JP2012023718A - Shielding structure and image sensor supporting structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a large gap being formed due to torsion and deflection of shield components in a configuration in which the shield components shielding an opening such as a gap are installed in a state of being pressed.SOLUTION: An image sensor supporting structure 1 comprises: a master flange 155 having a first opening 150 through which an optical axis A penetrates; an image sensor 110 attached to the master flange 155 via an mounting plate 160 in a state of being inside of the first opening 150 when viewed toward a direction of the optical axis A; and a dust-proof sheet 170 shielding a gap between the master flange 155 and the image sensor 110 in the first opening 150. The dust-proof sheet 170 is arranged in a state of being pressed against an opening edge 150a of the first opening 150, and the opening edge 150a of the first opening 150 forms a shape of rectangle and has corners 152 forming shapes projecting to the exterior.

Description

  The technology disclosed herein relates to a shielding structure that shields an opening and an imaging element support structure.

  Conventionally, various structures are known as shielding structures for shielding openings such as gaps. As one of the shielding structures, there is a shielding structure in the image sensor support structure.

  For example, in the imaging element support structure according to Patent Document 1, a mask member, a low-pass filter, a protection member, an imaging element, a holding member, and a flexible printed board are arranged in this order on the back side of the CCD holder. The protective member spreads in a skirt shape toward the image sensor. The inner edge (front end) of the protection member is in contact with the low-pass filter, while the outer edge (rear end) of the protection member is in contact with the holding member. The imaging element is positioned inside the protective member and is fixed to the holding member via an adhesive. The holding member is attached to the CCD holder via a plurality of screws. Thus, the protective member shields the gap between the low-pass filter and the holding member so that foreign matters such as dust and dirt do not enter the imaging surface of the imaging element.

JP 2008-205723 A

  In the image sensor support structure according to Patent Document 1, the inclination of the image sensor is adjusted by adjusting the tightening amounts of the plurality of screws. However, in this structure, the protection member may be twisted or bent depending on the degree of tightening amount of the screw. Then, due to this twisting or bending, there is a possibility that positional displacement occurs between the protective member and the low-pass filter or between the protective member and the holding member. When such a positional deviation occurs, foreign matter such as dust or dust may enter from the outside, and foreign matter such as dust or dust may adhere to the imaging surface of the image sensor.

  The technology disclosed herein has been made in view of such a point, and the object thereof is to provide a shielding member in a configuration in which a shielding member that shields an opening such as a gap is pressed. It is to suppress the formation of a large gap due to twisting or bending of the material.

  The shielding structure disclosed here presses a first member having an opening, a shielding member that shields the opening, and a portion of the shielding member inside the opening toward the first member. The opening edge of the said opening part is a polygonal shape, Comprising: The corner part shall have the shape which protruded outward.

  Further, the imaging device support structure disclosed herein includes a master flange having an opening through which the optical axis passes, and is directly on the master flange while being positioned in the opening when viewed in the optical axis direction. An image sensor that is attached to the image sensor, or a shield member that shields a gap between the master flange and the image sensor in the opening, and the shield member is pressed against an opening edge of the opening. It is assumed that the opening edge of the opening has a polygonal shape with corners protruding outward.

  Further, another imaging device support structure disclosed herein includes a master flange having an opening through which an optical axis passes, an attachment member attached to the master flange, an attachment member attached to the attachment member, and the optical axis direction An imaging element located in the opening when viewed from the side, and a shielding member that shields a gap between the master flange and the mounting member in the opening, and the shielding member includes the opening of the opening. It is arranged in a state of being pressed against the opening edge, and the opening edge of the opening has a polygonal shape and has a shape in which a corner projects outward.

  According to the shielding structure, even when the shielding member is pressed by the second member, it is possible to secure a space in which the shielding member spreads at the corner of the opening, so that twisting and bending of the shielding member are alleviated. As a result, a gap between the shielding member and the first member can be suppressed.

  In addition, according to the imaging element support structure, even when the shielding member is pressed against the opening edge of the opening, it is possible to secure a space for the shielding member to spread at the corner of the opening. Twisting and bending are alleviated. As a result, a gap between the shielding member and the opening edge of the opening can be suppressed.

FIG. 3 is a perspective view of the lens barrel according to Embodiment 1 from an oblique front. It is a perspective view from the diagonally rear of a lens barrel. It is a longitudinal cross-sectional view of a lens barrel. It is a disassembled perspective view of the image sensor peripheral part of a lens barrel. It is a front view of a 1st opening part. It is a front view of a dustproof sheet. It is an expanded sectional view in the enclosure part VII of FIG. 6 is an exploded perspective view of an image sensor support structure according to Embodiment 2. FIG. It is a front view of an image sensor structure. It is sectional drawing in the XX line of FIG. 9 of an image pick-up element structure. 6 is a front view of an image sensor according to Embodiment 3. FIG. It is sectional drawing in the XII-XII line | wire of FIG. 11 of an image pick-up element support structure. 6 is an exploded perspective view of a container according to Embodiment 4. FIG. It is a front view of a container. It is sectional drawing in the XV-XV line | wire of FIG. 14 of a container. It is a front view of the 1st opening part concerning the 1st modification. It is a front view of the 1st opening part concerning the 2nd modification. It is a front view of the 1st opening part concerning the 3rd modification. It is a front view of the 1st opening part concerning the 4th modification.

  Hereinafter, exemplary embodiments will be described.

Embodiment 1 of the Invention
FIG. 1 is a perspective view of a lens barrel according to the first embodiment from an oblique front, FIG. 2 is a perspective view of the lens barrel from an oblique rear, and FIG. 3 is a perspective view of the lens barrel. FIG.

[1. Configuration of lens barrel 100]
In the present embodiment, a shielding structure in the lens barrel 100 will be described. This shielding structure is a part of the image sensor support structure 1.

  The lens barrel 100 is used in an imaging apparatus such as a digital still camera or a video movie. The lens barrel 100 includes an optical system having various lenses such as a zoom lens and a focus lens therein, and an imaging device 110 that converts incident light into an electrical signal and outputs the electrical signal. Light rays from the subject are formed as optical images on the image sensor 110 via the optical system. The image sensor 110 is configured by a CCD (Charge Coupled Device) sensor or a CMOS (Complementary metal-oxide Semiconductor) sensor.

  The lens barrel 100 is a retractable type. Specifically, the lens barrel 100 includes a first lens barrel 121, a second lens barrel 122 that accommodates the first lens barrel 121, a third lens barrel 123 that accommodates the second lens barrel 122, and a third lens barrel. And a fixed barrel 124 that accommodates 123. The fixed barrel 124 is generally housed in a camera body (not shown). When photographing, the first lens barrel 121 is extended with respect to the second lens barrel 122, the second lens barrel 122 is extended with respect to the third lens barrel 123, or the third lens barrel 123 is fixed. The lens barrel 124 is fed out. On the other hand, when not photographing, the first lens barrel 121 is accommodated in the second lens barrel 122, the second lens barrel 122 is accommodated in the third lens barrel 123, and the third lens barrel 123 is accommodated in the fixed lens barrel 124. Is done. Thus, when not photographing, the lens barrel 100 is housed in the camera body.

  The optical system of the lens barrel 100 includes a lens group for capturing an optical image, a zoom lens group, and a focus lens group. These lens groups are held by various lens frames and cam frames, and are configured to be movable in the optical axis A direction. At the time of shooting, the distance between the lens groups is adjusted, and the zoom and focus of the optical image are adjusted. Light rays from the subject passing through these lens groups are imaged on the image sensor 110 as an optical image.

  The zoom lens group includes zoom lenses 131 to 136. The zoom lenses 131 to 136 are driven in the optical axis A direction by a zoom motor unit. The focusing lens group includes a focus lens 137. The focus lens 137 is driven in the direction of the optical axis A by the focus motor unit.

  The lens barrel 100 includes the image sensor support structure 1. 4 is an exploded perspective view of the periphery of the imaging element of the lens barrel, FIG. 5 is a front view of the first opening, FIG. 6 is a front view of the dustproof sheet, and FIG. FIG. 7 is an enlarged cross-sectional view at a surrounding portion VII of FIG. As shown in FIGS. 3 and 4, the imaging device support structure 1 is supported by a master flange 155 having a first opening 150 through which the optical axis A passes, a mounting plate 160 attached to the master flange 155, and the mounting plate 160. The image sensor 110 positioned in the first opening 150 when viewed in the direction of the optical axis A, and the dust proof for shielding the gap between the master flange 155 and the image sensor 110 in the first opening 150 And a sheet 170. In the following description, for convenience of description, the subject side in the optical axis A direction is the front side, and the opposite side is the rear side. The back surface means a rear surface.

  The master flange 155 is a substantially plate-like member. The first opening 150 is formed through substantially the center of the master flange 155. The first opening 150 has a substantially rectangular shape. A more detailed shape of the first opening 150 will be described later. Further, three screw holes (not shown) for screwing the mounting plate 160 are provided on the back side of the master flange 155. This master flange 155 constitutes the first member.

  The image sensor 110 is a plate-like member. The image sensor 110 has a rectangular shape smaller than the first opening 150. The image sensor 110 is indirectly attached to the master flange 155 via the attachment plate 160. The image sensor 110 constitutes a second member.

  The dustproof sheet 170 is made of a thin plastic plate having elasticity and light shielding properties. The dustproof sheet 170 is formed in a substantially rectangular frame shape. The dustproof sheet 170 has a substantially rectangular outer peripheral shape, and has a substantially rectangular second opening 175 at the center. The outer peripheral shape of the dustproof sheet 170 is larger than the first opening 150 of the master flange 155. The second opening 175 is smaller than the image sensor 110. A more detailed shape of the dustproof sheet 170 will be described later. The opening edge portion of the second opening portion 175 of the dustproof sheet 170 is bonded to the peripheral edge portion of the front surface of the image sensor 110 via the double-sided tape 180. Further, a filter glass 190 is bonded to the front surface of the dustproof sheet 170 via a double-sided tape 180 so as to cover the second opening 175. This dustproof sheet 170 constitutes a shielding member.

  The mounting plate 160 is a plate-like member. The mounting plate 160 is provided with three through holes 161, 161,... Through which screws 162, 162,. Further, the image sensor 110 is bonded to the mounting plate 160. The mounting plate 160 constitutes a mounting member.

  When the attachment plate 160 is attached to the master flange 155 via the screws 162, 162,..., The image sensor 110 is positioned in the first opening 150 of the master flange 155 when viewed in the optical axis A direction. The dustproof sheet 170 is in contact with the opening edge 150 a of the first opening 150 from the back side of the master flange 155. At this time, the dustproof sheet 170 is in contact with the entire periphery of the opening edge 150 a of the first opening 150. Since the image sensor 110 is smaller than the first opening 150, a gap is formed between the master flange 155 and the image sensor 110 in the first opening 150. However, this gap is shielded by the dustproof sheet 170. In this way, foreign matter such as dust and dirt is prevented from entering the lens barrel 100 through this gap.

  Here, the inclination of the image sensor 110 with respect to the optical axis A can be adjusted by adjusting the tightening amounts of the three screws 162, 162,. That is, the screw holes of the master flange 155, the through holes 161, 161,... And the screws 162, 162,.

[2. Configuration of first opening 150]
Hereinafter, the detailed shape of the first opening 150 will be described. The opening edge 150a of the first opening 150 has a substantially rectangular shape, and has a shape in which a corner projects outward. Specifically, the opening edge 150a of the first opening 150 is a pair of linear long side portions 151a and 151c parallel to each other corresponding to the long side of the rectangle and the parallel to each other corresponding to the short side of the rectangle. A pair of straight short sides 151b, 151d and four corners 152, 152,... Corresponding to rectangular corners. Here, the “linear shape” does not need to be strictly a straight line, but means a shape that is substantially a straight line. That is, it may be a shape that extends slightly even if it is somewhat curved. Each corner 152 protrudes outward from a rectangle (indicated by a two-dot chain line in FIG. 5) formed by extending the long sides 151a and 151c and the short sides 151b and 151d. The corner 152 is formed in a bell shape as a whole. Among the corner portions 152, at least the top portion 152a that is the portion that protrudes most outward, and the hem portions 152b and 152b that are portions that are connected to the long side portion 151a (151c) and the short side portion 151b (151d) It is formed with a curve. Here, the “part projecting outward most” means a part farthest from the center (center of gravity) of the first opening 150. The top portion 152 a is curved in a convex shape outward from the first opening 150. The skirt 152b is curved in a concave shape inward of the first opening 150. Thus, the corner 152 is smoothly connected to the long side 151a (151c) and the short side 151b (151d), and the corner 152 itself is also formed with a smooth curve.

[3. Configuration of dustproof sheet 170]
Here, the configuration of the dustproof sheet 170 will be described in detail. The outer peripheral shape of the dustproof sheet 170 is a substantially rectangular shape, and has a shape in which corners protrude outward. Specifically, the dustproof sheet 170 includes a pair of straight long side portions 171a and 171c parallel to each other corresponding to the long side of the rectangle and a pair of straight lines corresponding to the short side of the rectangle. It has short side portions 171b and 171d and four corner portions 172, 172,... Corresponding to rectangular corners. Each corner portion 172 projects outward from a rectangle (indicated by a two-dot chain line in FIG. 6) formed by extending the long side portions 171a and 171c and the short side portions 171b and 171d. The corner 172 is formed in a bell shape as a whole. Of the corner portion 172, at least the top portion 172a that projects most outward, and the hem portions 172b and 172b that are portions connected to the long side portion 171a (171c) and the short side portion 171b (171d) It is formed with a curve. The top part 172a is curved outwardly from the dustproof sheet 170. The skirt 172b is curved in a concave shape inward of the dustproof sheet 170. Thus, the corner 172 is smoothly connected to the long side 171a (171c) and the short side 171b (171d), and the corner 172 itself is also formed with a smooth curve.

[4. Installation of dustproof sheet 170]
When the dustproof sheet 170 configured as described above is installed on the master flange 155, the dustproof sheet 170 is pressed against the opening edge 150 a of the first opening 150 of the master flange 155 through the image sensor 110 by pressing of the mounting plate 160. Here, on the back surface of the master flange 155, as shown in FIG. 7, the opening edge 150 a of the first opening 150 is chamfered, and the surface is inclined with respect to the optical axis A. That is, on the back surface of the master flange 155, the opening edge 150a of the first opening 150 is configured by an inclined surface 150c having a certain width. Therefore, the dustproof sheet 170 comes into contact with the inclined surface 150 c as the opening edge 150 a of the first opening 150.

  Here, the central portion of the dustproof sheet 170 is pressed forward by the image sensor 110, and the movement of the peripheral portion is restricted by the opening edge 150a of the first opening 150. Therefore, the central portion of the dustproof sheet 170 is the peripheral portion. It deforms so as to protrude forward from the part. At that time, the dustproof sheet 170 is wrinkled due to bending or twisting. This wrinkle hardly occurs at a portion close to the center (center of gravity) of the first opening 150, for example, at the center of the long side portions 151a and 151c and the short side portions 151b and 151d. It is easy to concentrate on the corners 152, 152,. In the present embodiment, since the corners 152, 152,... Project outward, the corners 152, 152 are compared with the case where the opening edge 150a of the first opening 150 is a simple rectangle. The space at 152, ... is enlarged. Therefore, if it is a simple rectangle, the dustproof sheet 170 which formed the wrinkles at the corners of the rectangle will spread so as to enter the corners 152, and the generation of wrinkles will be suppressed. As a result, the adhesion between the dustproof sheet 170 and the master flange 155 is enhanced, and entry of foreign matters such as dust and dust from the gap between the dustproof sheet 170 and the master flange 155 can be suppressed.

[5. Effects of the embodiment]
In the present embodiment, the imaging element support structure 1 is positioned in the first opening 150 when viewed from the master flange 155 having the first opening 150 through which the optical axis A passes and the optical axis A direction. The image sensor 110 that is indirectly attached to the master flange 155 in the state and the dustproof sheet 170 that shields the gap between the master flange 155 and the image sensor 110 in the first opening 150 are provided. The dustproof sheet 170 is disposed in a state of being pressed against the opening edge 150a of the first opening 150. The opening edge 150a of the first opening 150 is substantially rectangular and has corners 152, 152. , ... has a shape protruding outward. Thus, by making the corners 152, 152,... Of the first opening 150 project outward, it is possible to secure a space where the dustproof sheet 170 spreads and reduce wrinkles of the dustproof sheet 170. it can.

  That is, in the configuration in which the dustproof sheet 170 is deformed so that the dustproof sheet 170 is pressed against the master flange 155 and the center part protrudes forward from the peripheral part, the dustproof sheet 170 is twisted or bent. As a result, wrinkles are generated in the dustproof sheet 170. In particular, in this embodiment, since the outer peripheral edge of the dustproof sheet 170 is a free end, wrinkles are likely to occur at the contact portion between the dustproof sheet 170 and the opening edge 150a of the first opening 150, and the dustproof sheet 170 and the first There is a possibility that a gap may be generated at the contact portion of the opening 150 with the opening edge 150a.

  On the other hand, by forming the corners 152, 152,... Of the first opening 150 so that the wrinkles of the dustproof sheet 170 tend to concentrate, the dustproof sheet 170 enters the corner 152. Thus, wrinkles generated in the dustproof sheet 170 can be reduced. As a result, entry of foreign matter such as dust and dirt from the gap between the dustproof sheet 170 and the master flange 155 can be suppressed.

  In addition, the skirt portions 152b and 152b connected to the long side portion 151a (151c) and the short side portion 151b (151d) of the corner portion 152 are formed with curves. Thereby, the adhesiveness of the dustproof sheet 170 and the opening edge 150a can be improved.

  That is, if the connecting portion between the corner 152, the long side 151a (151c), and the short side 151b (151d) is square, in order to secure the adhesion between the dustproof sheet 170 and the opening edge 150a, the dustproof It is necessary to bend the sheet 170 at the connecting portion. However, in the configuration in which the flat dustproof sheet 170 is simply pressed against the opening edge 150a, it is difficult to bend the dustproof sheet 170 naturally. Further, which part of the dustproof sheet 170 is located at the connecting portion depends on the amount of pressing. Since it changes, it is also difficult to bend the dustproof sheet 170 beforehand.

  On the other hand, the skirt portions 152b and 152b of the corner portion 152 are formed in a curved line and are smoothly connected to the long side portion 151a (151c) and the short side portion 151b (151d) of the first opening 150. That is, by pressing the dustproof sheet 170 against the opening edge 150a, the dustproof sheet 170 can be naturally curved along the opening edge 150a. As a result, the adhesion between the dustproof sheet 170 and the opening edge 150a can be improved.

  Furthermore, since the top part 152a of the corner part 152 is also formed with a curve, the adhesion between the dustproof sheet 170 and the opening edge 150a can be further improved. That is, the dustproof sheet 170 is most greatly curved at the top 152a of the corner 152. If the top 152a of the corner 152 is angular, the dustproof sheet 170 cannot be secured unless the dustproof sheet 170 is bent. On the other hand, by forming the top portion 152a of the corner portion 152 with a curved line, the dustproof sheet 170 can be gently curved to ensure adhesion between the dustproof sheet 170 and the opening edge 150a.

  Furthermore, by making the dustproof sheet 170 the same shape as the opening edge 150a of the first opening 150, the adhesion between the dustproof sheet 170 and the opening edge 150a can be improved. When the dustproof sheet 170 is deformed so as to protrude forward toward the center, a larger wrinkle is generated at the periphery. The part which becomes a wrinkle is an excess part at the time of a deformation | transformation of the dustproof sheet 170, and has inhibited the deformation | transformation of the dustproof sheet 170 to some extent. On the other hand, in this embodiment, the dustproof sheet 170 has a rectangular shape having four corners, like the opening edge 150a of the first opening 150, and has a shape in which the four corners protrude outward. Yes. That is, in the peripheral portion of the dustproof sheet 170, the portions corresponding to the corners 152, 152,... Of the opening edge 150a of the first opening 150 are outside in order to maintain contact with the corners 152, 152,. The other portion is cut inward to such an extent that it can maintain contact with the long side portions 151a and 151c and the short side portions 151b and 151d in the opening edge 150a. As described above, since unnecessary portions of the peripheral portion of the dustproof sheet 170 are notched, generation of wrinkles at the peripheral portion when the dustproof sheet 170 is deformed is suppressed, and the dustproof sheet 170 is easily deformed. Can do. In addition, the area of the dustproof sheet 170 is reduced and the material cost is reduced as compared with a case where the dustproof sheet 170 is formed into a large rectangular shape including portions corresponding to the corners 152, 152,. be able to. Furthermore, space can be used effectively by arranging other parts in the notched portion of the peripheral portion of the dustproof sheet 170.

  The image sensor support structure 1 further includes a tilt adjustment mechanism that can adjust the tilt of the image sensor 110 with respect to the master flange 155. The adjustment mechanism can adjust the inclination of the image sensor 110 with respect to the master flange 155 by adjusting the amount of pressing of the image sensor 110 to the master flange 155. In such a configuration, by adjusting the pressing amount of the image sensor 110 to the master flange 155, the pressing amount of the dustproof sheet 170 to the master flange 155 also changes. On the other hand, since the opening edge 150a of the first opening 150 has a shape in which the corners 152, 152,... Project outward, even if the pressing amount of the dustproof sheet 170 changes, Occurrence of wrinkles can be suppressed.

<< Embodiment 2 of the Invention >>
Next, Embodiment 2 will be described. 8 is an exploded perspective view of the image sensor support structure according to the second embodiment, FIG. 9 is a front view of the image sensor support structure, and FIG. 10 is a cross-sectional view taken along line XX of FIG.

  The image sensor support structure 2 according to the second embodiment is different in the arrangement of the image sensor 110, the dustproof sheet 170, and the like. Therefore, configurations similar to those of the first embodiment are denoted by the same reference numerals, description thereof is omitted, and different configurations are mainly described.

  The imaging element support structure 2 is supported by the master flange 155 (shown only in FIG. 9), the mounting plate 260 fixed to the master flange 155, and the mounting plate 260, and is first when viewed in the direction of the optical axis A. The image sensor 110 located in the 1 opening part 150 and the dustproof sheet 170 which shields the clearance gap between the master flange 155 and the attachment board 260 in the 1st opening part 150 are provided.

  The mounting plate 260 is a plate-like member. The mounting plate 260 is provided with three through holes 261, 261,... Through which screws (not shown) are inserted. A bulging portion 263 bulging forward is provided at the center of the mounting plate 260. The bulging portion 263 has a substantially rectangular shape that is larger than the image sensor 110 and smaller than the first opening 150 of the master flange 155. An opening 264 is formed through the center of the bulging portion 263. The bulging portion 263 is fitted with the imaging element 110 from the back side, and the imaging surface of the imaging element 110 is exposed forward through the opening 264. A peripheral edge portion on the front surface of the image sensor 110 is bonded to the bulging portion 263 of the mounting plate 260 from the back surface side. This mounting plate 260 constitutes a mounting member.

  The dustproof sheet 170 is bonded to the front surface of the bulging portion 263 of the mounting plate 260. The second opening 175 of the dustproof sheet 170 is smaller than the bulge 263 and larger than the opening 264. A filter glass 190 is bonded to the front surface of the dustproof sheet 170 via a double-sided tape so as to cover the second opening 175.

  A flexible substrate 280 is attached to the back surface of the image sensor 110. The flexible substrate 280 and the image sensor 110 are electrically connected.

  The mounting plate 260 configured in this manner is attached to the master flange 155 via a screw. Thus, the image sensor 110 is indirectly attached to the master flange 155 via the attachment plate 260. In this state, the image sensor 110 and the bulging portion 263 are located in the first opening 150 of the master flange 155 when viewed in the optical axis A direction. The dustproof sheet 170 is in contact with the opening edge 150 a of the first opening 150 from the back side of the master flange 155. At this time, the dustproof sheet 170 is in contact with the entire periphery of the opening edge 150 a of the first opening 150. Since the bulging portion 263 is smaller than the first opening 150, a gap is formed between the master flange 155 and the bulging portion 263 in the first opening 150. However, this gap is shielded by the dustproof sheet 170. In this way, foreign matter such as dust and dirt is prevented from entering the lens barrel through this gap.

  That is, in Embodiment 1, the dustproof sheet 170 shields the gap between the master flange 155 and the image sensor 110, whereas in Embodiment 2, the dustproof sheet 170 includes the master flange 155, the mounting plate 260, and the like. The gap between the two is shielded. Even in such a configuration, by attaching the attachment plate 260 to the master flange 155, the dustproof sheet 170 is deformed so that the central portion to which the bulging portion 263 is bonded projects forward from the peripheral portion. At this time, the dustproof sheet 170 is twisted or bent, but by providing the corners 152, 152,... Of the opening edge 150 a of the first opening 150, it is possible to secure a space where the dustproof sheet 170 spreads without forming wrinkles. It is possible to reduce wrinkles of the dustproof sheet 170. Thereby, while being able to suppress the clearance gap between the dust-proof sheet 170 and the master flange 155, peeling with the dust-proof sheet 170, the bulging part 263, and the filter glass 190 can be suppressed.

  Therefore, according to the present embodiment, the imaging device support structure 2 is attached to the master plate 155 having the first opening 150 through which the optical axis A passes, the attachment plate 260 attached to the master flange 155, and the attachment plate 260. The dustproof sheet that shields the gap between the imaging element 110 located in the first opening 150 and the master flange 155 and the mounting plate 260 in the first opening 150 when viewed in the direction of the optical axis A. 170. The dustproof sheet 170 is disposed in a state of being pressed against the opening edge 150a of the first opening 150. The opening edge 150a of the first opening 150 is substantially rectangular and has corners 152, 152. , ... has a shape protruding outward. Thus, by making the corners 152, 152,... Of the first opening 150 project outward, it is possible to secure a space where the dustproof sheet 170 spreads and reduce wrinkles of the dustproof sheet 170. it can.

<< Embodiment 3 of the Invention >>
Subsequently, Embodiment 3 will be described. 11 is a front view of the image sensor according to the third embodiment, and FIG. 12 is a cross-sectional view of the image sensor support structure taken along line XII-XII in FIG.

  The image sensor support structure 3 according to the third embodiment is different from the first embodiment in that the image sensor is directly attached to the master flange. Therefore, the same configurations as those of the first embodiment are denoted by the same reference numerals, and the description thereof is omitted, and different configurations are mainly described.

  The imaging device 310 according to the third embodiment includes a ceramic substrate 311, a semiconductor element 312 provided on one main surface of the ceramic substrate 311, a plate-shaped resin package 313 having an opening 313 a in the center, and a resin package 313. And a cover glass 314 covering the opening 313a.

  The ceramic substrate 311 is a substantially rectangular plate-shaped member. The semiconductor element 312 has a substantially rectangular shape and has a photoelectric conversion function.

  The opening 313 a of the resin package 313 has a substantially rectangular shape that is smaller than the ceramic substrate 311 and larger than the semiconductor element 312. A ceramic substrate 311 is attached to the resin package 313 from the back side. At this time, the semiconductor element 312 is located in the opening 313a. The cover glass 314 is attached to the front surface of the resin package 313 so as to cover the opening 313a. The resin package 313 has through holes 313b and 313b through which screws are inserted. The imaging element 310 is attached to the master flange 155 (shown only in FIG. 12) via screws inserted through the through holes 313b and 313b. This resin package 313 constitutes an attachment portion.

  Here, a dustproof sheet 170 (shown only in FIG. 12) is bonded to the front surface of the cover glass 314. The configuration of the dustproof sheet 170 is the same as that of the first embodiment. The second opening 175 of the dustproof sheet 170 is smaller than the cover glass 314. The dustproof sheet 170 is adhered to the front surface of the cover glass 314 so that most of the cover glass 314 is exposed from the second opening 175.

  When the image sensor 310 is attached to the master flange 155, the cover glass 314 is positioned in the first opening 150 of the master flange 155 when viewed in the optical axis A direction. The dustproof sheet 170 is pressed against the opening edge 150a of the first opening 150 of the master flange 155, and is deformed so that the central part to which the image sensor 310 is bonded protrudes forward from the peripheral part. At this time, the dustproof sheet 170 is twisted or bent, but by providing the corners 152, 152,... Of the opening edge 150 a of the first opening 150, a space where the dustproof sheet 170 spreads can be secured, and the dustproof sheet 170 The wrinkles of the sheet 170 can be reduced. Thereby, while being able to suppress the clearance gap between the dust-proof sheet 170 and the master flange 155, peeling with the dust-proof sheet 170, the bulging part 263, and the filter glass 190 can be suppressed.

<< Embodiment 4 of the Invention >>
Next, Embodiment 4 will be described. 13 is an exploded perspective view of the container according to the fourth embodiment, FIG. 14 is a front view of the container according to the fourth embodiment, and FIG. 15 is a cross-sectional view of the container taken along line XV-XV in FIG. .

  The container 400 which concerns on Embodiment 4 accommodates a foodstuff etc., for example. The container 400 includes a box 410 and a lid 420. Further, the container 400 includes the shielding structure 4.

  The box 410 is a rectangular parallelepiped member having a cavity inside. A pair of wall portions 410a and 410b facing each other in a rectangular parallelepiped are formed in a substantially square shape. A substantially square opening 411 is formed through the center of one of the walls 410a. This box 410 constitutes a first member.

  The lid 420 has a substantially square main wall portion 421 larger than the wall portion 410a of the box 410, and four peripheral wall portions 422, 422,... Extending vertically from the periphery of the main wall portion 421. In the center of the main wall portion 421, a depressed portion 423 that is depressed inward of the lid 420 is formed. That is, the depressed portion 423 is depressed in the same direction as the direction in which the peripheral wall portion 422 extends from the main wall portion 421. The cross section of the depressed portion 423 is formed in a substantially square shape smaller than the opening 411. In the state where the lid 420 is installed in the box 410, the depressed portion 423 is located inside the opening 411. This lid 420 constitutes the second member.

  Here, a dustproof sheet 470 is provided between the box 410 and the lid 420. The dustproof sheet 470 is made of a thin plastic plate having elasticity and light shielding properties. The dustproof sheet 470 has a substantially square shape that is smaller than the wall 410 a of the box 410 and larger than the opening 411. The dustproof sheet 470 is installed in the box 410 so as to cover the opening 411. This dustproof sheet 470 forms a shielding member.

  More specifically, the opening edge 411a of the opening 411 has a substantially square shape, and has a shape in which a corner projects outward. Specifically, the opening edge 411a of the opening 411 has four side portions 412, 412,... Corresponding to a square side, and four corner portions 413, 413,. Yes. Each corner 413 projects outward from a square (indicated by a two-dot chain line in the figure) formed by extending the sides 412, 412,. The corner 413 is formed in a bell shape as a whole. Of the corner portion 413, at least a top portion 413a that is the portion that protrudes most outward, and skirt portions 413b and 413b that are portions that are connected to the side portions 412 and 412 are formed by curves. The top portion 413a is curved in a convex shape outward of the opening 411. The skirt 413b is curved concavely inward of the opening 411. Thus, the corner 413 is smoothly connected to the sides 412 and 412, and the corner 413 itself is also formed with a smooth curve.

  Moreover, the outer peripheral shape of the dustproof sheet 470 is a substantially square shape, and has a shape in which the corners protrude outward. Specifically, the dustproof sheet 470 has linear side portions 471, 471,... Corresponding to square sides, and four corner portions 472, 472,. Here, the “linear shape” does not need to be strictly a straight line, but means a shape that is substantially a straight line. That is, it may be a shape that extends slightly even if it is somewhat curved. Each corner 472 protrudes outward from a square (indicated by a two-dot chain line in the figure) formed by extending the sides 471, 471,. The corner 472 is formed in a bell shape as a whole. Of the corner portion 472, at least a top portion 472a that is the portion that protrudes most outward, and skirt portions 472b and 472b that are portions that are connected to the side portions 471 and 471 are formed by curves. The top portion 472a is curved outwardly from the dustproof sheet 470. The skirt 472b is curved in a concave shape inward of the dustproof sheet 470. Thus, the corner 472 is smoothly connected to the sides 471 and 471, and the corner 472 itself is also formed with a smooth curve.

  The shielding structure 4 includes the box 410, the lid 420, and the dustproof sheet 470 configured as described above. Hereinafter, the shielding structure 4 will be described in detail.

  The dustproof sheet 470 is disposed at a position that closes the opening 411 of the box 410, and the lid 420 is attached to the box 410 in this state. At this time, the dustproof sheet 470 is pressed against the opening edge 411a of the opening 411 of the box 410 by the recessed portion 423 of the lid 420, and the central portion with which the recessed portion 423 contacts protrudes inward of the box 410 from the peripheral portion. It deforms as follows. At this time, the corners 413, 413,... Have a shape projecting outward, and a space is secured in which the dustproof sheet 470 can spread without forming a ridge. Thereby, wrinkles of the dustproof sheet 470 can be reduced. As a result, a gap between the dustproof sheet 470 and the opening 411 of the box 410 can be suppressed.

<< Other Embodiments >>
About the said embodiment, it is good also as following structures.

  The opening edge 150a of the first opening 150 is not limited to a quadrangle. The opening edge 150a may be polygonal, and may be triangular, pentagonal, hexagonal, or the like. In that case, the dustproof sheet 170 is formed in a polygonal shape similar to the opening edge 150a (that is, a polygonal shape having the same number of corners). That is, if the opening edge 150a is hexagonal, the dustproof sheet 170 is also hexagonal. Here, the “polygonal shape” does not require that the sides constituting the polygon are strictly straight lines, and the corners of the polygons do not have to be strictly corners (that is, they are rounded). Mean).

  Further, the opening edge 150a of the first opening 150 and each side of the dustproof sheet 170 are not limited to straight lines. Each side portion may be somewhat curved or bent as long as it is formed in a substantially straight line.

  Further, the opening edge 150a of the first opening 150 may not be clearly distinguished from the side portion and the skirt portion of the corner portion. For example, as shown in FIG. 16, one skirt 152b of two adjacent corners 152, 152, a long side 151a (151c) or a short side 151b (151d), and a skirt at the other corner 152b may be formed as a continuous curve. In this case, it can be understood that the side portion is omitted, or it can be understood that the side portion is configured by a curve and is integrated with the skirt portions 152b and 152b.

  Moreover, although the opening edge 150a of the 1st opening part 150 becomes the shape where all the corner parts 152,152, ... protruded outward, it is not restricted to this. That is, if the opening edge 150a of the first opening 150 has a shape in which at least one corner 152 projects outward, the wrinkles of the dustproof sheet 170 can be reduced in that portion. In that case, the dustproof sheet 170 is formed such that at least a corner corresponding to the corner 152 protruding outwardly protrudes outward.

  Further, the corners 152, 152,... Of the first opening 150 have the same shape, but are not limited thereto. Further, the corners of the dustproof sheet 170 have the same shape, but the present invention is not limited to this.

  Furthermore, the corner portion 152 has a top portion 152a and skirt portions 152b, 152b that are curved, but is not limited thereto. At least one of the top part 152a and the skirt parts 152b and 152b may be configured by a bending point of a broken line or a straight line (line segment). For example, as shown in FIG. 17, the top portion 152 a may not be a curved line but may be configured by an end point where two curved lines are connected (that is, a bending point of a broken line). Moreover, as shown in FIG. 18, the top part 152a may be comprised with the straight line. Furthermore, as shown in FIG. 19, the skirts 152b and 152b may be configured with straight lines. However, as described above, from the viewpoint of improving the adhesion between the dustproof sheet 170 and the opening edge 150a of the first opening 150, it is preferable that the top portion 152a and the skirt portions 152b and 152b are formed with curves.

  Moreover, in the said embodiment, although the outer periphery shape of the opening edge 150a of the 1st opening part 150 and the dustproof sheet 170 is a substantially similar shape, it is not restricted to this. The side part of the opening edge 150a and the side part of the dustproof sheet 170 may not have the same shape, and the corner part of the opening edge 150a and the corner part of the dustproof sheet 170 may not have the same shape. Further, the dustproof sheet 170 may not have a corner protruding outward, and may not have a polygonal shape. However, the outer peripheral shape of the dustproof sheet 170 is a polygonal shape having the same number of corners as the opening edges 150a of the first opening 150, and corresponds to the corners protruding outward from the corners of the opening edges 150a. It is preferable that the corners of the dustproof sheet 170 project outward.

  In the above description, the opening edge 150a of the first opening 150 and the dustproof sheet 170 have been described. The same applies to the opening 411 and the dustproof sheet 470.

  The dustproof sheets 170 and 470 are made of a thin plastic plate having elasticity and light shielding properties, but the material of the dustproof sheets 170 and 470 is not limited to the above embodiment.

  Furthermore, the configuration for directly or indirectly attaching the image sensors 110 and 310 to the master flange 155 is not limited to the above embodiment. As long as the image sensors 110 and 310 can be directly or indirectly attached to the master flange 155, any configuration can be employed.

  Moreover, although the said embodiment demonstrated the case where the shielding structure was used for the lens-barrel 100 as an image pick-up element support structure, it is applicable also to the shielding structure of other apparatuses. For example, the above configuration can be applied to a shielding structure such as a display unit or an operation unit provided in a housing of an electronic device. That is, in an electronic device, a predetermined opening is provided in the housing, and the display unit and the operation unit are provided to be exposed to the outside from the opening. In this case, a gap is formed between the opening edge of the opening of the housing and the display unit or the operation unit. This gap may be shielded by the dustproof sheets 170 and 470. For example, the dustproof sheet may be attached to the display unit or the operation unit, and the dustproof sheet may be pressed against the opening edge of the opening of the housing from the inside.

  According to the technology disclosed herein, since entry of foreign matter such as dust and dirt from the outside can be suppressed, the technology is useful for devices having various shielding structures.

A Optical axes 1, 2, 3 Image sensor support structure 100 Lens barrel 110 Image sensor (second member)
150 First opening (opening)
150a Opening edge 151a, 151b, 151c, 151d Side part 152 Corner part 152a Top part (the most protruding part)
152b connecting part (part to be connected)
155 Master flange (first member)
160 Mounting plate (second member, mounting member)
161 Through hole (adjustment mechanism)
162 screws (adjustment mechanism)
170 Dust-proof sheet (shielding member)
172 Corner 260 Mounting plate (second member, mounting member)
261 Through hole (adjustment mechanism)
310 Image sensor (second member)
400 container 410 box (first member)
420 Lid (second member)
411 Opening part 411a Opening edge 412 Side part 413 Corner part 413a Top part (the most protruding part)
413b Connecting part (part to be connected)
470 Dustproof sheet (shielding member)

Claims (10)

A first member having an opening;
A shielding member for shielding the opening;
A second member that presses a portion of the shielding member inside the opening toward the first member;
The opening edge of the said opening part is a polygonal shape, Comprising: The shielding structure which has the shape which the corner part protruded outward. The opening edge of the opening has a linear side corresponding to a polygonal side,
The shielding structure according to claim 1, wherein a portion of the corner connected to the side is formed by a curve.   The shielding member according to claim 1, wherein a portion of the corner that protrudes outward is formed by a curved line.   The shielding structure according to any one of claims 1 to 3, wherein the shielding member has a polygonal shape and has a shape in which a corner portion projects outward. A master flange having an opening through which the optical axis passes;
An image sensor that is directly or indirectly attached to the master flange in a state of being located in the opening when viewed in the optical axis direction;
A shielding member that shields a gap between the master flange and the imaging element in the opening,
The shielding member is arranged in a state of being pressed against the opening edge of the opening,
The image sensor support structure, wherein the opening edge of the opening has a polygonal shape with corners projecting outward. A master flange having an opening through which the optical axis passes;
An attachment member attached to the master flange;
An image sensor attached to the attachment member and positioned in the opening when viewed in the optical axis direction;
A shielding member that shields a gap between the master flange and the mounting member in the opening,
The shielding member is arranged in a state of being pressed against the opening edge of the opening,
The image sensor support structure, wherein the opening edge of the opening has a polygonal shape with corners projecting outward. The opening edge of the opening has a linear side corresponding to a polygonal side,
The imaging element support structure according to claim 5 or 6, wherein a portion of the corner portion connected to the side portion is formed by a curved line.   The imaging element support structure according to any one of claims 5 to 7, wherein a portion of the corner portion that protrudes outward is formed by a curved line.   The imaging element support structure according to any one of claims 5 to 8, wherein the shielding member has a polygonal shape and has a shape in which a corner portion projects outward.   The image sensor support structure according to claim 5, further comprising an inclination adjustment mechanism capable of adjusting an inclination of the image sensor with respect to the master flange.

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