KR102037209B1 - Assembly Jig for Secondary Battery Pack and Assembly Method for Secondary Battery Pack using the Same - Google Patents

Abstract

The present invention relates to assembling a battery pack for a secondary battery, and more particularly, to a battery pack assembly jig for a secondary battery for facilitating assembly of a battery pack for a secondary battery and a battery pack assembly method using the same.

Description

Assembly Jig for Secondary Battery Pack and Assembly Method for Secondary Battery Pack using the Same}

The present invention relates to assembling a battery pack for a secondary battery, and more particularly, to a battery pack assembly jig for a secondary battery for facilitating assembly of a battery pack for a secondary battery and a battery pack assembly method using the same.

In general, secondary batteries are rechargeable and have a large capacity, such as nickel cadmium, nickel hydrogen, and lithium ion batteries. Among them, the lithium ion battery has attracted attention as a next generation power source due to its excellent characteristics such as long life and high capacity. Among these, lithium secondary batteries are used as power sources for portable electronic devices with operating voltages of 3.6 V or more, or used in high-power hybrid vehicles by connecting several in series, and used in nickel-cadmium batteries or nickel-metal hydride batteries. Compared with the three times higher operating voltage and excellent energy density per unit weight, the use is increasing rapidly.

The lithium secondary battery may be manufactured in various forms, and typical shapes include cylindrical and prismatic types that are mainly used in lithium ion batteries. Lithium polymer batteries, which are in the spotlight in recent years, have been manufactured in a flexible pouched type, and their shapes are relatively free. In addition, the lithium polymer battery is excellent in safety and light in weight, which is advantageous for slimmer and lighter portable electronic devices.

A battery cell having a pouch-type configuration as described above is formed of a plurality of battery modules are stacked, the electrode tab is energized with the battery unit for the connection between the battery cells are stacked, each electrode tab connected in series or in parallel to a large capacity Supply voltage or current. A battery module in which a plurality of battery cells are stacked as described above is accommodated in a case together with units for operating the battery module, which is called a battery pack.

In the battery pack having the above configuration, the battery cells are stacked and assembled in the battery module case, and the bottom and top surfaces of the pack case are assembled after the battery module is inserted while the top and bottom surfaces of the battery pack case are opened. Therefore, the battery pack is not easy to assemble, and the assembly time increases, resulting in a decrease in productivity and an increase in production cost.

Korean Patent Publication No. 10-2010-0093988

The present invention has been made in order to solve the above problems, an object of the present invention, the battery module is accommodated in a state in which the battery module is accommodated in the upper and lower pack case, the secondary case easy to assemble the lower case of the pack case through the rotation Disclosed is a battery pack assembly jig for a battery and a battery pack assembly method using the same.

The battery pack assembly jig for a secondary battery of the present invention includes a module case accommodating a plurality of battery cells, and both sides communicate with each other to assemble the upper case and the lower case of the battery module including a pack case surrounding the module case from the side. In the battery pack assembly jig for a battery, the body formed on the lower side, the rotation support extending from the upper side from both sides of the body and the case is formed on the upper side of the body and the case is connected so that the case is connected to the pack case up and down A case holder; A module holder including a module support plate installed in the case holder and movable in an up and down direction in the pack case mounted on the case holder and formed on top of the height controller; And a rotation holder configured to be connected to the rotation support and to fix or fix and rotate the battery module moved upward by the module holder.

In addition, the case mounting portion, the pack case fixing protrusion extending upward from the case support plate to be fixed to the pack case when the pack case is mounted on the case support plate; Is further formed.

In addition, the case rotation mounting portion, the side of the side of the pack case is fixed plate and the side of the side of the side of the pack case fixed to the side fixing plate is provided on both sides of the side fixing plate, the corner fixing portion is the side It is coupled with the side fixing plate through the width adjusting means so that the separation distance with the fixing plate.

In addition, the case rotation mounting portion, screwed to the side fixing plate, the end of the pack fixing bolt for fixing the pack case and the battery module through the pack case to abut the side of the battery module; Is further provided.

A battery pack assembly method using a battery pack assembly jig for a secondary battery of the present invention includes the steps of placing the pack case on the case holder; Moving the module support plate upward in the pack case; The module case is mounted on the module support plate to accommodate a battery cell; Moving the module support plate downward in the pack case to fix the module case to the pack case; The module support plate is raised so that the pack case and the module case are fixed together to the rotating base; The rotation mounting part is fixed to the pack case by a pack fixing bolt to rotate the pack case and the module case together by a predetermined angle; And a lower case coupled to the pack case.

In addition, the assembly method, after the lower case is coupled to the pack case fixed to the rotary mounting portion is rotated a predetermined angle to the other; And an upper case coupled to the pack case.

The battery pack assembly jig for a secondary battery of the present invention and the battery pack assembly method using the same according to the configuration as described above is easy to assemble the lower case of the pack case is rotatable in the assembled state of the battery module on the upper and lower pack case. There is an advantage. Accordingly, the battery pack assembly process is simplified, and the assembly time is shortened, thereby improving productivity of the battery pack and reducing production costs.

1 is a perspective view of an assembly jig according to an embodiment of the present invention
2 to 7 is a perspective view of the assembly method according to an embodiment of the present invention

Prior to describing the assembly jig 100 of the present invention, a configuration of a battery pack assembled through the assembly jig 100 of the present invention will be briefly described. The battery pack includes a pack case, a battery module, an upper case and a lower case. The pack case is on the upper and lower hollow housing, and the upper and lower sides opened in a state where the battery module is accommodated in the pack case is sealed through the upper case and the lower case. The battery module includes a module case and a plurality of battery cells accommodated in the module case.

Hereinafter, the assembling jig 100 according to an embodiment of the present invention for assembling the above-described battery pack will be described in detail with reference to the drawings.

1 is a perspective view of the assembly jig 100 according to an embodiment of the present invention. As shown, the assembly jig 100 includes a case holder 10, a module holder 20, and a rotation holder 30.

The case holder 10 is a configuration in which the initial pack case is mounted for the assembly of the battery module, the case holder 10 includes a body 11, a rotation support 12, and a case holder 13. The body 11 is formed in a plate shape and is fixed to the ground. Rotating support 12 is formed on both sides of the body 11, the rotary support 12 is formed to extend a predetermined distance upward from both sides of the body (11). The hinge holder 12a for hinge coupling with the rotary holder 30 is formed on the upper side of the rotary support 12. A case holder 13 is formed at the center of the body 11, and the case holder 13 extends upward along the center circumference of the body 11. The case holder 13 is formed to have a size corresponding to the pack case, and the pack case fixing protrusion 13a is provided at a corner of the case holder 13 to fix the pack case when the pack case is mounted on the case holder 13. It may be formed to protrude upward of the case holder (13).

Module mounting portion 20 is a configuration for mounting the battery module, the battery module to move up and down in the pack case, and comprises a module support plate 21 and the height adjuster (22). The module support plate 21 is formed in a plate shape. The module support plate 21 is mounted on the top surface of the battery module, the top surface of the module support plate 21 may be configured to correspond to the shape of the battery module so that the battery module is firmly mounted. Height adjuster 22 is provided between the module support plate 21 and the body 11, a general height adjustment configuration for moving the module holder 21 up and down on the body 11 can be applied. Although the height adjuster 22 by the hinge coupling structure is shown in the drawings, any configuration may be applied as long as the configuration enables the module support plate 21 to be moved up and down. The height adjuster 22 may be installed to be accommodated inside the case holder 13 on the body 11.

The rotating holder 30 is configured to fix the battery case in which the battery module is accommodated and rotate about a horizontal axis on the ground to facilitate the coupling of the battery case and the upper and lower cases, and the rotating holder 30 The side fixing plate 31, the corner fixing portion 32, the width adjusting means 33 and the pack fixing bolt 40 (see Fig. 6 below) is made. The side fixing plate 31 is disposed in the vertical direction such that the side of the pack case abuts, and is formed in a plate shape. The side fixing plate 31 is coupled to the rotation support 12 so as to be rotatable about an axis horizontal to the ground through the hinge coupling portion 12a. On the side fixing plate 31, a plurality of bolt coupling holes 31a for screwing the pack fixing bolt 40 for fixing the pack case and the battery module may be formed. Edge fixing parts 32 are coupled to both sides of the side fixing plate 31. The edge fixing part 32 is configured to fix the pack case by wrapping both side edge portions of the side of the pack case where the side fixing plate 31 abuts. At this time, the corner fixing part 32 and the side fixing plate 31 may be coupled through the width adjusting means 33 to correspond to the width of the pack case having various sizes. Width adjusting means 33 may be applied to the conventional width adjusting means capable of adjusting the separation distance of the side fixing plate 31, the corner fixing part (32). The pack fixing bolt 40 includes a threaded body 41 in which threads are formed, and a module fixing body 42 extending from the end of the threaded body 41. Thread body 41 is configured for screwing the side fixing plate 31, the module fixing body 42 through the pack case by screwing the pack fixing bolt 40 and the side fixing plate 31 to the battery It may be configured to press or release the side of the module.

Hereinafter, a battery pack assembling method according to an embodiment of the present invention for assembling the above-described battery pack using the above-described battery pack assembly jig 100 will be described in detail.

2 to 7 are perspective views sequentially showing a battery pack assembly method according to an embodiment of the present invention. 2 is a perspective view showing a state before the pack case 210 is mounted on the assembly jig 100. The pack case 210 is in the upper and lower hollow housing, the case coupling hole corresponding to the bolt coupling hole (31a) on the side facing the side fixing plate 31 when the pack case 210 is mounted on the case holder (13) 211 is formed. Case coupling hole 211 is formed for screwing the pack fixing bolt (40).

3 is a perspective view illustrating a state before the battery module 220 is mounted on the module holder 20 while the pack case 210 is mounted on the assembly jig 100. As shown, the pack case 210 is mounted on the case holder 13, and the pack case 210 is fixed to the case holder 13 without play by the pack case fixing protrusion 13a. In this case, the module support plate 21 may be disposed to be elevated on the upper side of the pack case 210 through the height adjuster 22. Although the battery module 230 is illustrated as being assembled in the state in which the battery module 220 is not mounted on the module holder 20 in the drawing, the battery module 220 is mounted on the module holder 20. The battery cell 230 may be assembled.

4 is a perspective view showing a state before the battery module 220 is mounted on the module holder 20, and the battery module 220 is accommodated in the pack case 210 in the state in which the assembly of the battery module 220 is completed. have. The battery module 220 is accommodated in the pack case 210 by the lowering of the module support plate 21 in the assembly is completed.

FIG. 5 is a perspective view showing a state before the battery module 220 is fixed to the rotation holder 30 in a state in which the battery module 220 is coupled to the pack case 210. The battery module 220 is accommodated in the pack case 210 and then coupled to the pack case 210, and the pack case 210 to which the battery module 220 is coupled is raised by the module support plate 21.

6 is a perspective view showing a state in which the side of the pack case 220 is fixed through the rotation holder 30. When the pack case 210 coupled with the battery module 220 is raised, the side of the pack case 210 is fixed through the rotation holder 30, and the pack fixing bolt is bolted to the rotation holder 30 ( Through 40, the rotary holder 30 and the pack case 210 are more firmly fixed.

FIG. 7 is a perspective view illustrating a state before the pack case 220 is coupled to the pack case 220 by rotating the rotatable mount 30 while the pack case 220 is firmly fixed to the rotatable mount 30. The module support plate 21 descends while the pack case 220 is firmly fixed to the rotation holder 30, and a rotation space of the pack case 220 is formed. Therefore, the pack case 220 is rotated 90 degrees or 270 degrees so that the lower opening face toward the side by the rotation of the rotary holder 30 to facilitate the assembly of the upper and lower cases.

The technical spirit should not be interpreted as being limited to the above embodiments of the present invention. Various modifications may be made at the level of those skilled in the art without departing from the spirit of the invention as claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

100: assembly jig
10: case holder 20: module holder
30: rotation mounting portion 40: pack fixing bolt
210: pack case 220: battery module
230: battery cell

Claims (7)

A module case accommodating a plurality of battery cells,
In the battery pack assembly jig for the secondary battery for assembling the upper case and the lower case of the battery module including a pack case in which both sides are in communication with the module case on the side,
Body formed on the lower side,
Rotating support and formed extending from both sides of the body to the upper side
A case holder formed on an upper side of the body, the case holder including a case holder mounted so that the portion where the pack case is communicated upward and downward;
A module holder including a module support plate installed in the case holder and movable in a vertical direction in the pack case mounted on the case holder and formed on top of the height controller; And
A rotation holder formed to be connected to the rotation support and fixing or fixing and rotating the battery module moved upward by the module holder;
Battery pack assembly jig for a secondary battery comprising a.
The method of claim 1,
In the case holder,
A pack case fixing protrusion extending upwardly from the case holder so that the pack case is fixed when the pack case is mounted on the case holder;
The battery pack assembly jig for secondary batteries is further formed.
The method of claim 1,
The rotation mounting portion,
It is composed of a side fixing plate that the side of the pack case abuts, and a corner fixing portion provided on both sides of the side fixing plate to fix both side edges of the side of the pack case,
The corner fixing part is coupled to the side fixing plate through the width adjusting means so that the separation distance with the side fixing plate, the battery pack assembly jig for secondary batteries.
The method of claim 3, wherein
The case rotation mounting portion,
A pack fixing bolt screwed to the side fixing plate, the end of which penetrates through the pack case and contacts the side of the battery module to fix the pack case and the battery module; Further provided, the battery pack assembly jig for secondary batteries.
In the battery pack assembly method using the battery pack assembly jig for a secondary battery according to any one of claims 1 to 4,
Mounting the pack case on the case holder;
Moving the module support plate upward in the pack case;
The module case is mounted on the module support plate to accommodate a battery cell;
Moving the module support plate downward in the pack case to fix the module case to the pack case;
The module supporting plate is raised so that the pack case and the module case are fixed together to the rotating base;
The rotation mounting part is fixed to the pack case by a pack fixing bolt to rotate the pack case and the module case together by a predetermined angle; And
Coupling a lower case to the pack case;
A battery pack assembly method using a battery pack assembly jig for a secondary battery.
delete The method of claim 5,
The assembly method,
Rotating the pack case fixed to the other side by a predetermined angle after the lower case is coupled; And
Coupling an upper case to the pack case;
Battery pack assembly method using a battery pack assembly jig for secondary batteries further comprising.

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