylindrical structure and comprises an end cap and a housing, an opening is made at an end of the housing along the first direction, wherein the end cap is configured to close the opening, and the housing comprises a first wall extending along the first direction; and a pressure relief region is provided on the first wall, wherein the pressure relief region is configured to release pressure along a second direction when an internal pressure or temperature of the battery cell reaches a threshold, and the second direction intersects the first direction, a fragile portion is formed on the first wall by making a first groove in the pressure relief region, and a thickness of the fragile portion is less than a thickness of a remaining part of the first wall, the first groove is an annular structure, the housing further comprises a second wall, and the second wall and the end cap are connected to two ends of the first wall respectively, the two ends of the first wall being opposite to each other along the first direction, the battery cell further comprises an electrode assembly, and, after being wound, the electrode assembly comprises a first end face contiguous to the end cap and a second end face contiguous to the second wall in the first direction, at least a part of the pressure relief region is located either between the first end face and the end cap along the first direction or between the second end face and the second wall along the first direction on the first wall, the first groove comprises a first part and a second part that are in communication with each other, the fragile portion comprises a first fragile portion formed by disposing the first part and a second fragile portion formed by disposing the second part, wherein a thickness of the first fragile portion is less than a thickness of the second fragile portion, and the pressure relief region is configured to break the first fragile portion and avoid breaking at least a part of the second fragile portion when the internal pressure or temperature of the battery cell reaches the threshold, a central angle corresponding to an arc length of the first part is at least 180° and a central angle corresponding to an arc length of the second part is no more than 180°, a sum of the arc length of the first part and the arc length of the second part accounts for a total length of the first groove. 6 . The battery according to claim 5 , wherein the first groove is disposed around a central axis of the battery cell, the central axis being parallel to the first direction. 7 . The battery according to claim 6 , wherein the first wall comprises two fragile portions spaced apart along the first direction in the pressure relief region. 8 . The battery according to claim 7 , wherein a spacing between two fragile portions along the first direction is set based on a capacity of the battery cell. 9 . The battery according to claim 1 , wherein the housing further comprises a second wall, and the second wall and the end cap are connected to two ends of the first wall respectively, the two ends being opposite to each other along the first direction, the battery cell further comprises an electrode assembly, and, after being wound, the electrode assembly comprises a first end face contiguous to the end cap and a second end face contiguous to the second wall in the first direction. 10 . The battery according to claim 9 , wherein at least a part of the pressure relief region is a region located between the first end face and the end cap along the first direction on the first wall. 11 . The battery according to claim 9 , wherein at least a part of the pressure relief region is a region located between the second end face and the second wall along the first direction on the first wall. 12 . An electrical device, wherein the electrical device comprises a battery, the battery is configured to provide electrical energy, and the battery comprises: a plurality of battery cells arranged along a first direction, wherein each battery cell is a cylindrical structure and comprises an end cap and a housing, an opening is made at an end of the housing along the first direction, the end cap is configured to close the opening, and the housing comprises a first wall extending along the first direction; and a pressure relief region is provided on the first wall, the pressure relief region is configured to release pressure along a second direction when an internal pressure or temperature of the battery cell reaches a threshold, and the second direction intersects the first direction, wherein the first wall comprises a through-hole extending along the second direction and a pressure relief sheet is mounted on the first wall and covering the through-hole; the pressure relief region of the first wall comprises a fragile portion disposed on the pressure relief sheet, and the pressure relief region is configured to break the fragile portion to release the pressure when the internal pressure or temperature of the battery cell reaches the threshold, the fragile portion is formed on the first wall by making a first groove in the pressure relief region, and a thickness of the fragile portion is less than a thickness of a remaining part of the first wall, a bottom side of the fir