This application claims the priority benefit of China application serial no. 202211256119.6, filed on Oct. 13, 2022. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.
The disclosure relates to the technical field of batteries, and in particular to a cylindrical battery.
In the related art, the tab of a battery may be used to connect to the electrode lead-out structure. Due to the limitation of the tab structure, the connection area between the tab and the electrode lead-out structure may be small.
The disclosure provides a cylindrical battery including the following.
One end of a winding cell is provided with a first tab and a center of the winding cell is formed with a central hole.
Along a radial direction of the central hole, the first tab includes a first tab layer and a second tab layer disposed adjacent to each other, the first tab layer includes a first single tab, the second tab layer includes at least two second single tabs, a number of the second single tabs of the second tab layer is one more than a number of the first single tab of the first tab layer.
For a better understanding of the disclosure, reference may be made to exemplary embodiments shown in the following drawings. The components in the drawings are not necessarily to scale and related elements may be omitted, or in some instances proportions may have been exaggerated, so as to emphasize and clearly illustrate the features described herein. In addition, related elements or components can be variously arranged, as known in the art. Further, in the drawings, like reference numerals designate same or like parts throughout the several views.
The technical solutions in the exemplary embodiments of the disclosure will be described clearly and explicitly in conjunction with the drawings in the exemplary embodiments of the disclosure. The description proposed herein is just the exemplary embodiments for the purpose of illustrations only, not intended to limit the scope of the disclosure, so it should be understood that and various modifications and variations could be made thereto without departing from the scope of the disclosure.
In the description of the present disclosure, unless otherwise specifically defined and limited, the terms “first”, “second” and the like are only used for illustrative purposes and are not to be construed as expressing or implying a relative importance. The term “plurality” is two or more. The term “and/or” includes any and all combinations of one or more of the associated listed items.
In particular, a reference to “the” object or “a” and “an” object is intended to denote also one of a possible plurality of such objects. Unless otherwise defined or described, the terms “connect”, “fix” should be broadly interpreted, for example, the term “connect” can be “fixedly connect”, “detachably connect”, “integrally connect”, “electrically connect” or “signal connect”. The term “connect” also can be “directly connect” or “indirectly connect via a medium”. For the persons skilled in the art, the specific meanings of the abovementioned terms in the present disclosure can be understood according to the specific situation.
Further, in the description of the present disclosure, it should be understood that spatially relative terms, such as “above”, “below” “inside”, “outside” and the like, are described based on orientations illustrated in the figures, but are not intended to limit the exemplary embodiments of the present disclosure.
In the context, it should also be understood that when an element or features is provided “outside” or “inside” of another element(s), it can be directly provided “outside” or “inside” of the other element, or be indirectly provided “outside” or “inside” of the another element(s) by an intermediate element.
An embodiment of the disclosure provides a cylindrical battery. Please refer to
The cylindrical battery of an embodiment of the disclosure includes the winding cell 20, one end of the winding cell 20 is provided with the first tab 22, the winding cell 20 is formed with the central hole 211, the first tab layer 225 includes the first single tab 2251, the second tab layer 226 includes the at least two second single tabs 2261, and the number of the second single tabs 2261 of the second tab layer 226 is one more than the number of the first single tab 2251 of the first tab layer 225, thereby ensuring that the first tab 22 can have a reliable welding area, so as to ensure the flow capacity of the first tab 22. Also, the width of the first tab 22 may show a changing trend to improve the insulation performance of the first tab 22, thereby improving the safety performance of the cylindrical battery.
It should be noted that the cylindrical battery is a wound battery. The winding cell 20 may include a winding cell body 21 and the first tab 22. One end of the winding cell body 21 leads out the first tab 22, and the central hole 211 of the winding cell body 21 may be a cylindrical hole. After winding to form the winding cell 20, the first tab 22 may include multiple tab layers, and after gathering the tab layers, the adjacent tab layers may be in contact, so as to form the first tab 22. For example, the tab layers include the first tab layer 225 and the second tab layer 226 disposed adjacent to each other. The first tab layer 225 and the second tab layer 226 may be gathered to implement reliable connection, thereby ensuring the structural strength and the flow capacity of the first tab 22.
The radial direction of the central hole 211 is a direction extending from the center of the central hole 211 toward a circumferential outer edge of the winding cell body 21. Along the radial direction of the central hole 211, the first tab 22 includes the first tab layer 225 and the second tab layer 226 disposed adjacent to each other, that is, the first tab layer 225 is closer to the central hole 211 than the second tab layer 226, and the number of the second single tabs 2261 of the second tab layer 226 is one more than the number of the first single tab 2251 of the first tab layer 225, that is, the first tab layer 225 close to the central hole 211 is narrower than the second tab layer 226 away from the central hole 211, which can not only ensure the flow capacity of the first tab 22, but also enable a side of the first tab 22 close to the central hole 211 to have a relatively large insulation distance from the adjacent second tab 23 with opposite polarity, so as to ensure the insulation performance between the first tab 22 and the second tab 23.
In an embodiment, a circumferential outer surface of the first tab 22 includes a first surface 221, a second surface 222, a third surface 223, and a fourth surface 224. The first surface 221 and the second surface 222 are disposed opposite to each other. The first surface 221 is located on a side of the first tab 22 close to the central hole 211. The second surface 222 is located on the other side of the first tab 22 away from the central hole 211. The opposite third surface 223 and fourth surface 224 are both connected to the first surface 221 and the second surface 222. The first surface 221 is basically a first arc surface, the second surface 222 is basically a second arc surface, the third surface 223 is basically a first plane, and the fourth surface 224 is basically a second plane. The circumferential outer surface of the first tab 22 is composed of the first surface 221, the second surface 222, the third surface 223, and the fourth surface 224. The first surface 221 and the second surface 222 disposed opposite to each other are respectively the first arc surface and the second arc surface, and the third surface 223 and the fourth surface 224 disposed opposite to each other are respectively the first plane and the second plane, so that the first tab 22 can have a relatively reliable top surface area.
The first surface 221 is formed on the side close to the central hole 211 of a cell, the second surface 222 is formed on the other side away from the central hole 211 of the cell, and the opposite third surface 223 and fourth surface 224 are both connected to the first surface 221 and the second surface 222.
In an embodiment, along a circumferential direction of the central hole 211, the difference between the width of the second tab layer 226 and the width of the first tab layer 225 is not less than the width of the second single tab 2261, so that the second tab layer 226 can have a larger width to increase the connection area between the first tab 22 and an electrode lead-out structure, thereby improving the connection strength between the first tab 22 and the electrode lead-out structure, and improving the flow capacity between the first tab 22 and the electrode lead-out structure.
The first tab 22 is connected to the electrode lead-out structure. The electrode lead-out structure may be an adapter piece, the electrode lead-out structure may be an electrode lead-out structure, or the electrode lead-out structure may be a casing structure 10. The first tab 22 may be electrically connected to the electrode lead-out structure through the adapter piece, the first tab 22 may be welded to the adapter piece, and the first tab 22 may have a sufficient welding area to form a stable welding connection with the adapter piece.
In an embodiment, the first tab layer 225 includes at least two first single tabs 2251. The adjacent first single tabs 2251 are disposed at an interval, and the adjacent second single tabs 2261 are disposed at an interval, so that the difference between the width of the second tab layer 226 and the width of the first tab layer 225 is greater than the width of the second single tab 2261. The number of the second single tabs 2261 of the second tab layer 226 is one more than the number of the first single tabs 2251 of the first tab layer 225, and the first tab layer 225 includes the at least two first single tabs 2251, thereby ensuring that the widths of the first tab layer 225 and the second tab layer 226 can both be relatively large, so as to ensure that the first tab 22 can have a relatively large area, thereby improving the flow capacity of the first tab 22.
As shown in
It should be noted that in some embodiments, it is not ruled out that the width of the first single tab 2251 may be consistent with the width of the second single tab 2261. The first single tab 2251 and the second single tab 2261 may have a rectangular structure, and at this time, the widths at each position of the first single tab 2251 and the second single tab 2261 may all be consistent. Alternatively, the first single tab 2251 and the second single tab 2261 may have a trapezoidal structure, and at this time, the widths at each position of the first single tab 2251 and the second single tab 2261 may all be inconsistent. When comparing the width of the second tab layer 226 with the width of the first tab layer 225, the widths located in the same plane are selected for comparison.
In an embodiment, along the radial direction of the central hole 211, the first tab 22 further includes a third tab layer 227 disposed adjacent to the second tab layer 226. The third tab layer 227 includes at least two third single tabs 2271. The number of the third single tabs 2271 of the third tab layer 227 is consistent with the number of the second single tabs 2261 of the second tab layer 226, so that the thickness of the first tab 22 can be increased without increasing the width of the first tab 22, so as to ensure the flow capacity of the first tab 22 and also control the insulation distance between the first tab 22 and the second tab 23 with opposite polarity.
The first tab layer 225, the second tab layer 226, and the third tab layer 227 may be disposed along the radial direction of the central hole 211. The first tab layer 225, the second tab layer 226, and the third tab layer 227 are gathered together to form at least part of the first tab 22. The width of the first tab layer 225 is the smallest, and the widths of the second tab layer 226 and the third tab layer 227 may be basically consistent. For example, the first tab layer 225, the second tab layer 226, and the third tab layer 227 are gathered to form the first tab 22, the first tab layer 225 may form the first surface 221, and the third tab layer 227 may form the second surface 222. Alternatively, the first tab layer 225, the second tab layer 226, and the third tab layer 227 are gathered to form a part of the first tab 22, the first tab layer 225 may form the first surface 221, and the first tab 22 may also include other tab layer to form the second surface 222. Alternatively, the first tab layer 225, the second tab layer 226, and the third tab layer 227 are gathered to form a part of the first tab 22, the first tab layer 225, the second tab layer 226, and the third tab layer 227 form a middle part of the first tab 22, and the first tab 22 may also include other tab layers to form the first surface 221 and the second surface 222.
In an embodiment, along the radial direction of the central hole 211, the first tab 22 further includes a fourth tab layer 228 adjacent to the third tab layer 227. The fourth tab layer 228 includes at least three fourth single tabs 2281. The number of the fourth single tabs 2281 of the fourth tab layer 228 is one more than the number of the third single tabs 2271 of the third tab layer 227, so that the fourth tab layer 228 may not only increase the thickness of the first tab 22, but also increase the width of the first tab 22, so as to further increase the flow capacity of the first tab 22. The fourth tab layer 228 may be further from the central hole 211 than the first tab layer 225, the second tab layer 226, and the third tab layer 227. Therefore, even if the width of the fourth tab layer 228 is increased, considering that the radius of the circumference where the fourth tab layer 228 is located is large, the fourth tab layer 228 can still be ensured to have a relatively reliable insulation distance from the adjacent second tab 23 with opposite polarity.
The first tab layer 225, the second tab layer 226, the third tab layer 227, and the fourth tab layer 228 may be disposed along the radial direction of the central hole 211. The first tab layer 225, the second tab layer 226, the third tab layer 227, and the fourth tab layer 228 are gathered to form at least part of the first tab layer 22. The width of the first tab layer 225 is the smallest, the widths of the second tab layer 226 and the third tab layer 227 may be basically consistent, and the width of the fourth tab layer 228 is the largest. For example, the first tab layer 225, the second tab layer 226, the third tab layer 227, and the fourth tab layer 228 are gathered to form the first tab 22, the first tab layer 225 may form the first surface 221, and the fourth tab layer 228 may form the second surface 222. Alternatively, the first tab layer 225, the second tab layer 226, the third tab layer 227, and the fourth tab layer 228 are gathered to form a part of the first tab 22, the first tab layer 225 may form the first surface 221, and the first tab 22 may also include other tab layers to form the second surface 222. Alternatively, the first tab layer 225, the second tab layer 226, the third tab layer 227, and the fourth tab layer 228 are gathered to form a part of the first tab 22, the fourth tab layer 228 may form the second surface 222, and the first tab 22 may also include other tab layers to form the first surface 221.
In an embodiment, as shown in
A battery includes a winding cell and an electrolyte, which are the smallest units capable of performing electrochemical reactions such as charging/discharging. The winding cell refers to a unit formed by winding a stack portion. The stack portion includes a first electrode, a separator, and a second electrode. When the first electrode is a positive electrode, the second electrode is a negative electrode. The polarities of the first electrode and the second electrode may be interchanged. The first tab 22 and the second tab 23 may be respectively extended from the first electrode and the second electrode, the winding cell 20 is formed after winding the first electrode and the second electrode, and the first tab 22 and the second tab 23 may be formed through gathering multiple tab layers.
Combined with
Considering that the first surface 221 and the second surface 222 are respectively formed by the tab layer closest to the central hole 211 and the tab layer farthest from the central hole 211, regardless of whether the first surface 221 and the second surface 222 are inclined and gathered toward the direction close to the central hole 211, the first surface 221 and the second surface 222 are bent along the circumferential direction, thereby respectively forming the first arc surface and the second arc surface. The third surface 223 and the fourth surface 224 are respectively formed by multiple tab layers at opposite ends along the circumferential direction of the central hole 211. Therefore, considering that the width of each tab layer changes, it cannot be ruled out that there will be slight protrusions or recessions on the third surface 223 and the fourth surface 224, but the overall trend of the third surface 223 and the fourth surface 224 is a plane. Therefore, the third surface 223 is basically the first plane and the fourth surface 224 is basically the second plane.
In an embodiment, the first surface 221 is formed by at least one single tab, the number of the single tabs of the first surface 221 is equal to the number of the first single tabs 2251 of the first tab layer 225, the second surface 222 is formed by multiple single tabs, and the number of the single tabs of the second surface 222 is equal to the number of the fourth single tabs 2281 of the fourth tab layer 228, so that the width of the second surface 222 can be greater than the width of the first surface 221. The width of the first surface 221 is relatively small, which may control the insulation distance between the first tab 22 close to the central hole 211 and the second tab 23, thereby preventing the risk of short circuit between the first tab 22 and the second tab 23. The width of the second surface 222 is relatively large, so the area of the first surface 221 may be effectively controlled, thereby increasing the structural strength and the flow capacity of the first tab 22.
It should be noted that the first tab 22 includes multiple tab layers, and the first tab 22 is formed after gathering the tab layers. Along the radial direction of the central hole 211, the width of each tab layer may be sequentially increased. Alternatively, along the radial direction of the central hole 211, the width of each tab layer may regularly increase and decrease. For example, the widths of the tab layers on the side close to the central hole 211 may be alternately disposed as 2, 3, 2, 3 . . . according to the number of single tabs as shown in
When at least two single tabs are ensured for each tab layer, the width of the tab layer may be the distance between the bottom ends of the single tabs on the two outermost sides of the tab layer. For example, the width of the first tab layer 225 as shown in
In an embodiment, along the radial direction of the central hole 211, the first tab 22 includes multiple tab layers, the winding cell 20 includes multiple winding units, and the winding units are wound to form the winding cell 20, that is, the winding cell body 21 includes multiple winding units, the winding units are wound to form the winding cell body 21, and the winding units are connected along the circumferential direction of the central hole 211, thereby forming an integral structure. The winding cell body 21 defined herein includes multiple winding units, and each winding unit forms one turn structure of the winding cell body 21.
In an embodiment, an arc length of an nth tab layer is L, L=ar, a is a number of radians of the nth tab layer, r is a radius of the nth tab layer, r=r1+(φn−φ0)×(h/2π), r1 is a distance between the first surface 221 and a center line of the central hole 211, h is a thickness of the winding unit, φn is an angle at which the nth tab layer is wound from a winding starting point of the winding unit, and φ0 is an angle at which the first surface 221 is wound from the winding starting point of the winding unit. An angle that the winding unit winds between the nth tab layer and the first surface 221 may be obtained from φn−φ0, so that the number of layers that the winding unit winds between the nth tab layer and the first surface 221 may also be determined. Through obtaining the distance between the first surface 221 and the center line of the central hole 211, and calculating the sum of the thicknesses of the winding units between the nth tab layer and the first surface 221, the precise radius of the nth tab layer may be obtained.
Combined with
The angle of φn−φ0 is a natural multiple of 360° and r1 is the distance between the first surface 221 and the center line of the central hole 211. As shown in
In an embodiment, as shown in
In some embodiments, it is not ruled out that the winding unit may include the first electrode 212 and the second electrode 214. The first electrode 212 and the second electrode 214 may be in direct contact, and h is the sum of the thicknesses of the first electrode 212 and the second electrode 214.
In an embodiment, the first tab layer 225 forms at least part of the first surface 221, so that the width of the first surface 221 may be relatively small, so as to ensure the insulation performance between the first tab 22 and the second tab 23.
It should be noted that the first surface 221 may be formed by the first tab layer 225 or the second tab layer 226 may extend to a top end of the first tab layer 225 when being gathered, so as to form a part of the first surface 221, which is not limited here.
In an embodiment, the difference between the arc length of the second tab layer 226 and the arc length of the first tab layer 225 is not less than the width of the second single tab 2261, so that the second tab layer 226 may have a larger width, so as to increase the flow area of the first tab 22.
In an embodiment, as shown in
The polarities of the first tab 22 and the second tab 23 are opposite, one of the first tab 22 and the second tab 23 is a positive tab, and the other one is a negative tab. The first tab 22 and the second tab 23 extend from the same side of the winding cell body 21, thereby preventing the issue of excessive accumulation of height space caused by the extension of the first tab 22 and the second tab 23 from two opposite sides of the winding cell body 21.
In an embodiment, the first tab 22 and the second tab 23 are disposed at an interval along the circumferential direction of the central hole 211, that is, the first tab 22 and the second tab 23 are disposed at an interval around the central hole 211 along the circumferential direction, thereby increasing the connection area of the first tab 22 and the second tab 23 to the greatest extent to ensure that the first tab 22 and the second tab 23 can have a reliable flow area.
In an embodiment, there is one first tab 22 and one second tab 23, and the first tab 22 and the second tab 23 are disposed along the circumferential direction of the central hole 211, which not only has a simple structure, but also ensures that the first tab 22 and the second tab 23 can have a reliable flow capacity on the basis of ensuring an insulation gap between the first tab 22 and the second tab 23.
It should be noted that in some embodiments, it is not ruled out that the first tab 22 and the second tab 23 may extend from the two opposite sides of the winding cell body 21. There may also respectively be multiple first tabs 22 and second tabs 23.
In an embodiment, a distance between the first surface 221 and the central hole 211 is greater than 0, thereby increasing the insulation distance between the first tab 22 and the second tab 23.
A distance between the first tab 22 and the central hole 211 is greater than 0, and a distance between the second tab 23 and the central hole 211 is greater than 0, thereby improving the insulation capacity between the first tab 22 and the second tab 23.
In an embodiment, combined with
It should be noted that in some embodiments, it is not ruled out that the first tab 22 and the second tab 23 may extend from the two opposite sides of the winding cell body 21. There may also respectively be multiple first tabs 22 and second tabs 23.
In an embodiment, as shown in
The cylindrical battery may include two electrode lead-out structures 30. The first tab 22 and the second tab 23 of the winding cell 20 may be respectively electrically connected to the two electrode lead-out structures 30.
In an embodiment, the casing structure 10 may include a cover plate and a casing member. The electrode lead-out structure 30 may be disposed on the cover plate, and the casing member may be formed with an accommodating space, thereby implementing the effective protection of the winding cell 20 after connecting the cover plate and the casing member. The cover plate and the casing member may be welded or the cover plate and the casing member may be riveted.
An embodiment of the disclosure also provides a battery group, which includes the cylindrical battery.
The cylindrical battery of the battery group according to an embodiment of the disclosure includes a winding cell 20, one end of the winding cell 20 is provided with a first tab 22, the winding cell 20 is formed with a central hole 211, a first tab layer 225 includes a first single tab 2251, a second tab layer 226 includes at least two second single tabs 2261, and the number of the second single tabs 2261 of the second tab layer 226 is one more than the number of the first single tab 2251 of the first tab layer 225, thereby ensuring that the first tab 22 can have a reliable welding area, so as to ensure the flow capacity of the first tab 22. Also, the width of the first tab 22 may show a changing trend to improve the insulation performance of the first tab 22, thereby improving the safety performance of the battery group.
In an embodiment, the battery group is a battery module or a battery pack.
The battery module includes multiple cylindrical batteries, and the battery module may further include a bracket. The batteries may be fixed on the bracket.
The battery pack includes multiple cylindrical batteries and a box. The box is used to fix the cylindrical batteries.
It should be noted that the battery pack includes a cylindrical battery. There may be multiple cylindrical batteries, and the cylindrical batteries are disposed in the box. The cylindrical batteries may be installed in the box after forming the battery module. Alternatively, the cylindrical batteries may be directly disposed in the box, that is, it is not necessary to group the cylindrical batteries, and the cylindrical batteries are fixed using the box.
Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. The disclosure is intended to cover any variations, uses or adaptations of the disclosure. These variations, uses, or adaptations follow the general principles of the disclosure and include common general knowledge or conventional technical means in the art that are not disclosed in the present disclosure. The specification and embodiments are illustrative, and the real scope and spirit of the present disclosure is defined by the appended claims.
It should be understood that the disclosure is not limited to the precise structures that have been described above and shown in the drawings, and various modifications and variations can be made without departing from the scope thereof. The scope of the disclosure is limited only by the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
202211256119.6 | Oct 2022 | CN | national |