KR102484424B1 - Cartridge having busbar - Google Patents

Abstract

The present invention discloses a bus bar built-in cartridge. A bus bar-embedded cartridge according to an embodiment of the present invention is a cartridge constituting a battery module by stacking a plurality of battery cells, and has a shape corresponding to the outer circumferential surface of the electrode assembly accommodating part of the battery cell so that it can be combined with the battery cell. It is configured to include a frame in which a mounting portion is formed and a bus bar connecting leads of battery cells to one side of the frame.

Description

Bus bar built-in cartridge {CARTRIDGE HAVING BUSBAR}

The present invention relates to a bus bar-embedded cartridge, and more particularly, to a bus bar-embedded cartridge having a structure capable of reducing a manufacturing process by embedding a bus bar for lead connection in the cartridge.

In accordance with the recent trend of miniaturization and weight reduction of electronic devices, a battery serving as a power source is also required to be miniaturized and lightweight. Secondary batteries capable of charging and discharging are widely used as energy sources for wireless mobile devices. In addition, secondary batteries are attracting attention as an energy source for electric vehicles, hybrid electric vehicles, etc., which are proposed as a solution to air pollution such as existing gasoline vehicles and diesel vehicles using fossil fuels. Therefore, the types of applications using secondary batteries are diversifying due to the advantages of secondary batteries, and it is expected that secondary batteries will be applied to more fields and products than now.

These secondary batteries are sometimes classified into lithium ion batteries, lithium ion polymer batteries, lithium polymer batteries, etc. according to the composition of electrodes and electrolytes. It is increasing. In general, secondary batteries include a cylindrical battery and a prismatic battery in which an electrode assembly is embedded in a cylindrical or prismatic metal can, and a pouch-type battery in which the electrode assembly is embedded in a pouch-type case of an aluminum laminate sheet, depending on the shape of the battery case. The electrode assembly embedded in the battery case is a power generating device capable of charging and discharging, consisting of a positive electrode, a negative electrode, and a separator structure interposed between the positive electrode and the negative electrode. It is classified into a jelly-roll type wound with a separator interposed therebetween, and a stack type in which a plurality of positive and negative electrodes of a predetermined size are sequentially stacked in a state in which a separator is interposed.

The serial connection or parallel connection between the battery cells constituting the battery module may be determined in various forms depending on the output, capacity, structure, and the like of the battery pack in consideration of the device to which the battery pack is applied. Accordingly, the secondary batteries are connected in various series and parallel connections to form a battery module, and one or more battery modules may be included in the battery pack. In particular, the battery module may be configured in a form in which secondary batteries are connected in series or in parallel, depending on the case.

In this way, in order to connect the secondary batteries in series or parallel, electrode leads need to be coupled to each other through a bus bar, and welding is often performed to stably maintain the coupled state.

1 is a schematic diagram of manufacturing a conventional battery module.

Referring to FIG. 1 , the lead 11 of the battery cell 10 and the bus bar 12 are welded, and after the cells are stacked, welding is performed using a welding jig. The welded battery module 20 is manufactured by being embedded in the left and right cartridges 30 coupled from both sides.

However, in the lead connection structure of a conventional battery cell, welding defects occur when thin plates or dissimilar metals are connected by welding and interlocked by bending. In addition, when a separate auxiliary bus bar is applied to improve welding defects, another process is added to the use of additional parts and separate assembly tools are required, which complicates the manufacturing process.

Republic of Korea Patent Publication No. 10-2015-0113827

In one embodiment of the present invention, there is a problem that welding defects occur when connecting leads in a lead connection structure of a conventional battery cell, and a manufacturing process becomes complicated when a separate auxiliary bus bar is used. It is intended to provide a cartridge with a built-in bus bar that can improve process efficiency by embedding the bar in the cartridge.

According to one aspect of the present invention, as a cartridge constituting a battery module by stacking a plurality of battery cells, a mounting portion having a shape corresponding to the outer circumferential surface of the electrode assembly accommodating portion of the battery cell is formed to be coupled with the battery cell A frame and a bus bar connecting leads of battery cells to one side of the frame may be formed, and guide protrusions may be formed on the frame.

Fixing hooks may be formed on both sides of the bus bar.

A gas exhaust groove for exhausting gas generated during welding may be formed in the frame.

A support for supporting welding surface adhesion during welding of the bus bar may be further included.

The frame may have a rectangular structure.

A screw through hole may be drilled in each corner of the frame.

Assembly protrusions for assembling the cooling cover may be formed on side surfaces of the frame.

The battery cell may be a pouch type battery cell.

The lead of the battery cell may have a structure that protrudes in both directions.

A cartridge constituting a battery module by stacking a plurality of battery cells. A frame in which a mounting part having a shape corresponding to the outer circumferential surface of the electrode assembly accommodating part of the battery cell is formed so as to be coupled with the battery cell, and a battery on one side of the frame. A bus bar connecting cell leads may be included, and a screw through hole may be formed in an outer circumferential portion of the frame.

According to an embodiment of the present invention, the bus bar-embedded cartridge solves a problem that occurs when connecting leads of conventional battery cells, and provides an effect of improving weldability and process efficiency by embedding the bus bar in the cartridge.

1 is a schematic diagram of manufacturing a conventional battery module.
2 is a schematic diagram of a manufacturing process of a cartridge with a built-in bus bar according to an embodiment of the present invention.
3 is a schematic diagram of a bus bar coupling part of a bus bar built-in cartridge according to an embodiment of the present invention.
4 is a schematic view of a screw through hole of a bus bar built-in cartridge according to an embodiment of the present invention.
5 is a schematic diagram of assembling protrusions of a cartridge with a built-in bus bar according to an embodiment of the present invention.

Embodiments described below are provided so that those skilled in the art can easily understand the technical idea of the present invention, and the present invention is not limited thereto. In addition, matters represented in the accompanying drawings may be different from those actually implemented in the drawings schematically illustrated to easily explain the embodiments of the present invention.

It should be understood that when a component is referred to as being connected or connected to another component, it may be directly connected or connected to the other component, but other components may exist in the middle.

And "connection" here includes a direct connection and an indirect connection between one member and another member, and may mean all physical connections such as adhesion, attachment, fastening, bonding, and coupling.

In addition, expressions such as 'first and second' are expressions used only to classify a plurality of components, and do not limit the order or other characteristics between the components.

Singular expressions include plural expressions unless the context clearly dictates otherwise. The terms "include" or "having" are intended to mean that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, and that one or more other features or numbers, It can be interpreted that steps, actions, components, parts, or combinations thereof may be added.

2 is a schematic diagram of a manufacturing process of a cartridge with a built-in bus bar according to an embodiment of the present invention.

Referring to FIG. 2, the bus bar-embedded cartridge according to one embodiment of the present invention is a cartridge constituting a battery module by stacking a plurality of battery cells, so that it can be combined with the battery cell 10, the battery cell ( A frame 110 having a mounting portion corresponding to the outer circumferential surface of the electrode assembly accommodating portion of 10) and a bus bar 130 connecting leads of battery cells to one side of the frame 110, the frame ( 110) is formed with a guide protrusion (Fig. 3: 111).

In one specific example, a bus bar 130 is provided at a portion of the frame 110 where the electrode lead 11 of the battery cell 10 is exposed. The battery cell 10 is coupled to the open portion of the frame 110, and the bus bar 130 and the lead of the battery cell 10 are welded and assembled.

In the battery cell 10, due to the high capacity of the battery, a large area of the case and processing of thin materials are drawing much attention. Accordingly, the stacked or stacked/folded electrode assembly is a pouch-type battery case of aluminum laminate sheet. A pouch-type battery cell having a built-in structure is preferable, and the amount of the pouch-type battery cell is gradually increasing due to low manufacturing cost, small weight, and easy shape deformation.

In one specific example, the battery case of the battery cell 10 consists of a case body including a concave-shaped receiving portion in which the electrode assembly can be seated and a cover integrally connected to the body.

In addition, the battery case of the battery cell 10 is made of a laminate sheet, and is composed of an outer resin layer constituting the outermost shell, a barrier metal layer preventing penetration of materials, and an inner resin layer for sealing.

Here, since the resin layer serves to protect the battery cell from the outside, it should have excellent resistance from the external environment, and excellent tensile strength and weather resistance compared to the thickness are required. For example, polyethylene terephthalate (PET) , Polybutylene terephthalate (polybutyleneterephthalate; PBT), polyethylene naphthalate (polyethylenenaphthalate; PEN), polyester-based resins, polyethylene (PE), polypropylene (PP), polyolefin-based resins, such as polystyrene, polystyrene-based resins, Polyvinyl chloride-based resins, polyvinylidene chloride-based resins, and the like may be used. These materials can be used alone or in combination of two or more, and ONy (stretched nylon film) is widely used.

In addition, aluminum (Al) or an aluminum alloy may be used as the metal layer to improve the strength of the battery case in addition to the function of preventing the inflow of foreign substances such as gas and moisture or the leakage of the electrolyte solution. For example, alloy numbers 8079, 1N30, 8021, 3003, 3004, 3005, 3104, 3105, etc. may be mentioned, and these may be used alone or in combination of two or more.

The adhesive layer has heat sealing properties, low hygroscopicity to the electrolyte solution to suppress intrusion of the electrolyte solution, and a polymer resin that is not swollen or eroded by the electrolyte solution. More preferably, a non-stretched polypropylene film (CPP) ) can be made.

Here, in the electrode assembly, a plurality of positive electrode tabs and a plurality of negative electrode tabs are fused and coupled together to an electrode lead, and when the upper end of the case body and the upper end of the cover are thermally fused by a heat splicer, the gap between the heat splicer and the lead Insulation films are preferably attached to the upper and lower surfaces of the leads to prevent a short circuit from occurring and to secure sealing properties between the leads and the battery case.

3 is a schematic diagram of a bus bar coupling part of a bus bar built-in cartridge according to an embodiment of the present invention.

Referring to FIG. 3 together with FIG. 2, the bus bar-embedded cartridge according to one embodiment of the present invention is a cartridge constituting a battery module by stacking a plurality of battery cells, so that it can be combined with the battery cell 10. A frame 110 having a mounting portion corresponding to the outer circumferential surface of the electrode assembly accommodating portion of the battery cell 10, and a bus bar 130 connecting leads of the battery cell to one side of the frame 110, Guide protrusions 111 are formed on the frame 110, fixing hooks 132 are formed on both sides of the bus bar 130, and the frame 110 is adjacent to the fixing hooks 132. A guide protrusion 111 is formed at the site.

In one specific example, a gas exhaust groove 112 for exhausting gas generated during welding is formed at a portion adjacent to the inside of the fixing hook 132 and the guide protrusion 111 of the frame 110.

In addition, a support 114 is formed at a portion of the frame 110 adjacent to the gas exhaust groove 112 to support welding surface adhesion when the bus bar 130 is welded.

4 is a schematic view of a screw through hole of a bus bar built-in cartridge according to an embodiment of the present invention.

Referring to FIG. 4, screw through-holes 116 are drilled at the corners of the frame 110, and the battery module can be manufactured by penetrating a screw having a length corresponding to the quantity required for manufacturing the battery module. It's easy.

In the drawing, a plurality of cartridges are stacked in the horizontal direction, and the fastening bolts of the cartridges pass through each screw through hole 116 of the frame 110 to show the manufacturing of the battery module, but it is limited to the number of cartridges. It is not.

5 is a schematic diagram of assembling protrusions of a cartridge with a built-in bus bar according to an embodiment of the present invention.

Referring to FIG. 5 together with FIG. 3 , assembly protrusions 118 for assembling the cooling cover are formed on the side surface of the frame 110 . A plurality of assembling protrusions 118 are formed on the side of the frame 110 when the cooling cover is coupled, and the assembling protrusions 118 are hook-shaped. ) are perforated, so that the cooling covers can be easily fastened.

Therefore, the bus bar-embedded cartridge according to the present invention connects thin plates or dissimilar metals by welding when connecting leads of conventional battery cells, and embeds bus bars into the cartridge to solve the problem of welding defects by bending and interlocking. It is possible to provide an effect of improving process efficiency by improving weldability and reducing processes.

Those skilled in the art to which the present invention pertains will understand that the present invention can be embodied in other specific forms without changing its technical spirit or essential features. Therefore, the embodiments described above are merely selected and presented to the most preferred embodiments to help those skilled in the art to understand among various possible embodiments, and the technical spirit of the present invention is not necessarily limited or limited only by the presented embodiments. No, and various changes, additions, and changes are possible within a range that does not deviate from the technical spirit of the present invention, as well as other equivalent embodiments. The scope of the present invention is indicated by the claims to be described later rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention. should be interpreted In addition, the terms or words used in this specification and claims are defined based on the principle that the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way, It should not be construed as limited to meaning. In addition, the order of the components described in the above process does not necessarily have to be performed in a time-series order, and even if the order of performing each component and step is changed, if the gist of the present invention is satisfied, these processes may fall within the scope of the present invention. Of course there is.

110: frame
111: guide projection
112: gas exhaust groove
114: support
116: screw through hole
118: assembling projections
130: bus bar
132: fixed hook

Claims (10)

As a cartridge constituting a battery module by stacking a plurality of battery cells,
A frame in which a mounting portion having a shape corresponding to an outer circumferential surface of the electrode assembly accommodating portion of the battery cell is formed so as to be coupled with the battery cell; and
a bus bar connecting leads of battery cells to one side of the frame;
Including fixing hooks formed on both sides of the bus bar,
A cooling efficiency increasing cartridge, characterized in that the frame has a guide protrusion formed adjacent to the fixing hook. delete According to claim 1,
A cooling efficiency increasing cartridge, characterized in that the frame is formed with a gas exhaust groove for exhausting gas generated during welding. According to claim 1,
Cooling efficiency increasing cartridge characterized in that it further comprises a support for supporting the welding surface adhesion during welding the bus bar. According to claim 1,
The cooling efficiency increasing cartridge, characterized in that the frame is made of a rectangular structure. According to claim 1,
Cooling efficiency increasing cartridge, characterized in that the corner portion of the frame is perforated with screw through-holes, respectively. According to claim 1,
A cooling efficiency increasing cartridge, characterized in that assembling protrusions for assembling the cooling cover are formed on the side surface of the frame. According to claim 1,
The battery cell is a cooling efficiency increasing cartridge, characterized in that the pouch-type battery cell. According to claim 1,
The cooling efficiency increasing cartridge, characterized in that the lead of the battery cell protrudes in both directions. As a cartridge constituting a battery module by stacking a plurality of battery cells,
A frame in which a mounting portion having a shape corresponding to an outer circumferential surface of the electrode assembly accommodating portion of the battery cell is formed so as to be coupled with the battery cell; and
a bus bar connecting leads of battery cells to one side of the frame;
Including fixing hooks formed on both sides of the bus bar,
Guide protrusions are formed on the frame adjacent to the fixing hooks,
A cooling efficiency increasing cartridge, characterized in that a screw through hole is formed on the outer periphery of the frame.

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