KR100649562B1 - Secondary Battery Module - Google Patents

Abstract

A box-shaped case comprising a pair of support plates and a pair of side plates that connect the support plates to each other on both sides thereof to prevent separation of the unit cell and to induce uniform deformation, and A plurality of partition walls integrally installed at regular intervals in the case, a plurality of unit cells respectively inserted between the case and the partition walls and between the partition walls and the partition walls, and installed between the case and the unit batteries so that the unit cells are not separated from the case. A battery module including a battery fixing structure for fixing is provided.

The battery fixing structure is composed of a fixing protrusion protruding from the unit cell and a case side plate formed in the case side plate and cut into an approximately "H" shape, or protruding the fixing protrusion in the unit cell and forming a fixing groove in the case side plate. Or, it is made by forming a fixing groove in the unit cell and protruding forming the fixing projection on the case side plate.

Secondary battery, battery module, electric vehicle, bulkhead, unit battery, cutout, separation prevention, case, battery pack

Description

Battery Module {Secondary Battery Module}

1 is an exploded perspective view showing an embodiment of a battery module according to the present invention.

2 is an assembled perspective view showing an embodiment of a battery module according to the present invention.

3 is an assembled perspective view showing another embodiment of the battery module according to the present invention.

Figure 4 is a partially enlarged cross-sectional view showing an embodiment of a battery fixing structure according to the present invention.

5 is a partially enlarged cross-sectional view showing another embodiment of the battery fixing structure according to the present invention.

Figure 6 is a partially enlarged cross-sectional view showing another embodiment of the battery fixing structure according to the present invention.

7 is an assembled perspective view showing still another embodiment of the battery module according to the present invention.

The present invention relates to a battery module, and more particularly to a battery module that prevents the separation by increasing the bonding force of the unit cell.

In general, a secondary battery is a battery that can be repeatedly used because it can be charged and discharged. A secondary battery composed of one battery cell is mainly used for portable small electronic devices such as mobile phones, notebook computers, cameras, and camcorders. As a power source for driving a motor such as a hybrid electric vehicle (HEV) and an electric vehicle (EV), a large capacity secondary battery (hereinafter referred to as a "battery module") formed by connecting a plurality of battery cells (hereinafter referred to as "unit cells") is used. Mainly used.

Each unit cell constituting the battery module includes an electrode assembly formed by inserting a separator, which is an insulator, between the positive electrode plate and the negative electrode plate, a case having a space in which the electrode assembly is built, and a cap coupled to and sealed to the case. And a positive electrode terminal and a negative electrode terminal protruding from the cap assembly and electrically connected to the positive electrode plate and the negative electrode plate of the electrode assembly, respectively.

In the case of a rectangular battery, each unit cell is arranged in such a manner that each of the unit cells is cross-aligned so that the positive electrode terminal and the negative electrode terminal protruding from the top of the cap assembly alternate with the positive terminal and the negative terminal of the neighboring unit cell. A battery module is constructed by connecting a conductor using a nut between the positive electrode terminals.

Since the battery module constitutes one battery module by connecting several to several tens of unit cells, a cooling structure, safety means, system circuit, and the like, which are configured to easily discharge heat generated from each unit battery, are provided. There is a problem that the volume is large. In order to solve this problem, a method of reducing the size by reducing the interval of the unit cells constituting the battery module is used, in this case another problem arises that it is difficult to dissipate heat generated in the unit cell.

Therefore, in designing a battery module, the volume should be minimized, and the heat generated from each unit cell should be easily discharged. Failure to effectively dissipate the heat generated by each unit cell results in an increase in the temperature of the battery module, resulting in a malfunction of the device to which the battery module is applied.

In particular, in the case of a high output large capacity battery module, such as for HEV (Hybrid Electric Vehicle), EV (Electric Vehicle), heat dissipation is important, and when the size of the battery module is increased, the weight of the battery itself is not only increased but also the battery. There is a problem that the design of the device (especially the vehicle) on which the module is mounted becomes difficult.

Therefore, in the case of a battery module that requires a high output large capacity, it is very necessary to develop a battery module that can improve the heat dissipation characteristics while minimizing the size.

In addition, the conventional battery module is provided with a partition wall to secure a space for the distribution of cooling air between each unit cell and structurally prevent deformation of the unit cell, end plates (end plates) are installed at both ends, The unit cell and the partition wall are supported by fixing between both end plates using a long restrain rod or the like.

However, in the conventional battery module as described above, when the external force acts in part (especially in the vertical direction), there is a problem that deformation occurs unevenly, thereby deteriorating the reliability of the battery, and there is a problem that the unit battery may be detached.

An object of the present invention is to solve the above-mentioned problems, it is possible to prevent the separation of the unit cell and uniformly formed by the battery cell structure to form a partition and the case integrally and to increase the bonding force between the case and the unit cell It is to provide a battery module capable of inducing one deformation.

The battery module proposed by the present invention includes a box-shaped case having at least one open surface, a plurality of partition walls integrally installed at regular intervals on the case, and inserted between the case and the partition wall and between the partition wall and the partition wall, respectively. And a battery fixing structure provided between the plurality of unit cells and the case and the unit cell to fix the unit cells so as not to be separated from the case.

The case consists of a pair of support plates positioned at both ends in the direction in which the partition walls are arranged, and a pair of side plates that connect the support plates to each other on both sides, and both edges of the partition wall are integrally fixed.

In the above, the distance between the partition walls is set corresponding to the thickness of the unit battery.

The battery fixing structure includes a fixing protrusion protruding from the case side of the unit battery, and a cutout portion formed at a position corresponding to the fixing protrusion of the case side plate and cut into an approximately "H" shape.

In addition, the battery fixing structure may be formed by forming a fixing projection protruding to the side of the case side of the unit battery, the fixing groove is inserted into the fixing projection at a position corresponding to the fixing projection of the case side plate.

The battery fixing structure may include a fixing groove formed on a side of the case side of the unit battery, and protruding a fixing protrusion at a position corresponding to the fixing groove of the case side plate.

Next, a preferred embodiment of the battery module according to the present invention will be described in detail with reference to the drawings.

First, the first embodiment of the battery module according to the present invention, as shown in Figures 1 and 2, at least one surface of the box-shaped case 10, and integrally installed at regular intervals in the case 10 A plurality of unit cells 20 inserted into the plurality of partition walls 16 and the case 10 and the partition wall 16, and between the partition wall 16 and the partition wall 16, and the case 10. And a battery fixing structure installed between the unit cells 20 and fixing the unit cells 20 so as not to be separated from the case 10.

As the plurality of partitions 16 are provided in the case 10 at regular intervals, a space 11 for inserting the unit cells 20 is formed between the partitions 16.

The case 10 has a pair of support plates 12 positioned at both ends in the direction in which the partition walls 16 are arranged, and the support plates 12 are connected to each other at both sides, and both edges of the partition walls 16 are integrally formed. It consists of a pair of side plates 14 fixed.

In the above, the interval between the partition walls 16 is set corresponding to the thickness of the unit cell 20.

Although not shown in the drawing, the partition 16 may be provided with a protrusion to maintain a predetermined gap with the unit cell 20 in order to effectively release heat generated from the unit cell 20.

The support plate 12 of the case 10 is installed in parallel with the partition wall 16 and the side plate 14 is installed perpendicular to the partition wall 16.

It is preferable that one side (bottom surface) of the case 10 is formed in a clogged shape because it is supported so that the unit battery 20 inserted into the space 11 between the partition walls 16 is not detached.

As shown in FIGS. 1 and 4, the battery fixing structure includes a fixing protrusion 30 protruding from the side surface of the case 10 of the unit cell 20, and a side plate 14 of the case 10. It is formed in a position corresponding to the fixing projection 30 and made of a cutout portion 32 formed by cutting in an approximately "H" shape.

The fixing protrusion 30 is preferably formed at least in the front surface in the insertion direction of the inclined surface to facilitate insertion.

The fixing protrusion 30 may be formed in a trapezoidal shape, or may be formed in various shapes such as a quadrangle, a triangle, a semicircle, and a hemispherical shape.

The side plate 14 of the case 10 in which the cutout portion 32 is formed is preferably formed of a material having a predetermined elastic force, because it holds a fastening force (supporting force) with respect to the fixing protrusion 30.

The assembly process of the unit cell 20 when the battery fixing structure is formed as described above will be described.

First, when the unit cell 20 is inserted into the space 11 formed between the partition walls 16 of the case 10, the fixing protrusion 30 reaches the cutout portion 32, and the protruding fixing protrusion As the cutout portion 32 is opened by the 30, the cutout piece 33 is pushed outward, and the fixing protrusion 30 is inserted into the center portion of the cutout portion 32. At this time, the cut pieces 33 are kept in close contact with the fixing projections 30 with a predetermined elastic force, thereby preventing the unit cell 20 from being separated.

And the battery fixing structure, as shown in Figure 5, protruding to form a fixing projection 30 on the side of the case 10 side of the unit cell 20, the fixing of the side plate 14 of the case 10 It is also possible to form a fixing groove 31 in which the fixing projection 30 is inserted in a position corresponding to the projection (30).

When the battery fixing structure is formed as described above, the fixing protrusion 30 is inserted into the fixing groove 31 so that the detachment of the unit battery 20 is prevented.

In addition, as shown in FIG. 6, the battery fixing structure forms a fixing groove 35 in the side surface of the case 10 of the unit cell 20, and the fixing groove of the side plate 14 of the case 10. It is also possible to project the fixing projections 34 at positions corresponding to 35.

In the above description, the battery fixing structure is provided only between the unit cell 20 and the side plate 14 of the case 10. However, the present invention is not limited thereto, and the unit cell 20 and the partition wall 16 are not limited thereto. It is also possible to install a battery fixing structure.

That is, although not shown in the drawings, the fixing protrusion 30 protrudes from the side surface of the partition wall 16 of the unit cell 20, and the fixing protrusion 30 is positioned at a position corresponding to the fixing protrusion 30 of the partition wall 16. It is also possible to form a fixing groove 31 to be inserted, the fixing groove 35 is formed in the side surface of the partition wall 16 of the unit cell 20 and the fixing groove 35 of the partition wall 16 It is also possible to protrude the fixing projection 34 in a position corresponding to the.

If the battery fixing structure is provided between the unit cell 20 and the partition wall 16 as described above, the assembly of the unit cell 20 is more reliably supported.

It is also possible to provide the battery fixing structure only between the unit cell 20 and the partition wall 16 and not between the case 10 and the unit cell 20.

And another embodiment of the battery module according to the present invention, as shown in Figure 3, protrudes on one (upper) corner of the support plate 12 of the case 10 to form a fixing portion 13, both support plates 12 Install fixing rod 23 to connect and support the fixed portion 13 of the).

The fixing parts 13 may be formed in the center one by one, or two or more fixing parts may be formed at predetermined intervals.

If the fixing part 13 is formed as described above and the fixing bar 23 is installed, the supporting strength for supporting the unit cell 20 is greatly improved, and deformation can be minimized when an external force is applied.

And it is also possible to use the fixing rod 23 as a handle when carrying and moving.

In the above, the fixing portion 13 and the fixing rod 23 have been described as being installed only on the upper side, but the present invention is not limited thereto, and the bottom surface of the case 10 is formed in a state where the fixing portion 13 is also removed. And a fixed bar 23 may be provided to support the unit cell 20.

Also in the above-described second embodiment, the present invention can be implemented in the same configuration as the above-described first embodiment except for the above-described configuration, and thus detailed description thereof will be omitted.

In another embodiment of the battery module according to the present invention, two battery fixing structures are formed.

That is, two fixing protrusions 30 are formed at the upper side and the lower side of the unit cell 20 at the side of the case 10, and the fixing protrusion 30 of the side plate 14 of the case 10 is formed. Two notches 32 formed by cutting substantially in an "H" shape are formed at corresponding positions.

The fixing protrusions 30 and the cutouts 32 may be formed in three or more pieces.

Also in the above-described other embodiments, the present invention can be implemented in the same manner as in the above-described one embodiment and the other embodiments except for the above-described configuration, and thus detailed description thereof will be omitted.

The battery module according to the present invention configured as described above is a device for operating by using a motor such as a HEV (hybrid electric vehicle), an EV (electric vehicle), a wireless cleaner, an electric bicycle, an electric scooter, etc. It can be used as an energy source (motor drive), and in addition, it can be used for various applications requiring high power / large capacity.

In the above, a preferred embodiment of the battery module according to the present invention has been described, but the present invention is not limited thereto, and various modifications can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. This also belongs to the scope of the present invention.

According to the battery module according to the present invention as described above, since the partition and the case are integrally formed and assembled, the installation position and alignment of the partition are kept constant, and the assembly quality of the unit cell is improved.

In addition, according to the battery module according to the present invention, since the partition wall is connected to each other by the side plate of the case to form a structure, when an external force is applied, a uniform deformation is induced as a whole, improving safety and preventing irregular changes in characteristics. It is possible to do

In addition, according to the battery module according to the present invention, since the fixing protrusion is inserted into the cutout or the fixing groove when the unit battery is assembled to the case, it is possible to effectively prevent the detachment of the unit battery, and the unit battery is dropped and injured. It is possible to prevent problems such as wear or breakage.

According to the battery module according to the present invention, since the assembly work is completed by inserting the unit battery into the space between the partition walls of the case, the work time is shortened and the productivity is greatly improved.

Claims (13)

delete delete A box-shaped case having at least one open surface; A plurality of unit cells inserted into the case at regular intervals; A battery fixing structure installed between the case and the unit cell and fixed to prevent the unit cell from being separated from the case in a direction perpendicular to the opened surface; The case has a plurality of partitions are integrally installed at regular intervals, the unit cell is inserted between the partitions, The case is a pair of support plates located at both ends in the direction in which the partition wall is arranged and located parallel to the partition wall, the support plate is connected to each other on both sides and both edges of the partition wall is integrally fixed and positioned perpendicular to the partition wall Consists of a pair of side panels, The battery fixing structure includes a fixing protrusion protruding from the side of the case side of the unit battery, and a cutout portion formed at a position corresponding to the fixing protrusion of the case side plate and cut into an “H” shape. A box-shaped case having at least one open surface; A plurality of unit cells inserted into the case at regular intervals; A battery fixing structure installed between the case and the unit cell and fixed to prevent the unit cell from being separated from the case in a direction perpendicular to the opened surface; The case has a plurality of partitions are integrally installed at regular intervals, the unit cell is inserted between the partitions, The case is a pair of support plates located at both ends in the direction in which the partition wall is arranged and located parallel to the partition wall, the support plate is connected to each other on both sides and both edges of the partition wall is integrally fixed and positioned perpendicular to the partition wall Consists of a pair of side panels, The battery fixing structure is formed by projecting the fixing projections on the side of the case side of the unit cell, the battery module is formed by forming a fixing groove in which the fixing projections are inserted in a position corresponding to the fixing projections of the case side plate. A box-shaped case having at least one open surface; A plurality of unit cells inserted into the case at regular intervals; A battery fixing structure installed between the case and the unit cell and fixed to prevent the unit cell from being separated from the case in a direction perpendicular to the opened surface; The case has a plurality of partitions are integrally installed at regular intervals, the unit cell is inserted between the partitions, The case is a pair of support plates located at both ends in the direction in which the partition wall is arranged and located parallel to the partition wall, the support plate is connected to each other on both sides and both edges of the partition wall is integrally fixed and positioned perpendicular to the partition wall Consists of a pair of side panels, The battery fixing structure is formed by forming a fixing groove on the side of the case side of the unit battery, and a battery module formed by protruding the fixing projection at a position corresponding to the fixing groove of the case side plate. The method according to any one of claims 3 to 5, The fixing projection is a battery module to form an inclined surface at least in the front surface of the insertion direction to facilitate insertion. The method according to any one of claims 3 to 5, A battery module for forming at least two fixing projections and the cutout or fixing grooves for each unit cell. A box-shaped case having at least one open surface; A plurality of unit cells inserted into the case at regular intervals; A battery fixing structure installed between the case and the unit cell and fixed to prevent the unit cell from being separated from the case in a direction perpendicular to the opened surface; The case has a plurality of partitions are integrally installed at regular intervals, the unit cell is sandwiched between the partitions, And a fixing groove formed at a side surface of the partition wall of the unit battery, and protruding a fixing protrusion at a position corresponding to the fixing groove of the partition wall. A box-shaped case having at least one open surface; A plurality of unit cells inserted into the case at regular intervals; A battery fixing structure installed between the case and the unit cell and fixed to prevent the unit cell from being separated from the case in a direction perpendicular to the opened surface; The case has a plurality of partitions are integrally installed at regular intervals, the unit cell is sandwiched between the partitions, And a fixing protrusion protruding from the side surface of the partition wall of the unit cell and forming a fixing groove into which the fixing protrusion is inserted at a position corresponding to the fixing protrusion of the partition wall. delete A box-shaped case having at least one open surface; A plurality of unit cells inserted into the case at regular intervals; A battery fixing structure installed between the case and the unit cell and fixed to prevent the unit cell from being separated from the case in a direction perpendicular to the opened surface; The case has a plurality of partitions are fixedly installed at a predetermined interval, the battery module is inserted between the partition wall. The method according to claim 11, The unit battery is installed to be in close contact with the partition wall. The method according to claim 11, The barrier rib is formed integrally with the case.

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