CN114122325A - Sectional type interval coating pole piece and naked electric core - Google Patents

Abstract

The invention relates to the technical field of batteries and discloses a sectional type interval coating pole piece and a naked electric core. The sectional type interval coating pole piece comprises a current collector, the front side and the back side of the current collector are provided with a material area and an empty foil area, the material area is arranged at intervals along the length direction of the current collector, and the empty foil area is arranged around each material area. The interval length of two adjacent material areas increases progressively according to an arithmetic progression. The material area and the empty foil area are separated from each other, so that the material falling when the pole piece is folded is prevented. The invention also provides a naked electric core, which comprises a sectional type interval coating pole piece and a diaphragm, wherein the positive pole piece, the negative pole piece and the diaphragm are laminated and then continuously wound along the same direction to form a naked electric core main body; naked electric core main part is the rectangle of personally submitting transversal, and the naked electric core of rectangle has overcome the defect of naked electric core circular arc end among the prior art, guarantees that the CB value of naked electric core does not deviate the design value, and the current density of mass flow body both sides is unanimous, prevents that voltage polarization from causing the voltage unstability.

Description

Sectional type interval coating pole piece and naked electric core

Technical Field

The invention relates to the technical field of batteries, in particular to a sectional type interval coating pole piece and a naked electric core.

Background

The lithium ion battery is a widely used rechargeable battery, and mainly comprises: positive and negative pole pieces, electrolyte, diaphragm and structural member.

In the prior art, the pole pieces in the lithium ion battery are usually produced by continuously coating the positive and negative electrode dressings on the corresponding substrates and then cutting the substrates into pole pieces of the required size. And then, manufacturing the positive pole piece, the negative pole piece and the diaphragm into a naked electric core through a winding or stacking process, and assembling the naked electric core and the structural member into the electric core of the lithium ion battery. During charging, electrons enter an external circuit from the positive electrode material area through the positive electrode current collector, meanwhile, the electrons in the external circuit flow into the negative electrode through the negative electrode current collector, and lithium ions enter electrolyte from the positive electrode material area and pass through the diaphragm to reach the negative electrode. The discharge process is the reverse of the charge process in terms of electron and lithium ion movement paths.

The two side edges of the naked electric core manufactured by the winding process can form a semicircular arc. Along with the increase of the number of winding layers (the number of electric core layers), the radius of the circular arc of naked electric core both sides also can increase. This structure suffers from several drawbacks: 1. the curvature of the winding inner side is large, material falling can be caused in the folding process of the pole piece, and potential safety hazards exist. 2. The difference in the state of the outer and inner dressings in the arc formed by the side pole piece causes the CB value (excess ratio of negative electrode capacity to positive electrode capacity per unit area) at this position to deviate from the design value, and the position is easily damaged. 3. The side arc is easy to deform and distort in the charging and discharging process to cause the performance of the battery cell to be reduced, and even has potential safety hazards. 4. The current densities of the two sides of the current collector are different in the discharging process, the voltage polarization is large, and the discharging voltage is unstable. 5. The structure of using always is regular cuboid, and the circular arc of naked electric core both sides can cause the structure inner space extravagant, and volume energy is lower.

Disclosure of Invention

Based on the above, the present invention provides a segmented gap-coated pole piece and a bare cell, so as to overcome the above-mentioned defects.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a sectional type interval coating pole piece falls into negative pole piece and positive pole piece two kinds, includes:

the material areas are arranged on the front side and the back side of the current collector and are arranged at intervals along the length direction of the current collector, and the material areas are formed by coating dressing and are rectangular;

the empty foil area is arranged around each material area;

the sizes and the directions of the material areas are completely the same, and the interval length between the nth material area and the (n-1) th material areaa_n＝a₁B, where n is an integer greater than or equal to 2 and b is a tolerance.

As an alternative of the sectional type interval coating pole piece, when the sectional type interval coating pole piece is made into the negative pole piece, the first item of the interval length in the negative pole piece is a'₁，0<a′₁≤5mm；

When the positive pole piece is made by coating the pole pieces at intervals in a sectional manner, the first item of the interval length in the positive pole piece is a ″₁，a″₁＝a″₁+l₁*c+l₂*d+l ₃2, wherein l₁Is the cold pressing thickness of the negative pole piece l₂Is the cold-pressed thickness of the positive pole piece l₃Is the membrane thickness; c is the expansion coefficient of the negative electrode, and c is more than or equal to 1.05 and less than or equal to 2; d is the expansion coefficient of the anode, and d is more than or equal to 1.02 and less than or equal to 1.8.

As an alternative to the segmented gap-coating of the pole pieces, the gap length has a tolerance of b, b ═ l₁*c+l₂*d+l ₃2, wherein l₁Is the cold pressing thickness of the negative pole piece l₂Is the cold-pressed thickness of the positive pole piece l₃Is the membrane thickness; c is the expansion coefficient of the negative electrode, and c is more than or equal to 1.05 and less than or equal to 2; d is the expansion coefficient of the anode, and d is more than or equal to 1.02 and less than or equal to 1.8.

As an alternative of the sectional type interval coating pole piece, the outer sides of the first edge, the second edge and the third edge of each material area are all hollow foil areas, the first edge and the second edge are perpendicular to the length direction of the current collector, and the third edge is parallel to the length direction of the current collector.

As an alternative to the segmented space-coating of the pole pieces, the material area of the negative pole piece is configured to be able to completely cover the material area of the positive pole piece.

As an alternative of the sectional type interval coating pole piece, two material areas positioned at symmetrical positions of the front surface and the back surface of a current collector form a material area group, and each material area group is provided with 1 pole lug.

A naked electric core comprises the sectional type interval coating pole piece and the diaphragm, wherein the sectional type interval coating pole piece comprises a positive pole piece and a negative pole piece; the positive pole piece, the negative pole piece and the diaphragm are stacked in layers and then continuously wound in the same direction to form a naked electric core main body; naked electric core main part cross section is the rectangle, including the empty paper tinsel portion that is located relative both ends and the material district portion at another relative both ends of group, and the material district is located the material district portion of naked electric core main part.

As an alternative of a naked battery cell, the positive pole piece is provided with a positive pole lug, the negative pole piece is provided with a negative pole lug, and the positive pole lug and the negative pole lug are not overlapped.

As an alternative of a naked battery cell, after winding, the dislocation range of the positive pole lug or the negative pole lug is +/-10 mm.

The invention has the beneficial effects that:

the invention provides a sectional type interval coating pole piece which comprises material areas, wherein the material areas are arranged on the front surface and the back surface of a current collector and are arranged at intervals along the length direction of the current collector, and the material areas are formed by coating dressing and are formed into rectangles. The empty foil area is arranged around each material area; the sizes and the directions of the material areas are completely the same, and the interval length a between the nth material area and the (n-1) th material area_n＝a₁B, where n is an integer greater than or equal to 2 and b is a tolerance. So set up the material district and the empty foil district alternate segregation that make sectional type interval coating pole piece, prevent that the folding in-process of pole piece from falling the material. Compared with the traditional continuous coating pole piece, the transmission path of electrons is optimized, electrons in the sectional type interval coating pole piece are transmitted to the lug through the interval empty foil area, the internal resistance of the battery cell is reduced, and the high-rate charge-discharge performance of the battery cell is optimized.

The invention also provides a naked electric core, which comprises a sectional type interval coating pole piece and a diaphragm, wherein the sectional type interval coating pole piece comprises a positive pole piece and a negative pole piece; the positive pole piece, the negative pole piece and the diaphragm are stacked in layers and then continuously wound in the same direction to form a naked electric core main body; naked electric core main part cross section is the rectangle, including the empty paper tinsel portion that is located relative both ends and the material district portion at another relative both ends of group, and the material district is located the material district portion of naked electric core main part. The naked electric core of rectangle has overcome the defect of naked electric core circular arc end among the prior art, guarantees that the CB value of naked electric core does not deviate from the design value, and the in-process of discharging, and the current density of mass flow body both sides is unanimous, prevents that voltage polarization from causing the voltage unstability.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the contents of the embodiments of the present invention and the drawings without creative efforts.

FIG. 1 is a schematic view of a segmented space coated pole piece provided by an embodiment of the present invention;

fig. 2 is a cross-sectional view of a bare cell provided by an embodiment of the invention;

fig. 3 is a schematic diagram illustrating that tabs are disposed on the same side of a bare cell according to a specific embodiment of the present invention;

fig. 4 is a schematic diagram of arranging tabs on different sides of a bare cell according to a specific embodiment of the present invention.

In the figure:

1. a current collector; 11. a material area; 111. a first side; 112. a second edge; 113. a third side; 12. a region of empty foil; 13. a tab;

2. a diaphragm;

110. a negative pole piece; 120. and (3) a positive pole piece.

Detailed Description

In order to make the technical problems solved, technical solutions adopted and technical effects achieved by the present invention clearer, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the present embodiment provides a segmented space-coated pole piece that can be generally made into a negative pole piece 110 or a positive pole piece 120. The segmented interval coating pole piece comprises a dressing and a current collector 1, wherein the dressing is coated on the current collector 1 to form a material area 11. The material area 11 of the negative electrode sheet 110 is configured to completely cover the material area 11 of the positive electrode sheet 120, so as to ensure effective transmission of current. In this embodiment, the material region 11 is rectangular. The areas of the surface of the current collector 1 that are not coated with the dressing form empty foil regions 12.

The front and the back of the current collector 1 are coated with a plurality of material areas 11 at intervals along the length direction of the current collector 1, and the material areas 11 on the front of the current collector 1 and the material areas 11 on the back of the current collector 1 are symmetrically distributed around the current collector 1. The sizes and the directions of the material areas are completely the same, and the interval length a between the nth material area and the (n-1) th material area_n＝a₁B, where n is an integer greater than or equal to 2 and b is a tolerance. So set up the material district and the empty foil district alternate segregation that make sectional type interval coating pole piece, prevent that the folding in-process of pole piece from falling the material. Compared with the traditional continuous coating pole piece, the transmission path of electrons is optimized, electrons in the sectional type interval coating pole piece are transmitted to the lug through the interval empty foil area, the internal resistance of the battery cell is reduced, and the high-rate charge-discharge performance of the battery cell is optimized.

Specifically, when the negative electrode sheet 110 is made by coating the electrode sheets at intervals in stages, an aluminum foil is used as the current collector 1. When the positive electrode piece 120 is made by coating the electrode pieces in a segmented and spaced manner, the current collector 1 is made of copper foil.

When the negative electrode sheet 110 is made of the segment-type interval-coated electrode sheet, the first term of the interval length in the negative electrode sheet 110 is a'₁，0<a′₁≤5mm。

When the positive electrode piece 120 is made by coating the electrode pieces at intervals in a sectional manner, the first term of the interval length in the positive electrode piece 120 is a ″₁，a″₁＝a′₁+l₁*c+l₂*d+l ₃2, wherein l₁The cold-pressed thickness of the negative electrode sheet 110 is usually 50 μm to 200. mu.m. l₂The cold-pressed thickness of the positive electrode sheet 120 is usually 100 μm to 300. mu.m. l₃Is the membrane thickness; c is the expansion coefficient of the negative electrode, and c is more than or equal to 1.05 and less than or equal to 2; d is the expansion coefficient of the anode, and d is more than or equal to 1.02 and less than or equal to 1.8.

The tolerance of the interval length is b, b ═ l₁*c+l₂*d+l ₃2, wherein l₁Is the cold-pressed thickness of the negative electrode sheet 110, /)₂Is the cold-pressed thickness of the positive electrode sheet 120, /)₃Is the membrane thickness; c is the expansion coefficient of the negative electrode, and c is more than or equal to 1.05 and less than or equal to 2; d is the expansion coefficient of the anode, and d is more than or equal to 1.02 and less than or equal to 1.8.

Each rectangular material region 11 includes four sides, a first side 111, a second side 112, a third side 113, and a fourth side, where the first side 111 and the second side 112 are perpendicular to the length direction of the current collector 1, and the third side 113 and the fourth side are parallel to the length direction of the current collector 1. The first edge 111, the second edge 112 and the third edge 113 of each material area 11 are all provided with empty foil areas 12 outside. The empty foil regions 12 outside the first and second sides 111, 112 are used for winding and the empty foil regions 12 outside the third side 113 are used for making tabs.

Two material areas 11 positioned at symmetrical positions of the front surface and the back surface of the current collector 1 form a material area group, and each material area group is provided with 1 tab 13. When the pole piece is coated in a sectional type interval manner to form the negative pole piece 110, the pole lug is the negative pole lug; when the positive electrode sheet 120 is made by coating the electrode sheets in a segmented and spaced manner, the electrode tab is a positive electrode tab.

As shown in fig. 2, the present embodiment further provides a bare cell, which includes a segmented gap-coated pole piece and a separator 2, where the segmented gap-coated pole piece includes two types, namely a positive pole piece 120 and a negative pole piece 110. The positive electrode sheet 120, the negative electrode sheet 110 and the separator 2 are layered. Illustratively, the stacking manner may be five layers of the separator 2, the positive electrode sheet 120, the separator 2, the negative electrode sheet 110 and the separator 2. After the stacking, the electric core main body is continuously wound along the same direction to form a naked electric core main body. Naked electric core main part cross section is the rectangle, including the material district portion that is located the empty paper tinsel portion at relative both ends and the relative both ends of another group, and material district 11 all is located the material district portion of naked electric core main part. Wherein the positive electrode tab and the negative electrode tab are not overlapped. Illustratively, as shown in fig. 3, the positive and negative electrode tabs may be located on the same side of the bare cell. Or as shown in fig. 4, the positive electrode tab and the negative electrode tab may also be located on opposite sides of the bare cell.

The naked electric core has overcome the defect of naked electric core circular arc end among the prior art, guarantees that the CB value of naked electric core does not deviate from the design value, and at the in-process of discharging, the current density of mass flow body both sides is unanimous, prevents that voltage polarization from causing the voltage unstability. In addition, the structure for holding naked electric core is regular cuboid usually, makes the square with naked electric core, and the aluminium hull that agrees with that can be better promotes energy density.

Further, with reference to fig. 1, after the segmented and spaced coated pole pieces are wound into a bare cell, the misalignment range between the plurality of positive electrode tabs distributed along the vertical direction on the cross section is ± 10mm, and the misalignment range between the plurality of negative electrode tabs is also ± 10 mm.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (9)

1. A segmented space-coated pole piece, comprising:

the material areas (11) are arranged on the front surface and the back surface of the current collector (1) and are arranged at intervals along the length direction of the current collector (1), and the material areas (11) are formed by coating dressing and are formed into rectangles;

a blank foil zone (12) arranged around each of said material zones (11);

the sizes and the directions of the plurality of material areas (11) are completely the same, and the interval length a between the nth material area (11) and the (n-1) th material area (11)_n＝a₁B, where n is an integer greater than or equal to 2 and b is a tolerance.

2. The segmented space-coated pole piece according to claim 1, wherein when the segmented space-coated pole piece is made into a negative pole piece (110), the leading term of the space length in the negative pole piece (110) is a'₁，0<a′₁≤5mm；

When the segmented interval coating pole piece is manufactured into a positive pole piece (120), the first item of the interval length in the positive pole piece (120) is a ″)₁，a″₁＝a′₁+l₁*c+l₂*d+l₃2, wherein l₁Is the cold pressing thickness of the negative pole piece (110) /)₂Is the cold-pressed thickness of the positive pole piece (120) /)₃Is the membrane thickness; c is the expansion coefficient of the negative electrode, and c is more than or equal to 1.05 and less than or equal to 2; d is the expansion coefficient of the anode, and d is more than or equal to 1.02 and less than or equal to 1.8.

3. The segmented space coated pole piece of claim 2 wherein the tolerance of the space length is b, b ═ l₁*c+l₂*d+l₃2, wherein l₁Is the cold pressing thickness of the negative pole piece (110) /)₂Is the cold-pressed thickness of the positive pole piece (120) /)₃Is the membrane thickness; c is the expansion coefficient of the negative electrode, and c is more than or equal to 1.05 and less than or equal to 2; d is the expansion coefficient of the anode, and d is more than or equal to 1.02 and less than or equal to 1.8.

4. The segmented space coated pole piece according to claim 1, wherein the first edge (111), the second edge (112) and the third edge (113) of each material region (11) are all outside the empty foil region (12), the first edge (111) and the second edge (112) are perpendicular to the length direction of the current collector (1), and the third edge (113) is parallel to the length direction of the current collector (1).

5. The segmented space coated pole piece according to claim 1, wherein the material area (11) of the negative pole piece (110) is configured to be able to completely cover the material area (11) of the positive pole piece (120).

6. The segmented space-coated pole piece according to claim 1, characterized in that two said charge areas (11) located symmetrically on the front and back sides of the current collector (1) form a charge area group, each charge area group being provided with 1 tab (13).

7. A bare cell comprising the segmented space-coated pole piece of any of claims 1-7 and a separator (2), the segmented space-coated pole piece comprising both a positive pole piece (120) and a negative pole piece (110); the positive pole piece (120), the negative pole piece (110) and the diaphragm (2) are stacked in layers and then continuously wound in the same direction to form a naked electric core main body; naked electric core main part cross section is the rectangle, including the empty paper tinsel portion that is located relative both ends and the material district portion at the relative both ends of another group, material district (11) are located the material district portion of naked electric core main part.

8. The bare cell according to claim 7, wherein the positive electrode sheet (120) is provided with a positive electrode tab, the negative electrode sheet (110) is provided with a negative electrode tab, and the positive electrode tab and the negative electrode tab do not overlap.

9. The bare cell according to claim 8, wherein after winding, the misalignment range of the positive or negative electrode tab is ± 10 mm.

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