JP2011118226A - Mounting structure, equipment or the like including the same, and method for manufacturing the equipment or the like - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technique positioning a second member with respect to a first member in the state where positional deviation caused by a manufacture error is eased. <P>SOLUTION: The mounting structure 40 for positioning a unit 42 with respect to a housing 41 is equipped with: a recess 43 provided to the housing 41; and a projection 44 provided to the unit 42. By engaging the projection 44 with the recess 43, the unit 42 is positioned with respect to the housing 41. In such constitution, a plurality of recesses 43 and a plurality of projections 44 are provided in different positions. Accordingly, a combination of the recess 43 and the projection 44 to be engaged with each other is selectable. By preparing a plurality of selectable combinations, the unit 42 is positioned with respect to the housing 41 in the state where the positional deviation caused by the manufacture error is mitigated. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a mounting structure, a device including the mounting structure, and a method for manufacturing the device.

  As this type of technology, Patent Document 1 discloses a lens unit mounting structure in which a lens unit is mounted on a lens placement portion formed in a housing. In this mounting structure, the lens arrangement part has a tapered taper abutting wall, and the lens unit has a high accuracy with respect to the lens arrangement part by abutting the peripheral edge of the lens unit against the lens abutting wall. Positioning is realized.

  In addition, the technique which implement | achieves highly accurate positioning using a taper shape in this way is disclosed by patent document 2 etc. elsewhere.

JP 2008-20962 A JP 2000-12891 A

  However, in reality, manufacturing errors always occur. Even if high-accuracy positioning is realized, the positioning does not eliminate manufacturing errors, and satisfactory quality is always obtained. Not always.

  For example, in the example of Patent Document 1, a screen member is provided on the opposite side of the lens unit and the housing, and the screen member is made of a transparent member such as tempered glass. A light-shielding area that prevents the inside from being visually recognized is formed on the periphery of the screen member by printing, forming a window frame portion surrounded by the light-shielding area. And the lens of said lens unit can be visually recognized from said window frame part. However, in reality, there is a molding error of the lens unit and a printing error of the light shielding area. Therefore, when the lens of the lens unit is looked into from the window frame portion, there is a case where the centers of the lenses are displaced to a recognizable level. Therefore, as a coping therapy, it is conceivable to remodel the mold of the lens unit or reprint the light shielding area. However, in any case, it is impossible to eliminate the manufacturing error after all.

  As a method for eliminating such a manufacturing error, a method of “actual matching” is known at the manufacturing site. In this method, a combination of a housing and a lens unit that cancels a manufacturing error is searched for, matched, and selected every time at the manufacturing site. However, “in-kind” is suitable for small-scale production, but is not suitable for mass production as is well known.

  The present invention has been made in view of the above circumstances, and a main purpose thereof is a technique capable of positioning the second member with respect to the first member in a state in which the positional deviation caused by the manufacturing error is relaxed. Is to provide.

  According to the first aspect of the present invention, the mounting structure for positioning the second member relative to the first member is configured as follows. That is, the mounting structure includes a first portion provided on the first member and a second portion provided on the second member. When the second part is engaged with the first part, the second member is positioned with respect to the first member. At least one of the first part and the second part is provided in a plurality at different positions. A combination of the first part and the second part that are engaged with each other can be selected.

  According to a second aspect of the present invention, a first member and a second member positioned with respect to the first member are provided, with respect to the first portion of the first member. By engaging the second part of the second member, the second member is positioned with respect to the first member. Has been done. That is, a plurality of at least one of the first part and the second part are provided at different positions. The positioning of the second member relative to the first member is finely adjusted by selecting a combination of the first and second portions that are engaged with each other.

  According to a third aspect of the present invention, a housing, a lens unit having a lens and positioned with respect to the housing, and the housing of the lens unit are provided to protect the lens. A screen member, and the lens unit is positioned with respect to the housing by engaging the second portion of the lens unit with the first portion of the housing. The screen member is provided with a window for enabling photographing with the lens unit. The electronic apparatus is configured as follows. That is, at least one of the first part and the second part is provided in a plurality at different positions. By selecting a combination of the first portion and the second portion that are engaged with each other, the positioning of the lens of the lens unit with respect to the window portion of the screen member can be finely adjusted.

  According to a fourth aspect of the present invention, a housing, a lens unit having a lens and positioned with respect to the housing, and the housing of the lens unit are provided to protect the lens. A screen member, and the lens unit is positioned with respect to the housing by engaging the second portion of the lens unit with the first portion of the housing. The screen member is formed with a window for enabling photographing by the lens unit. The electronic device is manufactured by the following method. That is, a plurality of at least one of the first part and the second part are provided at different positions. By selecting a combination of the first part and the second part that are engaged with each other, the positioning of the lens of the lens unit with respect to the window of the screen member is finely adjusted.

  According to the present invention, the second member can be positioned with respect to the first member in a state where the positional deviation due to the manufacturing error is relaxed.

The perspective view of the mounting structure which concerns on 1st embodiment of this invention. First perspective view of a mobile phone according to a second embodiment of the present invention. Second perspective view of the mobile phone Functional block diagram of the mobile phone Cross-sectional view of a mounting structure employed in the mobile phone First exploded perspective view of the mounting structure Second exploded perspective schematic view of the mounting structure Operation explanatory diagram of the above mounting structure (before adjustment) Partial enlarged view of Fig. 3 (before adjustment) Operation explanatory diagram of the above mounting structure (after adjustment) Partial enlarged view of Fig. 3 (after adjustment)

<First embodiment>
Hereinafter, a first embodiment of the present invention will be described with reference to FIG. The mounting structure 40 shown in FIG. 1 is for positioning the unit 42 (second member) with respect to the housing 41 (first member). In other words, the mounting structure 40 is for fixing the relative position of the unit 42 with respect to the housing 41.

  Specifically, the housing 41 is formed with a plurality of concave portions 43 (first portions), and the unit 42 is formed with a plurality of convex portions 44 (second portions). Then, when the convex portion 44 is engaged with the concave portion 43, the unit 42 is positioned with respect to the housing 41.

  As shown in FIG. 1, in this embodiment, a plurality of recesses 43 are provided at different positions on the housing 41. Similarly, a plurality of convex portions 44 are provided at different positions of the unit 42. Therefore, the combination of the concave portion 43 and the convex portion 44 that are engaged with each other can be freely selected.

  In this configuration, as a result of positioning the unit 42 with respect to the housing 41 as usual, it is assumed that the relative position of the unit 42 with respect to the housing 41 is slightly shifted due to a manufacturing error. In this case, what is necessary is just to change suitably the combination of the recessed part 43 and the convex part 44 so that the unit 42 can be positioned with respect to the housing | casing 41 in the state which eased said position shift resulting from a manufacturing error.

(Summary)
(1) As described above, in the present embodiment, the mounting structure 40 for positioning the unit 42 with respect to the housing 41 includes the concave portion 43 provided in the housing 41 and the convex portion 44 provided in the unit 42. It is equipped with. When the convex portion 44 is engaged with the concave portion 43, the unit 42 is positioned with respect to the housing 41. With this configuration, both the concave portion 43 and the convex portion 44 are provided in a plurality at different positions. Therefore, a combination of the concave portion 43 and the convex portion 44 that are engaged with each other can be selected. By preparing a plurality of selectable combinations in this way, the unit 42 can be positioned with respect to the housing 41 in a state where the positional deviation due to the manufacturing error is reduced.

  In the above embodiment, both the concave portion 43 and the convex portion 44 are provided at a plurality of different positions. Instead, only one of the concave portion 43 and the convex portion 44 is provided at a different position. It is good also as providing. This is because even in this case, a plurality of combinations of the concave portions 43 and the convex portions 44 that are engaged with each other are prepared.

<Second embodiment>
Next, a second embodiment of the present invention will be described with reference to FIGS.

  The mobile phone 1 (device, electronic device, portable electronic device) according to the present embodiment has a photographing function by a built-in electronic camera in addition to the original call function and data communication function. As shown in FIG. 4, the upper unit 3 and the lower unit 4 are included. The upper unit 3 and the lower unit 4 are connected via a hinge part 5 so as to be foldable.

  The upper casing 6 and the lower casing 7 constituting the casing 41 of the mobile phone 1 are made of a synthetic resin molded product such as ABS resin, for example, and each constitutes an inner surface side as shown in FIGS. The front case 8 and the front case 9, the rear case 11 (first member) constituting the outer surface side, and the rear case 12, and the combined front case 8 and 9 and rear case 11 and 12, Various components are housed inside or assembled in a state of being attached by fitting in a rib or by fastening with a fixing tool such as a female screw or a male screw.

  Further, as shown in FIG. 5, a pressing rib 8a for pressing the back surface 42a of the lens unit 15 (second member) via a pressing cushion member 14 is provided at a predetermined portion of the inner surface of the front case 8. Is formed. In addition, a shooting opening 16 serving as a shooting window is provided in the upper part of the rear case 11. On the inner side of the shooting opening 16 of the rear case 11 is formed a lens placement portion 18 in which a lens unit 15 holding a camera lens 17 (see also FIG. 4) is placed inside the lens barrel. ing. A screen arrangement portion 21 in which the screen member 19 is arranged is formed on each outer side edge portion of the rear case 11.

  As shown in FIG. 4, the mobile phone 1 includes a control unit 23 that controls each component of the mobile phone 1 body, a storage unit 24 that stores processing programs executed by the control unit 23, various data, and the like. For example, an electronic camera unit 25 that captures a surrounding landscape or a person, an antenna 26 that transmits and receives radio waves, a wireless communication unit 27 that is used to perform a call or data communication according to a predetermined protocol, and a received voice, for example. A receiving unit 28 for outputting, a voice output unit 29 for outputting a ring tone when receiving an incoming call, and a liquid crystal display device disposed on the inner side (inner side) when folded, for example, a function setting screen or a standby screen , Etc., a display section 31, an operation section 32 composed of various operation keys for inputting numbers and characters, etc., and a transmission section 3 composed of a microphone for inputting a transmitted voice. It is equipped with a door.

  The electronic camera unit 25 receives light coming from a subject, a lens unit 15 (see also FIG. 5) in which a camera lens 17 (lens) is built in a lens barrel, and a predetermined image signal. And a camera circuit 35 in which a DSP or the like is incorporated. The camera circuit 35 photoelectrically converts an image formed through the camera lens 17 and outputs an image signal as an electrical signal, and an image sent from the image pickup device 36. An A / D conversion unit 37 that performs A / D conversion of the signal and an image processing unit 38 that performs image processing such as gamma conversion and color space conversion on the digitized signal are provided. A screen member 19 for protecting the camera lens 17 is disposed on the front side of the lens unit 15 as shown in FIG.

  The lens unit 15 is sandwiched between the rear case 11 and the front case 8 and mounted on the rear case 11 in a positioned state. Specifically, the lens unit 15 is disposed in a state where the lens unit 15 is positioned with respect to the lens placement portion 18 formed on the rear case 11, and the lens unit 15 is formed on the inner surface of the front case 8 via the pressing cushion member 14. When the back surface 42a is pressed by the pressing rib 8a, it is mounted on the upper housing 6 of the housing 41 and is schematically configured. As shown in FIGS. 5 and 6, the lens unit 15 has a cylindrical portion 51 formed on the distal end side of a rectangular portion 50 whose outer shape is a substantially rectangular parallelepiped shape, and holds a camera lens 17 made of a standard lens, for example. It has a lens barrel as a holding body. The lens unit 15 is electrically connected to the camera circuit 35 via an FPC 52 (Flexible Printed Circuit) as a flexible printed circuit.

  As shown in FIG. 5, the screen arrangement portion 21 is formed on the outer side edge of the photographing opening 16 of the rear case 11 and has a recess 53 for accommodating and arranging the screen member 19. The screen member 19 is made of a disk-shaped transparent member (for example, normal glass or tempered glass), and a light-shielding region 19a (camera frame printing) for making the inside invisible cannot be seen on the periphery of the inner surface. It is formed by printing. The light shielding area 19a formed on the screen member 19 forms a window portion 19c for enabling photographing by the electronic camera portion 25 (lens unit 15). The screen member 19 is affixed to the bottom surface of the concave portion 53 of the screen arrangement portion 21 (the outer side edge portion of the photographing opening portion 16) by a ring-shaped double-sided adhesive sheet.

  As shown in FIGS. 6 and 7, the inner peripheral surface 18 a corresponding to one of the four surfaces constituting the lens arrangement portion 18 of the rear case 11 has a plurality of convex portions 60 (first Part) is formed. Similarly, a plurality of concave portions 61 (second portions) are formed on the outer peripheral surface 50 a of the square portion 50 of the lens unit 15. In the present embodiment, the mounting structure 40 is configured to include a plurality of convex portions 60 and a plurality of concave portions 61. The inner peripheral surface 18a of the lens placement portion 18 and the outer peripheral surface 50a of the square portion 50 of the lens unit 15 are in a facing relationship. The lens unit 15 is positioned with respect to the housing 41 when any concave portion 61 is engaged with any convex portion 60. And the combination of the convex part 60 and the recessed part 61 which are mutually engaged can be selected.

  Specifically, each of the convex portions 60 formed on the inner peripheral surface 18 a of the lens arrangement portion 18 extends in parallel to the lens axis of the camera lens 17 of the lens unit 15. As shown in FIG. 7, a plurality (two in this embodiment) of the convex portions 60 are formed at intervals in a direction orthogonal to the lens axis. The plurality of convex portions 60 are all formed on the inner peripheral surface 18a. In other words, the plurality of convex portions 60 are provided at different positions in the same plane. Then, each convex portion 60 is directed from the front case 8 shown in FIG. 5 toward the rear case 11, in other words, in a direction in which the lens unit 15 is fitted toward the rear case 11 as shown in FIG. As shown in (b), it is formed so as to widen from the top to the bottom of the page. That is, the convex portion 60 shown in FIG. 7B has a triangular cross section, and each side of the triangular shape gradually increases in the above direction. Thereby, the convex part 60 will have a pair of taper surface 60a * 60a.

  On the other hand, the concave portion 61 formed on the outer peripheral surface 50 a of the square portion 50 of the lens unit 15 is a convex portion 60 formed in the lens arrangement portion 18 when the lens unit 15 is fitted into the lens arrangement portion 18. It is formed so that it can be fully accommodated. That is, the recess 61 extends in parallel to the lens axis of the camera lens 17 of the lens unit 15. As shown in FIG. 7, a plurality (two in this embodiment) of the recesses 61 are formed at intervals in a direction orthogonal to the lens axis. The plurality of recesses 61 are all formed on the outer peripheral surface 50a. In other words, each recess 61 is formed at a different position in the same plane. Each recess 61 extends from the front case 8 shown in FIG. 5 toward the rear case 11, in other words, in a direction in which the lens unit 15 is fitted toward the rear case 11 as shown in FIG. As shown in b), it is formed so as to become wider from the top to the bottom. That is, the recess 61 shown in FIG. 7A has a V-shaped cross section, and each V-shaped side gradually increases in the above direction. Thereby, the recessed part 61 will have a pair of taper surface 61a * 61a.

  Next, a method for manufacturing the mobile phone 1 will be described. Here, for convenience of explanation, of the two concave portions 61 shown in FIG. 7A, the concave portion 61 on the left front side of the paper surface is referred to as a concave portion 61A, and the concave portion 61 on the right rear side of the paper surface is referred to as a concave portion 61B. Similarly, of the two convex portions 60 shown in FIG. 7B, the convex portion 60 on the left front side of the paper surface is referred to as a convex portion 60A, and the convex portion 60 on the right rear side of the paper surface is referred to as a convex portion 60B.

  First, as shown in FIG. 5, the screen member 19 is bonded and fixed to the screen arrangement portion 21 of the rear case 11.

  Next, the lens unit 15 is fitted into the lens arrangement portion 18 and the concave portion 61A of the lens unit 15 is engaged with the convex portion 60A of the lens arrangement portion 18 as usual as shown in FIG. At this time, the concave portion 61B of the lens unit 15 is engaged with the convex portion 60B of the lens arrangement portion 18. With this engagement, the lens unit 15 is positioned with respect to the rear case 11. At this time, both the convex portion 60 and the concave portion 61 are formed in a taper shape so as to gradually spread in the same direction as the lens unit 15 is fitted into the lens placement portion 18, so that the lens unit 15 is mounted on the rear case 11. Is easy. In addition, since the root of the convex portion 60 of the rear case 11 is thick in this way, strong positioning of the lens unit 15 with respect to the rear case 11 is realized. Here, “strong positioning” means positioning without play.

  However, manufacturing errors always occur, and as shown in FIG. 9, when viewed from the rear case 11 side, the center of the window 19 c of the screen member 19 and the camera lens 17 of the lens unit 15. There may be a large deviation so that the center is visible. In the present embodiment, the center of the camera lens 17 of the lens unit 15 is from the center of the window portion 19c of the screen member 19 in the width direction of the mobile phone 1 (the left-right direction in FIG. 9 and the short direction of the rear case 11). There is a gap. Such a shift in the short direction of the rear case 11 is conspicuous as compared with a case where a shift occurs in the longitudinal direction of the rear case 11.

  In the above case, the lens unit 15 is once extracted from the lens placement unit 18 and the lens unit 15 is fitted into the lens placement unit 18 again. At this time, as shown in FIG. 10, the concave portion 61 </ b> A of the lens unit 15 is engaged with the convex portion 60 </ b> B of the lens placement portion 18. In other words, the combination of the plurality of convex portions 60 of the lens placement portion 18 and the plurality of concave portions 61 of the lens unit 15 is changed. As a result, the lens unit 15 is positioned at a position different from the previous position with respect to the rear case 11. In the present embodiment, by changing the combination as described above, as shown in FIG. 11, the difference between the center of the camera lens 17 of the lens unit 15 and the center of the window portion 19c of the screen member 19 is greatly increased. It has been eased.

  If the positional deviation between the center of the camera lens 17 of the lens unit 15 and the center of the window portion 19c of the screen member 19 becomes excessive due to the change of the above combination, the positional deviation is increased. Each time, the optimal combination may be searched for while checking the degree of positional deviation so that is minimized.

  Then, when a combination that can eliminate or maximize the positional deviation is found, in that state, the front case 8 is attached to the rear case 11 as shown in FIG. As a result, the lens unit 15 is pressed toward the rear case 11 by the front case 8 via the pressing cushion member 14, thereby determining the positioning of the lens unit 15 with respect to the housing 41, and thereafter the front case 8. As long as the lens unit 15 is not removed from the rear case 11, the preferred positioning of the lens unit 15 with respect to the housing 41 is maintained.

  Even after the front case 8 is attached to the rear case 11 and the assembly of the mobile phone 1 is completed, the center of the window 19c of the screen member 19 and the center of the camera lens 17 of the lens unit 15 If necessary, remove the front case 8 from the rear case 11, remove the lens unit 15 from the lens placement portion 18, and search again for a combination that reduces the above positional deviation. That's fine. Such work can be performed individually for each product. In this way, it can be said that the mounting structure 40 is effective for countermeasures against product errors because it can be individually handled.

<Summary>
(1, 2, 3) As described above, in the present embodiment, the mounting structure 40 is configured as follows. That is, a convex portion 60 provided in the rear case 11 and a concave portion 61 provided in the lens unit 15 are provided. When the concave portion 61 is engaged (fitted) with the convex portion 60, the second member is positioned with respect to the first member. Both the convex portion 60 and the concave portion 61 are provided in a plurality at different positions. A combination of the convex portion 60 and the concave portion 61 that are engaged with each other can be selected. By preparing a plurality of selectable combinations in this way, the lens unit 15 can be positioned with respect to the rear case 11 in a state in which the positional deviation due to the manufacturing error is relaxed.

  The mounting structure 40 is particularly excellent in that the positioning of the lens unit 15 with respect to the rear case 11 can be easily adjusted in real time each time on the production line. In addition, as compared with the case where an adhesive is used, the positioning of the lens unit 15 with respect to the rear case 11 can be easily adjusted as needed as long as the mounting structure 40 is employed even after the assembly of the mobile phone 1 is completed. It becomes possible to redo.

  In the present embodiment, the second member is the lens unit 15. However, instead of this, an LED (Light Emitting Diode) constituting the mobile phone 1 may be used. It can be applied to all required configurations.

  Moreover, in this embodiment, although both the convex part 60 and the recessed part 43 were provided with two or more, it may replace with this and may provide only either one with two or more. The “plurality” referred to here may be 2 or 3, or 4 or more.

(4) Moreover, in this embodiment, the 1st part and the 2nd part were formed of the convex part or the recessed part. According to the above configuration, the first portion and the second portion can be configured with a simple shape.

  The width and height of the convex portion 60 and the concave portion 61 can be arbitrarily set.

(5, 6) Further, in the present embodiment, the convex portion 60 and the concave portion 61 both have a tapered shape that becomes wider toward the rear case 11 in the direction in which the lens unit 15 is mounted. According to the above configuration, the lens unit 15 can be easily mounted on the rear case 11 due to the guiding effect of the tapered shape.

  In the present embodiment, both the convex portion 60 and the concave portion 61 are tapered, but the above guiding effect can be exhibited without any problem if only one of them is tapered.

  In the present embodiment, the convex portion 60 and the concave portion 61 are both tapered toward the rear case 11 in the direction in which the lens unit 15 is mounted. Fifteen strong positioning is achieved.

(7, 8, 9) In the present embodiment, the above-described useful mounting structure 40 is mounted on the mobile phone 1, but instead, it may be mounted on any device that requires fine positioning adjustment. it can. Therefore, the mounting structure 40 may be mounted on an electronic device such as a home appliance, or may be mounted on a portable game machine or a PDA (Personal Digital Assistant).

(10) In the above embodiment, the rear case 11 and the lens unit 15 positioned with respect to the rear case 11 are provided, and the concave portion 61 of the lens unit 15 is associated with the convex portion 60 of the rear case 11. By matching, the cellular phone 1 in which the lens unit 15 is positioned with respect to the rear case 11 is manufactured by the following method. That is, a plurality of both the convex portion 60 and the concave portion 61 are provided at different positions. By selecting a combination of the convex portion 60 and the concave portion 61 that are engaged with each other, the positioning of the lens unit 15 with respect to the rear case 11 is finely adjusted. According to the above method, the lens unit 15 can be positioned with respect to the rear case 11 in a state where the positional deviation due to the manufacturing error is relaxed.

(11, 13) In the above embodiment, the rear case 11 (part of the housing 41), the lens unit 15 having the camera lens 17 and positioned with respect to the rear case 11, and the lens unit 15 A screen member 19 provided on the rear case 11 for protecting the camera lens 17, and by engaging the concave portion 61 of the lens unit 15 with the convex portion 60 of the rear case 11, The electronic device in which the lens unit 15 is positioned and the window member 19c for enabling photographing by the lens unit 15 is formed on the screen member 19 is configured as follows. Yes. In other words, both the convex portion 60 and the concave portion 61 are provided in a plurality at different positions. By selecting a combination of the convex portion 60 and the concave portion 61 that are engaged with each other, the positioning of the camera lens 17 of the lens unit 15 with respect to the window portion 19c of the screen member 19 can be finely adjusted. According to the above configuration, the camera lens 17 of the lens unit 15 can be positioned with respect to the window portion 19c of the screen member 19 in a state in which the positional deviation caused by the manufacturing error is relaxed. Therefore, it is possible to realize a mobile phone 1 having a good appearance in which the relative position of the center of the camera lens 17 of the lens unit 15 with respect to the center of the window portion 19c of the screen member 19 is finely adjusted.

(12) Further, the mobile phone 1 is further configured as follows. That is, the rear case 11 has a longitudinal direction and a short direction. Both the convex portion 60 and the concave portion 61 are provided in a plurality at different positions in the short direction of the rear case 11. That is, when the rear case 11 has a longitudinal direction and a short direction, the positional deviation is particularly noticeable in the short direction. Therefore, according to the above configuration, it is possible to effectively relieve a particularly noticeable positional deviation.

40 Mounting structure 41 Housing 42 Unit 43 Concave portion 44 Convex portion

Claims (13)

A mounting structure for positioning the second member relative to the first member,
A first portion provided on the first member;
A second portion provided on the second member;
With
When the second part is engaged with the first part, the second member is positioned with respect to the first member,
At least one of the first part and the second part is provided in a plurality at different positions,
A combination of the first part and the second part that are engaged with each other is selectable.
Mounting structure. Only one of the first part and the second part is provided in plural,
The mounting structure according to claim 1. A plurality of both the first part and the second part are provided,
The mounting structure according to claim 1. The first part and the second part are formed by a convex part or a concave part,
The mounting structure according to claim 1. The mounting structure according to claim 4,
At least one of the first part and the second part has a tapered shape that becomes wider in the direction of mounting the second member with respect to the first member.
Mounting structure. The mounting structure according to claim 4,
Both the first part and the second part have a tapered shape that becomes wider toward the direction in which the second member is mounted with respect to the first member.
Mounting structure. The apparatus which has the mounting structure in any one of Claims 1-6. The electronic device which has the mounting structure in any one of Claims 1-6. A portable electronic device having the mounting structure according to claim 1. A first member;
A second member positioned relative to the first member;
With
By engaging the second portion of the second member with the first portion of the first member, the second member is positioned with respect to the first member. Yes,
A method of manufacturing a device,
A plurality of at least one of the first part and the second part are provided at different positions,
Fine-tuning the positioning of the second member relative to the first member by selecting a combination of the first part and the second part that engage each other;
Device manufacturing method. A housing,
A lens unit having a lens and positioned relative to the housing;
A screen member provided in the housing for protecting the lens of the lens unit;
With
By engaging the second part of the lens unit with the first part of the casing, the lens unit is positioned with respect to the casing.
The screen member is formed with a window for enabling photographing by the lens unit.
Electronic equipment,
At least one of the first part and the second part is provided in a plurality at different positions,
By selecting a combination of the first part and the second part that are engaged with each other, the positioning of the lens of the lens unit with respect to the window part of the screen member is configured to be finely adjustable.
Electronics. The electronic device according to claim 10,
The housing has a longitudinal direction and a lateral direction,
At least one of the first part and the second part is provided in a plurality at different positions in the lateral direction of the housing.
Electronics. A housing,
A lens unit having a lens and positioned relative to the housing;
A screen member provided in the housing for protecting the lens of the lens unit;
With
By engaging the second part of the lens unit with the first part of the casing, the lens unit is positioned with respect to the casing.
The screen member is formed with a window for enabling photographing by the lens unit.
A method of manufacturing an electronic device,
A plurality of at least one of the first part and the second part are provided at different positions,
Finely adjusting the positioning of the lens of the lens unit with respect to the window of the screen member by selecting a combination of the first part and the second part that are engaged with each other;
Manufacturing method of electronic equipment.

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