KR102633457B1 - Battery module assembly - Google Patents

Abstract

Battery module assembly is disclosed. A battery module assembly according to an embodiment of the present invention includes a clamper inserted into the battery cells to limit the plurality of stacked battery cells in the stacking direction, and supported by the clamper to connect each electrode lead at both ends of the battery cells by connection tabs. It includes interconnecting wires, a case into which the battery cells are slidably inserted together with the clamper, a plurality of slots formed to expose each electrode lead, and both side covers mounted on both sides of the case.

Description

Battery module assembly {BATTERY MODULE ASSEMBLY}

The present invention relates to a battery module assembly, and more specifically, to a battery module assembly that can minimize and simplify the assembly process.

Secondary batteries, which are easy to apply depending on the product group and have electrical characteristics such as high energy density, are used not only in portable devices but also in electric vehicles (EV, Electric Vehicle) or hybrid vehicles (HEV, Hybrid Electric Vehicle) that are driven by an electrical drive source. It is universally applied.

These secondary batteries are attracting attention as a new energy source for improving eco-friendliness and energy efficiency, not only because they have the primary advantage of being able to dramatically reduce the use of fossil fuels, but also because they do not generate any by-products due to energy use.

Types of secondary batteries currently widely used include lithium ion batteries, lithium polymer batteries, nickel cadmium batteries, nickel hydrogen batteries, and nickel zinc batteries. The operating voltage of these unit secondary battery cells, that is, unit battery cells, is approximately 2.5V to 4.5V.

Therefore, when a higher output voltage is required, a battery pack is formed by connecting a plurality of battery cells in series.

Additionally, a battery pack may be constructed by connecting multiple battery cells in parallel depending on the charge/discharge capacity required for the battery pack.

Accordingly, the number of battery cells included in the battery pack can be set in various ways depending on the required output voltage or charge/discharge capacity.

Meanwhile, when configuring a battery pack by connecting a plurality of battery cells in series/parallel, a battery module containing at least one battery cell is first configured, and other components are added using this at least one battery module. There are common ways to configure battery packs.

In recent years, demand for battery modules or battery packs that can achieve high energy density while securing a more compact size has been gradually increasing in accordance with the slimming trend.

Accordingly, there is a need to find a way to achieve a more compact size while securing a larger volume ratio of battery cells provided in a battery module or battery pack.

The matters described in this background art section have been prepared to enhance understanding of the background of the invention, and may include matters that are not prior art already known to those skilled in the art in the field to which this technology belongs.

An embodiment of the present invention seeks to provide a battery module assembly that can reduce costs by minimizing the number of assembly parts and assembly man-hours by applying a box-shaped case to package battery cells.

Additionally, an embodiment of the present invention seeks to provide a battery module assembly that can improve leakage current and insulation resistance performance by minimizing bolting and fastening points.

In one or more embodiments of the present invention, a clamper is inserted into the battery cells to limit the plurality of stacked battery cells in the stacking direction, and is supported by the clamper to connect each electrode lead at both ends of the battery cells to each other by a connection tab. To provide a battery module assembly including a wire, a case into which the battery cells are slidably inserted together with the clamper, and a plurality of slots formed to expose each electrode lead, and both side covers mounted on both sides of the case. You can.

In addition, the clamper is configured to surround the lower end of the battery cell, and fitting grooves may be formed on both sides connected to the lower surface to fit each battery cell.

Additionally, a through hole for ventilation may be formed on the lower surface of the clamper.

Additionally, a seating groove in which a printed circuit board connected to the wire is seated may be formed on one side of the lower surface of the clamper.

Additionally, the case is made in a box shape, and portions corresponding to the electrode leads on both sides may be open.

Additionally, at least one fixing pin may be disposed between the battery cells to form a gap between the battery cells.

Additionally, the fixing pin may include a body disposed between the battery cells and a locking protrusion formed on both ends of the body and exposed to the outside of the battery cell.

Additionally, the case may have at least one air hole formed on both sides of the bar connected to the gap.

Additionally, at least one pad in the form of foam may be disposed between the battery cells.

Additionally, a partition into which the battery cell is inserted may be formed on each inner surface of the side cover facing the battery cell.

Additionally, the electrode leads may be exposed by the slot, bent in one direction, and welded to the side cover.

The battery module assembly according to an embodiment of the present invention uses a box-shaped case to package battery cells, thereby reducing costs by minimizing the number of assembled parts and assembly man-hours.

In addition, the battery module assembly according to an embodiment of the present invention can improve leakage current and insulation resistance performance by minimizing bolting and fastening points by applying the case.

As a result, the battery module assembly according to an embodiment of the present invention can improve productivity, reduce weight, and secure durability.

In addition, effects that can be obtained or expected due to embodiments of the present invention will be disclosed directly or implicitly in the detailed description of the embodiments of the present invention. That is, various effects expected according to embodiments of the present invention will be disclosed in the detailed description to be described later.

1 is a perspective view of a battery cell applied to a battery module assembly according to an embodiment of the present invention.
Figure 2 is an assembled perspective view of a battery module assembly according to an embodiment of the present invention.
3 to 7 are sequential assembly process diagrams of a battery module assembly according to an embodiment of the present invention.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein.

In order to clearly explain the present invention, parts that are not relevant to the description are omitted, and identical or similar components are assigned the same reference numerals throughout the specification.

Since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of explanation, the present invention is not necessarily limited to what is shown in the drawings, and the thickness is enlarged to clearly express various parts and areas.

Throughout the specification, when it is said that a part includes a certain element, this does not mean excluding other elements, but may further include other elements, unless specifically stated to the contrary.

1 is a perspective view of a battery cell applied to a battery module assembly according to an embodiment of the present invention.

Referring to FIG. 1, the battery module assembly 20 according to an embodiment of the present invention may be formed by stacking a plurality of battery cells 1 and packaging them.

The battery cell 1 may be packaged in a pouch 9 in the order of the positive plate 3, separator 5, and negative plate 7 to form one set.

The inside of the pouch 9 may be filled with electrolyte.

In addition, each electrode lead 10 of the positive electrode plate 3 and the negative electrode plate 7 is configured to be exposed to the outside of the pouch 9.

The number of battery cells 1 applied to the battery module assembly 20 according to an embodiment of the present invention may be determined according to the specifications of the battery module assembly 20.

Figure 2 is a perspective view of a battery module assembly according to an embodiment of the present invention, and Figures 3 to 7 are sequential assembly process diagrams of a battery module assembly according to an embodiment of the present invention.

In this specification, the direction of FIG. 2 is defined as the reference direction applied to the vehicle, and is expressed as up, down, left, and right based on the reference direction, with the up and down directions being the vehicle height direction, the left and right directions being the vehicle width direction, The front and rear directions can be defined as the vehicle body length direction.

This reference direction is a relative direction and can be changed and applied depending on the case in which it is applied to the vehicle.

The battery module assembly 20 according to an embodiment of the present invention may be formed by stacking a plurality of the above-described battery cells 1 and packaging them.

Referring to FIG. 2, the battery module assembly 20 according to an embodiment of the present invention includes a clamper 40, a wire 50, a case 60, and a side cover 70.

The battery cell 1 is stacked standing up with the electrode leads 10 on both sides arranged in a horizontal direction.

At this time, referring to FIG. 3, at least one fixing pin 30 is disposed between the battery cells 1.

The fixing pin 30 is used to form a gap 35 between the battery cells 1.

This fixing pin 30 includes a body 31 and a locking protrusion 33.

The body 31 may have a flat bar shape disposed between the adjacent battery cells 1 and the battery cells 1 .

The locking protrusions 33 are formed on both ends of the body 31 and are exposed to the outside of the battery cell 1.

The shape and size of the blocking protrusion 33 may be set to correspond to the thickness of the battery cell 1.

In addition to the fixing pin 30, at least one pad 37 in the form of foam is disposed between the battery cells 1 and the battery cells 1.

The pad 37 has a similar shape to the body 31 and can be arranged between the battery cells 1 to intersect the fixing pins 30.

These fixing pins 30 and pads 37 form a gap 35 between the battery cells 1 and allow air to pass through, thereby cooling the battery cells 1. there is.

Referring to Figures 4 and 5, clampers 40 are mounted on the lower portions of the battery cells 1 described above.

The clamper 40 may be inserted into the plurality of stacked battery cells 1 to limit the stacking direction.

This clamper 40 is configured to surround the lower end of the battery cell 1.

The clamper 40 has fitting grooves 45 formed on both sides 43 connected to the lower surface 41 so that each battery cell 1 is inserted.

Additionally, a through hole 47 for ventilation is formed on the lower surface 41 of the clamper 40.

The clamper 40 may have a seating groove 49 formed on one side of the lower surface 41 in which the printed circuit board 53 connected to the wire 50 is seated.

A wire 50 may be supported on the clamper 40.

The wire 50 may be disposed between the battery cells 1 and the clamper 40.

That is, the wire 50 is supported by the clamper 40 so that each electrode lead 10 at both ends of the battery cells 1 can be connected to each other by the connection tab 51.

In the middle of these wires 50, the printed circuit board 53 may be connected.

Referring to FIG. 6, the battery cells 1 are inserted into the case 60 together with the clamper 40.

The case 60 may be shaped like a box, and the portions corresponding to the electrode leads 10 on both sides may be open.

The case 60 may have at least one air hole 61 formed on both opposing surfaces connected to the gap 35.

That is, the air hole 61 may be formed between the battery cells 1 and connected to the gap 35.

For example, the case 60 may be configured so that air flows into the air hole 61 formed on the upper surface, passes through the gap 35, and then is discharged through the air hole 61 formed on the lower surface. there is.

Referring to FIG. 7, side covers 70 are mounted on both sides of the case 60.

The side cover 70 is formed with a plurality of slots 73 so that each electrode lead 10 is exposed.

In this side cover 70, a partition 71 into which the battery cell 1 is inserted may be formed on each inner surface facing the battery cell 1.

The electrode leads 10 are exposed to the side cover 70 by the slot 73 and are bent in one direction and joined by welding.

At this time, the electrode leads 10 may be joined to the side cover 70 through laser welding.

Therefore, the battery module assembly 20 according to an embodiment of the present invention uses a box-shaped case 60 to package the battery cells 1, thereby minimizing the number of assembled parts and assembly man-hours to reduce costs. .

In addition, the battery module assembly 20 according to an embodiment of the present invention can improve leakage current and insulation resistance performance by minimizing bolting and fastening points by applying the case 60.

As a result, the battery module assembly 20 according to an embodiment of the present invention can improve productivity, reduce weight, and secure durability.

Although the present invention has been described above with reference to preferred embodiments, those skilled in the art may vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be modified and changed.

1: Battery cell
3: positive plate
5: Separator
7: cathode plate
9: Pouch
10: Electrode lead
20: Battery module assembly
30: fixing pin
31: body
33: Stumbling block
35: gap
37: pad
40: Clamper
41: If you do
43: side
45: Fitting groove
47: Through hole
49: Seating groove
50: wire
51: Connection tab
53: printed circuit board
60: case
61: air hole
70: Side cover
71: Bulkhead
73: slot

Claims (11)

It is configured to surround the lower end of a plurality of stacked battery cells by limiting them in the stacking direction, and fitting grooves are formed on both sides connected to the lower surface to fit each battery cell, and a through hole for ventilation is formed in the lower surface, A clamper in which a seating groove on which a printed circuit board is seated is formed on one side of the lower surface;
A wire connected to the printed circuit board on one side, supported by the clamper, and interconnecting electrode leads at both ends of the battery cells by connection tabs;
a box-shaped case into which the battery cells are slide-inserted together with the clamper, and portions corresponding to the electrode leads on both sides are open;
Both side covers are mounted on both sides of the case and have a plurality of slots formed to expose each of the electrode leads, and partition walls into which the battery cells are inserted are formed on each opposing inner side corresponding to the battery cell;
One or more bodies disposed between the battery cells to form a gap between the battery cells, and a locking protrusion formed on both ends of the body and exposed to the outside of the battery cells. A fixing pin is formed; and
One or more pads made of foam and disposed between the battery cells;
A battery module assembly comprising: delete delete delete delete delete delete According to paragraph 1,
The above case is
A battery module assembly in which one or more air holes are formed on both opposing surfaces connected to the gap. delete delete According to paragraph 1,
A battery module assembly in which the electrode leads are exposed by the slot and bent in one direction and welded to the side cover.

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