KR20080037862A - Secondary battery - Google Patents

Abstract

A secondary battery is provided to allow users to determine whether a vent is damaged or not by the naked eye, thereby facilitating the manufacture of a battery and reducing the manufacturing cost. A secondary battery(10) comprises: a bare cell including an electrode assembly(12), a can(11) for housing the electrode assembly, and a cap assembly(100) having a cap plate(110) provided with a vent(116) and coupled to the top opening of the can; a protection circuit board(300) electrically connected to two electrodes of the bare cell; and a molded resin portion filled in the gap between the bare cell and the protection circuit board, wherein a vent protecting member(185) is installed on the vent at the portion where the vent is formed for preventing the vent from being damaged by external pressure, and the vent protecting member is formed of a light transmissive material so that a user determines whether the vent is damaged or not by the naked eye.

Description

Secondary Battery {SECONDARY BATTERY}

Figure 1a and 1b is a schematic side view showing an upper portion of a conventional secondary battery, it is a view showing that it is impossible to check by the naked eye even if the vent protection member is deformed,

Figure 2 is an exploded perspective view showing a secondary battery according to an embodiment of the present invention,

3 is a perspective view illustrating a bare cell of the secondary battery illustrated in FIG. 2;

4A to 4C are photographs showing that deformation of the vent protection member can be confirmed by visual observation when the vent is broken according to the present invention.

Explanation of symbols on the main parts of the drawings

10: secondary battery 11: can

12: electrode assembly 100: cap assembly

110: cap plate 116: vent

185: vent protection member 270: thermal breaker

300: protection circuit board 400: molding resin

The present invention relates to a secondary battery, and more particularly, to a secondary battery capable of visually checking whether or not vent breakage due to external pressure such as a hot melt resin during manufacture of a pack battery is visual.

In general, a secondary battery refers to a battery that can be charged and discharged, unlike a primary battery that cannot be charged, and is widely used in the field of advanced electronic devices such as a cellular phone, a notebook computer, a camcorder, and the like. In particular, lithium secondary batteries have an operating voltage of 3.6V, which is three times higher than nickel-cadmium batteries or nickel-hydrogen batteries, which are widely used as electronic equipment power sources, and are rapidly increasing in terms of high energy density per unit weight.

Such lithium secondary batteries mainly use lithium-based oxides as positive electrode active materials and carbon materials as negative electrode active materials. Moreover, although lithium secondary batteries are manufactured in various shapes, typical shapes include cylindrical shape, square shape, and pouch type.

Among them, the rectangular secondary battery includes a bare cell, a protective circuit board, and a molding resin part.

The bare cell includes an electrode assembly, a can containing the electrode assembly, and a cap assembly engaged with the open top of the can. Here, the cap assembly is a cap plate coupled to the upper portion of the can, an electrode terminal is installed through the terminal through the hole and the gasket for insulating the cap plate on the outer surface, the insulating plate is installed under the cap plate, and the insulation It is provided under the plate and includes a terminal plate that is energized with the electrode terminal. Meanwhile, a vent may be formed on one side of the cap plate. Such vents break preferentially than other parts when the internal pressure of the battery increases due to overcharging, etc., thereby releasing internal gas, thereby ensuring safety of the battery.

A protection circuit board is a board on which a protection circuit is formed to protect a battery from overcharge or overdischarge during charge and discharge. The protective circuit board can be electrically connected to two electrodes of the bare cell through a lead plate or the like.

The molding resin part is a part in which a hot melting resin is solidified by filling a space between a bare plate cap plate and a protective circuit board. This molded resin portion prevents the flow of battery components between the cap plate and the protective circuit board.

Referring to FIG. 1A, a vent 116 having a thickness thinner than another portion of the periphery of the bare plate cap plate 110 is formed, and a bin between the cap plate 110 and the protective circuit board 300 is formed. The molding resin 400 fills the space. As such, the process of filling the molding resin part 400 is called a packing process, and a battery manufactured according to this is also called a pack battery.

In the packing process of filling the molding resin 400, the bare cell and the protection circuit board electrically connected to each other are placed in the mold, and then the hot water resin is filled in the empty space therebetween to form the molding water. It is a process of forming the branch 400.

The vent 116 is formed to have a thickness thinner than other cap plate 110 parts around, so that the vent 116 is preferentially broken by the internal pressure of the battery, and there is a risk that the vent is broken by the injection pressure of the melted resin in the packing process. have. That is, there is a risk that the vent 116 designed to ensure the stability of the battery by being broken by the battery internal pressure during the use of the battery may be damaged by the external pressure during the manufacture of the pack battery. To prevent this, the vent protection member 585 is positioned on the vent 116 as shown in FIG. 1A.

By the way, black tape has conventionally been used as the vent protection member 585. In addition, the molding resin portion 400 formed by coagulation of the hot melting resin also becomes black. The hatched portions in FIG. 1B represent black strains.

As shown in FIG. 1B, when the vent 116 is damaged by the melt pressure of the resin during fabrication of the pack battery, the internal pressure of the battery leaks through the damaged vent 116 to deform the shape of the vent protective member 585. . However, in the related art, since the color system of the molding resin 400 and the vent protection member 585 is the same, it is difficult to visually determine whether the vent protection member 585 is deformed.

Accordingly, to check whether the vent 116 is damaged after hot melting, X-ray inspection through sampling is performed, or a method of checking whether or not the vent 116 is broken by damaging the molding resin 400. Was selected.

Therefore, it requires a separate X-ray equipment investment cost, and the inspection work is complicated, thereby increasing the manufacturing cost of the battery. In addition, there is a problem that the loss of the regular product due to the inspection by the molded resin part breakage, the loss (loss) occurs in the process.

The present invention is to solve the above-described problems, by making it possible to visually determine whether the vent damage due to external pressure, such as hot melt resin during the pack battery manufacturing by visual inspection, rather than X-ray inspection, The purpose is to lower the manufacturing cost of the battery.

The secondary battery of the present invention for achieving this object,

A bare cell including an electrode assembly, a can including the electrode assembly, and a cap assembly coupled to an open upper portion of the can and having a vented cap plate; A protective circuit board electrically connected to two electrodes of the bare cell; And a molding resin filled in a space between the bare cell and the protective circuit board, wherein a vent protection member is disposed on a portion of the cap plate to prevent vent damage due to external pressure. The vent protection member is made of a material that can transmit light so as to visually check whether the damage.

Here, at least a part of the vent protection member is preferably exposed to the outside so that it can be visually observed from the outside.

At this time, the side of the vent protection member may be exposed to the outside.

In addition, the vent protection member may be a transparent tape.

In addition, the vent protection member may contain a fluorescent material.

In addition, a component having a polarity different from that of the cap plate is positioned on the vent protection member, and the vent protection member may be made of a material that insulates the component from the cap plate.

In this case, the vent protection member may be a double-sided adhesive transparent tape for fixing the component located on the vent protection member.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view illustrating a rechargeable battery according to an exemplary embodiment of the present invention.

Referring to the drawings, the secondary battery 10 includes a bare cell, a protection circuit board 300, and a molding resin part (not shown).

The bare cell includes an electrode assembly 12, a can 11 containing the electrode assembly 12, and a cap assembly 100 coupled to an open top of the can.

The electrode assembly 12 typically forms a wide plate shape of the positive electrode 13 and the negative electrode 15 to increase the capacitance, and then interposes a separator 14 between the positive electrode 13 and the negative electrode 15 to insulate them from each other. It is then laminated, rolled up into a vortex to form a so-called 'Jelly Roll'. The positive electrode tab and the negative electrode tab 16, 17 are coupled to the two electrodes 13 and 15, respectively, and are drawn out upward. Insulating tapes 18 are wound around the positive electrode tabs and the negative electrode tabs 16 and 17 to prevent short circuits between the electrode plates 13 and 15 at the boundary portions drawn out of the electrode assembly 12.

The can 11 is a metal container having a substantially rectangular parallelepiped shape in a rectangular secondary battery, and is formed by a processing method such as deep drawing. Thus, it is also possible for the can itself to serve as a terminal. The can 11 becomes a container of the electrode assembly 12 and the electrolyte solution, and the upper part opened to the electrode assembly 12 is sealed by the cap assembly 100.

The cap assembly 100 is installed through a cap plate 110 coupled to an upper portion of the can 11 and a terminal through hole 111 formed in the cap plate 110 with the gasket 120 positioned on an outer surface thereof. An electrode terminal 130, an insulating plate 140 installed under the cap plate 110, and a terminal plate 150 installed under the insulating plate 140 to conduct electricity with the electrode terminal 130. It includes. An insulating case 190 may be installed below the terminal plate 150 to prevent a short circuit between the terminal plate 150 and the electrode assembly 12.

The negative electrode 15 of the electrode assembly 12 is electrically connected to the electrode terminal 130 through the negative electrode tab 17 and the terminal plate 150, and in the case of the positive electrode 13, the cap is connected through the positive electrode tab 16. It is electrically connected to the plate 110. On the other hand, the battery may be designed by changing the polarity.

An electrolyte injection hole 112 for injecting an electrolyte into the can 11 is formed at one side of the cap plate 110, and the electrolyte injection hole 112 is sealed by the sealing part 160 after the electrolyte is injected. do.

The vent 116 is formed at the other side of the cap plate 110. Since the vent 116 is formed thinner than other parts of the surroundings, when the internal pressure of the battery increases due to overcharging or the like, the vent 116 is broken more preferentially than other parts, thereby releasing internal gas, thereby ensuring safety of the battery. A vent protection member 185 is disposed on a portion of the cap plate 110 in which a vent 116 is formed, and the vent protection member 185 will be described later.

In addition, an upper protrusion 181 and a holder 182 may be formed on the upper surface of the cap plate 110. The protrusion 181 and the holder 182 are combined with the molding resin to be described later to serve to resist external forces such as torsion or bending of the battery. The protrusion 181 is in the form of a column forming a rectangular quadrangle when viewed from above, and the holder 182 is coupled to the protrusion 181. The holder 182 has a groove formed at the center of the bottom so that the protrusion 181 can be inserted without excess when the protrusion 181 is inserted. Since the protrusion 181 has a rectangular shape as viewed from above and fits into the groove of the holder 182 that is complementary thereto, even if a force is applied to the side of the holder 182 while the holder 182 is fitted to the protrusion 181. The holder 182 does not easily detach from the protrusion 181.

On the other hand, the protective circuit board 300 is formed by forming a protective circuit on a panel made of resin. The protection circuit is a circuit for protecting the battery from overcharging or overdischarging during charging and discharging, and is electrically connected to the connection terminals 360 and 370. The connection terminals 360 and 370 are electrically connected to the external input / output terminals 311 and 321 and are connected to an external electric / electronic device.

In addition, the molding resin portion (not shown) is a portion where the hot melting resin is filled and filled in the empty space between the cap plate 110 and the protection circuit board 300 of the bare cell. The molding resin part prevents the flow of the battery component between the cap plate 110 and the protective circuit board 300.

Hereinafter, the vent protection member 185 will be described in more detail.

Referring to FIG. 3, the vent protection member 185 is formed on a portion of the cap plate 110 where the vent 116 is formed. The vent protection member 185 serves to protect the vent 116 from being damaged by the melt pressure of the hot melt resin filled to form a molding resin part (not shown).

However, in spite of the existence of the vent protection member 185, a defect occurs during operation, and the vent 116 may be damaged by the melt pressure of the resin. When the vent 116 is damaged by the melt pressure of the resin during fabrication of the pack battery, the internal pressure of the battery leaks through the damaged vent 116 to deform the shape of the vent protection member 185.

In the present invention, in order to easily determine the deformation of the shape of the vent protection member 185 by the naked eye, a vent protection member 185 made of a material that can transmit light is used. The molding resin part has a black color, and since the vent protection member 185 is made of a material that can transmit light, the vent protection member 185 is visually exposed to light when the vent protection member 185 is irradiated with light. The shape of the can be easily determined.

Therefore, compared to the conventional X-ray inspection through sampling or the method of checking the presence / absence of the vent damage by breaking the molding resin part, it is possible to omit the additional expenditure on the investment of the X-ray facility, and to reduce the process loss (loss). ), There is no burden on the manufacturing cost, and manufacturing cost and manufacturing time can be reduced.

At least a part of the vent protection member 185 needs to be exposed to the outside so that the naked eye can be observed from the outside. That is, the entire vent protection member 185 should not be covered by the molding resin or the like when viewed from the outside. In this case, as shown in Figs. 4A to 4C, it is more preferable in view of convenience for visual observation that the side of the vent protection member (marked with yellow fluorescent color in each angle) is exposed to the outside.

The vent 116 is separated from the molding resin by the vent protecting member 185.

In addition, a portion in which the vent 116 is formed is recessed downward than other portions of the cap plate 110, and the vent protection member 185 is positioned on the cap plate 110 while being spaced apart from the vent 116.

The vent protection member 185 may be a transparent tape. Here, the transparent tape is a known tape as a transparent tape, so detailed description thereof will be omitted.

In addition, the vent protection member 185 may contain a fluorescent material. When the vent protection member 185 containing the fluorescent material is used, visual observation is easier when light is irradiated. Here, the fluorescent material that is generally used may be used.

Meanwhile, referring to FIG. 2, one connection terminal 360 of the protection circuit board 300 is electrically connected to the cap plate 110 of the bare cell through the lead plate 260, thereby achieving bipolarity. In addition, since the other connection terminal 370 is electrically connected to the electrode terminal 130 of the bare cell through the thermal breaker 270, it has a negative polarity. Therefore, the vent protection member 185 needs to be made of an insulating material to prevent a short circuit between the thermal breaker 270 and the cap plate 110.

In this case, the vent protection member 185 is preferably a double-sided adhesive transparent tape, in order to fix the component (thermal breaker in FIG. 2) positioned on the vent protection member. Accordingly, the junction between the thermal breaker 270 and the connection terminal 370 and the junction between the thermal breaker 270 and the electrode terminal 130 can be firmly reduced to reduce resistance, and the thermal breaker 270 between the molding resin part can be reduced. Binding property also improves, and also the resistance to torsion and bending of a battery becomes excellent. Here, the thermal breaker 270 may be replaced with a lead plate and a PTC device.

Moreover, it is preferable that the thickness of such a vent protection member is 0.2-0.35 mm. If the thickness is too thin, it is difficult to protect the vent from the melt pressure of the resin, and it is also difficult to guarantee insulation between the cap plate and the thermal breaker. In addition, if the thickness is thicker than necessary, it is difficult to increase the total height of the battery to reduce battery capacity or achieve miniaturization of the battery.

Fig. 4A indirectly shows that the vent is a genuine product since the vent protection member (yellow fluorescent part) maintains its original shape flat when the side surface of the vent protection member is irradiated with light. That is, the vent is not damaged by the pressure of the hot melt resin.

In contrast, FIGS. 4B and 4C indirectly indicate that the vent is broken because it shows that the vent protection member (yellow fluorescent portion) is lifted or partially lost when light is applied to the side of the vent protection member. That is, the vent is damaged by the pressure of the hot melt resin. As such, according to the present invention, it is possible to easily check the damage of the vent during battery manufacture.

According to the present invention, it is possible to visually check whether the vent is damaged by external pressure such as hot melt resin during pack battery manufacturing, not by X-ray inspection. Therefore, compared to the conventional X-ray inspection through sampling or the method of checking the presence / absence of the vent damage by breaking the molding resin part, it is possible to omit the additional expenditure on the investment of the X-ray facility, and to reduce the process loss (loss). ), There is no burden on the manufacturing cost, and manufacturing cost and manufacturing time can be reduced.

Although the present invention has been described with reference to the illustrated embodiments, it is merely exemplary, and the present invention may encompass various modifications and equivalent other embodiments that can be made by those skilled in the art. Will understand.

Claims (10)

A bare cell including an electrode assembly, a can including the electrode assembly, and a cap assembly coupled to an open upper portion of the can and having a vented cap plate; A protective circuit board electrically connected to two electrodes of the bare cell; And In the secondary battery comprising a molding resin filled in the space between the bare cell and the protective circuit board, A vent protection member is disposed on a portion of the cap plate on which the vent is formed to prevent the damage of the vent due to external pressure, and the vent protection member is made of a material that allows light to be transmitted to the naked eye. Secondary battery, characterized in that. The method of claim 1, At least a portion of the vent protection member is a secondary battery, characterized in that exposed to the outside so that it can be visually observed from the outside. The method of claim 2, Secondary battery, characterized in that the side of the vent protection member is exposed to the outside. The method of claim 1, The vent is secondary battery, characterized in that isolated from the molding resin portion by the vent protection member. The method of claim 1, The vented part is recessed downwardly than other parts of the cap plate, and the vent protection member is positioned on the cap plate while being spaced apart from the vent. The method of claim 1, The vent protection member is a secondary battery, characterized in that the transparent tape. The method of claim 1, The vent protection member is a secondary battery comprising a fluorescent material. The method of claim 1, A secondary battery having a polarity different from that of the cap plate is disposed on the vent protection member, and the vent protection member is made of a material that insulates the component from the cap plate. The method of claim 8, The vent protection member is a secondary battery, characterized in that the double-sided adhesive transparent tape for fixing the component located on the vent protection member. The method according to claim 6 or 9, The thickness of the vent protection member is a secondary battery, characterized in that 0.2 ~ 0.35mm.

Images