JP2004088374A - Electronic camera - Google Patents

Abstract

An object of the present invention is to prevent deterioration of an image due to dust generated inside a camera as well as dust from the outside.
An image pickup unit includes an image pickup element that receives a light beam that has passed through a photographing opening formed in an opening forming member, and a light beam that reaches the opening in front of the photographing opening. The imaging operation members 7 and 21 to be driven are provided separately from the imaging unit 100, and a dust-proof light transmitting member 8 that closes the opening AP to prevent dust from passing through the imaging opening AP.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic camera, which prevents image deterioration due to dust.
[0002]
[Prior art]
2. Description of the Related Art An electronic camera receives a photographing light beam with an image sensor such as a CCD, converts the photoelectric conversion output into image data, and records the image data on a recording medium. In many electronic cameras, an optical low-pass filter is arranged on the front side of an image sensor.
In such an electronic camera, when dust adheres to the surface of the optical low-pass filter, the adhering portion becomes a black dot and appears in a captured image, and the appearance of the image deteriorates. In particular, in cameras with interchangeable lenses, external dust enters the camera body through the opening of the lens mount when the lens is replaced, and this dust is lifted up by the operation of shooting operation members such as shutters and mirrors, and floats on the optical low-pass filter and various places while floating. Adhere to. The dust adhering to the optical low-pass filter is temporarily wiped off to eliminate the adverse effect on the image, but the dust adhering to other parts is wound up again by the operation of the photographing operation member, and the optical low-pass filter is again removed. May adhere to the surface. In particular, the dust easily accumulates in the uneven portion in the camera body, and it is not easy to remove the dust. Once the dust accumulates, the optical low-pass filter must be frequently cleaned. In addition to dust entering from outside, there are also dusts generated by the operation of the photographing operation member (for example, minute paint pieces generated by sliding between shutter blades), and these also have the same problem as described above. Bring.
[0003]
As an electronic camera for preventing image deterioration due to dust, there is one disclosed in, for example, Japanese Patent Application Laid-Open No. 2000-241869. In a camera in which a photographing lens and a finder can be exchanged, the opening of the lens mount and the finder mount is covered with a transparent cover to prevent dust from entering the camera body.
[0004]
[Problems to be solved by the invention]
However, although the method of covering the opening of the lens mount or the viewfinder mount can prevent dust from entering from outside, it does not prevent dust generated by the operation of the shooting operation member or dust originally existing in the camera body. It does not provide a dustproof effect and cannot prevent image deterioration.
[0005]
An object of the present invention is to provide an electronic camera capable of preventing image deterioration due to dust generated inside the camera as well as dust from the outside.
[0006]
[Means for Solving the Problems]
The present invention relates to an imaging unit including an imaging element that receives a light beam that has passed through a photographing opening formed in an opening forming member, and a photographing operation member that is driven in front of the photographing opening to control the light flux that reaches the opening. And a dust-proof light transmitting member that is provided separately from the imaging unit and closes the opening to prevent dust from passing through the photographing opening, thereby solving the above-mentioned problems.
According to a second aspect of the present invention, the arrangement space of the imaging unit is separated from the arrangement space of the photographing operation member and sealed by a light transmitting member and other camera components.
According to a third aspect of the present invention, the light transmitting member is attached to the opening forming member via an elastic member.
According to a fourth aspect of the present invention, the light transmitting member is an optical low-pass filter.
According to a fifth aspect of the present invention, the photographing operation member includes at least one of a shutter and a mirror that can be inserted into and retracted from the optical path of the subject.
According to the sixth aspect of the present invention, it is possible to clean the light incident surface of the light transmitting member through the opening for attaching and detaching the optical system, and the light incident surface of the light transmitting member is positioned forward of the front surface of the opening forming member. A light transmitting member is attached.
According to a seventh aspect of the present invention, measures are taken to adsorb dust near the photographing opening.
According to the eighth aspect of the present invention, the light incident surface of the light transmitting member can be cleaned through the opening for attaching and detaching the optical system, and the light transmitting member is seen from the opening for attaching and detaching through the opening of the shutter as a photographing operation member. Sometimes, the entire light transmitting member is configured to be exposed from the opening of the shutter.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
One embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a side view of the electronic camera according to the present embodiment. The electronic camera 1 is a single-lens reflex type with an interchangeable lens, and an interchangeable lens 3 is mounted on a camera body 1a via a lens mount 5. The photographing light beam transmitted through the photographing lens 3 is guided into the camera body through the opening 5 a of the lens mount 5, reflected by the main mirror 7 to form an image on the finder screen 9, and formed by the pentaprism 11 and the eyepiece 13. Observed through.
[0008]
A shutter 21 is arranged behind the mirror 7, and an imaging unit 100 is arranged behind the shutter 21. The shutter 21 and the mirror 7 constitute a photographing operation member. As shown in the enlarged view of FIG. 2, the imaging unit 100 includes a CCD 35 as a solid-state imaging device, an optical low-pass filter 41, a cover glass 39, an aperture sheet 43, and a circuit board 31 which are integrated in advance. The CCD 35 receives the photographing light beam on its light receiving surface 37 and converts it into an electric image signal. The optical low-pass filter 41 is for obtaining a good image signal except for a high-frequency component of a photographing light beam, and is fixed via a leaf spring or the like. The aperture sheet 43 functions as a light blocking member for preventing harmful light from outside the photographing screen from entering the light receiving surface 37, and is provided with an opening 43a for passing only an effective light flux. In addition, there is a camera using an image sensor (for example, CMOS) other than the CCD 35.
[0009]
The CCD 35 is provided with a mounting portion 35a, and the mounting portion 35a is screwed to a mounting portion 1b of a camera body main body (hereinafter, simply referred to as a main body) 1a, so that the imaging unit 100 is fixed in the camera body. You. The mounting portion 1b is disposed so as to surround the side surface of the imaging unit 100 over the entire circumference, and the mounting portion 35a of the CCD 35 is screwed to the tip of the mounting portion 1b via a dustproof gasket 10. Therefore, dust does not intrude into the arrangement space SP1 of the imaging unit 100 from the rear space SP2 (FIG. 1) of the camera body.
[0010]
On the other hand, the main body 1a has an opening forming portion 1c between the shutter 21 and the imaging unit 100, and a photographing opening (aperture) AP is formed here. The photographing opening AP is covered at the front with a dustproof light transmitting member 8. The light transmitting member 8 is made of transparent glass, and its peripheral edge is bonded and fixed to the front surface of the opening forming portion 1c through an elastic member (for example, rubber) 9 over the entire circumference. By closing the photographing opening AP in this manner, the arrangement space SP1 of the imaging unit 100 is isolated and sealed not only from the rear space SP2 but also from the arrangement space SP3 of the mirror 7 and the shutter 21. . Here, the photographing opening AP is made smaller than the opening 22 of the shutter 21, and the light transmitting member 8 that closes the opening AP is also made smaller than the shutter opening 22. This is for the convenience of cleaning the light transmitting member 8, which will be described later in detail.
[0011]
The front surface of the opening forming portion 1c is a flat surface with almost no irregularities, and a dust capturing member 61 is provided on a portion of the surface around the light transmitting member 8. The dust capturing member 61 may be made of, for example, a permanently adhesive double-sided tape or the like, or may be coated with a permanently adhesive adhesive paint. Alternatively, a member that adsorbs dust by static electricity may be used.
[0012]
In the above configuration, when the release operation is performed, the mirror 7 is flipped up and retracted from the photographing optical path, and the shutter 21 is driven. The entire amount of the photographic light beam passes through the light transmitting member 8 through the opening 22 of the shutter 21 due to the mirror-up, and further enters the imaging unit 100 through the photographic opening AP. Then, the light passes through the optical low-pass filter 41, the aperture 43 a of the aperture sheet 43, and the cover glass 39 in order, and is received by the light receiving surface 37 of the CCD 35. The photoelectric conversion output of the CCD 35 is sent to an image processing unit (not shown) via the circuit board 31 and the flexible printed board 33.
Since the light transmitting member 8 is simply a transparent glass, even if it is inserted into the optical path, it does not affect the optical performance at all.
[0013]
By the way, when the photographic lens 3 is replaced, external dust may enter the camera body through the opening 5a of the mount 5. However, as described above, since the arrangement space SP1 of the imaging unit 100 is a closed space, dust that has entered the body remains in the arrangement space SP3 of the mirror 7 and the shutter 21 and does not enter the space SP1. Similarly, dust generated by the operation of the mirror 7 and the shutter 21 does not enter the space SP1. Further, even when dust is present in the space SP2 on the rear side of the camera, the dust does not enter the space SP1. Therefore, dust does not adhere to the optical low-pass filter 41 and the cover glass 39.
[0014]
On the other hand, since the light incident surface of the light transmitting member 8 faces the space SP3, dust may adhere thereto. That is, there is a possibility that the dust that has entered the space SP3 when the lens is replaced is wound up by the operation of the mirror 7 and the shutter 21 and adheres to the light incident surface of the light transmitting member 8. However, in the present embodiment, the front surface of the opening forming portion 1c is a flat surface without unevenness, and there is no place where dust accumulates, and dust floating near the light transmitting member 8 is adsorbed by the dust capturing member 61, The possibility that the adsorbed dust adheres to the light transmitting member 8 again is low. Therefore, the amount of dust adhering to the light transmitting member 8 can be minimized.
[0015]
Further, unlike the optical low-pass filter 41, the light transmitting member 8 is separate from the imaging unit 100 and is attached independently to the front surface of the opening forming portion 1c. Plane) 37. Therefore, even if dust adheres to the light incident surface of the light transmitting member 8, the deterioration of the image is less than that in the case where the dust adheres to the low-pass filter 41 closer to the image forming surface.
[0016]
Further, the camera of the present embodiment has a configuration in which the light transmitting member 8 can be easily cleaned. To clean the light transmitting member 8, first, the photographing lens 3 is removed from the camera body 1a, and the camera is switched to the cleaning mode. In the cleaning mode, the mirror 7 is flipped up and the shutter 21 is opened as shown in FIG. In this state, a cleaning member such as a cotton swab is inserted through the opening 5 a of the lens mount 5, and is applied to the light incident surface of the light transmitting member 8 through the shutter opening 22, and is wiped downward, for example. Alternatively, the cotton may be pinched with tweezers and wiped similarly. In any case, it is performed in such a manner as to remove dust adhering to the incident surface.
[0017]
In the present embodiment, since the light transmitting member 8 to be cleaned is located forward of the optical low-pass filter 41, the cleaning operation can be performed more easily than when the optical low-pass filter 41 is cleaned. In addition, since the light transmitting member 8 is smaller than the opening 22 of the shutter 21, when viewed from the mount opening 5a, the entire light transmitting member 8 is exposed from the shutter opening 22 as shown in FIG. The entire surface can be wiped. In addition, since the light incident surface of the light transmitting member 8 is located at a position slightly protruding forward from the front surface of the opening forming portion 1c, as can be seen from FIG. Dust adhered to the surface can be reliably wiped down from the lower edge. Most of the dust removed is adsorbed by the dust capturing member 61 provided in the opening forming portion 1c, and is less likely to adhere to the light transmitting member 8 again.
[0018]
Here, a configuration is considered in which the light transmitting member is integrated into the imaging unit in advance. In this case, a structure is adopted in which the light transmitting member is fitted into the photographing opening AP from behind, the light incident surface protrudes forward, and the imaging unit is fixed in that state. This is because cleaning is difficult if the light transmitting member does not protrude forward. However, in a configuration in which the light transmitting member integrated with the imaging unit is fitted into the imaging opening, it is extremely difficult to position the imaging unit in a direction orthogonal to the optical axis. Further, when the light transmitting member is cleaned, a force is applied to the CCD integrated with the light transmitting member, which may cause damage or the like. In the present embodiment, since the light transmitting member 8 and the imaging unit are separate bodies, the above-described problem does not occur.
[0019]
Further, as another method for preventing the adverse effect caused by the adhesion of dust, for example, it is conceivable to perform software correction on a signal obtained by an image sensor at an image processing stage. However, in this case, the processing program for that purpose must be incorporated, which increases the cost. Further, since the image processing takes time, it takes time until the next frame is photographed, and there is no guarantee that the correction can be performed perfectly. According to the configuration of the present embodiment, there is no such problem.
[0020]
Furthermore, in this embodiment, since the light transmitting member 8 is attached to the main body 1a via the elastic member 9, even if a force that deforms the main body 1a is applied by an impact applied to the camera, the elastic member 9 applies the force. It does not absorb and cause the light transmitting member 8 to be damaged. That is, the elastic member plays both roles of dust prevention and shock absorption.
[0021]
FIG. 5 shows another embodiment, and the same components as those in FIG. 1 are denoted by the same reference numerals. In the present embodiment, an optical low-pass filter is used as a light transmitting member that closes the imaging opening AP. That is, the optical low-pass filter 41A is separate from the imaging unit 100, and is independently fixed to the front surface of the opening forming portion 1c via the elastic member 9. The point that the optical low-pass filter 41 is smaller than the shutter opening 22 and that the light incident surface (the surface to be cleaned) protrudes from the front surface of the opening forming portion 1c is the same as the light transmitting member 8 of the previous embodiment. Therefore, the same operation and effect as the previous embodiment can be obtained. Further, in the present embodiment, it is not necessary to provide an optical low-pass filter in the imaging unit 100, so that the number of components can be reduced as compared with the previous embodiment, and the distance from the shooting aperture AP to the CCD can be shortened. Cost reduction and downsizing of the camera can be achieved. Further, in the present embodiment, the aperture sheet described above is also omitted, and the role of the photographing aperture AP is taken, so that the number of parts can be further reduced.
[0022]
The example in which the light transmitting member is attached to the main body via the elastic member has been described above, but the light transmitting member may be attached directly or via a holding frame or the like. Although an example in which the present invention is applied to an interchangeable lens type camera has been described, if the lens can be attached and detached without using an interchangeable lens type, the light transmitting member can be cleaned from the opening for attaching and detaching the lens. The present invention can be applied to a camera. Further, the present invention can be applied to a system in which the finder optical system is detachable and the light transmitting member can be cleaned from the opening for detachment. Further, the lens and the finder may not be detachable. In this case, dust rarely enters the camera body, but dust generated inside the camera can be prevented from adhering to the optical low-pass filter. Further, in this case, the light transmitting member for dust prevention cannot be cleaned, but dust adheres to the light incident surface of the light transmitting member because of the distance between the light transmitting member and the CCD light receiving surface as described above. However, the deterioration of the image can be reduced as compared with the case where the image adheres to the low-pass filter.
[0023]
【The invention's effect】
According to the present invention, since the photographing opening is closed by the dustproof light transmitting member, the dust is generated by the operation of the photographing operation member as well as the intrusion of dust from the outside, and the dust originally exists in the camera body. A dustproof effect can be exerted on dust, and image deterioration due to dust can be minimized.
[Brief description of the drawings]
FIG. 1 is a side sectional view of an electronic camera according to an embodiment of the present invention.
FIG. 2 is an enlarged view showing a part of FIG. 1;
FIG. 3 is a view similar to FIG. 2 and shows a state when a cleaning mode is set.
FIG. 4 is a view of a light transmitting member viewed from a mount opening through a shutter opening.
FIG. 5 is a side sectional view of an electronic camera according to another embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Camera 1a Camera body main body 1b Mounting part 1c Opening forming part 3 Photographing lens (interchangeable lens)
Reference Signs List 5 lens mount 5a lens mount opening 7 mirror 8 light transmitting member 9 elastic member 10 gasket 21 shutter 22 shutter opening 31 circuit board 35 CCD
35a mounting portion 37 light receiving surface 39 cover glass 41, 41A optical low-pass filter 43 aperture sheet 43a opening 61 dust capturing member 100 imaging unit AP imaging opening SP1 imaging unit arrangement space SP2 back side space SP3 shutter and mirror arrangement space

Claims (8)

An imaging unit that includes an imaging element that receives a light beam that has passed through a shooting opening formed in the opening forming member;
In front of the photographing opening, a photographing operation member driven to control a light flux reaching the opening,
An electronic camera, comprising: a dustproof light transmitting member that is provided separately from the imaging unit and that closes the photographing opening to block dust from passing through the opening. 2. The electronic camera according to claim 1, wherein a space in which the imaging unit is arranged is separated from a space in which the photographing operation member is arranged and sealed by the light transmitting member and other camera components. 3. The electronic camera according to claim 1, wherein the light transmitting member is attached to the opening forming member via an elastic member for absorbing shock. The electronic camera according to claim 1, wherein the light transmitting member is an optical low-pass filter. 5. The electronic camera according to claim 1, wherein the photographing operation member includes at least one of a shutter and a mirror that can be inserted into and retracted from a subject optical path. The light incident surface of the light transmitting member can be cleaned through an opening for attaching and detaching an optical system, and the light transmitting surface is positioned such that the light incident surface of the light transmitting member is located forward of the front surface of the opening forming member. The electronic camera according to any one of claims 1 to 5, wherein a member is attached. 7. The electronic camera according to claim 1, wherein a measure for adsorbing dust is taken in the vicinity of the photographing opening. The light incident surface of the light transmitting member can be cleaned through an opening for attaching and detaching an optical system, and when the light transmitting member is viewed through the opening of the shutter as the photographing operation member from the attaching / detaching opening, 8. The electronic camera according to claim 1, wherein the light transmitting member is entirely exposed from an opening of the shutter.

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