DE202023102240U1 - Cylindrical battery - Google Patents

Abstract

Cylindrical battery, characterized in that it comprises:
a battery casing (10), said battery casing (10) being a steel casing, the specific resistance of said battery casing (10) being less than 1,
a battery cell (20), said battery cell (20) being provided within said battery case (10), said battery cell (20) comprising a first terminal strap (21) and a second terminal strap (22) of opposite polarity wherein said first pole strap (21) is electrically connected to said battery case (10).

Description

technical field

The present utility model relates to the technical field of batteries, particularly a cylindrical battery.

State of the art

In the prior art, the battery cell of a cylindrical battery can be electrically connected directly to the battery case, although in the course of multiple charging and discharging, an enormous amount of heat is generated on the battery case and there are relatively large deviations in the heat generation inside and outside the battery cell with slow heat transfer from the outside inward, resulting in deviations in the rate of ion transmission and possibly creating a safety hazard of the battery.

Content of the utility model

• ein Batteriegehäuse, wobei es sich bei dem Batteriegehäuse um ein Stahlgehäuse handelt, wobei der spezifische Widerstand des Batteriegehäuses kleiner als 1 beträgt,
• eine Batteriezelle, wobei die Batteriezelle innerhalb des Batteriegehäuses vorgesehen ist, wobei die Batteriezelle eine erste Pol-Lasche und eine zweite Pol-Lasche entgegengesetzter Polarität umfasst, wobei die erste Pol-Lasche mit dem Batteriegehäuse elektrisch verbunden ist.

The present utility model provides a cylindrical battery to improve the use properties of the cylindrical battery. The present utility model provides a cylindrical battery comprising:

• a battery case, the battery case being a steel case, the resistivity of the battery case being less than 1,
• a battery cell, the battery cell being provided within the battery housing, the battery cell including a first terminal strap and a second terminal strap of opposite polarity, the first terminal strap being electrically connected to the battery housing.

The cylindrical battery according to exemplary embodiments of the present utility model includes a battery case and a battery cell provided inside the battery case, the battery cell including a first terminal and a second terminal of opposite polarity, the first terminal being electrically connected to the battery case , which can cause the battery case to be used as the electrode lead-out terminal of the battery to facilitate assembly of the batteries. The battery case is designed as a steel case, and the specific resistance of the battery case is less than 1, which can cause the specific resistance of the battery case to be relatively small, and in the electrical connection of the battery case and battery cell, the internal resistance of the entire battery is relatively small, which increases the rapid charging capability of the entire battery, whereby even if enormous heat generation occurs at the battery case in the course of multiple charging and discharging, rapid heat transfer inside and outside the battery cell can still be realized, thereby ensuring the relatively balanced heat generation of the entire battery cell. This ensures that the rate of ion transfer does not show relatively large variations, which reduces the problem of short circuit between the battery cell and the battery case caused by localized lithium deposition outside of the battery cell and improves the safe use characteristics of the cylindrical battery.

character list

• 1 zeigt die Konstruktion einer zylindrischen Batterie nach einer beispielhaften Aus führungs form.
• 2 zeigt die Teilkonstruktion einer zylindrischen Batterie nach einer beispielhaften Ausführungsform.
• 3 zeigt die Teilkonstruktion einer zylindrischen Batterie nach einer anderen beispielhaften Ausführungsform.
• 4 zeigt die Konstruktion einer zylindrischen Batterie nach einer anderen beispielhaften Ausführungsform.

For a better understanding of the present disclosure, the exemplary embodiments shown in the following attached figures may be used as a reference. Parts in the accompanying figures are not necessarily drawn to scale, and corresponding elements may be omitted in order to emphasize and clarify technical features of the present disclosure. In addition, essential elements or parts can be provided differently, as known to a person skilled in the relevant technical field. In the attached figures, reference numbers indicate identical or similar parts.

• 1 Fig. 12 shows the construction of a cylindrical battery according to an exemplary embodiment.
• 2 12 shows the partial construction of a cylindrical battery according to an exemplary embodiment.
• 3 12 shows the partial construction of a cylindrical battery according to another exemplary embodiment.
• 4 FIG. 12 shows the construction of a cylindrical battery according to another exemplary embodiment.

10

Batteriegehäuse,

20

Batteriezelle,

21

Erste Pol-Lasche,

22

Zweite Pol-Lasche,

30

Pol-Komponente,

40

Erste Leiterbahn,

50

Zweite Leiterbahn.

The reference numbers from the accompanying figures are as follows:

10

battery case,

20

battery cell,

21

first pole tab,

22

second pole tab,

30

pole component,

40

first track,

50

Second track.

Concrete embodiments

A clear and complete description of the technical solution in exemplary embodiments of the present disclosure is given below with reference to the attached figures relating to exemplary embodiments of the present disclosure. The exemplary embodiments of this specification are for illustrative purposes only, without implying any limitation of the scope of the present disclosure. It is therefore understood that various modifications and changes can be made to the exemplary embodiments without exceeding the scope of the present disclosure.

In the description of the present disclosure, unless otherwise clearly stated and defined, the terms “first” and “second” are used for descriptive purposes only and do not explicitly or implicitly indicate their relative importance. The term "plural" refers to two or more than two. The term “and/or” includes one or more arbitrary combinations of the relevant items, or all combinations thereof. In particular, the term "concerning/above mentioned" or "a" refers to one of possibly several such elements.

Unless otherwise specified or indicated, terms such as "connection" or "attachment" are to be understood in a broad sense. For example, a “connection” can be a fixed connection, as well as a removable connection, a connection to a piece, an electrical connection, or a signal connection. The "connection" can be an immediate connection, as well as a connection through an intermediate medium. A person skilled in the relevant technical field can understand the specific meanings of the mentioned terms in the present disclosure based on the specific circumstances. In addition, with respect to the present disclosure, it is to be understood that the positional designations such as “top”, “bottom”, “inside” or “outside” used in the description of the exemplary embodiments of the present disclosure are chosen from the point of view of the attached figures and not as respective ones limitation of the exemplary embodiments of the present disclosure. In the appropriate context, when an element or feature is related to another element (or elements) "above", "below", "inside" or "outside", it is not only related to the other element (or several elements) “above” or “below” or “inside” or “outside” can be directly connected, but also indirectly related to the other element (or several elements) “above” or “below” or “inside” via an intermediate element or "outside" can be connected.

An exemplary embodiment of the present utility model provides a cylindrical battery, the cylindrical battery as shown in FIGS 1 until 4 shown comprises: a battery case 10, the battery case 10 being a steel case, the specific resistance of the battery case 10 being less than 1, a battery cell 20, the battery cell 20 being provided within the battery case 10, the battery cell 20 comprises a first pole strap 21 and a second pole strap 22 of opposite polarity, the first pole strap 21 being electrically connected to the battery case 10 .

The cylindrical battery according to an exemplary embodiment of the present utility model comprises a battery case 10 and a battery cell 20 provided within the battery case 10, the battery cell 20 comprising a first pole lug 21 and a second pole lug 22 of opposite polarity, the first pole Tab 21 is electrically connected to the battery case 10, which can cause the battery case 10 to be used as the electrode lead-out terminal of the battery to facilitate assembly of the batteries. The battery case 10 is designed as a steel case, and the specific resistance of the battery case 10 is less than 1, which can cause the specific resistance of the battery case 10 to be relatively small and when electrically connecting the battery case 10 and battery cell 20, the internal resistance of the whole Battery is relatively small, which increases the rapid charging ability of the entire battery, whereby even if in the course of multiplied charging and discharging, an enormous amount of heat is generated at the battery case 10, rapid heat transfer can still be realized inside and outside the battery cell 20, thereby making the relatively balanced Heat generation of the entire battery cell 20 is guaranteed. This ensures that the rate of ion transfer does not show relatively large deviations, which eliminates the problem of a short circuit caused by local lithium deposition on the outside of the battery cell 20 connection between the battery cell 20 and the battery case 10 is reduced and the safe use properties of the cylindrical battery are improved.

It should be noted that the first terminal strap 21 of the battery cell 20 is electrically connected to the battery case 10, which means that the battery case 10 can be used as an electrode lead-out terminal. In the course of electric charging and discharging of the battery, the battery case 10 can be used as an electric connection terminal, the battery case 10 being a steel case. Thus, since all the positions of the battery case 10 can serve as electrical connection positions, the choices of the electrical connection positions of the batteries are expanded. For example, cylindrical batteries can be assembled for use. By using the battery case 10 as an electrode lead-out terminal, it is possible to increase the choice of electrical connection positions of the cylindrical battery.

When the specific resistance of the battery case 10 is relatively high, the internal resistance of the battery is relatively high because of the electrical connection between the battery case 10 and the battery cell 20, which reduces the rapid charging capability of the entire battery, heat being generated at the battery case 10 in the course of multiple charging and discharging arises. The battery case 10 is electrically connected to the battery cell 20, and the battery cell 20 is a wound battery cell. In the case of the wound battery cell, because of the relatively small distance of the outer winding from the battery case 10 between the inner winding and the outer winding, there is a relatively large deviation between inner and outer heat generation with slow heat transfer from the outside to the inside, resulting in relatively large deviations in the speed rate of the Ion transfer leads and possibly brings about the problem of a short circuit between the battery case 10 and the battery cell 20 caused by local lithium deposition on the outside of the wound battery cell. In the present application, the battery case 10 is provided as a steel case, and the specific resistance of the battery case 10 is less than 1Ω mm ² /m, which can effectively reduce the internal resistance of the entire battery, as well as ensure that the internal and external heat generation of the wound battery cell are relatively balanced, which reduces the likelihood of local lithium deposition on the outside of the wound battery cell and thus improves the safe use properties of the battery.

In an exemplary embodiment, an explosion-proof structure, a liquid supply port sealing structure, etc. are provided on the battery case 10 . By providing the battery case 10 as a steel case and the resistivity of the battery case 10 is less than 1Ω · mm ² /m, the problem of corrosion of explosion-proof structure, sealing structure of the liquid supply port, etc. can be reduced, which improves the safe use characteristics of the battery .

In an exemplary embodiment, the battery case 10 is provided as a steel case. For example, the battery case 10 may be made of carbon steel, or the battery case 10 may be made of stainless steel, without limitation.

In an exemplary embodiment, the first pole tab 21 may be directly connected to the battery case 10 . For example, the first pole lug 21 may be connected to the battery case 10 by welding, or the first pole lug 21 may be in direct contact with the battery case 10 by pressing to provide a reliable flow area between the first pole lug 21 and the battery case 10 to ensure.

In an exemplary embodiment, the first pole tab 21 may be indirectly connected to the battery case 10 . For example, the first terminal strap 21 may be connected to the battery case 10 by an electrically conductive adhesive, or the first terminal strap 21 may be connected to the battery case 10 by a current collector, the first terminal strap 21 being connected to the current collector by welding may be connected while the current collector may be connected to the battery case 10 by welding.

In an exemplary embodiment, the first post 21 is a negative post and the battery case 10 is a steel case, with the negative post being electrically connected to the steel case. The corrosion potential of the steel case is higher than the potential of the negative pole of the cylindrical battery, so the problem of the occurrence of electrochemical corrosion on the steel case can be avoided. example In this way it is possible to prevent the ions in the electrolyte liquid from entering the crystal lattice of the steel housing.

In an exemplary embodiment, it is provided that the specific resistance of the battery case 10 is less than or equal to 0.252 mm ² /m, whereby a maximum reduction in the internal resistance of the entire battery can be effected and thus the overall heat generation of the battery is reduced, as well as a high speed of internal and external heat dissipation of the wound battery cell can be ensured, thus ensuring that the internal and external heat generation of the wound battery cell are substantially balanced, which reduces the likelihood of localized lithium deposition outside the wound battery cell and the safe use characteristics of the battery improved.

In an exemplary embodiment, as shown in FIG 2 shown, it is provided that the first pole lug 21 and the second pole lug 22 are led out of the two opposite sides of the battery cell 20, which not only causes an extremely short path of electron transmission with a fast transmission speed, but also a relatively low heat generation , which improves the safe use characteristics of the battery.

In an exemplary embodiment it is provided that the first pole lug 21 and the second pole lug 22 are led out of the two opposite sides of the battery cell 20, the specific resistance of the battery housing 10 being less than or equal to 0.2 Ω · mm ² /m amounts to. Because the resistivity of the battery case 10 is relatively small and the first pole lug 21 and the second pole lug 22 are led out from the two opposite sides of the battery cell 20, the resistance of the entire battery is relatively small, thereby ensuring the sufficient flow area of the first The terminal plate 21 and the second terminal plate 22 can be ensured, which improves the safety properties of the battery and whereby a relatively short transmission path of the electrons can be effected, so that the electric charging and discharging ability of the battery is improved.

In an exemplary embodiment, it is provided that the cylindrical battery also comprises a first conductor track 40, the first conductor track 40 being electrically connected to the battery housing 10, the first pole lug 21 and the first conductor track 40 each being connected to the two opposite ends of the Battery case 10 are electrically connected, which means that the first terminal strip 21 and the first conductive line 40 each have contact with the two opposite ends of the battery case 10, so that when assembling the cylindrical batteries, the first conductive line 40 electrically connects two adjacent cylindrical batteries can be ensured, as well as a proper transmission path of electrons between the cylindrical batteries, which ensures the use properties after assembling the cylindrical batteries.

The first pole lug 21 and the first conductor track 40 each have contact with the two opposite ends of the battery housing 10, whereby this contact can be a direct contact or can be an indirect contact.

The first pole lug 21 and the first conductor track 40 are in contact with the two opposite ends of the battery case 10, respectively. For example, the first pole tab 21 may be in contact with one end face of the battery case 10 while the first conductive trace 40 may be in contact with another end face of the battery case 10 . The first pole tab 21 and the first conductive pattern 40 are in contact with different end faces of the battery case 10 . For example, the first pole tab 21 may be in contact with the inner surface of one end face, while the first conductive trace 40 may be in contact with the outer surface of another end face.

In an exemplary embodiment, it is provided that the specific resistance of the battery housing 10 is less than or equal to 0.85, which not only reduces the internal resistance of the entire battery and thus the heat generation of the entire battery, but also a balanced heat generation inside and outside the wound battery cell is ensured, which reduces the deterioration of the battery cell 20 by an enormous generation of heat at the battery case 10 and thus improves the safe use properties of the battery.

In an exemplary embodiment, as shown in FIG 3 shown, provided that the first terminal plate 21 and the second terminal plate 22 are led out from the same side of the battery cell 20, whereby the space efficiency of the battery case 10 can be improved and a reduction in the height of the cylindrical battery is made possible to some extent, which increases the energy density of the battery.

In an exemplary embodiment, the first pole tab 21 and the second pole tab 22 are formed from the same side of the battery riezelle 20 are led out, wherein the specific resistance of the battery case 10 is less than or equal to 0.85, whereby a relatively long path of the electrons from the first pole lug 21 to the battery case 10 can be avoided, which increases the speed of electrical charging and discharging the cylindrical battery would affect.

In an exemplary embodiment, it is provided that the cylindrical battery also comprises a first conductive track 40, the first conductive track 40 being electrically connected to the battery case 10, the first terminal lug 21 and the first conductive track 40 all being connected to the same end of the battery case 10 are electrically connected, which means that the first pole tab 21 and the first conductive trace 40 make contact with the same end of the battery case 10, so that when assembling the cylindrical batteries, the first conductive trace 40 can electrically connect two adjacent cylindrical batteries, as well as one relatively short transmission path of electrons between the cylindrical batteries can be ensured, so that the ability of electric charging and discharging after assembling the cylindrical batteries is ensured.

The first pole tab 21 and the first conductive trace 40 make contact with the same end of the battery case 10, which contact may be direct contact or indirect contact.

The first pole tab 21 and the first conductive trace 40 are in contact with the same end of the battery case 10 . For example, the first terminal tab 21 may be in contact with an end surface of the battery case 10, while the first conductive trace 40 may also be in contact with an end surface of the battery case 10, with the first terminal tab 21 and the first conductive trace 40 in contact with the inner surface and outer surface of the same end face.

In an exemplary embodiment, as shown in FIG 1 shown, provided that the cylindrical battery also includes a pole component 30, wherein the pole component 30 is provided on the battery case 10, wherein the second pole tab 22 is electrically connected to the pole component 30, while the first pole tab 21 is electrically connected to the battery case 10, which can cause the battery case 10 and the terminal component 30 to be used as two electrode lead-out terminals, respectively, which ensures the easy realization of the electric charging and discharging of the cylindrical battery.

The battery case 10 may include a case and a cover plate, wherein the case and the cover plate are connected to each other. For example, a connection by welding is provided between the housing part and the cover plate.

The pole component 30 can be provided on a cover plate, wherein the pole component 30 can be connected to the cover plate in an insulated manner.

Or the pole component 30 can be provided on the housing part, wherein the pole component 30 can be insulated connected to the housing part.

The second pole tab 22 and the pole component 30 may be directly electrically connected. For example, the second pole tab 22 and pole component 30 may be joined by welding, or the second pole tab 22 and pole component 30 may be in intimate contact by pressing to provide a reliable flow area between the second pole tab 22 and the pole component 30 to ensure.

The second pole tab 22 and the pole component 30 may be indirectly connected. For example, the second pole tab 22 and the pole component 30 may be connected by an electrically conductive adhesive, or the second pole tab 22 and the pole component 30 may be connected by a current collector, with the second pole tab 22 through welding may be connected to the current collector, while the current collector may be connected to the pole component 30 by welding.

Note that the cylindrical battery includes a battery cell and electrolyte as the smallest units for performing electrochemical reactions such as electric charge/electric discharge. A battery cell is a unit formed by winding or laminating a stacked portion including a first electrode, a separator, and a second electrode. When the first electrode is a positive electrode, the second electrode is a negative electrode. In this case, the polarities of the first electrode and the second electrode are interchangeable. The first electrode and the second electrode are coated with an active substance.

The cylindrical battery may be a wound battery, meaning that a first electrode and a second electrode are wound with opposite polarity to the first electrode plate and a separator film located between the first electrode and the second electrode to obtain the wound battery cell.

The battery cell comprises more than two electrodes, wherein the terminal lugs comprise more than two single-pole lugs, the single-pole lugs each extending from the opposite electrode, the width of the single-pole lug being less than the width of the electrode can be, whereby several single pole tabs can be stacked to form pole tabs. Here, the single-pole tabs are made of metal foil with good thermal conductivity properties, for example aluminum, copper, nickel, etc. In an exemplary embodiment, as shown in FIG 4 shown, the cylindrical battery further includes a first conductive trace 40 and a second conductive trace 50, the first conductive trace 40 being electrically connected to the battery case 10, the second conductive trace 50 being electrically connected to the pole component 30, thereby causing that the cylindrical battery can be connected to another cylindrical battery through the first wiring 40 and the second wiring 50, so that assembling of cylindrical batteries is performed.

In an exemplary embodiment, as shown in FIG 4 1, it is provided that the first conductive pattern 40 and the second conductive pattern 50 are located on the same side of the battery case 10, so that the space efficiency of the cylindrical battery can be improved as well as the assembling of the cylindrical battery is facilitated.

In an exemplary embodiment, it is provided that the first conductor track 40 and the second conductor track 50 are located on the two opposite sides of the battery housing 10, so that there is an adaptation to the manner of assembly and the spatial arrangement of the cylindrical battery.

In an exemplary embodiment, it is provided that the specific resistance of the battery case 10 is ≤ 1 0mΩ, so that the generation of an enormous amount of heat at the battery case 10 can be avoided, which reduces the amount of heat transferred from the battery case 10 to the battery cell 20 and the safety properties of the battery improved.

An exemplary embodiment of the present utility model also provides a battery pack including the aforementioned cylindrical battery.

The battery pack according to an exemplary embodiment of the present utility model includes a cylindrical battery, the cylindrical battery including a battery case 10 and a battery cell 20 provided inside the battery case 10, the battery cell having a first terminal 21 and a second terminal 22 of opposite polarity wherein the first pole tab 21 is electrically connected to the battery case 10, which can cause the battery case 10 to be used as the electrode lead-out terminal of the battery to facilitate assembly of the batteries. The battery case 10 is designed as a steel case, and the specific resistance of the battery case 10 is less than 1, which can cause the specific resistance of the battery case 10 to be relatively small and when electrically connecting the battery case 10 and battery cell 20, the internal resistance of the whole Battery is relatively small, which increases the rapid charging ability of the entire battery, whereby even if in the course of multiplied charging and discharging, an enormous amount of heat is generated at the battery case 10, rapid heat transfer can still be realized inside and outside the battery cell 20, thereby making the relatively balanced Heat generation of the entire battery cell 20 is guaranteed. This ensures that the rate of ion transmission does not show relatively large variations, which reduces the problem of short circuit between the battery cell 20 and the battery case 10 caused by localized lithium deposition outside of the battery cell 20 and improves the safe use characteristics of the cylindrical battery.

In an exemplary embodiment, the battery pack may include multiple cylindrical batteries.

There may be a plurality of cylindrical batteries, and the plurality of cylindrical batteries may be electrically connected through the first conductive pattern 40 and the second conductive pattern 50 . For example, if the plurality of cylindrical batteries are coupled in series, the first conductive trace 40 may be connected to the pole component 30 of the first cylindrical battery and connected to the battery case 10 of the second cylindrical battery, while the second conductive trace 50 may be connected to the battery case 10 of the first cylindrical battery and the second conductive trace 50 may be connected to the pole component 30 of the third cylindrical battery.

The first conductor track 40 can be welded to the battery case 10 of the cylindrical Battery may be connected and the second conductive trace 50 may be connected to the pole component 30 of the cylindrical battery by welding.

It should be noted that, as in 4 As shown, a cylindrical battery may be connected to a first conductive trace 40 and a second conductive trace 50, where the first conductive trace 40 may be connected to the battery case 10 of the cylindrical battery, while the second conductive trace 50 may be connected to the terminal component 30 of the cylindrical battery can be.

The first conductive trace 40 and the second conductive trace 50 may each comprise a terminal connection area and a connection area of the battery case of the cylindrical battery, wherein the terminal connection area is for connection with the terminal component 30 of a cylindrical battery, while the connection area of the battery case is for the cylindrical Battery is used to connect to the battery case 10 of another cylindrical battery. It is possible that the first conductive pattern 40 or the second conductive pattern 50 is used for only two cylindrical batteries, or the first conductive pattern 40 and the second conductive pattern 50 can be used for the connection of more than two cylindrical batteries, without limitation , but options exist according to actual requirements. There are no restrictions with regard to the number and the specific construction of the conductor track, but there are options according to the actual requirements. Accordingly, there is no limitation on the number of cylindrical batteries, and parallel coupling is possible between a plurality of cylindrical batteries, or serial coupling is possible between a plurality of cylindrical batteries.

In an exemplary embodiment it is provided that the battery group is a battery module or a battery pack.

The battery module includes multiple batteries, where the batteries may be cylindrical batteries. The battery module may also include a bracket to attach the batteries to the bracket.

The battery pack includes multiple batteries and a battery box. The battery box is used to attach the multiple batteries.

It should be noted that the battery pack includes the battery and there may be multiple batteries. The multiple batteries are provided inside the battery box. In this case, after the formation of a battery module by a plurality of batteries, the assembly can be carried out inside the battery box, or the plurality of batteries can be provided directly inside the battery box, so that it is not necessary to carry out the assembly of a plurality of batteries.

A person skilled in the relevant technical field can easily obtain further embodiments of the present disclosure by considering the description and implementation of the utility model disclosed herein. The present disclosure aims to cover all modifications, applications, and appropriate adaptations of the present utility model, such modifications, applications, or adaptations following the normal principle of the present disclosure, as well as common knowledge of the relevant technical field or common technical means not disclosed in the present disclosure include. The exemplary embodiments presented in the specification are merely exemplary in nature, and the actual scope and spirit of the present disclosure are to be determined by the claims.

It should be understood that the present disclosure is not limited to the specific constructions described and illustrated in the accompanying drawings, but various changes and modifications may be made without departing from the scope of the present disclosure. The scope of the present disclosure is defined solely by the claims.

Claims (11)

Cylindrical battery, characterized in that it comprises: a battery casing (10), said battery casing (10) being a steel casing, the specific resistance of said battery casing (10) being less than 1, a battery cell (20 ), said battery cell (20) being provided within said battery case (10), said battery cell (20) comprising a first terminal lug (21) and a second terminal lug (22) of opposite polarity, said first pole lug (21) is electrically connected to said battery case (10). Cylindrical battery after claim 1 , characterized in that the aforesaid first pole lug (21) is a negative pole lug. Cylindrical battery after claim 1 , characterized in that the specific resistance of the aforementioned battery case (10) is less than or equal to 0.2. Cylindrical battery after claim 3 , characterized in that the aforesaid first pole piece (21) and the aforesaid second pole piece (22) are led out from the two opposite sides of the aforesaid battery cell (20). Cylindrical battery after claim 3 or 4 , characterized in that said cylindrical battery further comprises a first conductive track (40), said first conductive track (40) being electrically connected to said battery case (10), said first terminal lug (21) and said first conductive pattern (40) respectively having contact with both opposite ends of said battery case (10) to be electrically connected with both opposite ends of said battery case (10) respectively. Cylindrical battery after claim 1 , characterized in that the specific resistance of the aforementioned battery case (10) is less than or equal to 0.85. Cylindrical battery after claim 6 , characterized in that said first pole piece (21) and said second pole piece (22) are led out from the same side of said battery cell (20). Cylindrical battery after claim 6 or 7 , characterized in that said cylindrical battery further comprises a first conductive track (40), said first conductive track (40) being electrically connected to said battery case (10), said first terminal lug (21) and said first conductive trace (40) being in contact with the same end of said battery case (10) to be all electrically connected to the same end of said battery case (10). Cylindrical battery after claim 1 , characterized in that said cylindrical battery further comprises a terminal component (30), said terminal component (30) being provided on said battery case (10), said second terminal lug (22) having the aforementioned pole component (30) is electrically connected. Cylindrical battery after claim 9 , characterized in that said cylindrical battery further comprises a first conductive track (40) and a second conductive track (50), said first conductive track (40) being electrically connected to said battery case (10), said second conductive track ( 50) is electrically connected to said terminal component (30), said first conductive trace (40) and said second conductive trace (50) being on the same side of said battery case (10). Cylindrical battery after claim 1 , characterized in that the resistance of the aforementioned battery case (10) is ≤ 10mΩ.

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