JP2011031415A - Metal plate having joining function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a metal plate having a joining function which can strengthen joining strength. <P>SOLUTION: A plurality of joints 11 are formed on the surface of the metal plate 1, a side plate 111 is installed/extended in the diagonal direction from the surface of the metal plate 1 in the joint 11, accommodation grooves 112 are formed on the respective surfaces of the side plate 111 and the metal plate 11, and each side plate 111 and the metal plate 1 are unified/molded. After the metal plate 1 is bonded to a plastic part 3 through insert injection molding, a plastic member soaks into the accommodation groove 112 of the joint 11. Since the plastic part 3 can not get out after being molded, the plastic part 3 and the metal plate 1 can be bonded together stably. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention relates to a metal plate having a kind of joining function, and more particularly to a metal plate that enhances joining strength when the metal plate and a plastic part are joined by insert injection molding.

While the development of electronic products is steadily progressing, the design direction is light and thin. Many electronic products (cell phones, notebook computers, portable information terminals) already provide users with the convenience of carrying. On the other hand, in order to provide the convenience of carrying to the user, this type of electronic product is making efforts to reduce the weight. A common method is to cover the metal sheet metal member with a plastic part to make a product housing and reduce the overall weight. Furthermore, the metal sheet metal member can protect the product, and can easily perform appearance treatments such as electroplating and baking. Therefore, a metal sheet metal member is used in the housing of many electronic products. In addition, the means for covering the metal sheet metal member with the plastic part applies an adhesive between the two to tightly bond the metal sheet metal member and the plastic part.

However, this type of processing means has the following disadvantages and inconveniences.
(A) After the adhesive is cured, the volume is reduced (due to volatilization of a part of the liquid), and a gap is formed between the metal sheet metal member and the plastic part, thereby reducing the yield rate.

(B) Since the metal sheet metal member and the plastic part have different expansion coefficients, the metal sheet metal member and the plastic part are separated by thermal expansion and cold shrinkage, and the housing is damaged. In addition, electronic products are sold everywhere in the world, and temperatures vary from place to place. This kind of problem occurs one after another, causing inconvenience to the user.

(C) When the metal sheet metal member and the plastic part are bonded, since the curing of the adhesive is a pre-determined condition, the processing time is long and the production is inconvenient. In addition, the cost of using adhesives is high, and the selling price of electronic products is passed, so the consumer's willingness to purchase is reduced by increasing the overall product price.

Therefore, the main object of the present invention is to use the surface of the metal plate as a joining portion, and the metal plate is joined to the plastic portion by insert injection molding means, and the plastic portion soaks into the joining portion. An object of the present invention is to provide a metal plate having a joining function that can stably join a plastic part.

In order to achieve the above object, a plurality of joint portions are provided on the surface of the metal plate according to the present invention, the metal plate surface of the joint portion extends side plates in an oblique direction, and the surface of the side plate and the metal plate surface is provided. Each accommodation groove is formed, and each side plate and the metal plate are integrally formed.

(B) According to the present invention, the joint portion 11 is provided on the surface of the metal plate 1, the metal plate 1 is joined to the plastic portion 3 by insert injection molding, and the plastic member of the plastic portion 3 penetrates into the joint portion 11 and can be pulled out. Therefore, the plastic part 3 is securely bonded to the metal plate 1 to prevent the plastic part 3 and the metal plate 1 from being separated from each other, thereby avoiding inconvenience for the user or damage to the product.
(B) According to the present invention, the press tool 2 can form the joint 11 on the surface of the metal plate 1. Since no new materials are required, product costs are reduced and manufacturing is convenient.

It is a three-dimensional external view of Example 1 of the present invention. FIG. 2 is an enlarged view of part A of FIG. 1. It is a three-dimensional external view before shape | molding in Example 1 of this invention. It is the operation | movement aspect figure of the side view cross section when shape | molding in Example 1 of this invention. FIG. 6 is a second operation mode diagram of a cross-sectional side view when molding is performed in the first embodiment of the present invention. It is side sectional drawing when couple | bonding with the plastic part in Example 1 of this invention. It is a three-dimensional external view of another press tool in Example 1 of the present invention. It is a three-dimensional external view of another press tool in Example 1 of the present invention. FIG. 3 is a three-dimensional appearance view of another press tool according to the first embodiment of the present invention after surface cutting and forming. It is a three-dimensional external view of Example 2 of the present invention. It is an enlarged view of B part which concerns on FIG. It is a three-dimensional external view before shape | molding in Example 2 of this invention. It is the operation | movement aspect figure of the side view cross section when shape | molding in Example 2 of this invention. It is the operation | movement aspect drawing 2 of the side view cross section when shape | molding in Example 2 of this invention. It is side view sectional drawing when couple | bonding with the plastic part in Example 2 of this invention. It is a three-dimensional external view of another press tool in Example 2 of the present invention. It is a three-dimensional external view of the press tool in Example 3 of this invention. It is the three-dimensional external view after the press tool in Example 3 of this invention forms surface cutting. It is side sectional drawing when couple | bonding with the plastic part in Example 3 of this invention.

Please refer to Fig.1 and Fig.2. A joint portion 11 is provided on the surface of the metal plate 1 according to the embodiment of the present invention. The joint portion 11 has a side plate 111 extending in an oblique direction on the surface of the metal plate 1, and the side plate 111 and the metal plate 1. It can be understood from the drawing that the housing groove 112 is formed on the surface of the metal plate and is integrally formed with the side plates 111 and the metal plate 1.

Still referring to FIGS. When the joint 11 is formed on the surface of the metal plate 1, the press tool 2 is attached above the metal plate 1, and the press tool 2 is provided with a shank portion 21 that is held by a mechanical tool (not shown). The blade portion 22 is provided in the oblique direction of the end portion of the blade portion 22, and the cutting portions 221 are provided on both end portions of the blade portion 22 upward. When the surface of the metal plate 1 is cut by the press tool 2, the press tool 2 is once pulled down to the surface of the metal plate 1, the end portion of the blade portion 22 of the press tool 2 is pressed against the surface of the metal plate 1, and the blade A downward pressure at the end of the portion 22 is applied to the surface of the metal plate 1. Subsequently, because the press tool 2 is moved by a predetermined distance in the lateral direction and a downward pressure is applied to the surface of the metal plate 1 at the end of the blade portion 22, when the press tool 2 is moved in the lateral direction, The blade portion 22 scoops out the surface of the metal plate 1 and forms a side plate 111 extending in an oblique direction. After cutting both ends of the side plate 111 by the cutting part 221 to form the side plate 111, the press tool 2 returns to the original position and rises upward, and only one end of the side plate 111 is connected to the surface of the metal plate 1. The housing groove 112 is provided on the surface of the side plate 111 and the metal plate 1. By repeating the above steps, a plurality of joints 11 are formed on the surface of the metal plate 1. If such means is applied to the surface of the metal plate 1, the amount of rolling force of the press tool 2 may be small. Furthermore, since the surface of the metal plate 1 is cut from the lateral direction, it can be understood from the drawing that no processing trace remains on the bottom surface of the metal plate 1.

Please refer to FIG. According to the first embodiment of the present invention, after the metal plate 1 and the plastic portion 3 are insert-injection-molded, the plastic portion 3 is formed on the surface of the metal plate 1, and the plastic member is the receiving groove 112 of the joint portion 11. The side plate 111 is covered with the ink. After the plastic part 3 is formed by the plastic member, the side plate 111 extends in an oblique direction on the surface of the metal plate 1, and one end of the side plate 111 is connected to the surface of the metal plate 1. On the other hand, since the plastic part 3 is covered with the side plate 111 by the plastic member, it cannot be pulled out, and it can be understood from the drawing that the plastic part 3 and the metal plate 1 are stably coupled. .

Please refer to Fig. 1 and Fig. 7 together. The blade part 22 at the end of the shank part 21 of the other press tool 2 according to the first embodiment of the present invention is arranged at a plurality of intervals, and the edge parts on both sides of the blade part 22 are bent upwardly. By doing so, it can be understood from the drawing that the press tool 2 can form a plurality of joints 11 on the surface of the metal plate 1 by one operation.

Please continue to refer to Figure 8 and Figure 9 together. In the first embodiment of the present invention, another end of the shank portion 21 of the press tool 2 is provided with a plurality of blade portions 22 spaced apart in a ring shape, and both end portions of each blade portion 22 have cutting portions 221 facing upward. When the surface of the metal plate 1 is cut by the press tool 2, the press tool 2 is once pulled down to the surface of the metal plate 1 and the end of the blade portion 22 of the press tool 2 is pressed against the surface of the metal plate 1. The distal end portion of the blade portion 22 applies downward pressure to the surface of the metal plate 1. At this time, the press tool 2 is rotated by a predetermined distance, the surface of the metal plate 1 is scraped off by each blade portion 22, and the side plate 111 extending in an oblique direction is formed. After the side plate 111 is formed, the press tool 2 is rotated again to return to the original direction and rises upward. Only one end of the side plate 111 is connected to the surface of the metal plate 1 and is accommodated on the side plate 111 and the surface of the metal plate 1. The provision of the groove 112 can be understood from the figure.

Please refer to FIG. 10 and FIG. 11 together. A joining portion 11 is provided on the surface of the metal plate 1 according to the present invention, the joining portion 11 extends a side plate 111 obliquely from the surface of the metal plate 1, and a receiving groove 112 is formed on the surface of the side plate 111 and the metal plate 1. Form. It is understood from the drawing that both end portions of the side plate 111 are respectively connected to the blade plate 113 on the surface of the metal plate 1, and the side plate 111 and the blade plate 113 of each joint 11 are formed integrally with the metal plate 1. It is possible to obtain.

Still referring to FIGS. When forming the joint portion 11 on the surface of the metal plate 1, the press tool 2 is attached above the metal plate 1, and the press tool 2 is provided with a shank portion 21 that is clamped by a mechanical tool (not shown). The blade portion 22 is provided in the oblique direction of the end portion of the blade portion 22, and the cutting portions 221 are provided on both end portions of the blade portion 22 upward. When the surface of the metal plate 1 is cut by the press tool 2, the press tool 2 is once pulled down to the surface of the metal plate 1, the end portion of the blade portion 22 of the press tool 2 is pressed against the surface of the metal plate 1, and the blade A downward pressure is applied to the end of the portion 22 on the surface of the metal plate 1. Subsequently, since the press tool 2 is moved by a predetermined distance in the lateral direction and a downward pressure is applied to the surface of the metal plate 1 at the end of the blade portion 22, when the press tool 2 is moved in the lateral direction, The blade portion 22 scoops out the surface of the metal plate 1 and forms a side plate 111 extending in an oblique direction. After cutting both ends of the side plate 111 by the cutting part 221 to form the side plate 111, the press tool 2 returns to the original position and rises upward, and only one end of the side plate 111 is connected to the surface of the metal plate 1. The housing groove 112 is provided on the surface of the side plate 111 and the metal plate 1. By repeating the above steps, a plurality of joints 11 are formed on the surface of the metal plate 1. If such means is applied to the surface of the metal plate 1, the amount of rolling force of the press tool 2 may be small. Furthermore, since the surface of the metal plate 1 is cut from the lateral direction, it can be understood from the drawing that no processing trace remains on the bottom surface of the metal plate 1.

Refer to FIG. According to the second embodiment of the present invention, after the metal plate 1 and the plastic portion 3 are insert-injection-molded, the plastic portion 3 is formed on the surface of the metal plate 1 and the plastic member is the receiving groove 112 of the joint portion 11. The side plate 111 and the wing plate 113 are covered with the ink. After the plastic part 3 is formed by the plastic member, the side plate 111 extends in an oblique direction on the surface of the metal plate 1, and both end portions of the side plate 111 are connected to the surface of the metal plate 1 via the blade plate 113. . On the other hand, since the plastic part 3 is covered with the side plate 111 and the wing plate 113 by the plastic member, it cannot be pulled out, and it can be understood from the drawing that the plastic part 3 and the metal plate 1 are stably coupled. Is possible.

Please refer to Fig. 10 and Fig. 16 together. The blade part 22 at the end of the shank part 21 of yet another press tool 2 according to the second embodiment of the present invention is arranged at a plurality of intervals, and the press tool 2 is a surface of the metal plate 1 in one operation. It can be understood from the drawing that a plurality of joints 11 can be formed.

Please refer to Fig. 17 and Fig. 18 together. The end of the shank portion 21 of the press tool 2 according to the third embodiment of the present invention is provided with a plurality of blade portions 22 at intervals in a ring shape, and when the surface cutting of the metal plate 1 is performed by the press tool 2, the press tool 2. Is once pulled down to the surface of the metal plate 1, the end of the blade portion 22 of the press tool 2 is pressed against the surface of the metal plate 1, and the end portion of the blade portion 22 applies downward pressure to the surface of the metal plate 1. At this time, the press tool 2 is rotated by a predetermined distance, the surface of the metal plate 1 is scraped off by each blade portion 22, and the side plate 111 extending in an oblique direction is formed. After the wing plate 113 is extended on the surface of the metal plate 1 by both ends of the side plate 111 and connected to the wing plate 113 via both ends of the side plate 111 and the metal plate 1, the side plate 111 is formed, and then the press tool 2. It can be understood from the drawing that the rotation of the metal plate rotates again and returns to the original direction and rises upward, and the receiving grooves 112 are provided on the surfaces of the side plate 111 and the metal plate 1.

Refer to FIG. In Example 3 of the present invention, a plurality of joints 11 are formed on the surface of the metal plate 1 and the side plates 111 extend in different directions, so that the metal plate 1 and the plastic part 3 are formed by insert injection molding. Even if the volume of the plastic part 3 is changed due to a temperature change after being joined, each side plate 111 extends in a different direction, so that the plastic part 3 is changed in the moving direction by changing the volume of the plastic part 3. Regardless, the side plate 111 is securely fixed to the plastic part 3 and the plastic part 3 does not come out of the joint part 11 as a result of the volume change due to the temperature change. It is possible.

DESCRIPTION OF SYMBOLS 1 Metal plate 11 Joint part 111 Side plate 112 Housing groove 113 Blade plate 2 Press tool 21 Shank part 22 Blade part 221 Cutting part 3 Plastic part

Claims (4)

A metal plate and a plastic part are formed by insert injection molding, and a metal plate having a joining function capable of increasing the bonding strength,
A plurality of joints are provided on the surface of the metal plate, and the joints are formed by cutting the surface of the metal plate with a press tool, and the side plates are formed obliquely from the surface of the metal plate to the joints. A metal plate having a joining function, characterized in that a housing groove is formed on the surface of the side plate and the metal plate. The press tool is provided with a shank portion, and a plurality of blade portions arranged in a ring shape at an interval or at an interval are obliquely arranged at the end portion of the shank portion, and both end portions of the respective blade portions are provided. The metal plate having a bonding function according to claim 1, wherein a cutting portion is bent upward at the portion. A metal plate having a joining function capable of increasing the bond strength by forming a metal plate and a plastic part by insert injection molding,
A plurality of joints are provided on the surface of the metal plate, the joints are formed by cutting a surface of the metal plate with a press tool, and side plates are extended obliquely from the surface of the metal plate to the joint. A metal plate having a joining function, characterized in that a receiving groove is formed on the surfaces of the side plate and the metal plate, and both end portions of the side plate and the surface of the metal plate are connected to a blade plate, respectively. The shank portion is provided in the press tool, and the end portion of the blade portion is arranged at intervals, or a plurality of blade portions arranged in a ring shape at an interval are obliquely arranged. 3. A metal plate having a bonding function according to 3.