JP2008199269A - Camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a camera which allows the flexibility of design of an optical system to be increased and can satisfactorily photograph a subject without degrading light from the subject. <P>SOLUTION: A camera 10 includes a lens part 20 on which the light incident from the subject, a dimming mirror part 32 which is provided on an optical path of light A1 incident from the lens part 20 and can freely adjust a reflection ratio and a transmission ratio of at least a part of the light A1, an AF sensor 60 provided in a position which light A3 transmitted through the dimming mirror part 32 reaches, and an imaging element 51 provided in a position which light A4 reflected by the dimming mirror part 32 reaches. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a camera for photographing a subject.

In a single-lens reflex camera having an autofocus function, a technique is known in which a half mirror is used as a part of a mirror that switches an optical path of light from a subject and a part of light is transmitted to be used for autofocus. Such technology is mainly used for movable switching mirrors, and the reflected light enters the viewfinder and the transmitted light enters the autofocus sensor to perform autofocus. The mirror is movable so that light from the subject enters the image sensor.
In addition, as in Patent Document 1, a camera is proposed in which a reflected light is incident on a finder and an autofocus sensor and a transmitted light is incident on an image sensor with a fixed switching mirror using a half mirror on the entire surface. Yes.
However, since the half mirror used in such a camera always transmits light from the subject, the result of photographing the subject may be adversely affected with light deterioration such as dimming. In addition, since the arrangement positions of the autofocus sensor and the image sensor are limited, there is a problem that the degree of freedom in design is reduced.
JP 2006-197406 A

  An object of the present invention is to provide a camera that can improve the degree of freedom in designing an optical system and that can photograph a subject satisfactorily without deteriorating light from the subject.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated in a parenthesis, it is not limited to this.
The invention according to claim 1 is provided on an optical path of the incident light (A1) incident from the incident portion (20) and the incident light (A1) incident from the incident portion (20), and at least one of the light (A1). It is a camera (10) provided with the light control mirror (32) which can adjust freely the ratio which reflects and permeate | transmits a part.
According to a second aspect of the present invention, in the camera (10) according to the first aspect, the optical element (60) is provided at a position where the light (A3) transmitted through the light control mirror (32) reaches. Camera (10).
According to a third aspect of the present invention, in the camera (10) according to the second aspect, the imaging device (51) is provided at a position where the light (A4) reflected by the light control mirror (32) reaches. Camera (10).
According to a fourth aspect of the present invention, in the camera (10) according to the third aspect, the finder (40) provided at a position facing the imaging element (51), and the light (A1) is transmitted to the finder (40). A camera (10) comprising a rotation mechanism (33) for rotating the light control mirror (32) so as to reflect in a direction.
According to a fifth aspect of the present invention, in the camera (10) according to the fourth aspect, the rotation mechanism (33) rotates a specific rotation with respect to the optical path of the light (A1) incident from the incident portion (20). The dimming mirror (32) is rotated within a range, and the optical element (60) is disposed outside the specific rotation range within a rotation locus obtained by rotating the dimming mirror (32) once. It is the camera (10) characterized.
According to a sixth aspect of the present invention, in the camera (10) according to any one of the second to fifth aspects, the optical element (60) is an autofocus sensor. ).
According to a seventh aspect of the present invention, in the camera (10) according to the sixth aspect of the present invention, the camera (10) further includes an operation switching unit (11) that switches an operation content of autofocus, and the dimming mirror (30) includes the operation switching unit (11). ) To change the operation pattern to be switched to the ratio of reflecting the light (A1) or the ratio of transmitting the light (A1).
According to an eighth aspect of the present invention, in the camera (10) according to the seventh aspect, when the operation switching unit (11) does not perform autofocus, the light control mirror (32) is moved to the light (A1). It is a camera (10) characterized by switching to the state which reflects.
A ninth aspect of the present invention is the camera (10) according to the seventh or eighth aspect, further comprising an operation unit (13) for instructing photographing of the subject, wherein the operation switching unit (11) includes the light control. The mirror (32) is switched to a state in which the light (A1) is transmitted, the light (A3) is focused by the autofocus sensor (60), the focus is maintained, and the light control mirror ( 32) is switched to a state in which the light (A1) is reflected, and the subject is photographed at the maintained focal point in accordance with an instruction from the operation unit (13). It is.
According to a tenth aspect of the present invention, in the camera (10) according to any one of the seventh to ninth aspects, the camera (10) includes an operation unit (13) for instructing photographing of the subject, and the operation switching unit (11). ) Switches the dimming mirror (32) to a state in which the light (A1) is transmitted, and continuously focuses the light (A3) by the autofocus sensor (60). When the photographing of the subject is instructed in 13), the dimming mirror (32) is switched to a state of reflecting the light (A1) to photograph the subject. It is.

  According to the present invention, the camera includes a dimming mirror that can freely adjust the ratio of reflecting and transmitting at least part of the light on the optical path of the light incident from the subject. The degree of freedom in designing the camera can be improved, and the subject can be photographed satisfactorily without deteriorating the light from the subject.

Hereinafter, the present invention will be described in more detail with reference to the drawings and the like.
FIG. 1 is a schematic diagram showing an embodiment of a camera according to the present invention. FIG. 1A shows the overall configuration of the camera, and FIG. 1B shows a control block diagram of the camera.
For clarity of explanation, the left side of FIG. 1A is the front part of the camera, the right side is the rear part, the upper part is the upper part, the lower part is the lower part, the front side of the page is the left part, and the back side of the page is the right part. Will be described.

  As shown in FIG. 1A, the camera 10 includes a control unit 11, an image display unit 12, an operation unit 13, a lens unit 20, a mirror unit unit 30, a viewfinder unit 40, a shutter unit 50, an image sensor 51, and an AF sensor. 60 is a single-lens reflex digital camera having an autofocus (AF) function. The camera 10 has two types of shooting methods, one of which is viewfinder shooting for shooting based on the subject image displayed on the viewfinder unit 40, and the other is displayed on the image display unit 12. It is display part imaging | photography which image | photographs based on the to-be-photographed object image.

As shown in FIGS. 1A and 1B, the control unit 11 is a CPU that is provided inside the camera 10 and controls each unit of the camera 10 in an integrated manner. In addition, the control unit 11 appropriately controls each unit of the camera 10 with respect to three types of shooting modes of the camera 10: a single mode, a continuous mode, and an AF-OFF mode (operation switching unit).
Here, the single mode means that the subject image is focused at an appropriate point by the autofocus function, the focal point is stored, and the subject is photographed at the stored focal point when the shutter unit 50 is opened. This mode is mainly used for shooting a stationary subject.
In the continuous mode, the subject image is continuously focused in the autofocus function until the shutter unit 50 is opened, and the focal point at the time when a shooting instruction from the operation unit 13 described later is issued. This is a mode for photographing a subject, and is mainly used for photographing a moving subject.
Furthermore, the AF-OFF mode is a mode that does not use autofocus, and is used when a photographer wants to focus by his / her own operation.

The image display unit 12 is a liquid crystal display that is provided at the rear of the camera 10 and displays a subject image, information related to an operation, a photographed subject image, and the like. In the above-described shooting of the display section, the subject image is always displayed until the shutter section 50 is opened.
The operation unit 13 is a release switch that is provided on the upper part of the camera 10 and executes photographing of a subject image displayed on the image display unit 12 or the viewfinder unit 40. In this embodiment, when the release switch is half-pressed, the autofocus function is activated, and when the release switch is fully depressed, a shutter unit 50 described later is activated to photograph the subject.
The lens unit 20 is provided at the front portion of the camera 10 and has a zoom function for entering the subject light A1, enlarging or reducing the subject image according to the shooting purpose, and emitting the image to the mirror unit unit 30. It is a county.

The mirror unit 30 is a mirror mechanism that is provided at a position where the light A1 emitted from the rear part of the lens unit 20 is incident, and appropriately causes the light A1 to be incident on the finder unit 40, the image sensor 51, and the AF sensor 60. FIG. 2 is a diagram showing details of the mirror unit 30 of the camera. The mirror unit 30 includes a reflection mirror unit 31, a light control mirror unit 32, and a rotation mechanism unit 33.
As shown in FIG. 2A, the reflection mirror unit 31 is a mirror that is provided around the dimming mirror unit 32 and reflects the light A1.
The dimming mirror unit 32 is a rectangular mirror that enters a specific region including the center of the light A1, and is an electrochromic dimming mirror that can reversibly change the transmittance by applying a voltage. (For example, patent application publication number: JP-A-2006-335553). In the present embodiment, by changing the applied voltage, the dimming mirror unit 32 causes the mirror reflection state (a state in which light is reflected) to reflect substantially all of the incident light A1 and the mirror half to transmit the light A1. It can be switched to a transmission state (a state in which light is transmitted).
The rotation mechanism unit 33 includes a rotation mechanism provided at both right and left ends of the reflection mirror unit 31 and a rotation motor that drives the rotation mechanism. The direction in which the light A1 is reflected is determined in the direction of the finder unit 40 or the imaging element. The mirror unit 30 is rotated to a specific rotation angle so that it can be switched to the 51 direction. In the present embodiment, the rotation is performed from the state inclined 45 degrees to the light A1 to the state inclined 135 degrees.
As shown in FIG. 1A, the light A1 incident on the mirror unit 30 is reflected to the finder 40 to become light A2, and reflected to the image sensor 51 to become light A4. The light A3 is transmitted through the AF sensor 60.

As shown in FIG. 1A, the viewfinder section 40 includes a penta roof prism 40-1 and an eyepiece section 40-2.
The penta roof prism 40-1 is a polygonal prism that is disposed at a position where the light A2 reflected when the mirror unit 30 is inclined 45 degrees is incident, and that emits the incident light A2 to the eyepiece 40-2. is there.
The eyepiece 40-2 is an optical system that is disposed at a position where the light A2 emitted from the penta roof prism 40-1 is incident, and has a built-in lens that magnifies and projects the incident light A2.
The shutter unit 50 is disposed at a position where the light A4 reflected when the mirror unit unit 30 is tilted 135 degrees and restricts the incident light A4 from entering the image sensor 51. The shutter unit 50 is always closed during finder shooting, and is opened only when the operation unit 13 is fully pressed, and the light A4 is incident on the image sensor 51. In addition, when the display unit is photographed, it is always open, and when the operation unit 13 is fully pressed, it is temporarily closed and then reopened, so that the light A4 is incident on the image sensor.
The image sensor 51 is a CCD (Charge-Coupled Device) provided at the lower part of the shutter unit 50. The image sensor 51 exposes the light A4 incident through the shutter unit 50, converts it into an electrical image signal, and converts it into an image display unit. 12 is output.
The AF sensor 60 is disposed at a position where the light A3 that has passed through the mirror unit 30 is incident. The AF sensor 60 is incident on the light A3 when the dimming mirror 32 is in a semi-transmissive state of the mirror, and is used for a focusing operation. This is an autofocus sensor. Further, the AF sensor 60 is disposed outside the rotation range of the mirror unit 30 (45 degrees to 135 degrees with respect to the light A1) in the rotation locus obtained by rotating the mirror unit 30 once.

FIG. 3 is a diagram for explaining a trend of light of a subject reflected and transmitted by the mirror unit of the camera.
When the shooting method is finder shooting, the mirror unit 30 is inclined by 45 degrees with respect to the light A1 of the subject incident from the lens unit 20 by the rotation mechanism 33 as shown in FIG. When the operation unit 13 is fully pressed, as shown in FIG. 2B, the posture is inclined 135 degrees with respect to the light A1 (arrow B). Further, when photographing the display section, as shown in FIG. 2B, the posture inclined 135 degrees with respect to the light A1 is always maintained.
As shown in FIG. 3A, the light A1 that is incident on the mirror unit 30 has the mirror unit 30 tilted by 45 degrees, and the light A1 of the subject enters the dimming mirror 32 in the mirror reflection state. When it is incident, it is bent upward perpendicular to the light A1 to become light A2. When the light A1 is incident on the dimming mirror 32 in the semi-transparent state of the mirror, as shown in FIG. 3B, a part of the light A1 is not reflected but transmitted through the dimming mirror 32. A3.
On the other hand, as shown in FIG. 3C, when the light A1 from the subject is incident on the dimming mirror 32 in the mirror reflection state with the mirror unit 30 tilted by 135 degrees, the light A1 is The light A4 is bent downward perpendicular to the light A1. When the light A1 is incident on the dimming mirror unit 32 in the semi-transparent state of the mirror, as shown in FIG. 3D, a part of the light A1 is not reflected but transmitted through the dimming mirror unit 32. A3.

Next, the operation of the camera 10 will be described. FIG. 4 is an operation flow of autofocus when shooting with the finder unit 40 of the camera.
First, the control unit 11 of the camera 10 takes the above-described shooting method (finder shooting or display unit shooting) and shooting mode (single mode, continuous mode, or AF-OFF mode) by the photographer when shooting a subject. Let them choose.

  When the photographer selects the single mode of the finder shooting and starts shooting as shown in FIG. 4A (S101), the control unit 11 shows the mirror unit 30 as shown in FIG. As described above, the state is inclined by 45 degrees with respect to the light A1, and the dimming mirror unit 32 is set in the mirror reflection state (S102). At this time, the light A1 is bent upwards perpendicular to the light A1 by the mirror unit 30 to become the light A2, and the subject image can be observed on the eyepiece 40-2 via the penta roof prism 40-1. Next, when the operation unit 13 is half-pressed by the photographer looking into the eyepiece unit 40-2 (S103: Yes), the dimming mirror unit 32 is in a semi-transparent state as shown in FIG. (S104). At this time, a part of the light A1 incident from the lens unit 20 is transmitted through the light control mirror unit 32 to become light A3, enters the AF sensor 60 provided at the rear part of the mirror unit unit 30, and the remaining light A1. Is reflected as light A2 and enters the finder 40.

When the AF sensor 60 is incident on the light A3, the control unit 11 is focused by the AF driving unit (not shown) of the lens unit 20 and the AF sensor 60 (S105), the focal point is stored, and the dimming mirror unit 32 is stored. Is switched to the mirror reflection state (S106).
Subsequently, when the operation unit 13 is fully pressed by the photographer (S107: Yes), the control unit 11 rotates the mirror unit unit 30 with the rotation mechanism unit 33, and as shown in FIG. The shutter section 50 is opened (S109). At this time, the light A1 of the subject incident through the lens unit 20 is bent downwardly perpendicular to the light A1 by the mirror unit 30 inclined by 135 degrees to become the light A4, and is imaged through the opened shutter unit 50. The light is incident on the element 51 and the subject image is exposed (S110).
If the operation unit 13 is not fully pressed after storing the focal point (S107: No), it is confirmed whether or not the half-press of the operation unit 13 is continued (S111). When it is continuously pressed halfway (S111: Yes), the control unit 11 waits until the operation unit 13 is fully pressed. When the half-pressed state is released by releasing the operation unit 13 or the like (S111: No), the state before the half-press (S103) of the operation unit 13 is once again entered.

  When the photographer selects the finder shooting continuous mode and starts shooting as shown in FIG. 4B (S201), the control unit 11 sets the mirror unit 30 in FIG. 3B. As shown in FIG. 4, the light is tilted 45 degrees with respect to the light A1, and the dimming mirror 32 is set in a semi-transparent state (S202). At this time, the light A1 incident on the reflection mirror unit 31 among the light A1 incident through the lens unit 20 is bent upward to be orthogonal to the light A1 due to the inclination of the mirror unit unit 30, and becomes the light A2. The subject image can be observed on the eyepiece 40-2 via the roof prism 40-1. Of the light A1 incident through the lens unit 20, the light A1 incident on the dimming mirror unit 32 is partly transmitted to become the light A3 because the dimming mirror unit 32 is in a semi-transparent state. Then, the light enters the AF sensor 60 at the rear of the mirror unit 30, and the remaining light A1 is reflected to become light A2, and enters the penta roof prism 40-1 of the finder part 40.

Next, when the operation unit 13 is half-pressed by the photographer looking into the eyepiece unit 40-2 (S203: Yes), the control unit 11 performs the AF driving unit (not shown) of the lens unit 20 and the AF sensor 60. Thus, focusing is continuously performed (S204).
Subsequently, when the operation unit 13 is fully pressed by the photographer (S205: Yes), the control unit 11 maintains the focal point at the time when the operation unit 13 is fully pressed and puts the light control mirror unit 32 into a mirror reflection state ( S206). Then, as shown in FIG. 3C, the mirror unit 30 is rotated by the rotation mechanism unit 33 so as to be inclined 135 degrees with respect to the light A1 (S207), and the shutter unit 50 is opened (S208). At this time, the light A1 of the subject incident through the lens unit 20 is bent downward perpendicular to the light A1 by the mirror unit 30 inclined by 135 degrees to become the light A4, and then through the opened shutter unit 50. The light is incident on the image sensor 51 and the subject image is exposed (S209).
If the operation unit 13 is not fully pressed (S205: No), the state before the operation unit 13 is half-pressed (S203) is entered again.

FIG. 5 is an operation flow of autofocus when shooting with the image display unit of the camera.
When the photographer selects the single mode of the display unit photographing and starts photographing as shown in FIG. 5A (S301), the control unit 11 puts the light control mirror unit 32 into a mirror reflection state (S301). S302). Further, as shown in FIG. 3C, the mirror unit 30 is inclined by 135 degrees with respect to the light A1 (S303), and the shutter unit 50 is opened (S304). At this time, the light A <b> 1 is bent downward perpendicular to the light A <b> 1 by the mirror unit 30 to become light A <b> 4, enters the image sensor 51 through the opened shutter unit 50, and observes the subject image on the image display unit 12. enable.
Next, when the operation unit 13 is half-pressed by a photographer who shoots a subject while looking at the image display unit 12 (S305: Yes), as shown in FIG. The transmission state is switched (S306). Since the dimming mirror unit 32 is in a semi-transparent state, a part of the light A1 incident from the lens unit 20 is transmitted through the dimming mirror unit 32 to become the light A3, and is provided at the rear part of the mirror unit unit 30. The incident light enters the AF sensor 60, and the remaining light A <b> 1 is reflected to become light A <b> 4 and enters the image sensor 51 through the shutter unit 50.

When the AF sensor 60 is incident on the light A3, the control unit 11 is focused by the AF driving unit (not shown) of the lens unit 20 and the AF sensor 60 (S307), and the focal point is stored, and FIG. As shown in FIG. 3, the dimming mirror unit 32 is switched to the mirror reflection state (S308).
Subsequently, when the operation unit 13 is fully pressed by the photographer (S309: Yes), the control unit 11 closes the shutter unit 50 (S310), opens it again (S311), and light is transmitted through the opened shutter unit 50. A3 enters the image sensor 51 and exposes the subject image (S312).
If the operation unit 13 is not fully pressed after the focal point is stored (S309: No), it is confirmed whether or not the half-press of the operation unit 13 is continued (S313). When it is continuously pressed halfway (S313: Yes), the control unit 11 waits until the operation unit 13 is fully pressed. When the half-pressed state is released by releasing the operation unit 13 or the like (S313: No), the state before the half-pressing of the operation unit 13 (S305) is performed again.

  When the photographer selects the finder shooting continuous mode and starts shooting (S401) as shown in FIG. 5B, the control unit 11 puts the light control mirror unit 32 in a semi-transparent state of the mirror. (S402). Further, as shown in FIG. 3D, the mirror unit 30 is inclined by 135 degrees with respect to the light A1 (S403), and the shutter unit 50 is opened (S404). At this time, among the light A1 incident through the lens unit 20, the light A1 incident on the reflection mirror unit 31 is bent downward perpendicular to the light A1 by the mirror unit unit 30 to become light A4, and the shutter is opened. The light is incident on the image sensor 51 via the unit 50, and the subject image can be observed on the image display unit 12. Of the light A1 incident through the lens unit 20, the light A1 incident on the dimming mirror unit 32 is partially transmitted through the dimming mirror unit 32 because the dimming mirror unit 32 is in a semi-transparent state. A <b> 3 becomes incident on the AF sensor 60 at the rear of the mirror unit 30, and the remaining light A <b> 1 is reflected to become light A <b> 4 and enters the image sensor 51 through the shutter unit 50.

Next, when the operation unit 13 is half-pressed by a photographer who shoots a subject while viewing the image display unit 12 (S405: Yes), the control unit 11 performs the AF driving unit (not shown) of the lens unit 20 and the AF. The sensor 60 is continuously focused (S406).
Subsequently, when the operation unit 13 is fully pressed by the photographer (S407: Yes), the control unit 11 maintains a focal point at the time when the operation unit 13 is fully pressed, and as shown in FIG. The mirror unit 32 is brought into a mirror reflection state (S408), the shutter unit 50 is closed (S409), and then opened again (S410). At this time, the light A3 is incident on the image sensor 51 through the opened shutter unit 50, and the subject image is exposed (S411).
If the operation unit 13 is not fully pressed (S407: No), the state before the operation unit 13 is half-pressed (S405) is obtained again.

  When the AF-OFF mode is selected by the photographer, the dimming mirror unit 32 is always in the mirror reflection state regardless of the photographing method. Each unit of the camera 10 including the mirror unit unit 30 performs the same operation as in the above-described finder photographing and display unit photographing in accordance with the operation of the shutter unit 50 based on the operation unit 13 to photograph the subject.

From the above, the camera of this embodiment has the following effects.
(1) The camera 10 includes a dimming mirror unit 32 that can switch between a mirror reflection state that reflects at least a part of the light A1 and a mirror semi-transmission state that transmits the light A1 on the optical path of the light A1 incident from the subject. Therefore, the image pickup device 51 and the AF sensor 60 can be arranged in various ways, and the design freedom of the camera 10 can be improved. In addition, the subject can be photographed satisfactorily without deteriorating the light A1 from the subject.
(2) The mirror unit 30 includes a penta roof prism 40-1 and an eyepiece 40-2 provided at positions facing the image sensor 51, and rotates the mirror unit 30 to bend the optical path of the light A1. And a rotation mechanism 33 that causes the light A2 to be incident on the eyepiece 40-2 via the penta roof prism 40-1, so that the object A can be easily detected according to the operation of the camera 10. The light A1 can be incident on the eyepiece 40-2 or the image sensor 51.
(3) Since the AF sensor 60 is disposed outside the rotation range of the mirror unit 30 within the rotation locus obtained by rotating the mirror unit 30 once, the space in the camera 10 can be effectively utilized. The camera 10 can be reduced in size by reducing the thickness of the camera 10 in the front-rear direction.
(4) The control unit 11 switches the shooting mode according to the operation content of the autofocus, and the operation pattern for switching the light control mirror unit 32 to the mirror reflection state or the mirror semi-transmission state based on the switched shooting mode. Therefore, according to the purpose of shooting, the reflection and transmission of the light A1 incident from the subject can be freely changed, and various shootings can be set.
(5) In the AF-OFF mode in which the autofocus is not performed, the control unit 11 switches the dimming mirror unit 32 to the mirror reflection state, so that the mirror unit unit 30 reduces the light A1 of the subject. Without being incident on the eyepiece 40-2 or the image sensor 51.
(6) The camera 10 includes an operation unit 13 that instructs to shoot a subject, and the control unit 11 switches the dimming mirror unit 32 to a mirror semi-transmissive state, and an AF driving unit (not shown) of the lens unit 20. The focus is maintained by the AF sensor 60, the focus is maintained, the dimming mirror unit 32 is switched to the mirror reflection state, and the subject is maintained in focus as the operation unit 13 is fully pressed. Since the single mode for photographing is provided, the image of the subject image projected on the eyepiece 40-2 or the image display unit 12 can be clearly projected before the photographing.
(7) The camera 10 includes the operation unit 13 that instructs to shoot a subject, and the control unit 11 switches the dimming mirror unit 32 to the mirror semi-transmissive state and focuses the light A3 by the AF sensor 60. When the operation unit 13 is fully pressed, it has a continuous mode in which the light control mirror unit 32 is switched to the mirror reflection state at the focal point when the operation unit 13 is fully pressed, and the subject is photographed. The number of times the optical mirror unit 32 is switched can be minimized, and the response time of the camera 10 can be improved. In addition, since the camera 10 continuously obtains the focal point of the subject image until the operation unit 13 is fully pressed, the moving subject can be clearly photographed.

(Modification)
The present invention is not limited to the embodiment described above, and various modifications and changes are possible, and these are also within the equivalent scope of the present invention.
(1) In the present embodiment, the mirror unit unit 30 uses two types of mirrors, that is, the reflection mirror unit 31 and the dimming mirror unit 32. , May be reflected or transmitted. When the dimming mirror unit 32 receives all of the light A1, autofocus can be performed on all the light A1 from the subject, and clearer shooting can be performed.
(2) In the present embodiment, in the continuous mode of the shooting mode, the dimming mirror unit 32 is in the mirror semi-transmissive state even before the operation unit 13 is half-pressed (before the autofocus operation). The mirror semi-transmission state and the mirror reflection state may be switched continuously at high speed. By continuously switching at a high speed, the subject image projected on the eyepiece 40-2 or the image display unit 12 can be made to appear bright. Here, the high speed means a speed at which switching cannot be determined by the human eye, for example, a switching cycle of about 50 Hz.
(3) In the present embodiment, the dimming mirror unit 32 uses an electrochromic method that reversibly changes the transmittance by applying a voltage, but other methods, for example, changes the transmittance due to changes in atmospheric gas. You may use the gas chromic system and the thermochromic system which changes the transmittance | permeability according to a temperature change.
(4) In this embodiment, the AF sensor 60 is arranged at the rear part of the mirror unit 30. However, other optical elements such as an AE (automatic exposure) sensor may be arranged.
(5) In the present embodiment, the dimming mirror unit 32 switches between the mirror reflection state and the mirror semi-transmission state, but the transmittance of the mirror semi-transmission state can be adjusted according to the photographing conditions. Also good. Accordingly, it is possible to always cause the AF sensor 60 to perform autofocus in an optimal state.
(6) The mirror unit 30 may be provided with an actuator in addition to the rotation mechanism 33, and may be provided with a shake correction mechanism that corrects image blur of the subject due to camera shake of the photographer.
(7) In the present embodiment, in the continuous mode, the subject is photographed at the focal point when the operation unit 13 is fully pressed, but at other times, for example, the operation unit 13 is fully pressed and the shutter unit It is also possible to take a picture at the focal point when 50 is opened.

It is a schematic diagram which shows embodiment of the camera by this invention. It is a figure which shows the detail of the mirror unit part of the camera by this invention. It is a figure explaining the trend of the light of the to-be-photographed object reflected and permeate | transmitted with the mirror unit part of the camera by this invention. 4 is an operation flow of autofocus when shooting with the finder portion of the camera according to the present invention. 4 is an operation flow of autofocus when shooting with the image display unit of the camera according to the present invention.

Explanation of symbols

  10: camera, 11: control unit, 12: image display unit, 13: operation unit, 20: lens unit, 30: mirror unit unit, 31: reflection mirror unit, 32: dimming mirror unit, 33: rotation mechanism unit, 40: Finder section, 40-1: Penta roof prism, 40-2: Eyepiece section, 50: Shutter section, 51, Image sensor

Claims (10)

An incident part for receiving light from a subject;
A dimming mirror that is provided on the optical path of the light incident from the incident portion and that can freely adjust a ratio of reflecting and transmitting at least a part of the light;
With a camera. The camera of claim 1,
An optical element is provided at a position where the light transmitted through the light control mirror reaches,
Camera characterized by. The camera according to claim 2,
An image sensor is provided at a position where the light reflected by the light control mirror reaches,
Camera characterized by. The camera according to claim 3.
A finder provided at a position facing the image sensor;
A rotation mechanism for rotating the dimming mirror so as to reflect the light in the viewfinder direction,
Camera characterized by. The camera according to claim 4, wherein
The rotating mechanism rotates the dimming mirror in a specific rotation range with respect to the optical path of the light incident from the incident portion,
The optical element is disposed outside the specific rotation range in a rotation locus obtained by rotating the dimming mirror once;
Camera characterized by. The camera according to any one of claims 2 to 5,
The optical element is an autofocus sensor;
Camera characterized by. The camera according to claim 6, wherein
It has an operation switching part that switches the auto focus operation content,
The dimming mirror is configured to change an operation pattern to be switched to a ratio of reflecting the light or a ratio of transmitting the light based on the operation switching unit;
Camera characterized by. The camera according to claim 7, wherein
The operation switching unit switches the light control mirror to a state in which the light is reflected when autofocus is not performed.
Camera characterized by. The camera according to claim 7 or 8,
An operation unit for instructing photographing of the subject;
The operation switching unit switches the dimming mirror to a state of transmitting the light, focuses the light by the autofocus sensor, and maintains the focus.
Switching the light control mirror to a state in which the light is reflected, and photographing the subject at the maintained focal point in accordance with an instruction from the operation unit;
Camera characterized by. The camera according to any one of claims 7 to 9,
An operation unit for instructing photographing of the subject;
The operation switching unit switches the light control mirror to a state of transmitting the light, and continuously focuses the light by the autofocus sensor,
Photographing the subject by switching the dimming mirror to a state of reflecting the light when instructed to photograph the subject by the operation unit;
Camera characterized by.

Images