JP2018185443A - Focal plane shutter and camera - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a focal plane shutter constructed so as to suppress abrasion powder or dust generated by abrasion at the time of shutter blade actuation from sticking to an imaging unit.SOLUTION: The present invention comprises: a base plate having a first opening; a cover plate having a second rectangular opening at a position that faces the first opening; a shutter blade, arranged between the base plate and the cover plate, for switching between a state in which the first opening and the second opening are covered and a state in which these openings are left open; and a drive unit for driving the shutter blade. The cover plate includes an open hole or a groove in an area, outside of any side forming the second opening, which is different from the area where the drive unit is arranged, with an adhesive member included that is arranged so as to cover the area where the open hole is formed or arranged at the bottom of the groove.SELECTED DRAWING: Figure 3

Description

  One embodiment of the present invention relates to a focal plane shutter used in a camera.

  In a focal plane shutter that exposes an image sensor by opening and closing an opening (also referred to as an exposure opening or an image frame) with a shutter blade, a shutter blade disposed in a blade chamber formed between the base plate and the cover plate Is driven by a drive mechanism to change the open / closed state of the opening, and exposure is performed. The shutter blade is connected to one end of the arm by a connecting tool such as a rivet, and the other end of the arm is connected to the drive mechanism. During the operation of the shutter, the shutter blades move as the driving force is transmitted to the shutter blades via the arm by the drive mechanism. At this time, abrasion powder is generated due to friction between the coupling tool and the shutter blades and the main plate. There are things to do. Also, dust may be generated from members other than the shutter. If these abrasion powders and dust adhere to the image sensor, the quality of the imaging result is deteriorated. For example, in Patent Document 1, a focal plane shutter for a camera using an adhesive sheet is used in order to prevent wear powder and dust from flying to the imaging surface. It is disclosed.

JP 2003-280066 A

  In the focal plane shutter having the above-described conventional configuration, it is possible to reduce wear powder and dust from adhering to the imaging surface. However, in recent years, there is a higher demand for image quality improvement. Therefore, there is a demand for a configuration that allows wear powder and dust to adhere to the imaging surface more effectively than before.

  The present invention adopts the following means in order to solve the above problems. In the following description, in order to facilitate understanding of the invention, reference numerals and the like in the drawings are appended in parentheses, but each component of the present invention is not limited to these appendices. It should be construed broadly to the extent that contractors can technically understand.

One means of the present invention is to
A ground plane (1) having a first opening;
A cover plate (2) having a rectangular second opening at a position facing the first opening;
A shutter blade (4) disposed between the ground plate and the cover plate and switching between a state of covering the first opening and the second opening and a state of opening;
A drive unit (8) for driving the shutter blades,
The cover plate (2) is a through-hole or groove (21a) formed in a region outside one of the sides forming the second opening and different from a region where the driving unit is disposed. To 21n),
Having an adhesive member (9a-9f) arranged to cover the region where the through hole is formed, or arranged at the bottom of the groove;
It is a focal plane shutter.

  According to the focal plane shutter having the above-described configuration, the wear powder and dust generated by friction during the operation of the shutter blades are absorbed by the adhesive member, so that the wear powder and dust are more effectively adsorbed than before. It becomes possible. In addition, since the through hole or the groove is formed in a region different from the region where the driving unit is disposed, the configuration can easily capture wear powder and dust generated by sliding of the shutter blades. As a result, it is possible to prevent wear powder and dust from scattering and adhering to the image pickup device, thereby reducing the image quality.

In the focal plane shutter, preferably,
The cover plate (2) is disposed closer to the imaging unit than the ground plate.

  According to the focal plane shutter having the above configuration, a configuration that adsorbs wear powder and dust in a portion where the wear powder and dust are likely to adhere to the imaging unit is adopted. It can be.

In the focal plane shutter, preferably,
The area where the through hole or the groove is formed is an area of 50% or less of the entire region where the through hole or the groove is formed.

  According to the focal plane shutter having the above-described configuration, through holes or grooves are formed at an appropriate area ratio with respect to the cover plate, so that wear powder and dust can be captured while maintaining the rigidity of the cover plate. It is possible to prevent the cover plate from being easily damaged.

In the focal plane shutter, preferably,
The through hole or the groove (21c, 21d, 21i, 21j, 21k) is formed at a position that overlaps with the movement end position of the shutter blade in plan view.

  According to the focal plane shutter having the above configuration, since the through-hole or groove is formed at a place where the wear powder and dust are particularly likely to be generated, the configuration can more easily capture the wear powder and dust.

In the focal plane shutter, preferably,
The through hole or the groove is a long hole (21a to 21j) extending in a direction horizontal or perpendicular to the side of the second opening.

In the focal plane shutter, preferably,
The through hole or the groove includes a long hole (21a, 21b) that extends while being bent along the three sides of the second opening.

  According to the focal plane shutter having the above-described configuration, the through hole or the groove can be formed relatively easily.

In the focal plane shutter, preferably,
The long hole has a width of 100 μm or more.

  The size of wear powder and dust generated in the vicinity of the focal plane shutter is approximately 100 μm or less. However, according to the focal plane shutter having the above configuration, all of the wear powder and dust generated in the vicinity of the focal plane shutter are captured. Possible configurations can be obtained.

In the focal plane shutter, preferably,
A plurality of the through holes or the grooves (21k to 21m) are arranged in a lattice pattern.

In the focal plane shutter, preferably,
The area where the through hole or the groove is formed is an area of 40% or less of the entire region where the through hole or the groove is formed.

  According to the focal plane shutter having the above-described configuration, through holes or grooves arranged in a grid pattern with an appropriate area ratio with respect to the cover plate are formed, so that wear powder and dust can be removed while maintaining the rigidity of the cover plate. It can be set as the structure which can be captured and it can prevent that a cover board becomes easy to break.

In the focal plane shutter, preferably,
The cover plate has the through hole.

  According to the focal plane shutter having the above configuration, the cover plate can be formed relatively easily as compared with the case where the groove is provided.

In the focal plane shutter, preferably,
The cover plate has the groove.

  According to the focal plane shutter of the said structure, compared with the case where it has a through-hole, it can be set as the structure which captures abrasion powder and refuse more effectively.

  Any of the above focal plane shutters is preferably applied to a camera.

  According to the camera as described above, it is possible to prevent wear powder, dust, and the like from being scattered around the focal plane shutter, such as the imaging unit. As a result, it is possible to suppress wear powder, dust, or the like from adhering to the imaging unit, and it is possible to improve the quality of an image captured by the camera.

FIG. 1 is a plan view of a focal plane shutter according to the first embodiment in a blade travel completion state. FIG. 2 is a plan view of the focal plane shutter in the set state according to the first embodiment. FIG. 3 is a plan view of the focal plane shutter according to the first embodiment and shows a state in which an adhesive tape is arranged. FIG. 4 is a plan view of the cover plate in the first embodiment. FIG. 5 is a plan view of the focal plane shutter in the blade travel completion state according to the first modification of the first embodiment. FIG. 6 is a plan view of the focal plane shutter in the blade travel completion state according to the second modification of the first embodiment. FIG. 7 is a plan view of the focal plane shutter according to the second embodiment in a blade travel completion state. FIG. 8 is a plan view of the focal plane shutter in the set state according to the second embodiment. FIG. 9 is a plan view of a focal plane shutter according to the second embodiment, showing a state where an adhesive tape is arranged. FIG. 10 is a plan view of the cover plate in the second embodiment. FIG. 11 is a plan view of a focal plane shutter in a blade travel completion state according to Modification 1 of Embodiment 2. FIG. 12 is a plan view of a focal plane shutter in a blade travel completion state according to the second modification of the second embodiment.

An embodiment according to the present invention will be specifically described according to the following configuration with reference to the drawings. However, the embodiment described below is merely an example of the present invention and does not limit the technical scope of the present invention. In addition, in each drawing, the same code | symbol is attached | subjected to the same component and the description may be abbreviate | omitted.
1. Embodiment 1
2. Embodiment 2
3. Other modified examples 4. Features of the present invention Supplementary matter

<1. Embodiment 1>
The focal plane shutter of the present invention is used in a digital camera or the like, and has one of the features in the configuration for capturing abrasion powder or dust generated by the operation of the focal plane shutter. Specifically, the focal plane shutter of the present embodiment is characterized in that a through hole is formed around the opening of the cover plate, and an adhesive tape is disposed at the tip of the through hole.

  1 and 2 are plan views of the focal plane shutter according to the present embodiment. FIG. 1 shows a blade travel completion state, and FIG. 2 shows a set state before the blade travel. FIG. 3 is a plan view of the focal plane shutter of the present embodiment, showing a state in which an adhesive tape is arranged. In FIG.1 and FIG.2, the display of the adhesive tape is abbreviate | omitted.

  As shown in FIGS. 1 to 3, the focal plane shutter of the present embodiment includes a base plate 1, a cover plate 2, an intermediate plate 3, a leading blade 4, a trailing blade 5, leading blade arms 61 and 62, and trailing blades. The arm 71 and 72, the drive part 8, and the adhesive tapes 9a-9c are comprised.

<Ground plate 1>
The base plate 1 is a substrate portion of a focal plane shutter, and has a rectangular opening 1a. As shown in FIG. 1, a drive unit 8 is mounted on a side position (right side in the drawing) of the opening 1 a of the ground plane 1. The shape of the opening 1a is not limited to a rectangle, and an arbitrary shape may be adopted. The opening 1a is an example of the “first opening” in the present invention.

<Cover plate 2>
The cover plate 2 is attached to the base plate 1 at a position facing the base plate 1 with a predetermined interval. The cover plate 2 is disposed at a position close to the image sensor in a camera equipped with a focal plane shutter. Between the base plate 1 and the cover plate 2, the intermediate plate 3, the leading blade 4, the trailing blade 5, leading blade arms 61 and 62, and trailing blade arms 71 and 72 are arranged. The cover plate 2 has an opening 2 a formed at a position facing the opening 1 a of the base plate 1. The opening 2a has a rectangular shape similar to the opening 1a, but may not be a complete rectangular shape. The opening 2a is an example of the “second opening” in the present invention. The cover plate 2 may be called “auxiliary ground plate” or the like.

  FIG. 4 is a plan view of the cover plate 2 of the present embodiment. As shown in FIG. 4, through holes 21 a to 21 f are formed in the cover plate 2. These through holes 21a to 21f are all formed in regions outside the side forming the opening 2a (side serving as the outer edge of the opening 2a), excluding the region where the drive unit 8 is disposed. ing. The through holes 21a to 21f extend in a direction parallel to the direction in which the side forming the opening 2a extends. The through holes 21a and 21b have a shape that extends while being bent along three sides excluding the side corresponding to the position where the drive unit 8 is arranged, among the four sides forming the opening 2a. That is, the through holes 21a and 21b are formed so as to surround the opening 2a along three sides of the sides forming the opening 2a.

  In the vicinity of the focal plane shutter, wear powder and dust having a size of approximately 100 μm or less are generated. The through holes 21a to 21f are preferably formed to have a width of 100 μm or more so that the wear powder and dust of about 100 μm or less can be captured.

  In order to maintain the rigidity of the cover plate 2, the area of the portion where the through holes 21a to 21f are formed is an area of 50% or less with respect to the entire region where the through holes 21a to 21f are formed.

<Intermediate plate 3>
The intermediate plate 3 is disposed between the base plate 1 and the cover plate 2, and forms a blade chamber that accommodates the rear blade 5 and the leading blade 4 between the base plate 1 and the cover plate 2. That is, the rear blade 5 is disposed between the base plate 1 and the intermediate plate 3, and the front blade 4 is disposed between the cover plate 2 and the intermediate plate 3. The cover plate 2, the leading blade 4, the intermediate plate 3, the trailing blade 5, and the base plate 1 are arranged in order from the image pickup device mounted on the camera. The intermediate plate 3 has a rectangular opening 3 a at a position facing the opening 1 a of the base plate 1 and the opening 2 a of the cover plate 2. Similar to the openings 1a and 2a, the opening 3a of the intermediate plate 3 may have any shape that is not rectangular.

<Front blade 4>
The leading blade 4 is located between the cover plate 2 and the intermediate plate 3 as described above. The leading blade 4 is composed of a plurality of plate-like members and may be referred to as a “leading blade group”. The leading blade 4 is connected to leading blade arms 61 and 62 via a connector (reference numeral omitted). The leading blade 4 is driven by the driving unit 8 via the leading blade arms 61 and 62. The leading blade 4 is disposed at a position closer to the image sensor than the trailing blade 5. The leading blade 4 and the trailing blade 5 are each formed of metal such as aluminum, carbon fiber, or resin. The leading blade 4 is an example of the “shutter blade” in the present invention.

<Rear blade 5>
The rear blade 5 is located between the base plate 1 and the intermediate plate 3 as described above. The rear blade 5 is composed of a plurality of plate-like members similarly to the front blade 4 and is sometimes referred to as a “rear blade group”. The rear blade 5 is connected to the two rear blade arms 71 and 72 via a connector (not shown). The rear blade 5 is driven by the drive unit 8 via the rear blade arms 71 and 72.

<Lead blade arms 61 and 62>
The leading blade arms 61 and 62 are disposed between the driving unit 8 and the leading blade 4, and transmit the driving force generated by the driving unit 8 to the leading blade 4. The leading blade arms 61 and 62 are connected to the leading blade 4 by a connector. The leading blade arms 61 and 62 are connected to a part of the driving unit 8, so that driving force is transmitted from the driving unit 8.

<Rear blade arms 71 and 72>
The rear blade arms 71 and 72 are disposed between the drive unit 8 and the rear blade 5, and transmit the driving force generated by the drive unit 8 to the rear blade 5. The rear blade arms 71 and 72 are connected to the rear blade 5 by a connector. The rear blade arms 71 and 72 are connected to a part of the drive unit 8, so that the drive force is transmitted from the drive unit 8.

<Drive unit 8>
The drive unit 8 is partly or wholly arranged on the side portion of the base plate 1 and operates by power supplied from the outside, and the leading blades are passed through the leading blade arms 61 and 62 and the trailing blade arms 71 and 72. 4 and the rear blade 5 are driven. The drive unit 8 is, for example, a conventionally known electromagnetic actuator that includes a permanent magnet, a yoke, a coil, a coil spring, and the like, and operates with supplied electric power.

<Adhesive tapes 9a-9c>
As shown in FIG. 3, the adhesive tapes 9 a to 9 c are arranged so as to cover regions where the through holes 21 a to 21 f are formed. In the present embodiment, the three adhesive tapes 9a to 9c are arranged at positions outside the three sides of the sides forming the opening 2a, but the present invention is not limited to such an arrangement. . For example, the structure by which one adhesive tape which covers the whole through-holes 21a-21f is arrange | positioned may be sufficient.

  The adhesive tapes 9a to 9c are disposed by being attached to the surface of the cover plate 2 that is closer to the image sensor. The pressure-sensitive adhesive tapes 9a to 9c are, for example, double-sided tapes, and, for example, a pressure-sensitive adhesive is applied so that both surfaces thereof are adhesive. The pressure-sensitive adhesive tapes 9a to 9c may be commercially available pressure-sensitive adhesive tapes, double-sided tapes, or the like, or may be non-commercially available sheet-like members having a property of adhering abrasion powder or dust. The pressure-sensitive adhesive tapes 9a to 9c are examples of the “pressure-sensitive adhesive member” in the present invention.

  The focal plane shutter according to the present embodiment is used in an imaging device (camera) including an imaging element on the side opposite to the subject (backward in the optical axis direction) at a position inside the openings 1a, 2a, and 3a in plan view. It is done. The imaging device is mounted on the substrate at a position closer to the cover plate 2 than the base plate 1 in the focal plane shutter. The imaging element is a photoelectric conversion element such as a CMOS sensor or a CCD, for example. The imaging element is an example of the “imaging unit” in the present invention.

<Modification 1 of Embodiment 1>
FIG. 5 is a plan view of a focal plane shutter according to the first modification of the first embodiment. In the focal plane shutter of this modification, a through hole formed in the cover plate 2 is added.

  As shown in FIG. 5, the cover plate 2 of the present embodiment has through holes 21 h and 21 g formed in a region on the side of the opening 2 a and on the side where the driving unit 8 is disposed. That is, in the side forming the cover plate 2, the through holes 21 h and 21 g are formed at positions outside the side corresponding to the side where the drive unit 8 is arranged in plan view. The through holes 21h and 21g extend along the side forming the opening 2a (the right side in the figure). The through holes 21h and 21g are arranged in the vicinity of the opening 2a so as not to interfere with the position of the through hole formed in the cover plate 2 and projecting from the drive unit 8 through which the drive pin is inserted. An adhesive tape (not shown) is disposed at a position covering the through holes 21h and 21g. By disposing the through holes 21h and 21g and the adhesive tape at this position, it is possible to obtain a configuration capable of capturing wear powder and dust in a wider range.

<Modification 2 of Embodiment 1>
FIG. 6 is a plan view of a focal plane shutter according to the second modification of the first embodiment. In the focal plane shutter of this modification, the through holes formed in the cover plate 2 are limited.

  As shown in FIG. 6, the cover plate 2 of the present embodiment has through holes 21 a, 21 b, 21 i, and 21 j only at positions that overlap with the movement end position of the leading blade 4 in plan view. An adhesive tape (not shown) is disposed at a position covering the through holes 21a, 21b, 21i and 21j. As described above, wear powder and dust are particularly likely to be generated at the movement end position of the leading blade 4, so that it is limited by forming the through holes 21a, 21b, 21i and 21j at this position and arranging the adhesive tape. It can be set as the structure which is easy to capture | acquire abrasion powder and refuse effectively, utilizing a through-hole and an adhesive tape.

<2. Second Embodiment>
Next, Embodiment 2 of the present invention will be described. The present embodiment is similar to the first embodiment, but the shape of the through holes formed in the cover plate 2 is different. In the following description, only points in which the present embodiment is different from the first embodiment will be described, and the description of the configuration common to the first embodiment will be omitted.

  7 and 8 are plan views of the focal plane shutter according to the present embodiment. FIG. 7 shows a blade travel completion state, and FIG. 8 shows a set state before the blade travel. FIG. 9 is a plan view of the focal plane shutter of the present embodiment, and shows a state where an adhesive tape is arranged. 7 and 8, the display of the adhesive tape is omitted.

  As shown in FIGS. 7 to 9, the focal plane shutter of the present embodiment includes a base plate 1, a cover plate 2, an intermediate plate 3, a leading blade 4, a trailing blade 5, leading blade arms 61 and 62, and a trailing blade. The arm 71 and 72, the drive part 8, and the adhesive tapes 9d-9f are comprised.

<Cover plate 2>
FIG. 10 is a plan view of the cover plate 2 of the present embodiment. As shown in FIG. 10, through holes 21 k to 21 m are formed in the cover plate 2. These through holes 21k to 21m are all formed in regions outside the side that forms the opening 2a and excluding the region where the drive unit 8 is disposed. More specifically, the through hole 21k is formed in a region below the opening 2a in the drawing. The through hole 21l is formed in a region on the left side of the opening 2a in the drawing. The through hole 21m is formed in a region above the opening 2a in the drawing. Each of the through holes 21k to 21m includes a plurality of circular through holes arranged in a lattice pattern. Each of the through holes 21k to 21m may be referred to as a “through hole group”. In addition, each through-hole may be other shapes, such as polygonal shape, not circular shape.

  The through holes constituting the through holes 21k to 21m are preferably formed to have a diameter of 1 μm or more and 100 μm or less in order to maintain the rigidity of the cover plate 2. In addition, since the size of wear powder and dust generated in the vicinity of the focal plane shutter is approximately 100 μm or less, it is preferable that these through holes be about 100 μm.

  In order to maintain the rigidity of the cover plate 2, the area of the portion where the through holes 21k to 21m are formed is an area of 40% or less with respect to the entire region where the through holes 21k to 21m are formed.

<Adhesive tapes 9d-9f>
As shown in FIG. 9, the adhesive tapes 9 d to 9 f are arranged so as to cover regions where the through holes 21 k to 21 m are formed. In the present embodiment, the three adhesive tapes 9d to 9f are arranged at positions outside the three sides of the sides forming the opening 2a. However, the present invention is not limited to such an arrangement. . For example, the structure by which one adhesive tape which covers the whole through-holes 21k-21m is arrange | positioned may be sufficient.

  As in the first embodiment, the adhesive tapes 9d to 9f are attached to the surface of the cover plate 2 that is closer to the image sensor.

<Modification 1 of Embodiment 2>
FIG. 11 is a plan view of a focal plane shutter according to the first modification of the second embodiment. In the focal plane shutter of this modification, a through hole formed in the cover plate 2 is added.

  As shown in FIG. 11, the cover plate 2 of the present embodiment has a through hole 21 n in a region on the side of the opening 2 a and on the side where the driving unit 8 is disposed. That is, in the side forming the cover plate 2, the through hole 21 n is formed at a position outside the side corresponding to the side where the driving unit 8 is arranged in plan view. The through hole 21n is disposed in the vicinity of the opening 2a so as not to interfere with the position of the through hole formed in the cover plate 2 through which the drive pin protruding from the drive unit 8 is inserted. An adhesive tape (not shown) is disposed at a position covering the through hole 21n. By disposing the through hole 21n and the adhesive tape at this position, it is possible to obtain a configuration capable of capturing wear powder and dust in a wider range.

<Modification 2 of Embodiment 2>
FIG. 12 is a plan view of a focal plane shutter according to the second modification of the second embodiment. In the focal plane shutter of this modification, the through holes formed in the cover plate 2 are limited.

  As shown in FIG. 12, the cover plate 2 of the present embodiment has a through hole 21 k only at a position overlapping the movement end position of the leading blade 4 in plan view. That is, compared to the configuration of the second embodiment, the configuration is such that the through holes 21l and 21m are removed. An adhesive tape (not shown) is disposed at a position covering the through hole 21k. As described above, wear powder and dust are particularly likely to be generated at the movement end position of the leading blade 4. Therefore, by forming the through hole 21k only at this position and arranging the adhesive tape, the limited through hole and the adhesive tape are provided. Thus, it is possible to make it easy to capture wear powder and dust effectively.

<3. Other variations>
Further, in the focal plane shutters according to the first and second embodiments and the modifications of the respective embodiments, the following further modifications may be employed.

  The cover plate 2 may be configured to have a groove instead of the through hole. In this case, the groove is configured to be recessed toward the image sensor side from the direction in which the leading blade 4 is located, and an adhesive member such as an adhesive or an adhesive tape is disposed at the bottom of the groove.

  In the above embodiment, since the cover plate 2 is disposed close to the image sensor, the cover plate 2 is provided with a through hole. However, when the ground plate 1 is disposed close to the image sensor, the cover plate 2 is provided with a cover. It is preferable that a through hole is provided in the base plate 1 instead of the plate 2. That is, an effect is acquired even if it is the structure where the cover board 2 and the ground plane 1 were reverse. In the present invention, the “base plate” and the “cover plate” have the same characteristics, and the configuration in which the drive unit 8 is mounted may be referred to as a “cover plate”.

  Similarly, in the above embodiment, the front blade 4 is arranged close to the image sensor, but the rear blade 5 may be arranged close to the image sensor.

  Moreover, although the said embodiment demonstrated the structure provided with the front blade | wing 4 and the rear blade | wing 5, even if it is a case where the structure which has only any one blade | wing is employ | adopted, this invention is useful.

  Further, in the first embodiment, the through holes 21a to 21j formed in the cover plate 2 have been described by taking the configuration horizontal to the side forming the opening 2a as an example, but the shape is limited to such a shape. is not. For example, the through hole of the cover plate 2 may have a shape extending in a direction perpendicular to the side forming the opening 2a. Moreover, it is good also as a shape extended in arbitrary directions irrespective of the direction where the edge | side which forms the opening part 2a is extended.

<4. Features of the present invention>
In the focal plane shutter of the present invention, the cover plate 2 has a through hole or groove formed in a region outside the side forming the opening 2a and different from the region where the drive unit 8 is disposed. It is the structure, Comprising: It is set as the structure which has the adhesive member arrange | positioned so that the area | region in which the through-hole was formed, or the adhesive member (adhesive tape 9a-9f) arrange | positioned at the bottom part of a groove | channel. With this configuration, it becomes possible to adsorb abrasion powder and dust more effectively than in the past. In addition, it is possible to prevent wear powder and dust from being scattered and adhering to the image pickup device to deteriorate the image quality.

  Further, in the focal plane shutter of the present invention, the cover plate 2 is disposed at a position closer to the image sensor than the base plate 1. Therefore, it becomes a structure which adsorb | sucks the abrasion powder and dust which are easy to fly toward an image pick-up element, and becomes a structure which is easy to suppress that wear powder and dust adhere to an image pick-up element.

  Further, the focal plane shutter of the present invention is configured such that the area where the through hole or groove is formed is 50% or less of the entire region where the through hole or groove is formed. Thus, since the through hole or the groove is formed with an appropriate area with respect to the cover plate 2, the cover plate 2 can be configured to capture wear powder and dust while maintaining the rigidity of the cover plate 2. It is possible to prevent the plate 2 from being easily damaged.

  In addition, the focal plane shutter of the present invention (particularly Embodiment 1) is configured to have long holes (21a and 21b) that extend while bending along three of the sides forming the opening 2a. According to this configuration, the through hole or the groove can be formed in a shape that is relatively easy to form by press working or the like.

  Further, in the focal plane shutter of the present invention (particularly Embodiment 2), the area where the through holes or grooves arranged in a lattice pattern are formed is 40% or less of the entire region where the through holes or grooves are formed. It is composed. Thus, since the through hole or the groove is formed with an appropriate area with respect to the cover plate 2, the cover plate 2 can be configured to capture wear powder and dust while maintaining the rigidity of the cover plate 2. It is possible to prevent the plate 2 from being easily damaged.

  In the focal plane shutter of the present invention, when the cover plate 2 has a through hole, the cover plate 2 can be formed relatively easily by pressing or the like as compared with the configuration having a groove.

  Moreover, in the focal plane shutter of the present invention, when the cover plate 2 has a groove, it is possible to make it easier to capture wear powder and dust than a structure having a through hole.

  Further, in the focal plane shutter of the present invention, the cover plate 2 may have a configuration having both a through hole and a groove. In this case, it can be set as the structure which combined Embodiment 1 and Embodiment 2. FIG.

  In an imaging apparatus such as a camera provided with the focal plane shutter described above, it is possible to prevent wear powder, dust, and the like from being scattered around the focal plane shutter, such as an imaging element. As a result, it is possible to suppress wear powder, dust, and the like from adhering to the image sensor, and it is possible to improve the quality of an image captured by the camera.

<5. Supplementary items>
The specific description of the embodiment of the present invention has been given above. The above description is merely an embodiment, and the scope of the present invention is not limited to this embodiment, but should be broadly interpreted to the extent that a person skilled in the art can grasp.

  In the focal plane shutter of the above embodiment, the configuration example having the intermediate plate 3 has been described. However, a configuration without the intermediate plate 3 may be employed.

  Moreover, although adhesive tape 9a-9f which functions as an adhesive member in said embodiment demonstrated and demonstrated the example comprised by the member provided with adhesiveness, for example, dust is made to adhere by providing electrostatic property. You may employ | adopt the thing of a structure.

  In the above embodiment, the front blade 4 and the rear blade 5 included in the focal plane shutter have been described as having a plurality of blade members. However, the front blade 4 and the rear blade 5 each have a single blade member. It may be a configuration.

  The present invention is suitably applied as a focal plane shutter for a camera such as a digital camera.

DESCRIPTION OF SYMBOLS 1 ... Ground plate 1a ... Opening part 2 ... Cover plate 2a ... Opening part 21a-21n ... Through-hole 3 ... Intermediate | middle board 3a ... Opening part 4 ... Leading blade 5 ... Rear blade 61 ... Leading blade arm 71 ... Rear blade arm 8 ... Drive units 9d to 9f ... Adhesive tape

Claims (12)

A main plate having a first opening;
A cover plate having a rectangular second opening at a position facing the first opening;
A shutter blade that is disposed between the ground plate and the cover plate, and switches between a state of covering and opening the first opening and the second opening;
A drive unit for driving the shutter blades,
The cover plate has a through-hole or a groove formed in a region outside one of the sides forming the second opening and different from a region where the driving unit is disposed. ,
Having an adhesive member arranged to cover the region where the through hole is formed, or arranged at the bottom of the groove;
Focal plane shutter. The cover plate is disposed at a position closer to the imaging unit than the ground plate,
The focal plane shutter according to claim 1. The area where the through hole or the groove is formed is an area of 50% or less of the entire region where the through hole or the groove is formed.
The focal plane shutter according to claim 1 or 2. The through-hole or the groove is formed at a position overlapping the movement end position of the shutter blade in plan view.
The focal plane shutter according to any one of claims 1 to 3. The through hole or the groove is a long hole extending in a direction horizontal or perpendicular to the side of the second opening,
The focal plane shutter according to any one of claims 1 to 4. The through hole or the groove includes a long hole that extends while being bent along three sides of the side of the second opening.
The focal plane shutter according to any one of claims 1 to 4. The slot has a width of 100 μm or more,
The focal plane shutter according to claim 5 or 6. A plurality of the through holes or the grooves are arranged in a lattice pattern,
The focal plane shutter according to any one of claims 1 to 4. The area where the through-hole or the groove is formed is an area of 40% or less of the entire region where the through-hole or the groove is formed.
The focal plane shutter according to claim 8. The focal plane shutter according to any one of claims 1 to 9, wherein the cover plate has the through hole. The focal plane shutter according to any one of claims 1 to 9, wherein the cover plate has the groove.   A camera comprising the focal plane shutter according to any one of claims 1 to 11.

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