JP4413370B2 - Focal plane shutter - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a focal plane shutter for a camera provided with a shutter blade group that opens and closes an opening formed in a substrate so as to allow subject light to pass through. In particular, the shutter blade group disposed on the back side of the substrate and the substrate The present invention relates to a focal plane shutter for a camera having a through hole that allows connection with a drive lever disposed on the front side.
[0002]
[Prior art]
As shown in FIGS. 8 and 9, a conventional focal plane shutter mounted on a camera forms a shutter blade group on the back side of a substrate (base plate) 1 having an opening 1a for allowing subject light to pass through. The front blade group 2 (2a, 2b, 2c, 2d) and the rear blade group 3 (3a, 3b, 3c, 3d) are arranged, while the front blade group 2 and the rear blade are disposed on the left side of the front side of the substrate 1. A drive lever or the like for driving the group 3 is disposed, and an exposure operation is performed on a photographic film disposed on the rear side of the back side of the substrate 1.
[0003]
Further, in order to allow movement of the connecting pins 4 and 5 of the driving lever connected to a part of the leading blade group 2 and the trailing blade group 3, the substrate 1 is moved along the movement locus of the connecting pins 4 and 5. Long holes 1b and 1c as through holes are provided, respectively. Further, the substrate 1 is provided with a notch hole 1d that accommodates a part of the support shaft 6a that rotatably supports the reflection mirror 6 in the upper edge region of the opening 1a.
[0004]
In this focal plane shutter, when performing double shielding by the front blade group 2 and the rear blade group 3 in a state other than the exposure operation, for example, with the shutter charge set, as shown in FIG. Both the long hole 1b and the long hole 1c are opened, and light can enter the back side of the substrate 1, that is, the photographing film side.
Therefore, in order to prevent light from entering the back side of the substrate 1 directly from the long holes 1b and 1c or through the gaps of the cutout holes 1d, and to ensure the light shielding property to the photographic film, the substrate 1 A box-shaped light shielding cover 7 is provided so as to surround a region where the drive lever or the like is disposed, as shown in FIG. It is provided to cover the long holes 1b, 1c and the like.
[0005]
[Problems to be solved by the invention]
By the way, in the configuration in which the conventional light shielding cover 7 or the like is provided, a space for arranging the light shielding cover 7 or the like is required, and the light shielding cover 7 or the like is separately formed as a dedicated product by molding or the like. As a result, there is a problem that the apparatus becomes larger, the apparatus becomes more complicated, the cost of the apparatus increases, and the camera body on which the focal plane shutter is mounted is increased.
The present invention has been made in view of the above-mentioned problems, and its object is to reduce the size of the apparatus, reduce the cost, simplify the structure, etc., and provide functional reliability. It is an object of the present invention to provide a focal plane shutter that can improve the light-shielding property of the shutter while contributing to the miniaturization of the camera body.
[0006]
[Means for Solving the Problems]
The focal plane shutter of the present invention is disposed on the back side of the substrate so as to be movable between a substrate having an opening for allowing light to pass therethrough, and a closed position that covers the opening and an open position that opens the opening. The movement of a shutter blade group, a drive lever arranged on the front side of the substrate to drive the shutter blade group to reciprocate, and a connecting portion that connects a part of the drive lever and a part of the shutter blade group A focal plane shutter having a through hole formed in the substrate to allow it, wherein the shutter blade group has a shielding portion capable of shielding the through hole.
According to this configuration, when the shutter blade group is in a predetermined operating state, for example, the shielding portion formed in a part of the shutter blade group shields the through hole that leads from the front side to the back side of the substrate. . As a result, light shielding is performed on the photographic film located behind the back surface of the substrate.
As a concept of the shielding portion provided in the shutter blade group, the shutter blade group is in any position (for example, one of the open position and the closed position, or both the open position and the closed position). In some cases, the structure is formed so as to shield the through hole. Further, the concept of shielding the through hole with the shielding part includes not only the case where the shielding part completely shields the through hole, but also the case where at least a part of the through hole is shielded.
[0007]
The said structure WHEREIN: The structure which is formed so that a shielding part may shield a through-hole in the state in which the charge of the shutter was set is employable.
According to this configuration, the shielding portion provided in the shutter blade group shields the through hole of the substrate in a state where the shutter charge is set. As a result, light shielding is performed on the photographic film located behind the back surface of the substrate.
In particular, when the camera is in a standby state or when the camera is turned off, the through hole should be held in a state of being shielded by the shielding portion when the shutter charge is always set. As a result, the photographic film is efficiently shielded from light.
[0008]
In the above configuration, the shutter blade group includes a front blade group and a rear blade group, and the drive lever includes a front blade drive lever that drives the front blade group and a rear blade drive lever that drives the rear blade group, The through hole includes a front blade through hole that allows movement of a connecting portion that connects a part of the leading blade driving lever and a part of the leading blade group, a part of the trailing blade driving lever, and a part of the trailing blade group. And a rear blade through-hole that allows movement of the connecting portion that connects to the front blade, and the shielding portion is formed in a part of the front blade group to shield the front blade through-hole, and the rear blade shielding portion A configuration including a rear blade shielding portion that is formed in a part of the blade group and can shield the rear blade through hole can be employed.
According to this configuration, when the leading blade group is in a predetermined operating state, for example, the leading blade shielding portion formed in a part of the leading blade group has a leading blade through hole that leads from the front side to the back side of the substrate. For example, when the rear blade group is in a predetermined operating state, the rear blade shielding portion formed in a part of the rear blade group shields the rear blade through-hole leading from the front side of the substrate to the rear side. Will do. As a result, light shielding is performed on the photographic film located behind the back surface of the substrate.
[0009]
In the above configuration, the leading blade shielding portion is formed on the leading blade that performs the last covering operation among the leading blades that constitute the leading blade group, and the trailing blade shielding portion is the last of the trailing blades that constitute the trailing blade group. The structure formed in the rear blade that performs the covering operation can be employed.
According to this configuration, the leading blade shielding part is provided on the leading blade that performs the covering operation last in the leading blade group, that is, the leading blade that moves the least, and the trailing blade shielding part is the last in the trailing blade group. Since it is provided on the rear blade that performs the covering operation, that is, the rear blade having the smallest amount of movement, the responsiveness when the front blade group and the rear blade group move hardly deteriorates (the inertial mass is hardly affected). That is, the leading blade through hole is shielded by the leading blade shielding portion without impairing the quickness of the opening / closing operation by the leading blade group and the trailing blade group, and the trailing blade through hole is blocked by the trailing blade shielding portion. Shielding is performed.
[0010]
In the above configuration, the front blade group and the rear blade group may be configured to be driven so as to be in a double shielding state in which both the openings are closed in a state where the shutter charge is set.
According to this configuration, when the shutter charge is set, the leading blade group operates to close the opening, and the trailing blade group also operates to close the opening. At this time, the leading blade shielding portion provided in the leading blade group shields the leading blade through hole, and the trailing blade shielding portion provided in the trailing blade group shields the trailing blade through hole, and the shutter Further light shielding is performed in a state where the charge is set.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
1 to 7 show one embodiment of a focal plane shutter according to the present invention. FIG. 1 is a plan view showing a substrate on which an opening for allowing subject light to pass is formed. FIG. 2 is a shutter. FIG. 3 is a plan view showing a rear blade group constituting a part of the shutter blade group, FIG. 4 is a plan view showing the operation of the drive lever, etc. 5 is a plan view showing a state before the shutter charge is set, FIG. 6 is a plan view showing a state where the shutter charge is set, and FIG. 7 is a plan view showing a state immediately after the shutter release operation is performed. FIG.
[0013]
The focal plane shutter according to this embodiment includes a ground plane 10 as a substrate having an opening 10a for allowing light (subject light) to pass through, a closed position that covers the opening 10a, and an open position that opens the opening 10a. A front blade group 20 and a rear blade group 30 as shutter blade groups arranged on the back side of the base plate 10 so as to be movable between them, and a ground plate to drive the front blade group 20 and the rear blade group 30 so as to reciprocate. 10 includes a driving mechanism including a leading blade driving lever 40 and a trailing blade driving lever (first trailing blade driving lever 50, second trailing blade driving lever 60) disposed on the front surface side as a basic configuration.
[0014]
  As shown in FIG. 1, the ground plate 10 as a substrate has an outer outline formed in a substantially rectangular shape, and its surface is painted with black or the like. And the rectangular-shaped opening part 10a is provided in the center part area | region, The notch hole 10b which accommodates the spindle of a reflective mirror in the upper edge area | region of this opening part 10a.ButIs provided. Further, in the left region of the opening 10a, an arcuate elongated front blade through hole 10c through which the connecting pin 42 of the leading blade drive lever 40 passes and an arc shape through which the connecting pin 53 of the first rear blade drive lever 50 passes. A long blade rear blade through hole 10d and the like are provided.
[0015]
An intermediate plate 11 is arranged behind the ground plate 10 with a predetermined interval. As shown by the dotted line in FIG. 1, the intermediate plate 11 has an outer contour that is substantially rectangular and is formed so as to escape the front blade through hole 10 c and the rear blade through hole 10 d of the base plate 10. The surface is painted in black or the like in the same manner as the main plate 10. A substantially rectangular opening 11a is provided in the central region.
[0016]
Further, a cover plate 12 is arranged behind the intermediate plate 11 with a predetermined interval. The cover plate 12 is formed in a rectangular shape whose outer contour is substantially the same as that of the main plate 10. And the opening part 12a slightly larger than the opening part 10a of the ground plane 10 is provided in the center area | region. Further, in the left region of the opening 12a, a front blade through hole 12c having a similar arc-shaped long hole is provided at a position overlapping the front blade through hole 10c of the base plate 10, and the rear blade of the base plate 10 is also provided. A rear blade through hole 12d having a similar arc-shaped elongated hole is provided at a position overlapping with the through hole 10d.
[0017]
A leading blade group 20 that forms a part of the shutter blade group is disposed on the back side of the base plate 10, that is, in the space between the intermediate plate 11 and the cover plate 12, and is expanded upward to open the opening 10a ( 11a, 12a) and a closed position that overlaps below the opening 10a (11a, 12a) and opens to open the opening 10a (11a, 12a).
Further, a rear blade group 30 forming a part of the shutter blade group is disposed on the back side of the base plate 10, that is, in the space between the base plate 10 and the intermediate plate 11, and is opened downward to open the opening 10a (11a). , 12a) and a closed position that overlaps on the upper side of the opening 10a (11a, 12a) and an open position that opens the opening 10a (11a, 12a).
[0018]
As shown in FIG. 2, the front blade group 20 includes four front blades, that is, a first front blade 21, a second front blade 22, a third front blade 23, a fourth front blade 24, and these front blades. It is composed of two link members 25, 26 and the like that are linked in a movable manner.
A swing center hole 25a formed at one end of the link member 25 is externally fitted to a support shaft 13 provided in the main plate 10 and is disposed so as to be rotatable around the support shaft 13. A swinging central hole 26 a formed at one end of 26 is fitted around a pivot 14 provided in the main plate 10 and is disposed so as to be rotatable around the pivot 14. In addition, a substantially rectangular connecting hole 25b is formed in a part of the link member 25, and the connecting pin 42 of the leading blade driving lever 40 is fitted into the connecting hole 25b. . Here, the trajectory (radius of the trajectory) of the connecting hole 25b when the link member 25 rotates around the support shaft 13 coincides with the extending direction (curvature radius of arc) of the leading blade through hole 10c. Is formed.
[0019]
Moreover, as shown in FIG. 2, in the 4th front blade | wing 24 of the front blade | wing groups which comprise the said front blade group 20, the front blade group 20 expand | deployed and the state which closed the opening part 10a (11a, 12a) When in the (closed position), a leading blade shielding portion 24a that shields the leading blade through hole 10c of the main plate 10 is integrally formed. This front blade shielding portion 24a is for preventing light from entering behind the base plate 10 by shielding the front blade through-hole 10c. In particular, the front blade group is set with the shutter charge set. When the blade 20 is in the closed position, the leading blade through hole 10c is formed so as to be shielded.
[0020]
Further, at least the subject side surface of the front blade group 20 is painted in gray or the like for the portion that opens and closes the opening 10a due to strobe light control or the like, and the front blade shielding portion 24a is painted in black or the like. . That is, it is painted so that the reflectance of the leading blade shielding portion 24a is smaller than the reflectance of the portion that opens and closes the opening 10a. In this way, by reducing the reflectance of at least the leading blade shielding portion 24a, the light reflected to the back side of the main plate 10 through the gap between the leading blade through hole 10c and the leading blade shielding portion 24a is more reliably obtained. Can be prevented.
[0021]
In the leading blade group 20 having the above-described configuration, when the link members 25 and 26 rotate counterclockwise in FIG. 2 around the support shaft 13 and the pivot shaft 14, the first leading blade 21 first moves upward and opens. Part 10a (11a, 12a) begins to be covered, and then the second leading blade 22, the third leading blade 23, and finally the fourth leading blade 24 are moved upward in this order to open the opening 10a (11a, 12a) is reached and the closed position is reached.
At this time, the leading blade through hole 10c of the base plate 10 is shielded by the leading blade shielding portion 24a formed on the fourth leading blade 24, and from the front side of the base plate 10 to the back side through the leading blade through hole 10c. Light entering is blocked (blocked).
[0022]
On the other hand, when the link members 25 and 26 rotate clockwise around the support shaft 13 and the pivot 14 from the state where the leading blade group 20 is located at the closed position, the first leading blade 21 first moves downward. Then, the opening 10a (11a, 12a) starts to be opened, and then the second leading blade 22, the third leading blade 23, and finally the fourth leading blade 24 move sequentially downward to open the opening. 10a (11a, 12a) is opened and the open position is reached.
By the way, the leading blade shielding part 24a is provided on the fourth leading blade 24 that performs the covering operation at the end, that is, the smallest moving amount, so that the responsiveness when the leading blade group 20 moves is hardly lowered ( The inertial mass is hardly affected. Therefore, the responsiveness of the opening / closing operation is not affected, and a quick and reliable opening / closing operation is performed.
[0023]
As shown in FIG. 3, the rear blade group 30 includes four rear blades, that is, the first rear blade 31, the second rear blade 32, the third rear blade 33, the fourth rear blade 34, and the rear blades. It is composed of two link members 35, 36 and the like that are linked in a freely movable manner.
A swinging center hole 35a formed at one end of the link member 35 is externally fitted to a support shaft 15 provided in the main plate 10 and is disposed so as to be rotatable around the support shaft 15. A swing center hole 36 a formed at one end of 36 is externally fitted to a pivot 16 provided on the main plate 10, and is disposed so as to be rotatable around the pivot 16. Further, a substantially rectangular connecting hole 35b is formed in a part of the link member 35, and the connecting pin 53 of the first rear blade drive lever 50 is fitted into the connecting hole 35b. ing. Here, the trajectory (radius of the trajectory) of the connecting hole 35b when the link member 35 rotates around the support shaft 15 coincides with the extending direction (curvature radius of the arc) of the rear blade through hole 10d. Is formed.
[0024]
Further, in the fourth rear blade 34 of the rear blades constituting the rear blade group 30, as shown in FIG. 3, the rear blade group 30 is deployed to close the opening 10a (11a, 12a). When in the (closed position), the rear blade shielding portion 34a that shields the rear blade through hole 10d of the main plate 10 is integrally formed. The rear blade shielding portion 34a is for preventing the light from entering behind the base plate 10 by shielding the rear blade through-hole 10d, and in particular, the shutter blade is charged and the rear blade is set. When the group 30 is in the closed position, the rear blade through hole 10d can be shielded.
[0025]
Further, when the rear blade group 30 is further disposed on the subject side in the double light-shielding type, at least the portion that opens and closes the opening 10a on the subject side of the rear blade group 30 is, for example, strobe light control. Therefore, it is often painted in gray other than black. In this embodiment, the rear blade shielding portion 34a is painted black or the like. That is, it is painted so that the reflectance of the rear blade shielding portion 34a is smaller than the reflectance of the portion that opens and closes the opening 10a. In this way, by reducing the reflectance of at least the rear blade shielding portion 34a, the light reflected to the back side of the base plate 10 through the gap between the rear blade through hole 10d and the rear blade shielding portion 34a is more reliably ensured. It can prevent or it can prevent more reliably that the light which approached through the notch hole 10b is reflected in the back side of the base plate 10. FIG.
[0026]
In the rear blade group 30 having the above-described configuration, when the link members 35 and 36 rotate clockwise in FIG. 3 about the support shaft 15 and the pivot 16, first, the first rear blade 31 moves downward to open the opening portion. 10a (11a, 12a) starts to be covered, and then the second rear blade 32, the third rear blade 33, and finally the fourth rear blade 34 move sequentially downward to open the opening 10a (11a, 12a). ) To reach the closed position.
At this time, the rear blade through-hole 10d is shielded by the rear blade shielding portion 34a formed in the fourth rear blade 34, and the rear blade through hole 10d is approached from the front surface side of the base plate 10 to enter the rear surface side. Light is blocked (shielded).
[0027]
On the other hand, when the link members 35, 36 are rotated counterclockwise in FIG. 3 about the support shaft 15 and the pivot 16 from the state where the rear blade group 30 is located at the closed position, the first rear blade 31 is first moved upward. Move to start opening 10a (11a, 12a), then move upward in order of second rear blade 32, third rear blade 33, and finally fourth rear blade 34 to open The part 10a (11a, 12a) is opened and the open position is reached.
By the way, since the rear blade shielding portion 34a is provided on the fourth rear blade 34 that performs the covering operation last, that is, with the smallest movement amount, the responsiveness when the rear blade group 30 moves hardly decreases ( The inertial mass is hardly affected. Therefore, the responsiveness of the opening / closing operation is not affected, and a quick and reliable opening / closing operation is performed.
[0028]
As shown in FIG. 4, the driving mechanism for driving the leading blade group 20 and the trailing blade group 30 is rotatably disposed in the lower left area of the opening 10 a on the front surface side of the base plate 10. A first blade driving lever 50 and a second blade driving lever 60 which are rotatably disposed in an area above the blade driving lever 40 and which drive the trailing blade group 30. The leading blade driving lever 40, the first trailing blade driving lever 50 and the second trailing blade driving lever 60 are rotatably disposed in the region, and the leading blade driving lever 40, the first trailing blade driving lever 50, and the second. A set lever 70 that can be engaged with the trailing blade drive lever 60, a charge lever (not shown) that controls the charge of the shutter by engaging with the set lever 70, and a drive that applies a driving force to the charge lever It is composed of over motor (not shown) or the like.
[0029]
As shown in FIGS. 4A, 4 </ b> B, and 4 </ b> C, the set lever 70 is rotatably disposed around the support shaft 17 on the front surface side of the base plate 10. 4 is urged to rotate counterclockwise in FIG. 4 by a torsion spring (not shown), and the projection 71 is lowered with respect to a part of the charge lever (not shown). It is always engaged from the side.
Further, as shown in FIGS. 4A, 4B, and 4C, the set lever 70 includes a first engaging portion 72a that is formed integrally with a forward protruding portion 71 and is curved. It is formed by a front surface portion 72 having the second engaging portion 72b on the same plane, a restriction portion 73 formed integrally with the back surface of the front surface portion 72 and having an arcuate portion 73a and a relief portion 73b on the same plane. ing.
[0030]
As shown in FIGS. 4A, 4 </ b> B, and 4 </ b> C, the leading blade drive lever 40 is disposed on the front surface side of the base plate 10 so as to be rotatable around the support shaft 13. A torsion spring (not shown) arranged in the region 13 is urged to rotate clockwise in FIG. The leading blade drive lever 40 extends to the back side (rear) of the base plate 10 through the engaging portion 41 that can be engaged with the first engaging portion 72a of the set lever 70 and the leading blade through hole 10c. It is formed by a connecting pin 42 (a part of the drive lever) that is connected to the connecting hole 25b of the group 20 (link member 25) to form a connecting portion, and an iron piece portion 43 that is attracted by a magnetic force.
Here, the locus (radius of the locus) of the connecting pin 42 when the leading blade drive lever 40 rotates about the support shaft 13 coincides with the extending direction (circular curvature radius) of the leading blade through hole 10c. It is formed as follows.
[0031]
As shown in FIGS. 4A, 4 </ b> B, and 4 </ b> C, the first rear blade drive lever 50 is a support shaft on the front side of the base plate 10 and behind (rear) the second rear blade drive lever 60. It is arranged so as to be rotatable around 15 and is urged to rotate counterclockwise in FIG. 4 by a torsion spring (not shown) arranged in the region of the support shaft 15. The first trailing blade drive lever 50 includes a first engagement portion 51 that can be engaged with the restriction portion 73 (arc-shaped portion 73a) of the set lever 70, and a second engagement of the second trailing blade drive lever 60. The second engaging portion 52 that can be engaged with the portion 62 and the rear blade through hole 10d extend to the back side (rear) of the main plate 10 and are connected to the connecting hole 35b of the rear blade group 30 (link member 35). It is formed by a connecting pin 53 or the like that forms a portion. Here, the locus (radius of the locus) of the connecting pin 53 when the first trailing blade drive lever 50 rotates around the support shaft 15 is the extension direction of the trailing blade through hole 10d (the radius of curvature of the arc). It is formed to match.
[0032]
As shown in FIGS. 4A, 4 </ b> B, and 4 </ b> C, the second rear blade drive lever 60 is similarly supported on the front side of the base plate 10 and on the front side of the first rear blade drive lever 50. The shaft 15 is rotatably arranged around the shaft 15 and is urged to rotate clockwise in FIG. 4 by a torsion spring (not shown) disposed in the region of the support shaft 15. The second rear blade drive lever 60 includes a first engagement portion 61 that can be engaged with the second engagement portion 72b of the set lever 70, and a second engagement portion 52 of the first rear blade drive lever 50. It is formed by a second engaging portion 62 that can be engaged, and an iron piece portion 63 that is attracted by a magnetic force.
[0033]
Here, the biasing force of the torsion spring that biases the second trailing blade drive lever 60 clockwise is set to be larger than the biasing force of the torsion spring that biases the first trailing blade drive lever 50 counterclockwise. ing. Therefore, in a state where the set lever 70 is not actuated (a state where the shutter charge is not set), the second engagement portion 52 of the first trailing blade driving lever 50 is connected to the second trailing blade driving lever 60 in the second state. Pushed by the engaging portion 62, the first trailing blade drive lever 50 and the second trailing blade drive lever 60 are located at a position rotated clockwise as shown in FIG.
[0034]
On the further front side (front) of the set lever 70, the leading blade driving lever 40, the first trailing blade driving lever 50, and the second trailing blade driving lever 60 disposed on the front side of the ground plate 10, a circuit parallel to the ground plate 10 is provided. A board (not shown) is disposed, and a leading blade electromagnet 80 and a trailing blade electromagnet 90 are attached to the back surface of the circuit board. As shown in FIG. 4B, the leading blade electromagnet 80 and the trailing blade electromagnet 90 include iron cores 81 and 91 and electromagnetic coils 82 and 92 wound around the iron cores 81 and 91, respectively. Etc.
When the electromagnetic coils 82 and 92 are energized, an electromagnetic force is generated, and the leading blade electromagnet 80 and the trailing blade electromagnet 90 are connected to the iron piece portion 43 of the leading blade driving lever 40 and the second trailing blade. Each of the iron pieces 63 of the drive lever 60 is adsorbed.
[0035]
As shown in FIG. 4 (a), first, the set lever 70 will be described in relation to the operations of the leading blade driving lever 40, the first trailing blade driving lever 50, the second trailing blade driving lever 60, and the setting lever 70. Is in the release position rotated counterclockwise by the urging spring, the leading blade drive lever 40 is rotated clockwise by the urging force of the torsion spring and is in the return position shown in FIG. Further, the second trailing blade drive lever 60 is rotated clockwise by the urging force of the torsion spring and is in the return position shown in FIG.
At this time, the second engagement portion 52 of the first trailing blade drive lever 50 is pushed by the second engagement portion 62 of the second trailing blade drive lever 60. Therefore, the first trailing blade drive lever 50 is moved to the return position rotated clockwise together with the second trailing blade drive lever 60 against the biasing force biased to rotate counterclockwise by the torsion spring. Will be located.
[0036]
In this state, as shown in FIG. 5, the leading blade group 20 and the trailing blade group 30 are located in the open position where the leading blade group 20 overlaps, and are located in the closed position where the trailing blade group 30 is deployed. That is, this corresponds to the state before the shutter charge (energy storage) is set (or the state after the exposure operation).
[0037]
Subsequently, when the set lever 70 is rotated clockwise to reach the set position as shown in FIG. 4B, the first engagement portion 72 a is engaged with the engagement portion 41 of the leading blade drive lever 40. The second engagement portion 72 b engages with the first engagement portion 61 of the second trailing blade drive lever 60.
The leading blade driving lever 40 and the second trailing blade driving lever 60 are rotated counterclockwise while resisting the biasing force of the torsion spring. At this time, the first rear blade drive lever 50 has its second engagement portion 52 detached from the second engagement portion 62 of the second rear blade drive lever 60 and rotated slightly counterclockwise by the biasing force of the torsion spring. To do. At the same time, the first trailing blade drive lever 50 has its first engagement portion 51 engaged with the restriction portion 73 (arc-shaped portion 73a) of the set lever 70, and further rotation in the counterclockwise direction is restricted. Will be.
[0038]
In this state, as shown in FIG. 6, the leading blade group 20 and the trailing blade group 30 are located at the closed position where the leading blade group 20 has moved upward and deployed, and the trailing blade group 30 is moved downward. It will be held in the closed position that has moved and deployed. In other words, after the shutter charge is set, the leading blade group 20 and the trailing blade group 30 are in a double shielding state in which the openings 10a (11a, 12a) are closed.
[0039]
Subsequently, the release state releases the locked state of the set lever 70 at the set position, and the set lever 70 starts to return counterclockwise by rotating counterclockwise by the biasing force of the torsion spring. At this time, first, the leading blade electromagnet 80 and the trailing blade electromagnet 90 are energized, and the leading blade electromagnet 80 attracts the iron piece 43 of the leading blade drive lever 40, and the trailing blade electromagnet 90 The iron piece 63 of the second rear blade drive lever 60 is adsorbed.
[0040]
As a result, the first engaging portion 72a and the second engaging portion 72b of the set lever 70 are disengaged from the engaging portion 41 of the leading blade driving lever 40 and the first engaging portion 61 of the second trailing blade driving lever 60. Even so, the leading blade driving lever 40 and the second trailing blade driving lever 60 are held in the state of rotating counterclockwise as shown in FIG.
On the other hand, when the set lever 70 is further rotated counterclockwise and the restricting portion 73 (arc portion 73a) of the set lever 70 is disengaged from the first engaging portion 51 of the first rear blade drive lever 50, the first rear The blade driving lever 50 is rotated counterclockwise by the biasing force of the biasing spring, and the second engagement portion 52 of the blade driving lever 50 is the second engagement of the second rear blade driving lever 60 as shown in FIG. It stops when it comes into contact with the part 62.
[0041]
In this state, as shown in FIG. 7, the leading blade group 20 and the trailing blade group 30 are located at the closed position where the leading blade group 20 is moved upward and the trailing blade group 30 is moved upward. It will be located in the overlapping open position. That is, it corresponds to a state in which the shutter charge (energy storage) is set and immediately before the exposure operation.
[0042]
Next, the operation when the focal plane shutter according to the above embodiment is mounted on a camera will be described with reference to FIGS. 5 to 7 are shown as perspective views in which the dotted lines are represented by solid lines for convenience of explanation.
First, in a state where the shutter charge is not set (a state after the shutter blade groups 20 and 30 have traveled), as shown in FIGS. 4A and 5, the set lever 70 and the leading blade drive lever 40 are used. The first trailing blade drive lever 50 and the second trailing blade drive lever 60 are both in the release position or the return position. At this time, the leading blade group 20 overlaps and opens the opening 10a (11a, 12a). The rear blade group 30 is located at a closed position where it opens downward and closes the opening 10a (11a, 12a).
[0043]
At this time, as shown in FIG. 5, the rear blade through hole 10 d of the base plate 10 is shielded by the rear blade shielding portion 34 a formed in the fourth rear blade 34 of the rear blade group 30. That is, since the rear blade through-hole 10d is shielded by the rear blade shielding portion 34a, the entry of light from this region to the back side of the main plate 10 is prevented, and from the gap through the notch hole 10b. Light is prevented from entering due to reflection or the like. Thereby, light shielding with respect to the photographic film located in the back side rear side of the base plate 10 is reliably performed.
[0044]
Subsequently, when a control signal for setting the shutter charge is issued from the control unit provided in the camera, the drive motor or the like is activated, and the set lever 70 rotates clockwise from the release position toward the set position. start. Then, by the action of the set lever 70, as shown in FIG. 4B, the leading blade driving lever 40 is rotated counterclockwise, and the rotation of the first trailing blade driving lever 50 is regulated. The second trailing blade drive lever 60 is rotated counterclockwise, and the shutter charge is set.
At this time, as shown in FIG. 6, the leading blade group 20 is located at a closed position where the opening 10a (11a, 12a) is closed, and the trailing blade group 30 is also closed when the opening 10a (11a, 12a) is closed. Located in. That is, the leading blade group 20 and the trailing blade group 30 are driven so as to be in a double shielding state in which the opening 10a (11a, 12a) is closed when the shutter charge is set.
[0045]
  At this time, as shown in FIG. 6, the leading blade through-hole 10 c of the base plate 10 is the fourth leading blade of the leading blade group 20.Root 24, the rear blade through hole 10 d of the main plate 10 is shielded by the rear blade shielding portion 34 a formed in the fourth rear blade 34 of the rear blade group 30. Has been.
  That is, in the state where the shutter charge is set, the leading blade through hole 10c and the trailing blade through hole 10d are not opened but are shielded by the leading blade shielding portion 24a and the trailing blade shielding portion 34a. Therefore, the entry of light from this region to the back side of the main plate 10 is prevented, and light is prevented from entering from the gap through the notch hole 10b. Thereby, light shielding with respect to the photographic film located in the back side rear side of the base plate 10 is reliably performed.
[0046]
Further, the shielding of the leading blade through hole 10c and the shielding of the trailing blade through hole 10d is performed by the last leading blade constituting the leading blade group 20 (the movement amount is the smallest) fourth leading blade 24. And the trailing blade shielding portion 34a provided on the fourth trailing blade 34 that performs the last covering operation (the smallest amount of movement) among the trailing blades constituting the trailing blade group 30. Since each of them is performed, the leading blade group 20 and the trailing blade group 30 perform a closing operation quickly without deteriorating responsiveness during movement.
[0047]
Subsequently, when the release operation is performed, first, the leading blade electromagnet 80 and the trailing blade electromagnet 90 are energized, and the leading blade driving lever 40 and the second trailing blade driving lever 60 are held in their positions by suction. Is done. Then, as shown in FIG. 4 (c), the locked state at the set position is released, and the set lever 70 rotates counterclockwise by the biasing force of the torsion spring and returns to the released position. The portion 73 (arc portion 73a) is disengaged from the first engagement portion 51 of the first trailing blade drive lever 50, and only the first trailing blade drive lever 50 is rotated counterclockwise by the biasing force of the biasing spring. .
[0048]
  At this time, as shown in FIG. 7, the leading blade group 20 is located at a closed position where the opening 10a (11a, 12a) is closed, and the trailing blade group 30 is an open position where the opening 10a (11a, 12a) is opened. Located in. At this time, as shown in FIG. 7, the leading blade through-hole 10 c of the main plate 10 is the fourth leading blade of the leading blade group 20.Root 24 is shielded by a leading blade shielding portion 24 a formed on the surface 4.
  Thereafter, the energization of the leading blade electromagnet 80 is cut off, the leading blade group 20 travels toward the open position, and after a predetermined time (exposure time) has elapsed, the energization of the trailing blade electromagnet 90 is cut off. The rear blade group 30 travels toward the closed position, resulting in the state shown in FIG. As a result, the exposure operation ends and the subject is photographed.
[0049]
Immediately after the photographing, the rear blade through-hole 10d of the base plate 10 is shielded by the rear blade shielding portion 34a of the rear blade group 30, so that light can be prevented from entering from the region to the back side of the base plate 10. In addition, light is prevented from entering from the gap through the cutout hole 10b due to reflection or the like. Thereby, light shielding with respect to the photographic film located in the back side rear side of the base plate 10 is reliably performed.
[0050]
After that, the leading blade group 20 and the trailing blade group 30 are arranged in two openings 10a (11a, 12a) by following the sequence shown in FIGS. 4 (a) and 4 (b) by the control signal output from the control unit. A double shielded state is reached that is heavily closed, waiting in this state and preparing for the next shooting. In addition, when the camera is turned off and shooting is ended, this double shielding state is maintained, and in the camera operation sequence, this double shielding state is maintained. Is the longest.
By the way, in this state, as shown in FIG. 6, the leading blade through hole 10c and the trailing blade through hole 10d are not opened but are shielded by the leading blade shielding portion 24a and the trailing blade shielding portion 34a. Therefore, the entry of light from this region to the back side of the main plate 10 is prevented, and the light is prevented from entering due to reflection or the like from the gap through the notch hole 10b. Thereby, the light shielding with respect to the photography film located in the back side rear side of the baseplate 10 is performed efficiently and reliably.
[0051]
In the above embodiment, the case where the present invention is applied in a configuration in which double shielding is performed by the leading blade group 20 and the trailing blade group 30 when the shutter charge is set is shown, but shielding is performed only by the leading blade group 20. Of course, it is also possible to apply the present invention in such a configuration.
Moreover, in the said embodiment, the case where the front-blade shielding part 24a and the rear-blade shielding part 34a are each formed in the shape which shields the front-blade through-hole 10c and the rear-blade through-hole 10d completely is shown. However, even when the shape is formed so as to shield part of the leading blade through hole 10c and the trailing blade through hole 10d due to space restrictions, the scope of the present invention is included.
[0052]
【The invention's effect】
  As described above, according to the focal plane shutter of the present invention, the shutter blade group disposed on the back side of the substrate having the opening for allowing light to pass through and the drive lever disposed on the front side of the substrate are provided. By providing the shutter blade group with a shielding portion that performs a shielding operation with respect to the through hole in the region of the coupling portion to be coupled, it is possible to improve the light shielding property with respect to the photographic film on the back side of the substrate. In addition, since the shielding part is formed as a part of the shutter blade group instead of separately providing the shielding part, there is no increase in the number of parts, etc. It can be done.
  In particular, when the shutter charge is set, the shielding portion shields the through hole, so that the light can be efficiently shielded in the shooting standby state or the power-off state.
  In addition, by providing a shielding portion that shields the through hole in the leading blade and the trailing blade that perform the last covering operation of the leading blade group and the trailing blade group, the leading blade group and the trailing blade group can be quickly opened and closed. The light-shielding property can be improved while ensuring.
[Brief description of the drawings]
FIG. 1 is a plan view showing a substrate on which an opening constituting a part of a focal plane shutter according to the present invention is formed.
FIG. 2 is a plan view showing a leading blade group that constitutes a part of the shutter blade group;
FIG. 3 is a plan view showing a rear blade group constituting a part of the shutter blade group.
4A and 4B are plan views showing the operation of a drive lever and the like for driving the leading blade group and the trailing blade group, wherein FIG. 4A is a plan view showing a state before the shutter charge is set, and FIG. FIG. 8C is a plan view showing a state immediately after the release operation is performed. FIG.
FIG. 5 is a plan view showing a state of a leading blade group and a trailing blade group before a shutter charge is set.
FIG. 6 is a plan view showing a state (double shielded state) of the leading blade group and the trailing blade group when the charge of the shutter is set.
FIG. 7 is a plan view showing a state of the leading blade group and the trailing blade group immediately after the shutter release operation is performed.
FIG. 8 is a perspective view showing a conventional focal plane shutter.
FIG. 9 is a plan view showing a relationship between a through hole of a substrate and a shutter blade group in a conventional focal plane shutter.
[Explanation of symbols]
10 Ground plane (substrate)
10a opening, 10b notch hole,
10c Lead blade through hole (through hole), 10d Rear blade through hole (through hole)
11 Intermediate plate
11a opening
12 Cover plate
12a opening, 12c leading blade through hole, 12d trailing blade through hole
20 Leading blade group (shutter blade group)
21 First leading blade
22 Second leading blade
23 third leading blade
24 4th leading blade (final blade that performs the last covering operation)
24a Lead blade shielding part (shielding part)
25 Link member
25b Connecting hole
26 Link member
30 Rear blade group (shutter blade group)
31 First trailing blade
32 Second trailing blade
33 3rd rear blade
34 4th trailing blade (the trailing blade that performs the last covering operation)
34a Rear blade shielding part (shielding part)
35 Link member
35b Connecting hole
36 Link members
40 Leading blade drive lever
42 Connecting pin (connecting part)
50 First trailing blade drive lever
53 Connecting pin (connecting part)
60 Second trailing blade drive lever
70 Set lever
80 Electromagnet for leading blade
90 Electromagnet for rear blade

Claims (5)

A shutter blade group disposed on the back side of the substrate so as to be movable between a substrate having an opening for allowing light to pass through, a closed position covering the opening, and an open position opening the opening; and a shutter blade group Formed on the substrate to allow movement of a drive lever arranged on the front side of the substrate to drive the reciprocating motion, and a connecting portion connecting a part of the drive lever and a part of the shutter blade group. A focal plane shutter having a through hole,
The shutter blade group has a shielding part that can shield the through-hole,
A focal plane shutter characterized by that. The shielding portion is formed so as to shield the through hole in a state where the shutter charge is set.
The focal plane shutter according to claim 1. The shutter blade group includes a front blade group and a rear blade group, and the drive lever includes a front blade drive lever that drives the front blade group and a rear blade drive lever that drives the rear blade group,
The through hole includes a front blade through hole that allows movement of a connecting portion that connects a part of the leading blade drive lever and a part of the leading blade group, a part of the trailing blade drive lever, and the rear It consists of a through-hole for the rear blade that allows movement of the connecting portion that connects a part of the blade group,
The shielding part is formed in a part of the leading blade group to shield the leading blade through hole, and the shielding part is formed in a part of the trailing blade group to cover the trailing blade through hole. It consists of a rear blade shield that can be shielded,
The focal plane shutter according to claim 1 or 2, The leading blade shielding part is formed on a leading blade that performs a covering operation at the end among the leading blades constituting the leading blade group,
The rear blade shielding portion is formed on the rear blade that performs the covering operation at the end among the rear blades constituting the rear blade group.
The focal plane shutter according to claim 3. The leading blade group and the trailing blade group are driven so as to be in a double shielding state in which the opening is closed together in a state where the charge of the shutter is set.
The focal plane shutter according to claim 3 or 4,

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