KR101114781B1 - Safety apparatus using chemically processed layer in the secondary battery - Google Patents

Abstract

The present invention relates to a safety device of a secondary battery.

Particularly, in the present invention, before the internal temperature of the secondary battery rises to a high temperature during abnormal operation, the chemical conversion treatment of the secondary battery enables the tapping layer of the tap to melt at a low temperature to leak the electrolyte to suppress the exothermic reaction. It relates to a safety device using a layer.

In addition, according to the present invention, in a high-output battery comprising a case and a battery unit embedded in the case and arranged in the order of the first pole plate, the separator, the second pole plate, any one of four sides of the first pole plate A first pole tab connected to the first pole tab welding portion and protruding from the case; A second pole tab which is connected to any one of four sides of the second pole plate through a second pole tab welding portion and protrudes from the case, and is provided on a surface of the first pole tab welding portion and the first pole tab. Provided is a safety device comprising a first chemical treatment layer composed of a polymer and melting at a predetermined temperature.

Secondary battery, chemical conversion layer, tab, safety device, high temperature

Description

Safety apparatus using chemically processed layer of secondary battery

1 is a view showing a structure for installing a safety vent formed with a notch groove on the lower side of the battery case of the lithium secondary battery according to the prior art.

2 is a cross-sectional structural view of a safety vent of a conventional lithium secondary battery.

Figure 3 is a perspective view of a secondary battery equipped with a safety device using the chemical conversion treatment layer according to the present invention.

FIG. 4 is an enlarged view taken along the line I-I of FIG. 3; FIG.

<Explanation of symbols for the main parts of the drawings>

310: lithium secondary battery 311: battery unit

312 Case 313 Anode Tab

313a: anode tab welding part 313b: metal layer

313c: chemical conversion layer 314: negative electrode tab

314a: negative electrode tab welding portion 315: sealing tape

The present invention relates to a safety device of a secondary battery.

Particularly, in the present invention, before the internal temperature of the secondary battery rises to a high temperature during abnormal operation, the chemical conversion treatment of the secondary battery enables the tapping layer of the tap to melt at a low temperature to leak the electrolyte to suppress the exothermic reaction. It relates to a safety device using a layer.

In general, unlike the primary battery, the rechargeable battery that is capable of charging and discharging is being actively researched due to the development of advanced fields such as a digital camera, a cellular phone, a notebook computer, a hybrid vehicle, and the like. Examples of secondary batteries include nickel-cadmium batteries, nickel-metal hydride batteries, nickel-hydrogen batteries, and lithium secondary batteries. Among them, the lithium secondary battery is used as a power source for portable electronic devices with an operating voltage of 3.6 V or more, or used in high-power hybrid vehicles by connecting several in series, compared to nickel-cadmium batteries or nickel-metal hydride batteries. The operating voltage is three times higher and the energy density per unit weight is also excellent and is being used rapidly.

Lithium secondary batteries can be manufactured in various forms, and typical shapes include cylindrical and prismatic types commonly used in lithium ion batteries. Lithium polymer batteries, which are in the spotlight in recent years, have been manufactured in a flexible pouched type, and their shapes are relatively free. In addition, the lithium polymer battery has excellent safety and light weight, which is advantageous for slimmer and lighter portable electronic devices.

The lithium secondary battery as described above is shown in Figure 1 in order to prevent damage to the device or safety accidents caused by the explosion of the battery when the high temperature and high pressure caused by battery failure, such as a shot (shot) in the battery case, as shown in FIG. Likewise, the battery case 10 of the lithium secondary battery 1 has a structure in which a safety vent 30 in which a notch groove 20 is formed at one side thereof is installed.

The safety vent 30 formed on one side of the battery case 10 of the lithium secondary battery 1 as described above has a notch groove inside the upper cap or the lower side of the battery case 10. 20 is formed in the safety vent 30 of the upper cap or the lower side when the high temperature and high pressure is generated according to the abnormality in the battery case 10 by forming a circular safety vent 30 is formed to a certain depth. As the groove 20 is cut off, the safety vent 30 is opened so that the high pressure inside the battery case 10 is released to the outside.

However, the safety device of the secondary battery using the safety vent has a problem that additional cost occurs because the safety vent must be manufactured separately.

In addition, such a safety vent is a structure having a constant size, and occupies a certain volume, thus causing a problem in thinning of a secondary battery.

Accordingly, an object of the present invention is to provide a safety device for a secondary battery that can be prepared for the high temperature or higher operation of the secondary battery at low cost.

In addition, an object of the present invention is to provide a safety device for a secondary battery that enables thinning of the secondary battery.

In order to achieve the above object, the present invention is a high output battery including a case and a battery unit embedded in the case and arranged in the order of the first pole plate, the separator, the second pole plate, the four sides of the first pole plate A first pole tab connected to either side of the first pole tab welding portion and protruding from the case; And a second pole tab connected to one of four sides of the second pole plate through a second pole tab welding portion and protruding from the case, wherein the first pole tab welding portion and the surface of the first pole tab are provided. And a first chemical conversion treatment layer composed of a polymer and melting at a predetermined temperature.

Now, the safety device using the chemical conversion treatment layer of the secondary battery according to the present invention will be described in detail with reference to FIG. 3.

3 is a perspective view of a rechargeable battery equipped with a safety device using the chemical conversion treatment layer according to the present invention.

Referring to FIG. 3, a pouch-type lithium secondary battery 310 using a safety device for a secondary battery provided with a safety device using a chemical conversion treatment layer according to the present invention includes a battery part 311 and the battery part 311. It includes a case 312 to provide a space (312a) is accommodated.

The battery unit 311 is disposed in the order of a positive electrode plate, a separator, and a negative electrode plate and is wound in one direction, or a plurality of positive electrode plates, separators, and negative electrode plates are stacked. Each electrode plate of the battery unit 311 is electrically connected to the positive and negative electrode tabs 313 and 314 through the positive and negative electrode tab welding parts 313a and 314a.

The positive and negative electrode tabs 313 and 314 protrude outside the sealing surface 312b of the case 312. One end of the protruding positive electrode tab 313 is attached to the positive electrode tab welding portion 313a. The positive electrode tab welding portion 313a provides a connection between the positive electrode tab 313 and the positive electrode plate, and one side is connected to the positive electrode tab 313 and the other side is connected to the positive electrode plate. One end of the protruding negative electrode tab 314 is attached to the negative electrode tab welding portion 314a. The negative electrode tab welding portion 314a provides a connection between the negative electrode tab 314 and the negative electrode plate, and one side is connected to the negative electrode tab 314 and the other side is connected to the negative electrode plate.

Here, the electrode tabs 313 and 314 and the welding portions 313a and 314a are formed of a metal layer and a chemical conversion treatment layer covering the metal layer. Here, if the secondary battery is abnormally raised to a high temperature by using a polymer material that melts the material of the chemical conversion layer at a lower temperature than the conventional PP material, the chemical conversion material is melted and the gas is ejected.

The outer surfaces of the positive and negative electrode tabs 313 and 314 and the positive and negative electrode tab welding parts 313a and 314a are in contact with the sealing surface 312b and the case 312 and the electrode tabs 313 and 314 and the positive and negative electrode tabs. Each sealing tape 315 is wound to prevent electrical shorts with the welding portions 313a and 314b.

On the other hand, the case 312 is a pouch type case in which the intermediate layer is a metal foil and the inner and outer skin layers adhered to both sides of the metal foil are made of an insulating film, unlike a cylindrical or rectangular can structure formed of a thick film gold material. . Pouch type case is excellent in formability and can be bent freely. As described above, the case 312 is provided with a space portion 312a in which the battery portion 311 is accommodated, and a sealing surface 312b provided on a surface that is thermally fused along the edge of the space portion 312a. Is formed.

4 is an enlarged view taken along the line I-I of FIG.

Referring to the drawings, the case 312 is an inner layer of an insulating film that is attached to the inner and outer surfaces of the intermediate layer 312c of a metal foil, such as aluminum foil, and the intermediate layer 312c to protect the intermediate layer 312c. It is a composite film composed of a layer 312d and an outer layer 312e.

In the space 312a formed in the case 312, a battery part 311 disposed in the order of the positive electrode plate 311a, the separator 311c, and the negative electrode plate 311b is accommodated, and from the positive and negative electrode plates 311a and 311b, 3, the positive electrode tab 313 and the negative electrode tab 314 are drawn out.

One end of the positive electrode tab 313 protruding from the figure is attached to the positive electrode tab welding portion 313a. The positive electrode tab welding part 313a provides a connection between the positive electrode tab 313 and the positive electrode plate 311a, and one side is connected to the positive electrode tab 313 and the other side is connected to the positive electrode plate 311a.

Here, the electrode tabs 313 and 314 and the welding portions 313a and 314a are formed of the chemical conversion treatment layer 313c surrounding the metal layer 313b and the metal layer 313b as shown. Here, if the secondary battery is abnormally raised to a high temperature by using a polymer material that melts the material of the chemical conversion treatment layer 313c at a lower temperature than the conventional PP material, the chemical conversion treatment layer 313c is designed so that gas may be ejected. At this time, the melting point of the chemical conversion treatment layer 313c is preferably 90 to 150 degrees. And as for the thickness of the chemical conversion treatment layer 313c, 1 micrometer is preferable.

The outer surface of the positive electrode tab 313 and the positive electrode tab welding portion 313a is electrically connected to the case 312, the electrode tab 313, and the positive electrode tab welding portion 313a at a portion in contact with the sealing surface 312b. Each sealing tape 315 is wound around to prevent a short circuit.

In the pouch-type lithium secondary battery 310 having the above structure, the positive and negative electrode tabs 313 and 314 are electrically connected to the positive electrode plate 311a and the negative electrode plate 311b by using the positive and negative electrode tab welding parts 313a and 314a. Next, the battery unit 311 is completed by winding in one direction while being disposed in the order of the positive electrode plates 311a, 311c and 311b.

On the other hand, in the present invention, the positive electrode welding portion, the positive electrode tab and the negative electrode welding portion and the negative electrode tab is implemented so that the chemical conversion treatment layer is formed at a low temperature, the positive electrode tab welding portion, the positive electrode tab and the negative electrode tab welding portion and the negative electrode tab Only one of them may have the chemical conversion layer having a melting point at a low temperature.

On the other hand, while the present invention has been shown and described with respect to specific embodiments, it will be appreciated that the present invention may be variously modified and changed without departing from the spirit or the scope of the invention as provided by the following claims. It will be clear to those skilled in the art that it can be easily understood.

According to the present invention as described above, since the safety of the secondary battery is dependent on the temperature factor, if the electrolyte leaks at a relatively low temperature before the secondary battery ignites or explodes, it is possible to suppress the fume reaction can be expected to effectively improve the stability have.

Claims (5)

A high output battery comprising a case and a battery unit embedded in the case and arranged in the order of the first pole plate, the separator, and the second pole plate, A first pole tab connected to any one of four sides of the first pole plate through a first pole tab welding portion and protruding from the case; A second pole tab which is connected to any one of four sides of the second pole plate through a second pole tab welding portion and protrudes from the case, and is provided on a surface of the first pole tab welding portion and the first pole tab. A first chemical conversion treatment layer composed of a polymer and melting at a predetermined temperature; Safety device, characterized in that the first chemical conversion layer has a melting point of 90 ~ 150 degrees. delete The method of claim 1, And a second chemical conversion treatment layer formed of a polymer on the surfaces of the second pole tab welding portion and the second pole tab, and melting at a predetermined temperature. The method of claim 1, Safety device, characterized in that the first chemical conversion layer and the second chemical conversion layer has a melting point of 90 ~ 150 degrees. The method according to claim 1, The thickness of the said 1st chemical conversion treatment layer and the 2nd chemical conversion treatment layer is 1 micrometer or less, The safety device characterized by the above-mentioned.

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