KR200191919Y1 - A lithium metal battery structure - Google Patents

Abstract

The present invention relates to a lithium metal battery structure, comprising a lithium foil elongated in the shape of at least a thin foil and a lithium metal battery structure comprising a substantially rectangular nickel terminal attached to one end of the lithium foil, Since the nickel terminal is divided into a plurality of branches so that the nickel terminal may be tightly coupled in response to the curvature radius of the lithium foil, that is, the nickel terminal may be closely coupled in response to the curvature radius of the lithium foil. By dividing and attaching into a plurality of branches so as to be the same curvature radius of the lithium foil, it can be closely bonded to each other to mass-produce high-quality products and do not require a punching process and bonding means, maximizing productivity Being an excellent effect.

Description

Lithium Metal Battery Structure

The present invention relates to a lithium metal battery structure, and more specifically, the nickel terminal is divided into a plurality of forks so as to be tightly coupled in response to the radius of curvature that appears during the winding of the lithium foil, and the same radius of curvature of the lithium foil. It relates to a lithium metal battery structure that can be tightly coupled to each other.

Generally, as shown in FIG. 1, the lithium metal battery 10 includes a lithium foil 11 elongated in the shape of a thin foil through hot rolling and cold rolling, and one end of the lithium foil 11. It consists of a substantially rectangular nickel terminal 13 attached by the bonding means 12.

At this time, the nickel terminal 13 attached to the lithium foil 11 by the adhesive means 12 is punched (P) to the lithium foil 11 by a punching jig and firmly coupled with the winding machine shown in FIG. 2. After winding, it is inserted into a substantially cylindrical can to complete the product.

Here, the nickel terminal 13 forms a substantially rectangular shape having a predetermined rigidity, and thus, when the lithium foil 11 having the flexible is wound, the lithium foil 11 is shown in FIG. 2. Due to the contact between the radius of curvature and the corner portion of the nickel terminal 13, the lithium foil 11 is frequently broken or not in close contact with each other, causing a defect in the product. .

Thus, the present invention was devised to solve the above problems, and its purpose is to attach and attach a nickel terminal into a plurality of branches so as to be tightly coupled in response to the radius of curvature that appears during the winding of the lithium foil. It provides a lithium metal battery structure capable of mass production of high-quality products by forming the same radius of curvature of the lithium foil and close to each other.

1 is a development view showing a lithium metal battery according to the prior art.

Figure 2 is a schematic diagram showing a state in which the lithium foil wound of the lithium metal battery according to the prior art.

3 is a development view showing a lithium metal battery according to the present invention.

4 is a schematic view showing a state in which a lithium foil wound of a lithium metal battery according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: lithium metal battery 110: lithium foil

120: nickel terminal

The lithium metal battery structure according to the present invention for achieving the above object is a lithium metal comprising a lithium foil elongated in the shape of at least a thin foil and a substantially rectangular nickel terminal attached to one end of the lithium foil. In the battery structure, the nickel terminal is characterized in that the basic configuration in that the divided into a plurality of branches so that they can be tightly coupled in response to the radius of curvature that appears during the winding of the lithium foil.

Hereinafter, the lithium metal battery structure according to the present invention will be described with reference to FIGS. 3 and 4.

3 is a development view showing a lithium metal battery according to the present invention, Figure 4 is a schematic view showing a state in which the lithium foil of the lithium metal battery according to the present invention is wound.

As shown in FIGS. 3 and 4, the lithium metal battery 100 according to the present invention includes a lithium foil 110 elongated in the shape of a thin foil through hot rolling and cold rolling, and the lithium foil ( It consists of a substantially rectangular nickel terminal 120 attached to one end of (110).

At this time, the nickel terminal 120 is divided into a plurality of prongs so that the nickel terminal 120 can be tightly coupled in response to the radius of curvature that appears during the winding of the lithium foil 110.

Here, the nickel terminal 120 is divided into a plurality of branches as shown in Figure 4 attached to the lithium foil 110, so that the same radius of curvature of the radius of curvature of the lithium foil 110 can be achieved in close contact with each other. It can be seen that.

As described above, according to the lithium metal battery structure according to the present invention, the nickel terminal is divided into a plurality of branches so as to be tightly coupled in response to the radius of curvature that appears during the winding of the lithium foil, and the same as the radius of curvature of the lithium foil. The curvature radius can be tightly coupled to each other to produce high quality products, and there is no need for a punching process and an adhesive means, thereby maximizing productivity.

Claims (1)

In a lithium metal battery structure comprising at least a lithium foil elongated in the shape of a thin foil and a substantially rectangular nickel terminal attached to one end of the lithium foil, The nickel terminal is a lithium metal battery structure, characterized in that attached to divided into a plurality of branches so as to be tightly coupled in response to the radius of curvature that appears during the winding of the lithium foil.