JP2013038243A - Shield structure and portable terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a shield structure capable of ensuring the shield effect appropriately.SOLUTION: A shield structure attached to a circuit board and shielding electromagnetic noise has a top plate 10 facing the principal surface of the circuit board, and a sidewall 11 drooping from the outer periphery thereof for the principal surface of the circuit board. On the surface of the sidewall adhering to the circuit board, a plurality of fastening parts 13A-13G fastening to the circuit board, and protrusions 14A-14H formed by protruding a portion of the adhering surface are formed so as to abut against the circuit board. The interval of the fastening part or the protrusion, and any one of the fastening part or the protrusion adjoining along the sidewall is set shorter than the wavelength of electromagnetic noise in a frequency band used in the circuit.

Description

The present invention relates to a shield for shielding electromagnetic noise of an electric circuit.

  Many electronic components are mounted on a circuit board of an electric device, and electronic components that generate high frequency and the like are also mounted therein. In order to suppress the adverse effect of high frequency from these electronic components on other electronic components, and to prevent the influence of external high frequency etc. on the electronic components mounted on the circuit board, the entire circuit board may be covered with a shield structure. Intrusion and leakage of noise are reduced by surrounding the relevant electronic components.

However, even if the shielding by the shield structure is sufficient, if the degree of adhesion between the circuit board and the shield structure is insufficient, electromagnetic wave leakage through the gap may occur and the shielding effect may be impaired.
FIG. 6 shows a perspective view of an example of a conventional shield structure.
A plurality of screw holes 103 </ b> A to 103 </ b> N for fastening to the circuit board are formed in a part of the surface 104 of the side wall 101 and the partition wall 102 that contacts the circuit board.

When the shield structure is put on the circuit board and fastened, screw holes are provided on the circuit board at positions corresponding to the screw holes 103A to 103N of the shield structure, and the circuit board and the circuit board are fastened by screws. Fasten the shield structure.
In this way, by fastening the shield structure to the circuit board, the electronic components on the circuit board are surrounded by the shield structure.

  Patent Document 1 describes a shield structure having a structure in which the contact force of the degree of contact between the shield case main body and the lid is increased when the entire circuit board is covered with the shield structure.

Japanese Utility Model Publication No. 06-066092

However, when the circuit board and the shield structure are fastened, the contact surface between the circuit board and the shield structure is intermittently caused by poor smoothness of the contact surface and distortion generated in the circuit board and the shield structure. As a result, there is a problem in that the shield effect is lowered due to a gap between the contact surface of the circuit board and the shield structure.
In order to increase the adhesion between the contact surface of the circuit board and the shield structure, it is conceivable to increase the number of portions to be screwed.

However, in order to secure the strength around the screw holes, the wall thickness of the side walls and partition walls must be taken into account, which is disadvantageous in terms of the size of the circuit board and shield structure, increases the number of parts, and also requires installation work. It becomes complicated.
Then, this invention is made | formed in view of the problem which concerns, and it aims at providing the shield structure which can perform a shield effect appropriately.

  In order to solve the above problems, a shield structure according to the present invention is a shield structure that is attached to a circuit board and shields electromagnetic noise, and a top plate portion that faces the main surface of the circuit board; And a plurality of fastening portions fastened to the circuit board on the contact surface of the side wall with the circuit board, and one of the contact surfaces. One or more convex parts which protrude the part are formed so that it may contact a circuit board.

  With the above-described configuration, the shield structure according to the present invention can appropriately perform the shielding effect.

The perspective view of the shield structure concerning an embodiment of the invention (A) is a schematic diagram of fastening of a shield structure and a circuit board according to an embodiment of the present invention (b) is a bottom view of the shield structure according to an embodiment of the present invention (c) is a plan view of the circuit board Explanatory drawing which shows the fastening state of the shield structure of embodiment and a circuit board Explanatory drawing of the modification of the shape of a convex part Explanatory drawing when multiple protrusions are formed between screws A perspective view of an example of a conventional shield structure

<1. Embodiment 1>
<Configuration>
Hereinafter, a configuration of a shield structure according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of a shield structure 1 according to the present invention. The shield structure 1 of this embodiment is used by being fastened to a circuit board in order to shield electromagnetic wave noise of an electric circuit mounted on a mobile phone.

  The shield structure 1 is made of an Mg (magnesium) alloy and has a shallow box shape with one opening, a top plate 10, a side wall 11 formed on the outer edge of the top plate 10, and the top plate 10 and the side wall. 11, a partition wall 12 </ b> A and a partition wall 12 </ b> B that further partition the interior surrounded by 11. Mg alloys are characterized by higher strength than aluminum and general resins, strong dent resistance, and high electromagnetic shielding properties.

Screw hole 13A-13G for fastening with a circuit board is provided in the opening side end surface of the side wall 11 and partition wall 12A, 12B.
Similarly, convex portions 14A to 14H are formed on the opening side end surfaces of the side wall 11 and the partition walls 12A and 12B and between the screw holes.
The height of the convex portions 14A to 14H is set to a height necessary for the convex portions to contact the circuit board when screws are inserted into the screw holes on both sides and fastened to the circuit board. Accordingly, the height of the convex portions 14A to 14H varies depending on the depth of the unevenness of the surface of the circuit board and the depth of the unevenness of the surface contacting the circuit board of the shield structure, but as in this example, When it is applied to a circuit board of a cellular phone, it is set to about 50 μm.
In this embodiment, the convex portions 14A to 14H have an arc shape as seen in FIG.
Moreover, the position which provides convex part 14A-14H is made into the substantially middle position between screw hole 13A-13G and screw hole 13A-13G so that it may be seen in FIG. In the intermediate position, the distance between the two adjacent screw holes 13A to 13G can be made equal and minimal, and the shielding effect can be easily improved. This is because the influence of distortion of the circuit board can be reduced.
In addition, if the distance between the screw hole and the convex portion is set to have a length equal to or less than ¼ wavelength of electromagnetic noise that interferes in the use frequency band of the circuit, a high shielding effect can be obtained.
For example, in the case of a mobile phone that uses 2.4 GHz band radio waves for communication, the length of a quarter of the wavelength of 2.4 GHz radio waves is about 3 cm (centimeters). When the distance between the adjacent fastening parts of the screwing is 3 cm or more, it is formed in a convex shape in which the contact surface protrudes between the fastening parts, and the distance between the adjacent fastening parts and the fastening part and the convex part. By forming so that there is no place where the distance to the part is 3 cm or more, electromagnetic noise in these frequency bands generated from electronic components on the circuit board can be effectively shielded.
If the interval between adjacent screw holes is longer than ½ wavelength of electromagnetic noise, it can be dealt with by providing two or more convex portions between the screw holes.
<Fastening method>
FIG. 2A is a perspective view for explaining a case where the shield structure 1 shown in FIG.

The circuit board 2 is a board that is mounted on a mobile phone, on which are mounted components, circuits, memory, and the like for realizing the functions of the mobile phone. In the present embodiment, components, circuits, memories, etc. are collectively referred to as electronic components.
For example, the electronic components 23A to 23H illustrated in FIG. 2A correspond to components, circuits, memories, and the like for realizing the functions of the mobile terminal.

The electronic components 23A to 23H emit noise due to their own operation, and affect others. Further, the electronic component 22 is an antenna and receives radio waves coming from the outside, so that the operation is affected by noise emitted from other electronic components.
FIG. 2B is a bottom view of the shield structure 1, and FIG. 2C is a plan view of the circuit board 2. On the circuit board 2, a GND (ground) pattern 24 is formed along an end surface where the side wall 11 and the partition walls 12 </ b> A and 12 </ b> B of the shield structure are in contact with the circuit board 2, and further, the side wall 11 of the shield structure 1. Screw holes 21A to 21G are formed at positions corresponding to the screw holes 13A to 13G formed in the partition walls 12A and 12B.

The shield structure 1 is fastened to the circuit board 2 by covering the circuit board 2 so that the end surfaces of the side walls and the partition wall match the GND pattern, and tightening with a conductive screw.
When tightened in this way, the gap between the screw holes is shielded by tightening the screws with the projection 14 on the shield structure side in contact with the GND electrode on the circuit board side, as shown in FIG. The gap between the end face of the structure and the circuit board side GND electrode is narrowed. Since the distance between the screws 45A and 45B and the convex portion 14 is maintained at a distance of ¼ wavelength or less, electromagnetic wave leakage is effectively prevented.
<2. Modification>
Although one embodiment has been described above, the present invention is not limited to the above-described embodiment.
For example, the following modifications can be considered.

(1) Although the protrusion amount of the convex portion is 50 um in the above embodiment, it is not limited to this. The protruding amount of the protruding portion may protrude beyond the size of the unevenness of the contact surface roughness caused by manufacturing errors.
The size of the roughness of the surface roughness caused by this manufacturing error usually falls within the range of plus or minus 50 μm with respect to the assumed reference surface. In such a case, if the protruding amount for protruding a part of the shield structure is set to a protruding amount in the range of 50 μm to 100 μm (about twice the unevenness of the surface roughness), a part of the contact surface is protruded. It is possible to make sure that the projections come into contact with each other and to exert a shielding effect.

(2) In the embodiment, the shape of the convex portion is an arc shape. However, the shape is not limited to this, and it may be a triangular shape as shown in FIG. 4 (a) or a kamaboko shape as shown in (b). Furthermore, a flat roof shape as shown in (c) or a dome shape as shown in (d) may be used. These can be appropriately selected according to the circuit board on which the shield structure is installed.
(3) FIG. 5 shows an example in which two or more convex portions are provided between the screw holes.
As shown in FIG. 5, two convex portions 95A and 95B are formed between the fastening portions of the screwing. It is desirable that the maximum protrusions of the protrusions 95A and 95B be formed with the same protrusion. Similarly to the case shown in FIG. 3, when tightening and tightening with screws, the projections 95A and 95B come into contact with the circuit board 2. At this time, the convex portions 95A and 95B are formed at positions where the distance from the screwing position adjacent to each other along the side wall or the partition wall or other convex portions is ¼ or less the wavelength of electromagnetic noise. It is desirable. Furthermore, it is desirable to form at equal intervals between the screw fastening portions.

By thus forming the convex portions 95A and 95B, the convex portions can be formed efficiently. In addition, it is possible to prevent insufficient contact with the circuit board at one of the convex portions when tightened with a screw, and a case where one convex portion is formed between the screw fastening portions. The same effect can be exhibited.
(4) As a shield structure, the shape surrounding one or a plurality of electronic components is not limited to the shape shown in the above embodiment. The shape surrounding one or more electronic components may be a planar polygonal shape.

(5) In the said embodiment, although the example of the shield structure using Mg alloy was shown, it is not limited to this. For example, a shield structure using an aluminum vapor deposition resin may be used as long as it has an electromagnetic noise shielding effect and is electrically conductive so as to have the same potential as the GND pattern of the circuit board when fastened to the circuit board.
(6) Although the shield structure and the circuit board are fastened by screwing in the above embodiment, the invention is not limited to this. For example, the shield structure and the circuit board may be fastened by a locking pin such as a rivet.

(7) The above embodiments and modifications may be combined.
(8) The electronic device on which the shield structure 1 shown in the above embodiment is mounted is not limited to a mobile phone. It may be an information device or a portable terminal that performs wireless communication.
<3. Summary>
(1) A shield structure according to an embodiment of the present invention is a shield structure that is attached to a circuit board and shields electromagnetic noise, and a top plate that faces the main surface of the circuit board; And a plurality of fastening portions fastened to the circuit board on the contact surface of the side wall with the circuit board, and one of the contact surfaces. One or more convex parts which protrude the part are formed so that it may contact a circuit board.

According to this configuration, by projecting a part of the contact surface that contacts the circuit board of the shield structure to form a convex part, the convex part reliably contacts the circuit board when fastened to the circuit board.
(2) Here, the interval between the fastening part or the convex part and any fastening part or convex part adjacent to the side wall is set shorter than the wavelength of electromagnetic noise in the frequency band used in the circuit. Also good.

According to this configuration, since the interval between the fastening portion that contacts the circuit board and the fastening portion adjacent to the convex portion or the convex portion is set to be shorter than the wavelength of electromagnetic noise in the frequency band used in the circuit, electromagnetic leakage Can be effectively prevented.
(3) Here, the interval between adjacent fastening portions or convex portions may be a length equal to or less than ¼ of the wavelength of electromagnetic noise in the frequency band used in the circuit.

According to this configuration, since the interval between the fastening portion contacting the circuit board and the fastening portion adjacent to the convex portion or the convex portion is kept at 1/4 or less of the wavelength of electromagnetic noise in the frequency band used in the circuit. Electromagnetic leakage can be effectively prevented.
(4) Here, the shape of the convex portion may be formed in a shape in which the amount of protrusion decreases as the distance from the most protruded position increases along the longitudinal direction of the contact surface of the side wall.

According to this configuration, since the protruding amount of the protruding portion protrudes larger than the unevenness of roughness due to manufacturing or the like on the contact surface, the protruding portion can be surely brought into contact with the protruding portion.
(5) Here, the fastening portion may be fastened by screwing.
According to this configuration, since it is screwed at the fastening portion, it securely contacts the circuit board at the fastening portion,
By tightening the screws, the gap between the contact surface of the shield structure and the end surface on the circuit board side is narrowed, so that even the convex portions between the fastening portions can be reliably brought into contact with each other, so that electromagnetic wave leakage is effectively prevented. Is done.
(6) Here, the shield structure may be configured using an Mg alloy.

Mg alloys have higher strength and higher dent resistance than aluminum and common resins. In addition, it is characterized by having a stable electromagnetic shielding property.
According to this configuration, since the shield structure is formed using the Mg alloy having the above characteristics, a strong shield structure having a high shielding effect can be obtained.
(7) Here, a partition wall to be isolated is formed inside the shield structure covered with the top plate and the side wall, and a fastening portion and a convex portion similar to the side wall are formed on the partition wall. You may make it do.

According to this configuration, since the electrical components on the circuit board can be divided into smaller areas and surrounded, it is possible to prevent the influence of electromagnetic noise between the electrical components.
(8) Here, when only one convex portion is formed between the fastening portion and the fastening portion of the shield structure, the convex portion may be formed approximately in the middle between the fastening portion and the fastening portion. Good.
According to this structure, since it exists in the substantially intermediate position between adjacent fastening parts, the distortion of a shield structure or a circuit board by the dispersion | variation in the crimping force in a fastening part can be suppressed.
(9) Moreover, in the portable terminal which performs radio | wireless communication as an embodiment, the above-mentioned shield structure is provided on the circuit board of the portable terminal in order to shield electromagnetic noise having a wavelength in a communication frequency band used for wireless communication. Installed.

  According to this configuration, in the mobile terminal including the shield structure, a reduction in communication performance can be suppressed.

  The shield structure according to the present invention prevents noise radiation of an electric circuit, and is useful for a shield structure of an electric circuit and a mobile terminal including the shield structure.

DESCRIPTION OF SYMBOLS 1 Shield structure 10 Top plate 11 Side wall 12A, 12B Partition wall 13A-13G Screw hole 14, 14A-14H Convex part 2 Circuit board 24 GND (ground) pattern 21A-21G Screw hole 22 Antenna 23A-23H Electronic component

Claims (9)

A shield structure that is mounted on a circuit board and shields electromagnetic noise,
A top plate portion facing the main surface of the circuit board, and a side wall depending on the main surface of the circuit board from the outer periphery thereof,
A plurality of fastening portions fastened to the circuit board on the contact surface of the side wall with the circuit board,
One or more convex parts which made a part of said contact surface project are formed so that it may contact | abut to a circuit board. An interval between the fastening portion or the convex portion and either the fastening portion or the convex portion adjacent along the side wall is set shorter than the wavelength of electromagnetic noise in a frequency band used in the circuit. The shield structure according to claim 1. The shield structure according to claim 2, wherein a length shorter than the wavelength of the electromagnetic noise is set to ¼ or less of the wavelength of the electromagnetic noise. 2. The shield structure according to claim 1, wherein the protruding portion is formed in a shape in which a protruding amount decreases as it moves away from the most protruding position along the longitudinal direction of the contact surface of the side wall. The shield structure according to claim 1, wherein the fastening portion is fastened to the circuit board by screwing. The said shield structure is comprised using the magnesium alloy. The shield structure of Claim 1 characterized by the above-mentioned. The shield structure is
A partition wall that is isolated inside the top plate and the side wall;
The shield structure according to claim 1, wherein the partition wall is formed with a fastening portion and a convex portion similar to the side wall. The said convex part is formed in the distance from which the distance to each said fastening part is substantially equal, when only one place is formed between a fastening part and a fastening part. Shield structure. A mobile terminal that performs wireless communication,
The mobile terminal comprising the shield structure according to any one of claims 1 to 8, wherein a frequency band used in the circuit is a communication frequency band used in the wireless communication.

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