DE212020000812U1 - button battery - Google Patents

Abstract

Button battery, characterized in that it comprises:
a housing with a through hole;
a pole terminal penetrating the through hole, the pole terminal and the case being bonded to each other by means of an insulating member, and a filling hole communicating with an inner space of the case being provided in the case or the pole terminal;
a sealing element for closing the filling opening; and
a cell mounted in the interior of the housing, at two ends of the cell a first pole lug and a second pole lug respectively having opposite polarities are provided, the first pole lug being electrically connected to the housing, and the second Pole bracket is electrically connected to the pole terminal.

Description

TECHNICAL AREA

The present invention relates to the technical field of lithium batteries, particularly a button battery.

STATE OF THE ART

A button battery uses a circular-cylindrical battery case. At present, the battery case is divided into two types. The structure of one species consists of an inner casing, an outer casing which is placed upside down outside of the inner casing, and a sealing ring which connects the inner and outer casings together. The structure of this kind occupies a large space in the radial direction, resulting in insufficient utilization of the internal space of the battery case and causing the problem of low energy density of the battery. The structure of the other type consists of a shell and a top lid connected to the shell. The conventional cover is usually connected to a terminal terminal with rivets, and has a large thickness and a complicated structure, resulting in occupying a large space in the axial direction and also resulting in a low energy density of the battery.

CONTENT OF THE INVENTION

The object of the invention is to solve at least one of the problems in the prior art. Therefore, in the invention, there is provided a button battery with a simple structure in which the case itself occupies a small space and provides a large space therein, so that the energy density of the battery is effectively increased to meet the production requirement.

A button battery according to an embodiment of the invention includes: a case having a through hole; a pole terminal penetrating the through hole, the pole terminal and the case being bonded to each other by means of an insulating member, and a filling hole communicating with an inner space of the case being provided in the case or the pole terminal; a sealing element for closing the filling opening; and a cell mounted in the interior space of the housing, at two ends of the cell a first pole lug and a second pole lug having opposite polarities are respectively provided, the first pole lug being electrically connected to the housing, and wherein the second pole lug is electrically connected to the pole terminal.

The foregoing technical solution has at least the following beneficial effects: A single-layer casing is arranged in the radial direction, occupying a small space. In the axial direction, the pole terminal is glued to the housing through a layer of insulating member, so that compared to the prior art, the wall on top of the housing has a reduced thickness and less space is occupied in the axial direction. Therefore, the case itself occupies a small space, and with this technical solution, a larger internal space of the battery structure is available with the same external shape and size, so that the energy density of the battery is effectively increased, thereby meeting the requirement of production. In addition, a filling opening is integrated to fill in an electrolyte.

According to some exemplary embodiments of the invention, it is provided that the pole connection comprises a first section and a second section, the cross-sectional area of the first section being larger than the cross-sectional area of the second section and larger than the cross-sectional area of the through-hole, the first section being connected by means of the insulating element is bonded to an inner wall of the case, and the second portion penetrates the through hole.

According to some exemplary embodiments of the invention, it is provided that a depression for receiving the first section is provided in the inner wall of the housing.

According to some embodiments of the invention, it is provided that the housing comprises a shell and a cover plate which are sealed to one another, the cell being mounted in the shell, and the through-hole being arranged in the cover plate or in the shell.

According to some embodiments of the invention, it is provided that one of the shell and the cover plate is provided with a positioning indentation and the other of them is mounted in the positioning indentation.

According to some embodiments of the invention, it is envisaged that at one end of the sleeve there is an enlargement, the diameter of which corresponds to the diameter of the cover plate, and which serves as the positioning recess.

According to some embodiments of the invention it is provided that on one of the first Polla ash facing side of the cell is provided a first insulating layer.

According to some exemplary embodiments of the invention, it is provided that a second insulating layer is provided on a side of the cell facing the second pole lug.

According to some exemplary embodiments of the invention, it is provided that an end face of the housing in contact with the insulating element is processed by metal passivation or complexing, and that an end face of the pole connection in contact with the insulating element is processed by metal passivation or complexing.

According to some exemplary embodiments of the invention, it is provided that the housing is made of stainless steel.

The additional aspects and advantages of the invention will be set forth in part in the description that follows, and in part will become clearer from the description that follows or will be understood through practice of the invention.

character list

• 1 einen Schnitt einer Knopfbatterie in einem Ausführungsbeispiel der Erfindung;
• 2 einen Schnitt eines Polanschlusses in einem Ausführungsbeispiel der Erfindung;
• 3 einen Schnitt einer Abdeckplatte in einem anderen Ausführungsbeispiel der Erfindung;
• 4 einen Schnitt einer Knopfbatterie in einem anderen Ausführungsbeispiel der Erfindung;
• 5 einen Schnitt einer Hülle in einem anderen Ausführungsbeispiel der Erfindung; und
• 6 einen vergrößerten Schnitt der Verbindung zwischen der Hülle und der Abdeckplatte in einem anderen Ausführungsbeispiel der Erfindung.

The above and/or additional aspects and advantages of the invention will become clearer and easier to understand through the following description of the exemplary embodiments in connection with the figures. Show it:

• 1 a section of a button battery in an embodiment of the invention;
• 2 a section of a pole terminal in an embodiment of the invention;
• 3 a section of a cover plate in another embodiment of the invention;
• 4 a section of a button battery in another embodiment of the invention;
• 5 a section of a sleeve in another embodiment of the invention; and
• 6 an enlarged section of the connection between the shell and the cover plate in another embodiment of the invention.

DETAILED EMBODIMENTS

In this part, the specific embodiments of the present invention are described in more detail. The preferred embodiments are presented in the figures, which serve to graphically supplement the written description, so that each of the technical features or each of the overall technical solutions can be understood directly and clearly. However, it is to be understood that the figures are not construed as limiting the scope of the invention.

It is to be understood that in the explanation of the invention, for the positional description, the direction or positioning denoted by the terms "top", "bottom", "in front", "behind", "left", "right", etc. respectively is used in relation to the direction or positioning shown in the respective figure in order to merely describe the invention and, if necessary, to simplify the description. These terms do not indicate, either implicitly or explicitly, the positioning as well as the design and operation of the device in question or the element in question in a predetermined position, so that they do not represent a limitation of the application here.

In the description of the invention, the term "some" means "one or more" and "more" means two or more affected elements. The terms "greater than", "less than", "above" and the like mean that the limit is not included in the range, while the terms "above", "below", "within" and the like include understand is that the limit is included.

The terms "first", "second", etc. are used only to distinguish individual technical features without indicating or indicating the relative importance, number or order of the technical features concerned.

Unless otherwise specified, the terms "provide", "incorporate", "connect" in the description of the invention should be understood in a broad sense, and a person skilled in the art, in connection with the concrete content of the technical solution, can determine the specific meaning of the terms in appropriate to the invention.

Referring to 1 and 2 In one embodiment of the invention, a button battery is provided comprising a case 100, a terminal 200, a sealing member 300 and a cell 400. The case 100 consists of a case 120 and a cover plate 110. The cover plate 110 is circular. The cover plate 110 is sealed to the shell 120 by welding. In a middle part of the cover plate 110, a first through hole 111 is provided. The pole connection 200 penetrates the first through hole 111. In particular, the pole connection 200 is circular-cylindrical and the pole connection 200 comprises a first section 210 and a second section 220. The cross-sectional area of the first section 210 is larger than the cross-sectional area of the second portion 220, and the cross-sectional area of the first portion 210 is larger than the cross-sectional area of the first through hole 111. So the diameter of the first portion 210 is larger than the diameter of the second portion 220 and the diameter of the first portion 210 is larger than the diameter of the first through hole 111. The first portion 210 is bonded to an inner wall of the cover plate 110 via the insulating member 240. FIG. The second section 220 penetrates through the first through hole 111. An electrical gap exists between an outer wall of the second section 220 and the first through hole 111. It should be understood that an insulating member 240 may also be employed in the electrical gap to provide insulation between the Pole connection 200 and the cover plate 110 to further strengthen. The pole terminal 200 is reversely bonded to the cover plate 110 to prevent the pole terminal 200 from coming off the cover plate 110 to the outside, thereby improving the stability and reliability of the structure. The insulating member 240 is polypropylene, polyethylene, or other hot melt adhesive that is thermally bonded to the pole terminal 200 and the cover plate 110 . On the one hand, the pole terminal 200 is stably connected to the cover plate 110 to achieve good sealing and prevent the leakage of electrolyte, and on the other hand, this results in good insulation between the pole terminal 200 and the cover plate 110 to prevent short circuit. It should be understood that the insulating member 240 is not limited to the above-mentioned materials as long as the material has good adhesion, sealing, and insulation. The cell 400 is mounted in the interior of the case 120 . At two ends of the cell 400 are provided a first pole lug 410 and a second pole lug 420, respectively, having opposite polarities. In particular, the first pole tab 410 has negative polarity and the second pole tab 420 has positive polarity. The first pole tab 410 is welded to a bottom wall of the shell 120 and the second pole tab 420 is welded to the pole terminal 200 such that the first pole tab 410 is electrically connected to the shell 120 and the second pole tab 420 is electrically connected to the pole terminal 200 . Also, the first pole lug 410 and second pole lug 420 are arranged at two ends of the housing 100 to avoid the short circuit therebetween. A filling hole 230 for filling an electrolyte into the cell 400 is provided in a middle part of the terminal terminal 200 . The filling port 230 communicates with the interior of the case 100 . A sealing member 300 is mounted in the fill port 230 . In particular, the sealing member 300 is a steel ball that is an interference fit with the fill port 230 . After filling an electrolyte, the filling hole 230 can be closed by the steel ball to prevent leakage of the electrolyte. Since the filling port 230 is located at a middle position of the top of the battery, the positioning and attachment of the steel ball is promoted and the production efficiency is increased. It is to be understood that the filling hole 230 may also be located on the bottom wall of the cover plate 110 or the case 120 as long as it allows the filling of the electrolyte into the battery.

Compared to the prior art, only a single-layer case 120 is arranged in the radial direction, occupying a small space. In the axial direction, the pole terminal 200 is bonded to the cover plate 110 via a layer of the insulating member 240 . The cover plate 110 has a small overall thickness and occupies a small space in the axial direction. Therefore, the case 100 itself occupies a small space, and with this technical solution, a larger internal space of the battery structure is available with the same external shape and size, so that the energy density of the battery is effectively increased, thereby meeting the production requirement.

Furthermore, an end surface of the housing 110 that is in contact with the insulating element 240 and an end surface of the pole connection 200 that is in contact with the insulating element 240 are processed by metal passivation or complexing to ensure a good seal between the cover plate 110 and the insulating element 240 and between the pole connection 200 and the insulating member 240 and prevent the leakage of the electrolyte.

Furthermore, the shell 120 and the cover plate 110 are preferably made of stainless steel. The stainless steel shell 120 can be formed by stamping to facilitate processing and achieve a thickness of 0.1mm - 0.2mm. In order to ensure the strength of the case 100, the thickness of an aluminum case must reach 0.3 mm. The thickness of a stainless steel cover plate 110 can also be in the range of 0.1 mm - 0.2 mm. As a result, the space occupied by the case 100 itself can be further reduced and the internal space of the case 100 can be increased, thereby effectively increasing the energy density of the battery.

Referring to 1 a positioning recess formed as an extension 123 is further provided at one end of the sheath 120 . Thus, the end of sleeve 120 is flared outward such that the inner diameter of flare 123 is greater than the inner diameter of sleeve 120 is. The extension 123 and the inner wall of the shell 120 are connected by an arcuate surface, and the inner diameter of the extension 123 corresponds to the diameter of the cover plate 110. Thus, when assembling the cover plate 110, the precise positioning and welding of the cover plate 110 are facilitated to secure the ensure quality of welding.

In some other embodiments, reference is made to FIG 6 it is to be understood that a stepped groove 113 is provided on the peripheral edge of the cover plate 110 . The stepped groove 113 is annular. The inner diameter of the stepped groove 113 corresponds to the inner diameter of the sheath 120. The stepped groove 113 can accommodate a rim at the end of the sheath 120. The stepped groove 113 serves as the positioning recess, so that when the cover plate 110 is assembled, the cover plate 110 is also accurately positioned, facilitating the welding and ensuring the quality of the welding.

Referring to 1 a wound or stacked structure for the cell 400 is still used. In this technical solution, a wound structure is used in which a first insulating layer 430 is provided on a side of the cell 400 facing the first pole tab 410 and a second insulating layer 440 is provided on a side of the cell 400 facing the second pole tab 420 . The positive and negative electrode plates of the cell 400 in this technical solution extend from an upper end to a lower end of the cell 400. By providing the first insulating layer 430 and the second insulating layer 440, respectively, the short circuit caused by the contact between the case 120 and the negative electrode plate or between the pole terminal 200 and the positive electrode plate can be avoided and the safety of the battery can be increased. The first insulating layer 430 and the second insulating layer 440 are polypropylene, polyethylene, polyester resin, or other insulating medium that resists corrosion of the electrolyte.

In some other embodiments, reference is made to FIG 3 It should be understood that a first recess 112 is provided on the inner wall of the cover plate 110 for receiving the first portion 210 of the pole terminal 200 such that the end face of the first portion 210 is flush with the inner wall of the cover plate 110 . With this, the space occupied by the cover plate 110 can be further reduced and the internal space of the case 100 can be increased, so that the energy density of the battery can be increased.

In some other embodiments, reference is made to FIG 4 and 5 It is to be understood that this embodiment differs from the above embodiment in that a second through hole 121 is provided in the middle part of the bottom wall of the case 120 and that the pole terminal 200 penetrates the second through hole 121 . Thus, the first portion 210 is bonded to an inside of the bottom wall of the case 120 through the insulating member 240, and the second portion 220 penetrates the second through hole 121. The pole terminal 200 is bonded to the bottom wall of the case 120 upside down. The cover plate 110 is also connected to the top of the case 120 . Thus, the mounting position of the pole terminal 200 to the case 100 is changed. The first pole tab 410 of the cell 400 is welded to the cover plate 110 and the second pole tab 420 is welded to the pole terminal 200 such that the first pole tab 410 is electrically connected to the case 120 and the second pole tab 420 is electrically connected to the pole terminal 200 . With this technical solution, it is also possible that the case 100 itself occupies only a small space and provides a large internal space in the case 100, so that the energy density of the battery is effectively increased and the requirement of production is thus met. It should be understood that a second recess 122 is provided on the inside of the bottom wall of the shell 120 for receiving the first portion 210 of the pole terminal 200 such that the end face of the first portion 210 is flush with the inside of the bottom wall of the shell 120, which in turn, further reduces the space occupied by the bottom wall of the case 120, increases the interior space of the case 100, and increases the energy density of the battery.

The exemplary embodiments according to the invention have been described in more detail above in connection with the figures, but the invention is not intended to be limited thereto. Various changes can also be made within the knowledge of those skilled in the art without departing from the spirit of the invention.

Reference List

100

Housing

110

cover plate

111

first through hole

112

first deepening

113

stepped groove

120

Covering

121

second through hole

122

second deepening

123

expansion

200

pole connection

210

first section

220

second part

230

filling hole

240

insulating element

300

sealing element

400

cell

410

first pollash

420

second polla

430

first insulating layer

440

second insulating layer

Claims (10)

A button battery characterized by comprising: a case having a through hole; a pole terminal penetrating the through hole, the pole terminal and the case being bonded to each other by means of an insulating member, and a filling hole communicating with an inner space of the case being provided in the case or the pole terminal; a sealing element for closing the filling opening; and a cell mounted in the interior space of the housing, at two ends of the cell a first pole lug and a second pole lug having opposite polarities are respectively provided, the first pole lug being electrically connected to the housing, and wherein the second pole lug is electrically connected to the pole terminal. button battery after claim 1 , characterized in that the terminal connection comprises a first section and a second section, the cross-sectional area of the first section being larger than the cross-sectional area of the second section and larger than the cross-sectional area of the through hole, the first section being connected to an inner wall of the housing by means of the insulating element is glued, and wherein the second portion penetrates the through hole. button battery after claim 2 , characterized in that in the inner wall of the housing a recess is provided for receiving the first portion. button battery after claim 1 , characterized in that the housing comprises a shell and a cover plate which are sealed together, the cell being mounted in the shell and the through-hole being located in the cover plate or in the shell. button battery after claim 4 , characterized in that one of the case and the cover plate is provided with a positioning indentation and the other thereof is mounted in the positioning indentation. button battery after claim 5 , characterized in that at one end of the sleeve there is an enlargement, the diameter of which corresponds to the diameter of the cover plate, and which serves as the positioning recess. button battery after claim 1 , characterized in that a first insulating layer is provided on a side of the cell facing the first pole lug. button battery after claim 1 , characterized in that a second insulating layer is provided on a side of the cell facing the second pole lug. button battery after claim 1 characterized in that an end face of the housing in contact with the insulating member is processed by metal passivation or complexing, and an end face of the pole terminal in contact with the insulating member is processed by metal passivation or complexing. button battery after claim 1 , characterized in that the housing is made of stainless steel.

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