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WO2013114424A1 - Structure for positioning panel, and electronic instrument - Google Patents

Structure for positioning panel, and electronic instrument Download PDF

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Publication number
WO2013114424A1
WO2013114424A1 PCT/JP2012/000568 JP2012000568W WO2013114424A1 WO 2013114424 A1 WO2013114424 A1 WO 2013114424A1 JP 2012000568 W JP2012000568 W JP 2012000568W WO 2013114424 A1 WO2013114424 A1 WO 2013114424A1
Authority
WO
WIPO (PCT)
Prior art keywords
panel
chassis
positioning
extending portion
extending
Prior art date
Application number
PCT/JP2012/000568
Other languages
French (fr)
Japanese (ja)
Inventor
秀行 廣田
一弘 都築
Original Assignee
三菱電機株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 三菱電機株式会社 filed Critical 三菱電機株式会社
Priority to PCT/JP2012/000568 priority Critical patent/WO2013114424A1/en
Priority to JP2013547423A priority patent/JP5449631B2/en
Publication of WO2013114424A1 publication Critical patent/WO2013114424A1/en

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    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B33/00Constructional parts, details or accessories not provided for in the other groups of this subclass
    • G11B33/02Cabinets; Cases; Stands; Disposition of apparatus therein or thereon
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B33/00Constructional parts, details or accessories not provided for in the other groups of this subclass
    • G11B33/12Disposition of constructional parts in the apparatus, e.g. of power supply, of modules
    • G11B33/121Disposition of constructional parts in the apparatus, e.g. of power supply, of modules the apparatus comprising a single recording/reproducing device

Definitions

  • the present invention relates to a panel positioning structure in a structure in which a panel is assembled to a chassis, and an electronic apparatus having this structure.
  • Patent Document 1 discloses a structure for attaching a cabinet (panel) to a chassis. This structure attaches a cabinet to a chassis by fitting the extension part provided in the right and left both sides of a cabinet to the engagement convex part provided in the both sides
  • the front chassis in which the panel is fitted is assembled on the front surface of the chassis body.
  • positioning is performed by the outer shape of the front chassis and the inner shape of the panel.
  • it is necessary to set a clearance between the front chassis and the panel. For this reason, the front chassis and the chassis main body move within the panel by the clearance, and there is a problem that the positioning accuracy is low.
  • a panel substrate provided in the panel and a substrate provided in the chassis are often fixed with an inter-board connector. Since the board-to-board connector is a connector mounted on the board, high positioning accuracy is required for assembling the chassis and the panel in order to securely connect the boards.
  • the present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a panel positioning structure capable of improving the panel positioning accuracy with a simple configuration, and an electronic apparatus including the structure.
  • the panel positioning structure according to the present invention is a structure in which a panel is assembled to one side surface of a box-shaped chassis.
  • a side surface orthogonal to one side surface of the chassis is extended.
  • a first extending portion, a second extending portion formed by extending a side surface that is orthogonal to one side surface of the chassis and that faces the side surface provided with the first extending portion, and a panel.
  • a first positioning portion that sandwiches and positions the first extending portion in the thickness direction of the first extending portion, and is provided on the panel, and the first extending portion is the first extending portion.
  • a second positioning portion that is sandwiched and positioned in a direction perpendicular to the thickness direction of the first and second panels, and the second extending portion is sandwiched and positioned in a direction perpendicular to the thickness direction of the second extending portion. And a third positioning unit.
  • the panel positioning accuracy can be improved with a simple configuration.
  • FIG. 1 It is a perspective view which shows an electronic device provided with the panel positioning structure which concerns on this invention. It is a disassembled perspective view of the conventional electronic device. It is a figure which shows the panel positioning structure of the conventional electronic device. It is a figure which shows the structure of an electronic device provided with the panel positioning structure which concerns on Embodiment 1.
  • FIG. It is the elements on larger scale which show the panel positioning structure (extension part 6a, positioning part 6b) concerning Embodiment 1.
  • FIG. It is the elements on larger scale which show the panel positioning structure (extension part 7a, positioning part 7b) concerning Embodiment 1.
  • FIG. It is a perspective view which shows the fixation aspect to the chassis of a panel.
  • FIG. 3 is a perspective view illustrating a specific aspect of the electronic device according to the first embodiment. It is a perspective view which shows the panel positioning structure in the electronic device of FIG. It is a perspective view which shows the panel positioning structure after the panel assembly in the electronic device of FIG. It is the elements on larger scale which show the panel positioning structure (extended part 6a, positioning part 6b) of FIG. It is the elements on larger scale which show the panel positioning structure (extended part 7a, positioning part 7b) of FIG.
  • FIG. 1 is a perspective view showing an electronic apparatus having a panel positioning structure according to the present invention.
  • the electronic device 1 shown in FIG. 1 includes a cover 2, a main body composed of a box-shaped chassis 3 whose top surface is covered with the cover 2, and a panel 4 provided on the front surface of the chassis 3.
  • the panel 4 is assembled to the front surface of the chassis 3 via the front chassis 4 b as shown in FIG. 2.
  • a panel substrate 4 a is attached in the panel 4, and a substrate 5 is attached in the chassis 3.
  • the board 5 and the panel board 4a are electrically connected by the board-to-board connectors 5a and 5b through the opening of the front chassis 4b.
  • the panel 4 is formed in a substantially box shape with one surface opened. As shown in the cross-sectional view of FIG. 3B, the panel 4 is assembled by fitting the front chassis 4b into the opening.
  • a clearance is provided between the inner shape of the panel 4 and the outer shape of the front chassis 4b. For this reason, the front chassis 4b and the chassis 3 to which the front chassis 4b is assembled move within the panel 4 by the clearance.
  • the panel 4 and the front chassis 4b are generally formed of different materials such as metal and resin, the thermal contraction difference between the panel 4 and the front chassis 4b is large. For this reason, there is a limit to the improvement of positioning accuracy, and there is a possibility of damage due to the influence of heat shrinkage.
  • the present invention does not use a separate front chassis 4b, but has a panel positioning structure including extending portions 6a and 7a on the chassis 3 side and positioning portions 6b and 7b on the panel 4 side.
  • the panel 4 is assembled directly to the chassis 3. Thereby, even if a clearance is provided between the assembled chassis 3 and the panel 4, the movement of the panel 4 is prevented, and the positioning accuracy can be improved. Details of the panel positioning structure according to the present invention will be described below.
  • the extending portion (first extending portion) 6 a is a plate-like portion formed by partially extending a chassis side surface perpendicular to the panel assembly surface opened in the chassis 3.
  • the positioning portion 6b for positioning the panel 4 with respect to the chassis 3 by contacting the extended portion 6a at the time of assembly includes the contact surface portion 6b-1, the inner wall portion 6b-2, and the contact surface portion 6b- 3, 6b-4.
  • the contact surface portion 6b-1 and the inner wall portion 6b-2 are provided on the back surface of the panel 4, and are positioned in the direction perpendicular to the extending portion 6a by sandwiching and holding the extending portion 6a in the thickness direction thereof.
  • 1 is a positioning unit. That is, the contact surface portion 6b-1 and the inner wall portion 6b-2 are formed on the back surface side of the panel 4 at an interval corresponding to the dimension in the thickness direction of the extending portion 6a.
  • the contact surface portions 6b-3 and 6b-4 are provided on the back surface of the panel 4, and are held in a direction parallel to the extending portion 6a by sandwiching and holding the extending portion 6a in a direction perpendicular to the thickness direction thereof ( It is the 2nd positioning part which positions the panel 4 in the up-down direction). That is, the contact surface portions 6b-3 and 6b-4 are formed on the back surface side of the panel 4 at intervals corresponding to the dimension (height) in the direction perpendicular to the thickness direction of the extending portion 6a. 3 is brought into contact with the extended portion 6a from both sides in the direction perpendicular to the thickness direction of the extended portion 6a. Thereby, the movement of the panel 4 in a direction (vertical direction) parallel to the extending portion 6a is regulated and positioned.
  • the extending portion (second extending portion) 7 a is formed by extending a side surface that is orthogonal to the side of the chassis 3 that is open and that faces the side surface provided with the extending portion 6 a. It is a plate-like part. Further, the positioning portion 7b for positioning the panel 4 with respect to the chassis 3 when hitting the extending portion 7a during assembly includes contact surface portions 7b-1 and 7b-2 as shown in FIG.
  • the contact surface portions 7b-1 and 7b-2 are provided on the back surface of the panel 4, and the extending portion 7a is sandwiched and held in a direction perpendicular to the thickness direction thereof, so that the panel 4 extends in a direction parallel to the extending portion 6a. It is the 3rd positioning part which performs positioning. That is, the contact surface portions 7b-1 and 7b-2 are formed on the back surface side of the panel 4 at intervals corresponding to the dimension (height) in the direction perpendicular to the thickness direction of the extending portion 7a. 3 is brought into contact with the extended portion 7a from both sides in the direction perpendicular to the thickness direction of the extended portion 7a. Thereby, the movement of the panel 4 in a direction (vertical direction) parallel to the extending portion 7a is regulated and positioned.
  • the extended portions 6a and 7a formed by extending the side surfaces of the chassis 3 generally have a large thermal contraction in the in-plane direction.
  • the clearance between the contact surface portions 6b-3 and 6b-4 and the contact surface portions 7b-1 and 7b-2 have a certain clearance in consideration of thermal contraction in the in-plane direction of the extending portions 6a and 7a. It is necessary to provide.
  • the left and right sides of the chassis 3 are rotated up and down within the panel 4 by the clearance, but in the present invention, the extending portion 6a is made thick by the contact surface portion 6b-1 and the inner wall portion 6b-2.
  • the movement (turning) of the chassis 3 is restricted by being sandwiched in the direction, and the positioning accuracy can be improved. Therefore, the influence of shakiness of the chassis 3 and the panel 4 after assembly on the connection between the board 5 and the panel board 4a by the board-to-board connectors 5a and 5b can be remarkably reduced.
  • the thermal contraction in the thickness direction of the extended portion 6a is generally smaller than that in the in-plane direction, the thickness of the extended portion 6a is sandwiched between the contact surface portion 6b-1 and the inner wall portion 6b-2. By doing so, positioning with higher accuracy can be realized.
  • the screws 8 are inserted into the insertion holes 3a provided in the extending portions 6a and 7a and the insertion holes 4c provided on both side surfaces of the panel 4, respectively. Is inserted and fixed with screws.
  • the slit 4d is formed around the insertion hole 4c on the positioning portion 7b side.
  • the peripheral portion (attachment member 4A) of the insertion hole 4c can be bent by screwing with the screw 8 inserted through the insertion hole 4c. That is, flexibility is given to the side opposite to the side positioned by the contact surface portion 6b-1 and the inner wall portion 6b-2.
  • the attachment member 4A bends in response to the expansion, so that the influence of the expansion is absorbed and stress concentration on the screwing portion. Is avoided.
  • the attachment member 4A bends in response to the contraction, so that the influence of the contraction is absorbed.
  • FIG. 8 is a perspective view illustrating a specific aspect of the electronic device according to the first embodiment, in which FIG. 8A is a front view and FIG. 8B is a rear view.
  • the example of FIG. 8 shows a case where the present invention is applied to an in-vehicle audio device that reproduces music data recorded on a disc. That is, as shown in FIGS. 9 and 10, the acoustic device 1 shown in FIG. 8 has a panel positioning structure including extending portions 6a and 7a on the chassis 3 side and positioning portions 6b and 7b on the panel 4 side.
  • the panel 4 is directly assembled to the chassis 3.
  • the extending portion 6a in the acoustic device 1 of FIG. 8 has a configuration in which the chassis side surface perpendicular to the panel assembly surface opened in the chassis 3 is partially extended and the end portion thereof is bent. It has become. Even the extended portion 6a having the end bent in this manner is positioned in the direction perpendicular to the extended portion 6a by being sandwiched and held in the thickness direction by the contact surface portion 6b-1 and the inner wall portion 6b-2. be able to. Further, as shown in FIGS.
  • the extended portion 6a is also sandwiched in the direction (vertical direction) perpendicular to the thickness direction by the contact surface portions 6b-3 and 6b-4, It is positioned in a direction (vertical direction) parallel to the extending portion 6a.
  • the extending portion 7a in the acoustic device 1 of FIG. 8 also extends a side surface (side surface opposite to the side surface on which the extending portion 6a is provided) orthogonal to the panel assembly surface opened in the chassis 3. It has a configuration in which the end is bent. As shown in FIG. 12A, such an extended portion 7a is also sandwiched in the direction (vertical direction) perpendicular to the thickness direction by the contact surface portions 7b-1 and 7b-2, and is parallel to the extended portion 7a. Positioning in the vertical direction.
  • screws 8 are inserted into the insertion holes 3 a provided in the extending portions 6 a and 7 a and the insertion holes 4 c provided on both side surfaces of the panel 4. It is inserted and fixed with screws.
  • slits 4d-1 to 4d-3 are formed in the attachment member 4A and its periphery. By these slits 4d-1 to 4d-3, the mounting member 4A can be bent by screwing with the screw 8 inserted through the insertion hole 4c. Thereby, even when the chassis 3 and the panel 4 are thermally expanded or contracted, the influence can be mitigated.
  • the extending portion 6a formed by extending the side surface orthogonal to one side surface of the chassis 3 and the extending portion 6a provided orthogonal to one side surface of the chassis 3 are provided.
  • contact surface portions 7b-1 and 7b-2 for positioning by being sandwiched in any direction.
  • the vertical movement of the panel 4 can be performed by the contact surface portions 6b-3 and 6b-4 and the contact surface portions 7b-1 and 7b-2. Since the movement of the panel 4 in the horizontal direction is restricted by the contact surface portion 6b-1 and the inner wall portion 6b-2, the positioning accuracy of the panel 4 can be improved with a simple configuration.
  • the mounting member 4A provided with the insertion hole 4c provided in the panel 4 and through which the screw 8 for screwing the extending portion 7a to the panel 4 is formed, and the mounting member 4A. Since it is provided with the slit 4d that bends the attachment member 4A by screwing with the screw 8 inserted through the insertion hole 4c, the influence of thermal expansion or thermal contraction of the chassis 3 and the panel 4 can be mitigated.
  • the electronic device 1 since the electronic device 1 is provided with the above-mentioned panel positioning structure, the electronic device which can obtain the effect similar to the above can be provided.
  • any component of the embodiment can be modified or any component of the embodiment can be omitted within the scope of the invention.
  • the panel positioning structure according to the present invention can improve the panel positioning accuracy with a simple configuration
  • 1 Electronic device 2 cover, 3 chassis, 3a, 4c insertion hole, 4 panel, 4a panel board, 4b front chassis, 4d, 4d-1 to 4d-3 slit, 4A mounting member, 5 board, 5a, 5b board to board Connector, 6a, 7a extension, 6b, 7b positioning part, 6b-1, 6b-3, 6b-4, 7b-1, 7b-2 contact surface part, 6b-2 inner wall part, 8 screws.

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  • Casings For Electric Apparatus (AREA)

Abstract

This structure comprises: an extended part (6a) formed by extending a side surface of a chassis (3) that is orthogonal to one side surface thereof; an extended part (7a) formed by extending a side surface of the chassis (3) that is orthogonal to said one side surface thereof and that opposes the side surface where the extended part (6a) is provided; a contact surface part (6b-1) and an inner wall part (6b-2) that are provided to a panel (4) and that position the panel (4) in a direction perpendicular to the extended part (6a); contact surface parts (6b-3, 6b-4) that are provided to the panel (4) and that position the panel (4) in a direction parallel to the extended part (6a); and contact surface parts (7b-1, 7b-2) that are provided to the panel (4) and that position the panel (4) in a direction parallel to the extended part (7a).

Description

パネル位置決め構造および電子機器Panel positioning structure and electronic equipment
 この発明は、パネルをシャーシに組み付ける構造におけるパネル位置決め構造、およびこの構造を備える電子機器に関する。 The present invention relates to a panel positioning structure in a structure in which a panel is assembled to a chassis, and an electronic apparatus having this structure.
 パネルをシャーシに組み付ける構造において、パネルの裏面に配置されたパネル基板とシャーシに配置されたメイン基板を、基板間接続用コネクタで接続する場合がある。この場合、パネルをシャーシに組み付けた際に、コネクタを介してパネル基板とメイン基板とが確実に接続される位置決め精度が要求される。
 なお、例えば特許文献1には、キャビネット(パネル)のシャーシへの取り付け構造が開示されている。この構造は、キャビネットの左右両側に設けた延出部をシャーシの両側面に設けた係合凸部に嵌合させることによってキャビネットをシャーシへ取り付ける。
In a structure in which a panel is assembled to a chassis, a panel substrate disposed on the back surface of the panel and a main substrate disposed on the chassis may be connected by an inter-board connector. In this case, when the panel is assembled to the chassis, positioning accuracy is required so that the panel substrate and the main substrate are reliably connected via the connector.
For example, Patent Document 1 discloses a structure for attaching a cabinet (panel) to a chassis. This structure attaches a cabinet to a chassis by fitting the extension part provided in the right and left both sides of a cabinet to the engagement convex part provided in the both sides | surfaces of a chassis.
特開2002-324982号公報JP 2002-324982 A
 従来のパネル組み付け構造は、パネルが嵌め込まれたフロントシャーシをシャーシ本体の前面に組み付けていた。この構造では、フロントシャーシの外形とパネルの内形で位置決めされるが、製造上の寸法ばらつきを考慮すると、フロントシャーシとパネルとの間にクリアランスを設定する必要がある。このため、パネル内でフロントシャーシとシャーシ本体がクリアランスの分だけ動いてしまい、位置決めの精度が低いという課題があった。 In the conventional panel assembly structure, the front chassis in which the panel is fitted is assembled on the front surface of the chassis body. In this structure, positioning is performed by the outer shape of the front chassis and the inner shape of the panel. However, in consideration of manufacturing dimensional variations, it is necessary to set a clearance between the front chassis and the panel. For this reason, the front chassis and the chassis main body move within the panel by the clearance, and there is a problem that the positioning accuracy is low.
 特に、シャーシにパネルを組み付ける構造体では、パネル内に設けたパネル基板とシャーシ内に設けた基板とを基板間接続コネクタで固定することが多い。
 基板間接続コネクタは、基板上に実装されるコネクタであるので、確実に基板間を接続するためには、シャーシとパネルの組み付けに高い位置決め精度が要求される。
In particular, in a structure in which a panel is assembled to a chassis, a panel substrate provided in the panel and a substrate provided in the chassis are often fixed with an inter-board connector.
Since the board-to-board connector is a connector mounted on the board, high positioning accuracy is required for assembling the chassis and the panel in order to securely connect the boards.
 また、一般的に金属で作成されるフロントシャーシと樹脂で作成されるパネルとでは、熱膨張または熱収縮による差が大きいため、フロントシャーシをパネルに嵌め込む位置決めピッチが長い構造体では、位置決め精度の向上に限界があり、また熱膨張または熱収縮の影響で破損する可能性もある。 In addition, since there is a large difference between thermal expansion or thermal shrinkage between a front chassis made of metal and a panel made of resin, positioning accuracy is long for structures with a long positioning pitch for fitting the front chassis into the panel. There is a limit to the improvement of the heat resistance, and there is a possibility of damage due to the effects of thermal expansion or contraction.
 この発明は、上記のような課題を解決するためになされたもので、簡易な構成でパネルの位置決め精度の向上を図ることができるパネル位置決め構造、およびこの構造を備える電子機器を得ることを目的とする。 The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a panel positioning structure capable of improving the panel positioning accuracy with a simple configuration, and an electronic apparatus including the structure. And
 この発明に係るパネル位置決め構造は、箱状のシャーシの一側面にパネルを組み付ける構造で、シャーシの一側面に対してパネルを位置決めするパネル位置決め構造において、シャーシの一側面に直交する側面を延設してなる第1の延設部と、シャーシの一側面に直交し、第1の延設部を設けた側面に対向する側面を延設してなる第2の延設部と、パネルに設けられ、第1の延設部を当該第1の延設部の厚み方向に挟み込んで位置決めする第1の位置決め部と、パネルに設けられ、第1の延設部を当該第1の延設部の厚み方向に垂直な方向に挟み込んで位置決めする第2の位置決め部と、パネルに設けられ、第2の延設部を当該第2の延設部の厚み方向に垂直な方向に挟み込んで位置決めする第3の位置決め部とを備える。 The panel positioning structure according to the present invention is a structure in which a panel is assembled to one side surface of a box-shaped chassis. In the panel positioning structure for positioning the panel with respect to one side surface of the chassis, a side surface orthogonal to one side surface of the chassis is extended. A first extending portion, a second extending portion formed by extending a side surface that is orthogonal to one side surface of the chassis and that faces the side surface provided with the first extending portion, and a panel. A first positioning portion that sandwiches and positions the first extending portion in the thickness direction of the first extending portion, and is provided on the panel, and the first extending portion is the first extending portion. A second positioning portion that is sandwiched and positioned in a direction perpendicular to the thickness direction of the first and second panels, and the second extending portion is sandwiched and positioned in a direction perpendicular to the thickness direction of the second extending portion. And a third positioning unit.
 この発明によれば、簡易な構成でパネルの位置決め精度の向上を図ることができるという効果がある。 According to the present invention, the panel positioning accuracy can be improved with a simple configuration.
この発明に係るパネル位置決め構造を備える電子機器を示す斜視図である。It is a perspective view which shows an electronic device provided with the panel positioning structure which concerns on this invention. 従来の電子機器の分解斜視図である。It is a disassembled perspective view of the conventional electronic device. 従来の電子機器のパネル位置決め構造を示す図である。It is a figure which shows the panel positioning structure of the conventional electronic device. 実施の形態1に係るパネル位置決め構造を備える電子機器の構成を示す図である。It is a figure which shows the structure of an electronic device provided with the panel positioning structure which concerns on Embodiment 1. FIG. 実施の形態1に係るパネル位置決め構造(延設部6a、位置決め部6b)を示す部分拡大図である。It is the elements on larger scale which show the panel positioning structure (extension part 6a, positioning part 6b) concerning Embodiment 1. FIG. 実施の形態1に係るパネル位置決め構造(延設部7a、位置決め部7b)を示す部分拡大図である。It is the elements on larger scale which show the panel positioning structure (extension part 7a, positioning part 7b) concerning Embodiment 1. FIG. パネルのシャーシへの固定態様を示す斜視図である。It is a perspective view which shows the fixation aspect to the chassis of a panel. 実施の形態1に係る電子機器の具体的な態様を示す斜視図である。FIG. 3 is a perspective view illustrating a specific aspect of the electronic device according to the first embodiment. 図8の電子機器におけるパネル位置決め構造を示す斜視図である。It is a perspective view which shows the panel positioning structure in the electronic device of FIG. 図8の電子機器におけるパネル組み付け後のパネル位置決め構造を示す斜視図である。It is a perspective view which shows the panel positioning structure after the panel assembly in the electronic device of FIG. 図10のパネル位置決め構造(延設部6a、位置決め部6b)を示す部分拡大図である。It is the elements on larger scale which show the panel positioning structure (extended part 6a, positioning part 6b) of FIG. 図10のパネル位置決め構造(延設部7a、位置決め部7b)を示す部分拡大図である。It is the elements on larger scale which show the panel positioning structure (extended part 7a, positioning part 7b) of FIG.
 以下、この発明をより詳細に説明するため、この発明を実施するための形態について、添付の図面に従って説明する。
実施の形態1.
 図1は、この発明に係るパネル位置決め構造を備える電子機器を示す斜視図である。図1に示す電子機器1は、カバー2および天面をカバー2で覆われた箱状のシャーシ3からなる本体部、およびシャーシ3の前面に設けられたパネル4を備える。
 従来では、電子機器1のような電子機器を実現するため、図2に示すように、フロントシャーシ4bを介してパネル4をシャーシ3の前面に組み付けていた。
 なお、パネル4内にはパネル基板4aが取り付けられ、シャーシ3内には基板5が取り付けられている。基板5とパネル基板4aの間は、フロントシャーシ4bの開口を介して基板間接続コネクタ5a,5bにより電気的に接続される。
Hereinafter, in order to describe the present invention in more detail, modes for carrying out the present invention will be described with reference to the accompanying drawings.
Embodiment 1 FIG.
FIG. 1 is a perspective view showing an electronic apparatus having a panel positioning structure according to the present invention. The electronic device 1 shown in FIG. 1 includes a cover 2, a main body composed of a box-shaped chassis 3 whose top surface is covered with the cover 2, and a panel 4 provided on the front surface of the chassis 3.
Conventionally, in order to realize an electronic device such as the electronic device 1, the panel 4 is assembled to the front surface of the chassis 3 via the front chassis 4 b as shown in FIG. 2.
A panel substrate 4 a is attached in the panel 4, and a substrate 5 is attached in the chassis 3. The board 5 and the panel board 4a are electrically connected by the board-to- board connectors 5a and 5b through the opening of the front chassis 4b.
 また、従来の電子機器では、図3(a)に示すように、パネル4が一面が開口した略箱形状に形成されている。パネル4は、図3(b)の断面図で示すように、その開口にフロントシャーシ4bを嵌め込むことにより組み付けられる。
 一方、複数の部材を組み付ける構造体は、一般的に製造上の寸法ばらつきを考慮して、組み付け後の各部材の間にクリアランスを設定する必要がある。
 従って、従来の電子機器においても、パネル4の内形とフロントシャーシ4bの外形との間にクリアランスが設けられる。このため、パネル4内でフロントシャーシ4bおよびこれが組み付けられたシャーシ3がクリアランスの分だけ動いてしまう。
 さらに、パネル4とフロントシャーシ4bとは、一般的に金属と樹脂などの異種材料で形成されるので、パネル4とフロントシャーシ4bの熱収縮差は大きい。このため、位置決め精度の向上に限界があり、また熱収縮の影響で破損する可能性もある。
Moreover, in the conventional electronic device, as shown in FIG. 3A, the panel 4 is formed in a substantially box shape with one surface opened. As shown in the cross-sectional view of FIG. 3B, the panel 4 is assembled by fitting the front chassis 4b into the opening.
On the other hand, in a structure in which a plurality of members are assembled, it is generally necessary to set a clearance between the assembled members in consideration of dimensional variations in manufacturing.
Therefore, also in the conventional electronic device, a clearance is provided between the inner shape of the panel 4 and the outer shape of the front chassis 4b. For this reason, the front chassis 4b and the chassis 3 to which the front chassis 4b is assembled move within the panel 4 by the clearance.
Furthermore, since the panel 4 and the front chassis 4b are generally formed of different materials such as metal and resin, the thermal contraction difference between the panel 4 and the front chassis 4b is large. For this reason, there is a limit to the improvement of positioning accuracy, and there is a possibility of damage due to the influence of heat shrinkage.
 そこで、この発明は、図4に示すように、別部材のフロントシャーシ4bを使用せず、シャーシ3側の延設部6a,7aおよびパネル4側の位置決め部6b,7bからなるパネル位置決め構造を設けて、パネル4をシャーシ3に直接組み付ける。
 これにより、組み付け後のシャーシ3とパネル4の間にクリアランスを設けてもパネル4の動きが防止され、位置決め精度を向上させることができる。以下、この発明に係るパネル位置決め構造の詳細を説明する。
Therefore, as shown in FIG. 4, the present invention does not use a separate front chassis 4b, but has a panel positioning structure including extending portions 6a and 7a on the chassis 3 side and positioning portions 6b and 7b on the panel 4 side. The panel 4 is assembled directly to the chassis 3.
Thereby, even if a clearance is provided between the assembled chassis 3 and the panel 4, the movement of the panel 4 is prevented, and the positioning accuracy can be improved. Details of the panel positioning structure according to the present invention will be described below.
 延設部(第1の延設部)6aは、図5に示すように、シャーシ3の開口したパネル組み付け面に直交するシャーシ側面を部分的に延設してなる板状部である。
 組み付け時に延設部6aに当接することでシャーシ3に対してパネル4を位置決めする位置決め部6bは、図5に示すように、当たり面部6b-1および内壁部6b-2と、当たり面部6b-3,6b-4とを備える。
As shown in FIG. 5, the extending portion (first extending portion) 6 a is a plate-like portion formed by partially extending a chassis side surface perpendicular to the panel assembly surface opened in the chassis 3.
As shown in FIG. 5, the positioning portion 6b for positioning the panel 4 with respect to the chassis 3 by contacting the extended portion 6a at the time of assembly includes the contact surface portion 6b-1, the inner wall portion 6b-2, and the contact surface portion 6b- 3, 6b-4.
 当たり面部6b-1および内壁部6b-2は、パネル4の裏面に設けられ、延設部6aをその厚み方向に挟み込んで保持することで、延設部6aに垂直な方向の位置決めを行う第1の位置決め部である。
 すなわち、当たり面部6b-1および内壁部6b-2は、延設部6aの厚み方向の寸法に相当する間隔でパネル4の裏面側に形成されており、パネル4のシャーシ3への組み付けによって、延設部6aの厚み方向の両側から当該延設部6aに当接する。これにより、延設部6aに垂直な方向(左右方向)のパネル4の動きが規制されて位置決めされる。
The contact surface portion 6b-1 and the inner wall portion 6b-2 are provided on the back surface of the panel 4, and are positioned in the direction perpendicular to the extending portion 6a by sandwiching and holding the extending portion 6a in the thickness direction thereof. 1 is a positioning unit.
That is, the contact surface portion 6b-1 and the inner wall portion 6b-2 are formed on the back surface side of the panel 4 at an interval corresponding to the dimension in the thickness direction of the extending portion 6a. By assembling the panel 4 to the chassis 3, The extended portion 6a comes into contact with the extended portion 6a from both sides in the thickness direction. Thereby, the movement of the panel 4 in the direction (left-right direction) perpendicular to the extending portion 6a is restricted and positioned.
 また、当たり面部6b-3,6b-4は、パネル4の裏面に設けられ、延設部6aをその厚み方向に垂直な方向に挟み込んで保持することにより、延設部6aに平行な方向(上下方向)にパネル4の位置決めを行う第2の位置決め部である。
 すなわち、当たり面部6b-3,6b-4は、延設部6aの厚み方向に垂直な方向の寸法(高さ)に相当する間隔でパネル4の裏面側に形成されており、パネル4のシャーシ3への組み付けによって、延設部6aの厚み方向に垂直な方向の両側から当該延設部6aに当接する。これにより、延設部6aに平行な方向(上下方向)のパネル4の動きが規制されて位置決めされる。
The contact surface portions 6b-3 and 6b-4 are provided on the back surface of the panel 4, and are held in a direction parallel to the extending portion 6a by sandwiching and holding the extending portion 6a in a direction perpendicular to the thickness direction thereof ( It is the 2nd positioning part which positions the panel 4 in the up-down direction).
That is, the contact surface portions 6b-3 and 6b-4 are formed on the back surface side of the panel 4 at intervals corresponding to the dimension (height) in the direction perpendicular to the thickness direction of the extending portion 6a. 3 is brought into contact with the extended portion 6a from both sides in the direction perpendicular to the thickness direction of the extended portion 6a. Thereby, the movement of the panel 4 in a direction (vertical direction) parallel to the extending portion 6a is regulated and positioned.
 延設部(第2の延設部)7aは、図6に示すように、シャーシ3の開口したパネル組み付け面に直交する、延設部6aを設けた側面に対向する側面を延設してなる板状部である。また、組み付け時に延設部7aに当たってシャーシ3に対してパネル4を位置決めする位置決め部7bは、図6に示すように当たり面部7b-1,7b-2を備える。 As shown in FIG. 6, the extending portion (second extending portion) 7 a is formed by extending a side surface that is orthogonal to the side of the chassis 3 that is open and that faces the side surface provided with the extending portion 6 a. It is a plate-like part. Further, the positioning portion 7b for positioning the panel 4 with respect to the chassis 3 when hitting the extending portion 7a during assembly includes contact surface portions 7b-1 and 7b-2 as shown in FIG.
 当たり面部7b-1,7b-2は、パネル4の裏面に設けられ、延設部7aをその厚み方向に垂直な方向に挟み込んで保持することで、延設部6aに平行な方向にパネル4の位置決めを行う第3の位置決め部である。
 すなわち、当たり面部7b-1,7b-2は、延設部7aの厚み方向に垂直な方向の寸法(高さ)に相当する間隔でパネル4の裏面側に形成されており、パネル4のシャーシ3への組み付けによって、延設部7aの厚み方向に垂直な方向の両側から当該延設部7aに当接する。これにより、延設部7aに平行な方向(上下方向)のパネル4の動きが規制されて位置決めされる。
The contact surface portions 7b-1 and 7b-2 are provided on the back surface of the panel 4, and the extending portion 7a is sandwiched and held in a direction perpendicular to the thickness direction thereof, so that the panel 4 extends in a direction parallel to the extending portion 6a. It is the 3rd positioning part which performs positioning.
That is, the contact surface portions 7b-1 and 7b-2 are formed on the back surface side of the panel 4 at intervals corresponding to the dimension (height) in the direction perpendicular to the thickness direction of the extending portion 7a. 3 is brought into contact with the extended portion 7a from both sides in the direction perpendicular to the thickness direction of the extended portion 7a. Thereby, the movement of the panel 4 in a direction (vertical direction) parallel to the extending portion 7a is regulated and positioned.
 なお、例えば金属でシャーシ3を構成した場合、シャーシ3の側面を延設してなる延設部6a,7aは、一般的に面内方向の熱収縮は大きい。このため、当たり面部6b-3,6b-4の間隔および当たり面部7b-1,7b-2の間隔には、延設部6a,7aの面内方向の熱収縮を考慮して、ある程度のクリアランスを設ける必要がある。 For example, when the chassis 3 is made of metal, the extended portions 6a and 7a formed by extending the side surfaces of the chassis 3 generally have a large thermal contraction in the in-plane direction. For this reason, the clearance between the contact surface portions 6b-3 and 6b-4 and the contact surface portions 7b-1 and 7b-2 have a certain clearance in consideration of thermal contraction in the in-plane direction of the extending portions 6a and 7a. It is necessary to provide.
 この場合、従来では、クリアランスの分だけパネル4内でシャーシ3の左右がそれぞれ上下して回動するが、本発明では、当たり面部6b-1および内壁部6b-2により延設部6aを厚み方向に挟み込まれて、シャーシ3の動き(回動)が規制され、位置決め精度の向上を図ることができる。
 従って、基板間接続コネクタ5a,5bによる基板5とパネル基板4aとの間の接続に対する、組み付け後のシャーシ3およびパネル4のがたつきの影響を格段に低減することができる。
In this case, conventionally, the left and right sides of the chassis 3 are rotated up and down within the panel 4 by the clearance, but in the present invention, the extending portion 6a is made thick by the contact surface portion 6b-1 and the inner wall portion 6b-2. The movement (turning) of the chassis 3 is restricted by being sandwiched in the direction, and the positioning accuracy can be improved.
Therefore, the influence of shakiness of the chassis 3 and the panel 4 after assembly on the connection between the board 5 and the panel board 4a by the board-to- board connectors 5a and 5b can be remarkably reduced.
 また、一般的に面内方向と比較して延設部6aの厚み方向の熱収縮は小さいことから、当たり面部6b-1および内壁部6b-2によって延設部6aの厚み分を挟み込む構成にすることで、さらに精度の高い位置決めを実現できる。 Further, since the thermal contraction in the thickness direction of the extended portion 6a is generally smaller than that in the in-plane direction, the thickness of the extended portion 6a is sandwiched between the contact surface portion 6b-1 and the inner wall portion 6b-2. By doing so, positioning with higher accuracy can be realized.
 シャーシ3とパネル4をねじ止めにより固定する場合には、図7に示すように、延設部6a,7aにそれぞれ設けた挿通孔3aとパネル4の両側面に設けた挿通孔4cにねじ8を挿通させてねじ止め固定する。この構成において、位置決め部7bには、水平方向にパネル4を位置決めする当たり面部6b-1および内壁部6b-2が形成していないので、位置決め部7b側の挿通孔4cの周辺にスリット4dを設ける。このスリット4dにより、挿通孔4cを挿通させたねじ8によるねじ止めで挿通孔4cの周辺部(取り付け部材4A)を撓ませられる。つまり、当たり面部6b-1および内壁部6b-2により位置決めしている側とは反対側に可撓性を与えている。 When the chassis 3 and the panel 4 are fixed by screwing, as shown in FIG. 7, the screws 8 are inserted into the insertion holes 3a provided in the extending portions 6a and 7a and the insertion holes 4c provided on both side surfaces of the panel 4, respectively. Is inserted and fixed with screws. In this configuration, since the contact portion 6b-1 and the inner wall portion 6b-2 for positioning the panel 4 in the horizontal direction are not formed in the positioning portion 7b, the slit 4d is formed around the insertion hole 4c on the positioning portion 7b side. Provide. By this slit 4d, the peripheral portion (attachment member 4A) of the insertion hole 4c can be bent by screwing with the screw 8 inserted through the insertion hole 4c. That is, flexibility is given to the side opposite to the side positioned by the contact surface portion 6b-1 and the inner wall portion 6b-2.
 このように構成することで、例えばシャーシ3が膨張してクリアランスが小さくなった場合、膨張に応じて取り付け部材4Aが撓むことから、当該膨張の影響が吸収され、ねじ止め部への応力集中が回避される。同様に、シャーシ3が収縮してクリアランスが大きくなった場合であっても、収縮に応じて取り付け部材4Aが撓むことから、当該収縮の影響が吸収される。 With this configuration, for example, when the chassis 3 expands and the clearance decreases, the attachment member 4A bends in response to the expansion, so that the influence of the expansion is absorbed and stress concentration on the screwing portion. Is avoided. Similarly, even when the chassis 3 contracts and the clearance increases, the attachment member 4A bends in response to the contraction, so that the influence of the contraction is absorbed.
 次に、実施の形態1に係る電子機器の具体的な態様を説明する。
 図8は、実施の形態1に係る電子機器の具体的な態様を示す斜視図であり、図8(a)は前方図、図8(b)は後方図である。図8の例は、ディスクに記録された音楽データを再生する車載用の音響装置に本発明を適用した場合を示している。
 すなわち、図8に示す音響装置1は、図9および図10に示すように、シャーシ3側の延設部6a,7aおよびパネル4側の位置決め部6b,7bからなるパネル位置決め構造を有しており、シャーシ3にパネル4が直接組み付けられる。
Next, a specific aspect of the electronic device according to the first embodiment will be described.
FIG. 8 is a perspective view illustrating a specific aspect of the electronic device according to the first embodiment, in which FIG. 8A is a front view and FIG. 8B is a rear view. The example of FIG. 8 shows a case where the present invention is applied to an in-vehicle audio device that reproduces music data recorded on a disc.
That is, as shown in FIGS. 9 and 10, the acoustic device 1 shown in FIG. 8 has a panel positioning structure including extending portions 6a and 7a on the chassis 3 side and positioning portions 6b and 7b on the panel 4 side. The panel 4 is directly assembled to the chassis 3.
 図8の音響装置1における延設部6aは、図11(a)に示すようにシャーシ3の開口したパネル組み付け面に直交するシャーシ側面を部分的に延設し、その端部を折り曲げた構成となっている。このように端部を折り曲げた延設部6aであっても、当たり面部6b-1および内壁部6b-2によって厚み方向に挟み込んで保持することで、延設部6aに垂直な方向に位置決めすることができる。また、この延設部6aについても、図11(a)及び図11(b)に示すように、当たり面部6b-3,6b-4によって厚み方向に垂直な方向(上下方向)に挟み込まれ、延設部6aに平行な方向(上下方向)に位置決めされる。 As shown in FIG. 11A, the extending portion 6a in the acoustic device 1 of FIG. 8 has a configuration in which the chassis side surface perpendicular to the panel assembly surface opened in the chassis 3 is partially extended and the end portion thereof is bent. It has become. Even the extended portion 6a having the end bent in this manner is positioned in the direction perpendicular to the extended portion 6a by being sandwiched and held in the thickness direction by the contact surface portion 6b-1 and the inner wall portion 6b-2. be able to. Further, as shown in FIGS. 11 (a) and 11 (b), the extended portion 6a is also sandwiched in the direction (vertical direction) perpendicular to the thickness direction by the contact surface portions 6b-3 and 6b-4, It is positioned in a direction (vertical direction) parallel to the extending portion 6a.
 図8の音響装置1における延設部7aも、図12(a)に示すようにシャーシ3の開口したパネル組み付け面に直交する側面(延設部6aを設けた側面に対向する側面)を延設し、その端部を折り曲げた構成となっている。このような延設部7aについても、図12(a)に示すように、当たり面部7b-1,7b-2によって厚み方向に垂直な方向(上下方向)に挟み込まれ、延設部7aに平行な方向(上下方向)に位置決めされる。 As shown in FIG. 12A, the extending portion 7a in the acoustic device 1 of FIG. 8 also extends a side surface (side surface opposite to the side surface on which the extending portion 6a is provided) orthogonal to the panel assembly surface opened in the chassis 3. It has a configuration in which the end is bent. As shown in FIG. 12A, such an extended portion 7a is also sandwiched in the direction (vertical direction) perpendicular to the thickness direction by the contact surface portions 7b-1 and 7b-2, and is parallel to the extended portion 7a. Positioning in the vertical direction.
 また、図8の音響装置1においても、図12(b)に示すように、延設部6a,7aにそれぞれ設けた挿通孔3aとパネル4の両側面に設けた挿通孔4cにねじ8を挿通させてねじ止め固定している。図12(b)の場合では、取り付け部材4Aとその周辺にスリット4d-1~4d-3を形成している。これらのスリット4d-1~4d-3によって、挿通孔4cを挿通させたねじ8によるねじ止めで取り付け部材4Aを撓ませられる。これにより、シャーシ3およびパネル4の熱膨張または熱収縮した場合でも、その影響を緩和することができる。 Also in the acoustic device 1 of FIG. 8, as shown in FIG. 12B, screws 8 are inserted into the insertion holes 3 a provided in the extending portions 6 a and 7 a and the insertion holes 4 c provided on both side surfaces of the panel 4. It is inserted and fixed with screws. In the case of FIG. 12B, slits 4d-1 to 4d-3 are formed in the attachment member 4A and its periphery. By these slits 4d-1 to 4d-3, the mounting member 4A can be bent by screwing with the screw 8 inserted through the insertion hole 4c. Thereby, even when the chassis 3 and the panel 4 are thermally expanded or contracted, the influence can be mitigated.
 以上のように、この実施の形態1によれば、シャーシ3の一側面に直交する側面を延設してなる延設部6aと、シャーシ3の一側面に直交し、延設部6aを設けた側面に対向する側面を延設してなる延設部7aと、パネル4に設けられ、延設部6aをその厚み方向に挟み込んで位置決めする当たり面部6b-1および内壁部6b-2と、パネル4に設けられ、延設部6aをその厚み方向に垂直な方向に挟み込んで位置決めする当たり面部6b-3,6b-4と、パネル4に設けられ、延設部7aをその厚み方向に垂直な方向に挟み込んで位置決めする当たり面部7b-1,7b-2とを備える。
 このように構成することで、シャーシ3とパネル4の寸法にクリアランスを設けても、当たり面部6b-3,6b-4および当たり面部7b-1,7b-2によりパネル4の垂直方向の動きが規制され、当たり面部6b-1および内壁部6b-2によりパネル4の水平方向の動きが規制されるため、簡易な構成でパネル4の位置決め精度を向上させることができる。
As described above, according to the first embodiment, the extending portion 6a formed by extending the side surface orthogonal to one side surface of the chassis 3 and the extending portion 6a provided orthogonal to one side surface of the chassis 3 are provided. An extended portion 7a formed by extending a side surface opposite to the side surface, a contact surface portion 6b-1 and an inner wall portion 6b-2 provided on the panel 4 for positioning the extended portion 6a in the thickness direction thereof, Contact surfaces 6b-3 and 6b-4 which are provided on the panel 4 and are positioned by sandwiching the extended portion 6a in a direction perpendicular to the thickness direction, and provided on the panel 4 and the extended portion 7a is perpendicular to the thickness direction. And contact surface portions 7b-1 and 7b-2 for positioning by being sandwiched in any direction.
With this configuration, even if a clearance is provided in the dimensions of the chassis 3 and the panel 4, the vertical movement of the panel 4 can be performed by the contact surface portions 6b-3 and 6b-4 and the contact surface portions 7b-1 and 7b-2. Since the movement of the panel 4 in the horizontal direction is restricted by the contact surface portion 6b-1 and the inner wall portion 6b-2, the positioning accuracy of the panel 4 can be improved with a simple configuration.
 また、この実施の形態1によれば、パネル4に設けられ、延設部7aを当該パネル4にねじ止めするねじ8を挿通する挿通孔4cが形成された取り付け部材4Aと、取り付け部材4Aに形成され、挿通孔4cを挿通させたねじ8によるねじ止めで取り付け部材4Aを撓ませるスリット4dとを備えるので、シャーシ3およびパネル4の熱膨張または熱収縮による影響を緩和することができる。 Further, according to the first embodiment, the mounting member 4A provided with the insertion hole 4c provided in the panel 4 and through which the screw 8 for screwing the extending portion 7a to the panel 4 is formed, and the mounting member 4A. Since it is provided with the slit 4d that bends the attachment member 4A by screwing with the screw 8 inserted through the insertion hole 4c, the influence of thermal expansion or thermal contraction of the chassis 3 and the panel 4 can be mitigated.
 さらに、この実施の形態1によれば、電子機器1が上述のパネル位置決め構造を備えるので、上記と同様の効果が得られる電子機器を提供することができる。 Furthermore, according to this Embodiment 1, since the electronic device 1 is provided with the above-mentioned panel positioning structure, the electronic device which can obtain the effect similar to the above can be provided.
 なお、本発明はその発明の範囲内において、実施の形態の任意の構成要素の変形、もしくは実施の形態の任意の構成要素の省略が可能である。 In the present invention, any component of the embodiment can be modified or any component of the embodiment can be omitted within the scope of the invention.
 この発明に係るパネル位置決め構造は、簡易な構成でパネルの位置決め精度を向上させることができるので、 Since the panel positioning structure according to the present invention can improve the panel positioning accuracy with a simple configuration,
 1 電子機器、2 カバー、3 シャーシ、3a,4c 挿通孔、4 パネル、4a パネル基板、4b フロントシャーシ、4d,4d-1~4d-3 スリット、4A 取り付け部材、5 基板、5a,5b 基板間接続コネクタ、6a,7a 延設部、6b,7b 位置決め部、6b-1,6b-3,6b-4,7b-1,7b-2 当たり面部、6b-2 内壁部、8 ねじ。 1 Electronic device, 2 cover, 3 chassis, 3a, 4c insertion hole, 4 panel, 4a panel board, 4b front chassis, 4d, 4d-1 to 4d-3 slit, 4A mounting member, 5 board, 5a, 5b board to board Connector, 6a, 7a extension, 6b, 7b positioning part, 6b-1, 6b-3, 6b-4, 7b-1, 7b-2 contact surface part, 6b-2 inner wall part, 8 screws.

Claims (3)

  1.  箱状のシャーシの一側面にパネルを組み付ける構造で、前記シャーシの一側面に対して前記パネルを位置決めするパネル位置決め構造において、
     前記シャーシの一側面に直交する側面を延設してなる第1の延設部と、
     前記シャーシの一側面に直交し、前記第1の延設部を設けた側面に対向する側面を延設してなる第2の延設部と、
     前記パネルに設けられ、前記第1の延設部を当該第1の延設部の厚み方向に挟み込んで位置決めする第1の位置決め部と、
     前記パネルに設けられ、前記第1の延設部を当該第1の延設部の厚み方向に垂直な方向に挟み込んで位置決めする第2の位置決め部と、
     前記パネルに設けられ、前記第2の延設部を当該第2の延設部の厚み方向に垂直な方向に挟み込んで位置決めする第3の位置決め部とを備えることを特徴とするパネル位置決め構造。
    In a structure for assembling a panel on one side of a box-shaped chassis, in a panel positioning structure for positioning the panel relative to one side of the chassis,
    A first extending portion formed by extending a side surface orthogonal to one side surface of the chassis;
    A second extending portion formed by extending a side surface orthogonal to one side surface of the chassis and facing the side surface provided with the first extending portion;
    A first positioning portion provided on the panel and sandwiching and positioning the first extending portion in a thickness direction of the first extending portion;
    A second positioning portion provided on the panel and sandwiching and positioning the first extending portion in a direction perpendicular to the thickness direction of the first extending portion;
    A panel positioning structure, comprising: a third positioning portion that is provided on the panel and sandwiches and positions the second extending portion in a direction perpendicular to the thickness direction of the second extending portion.
  2.  前記パネルに設けられ、前記第2の延設部を当該パネルにねじ止めするねじを挿通する挿通孔が形成された取り付け部材と、
     前記取り付け部材に形成され、前記挿通孔を挿通させたねじによるねじ止めで当該取り付け部材を撓ませるスリットとを備えることを特徴とする請求項1記載のパネル位置決め構造。
    A mounting member provided in the panel, and having an insertion hole through which a screw for screwing the second extending portion to the panel is formed;
    The panel positioning structure according to claim 1, further comprising: a slit formed on the mounting member and bent by a screw with a screw inserted through the insertion hole.
  3.  請求項1記載のパネル位置決め構造を備える電子機器。 An electronic device comprising the panel positioning structure according to claim 1.
PCT/JP2012/000568 2012-01-30 2012-01-30 Structure for positioning panel, and electronic instrument WO2013114424A1 (en)

Priority Applications (2)

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PCT/JP2012/000568 WO2013114424A1 (en) 2012-01-30 2012-01-30 Structure for positioning panel, and electronic instrument
JP2013547423A JP5449631B2 (en) 2012-01-30 2012-01-30 Panel positioning structure and electronic equipment

Applications Claiming Priority (1)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS58138431U (en) * 1982-02-12 1983-09-17 クラリオン株式会社 Escutcheon for radio etc.
JPS62158869U (en) * 1986-03-28 1987-10-08
JPH038396A (en) * 1989-06-06 1991-01-16 Mitsubishi Electric Corp Operation panel mounting device
JP2002026531A (en) * 2000-07-11 2002-01-25 Kenwood Corp Case structure of electronic equipment

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS58138431U (en) * 1982-02-12 1983-09-17 クラリオン株式会社 Escutcheon for radio etc.
JPS62158869U (en) * 1986-03-28 1987-10-08
JPH038396A (en) * 1989-06-06 1991-01-16 Mitsubishi Electric Corp Operation panel mounting device
JP2002026531A (en) * 2000-07-11 2002-01-25 Kenwood Corp Case structure of electronic equipment

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JP5449631B2 (en) 2014-03-19

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