JP2015193080A - structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To secure quickness of fixing work and high fixing strength.SOLUTION: In a laminate steel plate in which a metal part formed of metallic material and a resin part formed of resin material are laminated, the resin part is joined to a resin member by ultrasound welding for fixation. Thus, fixing of the laminate steel plate is performed by ultrasound welding and therefore quickness of fixing work and high fixing strength can be secured.

Description

  The present technology relates to the technical field of structures. More specifically, the present invention relates to a technical field in which a resin part of a laminated steel sheet in which a metal part and a resin part are laminated is joined and fixed to a resin member by ultrasonic welding to ensure a quick fixing operation and high fixing strength.

  There are various types of electronic devices such as a television receiver, a personal computer, a mobile phone, a portable terminal device, a disk drive device, and an acoustic device, and these electronic devices are provided with various structures. .

  Some of these various structures are configured by fixing predetermined members to other members by various methods. As such a fixing method, for example, there are various methods such as a method using a mounting screw, a method by welding, a method by adhesion, a method by engagement, and the like (for example, see Patent Document 1).

  In the structure described in Patent Document 1, an attachment means having an insertion recess and a screw boss are provided in a casing, and a locked piece portion and an attached piece portion having a screw insertion groove are provided in a display device. ing. In this structure, the locking piece is inserted into and engaged with the insertion recess of the mounting means, and the mounting screw inserted into the screw insertion groove is screwed into the screw boss to fix the display device to the housing. I am doing so.

JP 2011-77114 A

  However, in the structure described in Patent Document 1, it is necessary to perform an operation of inserting the locked piece into the insertion recess of the attachment means and screwing the attachment screw into the screw boss. There is a problem to say. This problem of working time occurs in the same way even in the method by welding or adhesion, for example.

  In addition, the method using the mounting screw has a problem that the mounting screw is loosened due to a change with time, and there is a possibility that a high fixing strength cannot be secured.

  Then, this technical structure solves an above-described subject, and makes it a subject to ensure the quickness of fixing work, and high fixing strength.

  First, in order to solve the above-described problems, the structural body is formed by ultrasonic welding of the resin portion of the laminated steel sheet in which the metal portion formed of the metal material and the resin portion formed of the resin material are laminated. It is bonded and fixed to a resin member.

  Therefore, in the structure, the resin portion is melted by ultrasonic welding, and the laminated steel plate is fixed to the resin member.

  2ndly, in a structure, it is desirable that the said resin part of the said laminated steel plate and the said resin-made members are formed with the same material.

  By forming the resin portion and the resin member of the laminated steel plate from the same material, good meltability of the resin portion and the resin member is ensured.

  Thirdly, in the structure, it is preferable that a plurality of welding ribs protruding toward the laminated steel plate are provided in a portion fixed by ultrasonic welding of the resin member.

  By providing a plurality of welding ribs convex toward the laminated steel plate at a portion fixed by ultrasonic welding of the resin member, the welding rib is melted and the laminated steel plate and the resin member are joined.

  Fourthly, in the structure, it is desirable that the resin member is formed in a bent shape, and the laminated steel sheet is formed in a bent shape according to the bent state of the resin member.

  The resin member is formed into a bent shape, and the laminated steel plate is formed into a bent shape according to the bent state of the resin member, so that the bent steel plate having a bent shape that is not a flat plate is formed into the resin member. Fixed.

  Fifth, in the structure, it is desirable that the resin member is formed in a curved shape, and the laminated steel sheet is formed in a curved shape according to the curved state of the resin member.

  The resin-made member is formed into a curved shape, and the laminated steel plate is formed into a curved shape according to the curved state of the resin-made member. Fixed.

  Sixth, in the structure, a predetermined part is attached to the laminated steel sheet, and the predetermined part is attached to the resin member by fixing the laminated steel sheet to the resin member. Is desirable.

  A predetermined part is attached to the laminated steel sheet, and by fixing the laminated steel sheet to the resin member, the predetermined part is attached to the resin member. Is done in the work.

  Seventhly, in the structure, it is desirable that the laminated steel plate is bent into a predetermined shape and provided as a leaf spring.

  When the laminated steel plate is bent into a predetermined shape and provided as a leaf spring, the laminated steel plate functioning as a leaf spring is fixed to the resin member.

  In the present technical structure, the resin portion of the laminated steel sheet in which the metal portion formed of the metal material and the resin portion formed of the resin material are laminated is joined and fixed to the resin member by ultrasonic welding. .

  Therefore, since the laminated steel plates are fixed by ultrasonic welding, it is possible to ensure the quickness of fixing work and high fixing strength.

  In the technique described in claim 2, the resin portion of the laminated steel sheet and the resin member are formed of the same material.

  Therefore, a high fixing strength by ultrasonic welding can be ensured.

  In the technique described in claim 3, a plurality of welding ribs convex toward the laminated steel plate are provided in a portion fixed by ultrasonic welding of the resin member.

  Therefore, the welding rib can be melted to ensure good bondability between the laminated steel plate and the resin member.

  In the technique described in claim 4, the resin member is formed in a bent shape, and the laminated steel sheet is formed in a bent shape according to the bent state of the resin member.

  Therefore, a high fixing strength by welding can be secured even in a bent shape that is not flat.

  In the technique described in claim 5, the resin member is formed in a curved shape, and the laminated steel sheet is formed in a curved shape according to the curved state of the resin member.

  Therefore, a high fixing strength by welding can be secured even in a curved shape that is not flat.

  In the technique described in claim 6, a predetermined part is attached to the laminated steel sheet, and the predetermined part is attached to the resin member by fixing the laminated steel sheet to the resin member. I have to.

  Therefore, the fixing operation is easy, and the fixing operation and the mounting operation of the predetermined part are performed in one operation, so that the workability can be improved.

  In the technique described in claim 7, the laminated steel plate is bent into a predetermined shape and provided as a leaf spring.

  Accordingly, the fixing work is easy, and the laminated steel sheet functions as a leaf spring, so that it is possible to improve the functionality of the laminated steel sheet while ensuring high fixing strength by ultrasonic welding.

  The best mode for carrying out the structure of the present technology will be described below with reference to the accompanying drawings.

[Structure of laminated steel sheet]
First, the structure of the laminated steel plate constituting a part of the structure will be described (see FIGS. 1 to 4).

  The laminated steel sheet 1 is formed by laminating a metal part 2 formed of a metal material and a resin part 3 formed of a resin material (see FIG. 1).

  The metal part 2 is formed of various metal materials such as stainless steel (SUS), electrogalvanized steel sheet (SECC), and aluminum.

  The resin part 3 includes, for example, acrylonitrile-butadiene-styrene copolymer resin (ABS), polyethylene resin (PE), polypropylene resin (PP), polystyrene resin (PS), acrylic resin (polymethyl methacrylate resin (PMMA)), It is formed of various resin materials such as polyacetal resin (POM).

  The laminated steel sheet 1 is formed, for example, in a thin plate shape as a whole, and the resin part 3 is joined to the metal part 2 via, for example, an adhesive layer (not shown).

  In addition, in the laminated steel plate 1, for example, a metal part 2 and a plurality of different types of resin parts 3, 3,... May be laminated (see FIG. 2). FIG. 2 shows an example in which two types of resin portions 3 and 3 are provided. Conversely, in the laminated steel sheet 1, although not shown, a plurality of different types of metal parts 2, 2,... May be laminated.

  The shape of the laminated steel sheet 1 is arbitrary. For example, in addition to a two-dimensional shape such as a rectangular shape, an L shape (see FIG. 3), a circular shape, etc., a three-dimensional shape such as a crank shape (see FIG. 4) It may be formed.

  As will be described later, since the resin part 3 is joined to the resin member by ultrasonic welding, the material of the resin part 3 is the same material as the resin member or the same kind of material as the resin member. It is desirable.

  By forming the resin part 3 with the same or the same kind of material as the resin member, good meltability between the resin part 3 and the resin member is ensured, and high fixing strength by ultrasonic welding can be ensured. Moreover, when the material of the resin part 3 and the resin-made members is different, in order to ensure high fixing strength by ultrasonic welding of the two, the temperatures melted by ultrasonic welding are the same or close to each other. It is desirable.

  On the other hand, what is necessary is just to select the material of the metal part 2 in consideration of the required fixing strength etc. in the state in which the laminated steel plate 1 is fixed to the resin member.

[Fixing work of laminated steel plate and resin member]
Next, each example of the fixing work of the laminated steel plate 1 and the resin member will be described (see FIGS. 5 to 10).

<First example>
First, a first example will be described (see FIG. 5).

  In the first example, different resin members 4 and 5 are arranged adjacent to the work table 100. The material of the resin members 4 and 5 may be the same or different.

  The laminated steel sheet 1 is placed on the upper surfaces of the resin members 4 and 5. In the laminated steel sheet 1, for example, the metal part 2 and the resin part 3 are laminated, and the resin part 3 is in contact with the resin members 4 and 5.

  In the state set as described above, the horn 200 is pressed against the metal part 2 from above, and ultrasonic waves are emitted to the laminated steel sheet 1. The ultrasonic waves emitted from the horn 200 are propagated through the metal part 2 and reach the resin part 3, and the resin part 3 is melted and joined to the resin members 4 and 5. When the resin part 3 is melted and joined to the resin members 4 and 5, the laminated steel plate 1 and the resin members 4 and 5 are fixed, and the resin member 4 and the resin member 5 are connected by the laminated steel plate 1. The

  Thus, in the first example, the laminated steel plate 1 is fixed to the resin members 4 and 5 by being placed and ultrasonically welded while the laminated steel plate 1 is straddling the resin members 4 and 5. In addition, since the resin member 4 and the resin member 5 are connected to each other, the fixing work is easy and the workability can be improved. In particular, when the resin members 4 and 5 are fixed with an adhesive, an adhesive tape, or the like, there is a risk that partial adhesive strength variation may occur or the fixing strength may decrease due to deterioration over time. By performing welding, such a problem does not occur and high fixing strength can be ensured.

  Moreover, in ultrasonic welding, since the laminated steel plate 1 can be fixed to the resin members 4 and 5 in less than 1 second, the speed of fixing work can be increased.

<Second example>
Next, a second example will be described (see FIG. 6).

  In the second example, the resin member 6 is disposed on the work table 100. On the upper surface of the resin member 6, welding ribs 6 a, 6 a,.

  The laminated steel sheet 1 is placed on the upper surface of the resin member 6. In the laminated steel plate 1, for example, the metal part 2 and the resin parts 3 and 3 are laminated, and the lowermost resin part 3 is in contact with the resin member 6.

  In the state set as described above, the horn 200 is pressed against the metal part 2 from above, and ultrasonic waves are emitted to the laminated steel sheet 1. The ultrasonic wave emitted from the horn 200 is propagated through the metal part 2 to reach the lowermost resin part 3, and the lowermost resin part 3 is melted and joined to the resin member 6. At this time, the resin member 6 is provided with welding ribs 6a, 6a,... And the laminated steel sheet 1 is pressed against the welding ribs 6a, 6a,. Ribs 6a, 6a,... Are melted.

  As described above, the lowermost resin part 3 is melted and joined to the resin member 6, whereby the laminated steel plate 1 and the resin member 6 are fixed.

  In the second example, the laminated steel plate 1 is pressed against and welded to the welding ribs 6a, 6a,... To melt the welding ribs 6a, 6a,. Good bondability of the resin member 6 can be ensured.

  Moreover, in ultrasonic welding, since the laminated steel plate 1 can be fixed to the resin member 6 in a time less than 1 second, the speed of the fixing operation can be increased.

<Third example>
Next, a third example will be described (see FIG. 7).

  In the third example, the resin member 7 is arranged on the work table 100. The resin member 7 is formed in a bent shape. For example, the first portion 7a and the second portion 7b are provided in directions that are different from each other by 90 °. The work table 100 is formed with a placement recess 100a that is open upward so that the first portion 7a and the second portion 7b are placed in close contact with each other.

  The laminated steel sheet 1 is placed on the upper surface of the resin member 7. In the laminated steel sheet 1, for example, the metal part 2 and the resin part 3 are laminated and formed into a shape bent by 90 ° according to the shape of the resin member 7, and the resin part 3 contacts the resin member 7.

  In the state set as described above, the horn 200A is pressed against the metal part 2 from above, and ultrasonic waves are emitted to the laminated steel sheet 1. The horn 200A has a convex surface 200a that becomes narrower as it goes to the tip depending on the shape of the laminated steel sheet 1. Ultrasonic waves emitted from the horn 200A are propagated through the metal part 2 to reach the resin part 3, and the resin part 3 Is melted and joined to the resin member 7.

  Thus, the laminated steel plate 1 and the resin member 7 are fixed by melting the resin part 3 and joining the resin member 7.

  In the third example, the laminated steel plate 1 bent according to the shape of the resin member 7 is pressed against the bent resin member 7 and welded, so that even in a shape that is not flat. A high fixing strength by welding can be ensured.

  Moreover, in ultrasonic welding, since the laminated steel plate 1 can be fixed to the resin member 7 in a time less than 1 second, the speed of the fixing operation can be increased.

<Fourth example>
Next, a fourth example will be described (see FIG. 8).

  In the fourth example, the resin member 8 is disposed on the work table 100B. The resin member 8 has a curved portion, and has, for example, a base portion 8a that is curved upward and a protrusion 8b, 8b,... That protrudes downward from the base portion 8a. ing. The work table 100B is formed with a mounting surface 100b that is curved so that the base portion 8a is in close contact with the work table 100B, and the protrusions 8b, 8b,. Recesses 100c, 100c,... Are formed. The protrusions 8b, 8b,... Are portions that function as, for example, bosses, ribs, protrusions, and the like provided in each member.

  The laminated steel plate 1 is placed on the upper surface of the resin member 8. The laminated steel sheet 1 is formed, for example, in a shape in which the metal part 2 and the resin part 3 are laminated and curved upward in accordance with the shape of the resin member 8, and the resin part 3 is formed on the resin member 8. Touch.

  In the state set as described above, the horn 200B is pressed against the metal part 2 from above, and an ultrasonic wave is emitted to the laminated steel sheet 1. The horn 200B is formed as a concave surface 200b whose lower surface is curved according to the shape of the laminated steel sheet 1, and the ultrasonic waves emitted from the horn 200B are propagated through the metal part 2 to reach the resin part 3, and the resin part 3 is melted. And joined to the resin member 8.

  Thus, the laminated steel plate 1 and the resin member 8 are fixed by melting the resin part 3 and joining the resin member 8.

  In the fourth example, the laminated steel plate 1 curved according to the shape of the resin member 8 is pressed against and welded to the resin member 8 having a curved shape, so that the shape is not flat. A high fixing strength by welding can be ensured.

  Moreover, in ultrasonic welding, since the laminated steel plate 1 can be fixed to the resin member 8 in less than 1 second, the speed of fixing work can be increased.

  In the fourth example described above, for example, by using the laminated steel sheet 1 having the metal part 2 to which designability can be added by anodizing treatment such as aluminum or oxidation coloring treatment treatment such as stainless steel, bosses, ribs, A structural body having a good design as a whole is formed by firmly fixing the laminated steel sheet 1 having a design property to a member (resin member 8) having projections 8b, 8b,. can do.

<Fifth example>
Next, a fifth example will be described (see FIG. 9).

  In the fifth example, the resin member 9 is arranged on the work table 100.

  The laminated steel sheet 1 is placed on the upper surface of the resin member 9. In the laminated steel sheet 1, for example, the metal part 2 and the resin part 3 are laminated, and the resin part 3 is in contact with the resin member 9. A stud 50 is attached to the laminated steel sheet 1. The stud 50 includes an attached portion 50 a and projecting portions 50 b and 50 b protruding upward from the attached portion 50 a, and the attached portion 50 a is attached to the resin member 9.

  In the state set as described above, the horn 200C is pressed against the metal part 2 from above, and ultrasonic waves are emitted to the laminated steel sheet 1. The horn 200C has an insertion recess 200c into which the protrusions 50b and 50b are inserted. When the horn 200C is pressed against the metal part 2, the protrusions 50b and 50b are inserted into the insertion recess 200c. The ultrasonic waves emitted from the horn 200C are propagated through the metal part 2 to reach the resin part 3, and the resin part 3 is melted and joined to the resin member 9. When the resin portion 3 is melted and joined to the resin member 9, the laminated steel plate 1 and the resin member 9 are fixed, and the stud 50 is attached on the resin member 9.

  Thus, in the fifth example, the laminated steel plate 1 is mounted on the resin member 9 and ultrasonically welded, whereby the laminated steel plate 1 is fixed to the resin member 9 and attached to the laminated steel plate 1. Since the predetermined part (stud 50) is attached to the resin member 9, the fixing work is easy, and the fixing work and the mounting operation of the predetermined part are performed in one operation, thereby improving workability. Can be planned.

  Moreover, in ultrasonic welding, since the laminated steel plate 1 can be fixed to the resin member 9 in a time less than 1 second, the speed of the fixing operation can be increased.

  In the fifth example, the example in which the predetermined component attached to the laminated steel plate 1 is the stud 50 is shown, but the predetermined component attached to the laminated steel plate 1 is limited to the stud 50. Instead, for example, various other functional parts such as switches and metal terminals can be used as the predetermined parts attached to the laminated steel sheet 1.

<Sixth example>
Next, a sixth example will be described (see FIG. 10).

  In the sixth example, the resin member 10 is arranged on the work table 100.

  The laminated steel sheet 1 is placed on the upper surface of the resin member 10. In the laminated steel sheet 1, for example, the metal part 2 and the resin part 3 are laminated, and the resin part 3 is in contact with the resin member 10.

  The laminated steel plate 1 is bent into a predetermined shape and functions as, for example, a leaf spring. The laminated steel plate 1 includes a fixed surface portion 1a, an intermediate surface portion 1b that is inclined so as to be displaced upward with respect to the fixed surface portion 1a, and a operated surface portion 1c that protrudes in a state parallel to the fixed surface portion 1a from the intermediate surface portion 1b. Consists of. In the laminated steel plate 1, for example, when the actuated surface portion 1 c is pressed, the actuated surface portion 1 c and the intermediate surface portion 1 b are elastically deformed with respect to the fixed surface portion 1 a and function as a leaf spring.

  In the laminated steel plate 1, a portion of the resin portion 3 provided on the fixed surface portion 1 a is in contact with the resin member 10.

  In the state set as described above, the horn 200 is pressed from above onto the portion of the metal portion 2 provided on the fixed surface portion 1 a, and ultrasonic waves are emitted to the laminated steel plate 1. The ultrasonic wave emitted from the horn 200 is propagated through the metal part 2 to reach the resin part 3 in the fixed part 1a, and the resin part 3 in the fixed part 1a is melted and joined to the resin member 10. When the resin portion 3 in the fixed portion 1a is melted and joined to the resin member 10, the laminated steel plate 1 and the resin member 10 are fixed, and the laminated steel plate 1 functioning as a leaf spring is formed on the resin member 10. Provided.

  As described above, in the sixth example, the laminated steel sheet 1 is placed on the resin member 10 and is ultrasonically welded, so that the laminated steel sheet 1 is fixed to the resin member 10. In addition, since the laminated steel sheet 1 functions as a leaf spring, it is possible to improve the functionality of the laminated steel sheet 1 while ensuring high fixing strength by ultrasonic welding.

[Specific examples of structures]
Hereinafter, specific examples of the structure will be described (see FIGS. 11 and 12).

  As a structure configured by fixing the laminated steel plate 1, for example, there is a bezel 11 used as a frame body of a television receiver or the like. An outer peripheral portion of a display (not shown) is attached to the bezel 11, and the bezel 11 has a function of holding the display.

  The bezel 11 is configured, for example, by combining horizontal members 12 and 12 positioned above and below and vertical members 13 and 13 positioned on the left and right in a frame shape.

  The horizontal member 12 includes a front surface portion 12a facing in the front-rear direction and an outer surface portion 12b projecting rearward from the upper end portion or lower end portion of the front surface portion 12a and facing in the up-down direction, and is formed to extend in the left-right direction.

  The vertical member 13 protrudes rearward from the left or right end of the front surface 13 and front surface 13a facing in the front-rear direction, and protrudes rearward from the upper and lower end portions of the outer surface 13b and front surface 13a facing in the left-right direction. 13c and 13c, and is formed to extend in the vertical direction.

  The left and right ends of the horizontal members 12, 12 are connected to the upper and lower ends of the vertical members 13, 13 by laminated steel plates 1, 1,. The laminated steel sheet 1 is formed in an L shape, and is placed in a state straddling the rear surface of the front surface portion 12a of the horizontal member 12 and the rear surface of the front surface portion 13a of the vertical member 13, and is subjected to ultrasonic welding to thereby form the horizontal member 12. And fixed to the vertical member 13.

  The laminated steel plates 1, 1,... Are fixed in a state of straddling the horizontal members 12, 12 and the vertical members 13, 13, so that the horizontal members 12, 12 and the vertical members 13, 13 are laminated steel plates 1, 1. ,... Are connected to form a frame-like bezel 11.

  The above-described bezel 11 is an example configured as a structure, and the structure in the present technology is not limited to the bezel 11, and a member (resin member) having a portion formed of resin. Various other structures can be used as long as the laminated steel plate 1 is fixed to the structure.

[Summary]
As described above, in the above-described structure, the resin portion 3 of the laminated steel sheet 1 in which the metal portion 2 formed of the metal material and the resin portion 3 formed of the resin material are laminated is resinated by ultrasonic welding. It is fixed to the member 4 or the like.

  Therefore, since the laminated steel sheet 1 is fixed by ultrasonic welding, it is possible to ensure the quickness of fixing work and high fixing strength.

[Technology]
The present technology may be configured as follows.

(1)
A structure in which the resin part of a laminated steel sheet in which a metal part formed of a metal material and a resin part formed of a resin material are laminated is joined and fixed to a resin member by ultrasonic welding.

(2)
The structure according to (1), wherein the resin portion and the resin member of the laminated steel plate are formed of the same material.

(3)
The structure according to (1) or (2), wherein a plurality of welding ribs protruding toward the laminated steel plate are provided in a portion fixed by ultrasonic welding of the resin member.

(4)
The resin member is formed into a bent shape,
The structure according to any one of (1) to (3), wherein the laminated steel plate is formed in a shape bent according to a bending state of the resin member.

(5)
The resin member is formed into a curved shape,
The structure according to any one of (1) to (3), wherein the laminated steel sheet is formed in a shape curved according to a curved state of the resin member.

(6)
A predetermined part is attached to the laminated steel sheet,
The structure according to any one of (1) to (5), wherein the predetermined component is attached to the resin member by fixing the laminated steel plate to the resin member.

(7)
The structure according to any one of (1) to (6), wherein the laminated steel plate is bent into a predetermined shape and provided as a leaf spring.

  The specific shapes and structures of the respective parts shown in the best mode for carrying out the above-described technology are merely examples of the implementation when the present technology is implemented, and accordingly, the present technology This technical scope should not be interpreted in a limited way.

This technique is shown with FIG. 2 thru | or FIG. 12, and this figure is a schematic sectional drawing of a laminated steel plate. It is a schematic sectional drawing which shows another laminated steel plate. It is a perspective view which shows the example of the shape of a laminated steel plate. It is a perspective view which shows the example of another shape of a laminated steel plate. It is a conceptual diagram which shows the 1st example in the fixing operation | work of a laminated steel plate and a resin-made member. It is a conceptual diagram which shows the 2nd example in the fixing operation | work of a laminated steel plate and a resin member. It is a conceptual diagram which shows the 3rd example in the fixing operation | work of a laminated steel plate and a resin member. It is a conceptual diagram which shows the 4th example in the fixing operation | work of a laminated steel plate and a resin-made member. It is a conceptual diagram which shows the 5th example in the fixing operation | work of a laminated steel plate and a resin-made member. It is a conceptual diagram which shows the 6th example in the fixing operation | work of a laminated steel plate and a resin-made member. It is a disassembled perspective view which shows the specific example of a structure. It is a rear view which shows the specific example of a structure.

DESCRIPTION OF SYMBOLS 1 ... Laminated steel plate, 2 ... Metal part, 3 ... Resin part, 4 ... Resin member, 5 ... Resin member, 6 ... Resin member, 6a ... Welding rib, 7 ... Resin member, 8 ... Resin member , 9 ... Resin member, 10 ... Resin member

Claims (7)

A structure in which the resin part of a laminated steel sheet in which a metal part formed of a metal material and a resin part formed of a resin material are laminated is joined and fixed to a resin member by ultrasonic welding. The structure according to claim 1, wherein the resin portion and the resin member of the laminated steel plate are formed of the same material. The structure according to claim 1, wherein a plurality of welding ribs protruding toward the laminated steel plate are provided in a portion fixed by ultrasonic welding of the resin member. The resin member is formed into a bent shape,
The structure according to claim 1, wherein the laminated steel plate is formed in a shape bent according to a bending state of the resin member. The resin member is formed into a curved shape,
The structure according to claim 1, wherein the laminated steel sheet is formed in a curved shape according to a curved state of the resin member. A predetermined part is attached to the laminated steel sheet,
The structure according to claim 1, wherein the predetermined component is attached to the resin member by fixing the laminated steel plate to the resin member. The structure according to claim 1, wherein the laminated steel plate is bent into a predetermined shape and provided as a leaf spring.

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