CN213936362U - Button cell - Google Patents

Abstract

The utility model provides a button cell, include: the shell and the setting are in electricity core subassembly in the shell, the upper and lower both ends face of electricity core subassembly all has the terminal surface diaphragm layer be provided with the colloid on the terminal surface diaphragm layer, the colloid with at least one terminal surface contact in the upper and lower two terminal surfaces of shell, the colloid is used for making electricity core subassembly upper and lower both ends with fix and separate between the internal face of shell. The utility model provides a pair of button cell for solve button cell and take place the phenomenon that positive plate and negative pole piece drunkenness shifted when falling easily at least, lead to positive plate and negative pole piece touching casing or cap to cause the technical problem of short circuit, in addition, need not debug equipment again when the battery model of transform production, the speed of product transform production model is accelerated.

Description

Button cell

Technical Field

The utility model relates to a battery technology field especially relates to a button cell.

Background

Along with the development of science and technology and the progress of society, people's life is more and more intelligent and convenient. The appearance of various electronic equipment has reduced people's work, has enriched people's life, and the market is promoted day by day to wearable equipment, such as electronic products such as wireless earphone, motion wrist-watch, help ware, bracelet, ring, wherein, electronic equipment's battery is one of the indispensable configuration of electronic equipment continuation of the journey.

Button cells are all metal shell sealed cells, secondary button lithium ion batteries on the market are widely used in various electronic small products at present, and the miniaturized products have higher requirements on battery products. The process of insulating the end face of the winding core is a very important process link for manufacturing the button battery, the electric core of the button battery is mostly manufactured in a winding mode, and the end face of the winding core of the battery is stuck with adhesive paper to prevent a positive plate and a negative plate from touching the shell of the battery to cause short circuit.

However, current button cell falls the security performance relatively poor, takes place positive plate and negative pole piece drunkenness shift easily when button cell falls, has positive plate and negative pole piece touching casing or cap and has caused the problem of short circuit, influences electric core quality, in addition, adopts the technology of rubberized paper among the prior art, need correspond transform rubberized paper and debugging equipment again when the battery model of transform production, leads to the speed of product transform production model slow, consequently the urgent need improve.

SUMMERY OF THE UTILITY MODEL

The utility model provides a button cell for solve button cell and take place the phenomenon that positive plate and negative pole piece drunkenness shifted when falling easily at least, lead to positive plate and negative pole piece to touch casing or cap and cause the technical problem of short circuit.

In order to achieve the above object, the utility model provides a button cell, include: the shell and the setting are in electric core subassembly in the shell, the upper and lower both ends face of electric core subassembly all has the terminal surface diaphragm layer be provided with the colloid on the terminal surface diaphragm layer, the colloid with at least one terminal surface contact in the upper and lower two terminal surfaces of shell.

The utility model provides a button cell all sets up the terminal surface diaphragm layer through the upper and lower both ends face at the electric core subassembly, and set up the colloid on the terminal surface diaphragm layer, because terminal surface diaphragm layer and colloid have the height to separate the electric core subassembly with the internal face of shell, make both keep safe distance, and because the colloid has viscidity, make the upper and lower both ends face of electric core subassembly and the stable bonding of internal face of shell live, the colloid has elasticity after drying, play buffering absorbing effect, improve button cell and fall the security performance.

In one possible embodiment, the glue contacts the upper and lower end surfaces of the housing.

In a possible implementation manner, the cell assembly includes a cell main body which is wound, the cell main body is formed by winding at least one negative electrode sheet, at least one positive electrode sheet, and a membrane layer which completely separates each negative electrode sheet from each positive electrode sheet after being stacked, and the end membrane layer is a membrane layer which wraps two ends of the cell main body after two ends of the membrane are shrunk by heat and pressure.

In one possible embodiment, the colloid is disposed on the end membrane layer in a net shape, a dot shape, a linear shape, a spiral shape, or a block shape.

In one possible embodiment, the distribution area of the colloid on the end membrane layer is 20% to 100%.

In one possible embodiment, the coating thickness of the colloid on the end face membrane layer is 0.03mm to 0.5 mm.

In one possible embodiment, the housing includes a housing body and a housing cover assembly disposed on the housing body, the housing cover assembly including:

the lower shell cover is arranged on the shell body;

the upper shell cover is arranged on the lower shell cover, and the central part of the upper shell cover extends downwards to an opening cavity in the center of the lower shell cover;

the PP layer is arranged between the lower shell cover and the upper shell cover.

In one possible embodiment, the housing cover assembly further comprises: the seal nail, it sets up to seal the nail go up the central point of cap, just the colloid with seal the nail and be in electric core main part direction of height projection does not overlap and/or the colloid with seal the nail and be in there is the clearance in the projection of electric core main part on the vertical tangent plane.

In a possible implementation manner, the electrode assembly further includes a positive electrode tab and a negative electrode tab, the positive electrode tab and/or the negative electrode tab is electrically connected with the bottom of the casing, and the positive electrode tab and the negative electrode tab are far away from one surface of the casing and the end surface membrane layer and/or the colloid is in contact.

In one possible embodiment, the gel is in contact with the lower housing cover.

The utility model provides a button cell can realize quick production, and full-automatic point gum machine can be applicable to the button cell coating colloid of multiple model, no longer uses the adhesive tape among the prior art, consequently no longer need correspond change adhesive tape and debugging equipment when the battery model of transform production for the speed of production model is changed to the product accelerates, improves the speed of transform production model, is favorable to improving the benefit of enterprise.

The utility model provides a button cell for whole button cell's structural stability increases substantially, and the colloid has certain elasticity, even when button cell falls appears, also can avoid positive plate and negative pole piece to deviate from to contact the phenomenon that the shell caused the short circuit completely, improves button cell's quality.

In addition to the technical problems solved by the embodiments of the present invention, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions, further detailed descriptions will be made in specific embodiments for other technical problems that can be solved by a button battery provided by the embodiments of the present invention, other technical features included in the technical solutions, and advantages brought by the technical features.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a front view of a button cell provided in an embodiment of the present invention;

fig. 2 is a sectional view of a section a-a of the button cell shown in fig. 1 according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an electric core assembly of a button battery according to an embodiment of the present invention;

fig. 4 is a schematic view of a colloid plane-shaped coating structure of a button battery according to an embodiment of the present invention;

fig. 5 is a top view of the button cell provided in the embodiment of the present invention in fig. 4;

fig. 6 is a schematic view of a colloid spiral coating structure of a button battery according to an embodiment of the present invention;

fig. 7 is a schematic top view of the button cell shown in fig. 6 according to an embodiment of the present invention;

fig. 8 is a schematic view of another coating structure of a colloid for a button battery according to an embodiment of the present invention;

fig. 9 is a schematic top view of the button cell shown in fig. 8 according to an embodiment of the present invention;

fig. 10 is a partial cross-sectional view of a button cell according to an embodiment of the present invention before two ends of a separator are shrunk by hot pressing to form an end-face separator layer;

fig. 11 is a partial cross-sectional view of a button cell provided by the present invention after the end face membrane layer is formed by thermal compression shrinkage at two ends of the membrane.

Description of reference numerals:

10-a housing;

11-a housing;

12-a housing cover assembly;

121-lower shell cover;

1211-open cavity;

122-upper shell cover;

123-PP layer;

13-sealing nails;

20-an electrical core assembly;

21-a cell body;

211-negative pole piece;

212-positive plate;

213-a membrane;

22-end face membrane layer;

24-positive electrode protective glue;

25-negative electrode protection glue;

26-positive pole tab;

27-negative pole tab;

28-hollow cavity;

30-shell cover insulating glue;

40-colloid.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the drawings of the present invention are combined to clearly and completely describe the technical solutions of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The button cell is also called button cell, and is a flat structure, and the external dimension of the button cell is like a small button, generally speaking, the diameter is larger, and the thickness is thinner. Button cells have the advantages of stable discharge voltage, wide working temperature range, long storage life and the like, and are widely used in various electronic products.

Button cell's kind model is many, among the current button cell, its shell is stainless steel material, install electric core in the shell, electric core generally is by the negative pole piece, positive plate and diaphragm are constituteed, button cell's electric core adopts the coiling mode to make more, the terminal surface that the core was rolled up to the battery coiling type uses the rubberizing paper to avoid the shell of positive plate and negative pole piece touching battery to cause the short circuit, but under the more severe condition of vibrations, for example button cell falls etc., can cause the phenomenon that aversion appears easily in negative pole piece and the drunkenness of positive plate, lead to negative pole piece and positive plate to contact the phenomenon that the shell arouses the short circuit, influence button cell's life and safety in utilization. In addition, in the prior art, the process of using the gummed paper on the end face of the battery winding type winding core is very inconvenient, especially when the type of the produced button battery is changed, the gummed paper needs to be correspondingly changed, and the debugging of production equipment is time-consuming and labor-consuming, so that the production speed is influenced.

In view of the above background, the present invention provides a button cell, which is described with reference to fig. 1 to 11.

The utility model provides a pair of button cell, refer to fig. 1 and fig. 2 and show, include: shell 10 and the electric core subassembly 20 of setting in shell 10, the upper and lower both ends face of electric core subassembly 20 all has terminal surface diaphragm layer 22, be provided with colloid 40 on terminal surface diaphragm layer 22, at least one end face contact in colloid 40 and the upper and lower two terminal surfaces of shell 10, colloid 40 is used for fixing and separating between the terminal surface that makes upper and lower both ends of electric core subassembly 20 and shell 10, thereby make and keep safe distance between the upper and lower both ends of electric core subassembly 20 and the terminal surface of shell 10 all the time, can not contact. The glue 40 completely binds the end diaphragm layer 22, so that the structure of the cell assembly 20 is fixed, and the phenomenon of short circuit when the battery falls is avoided.

As another embodiment of the present embodiment, the gel 40 contacts both upper and lower end surfaces of the housing 10, specifically, the gel 40 contacts both upper and lower inner end surfaces of the housing 10.

Referring to fig. 2 and 3, the battery cell assembly 20 includes a cell main body 21 disposed by winding, and the cell main body 21 is formed by winding at least one negative electrode tab 211, at least one positive electrode tab 212, and a separator 213 disposed on an upper side and a lower side of the at least one negative electrode tab 211 and/or an upper side and a lower side of the at least one negative electrode tab 211 such that each negative electrode tab 211 is completely separated from each positive electrode tab 212.

Specifically, the battery cell main body 21 may be formed by stacking one negative electrode sheet 211, one separator 213, one positive electrode sheet 212, and another separator 213 from top to bottom or from bottom to top in sequence, and then winding the stacked negative electrode sheets, the separators 213, the positive electrode sheets 212, and the another separator 213; the cell main body 21 may be formed by winding a laminate of one positive electrode sheet 212, the separator 213, one negative electrode sheet 211, and the other separator 213, which are laminated in this order from the top down or from the bottom up.

It is easily understood that the cell main body 21 may be formed by alternately laminating two negative electrode sheets 211 and two positive electrode sheets 212 in sequence, and winding the laminated structure to form the cell main body 21 after arranging separators 213 completely separating each negative electrode sheet 211 from each positive electrode sheet 212 on the upper side and the lower side of each negative electrode sheet 211 and/or each positive electrode sheet 212. Of course, even after the cell main body 21 is wound, the negative electrode sheet 211 is ensured not to contact the positive electrode sheet 212, and short circuit is prevented.

The cell main body 21 may be formed by alternately laminating a plurality of negative electrode sheets 211 and a plurality of positive electrode sheets 212 in this order, and winding the laminated structure into the cell main body 21 after providing separators 213 for completely separating each negative electrode sheet 211 from each positive electrode sheet 212 on the upper side and the lower side of each negative electrode sheet 211 and/or each positive electrode sheet 212. Of course, even after the cell main body 21 is wound, the negative electrode sheet 211 is ensured not to contact the positive electrode sheet 212, and short circuit is prevented.

In the cell main body 21, the center of the cell main body 21 is a hollow cavity 28, and the negative electrode sheet 211, the positive electrode sheet 212, and the separator 213 are wound in the longitudinal direction.

The separator 213 may be any separator 213 as long as it can ensure that each negative electrode tab 211 is completely separated from each positive electrode tab 212 without contact, and the separator 213 is not limited to be disposed between each negative electrode tab 211 and each positive electrode tab 212, and may be sleeved on each negative electrode tab 211 or sleeved on each positive electrode tab 212 so that each negative electrode tab 211 is completely separated from each positive electrode tab 212.

In order to ensure that the separator 213 completely separates each negative electrode tab 211 from each positive electrode tab 212, the width of the separator 213 is greater than the width of the negative electrode tab 211, and the width of the separator 213 is greater than the width of the positive electrode tab 212, so that the separator 213 protruding out of the cell main body 21 remains on both sides of the wound cell main body 21, and is easily hot-pressed to form the end-face separator layer 22.

Referring to fig. 10, the width B of the positive electrode sheet 212 is 2mm to 8mm, and the width C of the negative electrode sheet 211 is 2.5mm to 8.5 mm.

The end face diaphragm layer 22 is a film layer that wraps the two ends of the diaphragm 213 at the two ends of the cell main body 21 after being shrunk by hot pressing, specifically, the diaphragm 213 left at the two sides of the cell main body 21 after being wound is hot pressed to be flattened and shrunk, so that the end face diaphragm layer 22 that wraps the two ends of the cell main body 21 is formed.

Referring to fig. 10, before the both ends of the diaphragm 213 are shrunk by heat pressing to form the end face diaphragm layer 22, the width a of the diaphragm 213 is 4mm to 10 mm; referring to fig. 11, after both ends of the separator 213 are shrunk by heat pressing to form the end-face separator layer 22, the width a2 of the separator 213 is 3mm to 9 mm.

The gel 40 is disposed on the end membrane layer 22 in a mesh, dot, line, spiral, or block shape.

Referring to fig. 4 and 5, the colloid 40 is disposed on the end surface separator layer 22 in a block shape, and the colloid 40 is coated on the end surface separator layer 22 in a planar shape and covers the end surface separator layer 22, so that the colloid 40 completely covers the end surface separator layer 22, and has good adhesion and blocking effects, so that the cell main body 21 is fixed and is not easy to shift, even if the negative electrode plate 211 and the positive electrode plate 212 shift out of the end surface separator layer 22, the colloid 40 blocks, and it is ensured that the negative electrode plate 211 and the positive electrode plate 212 do not contact with the inner wall of the housing 10, and short circuit is prevented.

As another embodiment of this embodiment, referring to fig. 6 and 7, the colloid 40 is spirally coated on the end-face separator layer 22 and completely binds the end-face separator layer 22, and the spiral coating of the glue can also ensure that a safe distance is kept between the two ends of each of the negative electrode sheet 211 and the positive electrode sheet 212 and the inner wall of the casing 10 and the cell main body 21 is well fixed;

as still another embodiment of this example, referring to fig. 8 and 9, the colloid 40 is coated on the facing membrane layer 22 in a net shape and completely binds the facing membrane layer 22.

The distribution area of the colloid 40 on the end face diaphragm layer 22 accounts for 50-100%.

Preferably, the colloid 40 is distributed over the facing membrane layer 22 in an area percentage of 100%.

The coating thickness of the colloid 40 on the end diaphragm layer 22 is 0.03 mm-0.5 mm.

The colloid 40 is not limited to glue, the glue can be compatible with the sizes of the cell main bodies 21 of different specifications, and in addition, the glue has higher flexibility and certain elasticity, so that the falling safety performance of the button cell is improved.

Specifically, the gel 40 is divided into a positive protective gel 24 coated on the positive terminal of the cell assembly 20 and a negative protective gel 25 coated on the negative terminal of the cell assembly 20.

It is easily understood that the number of the negative electrode tabs 211 is the same as the number of the positive electrode tabs 212.

The housing 10 includes a housing 11 and a housing cover assembly 12 disposed on the housing 11, the housing 11 has a cavity therein for accommodating the electric core assembly 20, and the housing cover assembly 12 is used for sealing the electric core assembly 20 in the housing 11.

Referring to FIG. 2, the cover assembly 12 includes: lower casing lid 121, upper casing lid 122, PP layer 123, lower casing lid 121 sets up on casing 11, and upper casing lid 122 sets up on lower casing lid 121, and the central part position of upper casing lid 122 extends downwards to the opening chamber 1211 at lower casing lid 121 center in, and the equipment cap subassembly 12 of being convenient for improves the stability during battery assembly.

The PP layer 123 is disposed between the lower case cover 121 and the upper case cover 122, so that the case cover assembly 12 has excellent sealability.

The cover assembly 12 further includes: the seal nail 13, the seal nail 13 is disposed at the central portion of the upper case cover 122, and the projections of the colloid 40 and the seal nail 13 in the height direction of the cell main body 21 are not overlapped, and/or there is a gap between the projections of the colloid 40 and the seal nail 13 on the longitudinal section of the cell main body 21.

Seal the nail 13 and set up the central point at upper shell cover 122, seal nail 13 and be used for injecting electrolyte into casing 11, refer to fig. 2 and show, colloid 40 and the projection of sealing nail 13 on electric core main part 21 direction of height do not overlap, and/or colloid 40 and the projection of sealing nail 13 on electric core main part 21 vertical tangent plane have the clearance to ensure that the lower extreme of sealing nail 13 can not contact colloid 40, ensure to inject electrolyte into casing 11 smoothly.

The core assembly 20 includes a core body 21, a positive tab 26 and a negative tab 27, and the positive tab 212 is not limited to the positive tab 26 connected by welding, and the negative tab 211 is not limited to the negative tab 27 connected by welding.

The positive electrode tab 26 and/or the negative electrode tab 27 is electrically connected with the bottom of the shell 11, and one surface of the positive electrode tab 26 and the negative electrode tab 27 far away from the shell 11 is in contact with the end surface diaphragm layer 22 and/or the colloid 40.

The button cell further comprises a shell cover insulating glue 30, wherein the shell cover insulating glue 30 is arranged on the inner wall surface of the lower shell cover 121, and short circuit caused by poor insulation can be prevented.

The colloid 40 contacts with the lower casing cover 121, so that the battery cell main body 21 is stably fixed, and the utilization rate of the battery is improved. The gel 40 is in contact with the upper housing 122 or the gel 40 is not in contact with the upper housing 122.

When the battery is used, the electric energy generated by the battery cell main body 21 supplies power to the electric product through the shell 10, so that the electric energy is supplied.

The utility model provides a button cell no longer uses the technology of rubberizing paper at the terminal surface of electric core main part 21, but adopts full-automatic point gum machine coating colloid 40, consequently, when the button cell's of change production kind model, no longer need correspond and change the rubberizing paper, also need not debug production facility, labour saving and time saving improves the production speed of enterprise.

The utility model provides a button cell for whole button cell's structural stability increases substantially, because terminal surface diaphragm layer 22 is heated to scald and cover the upper and lower both ends at electric core subassembly 20 after the shrink, and coating colloid 40 wraps up terminal surface diaphragm layer 22 on terminal surface diaphragm layer 22, because colloid 40 has the upper and lower both ends that highly make electric core subassembly 20 of coating to separate the distance that keeps safety completely with shell 10, in addition colloid 40's adhesive action, make electric core subassembly 20 and shell 10 by stable fixing.

When the button cell falls, through the comprehensive constraint terminal surface diaphragm layer 22 of colloid 40, make negative pole piece 211 and the difficult drunkenness of producing of positive plate 212 shift, even negative pole piece 211 and positive plate 212 flee out, even flee out terminal surface diaphragm layer 22, colloid 40 carries out the separation in addition, also can avoid positive plate and negative pole piece to contact the phenomenon that the shell caused the short circuit completely, improves button cell's security performance.

The utility model also provides a button cell manufacturing approach for make foretell button cell, including following step:

s110, providing a shell 10, wherein the shell 10 comprises a shell body 11 and a shell cover assembly 12 matched with the shell body 11;

s120, providing the cell component 20, and respectively hot-pressing and ironing the diaphragms 213 extending from the upper and lower end surfaces of the wound cell main body 21 to enable the diaphragms 213 to contract and cover the upper surface and the lower surface of the cell main body 21 to form end surface diaphragm layers 22;

the cell assembly 20 comprises a cell main body 21, a positive tab 26 and a negative tab 27, wherein the cell main body 21 is formed by laminating and winding at least one negative plate 211, at least one positive plate 212 and a separator 213 which is positioned on the upper side and the lower side of the at least one negative plate 211 and/or the upper side and the lower side of the at least one negative plate 211 so as to completely separate each negative plate 211 from each positive plate 212.

Since the width of the separator 213 is greater than that of the negative electrode sheet 211, and the width of the separator 213 is greater than that of the positive electrode sheet 212, the separator 213 extending out of the cell main body 21 remains on both sides of the wound cell main body 21, and the separator 213 is hot pressed and ironed to shrink and cover the upper surface and the lower surface of the cell main body 21 to form the end surface separator layer 22.

S130, coating the colloid 40 on the end-face membrane layer 22 on the upper surface and the lower surface of the electric core main body 21, respectively, where the colloid 40 may be wrapped on the end-face membrane layer 22 in a mesh, spiral, or planar manner;

the equipment used by the glue coating body 40 can be a full-automatic glue dispenser which can be suitable for coating glue for button batteries of various models, and the equipment does not need to be debugged when the models of the produced button batteries are replaced, so that the machine debugging time is reduced, and the speed of changing production models in the production process is improved.

Because the upper and lower both ends of covering at electric core subassembly 20 after terminal surface diaphragm layer 22 is heated ironing shrink to coating colloid 40 wraps up terminal surface diaphragm layer 22 on terminal surface diaphragm layer 22, because colloid 40 has the height that the coating made the upper and lower both ends of electric core subassembly 20 and shell 10 keep safe distance apart completely, in addition colloid 40's adhesive action, make electric core subassembly 20 and shell 10 by stable fixed, improve button cell's stability and safety in utilization performance.

S140, drying the colloid 40;

s150, welding the positive electrode tab 26 and the negative electrode tab 27, welding the positive electrode tab 26 on the positive electrode sheet 212, and welding the negative electrode tab 27 on the negative electrode sheet 211;

and S160, installing the electric core assembly 20 in the shell 11, injecting electrolyte, and installing the shell cover assembly 12 for sealing and forming.

Specifically, the housing 11 has a cavity therein for accommodating the electric core assembly 20, and the housing cover assembly 12 is used for sealing the electric core assembly 20 in the housing 11.

One of the positive electrode tab 26 and the negative electrode tab 27 is connected to the case 11 in a manner not limited to resistance welding; the other of the positive electrode tab 26 and the negative electrode tab 27 is connected to the case cover assembly 12 in a manner not limited to resistance welding.

The utility model provides a pair of button cell manufacturing approach, adopt and scribble colloid 40 on the terminal surface diaphragm layer 22 of electric core main part 21 upper surface and lower surface respectively, colloid 40 can be netted, punctiform, threadiness, heliciform, cubic, or plane coating and parcel on terminal surface diaphragm layer 22 for whole button cell's structural stability improves by a wide margin, the utility model provides a button cell manufacturing approach can realize quick production, and full-automatic point gum machine can be applicable to the button cell coating colloid of multiple model, and when the battery model of transform production, the model that no longer needs to correspond to change the adhesive tape among the current production method and the step of debugging production facility, makes product production convenient, and the speed of changing the production model accelerates, improves the speed of transform production model, is favorable to improving the benefit of enterprise.

In the description of the present invention, it is to be understood that the terms "center", "length", "width", "thickness", "top", "bottom", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", "axial", "circumferential", and the like, which are used to indicate the orientation or positional relationship, are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, and do not indicate or imply that the position or element referred to must have a particular orientation, be of particular construction and operation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; either directly or indirectly through intervening media, such as through internal communication or through an interaction between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A button cell, comprising: shell (10) and setting are in electricity core subassembly (20) in shell (10), the upper and lower both ends face of electricity core subassembly (20) all has terminal surface diaphragm layer (22) be provided with colloid (40) on terminal surface diaphragm layer (22), colloid (40) with at least one end face contact in the upper and lower two terminal surfaces of shell (10).

2. Button cell according to claim 1, characterised in that the glue (40) contacts the upper and lower end faces of the housing (10).

3. The button battery according to claim 2, wherein the core assembly (20) comprises a core body (21) which is wound, the core body (21) is formed by winding at least one negative electrode sheet (211), at least one positive electrode sheet (212) and a diaphragm (213) which completely separates each negative electrode sheet (211) from each positive electrode sheet (212) after lamination, and the end diaphragm layer (22) is a film layer which wraps two ends of the diaphragm (213) after thermal compression shrinkage.

4. Button cell according to any of claims 1 to 3, wherein the gel (40) is arranged in the form of a mesh, dots, lines, spirals or blocks on the end face separator layer (22).

5. The button cell according to claim 1, wherein the distribution area of the colloid (40) on the end face separator layer (22) is 20-100%.

6. The button cell according to claim 1, wherein the coating thickness of the colloid (40) on the end face separator layer (22) is 0.03mm to 0.5 mm.

7. Button cell battery according to claim 3, characterized in that the housing (10) comprises a housing body (11) and a housing cover assembly (12) arranged on the housing body (11), the housing cover assembly (12) comprising:

a lower housing cover (121), the lower housing cover (121) being disposed on the housing (11);

the upper shell cover (122) is arranged on the lower shell cover (121), and the central part of the upper shell cover (122) extends downwards into an opening cavity (1211) in the center of the lower shell cover (121);

a PP layer (123), the PP layer (123) being disposed between the lower housing cover (121) and the upper housing cover (122).

8. Button cell battery according to claim 7, characterized in that said cover assembly (12) further comprises: seal nail (13), it sets up to seal nail (13) go up the central part of cap (122), just colloid (40) with it is in to seal nail (13) the projection in electric core main part (21) direction of height does not overlap and/or colloid (40) with it is in to seal nail (13) there is the clearance electric core main part (21) projection on the vertical tangent plane.

9. Button cell according to any one of claims 7 to 8, wherein the cell assembly (20) further comprises a positive electrode tab (26) and a negative electrode tab (27), the positive electrode tab (26) or the negative electrode tab (27) is electrically connected with the bottom of the shell (11), and the surfaces of the positive electrode tab (26) and the negative electrode tab (27) far away from the shell (11) are in contact with the end surface membrane layer (22) or the colloid (40).

10. Button cell according to claim 8, wherein the gel (40) is in contact with the lower housing cover (121).

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