JP5991542B2 - Battery module assembling jig and battery module manufacturing method - Google Patents

Description

  The present invention relates to a technique for assembling a battery module and a battery module manufacturing method.

Conventionally, a plurality of cells are arranged side by side in the thickness direction and stacked, and a pair of end plates are arranged at both ends in the stacking direction, and the separation distance of the end plates is adjusted to a predetermined distance with a restraining rod. A battery module configured to restrain a plurality of cells is known.
As the battery module having such a configuration, for example, the technology is disclosed in Patent Document 1 shown below and is publicly known.

JP 2006-253149 A

In addition, in a battery module having a structure as shown in Patent Document 1, a safety valve that operates when the internal pressure increases, a thermistor clamp for fastening the thermistor to the cell, etc. In many cases, it is projecting toward.
For this reason, the restraint rod placed above the cell is close to the safety valve and the thermistor clamp, and when the restraint rod is assembled, the restraint rod easily interferes (contacts) the safety valve and the thermistor clamp. It has become.

For this reason, in assembling the battery module having such a structure in the past, when assembling the restraint rod, the restraint rod is inserted while being inclined from the axial direction of the insertion hole of the end plate. Problems such as contact with the safety valve and thermistor clamp and damage to the cell have occurred.
In recent years, in order to reduce the weight of the battery module, efforts have been made to narrow the central portion (portion other than the end portion) of the restraining rod. In this case, since the clearance between the insertion hole of the end plate and the central portion (reduced diameter portion) of the constraining rod becomes larger, there is also a problem that the inclination of the constraining rod tends to increase and the possibility of damaging the cell increases.

  The present invention has been made in view of such a current problem, and an object thereof is to provide a battery module assembling jig and a manufacturing method capable of efficiently assembling a restraining rod without damaging a cell. It is said.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

  That is, in claim 1, a plurality of cells arranged side by side in the thickness direction and a pair of cells disposed at both ends in the stacking direction of the plurality of cells for sandwiching the plurality of cells. An assembling jig for assembling the restraining rod in a battery module comprising an end plate and a restraining rod connecting the pair of end plates, and surrounding the restraining rod in a predetermined length in the axial direction. A main body portion, and at least one end portion in the axial direction of the main body portion surrounding the constraining rod of the main body portion is fitted into an insertion hole for inserting the constraining rod formed in the end plate. A fitting portion and a hole penetrating the main body portion in the axial direction, corresponding to a diameter of a central portion located between the pair of end plates in the restraining rod Have that size, and said central portion and can be inserted the guide hole is formed, the body part is intended to be divided by two due to the axial direction parallel to the plane passing through the guide hole.

  In Claim 2, The said main-body part is arrange | positioned adjacent to the other end part side of the said fitting part, and the external shape seen from the axial direction of the said guide hole is formed larger than the said fitting part It has a part.

  In Claim 3, the said main-body part divided | segmented into two, and the division | segmentation parts of this main-body part are connected and integrated by the leaf | plate spring in the outer surfaces parallel to the said axial direction, The angle formed by can be changed.

  According to a fourth aspect of the present invention, the main body is made of a material having a smaller hardness than the restraining rod.

  6. The plurality of cells stacked side by side in the thickness direction, and a pair of end plates for sandwiching the plurality of cells disposed at both ends in the stacking direction of the plurality of cells. And a constraining rod for connecting the pair of end plates, and a battery module manufacturing method using the constraining rod assembly method in a battery module, wherein the constraining rod is surrounded by a predetermined length in an axial direction. An insertion hole for inserting the constraining rod formed in the end plate into at least one end in the axial direction in a state of surrounding the constraining rod of the main body in the main body. A fitting portion to be fitted and a hole penetrating the main body portion in the axial direction, the position being coincident with the center of the insertion hole in a state where the fitting portion is fitted to the insertion hole. And a guide hole that has a diameter corresponding to the diameter of the central portion located between the pair of end plates of the restraining rod and can be inserted through the central portion, and the main body portion Is performed using an assembling jig that is divided into two by a plane including the axis of the guide hole so that at least the central portion of the predetermined length is disposed inside the end plate on one side. The restraining rod is inserted into the insertion hole in the end plate on the one side, and the center portion on the inner side of the end plate on the one side is fitted into the guide hole to dispose the assembly jig. And a second step of sliding the assembly jig along the central portion toward the one end plate and fitting the fitting portion into the insertion hole of the one end plate. And the process Along the wellbore, and a third step of inserting said restraining rod end plate side of the other side, those comprising a.

  As effects of the present invention, the following effects can be obtained.

  According to the battery module assembling jig and the battery module manufacturing method according to the present invention, the restraining rod can be efficiently assembled without damaging the cells.

The schematic diagram which shows the whole structure of the battery module which is an application object of this invention. The schematic diagram which shows the insertion condition of the restraint rod at the time of an assembly of a battery module, (a) Whole perspective view, (b) Partial expansion perspective view. The schematic diagram which shows the component of a battery module, (a) The schematic diagram which shows an end plate, (b) The schematic diagram which shows a restraint rod. The schematic diagram which shows the jig | tool for assembly | attachment which concerns on one Embodiment of this invention. The schematic diagram which shows the opening / closing state of the assembly | attachment jig | tool which concerns on one Embodiment of this invention, (a) Front schematic diagram, (b) Perspective schematic diagram. The flowchart which shows the assembly method of the battery module which concerns on one Embodiment of this invention. The schematic diagram which shows the assembly | attachment method of the battery module which concerns on one Embodiment of this invention.

Next, embodiments of the invention will be described.
First, a battery module to which a manufacturing method according to the present invention is applied will be described with reference to FIGS.
As shown in FIG. 1, the battery module 1 to which the manufacturing method according to the present invention is applied includes a plurality of cells 2..., A pair of end plates 3 and 4, restraining rods 5 and 5. It is a nonaqueous electrolyte secondary battery comprised by these.

  The cell 2 has a box shape, and a plurality of cells 2... Are arranged in a row in the thickness direction and stacked, and each terminal of the positive electrode and the negative electrode with a bus bar (not shown) or the like. They are electrically connected to each other, and are configured as a secondary battery having desired performance.

  The pair of end plates 3, 4 are arranged at both ends in the stacking direction of the stacked cells 2, 2..., And the plurality of cells 2, 2. By applying pressure, a predetermined restraining pressure is applied to each cell 2.

As shown in FIG. 2 (a), the end plate 3 is formed with insertion holes 3a and 3a, which are holes for inserting the restraining rod 5, in the upper part thereof.
Similarly, in the lower portion of the end plate 3, insertion holes 3 b and 3 b that are holes for inserting the restraining rod 5 are formed.
The configuration of the end plate 4 is the same as the configuration of the end plate 3, and insertion holes 4 a and 4 a that are holes for inserting the constraint rod 5 are formed in the upper portion thereof, and the constraint rod 5 is formed in the lower portion thereof. Insertion holes 4b and 4b, which are holes for insertion of, are formed.

  In the present embodiment, of the end plates 3 and 4, the upper side in the insertion direction of the restraining rod 5 with respect to the end plates 3 and 4 (the direction of the arrow X shown in FIGS. 3A and 3B). The end plate located at the end plate 3 is referred to as the end plate 3, and the end plate located on the lower side in the insertion direction is referred to as the end plate 4.

As shown in FIG. 1, the restraining rod 5 is a member for connecting a pair of end plates 3, 4 and adjusting a separation distance between the end plates 3, 4.
In the battery module 1 shown in the present embodiment, the distance between the end plates 3 and 4 is adjusted using the four restraining rods 5, 5, 5, 5, and the cells 2, 2. It is set as the structure restrained, applying predetermined | prescribed restraint pressure.

As shown in FIG. 2 (b), the restraining rod 5 includes an enlarged diameter portion 5 a at one end in the axial direction of the restraining rod 5. And this enlarged diameter part 5a is taken as the front-end | tip part in the insertion direction at the time of insertion of the restraint rod 5. FIG.
The restraining rod 5 includes a reduced diameter portion 5b that is continuous with the enlarged diameter portion 5a at an intermediate portion in the axial direction.
Further, the restraining rod 5 is provided with a stopper 5e at the other end in the axial direction of the restraining rod 5, and is provided with stepped portions 5c and 5d adjacent to the inside of the stopper 5e. And let this stopper 5e be the rear-end part in the insertion direction at the time of insertion of the restraint rod 5. FIG. The stepped portions 5c and 5d are formed to have a smaller diameter than the stopper 5e.

  The diameter of the reduced diameter portion 5b is smaller than that of the enlarged diameter portion 5a and the stepped portions 5c and 5d, and the diameter of the enlarged diameter portion 5a and the stepped portions 5c and 5d is formed in the end plate 3. It is made smaller than the insertion hole 3a.

  Further, the diameter of the stopper 5e is larger than that of the insertion hole 3a formed in the end plate 3, and the progress of the insertion operation of the restraining rod 5 into the insertion hole 3a is restricted when the stopper 5e contacts the end plate 3. It is assumed to be configured.

  1 and 3B, on the upper surface of the cell 2 constituting the battery module 1 shown in this embodiment, there is a safety valve 2a that operates when the internal pressure rises, and a thermistor (not shown) for the cell 2. A thermistor clamp 2b, which is a portion for fastening the zigzag), projects upward.

  For this reason, the restraining rods 5 and 5 arranged above the cell 2 are close to the safety valve 2a and the thermistor clamp 2b. In the battery module 1, when the restraining rods 5 and 5 are assembled, 5 has a structure that easily interferes (contacts) with the safety valve 2a and the thermistor clamp 2b.

Next, an assembling jig used in the battery module assembling method according to the present invention will be described with reference to FIGS.
As shown in FIG. 4, an assembly jig 10 according to an embodiment of the present invention is a jig that enables efficient assembly of the restraining rod 5 in the assembly operation of the battery module 1. It is comprised by the leaf | plate spring 12 grade | etc.,.

The main body 11 is a part for restricting the insertion direction of the restraining rod 5 to which the assembling jig 10 is attached to the end plate 3 (more specifically, the insertion hole 3a), and is a part adjacent to the length direction. A portion 11a and a fitting portion 11b are provided, and a guide hole 11c penetrating the grip portion 11a and the fitting portion 11b is formed.
From the viewpoint of preventing the cell 2 and the restraining rod 5 from being damaged, it is preferable to use a material having a lower hardness than the material constituting the cell 2 and the restraining rod 5. A synthetic resin or the like can be used.

The gripping part 11a is a part whose dimensions in the width direction and the height direction are made larger than those of the fitting part 11b so that the gripping part 11a can be easily gripped when using the assembling jig 10. By gripping the portion 11a, the assembly jig 10 can be easily closed. Moreover, the holding part 11a is arrange | positioned adjacent to the other end part side of the fitting part 11b, and the external shape seen from the axial direction of the guide hole 11c is formed larger than the fitting part 11b.
In addition, the dimension of the width direction and the height direction of the holding part 11a is a dimension which does not contact the safety valve 2a or the thermistor clamp 2b when the assembling jig 10 is attached to the restraining rod 5.
In addition, the dimension in the length direction of the gripping part 11a (the penetration direction of the guide hole 11c) is set to a dimension equal to or smaller than the thickness dimension of the cell 2 in consideration of workability when the main body part 11 is opened and removed. preferable.

The fitting part 11b is a part for positioning the assembling jig 10 with respect to each of the cells 2, 2... And the end plates 3 and 4, and is a hole of the insertion hole 3a formed in the end plate 3. It has an outer shape corresponding to the shape, and can be fitted into the insertion hole 3a.
Since the insertion hole 3a formed in the end plate 3 shown in the present embodiment has a substantially rectangular cross-sectional shape and a rounded corner, the fitting portion 11b has a substantially rectangular shape corresponding thereto. The cross-sectional shape is such that the corners are rounded.
Moreover, it is preferable to determine the dimension of the length direction of the fitting part 11b in consideration of the arrangement position of the gripping part 11a when the fitting part 11b is pushed out from the insertion hole 3a.

The guide hole 11c is a hole having a diameter corresponding to the reduced diameter portion 5b of the constraining rod 5, and more specifically has a diameter slightly larger than the diameter of the reduced diameter portion 5b. The constraining rod 5 can be slid along the guide hole 11c by moving the 5b along the guide hole 11c.
Further, the guide hole 11c in the main body 11 is formed so that its axis coincides with the center of the insertion hole 3a in a state where the fitting part 11b is fitted in the insertion hole 3a of the end plate 3. .

The main body 11 is divided into two at a boundary portion 11d located on a vertical plane passing through the center of the guide hole 11c. It is composed. Each part of the main body 11 after being divided into two is called a divided part.
In the present embodiment, the main body portion 11 is divided into two parts on a vertical plane passing through the center of the guide hole 11c. For example, the main body part 11 is divided on a horizontal plane passing through the center of the guide hole 11c. Alternatively, the main body 11 may be divided by a plane having a predetermined angle with respect to the vertical plane.
Further, since the clearance is set in the diameter of the reduced diameter portion 5b of the guide hole 11c and the restraining rod 5, the surface dividing the main body portion 11 does not necessarily pass through the center of the guide hole 11c. There may be a deviation in the clearance range.

The leaf spring 12 is composed of two parts, a first member 12a and a second member 12b, and has a hinge-like form in which the first member 12a and the second member 12b are connected by a spring member (not shown). Yes.
As shown in FIGS. 5A and 5B, the leaf spring 12 is biased by a spring member (not shown) in a steady state where no external force is applied, so that the first member 12a and the second member 12b have a predetermined angle. The first member 12a and the second member 12b are configured to have a flat plate shape by applying an external force (form having a substantially V-shaped cross section).

And by connecting the main body part 11 (namely, each division | segmentation part) with such a leaf | plate spring 12, if an operator picks the holding | grip part 11a and provides external force, the leaf | plate spring 12 will become flat form, The main body part 11 is in a closed state, and when the operator releases his hand from the grip part 11a, the leaf spring 12 becomes substantially V-shaped and the main body part 11 is naturally open. Has been.
Further, the leaf spring 12 is a side portion (in FIG. 5) parallel to the axial direction of the guide hole among the side portions appearing on the outer periphery of the divided surface (the surface including the boundary portion 11d) in the main body portion 11 divided into two. The outer side surfaces on the side where the upper side or the lower side) appear are connected to each other, and the main body 11 divided into two parts (that is, each divided part) is integrated.

When the main body 11 is open, the guide hole 11c is divided into two semicircular parts and opened, and the restraining rod 5 is fitted into the guide hole 11c from the open part of the main body 11. Can do.
When the main body 11 is closed with the restraining rod 5 fitted in the guide hole 11c, the main body 11 surrounds the restraining rod 5 with the guide hole 11c being placed along the reduced diameter portion 5b. be able to.

Next, a method for manufacturing the battery module 1 according to the present invention will be described with reference to FIGS. The method for manufacturing the battery module 1 according to the present invention uses a method for assembling the restraining rod 5 in the battery module 1.
As shown in FIGS. 6 and 7, in the method for manufacturing the battery module 1 according to the present invention, first, a plurality of cells 2... Are stacked, and the stacked cells 2. End plates 3 and 4 are arranged at both ends in the direction.
It should be noted that the insertion holes 3b and 4b formed in the lower part of the end plates 3 and 4 are restrained when the end plates 3 and 4 are arranged at both ends in the stacking direction of the cells 2 and 2. The rods 5 and 5 are inserted in advance.

In this state, the restraining rod 5 is inserted into the insertion hole 3a of the end plate 3, and the assembling jig 10 is attached to the reduced diameter portion 5b of the restraining rod 5 (STEP-1).
At this time, the insertion direction of the restraining rod 5 is the direction of the arrow X (see FIG. 3B), and the reduced diameter portion 5b of the restraining rod 5 is located on the inner side of the end plate 3, and the length of the assembling jig 10 is long. Insert so that it appears longer than this. Then, the portion of the reduced diameter portion 5b inserted inside the end plate 3 is fitted into the guide hole 11c from the opened portion of the main body portion 11 of the assembling jig 10.
At this time, the operator holds the gripping portion 11a so that the main body portion 11 of the assembling jig 10 is closed.

Next, the assembling jig 10 is slid toward the end plate 3 along the reduced diameter portion 5b of the restraining rod 5, and the fitting portion 11b is fitted into the insertion hole 3a of the end plate 3 (STEP-2). ).
At this stage, the operator can maintain the assembly jig 10 in a closed state without gripping the grip portion 11a, and lightly so that the fitting portion 11b does not come out of the insertion hole 3a. It is only necessary to attach a hand (apply a slight force in the direction opposite to the arrow X).

  Next, the restraining rod 5 is slid along the guide hole 11c of the assembling jig 10, and the restraining rod 5 is further inserted into the insertion hole 3a in the insertion direction X (STEP-3). ).

At this time, the constraining rod 5 is accurately inserted toward the axial center direction of the guide hole 11c, and therefore the constraining rod 5 is in a state where the axial center direction of the insertion hole 3a coincides with the axial center direction of the constraining rod 5. Can be inserted.
For this reason, it can prevent that the restraint rod 5 contacts the safety valve 2a and the thermistor clamp 2b.

Next, when the restraint rod 5 is pushed forward, the stepped portion 5c eventually comes into contact with the fitting portion 11b, and further, when the restraint rod 5 is pushed to the position where the stopper 5e comes into contact with the end plate 3, the fitting portion It is pushed out from the insertion hole 3a so that 11b is located inside the end plate 3.
At this stage, when the operator releases his / her hand from the gripping part 11 a and loosens the gripping force on the gripping part 11 a of the assembling jig 10, the main body part 11 is opened by the spring force of the leaf spring 12. The assembly jig 10 can be easily removed from the restraining rod 5 (STEP-4).

  At the same time, the enlarged diameter portion 5 a of the restraining rod 5 is inserted into the insertion hole 4 a of the end plate 4.

Then, from the outside of the end plate 4, bolts 6 (see FIG. 1) are screwed into the enlarged diameter portion 5 a so that both ends of the restraining rod 5 are larger in diameter than the insertion holes 3 a and 4 a. Try not to come off.
Further, the distance between the end plates 3 and 4 is adjusted by adjusting the tightening amount of the bolt 6.

  In this way, the battery module 1 is manufactured in which each cell 2 · 2 ··· is clamped by each end plate 3 · 4 and a predetermined restraining pressure is applied to each cell 2 · 2 ···. To do.

  That is, the assembling jig 10 according to an embodiment of the present invention includes a plurality of cells 2... And a plurality of cells 2. .., A pair of end plates 3, 4 for clamping a plurality of cells 2, 2,..., And constraining rods 5, 5. A jig for assembling the restraining rod 5 in the battery module 1, comprising a body portion 11 that surrounds the restraining rod 5 with a predetermined length in the axial direction. A fitting portion 11b that fits into an insertion hole 3a for inserting the restriction rod 5 formed in the end plate 3 into at least one end portion in the axial direction in a state of surrounding the restriction rod 5, and a body in the axial direction. A hole penetrating the portion 11, and a fitting portion A center portion (that is, a reduced diameter portion) located between the pair of end plates 3 and 4 in the restraining rod 5 with the position coincident with the center of the insertion hole 3a in a state where 1b is fitted in the insertion hole 3a. 5b) and a guide hole 11c that can be inserted through the reduced diameter portion 5b. The main body 11 is parallel to the axial direction of the guide hole 11c that passes through the guide hole 11c. The plane is divided into two by a plane (in this embodiment, a plane including the axis of the guide hole 11c).

  In the assembling jig 10 according to the embodiment of the present invention, the main body portion 11 is disposed adjacent to the other end portion side of the fitting portion 11b and has an outer shape viewed from the axial direction of the guide hole 11c. The holding part 11a formed larger than the fitting part 11b is provided.

  In the assembling jig 10 according to one embodiment of the present invention, the main body 11 divided into two parts is formed by separating the divided parts of the main body 11 between the outer surfaces parallel to the axial direction of the guide hole 11c. They are connected and integrated by a spring 12 so that the angle formed by the divided portions of the main body 11 can be changed.

  In the assembling jig 10 according to one embodiment of the present invention, the main body 11 is made of a material having a smaller hardness than the restraining rod 5.

  Furthermore, the manufacturing method of the battery module 1 according to the embodiment of the present invention includes a plurality of cells 2... And a plurality of cells 2. A pair of end plates 3 and 4 for sandwiching a plurality of cells 2 and 2 disposed at both ends in the stacking direction, and a restraining rod 5 and 5 for connecting the pair of end plates 3 and 4. A battery module manufacturing method using the method of assembling the restraining rod 5 in the battery module 1 comprising: a main body 11 surrounding the restraining rod 5 with a predetermined length in the axial direction; And a fitting portion 11b fitted into an insertion hole 3a for inserting the restriction rod 5 formed in the end plate 3 into at least one end portion in the axial direction in a state of surrounding the restriction rod 5 of the main body portion 11. The body in the axial direction 11 is a hole that passes through the center of the insertion hole 3a in a state where the fitting portion 11b is fitted in the insertion hole 3a. A guide hole 11c having a diameter corresponding to the diameter of the central portion (i.e., the reduced diameter portion 5b) positioned therebetween and capable of being inserted through the reduced diameter portion 5b is formed. The assembling jig 10 is divided into two parts by a plane including the axial center, and the constriction is performed so that at least the reduced diameter portion 5b having the predetermined length is arranged inside the end plate 3 on one side. First step (STEP-1) in which the rod 5 is inserted into the insertion hole 3a in the end plate 3, the reduced diameter portion 5b inside the end plate 3 is fitted into the guide hole 11c, and the assembling jig 10 is disposed. And reduce the diameter of the assembly jig 10 A second step (STEP-2) in which the fitting portion 11b is fitted into the insertion hole 3a of the end plate 3 by sliding to the end plate 3 side along 5b, and the restraining rod along the guide hole 11c. And a third step (STEP-3) for inserting 5 into the other end plate 4 side.

  And according to the manufacturing method of the battery module 1 using the assembling jig 10 having such a configuration, the restraining rod 5 can be efficiently assembled without damaging the cells 2.

DESCRIPTION OF SYMBOLS 1 Battery module 2 Cell 3 End plate 3a Insertion hole 4 End plate 5 Restraint rod 5b Reduced diameter part 10 Assembly jig | tool 11 Main body part 11a Holding part 11b Fitting part 11c Guide hole 11d Boundary part 12 Leaf spring

Claims (5)

A plurality of cells stacked in line in the thickness direction;
A pair of end plates for sandwiching the plurality of cells, disposed at both ends in the stacking direction of the plurality of cells;
A restraining rod for connecting the pair of end plates;
An assembling jig for assembling the restraining rod in a battery module comprising:
A main body that surrounds the restraining rod in a predetermined length in the axial direction;
In the main body,
A fitting portion that fits into an insertion hole for inserting the restriction rod formed in the end plate, at least at one end portion in the axial direction in a state of surrounding the restriction rod of the main body portion;
A hole that penetrates the main body portion in the axial direction, has a diameter corresponding to a diameter of a central portion located between the pair of end plates in the restraining rod, and can be inserted through the central portion. A guide hole is formed,
The main body is
Divided by a plane parallel to the axial direction passing through the guide hole,
A battery module assembling jig characterized by that. The main body is
It is disposed adjacent to the other end portion side of the fitting portion, and includes a gripping portion whose outer shape viewed from the axial direction of the guide hole is formed larger than the fitting portion.
The battery module assembling jig according to claim 1. The main body divided into two parts is
The divided parts of the main body part are connected and integrated by a leaf spring between outer surfaces parallel to the axial direction,
The angle formed by the divided parts of the main body part is configured to be changeable,
The jig for assembling the battery module according to claim 1, wherein the jig is assembled. The main body is
It is composed of a material having a smaller hardness than the restraining rod,
The jig for assembling the battery module according to any one of claims 1 to 3, wherein: A plurality of cells stacked in line in the thickness direction;
A pair of end plates for sandwiching the plurality of cells, disposed at both ends in the stacking direction of the plurality of cells;
A restraining rod for connecting the pair of end plates;
A battery module manufacturing method using the method of assembling the restraining rod in a battery module comprising:
A main body that surrounds the restraining rod in a predetermined length in the axial direction;
In the main body,
A fitting portion that fits into an insertion hole for inserting the restriction rod formed in the end plate, at least at one end portion in the axial direction in a state of surrounding the restriction rod of the main body portion;
A hole that penetrates the main body portion in the axial direction, and a position that coincides with the center of the insertion hole in a state in which the fitting portion is fitted in the insertion hole, is an axis, and the pair of the restraining rods A diameter corresponding to the diameter of the central portion located between the end plates, and a guide hole that can be inserted through the central portion is formed,
The main body is
It is performed using an assembling jig divided into two by a plane including the axis of the guide hole,
The constraining rod is inserted into the insertion hole in the one end plate so that at least the central portion of the predetermined length is disposed inside the one end plate, and the one end plate A first step of placing the assembly jig by fitting the central portion inside the guide hole into the guide hole;
A second step of sliding the assembly jig along the central portion toward the one end plate side and fitting the fitting portion into the insertion hole of the one end plate;
A third step of inserting the restraining rod into the other end plate along the guide hole;
Comprising
A method for manufacturing a battery module.

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