JP4163966B2 - Focal plane shutter for camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a focal plane shutter for a camera.
[0002]
[Prior art]
Recent focal plane shutters used in cameras are known to have two shutter blades called front blade (group) and rear blade (group), and one with one shutter blade. The former is used for both digital still cameras and silver halide cameras, while the latter is used only for digital still cameras. In any case, each shutter blade is operated in conjunction with the rotation of each drive member, and at the time of photographing, the start of rotation of the drive member is controlled via an electromagnet. I am doing so. Among them, the shutter blades are accommodated in a blade chamber formed between a shutter base plate and an auxiliary base plate (also referred to as a cover plate).
[0003]
The shutter base plate is formed with an opening for a photographing optical path in a substantially central portion, and a support plate (upper base plate, mounting substrate) with a plate space parallel to and a predetermined space in a lateral region of the opening. , Also referred to as a ratchet plate), the drive member and the electromagnet are arranged in the space, and the electromagnet is attached to the support plate. Further, a printed wiring board is superposed on the support plate, and the coil terminal of the electromagnet is joined to the wiring pattern (see, for example, Patent Document 1). Furthermore, a flash tuning switch operated by the rotation of the driving member is joined to the wiring pattern of the printed wiring board (see, for example, Patent Document 2), and the switch is a driving member, and thus a shutter. It is known that it can also be used as a switch for detecting a malfunction of a blade (see, for example, Patent Document 3).
[0004]
Further, as described in Patent Document 2, the switch is usually composed of two contact piece members, one end of which is joined to the wiring pattern, and the other end is a contact portion. Is provided. In a normal state, these contact members are in contact with separate end faces of the printed wiring board by their own elasticity, and the contact portions of both are kept in a non-contact state. When the one member is pushed by the rotation of the driving member, the two contact parts are brought into contact with each other and are separated from the end face of the printed wiring board. However, in some cases, the other contact piece member may be configured to be shared by a metal shutter component member (for example, a metal shutter base plate) (so-called body ground).
[0005]
[Patent Document 1]
JP-A-9-133944 (pages 3 and 4, FIGS. 1 and 2)
[Patent Document 2]
JP-A-8-2018877 (pages 3, 4 and 1-6)
[Patent Document 3]
JP 2002-55377 A (page 3-7, FIGS. 1-4)
[0006]
[Problems to be solved by the invention]
By the way, in order for the switch having the above-described configuration to function properly, it is required that the contact position accuracy of the two contact portions is high and that the two contact portions are reliably turned on. That is, with respect to the former, when one contact piece member is pushed by the driving member, it is necessary to make contact with the other contact piece member at a predetermined position. The position of the end face of the printed wiring board with which the contact piece member is in contact by its own elastic force must be formed with high accuracy. As for the latter, it is necessary to prevent dust from adhering between the two contact portions. To do so, it is necessary not to generate dust near the two contact piece members, It is necessary to make it difficult for dust to come to the part.
[0007]
However, in the configuration of the focal plane shutter as described above, since the support plate is made of a relatively thin metal plate material, the printed wiring board is required to have a predetermined strength. Therefore, conventionally, a hard glass epoxy copper clad laminate (also referred to as a glass epoxy substrate) has been adopted as the material of this printed wiring board, and after a necessary wiring pattern is formed by etching, a predetermined amount of material is used. What was punched into the shape of was used. In the normal state, each of the contact piece members described above is brought into contact with the outer shape forming end surface thus punched or the end surface forming a hole having a predetermined shape.
[0008]
However, when a glass epoxy copper clad laminate is punched out, the laminate is hard and relatively thick, so the end face formation is likely to vary due to the influence of glass fibers, etc. It was one of the major factors that required adjustment work. In addition, fine dust generated due to punching and finishing work is attached to the position near the end face, or the end face is likely to generate dust due to repeated contact and separation of the contact piece member during shooting. In some cases, such dust may adhere to the contact portion and cause contact failure. Furthermore, when using a printed wiring board made of glass epoxy copper clad laminate, if you want to guard the contact part from dust coming from other areas, it was impossible without a special member. .
[0009]
The present invention has been made to solve such problems, and the object of the present invention is to provide an electromagnet or switch as described above without using a printed wiring board of a glass epoxy copper clad laminate. The electrical connection is possible and the normal position of the piece member accuracy Further, it is an object of the present invention to provide a focal plane shutter for a camera that can further suppress dust adhering to a contact portion.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, a focal plane shutter for a camera according to the present invention includes a shutter base plate having an opening for a photographing optical path and accommodating at least one shutter blade between the auxiliary base plate, A support plate attached to the shutter base plate with a plate surface parallel and spaced apart in a side region of the opening, and the support plate are superposed with the support plate facing the shutter base plate A switch mounting plate made of synthetic resin, at least one drive member that is disposed in the space and operates the shutter blades by its own rotation, and is mounted on the support plate and disposed in the space, and is used at the time of shooting. At least one electromagnet enabling the drive member to start rotating; Provided on a contact member having a habit of contacting the end face of the switch mounting plate by its own elasticity, and when the contact member is pushed by the drive member against the habit, the other is separated from the end face A switch that contacts the contact of the switch, and has a plurality of wiring patterns and is superimposed on the switch mounting plate, and has a connection portion between the switch and the electromagnet, and is superimposed on the switch mounting plate. Flexible printed wiring board having a power supply side connecting portion extended from where it is And. In that case, the other contact point may be provided on another contact member connected to the wiring pattern and having a habit of contacting the end face of the switch mounting plate by its own elasticity. .
[0011]
Further, the switch mounting plate has a wall portion formed substantially perpendicular to the shutter base plate side in the vicinity of the switch mounting position, and the wall portion has at least one side surface of the contact area. If covered, each contact can be protected from the adhering of flying dust, and the switch mounting plate is at least on the shutter base plate side along the edge opposite to the opening side. If the wall covers the space from the side, the contact of the switch and the adsorption surface of the electromagnet are protected from the adhering dust. It becomes possible.
[0012]
More ,in front If the supporting plate and the switch mounting plate are configured as one component and the electromagnet is mounted thereon, the number of components can be reduced.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
The embodiments of the present invention will be described with reference to three illustrated examples. These examples all have focal planes having two shutter blades as described in Patent Documents 1 to 3. It is a shutter. Since the present invention mainly relates to the configuration related to the switch, this point will be described in detail, but other shutter configurations are also well-known, so that the description will be simplified. Or omit it. Further, as described in Patent Document 3, the switch of each embodiment can detect a malfunction of the driving member connecting the shutter blades. Only the case of using as will be described.
[0014]
Further, the drawings used for describing each embodiment are plan views of the first embodiment in which FIG. 1 shows about half of the left side when viewed from the photographing lens side when incorporated in a camera, and FIG. FIG. 3 is a bottom view of a main part viewed from the lower side of FIG. 1, and FIG. 3 is a partial plan view of the first embodiment showing an on state of a switch. FIG. 4 is a bottom view of the main part of the second embodiment viewed in the same manner as FIG. 5 is a plan view of the third embodiment viewed in the same manner as in FIG. 1, and FIG. 6 is a bottom view of the main part of the third embodiment viewed in the same manner as in FIG. In addition, FIG. 7 is explanatory drawing which showed an example at the time of comprising the switch mounting plate and electromagnet support plate in each Example as one component.
[0015]
[First embodiment]
The shutter base plate 1 and the auxiliary base plate 2 of the present embodiment are made of synthetic resin, and the auxiliary base plate 2 has its wall portion 2a (see FIG. 2) closed between the shutter base plate 1 and the shutter base plate. 1 is attached. Further, the shutter base plate 1 and the auxiliary base plate 2 are partitioned by a well-known intermediate plate (not shown), and a blade chamber of a leading blade is formed between the shutter base plate 1 and the intermediate plate, A blade chamber of a rear blade is formed between the auxiliary base plate 2 and the auxiliary ground plate 2. The shutter base plate 1, the intermediate plate, and the auxiliary base plate 2 are formed with an opening for a photographing optical path at a substantially central portion thereof. In FIG. About half of the left side of the opening 1a is shown.
[0016]
Further, although the front blade and the rear blade are not clearly shown, they have a well-known configuration, and each of them has two arms pivoted at one end on the shutter base plate 1 and pivots sequentially toward the other end. It consists of three supported blades. 1 shows the set state of the shutter, so that the three blades 3, 4 and 5 of the leading blade are unfolded (minimizing mutual overlap) and cover the opening 1a. However, the three blades of the rear blade are superposed (maximum mutual overlap) and stored in the upper position of the opening 1a.
[0017]
In the region on the left side of the opening 1a, a metal support plate 6, a synthetic resin switch mounting plate 7 and a flexible printed wiring board 8, which are stacked in order from the shutter base plate 1 side, have their surfaces on the shutter base plate 1. Are attached to the tip of an unillustrated column provided on the shutter base plate 1 by two screws 9 and 10, and a predetermined space is provided between the support plate 6 and the shutter base plate 1. The switch mounting plate 7 is formed with four positioning pins 7a, 7b, 7c, 7d. The flexible printed wiring board 8 has positioning holes in the pins 7a, 7b. It is fitted. In FIG. 1, in order to make the drawing easier to see, the outer shape of the flexible printed wiring board 8 and the wiring pattern 8a are indicated by a two-dot chain line, and the solder joint portion is indicated by an oblique line.
[0018]
Further, although the shape of the support plate 6 of this embodiment is not clearly shown, for example, it has a well-known shape as described in Patent Document 1, and the front blade electromagnet and the rear blade electromagnet are arranged on the shutter base plate 1 side. Is attached. The terminal pins 11 and 12 of the coil of the leading blade electromagnet and the terminal pins 13 and 14 of the coil of the trailing blade electromagnet pass through the holes formed in the switch mounting plate 7 and the flexible printed wiring board 8. And soldered to the wiring pattern 8a.
[0019]
Further, the contact piece members 15 and 16 have holes formed at one end thereof fitted into the positioning pins 7c and 7d of the switch mounting plate 7, and the tips of the tongue-shaped portions are passed through the oblong holes. The contact piece member 15 is soldered to the wiring pattern 8a at one location and the contact piece member 16 is provided at two locations. Further, the portions other than the mounting portions are bent and disposed in the space on the shutter base plate 1 side, and contact portions 15a and 16a are provided at their free ends. As can be seen from FIG. 2, the contact portion 15a of the contact piece member 15 has an overhanging portion 15b protruding upward, and in the normal state of the contact piece member 15 shown in FIG. Thus, the projecting portion 15b is brought into contact with a step portion 7e formed on the shutter base plate side 1 of the switch mounting plate 7. In addition, the contact piece 16 is formed with an overhanging portion 16b that protrudes upward in FIG. 2 approximately in the middle of its length direction. In the normal state shown in FIG. The protruding portion 16b is brought into contact with the stepped portion 7f (see FIG. 3) of the switch mounting plate 7.
[0020]
The switch mounting plate 7 has a triangular area at the lower right corner in FIG. 1 that rises up to the height of the head of the screw 10 and the tips of the pins 7c and 7d (see FIG. 2), and the inside ( The stepped portions 7e and 7f are formed on the shutter base plate 1 side). Further, the cover portion is formed with a wall portion 7g substantially perpendicularly toward the shutter base plate 1 so as to cover the vicinity of the contact portions 15a and 16a. It is possible to suppress the occurrence of poor contact due to adhesion to 16a.
[0021]
Next, the members attached to the shaft standing on the shutter base plate 1 between the shutter base plate 1 and the support plate 6 will be described. These members are well known and described in, for example, Patent Document 1. There are some that are not explicitly shown in the drawing or that are not shown at all. The shutter base plate 1 is provided with shafts 1b, 1c, and 1d, and the tips of the shafts 1b, 1c, and 1d are fitted into the holes of the superposed support plate 6, switch mounting plate 7, and flexible printed wiring board 8, respectively. . The shaft 1b has a leading blade drive member 17 (see FIG. 2), the shaft 1c has a trailing blade drive member (not shown), and the shaft 1d has a set member 18 (see FIG. 1). , Each is rotatably attached.
[0022]
The leading blade driving member 17 is biased by a leading blade driving spring 19 so as to rotate clockwise in FIG. The driving pin 17a provided on the leading blade driving member 17 passes through a long hole (not shown) of the shutter base plate 1 and is connected to one of the two arms constituting the leading blade in the blade chamber. Has been. Further, an iron piece member that is attracted to the leading blade electromagnet is attached to the leading blade drive member 17 but is not clearly shown. As shown in FIG. A pushing portion 17b for pushing the member 16 is formed. A ratchet gear 20 is also rotatably attached to the shaft 1b, and one end of a leading blade drive spring 19 is hung on the shaft 1b. Therefore, when the ratchet gear 20 is rotated, the urging force of the leading blade drive spring 19 can be adjusted. After the adjustment, the ratchet gear 20 is locked by a ratchet claw (not shown) provided on the support plate 6. It has come to be.
[0023]
Moreover, the structure of each member attached to the shaft 1c of the shutter base plate 1 is substantially the same as the structure of attachment to the shaft 1b. That is, a rear blade drive member (not shown) and a ratchet gear 21 (see FIG. 1) are rotatably attached to the shaft 1c, and a rear blade drive spring (not shown) is hung between them. It has been. Further, the rear blade drive spring urges the rear blade drive member in FIG. 1 to rotate clockwise, and the urging force is generated by rotating the ratchet gear 21. After adjustment, The support plate 6 is locked by a ratchet claw (not shown) provided on the support plate 6. The rear blade driving member has an iron piece member attached to a rear blade electromagnet (not shown) and a drive pin connected to the arm of the rear blade in the blade chamber.
[0024]
Further, the set member 18 rotatably attached to the shaft 1d of the shutter base plate 1 is urged to rotate counterclockwise by a return spring (not shown). The set member 18 is rotated clockwise against the urging force of the return spring when the driven portion 18a is pushed by a member on the camera main body (not shown). The two drive members are configured to rotate counterclockwise to the set position against the urging force of the drive springs. FIG. 1 shows a completed state of the set operation performed as described above. At this time, the two electromagnets are in a non-energized state and attached to the two drive members. Since the iron piece member is in contact but not attracted, the set member 18 is maintained in this state by a member on the camera body side until photographing is performed.
[0025]
Next, an operation in the case where the contact piece members 15 and 16 function only as a flash synchronization switch will be described. In the set state of FIG. 1, since the leading blade drive member 17 is rotated counterclockwise by the set member 18 as described above, The moving part 17 b is separated from the contact piece member 16. Therefore, the contact piece member 16 makes the overhanging portion 16 b contact the stepped portion 7 f of the switch mounting plate 7 due to its customary elasticity. Further, the other contact member 15 also has the overhanging portion 15 b in contact with the stepped portion 7 e of the switch mounting plate 7 due to its customary elasticity. Accordingly, the contact portions 15a and 16a of both are not in contact with each other, and the switch is in an OFF state. Further, since the switch mounting plate 7 of the present embodiment is made of synthetic resin, the surfaces of the stepped portions 7e and 7f with which the overhanging portions 15b and 16b are in contact with the end surface of the conventional glass epoxy copper clad laminate It is processed with high accuracy in comparison, and the position accuracy of the contact piece members 15 and 16 is suitably obtained.
[0026]
When the release button of the camera is pressed at the time of shooting, first, a coil of a front blade electromagnet and a rear blade electromagnet (not shown) is energized, and an iron piece member of the front blade drive member 17 and an iron piece of the rear blade drive member The member is adsorbed and held. Immediately thereafter, a member on the camera body (not shown) releases the pressing force of the set member 18 against the driven portion 18a, so that the set member 18 is counteracted by a biasing force of a return spring (not shown). It rotates clockwise and stops by abutting against a stopper (not shown). At that time, the set member 18 does not interfere with the operation of the two drive members.
[0027]
Thus, when the set member 18 stops, the energization to the coil of the leading blade electromagnet is cut off. Therefore, the leading blade driving member 17 is rotated clockwise in FIG. 1 by the biasing force of the leading blade driving spring 19. At this time, the leading blade is also actuated by the driving pin 17 a, and the three blades are driven. 3, 4 and 5 travel downward while increasing the mutual overlap, and open the opening 1a from above. Immediately before the opening 1a is fully opened, the pushing portion 17b of the leading blade drive member 17 starts to push the contact piece member 16, and the contact portion 16a is brought into contact with the contact portion 15a of the contact piece member 15. . As described above, since the contact member members 15 and 16 have high positional accuracy, the contact is performed at a suitable timing, and immediately after the opening 1a is fully opened, the flash is emitted.
[0028]
Since the pushing portion 17b of the leading blade drive member 17 pushes the contact piece member 16 after the contact portion 16a is brought into contact with the contact portion 15a, the contact piece member 15 is maintained while maintaining contact of the contact portions 15a and 16a. Is also pushed and bent. FIG. 3 shows a state when the leading blade driving member 17 is stopped in this manner. After the flash is emitted, energization to the coil of the rear blade electromagnet is cut off. As a result, the rear blade drive member (not shown) rotates clockwise in FIG. 1 by the biasing force of the rear blade drive spring, and the opening 1a is closed from above by three blades (not shown). I will do it. Then, when the three blades completely close the opening 1a, immediately after that, the rotation of the rear blade drive member stops and the operation for photographing is finished.
[0029]
Thus, when the operation for photographing is completed, the set member 18 is rotated to the state shown in FIG. 1 as described above, and two drive members, that is, two shutter blades (front blade and rear blade). At this time, the two contact piece members 15 and 16 are restored by their own elastic force when the pushing portion 17b of the leading blade drive member 17 is retracted from the contact piece member 16. I do. First, when the projecting portion 15b contacts the step portion 7e, the return operation of the contact piece member 15 is completed. Next, when the projecting portion 16b contacts the step portion 7f, the contact member 16 This completes the return operation.
[0030]
Since the switch mounting plate 7 of the present embodiment is made of synthetic resin and the surfaces of the stepped portions 7e and 7f are suitably formed, there is a risk of generating dust due to the contact of the overhanging portions 15b and 16b. Even if there is flying dust, the wall portion 7g is provided, so there is little possibility of adhesion. Therefore, there is little possibility that the positional accuracy of the contact piece members 15 and 16 is lowered or poor contact occurs. Thus, even after the projecting portions 15b and 16b come into contact with the step portions 7e and 7f, the two drive members are set and the clockwise rotation of the set member 18 is stopped. Return to state 1.
[0031]
[Second Embodiment]
Next, a second embodiment will be described with reference to FIG. The configuration of this embodiment is formed in the triangular area cover portion formed in the lower right corner of the switch mounting plate 7 in FIG. 1 showing the first embodiment, and vertically from there to the shutter base plate 1. The wall portion 7g is removed. Therefore, in FIG. 4, the reference numerals used in FIG. 2 showing the first embodiment are used as they are. When dust generated from other components in the camera and flying, or dust entering the camera from the outside and ignited is negligible, the first embodiment is configured as in this embodiment. Cost is lower than in the example. And even if comprised in this way, it cannot be overemphasized that the position of the contact piece members 15 and 16 is obtained with high precision similarly to the case of 1st Example.
[0032]
[Third embodiment]
Next, a third embodiment will be described with reference to FIGS. In the configuration of this embodiment, a wall portion 7h is formed integrally with the left edge of the switch mounting plate 7 of the first embodiment shown in FIG. Therefore, in FIGS. 5 and 6, the reference numerals used in FIGS. 1 and 2 are used as they are, except for the wall portion 7h. As in the present embodiment, when the wall portion 7h covers the space between the shutter base plate 1 and the support plate 6 from the side, dust generated from other constituent members in the camera or dust that has entered the camera from the outside is captured. Of course, it is difficult to fly to the contact portions 15a and 16a of the contact piece members 15 and 16, but the possibility of adhering to the attracting surface of an electromagnet (not shown) and causing a suction failure is reduced. It is also possible to suppress entry into the blade chamber from a long hole that penetrates the pin 17a. And even if comprised in this way, it cannot be overemphasized that the position of the contact piece members 15 and 16 is obtained with high precision similarly to the case of 1st Example.
[0033]
In this embodiment, the wall 7h is formed only along the edge of the switch mounting plate 7 on the side opposite to the opening 1a. However, there is no problem in terms of design and cost. The space between the shutter base plate 1 and the support plate 6 may be covered as much as possible from the side surface.
[0034]
Next, modified examples of the above embodiments will be described. In each of the above embodiments, the support plate 6, the switch mounting plate 7, and the flexible printed wiring board 8 have been described as being manufactured as separate members. However, the support plate 6 and the switch mounting plate 7 can be manufactured as one component, or the switch mounting plate 7 and the flexible printed wiring board 8 can be manufactured as one component.
[0035]
First, the case where the support plate 6 and the switch mounting plate 7 are manufactured as one switch mounting plate 22 will be described with reference to FIG. The switch mounting plate 22 is made of synthetic resin and has all the shapes of the switch mounting plate 7 in the first embodiment. In other words, the positioning pins 22a and 22b of the flexible printed wiring board 8, the positioning pins 22c and 22d of the contact members 15 and 16, and the overhang portions 15b and 16b of the contact members 15 and 16 come into contact with each other. It has the parts 22e and 22f and the wall part 22g. In addition, four holes 22h, 22i, 22j, and 22k into which the terminal pins 11, 12, 13, and 14 of the two electromagnets are inserted and the tips of the shafts 1b, 1c, and 1d of the shutter base plate 1 are inserted. Three holes 22m, 22n and 22p, holes 22q and 22r into which the screws 9 and 10 are inserted, and oblong holes 22s and 22t into which the tongues formed on the contact piece members 15 and 16 are inserted. Have.
[0036]
In this way, the switch mounting plate 22 is formed so as to have the function of the support plate 6 in addition to all the shapes of the switch mounting plate 7 in the first embodiment. That is, although a partially enlarged perspective view is added for them, ratchet claws 22u and 22v for locking the two ratchet gears 20 and 21 and two electromagnets that are not shown are substantially U-shaped. The mounting portions 22w and 22x to which the base portion of the iron core is attached and the holding portions 22y and 22z for stabilizing the positions of the two magnetic pole portions in the vicinity of the attracting portion. If the switch mounting plate 22 is manufactured in this way by molding, there is no doubt that the cost will be lower than in the case of the first embodiment. Since the mounting method of each electromagnet to the switch mounting plate 22 is the same, only one mounting method will be described. One of the iron cores having a substantially U shape after the base portion of the iron core is fitted into the mounting portion 22x. The iron core is pushed up from the side of the shutter base plate 1 while being sandwiched between the mounting portion 22x and the sandwiching portion 22z and is sandwiched by the sandwiching portion 22z.
[0037]
Next, although the drawings are not prepared, the case where the switch mounting plate 7 and the flexible printed wiring board 8 in each of the above embodiments are manufactured as one switch mounting plate will be described. Recently, with the advancement of technology, it has become possible to form a wiring pattern as shown in FIGS. 1 and 5 on a synthetic resin substrate by a technique such as plating or hot stamping. Accordingly, in each of the above embodiments, the switch mounting plate 7 is made of a synthetic resin, so that the wiring pattern 8a can be directly formed on the switch mounting plate 7. From now on, by doing so, the cost can be reduced as compared with the case of each of the above embodiments.
[0038]
In the above-described embodiment, the contact members 15 and 16 are described as the flash tuning switch. However, as described in Patent Document 3, the front blade drive member 17 remains the same as described above. It is also possible to function as a malfunction detection switch of the rear blade drive member by changing the arrangement position. The contact piece member 16 may be a movable contact having flexibility, and the contact piece member 15 may be a fixed contact. Further, such a switch configuration can be applied to a focal plane shutter having only one shutter blade, which is employed only in a digital still camera.
[0039]
【The invention's effect】
As described above, the present invention has a configuration in which electrical connection to an electromagnet or a switch is possible without using a printed wiring board of a glass epoxy copper clad laminate as in the prior art. Position at accuracy In addition, there is a feature that dust can be suitably suppressed from adhering to the contact portion.
[Brief description of the drawings]
FIG. 1 is a plan view of a first embodiment showing approximately half of the left side when viewed from the photographic lens side when incorporated in a camera.
FIG. 2 is a bottom view of the main part viewed from the lower side of FIG. 1;
FIG. 3 is a partial plan view of the first embodiment showing an on state of a switch.
4 is a bottom view of an essential part of a second embodiment viewed in the same manner as in FIG. 2. FIG.
FIG. 5 is a plan view of a third embodiment viewed in the same manner as in FIG. 1;
6 is a bottom view of an essential part of a third embodiment viewed in the same manner as in FIG. 2. FIG.
FIG. 7 is an explanatory view showing an example when the switch mounting plate and the electromagnet support plate in each embodiment are configured as one component.
[Explanation of symbols]
1 Shutter base plate
1a opening
1b, 1c, 1d axes
2 Auxiliary ground plane
2a, 7g, 7h, 22g Wall
3,4,5 feathers
6 Support plate
7,22 Switch mounting plate
7a, 7b, 7c, 7d, 22a, 22b, 22c, 22d Pin
7e, 7f, 22e, 22f Stepped part
8 Flexible printed wiring boards
8a Wiring pattern
9,10 screw
11, 12, 13, 14 Terminal pin
15,16 Contact member
15a, 16a Contact part
15b, 16b overhang
17 Leading blade drive member
17a Drive pin
17b Pushing part
18 Set members
18a Pushed part
19 Leading blade drive spring
20,21 Ratchet gear
22h, 22i, 22j, 22k, 22m, 22n, 22p, 22q, 22r, 22s, 22t
22u, 22v ratchet claw
22w, 22x placement section
22y, 22z clamping part

Claims (5)

A shutter base plate having an opening for a photographing optical path and containing at least one shutter blade between the auxiliary base plate and a plate surface parallel to each other in a lateral region of the opening and a predetermined space is provided. A support plate attached to the shutter base plate, a switch mounting plate made of synthetic resin superposed on the support plate with the support plate facing the shutter base plate, and a self-rotation disposed in the space At least one driving member for operating the shutter blades, at least one electromagnet attached to the support plate and disposed in the space and enabling rotation of the driving member during photographing , It is provided in a contact piece member having a habit of contacting the end face of the switch mounting plate by elasticity, and the contact piece member is pushed by the drive member against the habit. A switch that contacts the other contact point away from the end surface, and a switch having a plurality of wiring patterns and being superimposed on the switch mounting plate, and having a connection portion between the switch and the electromagnet. A focal plane shutter for a camera , comprising: a flexible printed wiring board having a connection portion on the power source side at a position extended from a position where it is superimposed on the mounting plate .   The other contact point is provided on another contact member connected to the wiring pattern and having a habit of contacting the end face of the switch mounting plate by its own elasticity. A focal plane shutter for a camera described in 1.   The switch mounting plate has a wall portion formed substantially perpendicular to the shutter base plate side in the vicinity of the switch mounting position, and the wall portion covers at least one side surface of the contact area. The focal plane shutter for a camera according to claim 1, wherein the focal plane shutter is for a camera.   The switch mounting plate has a wall portion formed substantially perpendicular to the shutter base plate side along at least an edge opposite to the opening side, and the wall portion extends from the side surface to the space. 4. The focal plane shutter for a camera according to claim 1, wherein the focal plane shutter for a camera is covered. Wherein the support plate is configured as a switch mounting plate and is one piece, the camera focal plane shutter according to any one of claims 1 to 4, characterized in that said electromagnet it is installed.

Images