JP2005338691A - Shutter for cameras - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a shutter for a camera formed by superposing a shutter plate, a middle plate and a cover plate such that two blade chambers can be appropriately constituted therebetween. <P>SOLUTION: The middle plate 2 is fitted with a plurality of holes to shafts 1b and 1c, positioning pin 1h, stopper pins 1i to 1k, 1m and 1n of the shutter plate 1 and is brought into contact with pedestal sections 1p to 1r of the shutter plate 1 in order to constitute the blade chamber of shatter blades 7 and 8 between the shatter plate 1 and the middle plate 7 and 8 and the blade chamber of filter blades 9 between the middle plate 2 and the cover plate 3. The cover plate 3 is fitted with a plurality of holes to the shaft 1c, positioning pin 1h and stopper pins 1i to 1k, 1m and ln of the shutter plate 1 and is screwed to the front end surfaces of the shafts 1e to 1g of the shutter plate 1 by means of screws 4 to 6. At this time, pressing sections 3e to 3g of a bent shape disposed at the cover plate 3 are adapted to bring the middle plate 2 into pressurized contact with the pedestal sections 1p to 1r. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a camera shutter in which a shutter device is unitized with an aperture device, a filter device, and the like.

  A lens shutter device (hereinafter referred to as a shutter device), a diaphragm device, and a filter device employed in a camera each have a blade member, and they are reciprocated by an actuator. In many shutter devices, two shutter blades are rotated in opposite directions. However, in the case of a camera having a small lens aperture, there is one.

  In addition, in the case of an aperture device, there are those in which the aperture opening is regulated by a plurality of aperture blades, but recently, as a diaphragm device employed in a camera with a small lens aperture, a small circular opening is used. The number of aperture blades provided is increased, and the opening portion is advanced and retracted to the exposure aperture as necessary.

  Further, in the case of a filter device, a position near the opening with respect to a blade member having a shape similar to that of the above-described aperture blade (however, the opening may be approximately the same size as the exposure opening). In many cases, a filter blade is formed by attaching an ND filter plate so as to cover the opening, but two blade members having such an opening are prepared, and only the ND filter plate is provided between them. A configuration is also considered in which the blade members manufactured in (1) are superposed and the three blade members are simultaneously reciprocated in the same direction by the same angle.

  Further, in the case of a device that diminishes photographic light, such as a diaphragm device or a filter device, a plurality of light-attenuating portions having different light-reducing amounts are provided on one blade member, and these light-attenuating portions are selectively used In some cases, a so-called turret type configuration is adopted in which the turret type configuration is allowed to face the imaging optical path. Recently, in most cases, the light reducing blade member and the shutter blade are reciprocated by their respective actuators.

By the way, as described above, the present invention relates to a camera shutter in which the shutter device is configured as one unit together with an aperture device, a filter device, and the like. In some cases, a blade member for light reduction such as a diaphragm blade or a filter blade and a shutter blade are arranged in the same space (blade chamber). However, in many cases, as is known from Patent Document 1 and the like, from the viewpoint of operating the shutter blades at a high speed and stable operation, the shutter blades are the dimming blade members. It is arranged in another space. The present invention relates to a camera shutter having such two spaces.
JP 2002-90804 A

  As described above, in order to dispose the light reducing blade member and the shutter blade in separate spaces, the space provided between the shutter base plate and the cover plate is an intermediate plate (also referred to as a partition plate). Although it is necessary to partition, in the case of Patent Document 1 as well, the first substrate (1) and the second substrate (2) are partitioned by the intermediate interposed plate (4). Among them, the shutter base plate (first substrate 1) is generally a fairly thick member because it is necessary to attach a blade member such as a shutter blade on one surface and an actuator on the opposite surface. However, the cover plate (second substrate 2) and the intermediate plate (intermediate intervening plate 4) are made as thin as possible in order to reduce the thickness of the entire unit. In the case of Patent Document 1, the intermediate plate (intermediate intervening plate 4) is locally sandwiched between the shutter base plate (first substrate 1) and the cover plate (second substrate 2), and the cover plate (first plate). Two substrates 2) are screwed to the shutter base plate (first substrate 1).

  By the way, as is well known, an allowable tolerance is defined for the shape and dimension in parts processing. Therefore, when the structure for attaching the intermediate plate and the cover plate to the shutter base plate is configured as described in Patent Document 1, even if the screw is screwed into the shutter base plate (first substrate 1) to the end, the intermediate plate ( In order to prevent a situation in which the intermediate interposed plate 4) is not securely sandwiched between the shutter base plate (first substrate 1) and the cover plate (second substrate 2), an intermediate plate ( Even after the intermediate intervening plate 4) is securely clamped between the shutter base plate (first substrate 1) and the cover plate (second substrate 2), the cover plate (second substrate 2) is bent and screwed in. It must be done like this.

  However, the cover plate (second substrate 2) described in Patent Document 1 has portions (protrusions 22, 28, 29) that press the intermediate plate (intermediate intermediate plate 4) against the shutter base plate (first substrate 1). Since it is formed by stamping with a press machine, the strength of the projecting portions (projecting portions 22, 28, 29) is increased, and the portions (projecting portions 22, 28, 29) are deformed. Before, there exists a problem that the screwing part vicinity deform | transforms and the planarity of a cover board (2nd board | substrate 2) will be impaired.

  The present invention has been made to solve such problems. The object of the present invention is to devise the shape of the cover plate so that the cover plate can be screwed to the shutter base plate even if it is screwed. It is an object of the present invention to provide a camera shutter capable of reliably pressing an intermediate plate against a pedestal provided on a shutter base plate without impairing the flatness of the plate.

  In order to achieve the above object, a camera shutter according to the present invention has a shutter base plate having at least one positioning means and a plurality of pedestals on one surface, and is orthogonal to the optical axis by the positioning means. An intermediate plate that is prevented from moving in a direction and that contacts the plurality of pedestal portions to form a space between the shutter base plate and a flexibility formed in a bent shape at a predetermined angle A cover having a plurality of pressing portions and screwed to the shutter base plate so as to press the intermediate plate against the plurality of pedestal portions by the plurality of pressing portions and forming a space between the intermediate plate and the cover A plate, at least one shutter blade disposed in one of the two spaces, and at least one light-reducing blade member disposed in the other of the two spaces. MakeIn that case, when the cover plate is formed as a single hole, a hole provided for bending the pressing portion and a hole for inserting a screw for attaching to the shutter base plate. This is a more preferable configuration.

  According to the camera shutter of the present invention, the cover plate has a plurality of flexible pressing portions formed in a bent shape at a predetermined angle, and the intermediate plate is moved to the shutter base plate by the pressing portions. Since it presses against the base part and is screwed to the shutter base plate, the flatness of the cover plate is not impaired although the pressing part bends. In that case, if the cover plate is formed with a hole provided for bending the pressing portion and a hole for inserting a screw for attachment to the shutter base plate as a single hole, Since the portion is adjacent to the screwing portion, there is an advantage with respect to the external pressure at the time of handling the unit, and the processing of the cover plate is simplified.

  Embodiments of the present invention will be described with reference to the illustrated examples. The present invention can be used as a shutter for a silver salt film camera or a shutter for various digital cameras including a surveillance camera. However, the embodiment is particularly adopted for a digital still camera. As the shutter, the shutter device and the filter device are configured as one unit. 1 is a plan view of the embodiment showing an initial state, FIG. 2 is an enlarged view of a main part of FIG. 1, and FIG. 3 is a cross-sectional view taken along line AA in FIG. FIG. 4 is a plan view of the embodiment showing a state immediately after the end of photographing.

  First, the configuration of this embodiment will be described. The shutter base plate 1 is made of synthetic resin, and a circular opening 1a centering on the optical axis is formed in a substantially central portion. As shown in FIG. 3, the shutter base plate 1 needs to have an actuator or the like attached to the back side surface in FIG. 1 and a member such as a shutter blade needs to be attached to the near side surface. It is a relatively thick member. Usually, the opening 1a formed in the shutter base plate 1 is often used as an exposure opening (an opening for restricting the optical path). However, in this embodiment, the shutter base plate 1 of FIG. In order to arrange the photographing lens arranged on the back side as close as possible to the operating surfaces of two shutter blades 7 and 8 described later, the photographing lens has a diameter larger than the diameter of the exposure aperture. Therefore, as can be seen from such a purpose, if necessary, the diameter of the opening 1a may be formed larger, and the shape is not limited to a circle.

  In FIG. 1, the front surface of the shutter base plate 1 has six shafts 1b, 1c, 1d, 1e, 1f, 1g, one positioning pin 1h, and five stoppers 1i, 1j, 1k, 1m, 1n. And three pedestal portions and three sliding contact portions 1s, 1t, and 1u are provided. Of these, screw holes are formed in the tip surfaces of the shafts 1e, 1f, and 1g. Further, with respect to the sliding contact portions 1s, 1t, and 1u, the sliding contact portion 1s is composed of an annular portion formed around the opening 1a and two circular arc portions formed by projecting from the two portions. On the other hand, the slidable contact portion 1t has an annular shape, and the slidable contact portion 1u is formed in an arc shape of about 180 degrees. 7 and 8 are in sliding contact. Further, the shutter base plate 1 is also formed with two arc-shaped long holes 1v and 1w.

  The intermediate plate 2 is made of metal and is made of a thin plate material as can be seen from FIG. 3, and the outer shape is slightly smaller than the shutter base plate 1 as can be seen from FIG. It has a shape. The intermediate plate 2 has a circular opening 2a centered on the optical axis at a substantially central portion thereof. The opening 2a is considerably smaller in diameter than the opening 1a of the shutter base plate 1. Therefore, the exposure opening is regulated. However, when it is not necessary to dispose the photographic lens as described above, the diameter of the opening 1a of the shutter base plate 1 is made smaller than the diameter of the opening 2a of the intermediate plate 2, and the exposure opening is regulated by the opening 1a. You may make it make it.

  The intermediate plate 2 has an oval hole 2b and a circular hole 2c having the same size as holes 3h and 3i provided in a cover plate 3 which will be described later. A space for placing shutter blades 7 and 8 (to be described later) between the shaft 1c and the positioning pin 1h and contacting the pedestals 1p, 1q, and 1r of the shutter base plate 1 between the shaft 1c and the positioning pins 1h. Is configured. Although not shown, the intermediate plate 2 is also formed with holes that fit into the shaft 1b of the shutter base plate 1 and the stopper pins 1i, 1j, 1k, 1m, and 1n. ing. Further, the intermediate plate 2 is formed with an arc-shaped long hole 2d and a triangular rice ball-shaped window 2e.

  In this embodiment, the shaft 1c and the positioning pin 1h serve as positioning means for preventing the intermediate plate 2 from moving in the direction orthogonal to the optical axis. For example, if the positioning pin 1h is a quadrangular column and the hole 2c has a corresponding shape, only one is necessary. Further, unlike the positioning pin 1h in the present embodiment, a dedicated positioning means is not provided. For example, the stopper pin 1n may be used also as the positioning means. The shaft 1c in this embodiment is also such a dual positioning means as will be described later.

  As shown in FIG. 3, the cover plate 3 is made of a plate material that is thicker than the intermediate plate 2 but considerably thinner than the shutter base plate 1, and the outer shape is as shown in FIG. Although it is slightly smaller than the shutter base plate 1, it has substantially the same shape. The cover plate 3 is also formed with a circular opening 3a centered on the optical axis at a substantially central portion thereof. The diameter of the opening 3a is smaller than the opening 1a of the shutter base plate 1, It is larger than the opening 2a of the intermediate plate 2. The cover plate 3 is formed with three long holes 3b, 3c, 3d, and one end in the longitudinal direction thereof is bent at a predetermined angle and imparted with appropriate flexibility. Portions 3e, 3f, and 3g are formed.

  The cover plate 3 is also formed with an oval hole 3h and a circular hole 3i having the same size as the holes 2b and 2c of the intermediate plate 2, and these are formed on the shaft 1c of the shutter base plate 1. Are fitted to the positioning pins 1h to prevent movement in a direction perpendicular to the optical axis. The cover plate 3 is formed with holes 3j, 3k, 3m, 3n, 3p for loosely fitting into the stopper pins 1i, 1j, 1k, 1m, 1n of the shutter base plate 1. The holes (not shown) formed in 2 have the same shape as these holes. Further, the cover plate 3 is also formed with an arc-shaped long hole 3q and a triangular rice ball-shaped window 3r, the size of which is the long hole 2d and the window 2e formed in the intermediate plate 2. Is slightly smaller than

  The cover plate 3 is attached by inserting three screws 4, 5, 6 into the holes 3 b, 3 c, 3 d and screwing them into screw holes provided on the tip surfaces of the shafts 1 e, 1 f, 1 g. The pressing portions 3e, 3f, 3g are designed to contact the intermediate plate 2 before the screws 4, 5, 6 are completely screwed into the screw holes. By bending the pressing portions 3e, 3f, 3g, the intermediate plate 2 can be pressed against the pedestals 1p, 1q, 1r without impairing the flatness of the cover plate 3. Further, the long holes 3b, 3c, 3d are holes for forming the pressing portions 3e, 3f, 3g, and are also holes for inserting the screws 4, 5, 6; In addition to being easy, the pressing portions 3e, 3f, 3g are close to the mounting shafts 1e, 1f, 1g and are more easily bent than the plate surface of the cover plate 3 at the final stage of screwing. Therefore, the flatness of the cover plate 3 after assembling can be maintained. By being assembled in this way, the cover plate 3 constitutes a space for arranging filter blades 9 described later between the cover plate 3 and the intermediate plate 2.

  Two shutter blades 7 and 8 are arranged in the space between the shutter base plate 1 and the intermediate plate 2. Among them, the shutter blade 7 disposed on the shutter base plate 1 side has a long hole 7 a and is rotatably attached to a shaft 1 b provided on the shutter base plate 1. Further, the other shutter blade 8 has a long hole 8 a and is rotatably attached to a shaft 1 c provided on the shutter base plate 1. Accordingly, the shaft 1c is an attachment shaft for the shutter blades 8 and is also a positioning shaft for attaching the intermediate plate 2 and the cover plate 3 as described above.

  Further, one filter blade 9 is disposed in the space between the intermediate plate 2 and the cover plate 3. The filter blade 9 has an opening 9a having a diameter larger than that of the opening 2a of the intermediate plate 2, and an ND filter plate 9b is attached so as to cover the opening 9a. The filter blade 9 has a long hole 9 c and is rotatably attached to a shaft 1 d provided on the shutter base plate 1. In this embodiment, the diameter of the opening 9a is larger than that of the opening 2a that regulates the exposure opening. However, the density of the ND filter plate 9b is reduced to reduce the diameter of the opening 9a. May be smaller than the opening 2a. In that case, if the ND filter plate 9b is not attached, it goes without saying that the configuration of the diaphragm blades is obtained.

  In FIG. 1, an actuator for reciprocating the shutter blades 7 and 8 and an actuator for reciprocating the filter blade 9 are attached to the back surface of the shutter base plate 1. These actuators are current-controlled motors known as moving magnet type motors and the like, which are well known in Japanese Patent Application Laid-Open No. 2000-29228, etc. A permanent magnet rotor is a motor that can reciprocate only within a predetermined angle range. Since the present invention is not directly related to the configuration of such a motor, it is not shown so that the configuration can be understood. However, only the rotors 10 and 11 are shown in FIG. It is shown.

  The rotors 10 and 11 have their respective output pins 10a and 11a passed through the long holes 1v and 1w formed in an arc shape in the shutter base plate 1, and the opposite surface of the shutter base plate 1, that is, the shutter. It protrudes on the surface where the blades 7 and 8 are arranged. The output pin 10a is formed into a long hole 7a, 8a formed in the shutter blades 7, 8, an arc-shaped long hole 2d formed in the intermediate plate 2, and a long hole 3q formed in the cover plate 3. , Are inserted in order. The other output pin 11 a is inserted in order into a window 2 e formed in the intermediate plate 2, a long hole 9 c formed in the filter blade 9, and a window 3 r formed in the cover plate 3.

  Next, the operation of this embodiment will be briefly described. As described above, the camera shutter according to the present embodiment is configured to be suitable for use in a digital still camera, and FIG. 1 shows an initial state thereof, that is, a photographing standby state. At this time, the shutter blades 7 and 8 fully open the opening 2a that restricts the exposure opening, and the filter blade 9 is retracted from the opening 2a, so that the solid-state imaging device is exposed to subject light. The subject image can be observed on the monitor. At this time, the coils of the motors are not energized, but as is well known, the rotors 10 and 11 are stopped when the magnetic rods described in, for example, the above-mentioned JP-A-2000-29227. Etc., so that it can be reliably maintained.

  When the release button is pressed at the time of shooting, it is determined depending on the measurement result of the photometry circuit whether shooting is performed with the shooting light amount reduced or not. When it is determined that the photographing light quantity should be reduced and photographing should be performed, first, the motor for the filter device is energized to rotate the rotor 11 counterclockwise in FIG. Therefore, the filter blade 9 rotates counterclockwise. When the center of the opening 9a reaches the optical axis position, the filter blade 9 comes into contact with the stopper pin 1n provided on the shutter base plate 1 and stops.

  Immediately thereafter, the charge accumulated in the solid-state image sensor is released, and imaging starts when new charge accumulation starts. Thereafter, when a predetermined time elapses, the shutter motor is energized by a signal from the exposure control circuit, and the rotor 10 is rotated counterclockwise. Therefore, the shutter blades 7 and 8 are rotated in opposite directions, and immediately after closing the opening 2a, the shutter blades 7 and 8 come into contact with the stopper pins 1k and 1j provided on the shutter base plate 1 and stop. FIG. 4 shows a state in which the shutter blades 7 and 8 are also stopped after the filter blade 9 is stopped.

  When the opening 2a is closed in this way, the imaging information is transferred to the storage device in that state. When the transfer is completed, the motor of the shutter device is energized in the opposite direction to the above case. Therefore, the rotor 10 rotates clockwise to cause the shutter blades 7 and 8 to open. When the opening 2a is fully opened, the shutter blades 7 and 8 come into contact with the stopper pins 1i and 1k provided on the shutter base plate 1 and stop immediately thereafter. Thereafter, the motor of the filter device is also energized in the opposite direction to the above case, so that the rotor 11 rotates in the clockwise direction, causing the filter blade 9 to retract from the opening 2a. Thus, immediately after the filter blade 9 is completely retracted from the opening 2a, the filter blade 9 comes into contact with the stopper pin 1m provided on the shutter base plate 1 and stops. When the power supply to the two motors is cut off, the initial state shown in FIG. 1 is restored.

  On the other hand, when photographing without reducing the amount of photographing light, the shutter blades 7 and 8 are reciprocally rotated as described above without the filter blade 9 being reciprocated. Therefore, in order to avoid duplication, description of the operation in that case is omitted. Although the above operation has been described in the case where it is adopted in a digital still camera, the operation performed in this way is the basic even if it is adopted in another digital camera (a camera equipped with a solid-state imaging device). Are the same. Furthermore, when it is employed in a silver salt film camera, the state in which the filter blade 9 is in the position of FIG. 1 and the shutter blades 7 and 8 are in the position of FIG. 4 is the initial state. Since the operation in this case is obvious to those skilled in the art, description thereof is omitted.

  In the case of the above embodiment, the space on the shutter base plate 1 side is the blade chamber of the shutter blades 7 and 8, and the space on the cover plate 3 side is the blade chamber of the filter blade 9. You can replace them. In the case of the present embodiment, the cover plate 3 is described as being made of metal. However, in the case of the filter blade 9, the high speed as the shutter blades 7 and 8 may not be required. May be made of synthetic resin.

  Further, the camera shutter of the embodiment is a unit in which the shutter device and the filter device are unitized. However, as described above, the camera shutter of the present invention replaces the filter blades with the aperture blades, thereby providing the shutter device. And the diaphragm device may be unitized. Furthermore, the space on the shutter base plate side is the blade chamber of the shutter blade, the space on the cover plate side is the blade chamber of the diaphragm blade and the filter blade, or one of the diaphragm blade and the filter blade is disposed in the same chamber as the shutter blade. Thus, the three devices may be unitized. As such, the configuration in which two different types of blade members are arranged in the same chamber is well known, without needing to give an example.

  Furthermore, in the above embodiment, two shutter blades are provided, but the present invention may be made one by slightly increasing the shape of the blades. Further, in the case of filter blades or diaphragm blades, for example, as a turret member as described in Japanese Patent Application Laid-Open No. 11-218797, the light attenuation may be controlled in a plurality of stages. Therefore, in the case of the above embodiment, the case where a current control type motor called a moving magnet type motor or the like is used as the actuator has been described. However, the present invention is not limited to other electromagnetic drives such as a step motor. Means may be used.

It is a top view of the Example which showed the initial state. It is a principal part enlarged view of FIG. It is the sectional view on the AA line in FIG. It is the top view of the Example which showed the state immediately after completion | finish of imaging | photography.

Explanation of symbols

1 shutter base plate 1a, 2a, 3a, 9a opening 1b, 1c, 1d, 1e, 1f, 1g shaft 1h positioning pin 1i, 1j, 1k, 1m, 1n stopper pin 1p, 1q, 1r pedestal 1s, 1t, 1u Sliding part 1v, 1w, 2d, 3b, 3c, 3d, 3q, 7a, 8a, 9c Long hole 2 Intermediate plate 2b, 2c, 3h, 3i, 3j, 3k, 3m, 3n, 3p Hole 2e, 3r Window 3 Cover plate 3e, 3f, 3g Pressing portion 4, 5, 6 Screw 7, 8 Shutter blade 9 Filter blade 9b ND filter plate 10, 11 Rotor 10a, 11a Output pin

Claims (2)

  A shutter base plate having at least one positioning means and a plurality of pedestal portions on one surface, and is prevented from moving in a direction perpendicular to the optical axis by the positioning means and contacts the plurality of pedestal portions. And an intermediate plate that forms a space between the shutter base plate and a plurality of flexible pressing portions formed in a bent shape at a predetermined angle. A cover plate which is screwed to the shutter base plate so as to press the plate against the plurality of pedestal portions and forms a space between the intermediate plate and at least one sheet disposed in one of the two spaces A shutter blade, and at least one dimming blade member disposed in the other of the two spaces. The said cover plate forms the hole provided in order to make the said press part into a bending shape, and the hole which inserts a screw in order to attach to the said shutter base plate as one hole, It is characterized by the above-mentioned. Item 14. A camera shutter according to Item 1.