KR101750487B1 - Battery Module Having Mounting Means of Bus Bar and External Input-Output Terminal - Google Patents

Abstract

The present invention relates to a battery module including a plurality of battery cells or unit modules, wherein a plurality of battery cells or unit modules connected in series or in parallel are stacked in a state in which they are laid in a downward direction, Cell stacks; An upper module case surrounding an upper portion of the battery cell stack, a portion of a front portion of the battery cell protruding from the electrode terminal, and a portion of a rear portion of the opposite side; A lower module coupled to the upper module case and corresponding to the upper module case, the lower module including a lower portion of the battery cell stack body, a remaining portion of the front portion where the electrode terminals of the battery cell protrude, and a remaining portion of the opposite rear portion, case; And a first bus bar (22) which is connected to the outermost electrode terminal of the battery cell stack body and includes a first end portion and a second end portion which are exposed to the outside in a first direction which is an upper direction of the battery cell stack body bus-bar and a second bus bar; And a first external input / output terminal and a second external input / output terminal for electrical connection to the outside,
The first bus bar and the second bus bar are fixed in position to the front portion of the lower module case, and the first external input / output terminal and the second external input / output terminal are accommodated in the first bus bar and the second bus bar. And a first protrusion part and a second protrusion part for electrically connecting the first protrusion part and the second protrusion part are formed.

Description

[0001] The present invention relates to a battery module having an external input / output terminal and a mounting means for a bus bar,

The present invention relates to a battery module including an external input / output terminal and a mounting means for a bus bar.

BACKGROUND ART [0002] In recent years, rechargeable secondary batteries have been widely used as energy sources for wireless mobile devices. The secondary battery is also attracting attention as a power source for an electric vehicle (EV) and a hybrid electric vehicle (HEV), which are proposed as solutions for the air pollution of existing gasoline vehicles and diesel vehicles using fossil fuels .

In a small mobile device, one or a few battery cells are used per device, while a middle- or large-sized battery module such as an automobile is used for a large-sized battery module in which a plurality of battery cells are electrically connected due to the necessity of a high output large capacity.

Since such a middle- or large-sized battery module is preferably manufactured with a small size and weight, a prismatic battery, a pouch-shaped battery, etc., which can be charged with a high degree of integration and have a small weight to capacity ratio, is mainly used as a battery cell of a middle- or large-sized battery module. In particular, a pouch-shaped battery using an aluminum laminate sheet or the like as an exterior member has attracted a great deal of attention recently due to its advantages such as small weight, low manufacturing cost, and easy shape deformation.

In order to provide the required output and capacity of the middle- or large-sized battery module in a predetermined device or device, a plurality of battery cells must be electrically connected in series and a stable structure with respect to external force must be maintained.

Therefore, when a middle- or large-sized battery module is constructed using a plurality of battery cells, a large number of members are generally required for mechanical fastening and electrical connection thereof, so that the process of assembling such members is very complicated. Furthermore, a space is required for the joining of a plurality of members for mechanical fastening and electrical connection, welding, soldering, etc., thereby increasing the overall size of the system. This increase in size is undesirable in terms of the space limitations of the device or device in which the middle- or large-sized battery module is mounted. Furthermore, in order to be efficiently mounted in a limited internal space such as a vehicle, a middle- or large-sized battery module with a more compact structure is required.

Meanwhile, the conventional battery module includes a plurality of battery cells electrically connected in parallel or in series. In addition, a plurality of battery modules are electrically connected to constitute a battery pack.

However, in the prior art, in order to increase the energy density of the battery module, various designs have been tried to increase the space efficiency in a limited space. However, most of the space of the battery module except the battery cell accommodation space is mechanically fastened, , Voltage sensing wiring, and the like. Thus, there are many limitations in increasing the energy density.

Also, in the battery module of the related art, an external input / output terminal is generally formed outside the module case, and the external input / output terminal is formed to have an outwardly protruding structure to facilitate electrical connection with an external device. However, this structure has a disadvantage in that when the bus bar is mounted, its size increases in the outward direction. Further, when a cover for protecting the connection portion of the bus bar and the external input / output terminal is added, the size of the cover increases, There was a problem.

Accordingly, there is a high need for a battery module that is compact and has excellent structural stability, simplifies arrangement and assembly, and can improve the space efficiency of mounting bus bars and external input / output terminals while solving the problems of the prior art.

Korean Patent Publication No. 10-2009-0000292 (2009.01.07.)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art and the technical problems required from the past.

The inventors of the present application have conducted intensive research and various experiments. As described later, the first bus bar and the second bus bar are positively fixed to the front portion of the lower module case, When the first protrusions and the second protrusions are electrically connected to the first bus bar and the second bus bar by receiving the input / output terminal and the second external input / output terminal, the size of the battery module is minimized and the arrangement and assembly are simplified The space efficiency of mounting the bus bar and the external input / output terminal can be increased, the number of parts can be reduced to improve the assembling property and the manufacturing cost can be reduced, and the present invention has been accomplished.

According to an aspect of the present invention,

1. A battery module comprising a plurality of battery cells or unit modules,

A battery cell laminate in which a plurality of battery cells or unit modules connected in series or in parallel are stacked in a state in which one side faces upward;

An upper module case surrounding an upper portion of the battery cell stack, a portion of a front portion of the battery cell protruding from the electrode terminal, and a portion of a rear portion of the opposite side;

A lower module coupled to the upper module case and corresponding to the upper module case, the lower module including a lower portion of the battery cell stack body, a remaining portion of the front portion where the electrode terminals of the battery cell protrude, and a remaining portion of the opposite rear portion, case;

And a first bus bar (22) which is connected to the outermost electrode terminal of the battery cell stack body and includes a first end portion and a second end portion which are exposed to the outside in a first direction which is an upper direction of the battery cell stack body bus-bar and a second bus bar; And

A first external input / output terminal and a second external input / output terminal for electrical connection to the outside;

And,

The first bus bar and the second bus bar are fixed in position to the front portion of the lower module case, and the first external input / output terminal and the second external input / output terminal are accommodated in the first bus bar and the second bus bar. And a first protrusion and a second protrusion that are electrically connected to each other are formed.

Meanwhile, a conventional battery module has a structure in which a support plate for fixing an external input / output terminal for establishing a connection between an electrode terminal of a battery module and an external terminal, or a structure in which the bus bar and the external input / It is necessary to additionally constitute a cover or the like for carrying out the present invention. However, when such configurations are added, the overall size of the battery module becomes large, so that it is difficult to form a compact structure and assembly becomes more complicated, resulting in a problem of a large increase in manufacturing cost.

Accordingly, in the battery module according to the present invention, each of the first bus bar and the second bus bar is positively fixed to the front portion of the lower module case, and each of the first external input / output terminal and the second external input / By forming the first protrusion and the second protrusion electrically connecting to the first bus bar and the second bus bar, parts such as the support plate or the cover can be omitted, shortening the assembling time and reducing the manufacturing cost, It is possible to provide a battery module with a more compact structure by minimizing the size of the battery module.

On the other hand, the battery cell may be a plate-shaped battery cell formed on one side of the outer circumferential surface of the electrode terminals (positive terminal and negative terminal), or formed on one side and the opposite side of the outer circumferential surface, And a pouch-shaped battery cell having a structure in which an outer circumferential surface of the cell case is sealed in a state where an electrode assembly is embedded in a cell case of a laminate sheet including a metal layer.

The bus bar may be connected to the outermost electrode terminal of the battery cell stack, and may be configured to connect the first bus bar and the second bus bar to be connected to the electrode terminal constituting the anode and the electrode terminal constituting the cathode.

In one specific example, the external input / output terminal may have a bolt-like structure in which a cylindrical terminal portion extends upward from a hexahedron-shaped body. However, the external input / output terminal is not limited to such a shape but may be a hexagonal bolt, A head bolt type, a head type bolt type, and the like.

In one specific example, the first protrusions and the second protrusions may each have an upper end formed with an insertion groove for receiving an external input / output terminal from a side surface thereof. In more detail, a guide rail structure may be formed on the inner surface of the insertion groove to guide the insertion direction of the external input / output terminal and prevent the insertion of the external input / A groove corresponding to the guide rail may be formed for lateral insertion of the input / output terminal, and a terminal portion of the external input / output terminal may be introduced into the upper end of the insertion groove, An opening that is opened at one side may be formed.

That is, due to the mounting structures for the external input / output terminals of the battery module, the battery module according to the present invention can easily connect the external input / output terminal to the insertion groove of the lower module case in one direction, The structure and the groove are precisely engaged with each other to prevent the flow of the external input / output terminal, thereby improving the reliability of the electrical connection and improving the durability of the product.

Therefore, in order to omit the support plate for fixing the external input / output terminal of the conventional battery module to a predetermined position or the cover structure for protecting the bus bar and the external input / output terminal, The first protrusions and the second protrusions are formed in the lower module case. Thus, the safety and the size of the battery module can be minimized.

In one specific example, a part of the bus bar may be connected to the outermost electrode terminal of the battery cell stack by welding, and specifically, a part of the first bus bar may be connected to one surface And the second bus bar may be electrically connected to one surface of the negative terminal of the remaining outermost battery cells. In addition to the welding method, a mechanical connection method using bolts, rivets, or the like may be used .

The first end and the second end of each of the bus bars may have a structure that is parallel to the stacking direction of the battery cells and is bent in a second direction perpendicular to the first direction. That is, the structure bent in the second direction perpendicular to the first direction means that the first end and the second end are exposed in a planar manner when the first end and the second end are exposed in the first direction do.

In addition, the first end and the second end may be respectively formed with through holes for electrical and mechanical fastening, and the through-holes may be electrically connected to the device or another battery module through the fastening of the external input / .

In more detail, the first bus bar and the second bus bar are formed such that the respective through-holes of the first end and the second end are fastened to the terminal portions of the external input / output terminals and mounted on the first and second projections, respectively And the mounting structure may be such that the first bus bar and the second bus bar are in contact with a top surface of each of the first and second protrusions and a side extending from the top surface.

In one specific example, a front portion of the lower module case is provided with a first slit and a second slit, into which the first bus bar and the second bus bar, which are connected to the outermost electrode terminals of the battery cell stack, Can be formed. Specifically, the first slits and the second slits may be formed between the outermost surface of the front portion of the lower module case and the protrusions, and the anode bus bar and the cathode bus bar may be respectively inserted and fixed. Such a slit structure enables the connection of the bus bars to be made simple and quick, and the bus bars can be stably fixed, thereby improving the electrical connection reliability.

The lower module case may have a fastening portion formed in the lower end inner surface between the first and second projections, the fastening holes being formed in the first direction. That is, the fastening portion is a means for fixing the battery module to a battery pack or a device including a plurality of battery modules.

In one specific example, the upper module case includes a first hollow portion and a second hollow portion surrounding a side surface of each of the first and second protruding portions, and the upper portion of the first hollow portion and the second hollow portion And a first opening and a second opening for exposing the first end and the second end of each of the bus bars in the first direction are formed.

At least a part of the outer circumference of the opening of the upper module case is provided with at least one side wall protruding upwardly for protecting the external input / output terminal. More specifically, the side wall may protrude upward from the outer side of the opening of the upper module case, Output terminal, the second external input / output terminal, and one side of the third direction that is the direction in which the electrode terminal of the battery cell protrudes.

Accordingly, since the battery module according to the present invention has one or more side walls protruding upward to protect the external input / output terminals of the upper module case, it is possible to minimize the risk of short-circuiting and external deformation of the external input / output terminals, It is possible to secure a space for accommodating the bus bars for module connection, and it is possible to provide a battery module having an excellent structural stability and a compact structure.

In one specific example, the battery cell stack comprises a plurality of unit modules including plate-shaped battery cells having electrode terminals formed on one side and opposite sides, respectively,

Two or more battery cells in which electrode terminals are connected in series and / or in parallel; And

A pair of cell covers which are mutually coupled to cover the entire outer surface of the battery cell stack body except for the electrode terminal portions of the battery cells;

As shown in FIG.

In addition, the battery module may further include voltage sensing members and a temperature measurement sensor for securing safety. The data measured by the voltage sensing members and the temperature measurement sensor may be transmitted to a battery management system (BMS) to control the battery module.

The present invention also provides a high-output, large-capacity battery pack in which two or more of the battery modules are combined.

The battery pack may have a structure in which the battery modules are stacked in the vertical direction or the lateral direction, and the battery packs may be stacked vertically and side by side.

Specifically, for example, the battery modules of the battery pack may be stacked in the lateral direction so that the bus bars are positioned at the front portion, and more specifically, the battery modules may be stacked in the first battery module and the second battery module, Module connecting bus bar is mounted on the first hollow portion of the first battery module and the second hollow portion of the second battery module of the second bus bar on which the first bus bar is mounted, Connection can be established.

The present invention also provides a device including the battery pack.

The device may be, but is not limited to, one of an electric vehicle, a hybrid electric vehicle, a plug-in hybrid electric vehicle, an electric bicycle, an electric bicycle, and a power storage device, considering the efficiency of mounting, structural stability,

The structure and manufacturing method of such a device are well known in the art, so a detailed description thereof will be omitted herein.

As described above, in the battery module according to the present invention,

The first bus bar and the second bus bar are positively fixed to the front portion of the lower module case and the first external input / output terminal and the second external input / output terminal are received and electrically connected to the first bus bar and the second bus bar, It is not necessary to additionally provide a support plate or a cover for protecting the connection portion between the bus bar and the external input / output terminal, thereby simplifying the arrangement and assembly, It is possible to increase the space efficiency in which the external input / output terminal is mounted, reduce the number of parts, improve the assemblability, and reduce the manufacturing cost.

1 is a perspective view of a battery module according to one embodiment of the present invention;
Figure 2 is an exploded perspective view of Figure 1;
3 is a perspective view A, a partial enlarged view B, and a partial plan view C of a lower case of a battery module according to an embodiment of the present invention;
4 is a partial perspective view illustrating a fastening structure of an external input / output terminal and a storage portion of a lower case of a battery module according to an embodiment of the present invention;
5 is a perspective view illustrating a structure in which a battery cell stack of a battery module according to an embodiment of the present invention is mounted on a lower module case;
6 is a perspective view of an upper module case of a battery module according to an embodiment of the present invention;
FIGS. 7 and 8 are perspective views illustrating an electrical connection structure of battery modules using a bus bar for module connection of a battery pack according to an embodiment of the present invention; FIG.
9 is a plan view and a perspective view of a bus bar for module connection of a battery pack according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

FIG. 1 is a perspective view of a battery module according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of FIG.

1 and 2, a battery module 100 according to the present invention includes a battery cell stack 110, a first bus bar 122, a second bus bar 124, an upper module case 130, A lower module case 140, a first external input / output terminal 152, and a second external input / output terminal 154.

In this battery cell stack body 110, four unit modules 111 are connected in series and stacked in a state where one side faces downward.

Here, the unit module 111 has a structure in which two plate-shaped battery cells (not shown) having electrode terminals 112 and 114 formed on one side and the opposite side are connected in series and stacked, And a high-strength cell cover 116, which is coupled to surround the entire outer surface except the protruded front and rear portions of the terminals 112 and 114, are mounted.

The upper module case 130 is formed to have a structure that surrounds the upper portion 114 of the battery cell stack body, a portion 115 of the front portion where the electrode terminals of the battery cell protrude, and a portion 116 of the rear portion that is the opposite side. .

The lower module case 140 is coupled to the upper module case 130 and corresponds to the upper module case 130 so that the lower part 117 of the battery cell stack body, The remaining portion 118, and the remaining portion 119 of the rear portion as the opposite side.

The first bus bar 122 and the second bus bar 124 are fixed to the front portion of the lower module case 140 so that the first external input and output terminal 152 and the second external A first protrusion 143 and a second protrusion 144 for receiving the input / output terminal 154 and electrically connecting the first bus bar 122 and the second bus bar 124 are formed.

The first bus bar 122 and the second bus bar 124 are disposed at the respective first ends 123 exposed to the outside in the first direction y which is the upper direction of the battery cell stack 110, And the first end 123 and the second end 125 of each of the bus bars 122 and 124 are parallel to the stacking direction of the battery cells and extend in the first direction y And is bent in a second vertical direction z.

The first end 123 and the second end 125 are provided with respective external input and output terminals 152 and 154 and through holes 126 and 127 for electrical and mechanical fastening respectively.

The first bus bar 122 is connected to the outermost electrode terminal 112 constituting the anode of the battery cell stack 110 and the second bus bar 124 is connected to the outermost electrode terminal 112 of the battery cell stack 110. [ And is connected to an outermost electrode terminal (not shown) constituting a cathode.

FIG. 3 is a perspective view A, a partial enlarged view B, and a partial plan view C of a lower case of a battery module according to an embodiment of the present invention, and FIG. 4 is a perspective view of a battery module according to an embodiment of the present invention. And a partial perspective view showing a fastening structure of the external input / output terminal of the lower case and the storage portion.

2 to 4, the external input / output terminals 152 and 154 have a bolt-like structure in which a cylindrical terminal portion 155 extends upward from a hexahedral body 153.

The upper ends of the first and second protrusions 143 and 144 are formed with insertion grooves 145 and 146 for receiving the external input / output terminals 152 and 154 from the side surfaces thereof.

The inner surfaces of the insertion grooves 145 and 146 are respectively formed with guide rail 149 structures for guiding the inserting direction of the external input / output terminals 152 and 154 and preventing the inserted external input / Grooves (not shown) corresponding to the guide rails 149 are formed on the bottom surface of the main body 153 of the external input / output terminals 152 and 154 for laterally inserting the external input / output terminals 152.

The terminal portions 155 of the external input / output terminals 152 and 154 are inserted into the upper ends of the insertion grooves 145 and 146 and are opened at one side so as to be protruded to the outside of the insertion groove 147, and 148 are formed.

FIG. 5 is a perspective view illustrating a structure in which a battery cell stack of a battery module according to an embodiment of the present invention is mounted on a lower module case.

3, the battery cell stack 110 is mounted on the lower module case 140, and the first bus bar 122 and the second bus bar 124 are connected to the first The through holes 126 and 127 of the first end 123 and the second end 125 are fastened to the terminal portions of the respective external input and output terminals 152 and 154 to form the first protrusion 143 and the second protrusion 143 And is mounted on the protruding portion 144 so as to be in contact with the upper surface and one side surface of the protruding portions 143 and 144.

The first bus bar 122 and the second bus bar 124 connected to the outermost electrode terminals of the battery cell stack 110 are connected to the front side of the lower module case 140, Are inserted and fixed to the first slit 141 and the second slit 142 formed between the outermost portion of the front portion and the protrusions 143 and 144, respectively.

A coupling portion 160 is formed in a lower end inner surface of the lower module case 140 between the first and second protrusions 143 and 144 in a first direction y, .

6 is a perspective view of an upper module case of a battery module according to an embodiment of the present invention.

2 and 6, the first hollow portion 132 and the second hollow portion 132 surrounding the side surfaces of the first and second protrusions 143 and 144 are formed in the front portion of the upper module case 130, A first end portion 123 and a second end portion 125 of each of the bus bars 122 and 124 are formed on the upper portion of the first hollow portion 132 and the second hollow portion 134, The first opening 136 and the second opening 137 are formed in the first direction y.

The side walls 138 and 139 for protecting the external input / output terminals 152 and 154 protrude upward from the outer circumference of the openings 136 and 137 of the upper module case 130, respectively. That is, the side walls 138 and 139 are formed on one side facing the first external input / output terminal 152 and the second external input / output terminal 154 and on the side facing the other side in the third direction x It is possible to minimize the risk of short circuit between the external input / output terminals 152 and 154 and the deformation due to an external impact.

FIGS. 7 and 8 are perspective views illustrating an electrical connection structure of battery modules using a bus bar for module connection of a battery pack according to one embodiment. FIG. 9 is a perspective view of a battery pack according to an embodiment of the present invention. A top view and a perspective view showing a bus bar for module connection are shown.

7 and 8, the battery pack 300 includes a first battery module 100 and a second battery module 101 that are in contact with each other, and the battery modules 100 and 101 And the bus bars 122 and 124 are stacked in the lateral direction so as to be located at the front portion.

The module connecting bus bar 200 is connected to the first hollow portion 132 of the first battery module 100 and the second battery module 120 of the second bus bar 124, And the first battery module 100 and the second battery module 101 are electrically connected to each other in the second hollow portion 134 of the battery module 101.

9, the module connecting bus bar 200 includes a cover 220 covering an upper portion and a body portion 210 accommodating the conductive plate 211. The cover 220 and the main body portion 210 are integrally formed. The conductive plate 211 is provided with through holes 212 and 213 for inserting and connecting the external input / output terminals 152 and 154, respectively.

The module connecting bus bar 200 includes fastening portions 213 and 214 for fastening the lid 220 to the main body 210 and fastening portions 213 and 214 for fastening the conductive plate 211 to the inside of the main body 210 215, 216, 217, and 218, respectively. That is, due to the fastening portions, the module connecting bus bar 200 can fasten the lid 220 to the main body 210 without using a separate tool, and the conductive plate 211 can also be snap - It is possible to assemble snap-fit type, which can improve the efficiency of assembling process.

This module connecting bus bar 200 can minimize the risk of short circuiting of the external input / output terminals 152 and 154 and damage due to an external impact, thereby forming a connecting structure with excellent structural stability.

As described above, in the battery module according to the present invention, each of the first bus bar and the second bus bar is positively fixed to the front portion of the lower module case, and each of the first external input / output terminal and the second external input / The first and second protrusions are electrically connected to the first bus bar and the second bus bar to reduce the number of parts, thereby improving the assembling efficiency and reducing the manufacturing cost. In addition, So that a battery module with a more compact structure can be provided.

Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (25)

1. A battery module comprising a plurality of battery cells or unit modules,
A battery cell laminate in which a plurality of battery cells or unit modules connected in series or in parallel are stacked in a state in which one side faces upward;
An upper module case surrounding an upper portion of the battery cell stack, a portion of a front portion of the battery cell protruding from the electrode terminal, and a portion of a rear portion of the opposite side;
A lower module coupled to the upper module case and corresponding to the upper module case, the lower module including a lower portion of the battery cell stack body, a remaining portion of the front portion where the electrode terminals of the battery cell protrude, and a remaining portion of the opposite rear portion, case;
And a first bus bar (22) which is connected to the outermost electrode terminal of the battery cell stack body and includes a first end portion and a second end portion which are exposed to the outside in a first direction which is an upper direction of the battery cell stack body bus-bar and a second bus bar; And
A first external input / output terminal and a second external input / output terminal for electrical connection to the outside;
And,
The first bus bar and the second bus bar are fixed in position to the front portion of the lower module case, and the first external input / output terminal and the second external input / output terminal are accommodated in the first bus bar and the second bus bar. A first protruding portion and a second protruding portion for electrically connecting are formed,
The first ends and the second ends of the bus bars are bent in a second direction parallel to the stacking direction of the battery cells and perpendicular to the first direction,
Through holes for electrical and mechanical fastening are respectively drilled in the first end and the second end,
Wherein the first bus bar and the second bus bar have respective through-holes at the first end and the second end coupled to the main body of the external input / output terminal and mounted on the respective first and second projections,
The upper module case includes a first hollow portion and a second hollow portion surrounding the side surfaces of the first and second protruding portions, and upper portions of the first hollow portion and the second hollow portion are provided with respective ones of bus bars Wherein a first opening portion and a second opening portion are formed for exposing the first end portion and the second end portion in the first direction. The battery module according to claim 1, wherein the battery cells are plate-shaped battery cells having electrode terminals formed on one side and opposite sides of an outer circumferential surface, respectively. The battery module according to claim 1, wherein the battery cell is a pouch-shaped battery cell having a structure in which an outer circumferential surface of a cell case is sealed while an electrode assembly is housed in a cell case of a laminate sheet including a resin layer and a metal layer . The battery module according to claim 1, wherein the external input / output terminal has a bolt-like structure in which a columnar terminal portion extends upwardly from a hexahedral body. The battery module according to claim 2, wherein an upper end of each of the first and second protrusions has an insertion groove formed therein for receiving an external input / output terminal from a side surface thereof. The battery module according to claim 5, wherein a guide rail structure for guiding the insertion direction of the external input / output terminal and preventing the insertion of the external input / output terminal is formed on the inner surface of the insertion groove. The battery module according to claim 6, wherein grooves corresponding to the guide rails are formed on the bottom surface of the main body of the external input / output terminal for side insertion of the external input / output terminal. 6. The battery module according to claim 5, wherein an opening is formed at an upper end of the insertion groove so that a terminal portion of the external input / output terminal is introduced in one direction and that one side of the opening is protruded to the outside of the insertion groove. The battery module according to claim 1, wherein a part of the bus bar is welded to an outermost electrode terminal of the battery cell stack body. delete delete delete The battery pack according to claim 1, wherein the first bus bar and the second bus bar are mounted in a structure in which the first bus bar and the second bus bar are in contact with a top surface of each of the first and second projections and a side surface extending from the top surface, module. The battery module according to claim 1, wherein a front portion of the lower module case is provided with a first slit and a second slit, into which first bus bars and second bus bars connected to the outermost electrode terminals of the battery cell stack body are inserted, Is formed on a surface of the battery module. The battery module according to claim 1, wherein a coupling portion is formed in a lower end inner surface between the first and second projecting portions of the lower module case, the fastening holes being perforated in a first direction. delete The battery module according to claim 1, wherein at least a part of the outer circumference of the opening of the upper module case is provided with at least one side wall protruding upward to protect the external input / output terminal. 18. The battery module according to claim 17, wherein the side wall has one side where the first external input / output terminal and the second external input / output terminal face out of the periphery of the opening of the upper module case, Is formed in the battery module. The battery module according to claim 1, wherein the battery cell stack comprises a plurality of unit modules including plate-shaped battery cells having electrode terminals formed on one side and opposite sides, respectively,
Two or more battery cells in which electrode terminals are connected in series and / or in parallel; And
A pair of cell covers which are mutually coupled to cover the entire outer surface of the battery cell stack body except for the electrode terminal portions of the battery cells;
The battery module comprising: The battery module according to claim 1, further comprising voltage sensing members and a temperature measurement sensor. A battery pack comprising a combination of at least two battery modules according to any one of claims 1 to 9, 13 to 15, and 17 to 20. The battery pack according to claim 21, wherein the battery modules are stacked in a lateral direction so that the bus bars are located at the front portion. The battery pack according to claim 22, wherein the battery modules include a first battery module and a second battery module that are in contact with each other, and the first hollow portion of the first battery module, And a module connecting bus bar is mounted on the second hollow portion of the second battery module of the second battery module. A device according to claim 21, comprising a battery pack. 25. The device of claim 24, wherein the device is one of an electric vehicle, a hybrid electric vehicle, a plug-in hybrid electric vehicle, an electric bicycle, an electric bicycle, and a power storage device.

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