JP4249312B2 - Focal plane shutter for camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a focal plane for a camera in which a front blade group and a rear blade group are sequentially operated in the same direction at the time of photographing, and exposure is performed by slits formed by slit forming blades of the two blade groups. It relates to a shutter.
[0002]
[Prior art]
Recent cameras are rapidly becoming smaller due to the appearance of APS film. Therefore, there is a demand for further miniaturization of the built-in focal plane shutter. However, considerable efforts have been made so far, and it is not easy to meet the demand. In this case, it is a fact that a great effort is made to shorten the dimension of about 1 to 2 mm.
[0003]
By the way, when the focal plane shutter is downsized, the problem is how to reduce the area occupied around the exposure aperture. However, basically, the space in the vertical position of the exposure opening is limited by the vertical dimension of the plurality of blades constituting the blade group. Further, one side position of the exposure aperture must not affect the operation of the tip of each blade, and light leakage occurs when a plurality of blades are deployed and cover the exposure aperture. The conventional space is necessary because it must be avoided. For this reason, it is conceivable to reduce the remaining space at the other side position. To that end, however, it is necessary to make the shutter drive mechanism disposed in the space compact, and to provide a conventional shutter blade support structure. It is necessary to devise ingenuity. A shutter blade support structure devised in this way is known from Japanese Utility Model Publication No. 57-57367.
[0004]
Therefore, points that are difficult to understand from the above publication will be described with reference to FIGS. 5 and 6 show the conventional configuration so that it can be easily compared with the embodiments of the present invention to be described later. The members and parts corresponding to the embodiments are as much as possible. The same shape as that of the embodiment is given. Further, FIG. 5 and FIG. 6 show only the configuration of the leading blade group, FIG. 5 shows the state immediately before the start of the exposure operation of the leading blade group, and FIG. 6 shows the state during the exposure operation. It is shown.
[0005]
The shutter base plate 1 indicated by the alternate long and short dash line has an opening 1a at a substantially central portion, and the opening 1a regulates the exposure opening of the shutter. The four blades 9, 10, 11, 12 of the leading blade group are sequentially attached to the two arms 6, 7 pivotally attached to the shutter base plate 1, and are in an unfolded state in FIG. The opening 1a is completely covered. However, for example, when configured as in the device described in the above publication, it is very difficult to shorten the length of the arm itself as long as the number of blades is the same. Then, reducing the space on the left side of the opening 1a in the left-right direction means that the position of the opening 1a indicated by the one-dot chain line moves to the left as indicated by the two-dot chain line, for example. This is the same as moving the right end of 1 to the position of the two-dot chain line.
[0006]
As a result, there is no problem because the tip portions (right end portions) of the blades 9, 10, 11, and 12 may be shortened. However, on the other hand, the area on the left side of the opening 1a cannot be sufficiently covered. In FIG. 5 and FIG. 6, a region that should be completely covered by nature is indicated by a plurality of parallel oblique lines. And in order to make up for this point, it is necessary to extend the blades 9, 10, 11, and 12 to the left side. The length in the left direction from the position where it is attached to has to be lengthened. This is not specified in the detailed description column of the device of the above publication, but can be understood from the drawings. The connection relationship between the leading blade group and the leading blade drive member 28 shown in FIGS. 5 and 6 has a structure that is not very apparent, but the details will be understood in the description of the embodiments described later. can do. Further, since the connecting plate 8 ′ interposed in the connecting structure has a shape different from that of the embodiment, the reference numeral 8 of the embodiment is indicated by “′”.
[0007]
When considering a reduction in the size of the shutter from this point of view, as described in the above publication, in addition to the conventional two arms pivotally attached to the main plate, an auxiliary arm (in the above publication, the blade support is used). Member), one end of the auxiliary arm is connected to one of the two arms, and the other end is connected to one of the covered blades (the blades other than the slit forming blades). It is preferable that a part of the slit forming blade is sandwiched between the covering blades. In that case, as shown in the drawing of the above publication, the covering blade need not be a blade adjacent to the slit forming blade, and other covering blades can be used. It is also possible to do. Further, the arrangement position of the auxiliary arm may be changed and attached to at least one of the two arms on the slit forming blade side.
[0008]
[Problems to be solved by the invention]
By the way, when the blade group is configured in such a manner, the portion of the slit forming blade sandwiched between the covering blade and the auxiliary arm changes during the exposure operation. Therefore, a predetermined interval required for the slit forming blade to operate stably must be set between the covering blade and the auxiliary arm. However, it is disadvantageous in terms of cost to provide special parts such as washers in order to keep the distance appropriate. In addition, the attachment of the covering blade and the auxiliary arm may theoretically be connected to each other so that they can be rotated with each other. preferable. Furthermore, as shown in the examples described later, when the cover blade and the auxiliary arm are provided with a relatively long overhanging portion and are configured to be attached to each other at their tip portions, even during operation, It is required that the parallelism of these overhanging portions is maintained appropriately.
[0009]
The present invention has been made in order to solve such problems, and the object of the present invention is to provide a single blade support structure as in the device described in the above publication. It is possible to reduce the left and right dimensions of the entire shutter only by adding an auxiliary arm, and a single covered blade arranged so as to sandwich the slit forming blade, and the auxiliary arm described above and to provide a camera focal plane shutter as you fixed at predetermined intervals is obtained properly and economically advantageous means therebetween.
[0010]
[Means for Solving the Problems]
To achieve the above object, the focal plane shutter for a camera according to the present invention has two arms in which at least one of the front blade group and the rear blade group is pivotally attached to the base plate at one side position of the exposure opening. When a plurality of blades mounted in this order in the longitudinal direction of their arms have at least one covered blade slit-forming blade and the slit forming blade cutting edge side, in configuration However, one of the plurality of blades is attached to one of the two arms through at least an auxiliary arm pivotally supported by the arm . for, in both the single object have wings and said auxiliary arm, from a position where the auxiliary arm is pivotally supported on at least one of the two arms, and a direction of the lateral position slit Forming feathers In the direction of the slit forming edge, forming a projecting portion that is stretched into a substantially obliquely Overall, their overhanging portions, where beyond the slit forming edge, the projecting portion formed on their least one contact, so that are integrally fixed by a connecting shaft contact portion of it.
Further, in the focal plane shutter for a camera according to the present invention, the protruding portion is formed so as to protrude in the same direction at the same inclination angle on both the one covered blade and the auxiliary arm, If the protruding portion in the protruding direction is configured so that the protruding amount is smaller than that of the other protruding portion, it is effective in manufacturing .
Further, in the camera focal plane shutter of the present invention, the one of the have vanes, a vane adjacent to the slit forming blade, said auxiliary arm, at least one of the slit forming blades of the two arms If it is arranged between the two, the shutter can be easily manufactured.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
The embodiment of the present invention will be described with reference to the examples shown in FIGS. Among these drawings, FIGS. 1 to 3 are plan views viewed from the object side in a state where they are incorporated in a camera, and FIG. 1 shows a state immediately before starting an exposure operation. 2 shows a state in the middle of the exposure operation, and FIG. 3 shows a state immediately after the exposure operation is finished. FIG. 4 is a cross-sectional view of the main part of FIG. In each drawing, since it is necessary to make the drawing easy to see, portions that can be understood with reference to other drawings are omitted.
[0012]
First, the configuration of this embodiment will be described. In the shutter base plate 1, an opening 1a having a rectangular shape is formed in a substantially central portion, and two arc-shaped long holes 1b and 1c are formed on the left side of the opening 1a. In addition, well-known buffer members are attached to the upper end surfaces of the long holes 1b and 1c, respectively, but are omitted because the drawings are difficult to see. Further, shafts 1d and 1e are erected on the subject side, that is, the front surface side of the shutter base plate 1, and shafts 1f, 1g, 1h, 1i, 1j, 1k, 1m, 1n, 1p, 1q and 1r are erected.
[0013]
An intermediate plate 2 is attached to the shafts 1f, 1g, and 1h on the back side of the shutter base plate 1, and constitutes a blade chamber of a leading blade group to be described later with the shutter base plate 1. The intermediate plate 2 is also formed with an opening 2a having a shape similar to that of the opening 1a at a substantially central portion. However, the two long sides are formed in a mountain shape, and a steep cut 2b is formed at the peak position of the mountain shape on the upper side. In addition, since the shape of such an intermediate | middle board 2 is known, description is abbreviate | omitted about the reason which has such a shape.
[0014]
On the back side of the intermediate plate 2, an auxiliary base plate 3 is attached to the shafts 1 i, 1 j, 1 k, and 1 m of the shutter base plate 1, and constitutes a blade chamber of a rear blade group to be described later with the intermediate plate 2. is doing. The auxiliary base plate 3 is also formed with an opening 3a having substantially the same shape as the opening 1a of the shutter base plate 1 at a substantially central portion thereof. Further, the opening 3a is arranged so as to overlap the two openings 1a and 2a described above, thereby restricting the optical path area of the photographing light, that is, the exposure opening. In this embodiment, Since the exposure opening is configured to be restricted only by the opening 1a, the opening 1a will be described as being the same as the exposure opening in the operation description to be described later.
[0015]
In addition to the above-described intermediate plate 2, a leading blade pressing plate 4 and a trailing blade pressing plate 5 are attached to the shafts 1 g and 1 h of the shutter base plate 1. In principle, these holding plates 4 and 5 are arranged at the position in the right direction of the opening 1a in FIG. 1, that is, in the operating region of the tips of a plurality of blades to be described later. The leading blade pressing plate 4 is disposed between the shutter base plate 1 and the intermediate plate 2, and the trailing blade pressing plate 5 is disposed between the intermediate plate 2 and the auxiliary base plate 3. The planar shapes of these holding plates 4 and 5 may be the same, but in this embodiment, the shape at the upper position of the opening 1a is different, and as shown in FIG. The blade pressing plate 4 is formed so as to overlap the notch 2 b of the intermediate plate 2 and the edge on the opening 1 a side substantially coincides with the edge of the intermediate plate 2.
[0016]
2 removes the intermediate plate 2, the auxiliary base plate 3, the front blade press plate 4 and the rear blade press plate 5 shown in FIG. 1, and shows the shutter base plate 1 and two driving members to be described later by alternate long and short dash lines. Is. Therefore, it is easier to understand the configuration of the leading blade group and the configuration of the trailing blade group with reference to FIG. 2 than FIG.
[0017]
First, the configuration of the leading blade group will be described. Arms 6 and 7 are pivotally attached to the shafts 1 n and 1 p of the shutter base plate 1. In addition, a shaft 6a is erected in the vicinity of the pivotally attached portion of the arm 6 toward the shutter base plate 1 side, and a connecting plate 8 is pivotally attached thereto. Further, as can be understood from the following description, the free end portion of the connecting plate 8 always overlaps a part of the other arm 7 even during operation.
[0018]
In addition, four blades 9, 10, 11, and 12 are attached to the two arms 6 and 7 in order from the pivotally attached portion toward the tip portion. In the overlapping relationship of these blades, the blade 9 is on the most intermediate plate 2 side, and the blade 12 is on the most shutter base plate 1 side, that is, the arms 6 and 7 side. Further, the blade 12 attached to the most distal end side of the arms 6 and 7 is a slit forming blade, the lower edge thereof is a slit forming edge, and the other blades are distinguished from the slit forming blade 12. In order to do this, it is a blade generally referred to as a covered blade. And the front-end | tip part of all those blade | wings 9,10,11,12, ie, the edge part of the right direction in each figure, operate | moves between the intermediate | middle board 2 and the presser plate 4 for front blades. . In FIG. 3, only the slit forming blade 12 is shown, and the other blades 9, 10, and 11 are not shown.
[0019]
Further, the four blades 9, 10, 11, and 12 are attached to the arms 6 and 7 in the same manner as in the case of the three blades 9, 10, and 12, but in the case of the blade 11, the blades are unique. How to install. That is, in the case of the blades 9, 10, and 12, as is well known, two connecting shafts that are rivet parts are placed in the holes formed in the arms 6, 7 and the blades 9, 10, 12. The insertion end is fixed to the blades 9, 10, and 12 by caulking. However, it can rotate between each connecting shaft and the arms 6 and 7. Of course, it is not necessary to fix the tip of the connecting shaft to the blades 9, 10, 12 as long as the connecting shaft is prevented from coming off.
[0020]
On the other hand, in order to attach the blade 11, the auxiliary arm 13 is specially disposed between the arms 6 and 7 and the slit forming blade 12, and has an overhanging portion extending substantially obliquely at the lower left. is doing. Further, the three connecting shafts used for attaching the blades 11 are particularly denoted by reference numerals 14, 15 and 16 in order to explain the attachment structure of the auxiliary arm 13. Accordingly, the mounting configuration will be described in detail below with reference to FIG.
[0021]
First, protrusions 11a and 11b having a predetermined inclination angle are formed on the blade 11 in advance. And the protrusion area | region of those protrusion parts 11a and 11b is carrying out the circular shape of course. Therefore, the connecting shaft 14 is inserted into the hole formed in the arm 6, the auxiliary arm 13 and the blade 11 from the arm 6 side, and the insertion end thereof is fixed to the protruding portion 11 a of the blade 11 by caulking. However, the connection shaft 14 can be individually rotated between the arm 6 and the auxiliary arm 13. Further, the auxiliary arm 13 is previously formed with projecting portions 13a and 13b having a predetermined inclination angle. Therefore, the connecting shaft 15 is inserted into the holes formed in the arm 7 and the auxiliary arm 13 from the arm 7 side, and the insertion end thereof is fixed to the auxiliary arm 13 by caulking. However, the connection shaft 15 and the arm 7 are rotatable.
[0022]
Further, the blade 11 is different from the normal shape, and has a projecting portion that extends substantially obliquely to the lower left in FIG. 1 in the same manner as the projecting portion of the auxiliary arm 13. And these two overhang | projection parts have the slit formation blade | wing 12 pinched | interposed, and those front-end | tip parts are attached by the connection axis | shaft 16 in the place beyond the slit formation edge of the slit formation blade | wing 12. FIG. As shown in FIG. 4, the connecting shaft 16 is inserted from the auxiliary arm 13 side into the holes formed in the protrusions 13b and 11b of the blade 11 and the insertion end thereof is connected. The auxiliary arm 13 and the blade 11 are also integrally fixed by being fixed to the protruding portion 11b by caulking.
[0023]
In the case of the present embodiment, the inclination angle of the protrusion 13b and the inclination angle of the protrusion 11b are the same, and the interval between the overhanging portion of the covering blade 11 and the overhanging portion of the auxiliary arm 13 is covered. It is determined by making the protruding amount of the protruding portion 13 b of the auxiliary arm 13 smaller than the protruding amount of the protruding portion 11 b of the blade 11. Therefore, the diameter of the edge of the protruding hole of the protruding portion 13b is formed to be smaller than the diameter of the edge of the protruding hole of the protruding portion 11b. As described above, when the inclination angle is the same, the hole positions of the covering blade 11 and the auxiliary arm 13 can be easily aligned in performing the caulking process, and the workability is improved. Moreover, the contact area of the protrusions 11b and 13b is increased, and the reliability of fixing by caulking is improved. Further, since the distance between the overhanging portion of the covering blade 11 and the overhanging portion of the auxiliary arm 13 is determined by the difference in the protruding amount between the two protruding portions 11b and 13b, a special member is required. In addition to this, coupled with the large contact area described above, the flatness and distance between the two overhang portions are properly maintained despite the fact that the overhang is long.
[0024]
As described above, in this embodiment, the position of the exposure opening, that is, the position of the opening 1a is moved in the direction of the pivotally attached portion of the arms 6 and 7 as compared with the prior art, thereby reducing the size of the entire shutter in the left-right direction. Yes. However, since the lengths of the arms 6 and 7 cannot be shortened, in the case of the slit forming blade 12 which is the most important for exposure and has the largest operation amount, the mounting position with respect to the arms 6 and 7 Although the length from the tip to the tip is shortened, the area in the direction of the pivotal attachment of the arms 6 and 7 must be made longer than before. According to the present embodiment, such a slit-forming blade 12 is configured so that a region formed longer than the conventional one is sandwiched between the protruding portion of the auxiliary arm 13 and the protruding portion of the covering blade 11. As can be seen from the description of the operation described later, this configuration is maintained in any state.
[0025]
Next, the configuration of the rear blade group will be described. As can be seen from FIG. 2, the configuration of the rear blade group is the reverse of the configuration of the front blade group described above. It will be described more simply than the group configuration. Therefore, the items that are not described here are the same as those described above for the front blade group. In FIG. 1, in order to make the drawing easier to see, the shapes of the four blades of the rear blade group are partially omitted.
[0026]
Arms 17 and 18 are pivotally attached to the shafts 1q and 1r of the shutter base plate 1, respectively. A shaft 17a is erected in the vicinity of the pivotally attached portion of the arm 17 toward the auxiliary base plate 3 side, and a connecting plate 19 is pivotally attached thereto. The free end portion of the connecting plate 19 always overlaps with a part of the other arm 18 during operation due to the configuration described later.
[0027]
In addition, four blades 20, 21, 22, and 23 are attached to these two arms 17 and 18 in order from the pivotally attached portion to the tip portion, and the overlapping relationship of these blades. The blade 20 is on the most intermediate plate 2 side, and the blade 23 is on the most auxiliary ground plate 3 side, that is, on the arms 17 and 18 side. Further, the blade 23 attached to the tip of the arms 17 and 18 is a slit forming blade, and the upper end edge thereof is a slit forming edge. Therefore, the other blades are covered blades. And the front-end | tip part of all those blade | wings 20, 21, 22, 23 act | operates between the intermediate | middle board 2 and the press plate 5 for rear blades.
[0028]
Further, the attachment of the blades 20, 21, 23 to the arms 17, 18 is the same as that of the blades 9, 10, 12 of the leading blade group, and the two connecting shafts are connected to the arms 17, 18 and the blades 20, In the case of the present embodiment, the insertion ends are fixed to the blades 20, 21, 23 by caulking. However, it can rotate between each connecting shaft and the arms 17 and 18.
[0029]
On the other hand, the attachment method of the blade 22 is different, and an auxiliary arm 24 disposed between the arms 17 and 18 and the slit forming blade 23 is interposed. And three connecting shafts are used for the attachment of the blade | wing 22, and the code | symbols 25, 26, and 27 are attached | subjected especially to them. First, the connecting shaft 25 is inserted into the holes formed in the arm 17, the auxiliary arm 24 and the blade 22 from the arm 17 side and fixed to the blade 22, but the connecting shaft 25, the arm 17 and the auxiliary arm 24 are fixed. It is possible to rotate individually between and. The connecting shaft 26 is inserted into the holes formed in the arm 18 and the auxiliary arm 24 from the side of the arm 18 and fixed to the arm 18, but the connecting shaft 26 and the arm 18 can be rotated. ing.
[0030]
Further, the blade 22 is formed with an overhanging portion extending substantially obliquely to the upper left in the same manner as the auxiliary arm 24, and the tip position of the overhanging portion is the position of the overhanging portion of the auxiliary arm 24. A connecting shaft 27 is attached to the tip position. In addition, the connecting shaft 27 is inserted from the auxiliary arm 24 side into a hole of a protrusion (not shown) formed in the auxiliary arm 24 and the blade 22 and fixed to the blade 22. In this case, the auxiliary arm 24 and the blade 22 are also fixed. Thus, also in the case of the rear blade group, the slit forming blade 23 is configured to be sandwiched between the auxiliary arm 24 and the blade 22 on the side of the pivotally attached portion with respect to the arm 17, 18. ing.
[0031]
Next, a driving mechanism for operating the leading blade group and the trailing blade group will be described. FIG. 1 to FIG. 3 show the driving for the leading blade necessary for the description of the present embodiment among such driving mechanisms. Only the member 28 and the trailing blade drive member 29 are shown. These drive members 28 and 29 are shown in order to make it possible to understand the positional relationship and the connection relationship with each of the blade groups described above. For this reason, the shape and configuration of parts not particularly relevant to them are omitted. Moreover, although the drive mechanism is configured, a known configuration is applied to other members and parts not shown.
[0032]
As shown in FIG. 1, the leading blade drive member 28 and the trailing blade drive member 29 in the present embodiment are rotatably attached to the shaft 1d and the shaft 1e of the shutter base plate 1 described above. Each drive pin 28a, 29a passes through the arc-shaped elongated holes 1b, 1c formed in the shutter base plate 1 and is fitted in the holes formed in the connection plates 8, 19. Therefore, when the drive members 28 and 29 are rotated by the shafts 1d and 1e, the arms 6 and 17 are rotated in the same rotational direction as the drive members 28 and 29 via the connecting plates 8 and 19. It has become. During the exposure operation, the drive members 28 and 29 are rotated counterclockwise by the biasing force of each drive spring (not shown).
[0033]
By the way, in this embodiment, the arrangement positions of the drive members 28 and 29 are different from the normal arrangement positions. That is, in the normal case, the shafts 1d and 1e that serve as the rotational axes of the drive members 28 and 29 are disposed on the same axis as the shafts 1n and 1q that serve as the rotational shafts of the arms 6 and 17, respectively. Therefore, the drive pins 28a and 29a are fitted into holes formed in the arms 6 and 17, and the connecting plates 8 and 19 as in this embodiment are not provided.
[0034]
As is well known, in the region where the drive members 28 and 29 are attached to the shutter base plate 1, many members (not shown) such as a set member and an electromagnet are attached. Are arranged in relation to each other in operation. For this reason, the shape and size of each drive member may be restricted due to the overall configuration of the shutter, and the interval between the rotation shafts must be reduced. Further, such a requirement may arise not only from the design problem of the shutter unit but also from the design of the entire camera.
[0035]
However, even when meeting such a requirement, the distance between the shafts 1n and 1q cannot be reduced. Since this interval is set in advance at a position where it can be miniaturized as much as possible, if the interval is reduced, the arms 6 and 7 and the arms 17 and 18 interfere with each other during operation. It is. Therefore, there is a case where it is unavoidable to configure as in the embodiment. For this reason, in the case of the present embodiment, the configuration is as shown in the figure, but the present invention is not restricted to such a configuration and can be applied to the conventional configuration. Needless to say.
[0036]
Next, the operation of this embodiment will be described. FIG. 1 shows a state immediately before the start of the exposure operation, that is, a state in which the leading blade drive member 28 and the trailing blade drive member 29 are at the exposure operation start position. Therefore, the blades 9, 10, 11, and 12 of the leading blade group are in the unfolded state and cover the opening 1a, and the blades 20, 21, 22, and 23 of the trailing blade group are in the overlapping state and the opening 1a. Is stored in the lower position. In order to maintain the drive members 28 and 29 in this state against the urging force of the respective drive springs, several types of configurations are known. In the present embodiment, such a configuration is not illustrated, but the present invention can be applied to all such configurations. Also, it is called a double light-shielding shutter. In the set state, the opening 1a is covered by both the leading blade group and the trailing blade group, and the trailing blade group is just before the start of the exposure operation. The present invention can also be applied to the configuration shown in FIG.
[0037]
After the release button of the camera is pushed, from the state shown in FIG. 1, first, the leading blade drive member 28 starts to rotate counterclockwise by the biasing force of the leading blade drive spring (not shown), for a predetermined time. Later, the trailing blade drive member 29 starts to rotate counterclockwise by the biasing force of a trailing blade drive spring (not shown). At that time, the drive pin 28 a of the leading blade driving member 28 rotates the arm 6 counterclockwise via the connecting plate 8, and the driving pin 29 a of the trailing blade drive member 29 is connected via the connecting plate 19. Thus, the arm 17 is rotated counterclockwise.
[0038]
Therefore, the four blades 9, 10, 11, 12 of the leading blade group operate upward while increasing the mutual overlap, and the slit forming blade 12 opens the opening 1 a. On the other hand, the four blades 20, 21, 22, 23 of the rear blade root system is operated upward while reducing overlap each other, the slit forming blade 23, so as to go after the slit forming blade 12 Then, the opening 1a is closed. Then, the photosensitive surface is exposed by the slit formed by the two slit forming blades 12 and 23, and such a state during the operation is shown in FIG. As can be seen from FIG. 2, the free ends of the connecting plates 8 and 19 maintain the overlapping relationship with the arms 7 and 18 even in this state.
[0039]
By the way, during such an operation, not only a force that operates upward but also a force in a complicated direction that causes the thin blade to bend acts on each blade. Usually, the unintentional movement performed by the blade group due to such a complex force is called a blow-off phenomenon, but the slit forming blades 12 and 23 are the most important blades, but the influence is the most. It is easy to receive. The reason is that the amount of operation is the largest compared to other covered blades and the area where both surfaces are in contact with other members is small. Therefore, in the present embodiment, as conventionally performed, the blade pressing plates 4 and 5 are arranged over the entire operation region of the tip portion of each blade to suppress the deflection of the blade. .
[0040]
Further, in the case of this embodiment, special means are taken only for the slit forming blades 12 and 23. That is, in this embodiment, as described with reference to FIGS. 5 and 6, in order to reduce the size of the shutter, the slit forming blades 12 and 23 are moved from the positions attached to the two arms, respectively. The area in the direction of the pivotally attached portion of the arm has to be made longer than before. Therefore, those regions are much easier to bend than in the past. However, in this embodiment, since a part of the area is always sandwiched between the auxiliary arms 13 and 24 and the covering blades 11 and 22 during operation, the bending is suppressed.
[0041]
In this way, the leading blade group and the trailing blade group continue the exposure operation, but thereafter, the four blades 9, 10, 11, and 12 of the leading blade group are superposed and above the opening 1a. At the stage of being stored in the position, the leading blade driving member 28 stops when its driving pin 28a comes into contact with a buffer member (not shown) attached to the upper end surface of the long hole 1b. Immediately thereafter, when the four blades 20, 21, 22, 23 of the rear blade group are in the deployed state and completely cover the opening 1 a, the rear blade drive member 29 is also driven by the drive pin 29 a. However, it stops by coming into contact with a buffer member (not shown) attached to the upper end surface of the long hole 1c. The state immediately after the stop is shown in FIG. However, for the blades of the leading blade group, only the slit forming blades 12 are shown in order to make the drawing easy to see.
[0042]
By the way, when the exposure operation is completed in this way, as is well known, the leading blade group and the trailing blade group are subjected to a very large impact, causing a severe blow-off phenomenon. At that time, in the case of the four blades 9, 10, 11, 12 of the leading blade group, since they are in a superimposed state, the movement in the bending direction is relatively suppressed. Therefore, if anything, it is more important to be able to prevent the slit forming blade 12 from temporarily entering the opening 1a due to the bounce when stopped.
[0043]
However, the rear blade group is more troublesome than the front blade group. That is, when the rear blade group is stopped, the four blades 20, 21, 22, and 23 are in the unfolded state, the amount of mutual overlap is reduced, and most of the planar area is within the opening 1 a. It is because it is in the state which is very easy to bend. For this reason, it is necessary to prevent the slit forming blade 23 from temporarily opening a part of the opening 1a due to the bounce at the time of stoppage, as well as light leakage from the overlapping portion of each blade due to a severe blow-off phenomenon. It is necessary to prevent this from occurring, or to prevent the attachment portion of each blade from being destroyed. Therefore, conventionally, as a countermeasure against such a situation, braking means and buffer means having various configurations have been provided for the arms and blades constituting the blade group.
[0044]
However, as already described, the slit forming blade 23 of the present embodiment is formed so that the region in the direction of the pivotally attached portion of the arms 17 and 18 is longer than the conventional slit forming blade from the attachment portion to the arms 17 and 18. Therefore, the force in the bending direction due to the impact at the time of stopping greatly acts on the region. However, it is extremely difficult to provide the intermediate plate 2 and the auxiliary base plate 3 with direct braking means and buffer means for the region. However, according to the present embodiment, even during such a stop, a part of the above-described region is sandwiched between the overhanging portions of the auxiliary arm 24 and the blade 22, so that it is difficult to bend. Therefore, since the size of the entire shutter in the left-right direction is reduced, there is no case where the influence of the exposure phenomenon is greater than the conventional one.
[0045]
Next, the setting operation of this embodiment will be described. In the state shown in FIG. 3, when the film is wound up, a set member (not shown) is operated in conjunction with this, and the leading blade driving member 28 and the trailing blade driving member 29 are moved at a predetermined timing. Rotate in the direction. That is, the set member first rotates only the leading blade driving member 28 in the clockwise direction against the biasing force of the leading blade driving spring (not shown). Thereby, since the drive pin 28a rotates the arm 6 clockwise via the connecting plate 8, the four blades 9, 10, 11, and 12 of the leading blade group reduce the mutual overlap amount, With the slit forming blade 12 at the head, it operates downward.
[0046]
Then, when the amount of overlap between the slit forming blades 12 of the leading blade group and the slit forming blades 23 of the trailing blade group reaches a predetermined amount, the set member includes a rear blade driving member 29 that is not shown in the drawing. Rotate clockwise against the biasing force of the blade drive spring. As a result, the drive pin 29a rotates the arm 17 clockwise via the connecting plate 19, so that the four blades 20, 21, 22, and 23 covering the opening 1a have a mutual overlap amount. It moves downward while increasing. Therefore, thereafter, the blades of the leading blade group and the blades of the rear blade group operate downward together while maintaining a predetermined amount of overlap between the slit forming blades. Then, after that, the blades 9, 10, 11, 12 of the leading blade group are expanded to cover the opening 1a, and the blades 20, 21, 22, 23 of the trailing blade group are overlapped to form the opening 1a. If it will be in the state stored in the lower position, the set operation by a set member will be completed.
[0047]
After that, each drive member 28, 29 is maintained in the set state until the release button of the camera is pressed at the time of the next shooting. The well-known maintenance method is a locking type. Direct type. Among these, the locking type is adopted even if the timing of the exposure operation is electrically controlled as in recent years, but the tendency is decreasing. When the locking type is adopted, the drive members 28 and 29 are locked by the locking members at the set position, and the exposure operation is performed by releasing the locking after the release. To start. Therefore, in this type, each drive member 28, 29 has the same set position and exposure operation start position.
[0048]
Another direct type is a unique configuration that has been born since the start of the exposure operation of the drive members 28 and 29 has recently been electrically controlled. When this type is adopted, the set positions of the drive members 28 and 29 are maintained by the set members that remain in the set position even after the set operation. Immediately after the release of the camera, the drive members 28 and 29 are held by their respective electromagnets, and then the set member is returned to the pre-set position, and the exposure operation is started by sequentially releasing the holding force of the electromagnets. It is like that. Therefore, since it is well known, detailed description of the configuration is omitted, but in this type, each drive member 28, 29 is slightly different in the set position and the exposure operation start position.
[0049]
Furthermore, there is a shutter called a double light-shielding system as a modified version of the above, regardless of the difference between the above two types. The present invention can also be applied to such a shutter. However, in this type of shutter, the exposure opening is covered by both the front blade group and the rear blade group when the shutter is set. Immediately after the release, the rear blade group is moved to the exposure operation start position. However, no matter what type of shutter drive mechanism is used, the drive members 28 and 29 must be positioned at the exposure operation start position immediately before the start of the exposure operation. Therefore, in any case, in the case of the present embodiment, the drive members 28 and 29 are in the state shown in FIG. 1 immediately before the start of the exposure operation.
[0050]
In this way, although a series of operations are performed, as can be seen from the above description, in this embodiment, the connection plates 8 and 19 attached to the arms 6 and 17 are the exposure operations shown in FIG. 2, in the middle of the exposure operation shown in FIG. 2, and in the state immediately after the end of the exposure operation shown in FIG. 18 is always overlapped. This is to prevent the connecting plates 8 and 19 and the arms 7 and 18 from colliding during operation.
[0051]
As already described, the arms 6, 7, 17, and 18 are pivotally attached to the shafts 1n, 1p, 1q, and 1r, and therefore move slightly in the axial direction of each of the shafts due to tolerances. It can be obtained and can be inclined with respect to the axis of each axis. Further, since the arms 6, 7, 17, and 18 are formed in an elongated shape with a relatively thin material, the arms themselves are easily bent. Further, as described above, when each blade group operates, not only a simple force in the vertical direction of the drawing acts on each blade group, but also a complex force such as a vertical direction acts on each blade group. ing. Therefore, the arms 6, 7, 17, and 18 are more or less bent or twisted by such a complex force.
[0052]
Because of this situation, if the length of the connecting plates 8 and 19 is up to the fitting portions with the drive pins 28a and 29a, for example, the shape of the connecting plate 8 is shown in FIG. When the connecting plate 8 ′ shown in FIG. 2 is used, a situation occurs in which the arm 7 collides with the connecting plate 8 ′ in the process from the state shown in FIG. 2 to the state shown in FIG. . However, the connecting plates 8 and 19 of the present embodiment are formed such that their free ends extend from the fitting portions with the drive pins 28a and 29a, and the free ends are always the arms 7. , 18 so that the above collision does not occur during operation.
[0053]
In the present embodiment, the connecting plates 8 and 19 are pivotally attached to the surfaces of the arms 6 and 17 where no blades are attached. The reason is still not related to the downsizing of the shutter. This can be understood, for example, by looking at the relationship between the connecting plate 8 and the blade 9 in FIG. That is, in the case of the present embodiment, if the connecting plate 8 is pivotally attached to the surface of the arm 6 on the intermediate plate 2 side, the positional relationship that can collide with the blade 9 in the state shown in FIG. In the case of the other connecting plate 19, if it is pivotally attached to the surface of the arm 17 on the side of the intermediate plate 2, it will be in a positional relationship that can collide with the blade 20 in the state shown in FIG.
[0054]
In order to prevent such a collision from occurring, the dimensions from the shafts 1d and 1e to the drive pins 28a and 29a are reduced, or the attachment positions of the blades 9 to the arms 6 and 7 and the blades to the arms 17 and 18 are reduced. It is necessary to move the mounting position of 20 toward the tip of each arm. However, in the former case, as can be easily predicted from the arrangement configuration on the drawing, if the above dimensions are further reduced, the set force amount of each drive member 28, 29 becomes extremely large, which is realized. It will be poor.
[0055]
On the other hand, in the latter case, the blades 9 and 20 need not be used alone, and the other blades need to be moved in order. Therefore, as can be understood from the positional relationship between the left ends of the blades in FIG. Therefore, it is necessary to move the position to the right side, and the meaning of downsizing the shutter is reduced. Therefore, in this embodiment, the connecting plates 8 and 19 are pivotally attached to the surfaces of the arms 6 and 17 where the blades are not attached. However, depending on the degree of miniaturization, the connecting plates 8 and 19 may be pivotally attached to the surfaces of the arms 6 and 17 where the blades are attached. If the extended free end is always overlapped with the arms 7 and 18, collision during operation can be prevented.
[0056]
In the above embodiment, the auxiliary arm 13 is also attached to the arm 6 by the connecting shaft 14, but this is in operation by attaching the auxiliary arm 13 to both the arm 6 and the arm 7. In order to make it easy to maintain the relative positional relationship between the arms 6 and 7 and to effectively suppress the blow-off phenomenon, the arm 7 is not attached to the arm 6 unless particularly required to do so. It does not matter if it is only attached to the blade 11. Further, in the above embodiment, the auxiliary arm 13 is disposed between the arms 6 and 7 and the slit forming blade 12, but it may be attached to the opposite surface of the arms 6 and 7. Further, in the above embodiment, the overhanging portion is formed on the blade 11, but instead, for example, the overhanging portion may be formed on the blade 10. The same can be said for the rear blade group as well as the front blade group.
[0057]
In the above embodiment, the inclination angle of the protruding portion 11b of the covering blade 11 and the inclination angle of the protruding portion 13b of the auxiliary arm 13 are made the same, and both inclined surfaces are brought into contact with each other. Is not limited to that in which the inclined surfaces are brought into contact with each other, and therefore, the auxiliary arm 13 may not be provided with the protruding portion 13b. In the embodiment, the protruding portions 11b and 13b protrude in the direction of the shutter base plate 1. However, the protruding portions 11b and 13b may protrude in the opposite direction.
[0058]
Further, in the above embodiment, the pressing plates 4 and 5 are provided in the operation region at the tip of each blade, but recently, the shutter base plate 1 and the auxiliary base plate 3 are made of synthetic resin, There is also known a configuration in which the pressing plate 4 or 5 as described above is not required by forming the operating region of the tip portion thick. The present invention can also be applied to such a shutter. Furthermore, recently, it is also known that two arms pivotally supporting a plurality of blades are pivotally attached to an auxiliary base plate instead of a shutter base plate. However, the present invention is also applicable to such a shutter. Needless to say, it can be applied.
[0059]
【The invention's effect】
As described above, according to the present invention, of a plurality of blades attached to two arms pivotally attached to the main plate, one covering blade is directly attached to one arm. However, in the configuration of a blade group that is attached to the other arm via at least an auxiliary arm pivotally supported by the other arm, when the cover blade and the auxiliary arm are attached, Since the protrusions formed on at least one of them are brought into contact with each other and are fixed together by caulking using a connecting shaft, a slit formed between the two is formed. There is an advantage that an appropriate interval can be formed at low cost with respect to the blade.
[Brief description of the drawings]
FIG. 1 is a plan view of an embodiment viewed from a subject side, and shows a state immediately before starting an exposure operation.
FIG. 2 is a plan view of the embodiment as viewed from the subject side, and shows the state during the exposure operation of the front blade group and the rear blade group for easy understanding.
3 is a plan view viewed from the subject side in the same manner as in FIG. 2 and mainly shows the state immediately after the exposure operation of the rear blade group has been completed for easy understanding. FIG.
4 is a cross-sectional view of a main part of FIG.
FIG. 5 is a plan view of a focal plane shutter shown for comparison with an embodiment, and shows a front blade group in a state immediately before the start of an exposure operation.
6 is a plan view showing a state in which the leading blade group shown in FIG. 5 is in the middle of an exposure operation. FIG.
[Explanation of symbols]
1 Shutter base plate
1a, 2a, 3a opening
1b, 1c long hole
1d, 1e, 1f, 1g, 1h, 1i, 1j, 1k, 1m, 1n,
1p, 1q, 1r, 6a, 17a axis
2 Intermediate plate
2b cutting
3 Auxiliary ground plane
4 Retaining plate for leading blade
5 Back blade retainer
6, 7, 17, 18 arms
8, 8 ', 19 Connecting plate
9, 10, 11, 12, 20, 21, 22, 23 blades
11a, 11b, 13a, 13b Projection
13, 24 Auxiliary arm
14, 15, 16, 25, 26, 27 Connecting shaft
28 Lead blade drive member
28a, 29a Drive pin
29 Rear blade drive member

Claims (3)

At least one of the leading blade group and the trailing blade group has two arms pivoted to the base plate at one side position of the exposure opening, a slit forming blade, and at least one covering blade. a plurality of blades attached in this order in the longitudinal direction of their arms the slit forming blade in the cutting-edge side, in are configured, one covered blade out of the plurality of blades the attachment to one of said two arms, so that have been made via an auxiliary arm which is pivotally supported at least on the arm, both of the have blades of one said and said auxiliary arm, A tension stretched substantially obliquely as a whole from the position where the auxiliary arm is pivotally supported by at least one of the two arms toward the side position and toward the slit forming edge of the slit forming blade. Those that form the exit ChoIzurubu is a Beyond the slit forming edge, in contact by their projecting portion formed on at least one, and characterized in that as being integrally fixed by a connecting shaft contact portion of their Focal plane shutter for camera. The protrusion is formed on both of the one covered blade and the auxiliary arm so as to protrude in the same direction at the same inclination angle, and the protrusion in the protruding direction is the other protrusion. 2. The focal plane shutter for a camera according to claim 1, wherein the protruding amount is smaller than that of the portion. The one covered blade is a blade adjacent to the slit forming blade, and the auxiliary arm is disposed between at least one of the two arms and the slit forming blade. The focal plane shutter for a camera according to claim 1 or 2.

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