JP4622924B2 - camera - Google Patents

Description

  The present invention relates to a camera having an optical viewfinder.

  In a digital single-lens reflex camera capable of shooting a moving image, it is necessary to hold the main mirror in a mirror-up state when shooting a moving image. Therefore, the subject image reflected by the main mirror cannot be observed with an optical viewfinder. In view of this, a digital single-lens reflex camera is known in which a display unit that displays an image captured by an image sensor is provided inside the optical finder so that the subject image can be visually recognized by the optical finder even during moving image shooting. In this camera, by moving the position of the display unit, the image observed with the optical finder is the subject image formed on the focusing screen, or the image captured by the image sensor and displayed on the display unit. Can be selected (see Patent Document 1).

JP 2005-311764 A

However, in the above-described camera of Patent Document 1, it is necessary to provide a drive member to move the display unit, and the structure becomes complicated. In addition, since some of the pentaprisms that require accuracy are movable, it is difficult to produce them with high accuracy, which further increases costs.
SUMMARY OF THE INVENTION An object of the present invention is to provide a camera having an optical finder that can be switched between an image displayed on a display unit and a subject optical image without complicating the structure around the pentaprism.

(1) A single-lens reflex camera according to the first aspect of the present invention is provided with a mirror that reflects the light transmitted through the interchangeable lens, a focusing screen on which a subject image reflected by the mirror is formed, and in the vicinity of the focusing screen. a display member but to be displayed, and an optical finder for viewing the information displayed on the object image and the display member which is focused on the focusing plate, an optical finder, the subject image formed on the focusing plate An eyepiece that can be moved between a first position to be observed and a second position at which information displayed on the display member is observed, and a subject luminous flux and a display member for a subject image formed on the focusing screen A first reflecting member that reflects an information light beam for information displayed on the display, and a second reflecting member that reflects the subject light beam and the information light beam reflected by the first reflecting member and guides them to the eyepiece. The subject luminous flux is the first reflecting portion. Unlike the incident angle at which the light beam is incident on the material and the incident angle at which the information light beam is incident on the first reflecting member, the subject light beam is reflected by the first and second reflecting members to be in contact with the first position. The information light beam is guided to the eye part and is reflected by the first and second reflecting members to be guided to the eyepiece part at the second position .
(2) According to a second aspect of the present invention, in the single-lens reflex camera according to the first aspect, the image sensor further includes an imaging element that captures a subject image, and the display member displays the subject image captured by the imaging element. And
(3) The invention of claim 3 is the single-lens reflex camera according to claim 1 or claim 2, wherein the mirror directs the transmitted light of the interchangeable lens directed from the front to the rear of the single-lens reflex camera upwards of the single-lens reflex camera. The focusing plate is disposed above the mirror, the first reflecting member is disposed above the focusing plate, and the second reflecting member is disposed between the focusing plate and the first reflecting member. The eyepiece provided in front of the focusing screen and the first reflecting member is disposed behind the focusing screen and the first reflecting member, and the display member is in the vicinity of the focusing screen and in front of the focusing screen. It is characterized by being arranged rearward .
(4) The invention of claim 4 is the single-lens reflex camera according to any one of claims 1 to 3, wherein the optical viewfinder is connected to the focusing screen when the eyepiece is moved to the first position. The imaged subject image and the information related to the imaging displayed on the display member can be observed simultaneously.
(5) A fifth aspect of the present invention is the single-lens reflex camera according to any one of the first to fourth aspects, wherein the detecting means detects whether or not the eyepiece is in the second position, and the detecting means Control means for controlling the display of information on the display member based on the detection result.
(6) The invention of claim 6 is the single-lens reflex camera according to any one of claims 1 to 5, further comprising a magnifying optical system for magnifying information displayed on the display member. To do.

  ADVANTAGE OF THE INVENTION According to this invention, the camera which has an optical finder which can switch and confirm the image displayed on the display part and a to-be-photographed optical image, without complicating the structure of a pentaprism periphery part can be provided.

  An embodiment of a camera according to the present invention will be described with reference to FIGS. In the present embodiment, the front and rear and up and down directions of the camera are defined as shown in each drawing. 1 and 3 are cross-sectional views when the camera of the present embodiment is viewed from the front right side, and FIG. 2 is a right side view when the camera is viewed from the front side of the camera. 1 shows a state before the start of still image shooting (before the start of the release operation), and FIG. 3 shows a state at the time of moving image shooting as described later. The camera 1 is a so-called digital single-lens reflex camera, and is provided with a power switch (not shown), a release button, and a mode setting dial 33 for selecting a shooting mode (FIG. 2). The camera 1 includes a body 10, a front cover 21 attached to the body 10, an upper cover 22, and a rear cover 23.

  A lens mount 16 to which an unillustrated interchangeable lens is detachably attached is provided at the front portion of the body 10. Inside the body 10 is provided a main mirror 11 that guides a subject light beam to an optical viewfinder 100 described later. A sub mirror 12 is provided behind the main mirror 11 (on the back side), and an AF sensor 18 that performs focus detection is provided below the main mirror 11. The sub mirror 12 guides the subject light flux to the AF sensor 18. The main mirror 11 and the sub mirror 12 are rotatably provided, and are retracted from the photographing optical path during the release operation.

  On the back side photographing optical path of the main mirror 11, a shutter 13, an optical filter 14, and an image sensor 15 are sequentially provided from the front. The shutter 13 is a mechanism having one or two groups of light shielding blades that perform an opening / closing operation between a closed state in which the image sensor 15 is shielded from light and an open state in which a subject image is guided to the image sensor 15. The optical filter 14 is a filter that has a function as an infrared cut filter that cuts infrared light and a function as a low-pass filter that prevents moire. The imaging element 15 is an element that captures an image of subject light and outputs an imaging signal, such as a CCD.

  A rear liquid crystal 17 is provided behind the image sensor 15. The rear liquid crystal 17 is a display device that displays various information such as a subject image picked up by the image pickup device 15, shooting conditions of the camera 1, and setting states of each unit, and is visually recognized from the outside through a window 23 a of the rear cover 23. Is possible.

  An optical viewfinder 100 is attached to the top of the body 10. The optical viewfinder 100 includes a focusing screen 101 on which an image from the main mirror 11 is formed in order from the subject side in front of the camera 1 along the incident optical axis AX1, a liquid crystal display device 102, and the size of the viewfinder field. A field frame (not shown) for determining the image quality, a pentaprism 103, and an eyepiece unit 110 are provided. The optical viewfinder 100 is provided with a viewfinder liquid crystal 121, a prism 122, and an enlargement optical system 123.

  The focusing screen 101 is a translucent plate member on which an image from the main mirror 11 is formed as described above, and is provided below the pentaprism 103. The liquid crystal display device 102 is a transmissive display device that transmits a subject image formed on the focusing screen 101, displays a distance measuring point, a photometric range, and the like, and displays a cross-shaped grid line in a translucent state. Display. The liquid crystal display device 102 is provided between the focusing screen 101 and the pentaprism 103. The liquid crystal display device 102 is an electrically driven display device, and is connected to a control device 132 to be described later via a flexible printed board (not shown).

  The pentaprism 103 is used to restore the subject image formed on the focusing screen 101 to an erect image, and is provided above the liquid crystal display device 102. The prism box 104 is a holding member that holds the elements 101 to 103 constituting the finder optical system, the viewfinder liquid crystal 121, the prism 122, and the magnifying optical system 123, and is mounted on the upper portion of the body 10. Fixed. The optical viewfinder 100 is configured such that when the prism box 104 is attached to the upper portion of the body 10, the focusing screen 101 is disposed at a position optically conjugate with the image sensor 15.

  The eyepiece unit 110 is an optical system of an eyepiece for guiding a subject image restored to an erect image by the pentaprism 103 to the eyes of a photographer. The eyepiece unit 110 is a movable lens for adjusting diopter, a fixed lens, and an eyepiece rubber. 110a and the like are provided. As shown in FIG. 2, the eyepiece unit 110 is attached to the body 10 independently of the prism box 104, and is centered on a shaft 111 that extends in the left-right direction of the camera 1 (the direction perpendicular to the paper surface in FIG. 2). It can swing in the vertical direction.

  The viewfinder liquid crystal 121 is a display device that displays a subject image picked up by the image pickup device 15. For example, an electrically driven liquid crystal display device is used. The viewfinder liquid crystal 121 is disposed at a position below the pentaprism 103 and behind the focusing screen 101 and the liquid crystal display device 102 in the front-rear direction of the camera 1 so that the display surface 121 a faces the front of the camera 1. The prism box 104 is fixed. That is, the viewfinder liquid crystal 121 is disposed in the vicinity of the focusing screen 101 and at a position that is offset in a direction substantially perpendicular to the incident optical axis AX1 of the subject light with respect to the focusing screen 101. Note that the aspect ratio of the size of the display image on the display surface 121a of the viewfinder liquid crystal 121 is 4: 3, which is the same as the aspect ratio of a general image, and the aspect ratio of the image captured by the image sensor 15. Is equal to

  The image displayed on the display surface 121 a of the viewfinder liquid crystal 121 is refracted upward by the prism 122, magnified by the magnifying optical system 123, and refracted again by the pentaprism 103. As described above, the image refracted by the pentaprism 103 and displayed on the display surface 121 a of the viewfinder liquid crystal 121 can be observed by the eyepiece unit 110. The observation of the image displayed on the display surface 121a by the eyepiece unit 110 will be described later.

  A switch 131 that detects the rotational position of the eyepiece unit 110 is provided at the rear of the upper cover 22 and above the eyepiece unit 110. The switch 131 is attached such that the pressing portion 131a protrudes downward from the lower surface of the upper cover 22, and is connected to a control device 132 described later. As shown in FIG. 3, when the eyepiece unit 110 is rotated upward about the shaft 111, the upper surface of the eyepiece unit 110 comes into contact with and presses the pressing portion 131a. The switch 131 outputs an ON signal to the control device 132 when the pressing portion 131a is pressed, and outputs an OFF signal to the control device 132 when the pressing portion 131a is not pressed.

  On the upper part of the pentaprism 103, a flexible printed board (not shown) is disposed so as to straddle the top of the pentaprism 103. A control device 132 is mounted on the flexible printed board. The control device 132 controls each part of the camera 1 according to the pressed state of the release button, the setting state of the mode setting dial 33, the on / off state of the switch 131, and the like, and controls the liquid crystal display device 102 and the viewfinder liquid crystal 121. Control.

  In the camera 1 configured as described above, when a power switch (not shown) is turned on and a release button (not shown) is pressed, a shooting mode corresponding to the on / off state of the switch 131 and the setting of the mode setting dial 33 is selected. Thus, the subject image is captured by the image sensor 15 via an interchangeable lens (not shown). The image signal output from the image sensor 15 is subjected to known image processing by an image processing circuit (not shown) and is recorded as image data in a storage means (not shown).

---- Still image shooting ---
When the eyepiece unit 110 is rotated to a lower position (hereinafter referred to as a still image shooting mode setting position) around the axis 111, as shown in FIGS. 1 and 2, the upper surface of the eyepiece unit 110 and the pressing portion 131a Are separated and the switch 131 is turned off. When the control device 132 receives the off signal from the switch 131, the control device 132 switches the shooting mode to the still image shooting mode, and further takes a still image of the subject in the shooting mode according to the setting of the mode setting dial 33. Each part of the camera 1 is controlled.

  When the eyepiece unit 110 is set at the still image shooting mode setting position, the subject light incident optical axis AX1 and the optical axis AX2 of the eyepiece unit 110 coincide with each other, and the subject image formed on the focusing screen 101 is displayed in the optical viewfinder. It becomes visible at 100. In addition, a display indicating a distance measurement point, a photometry range, and the like displayed by the liquid crystal display device 102 and a cross-shaped grid line can be viewed with the optical viewfinder 100 together with the subject image.

  When the eyepiece unit 110 is set to the still image shooting mode setting position, the display surface 121a of the viewfinder liquid crystal 121 cannot be viewed from the optical viewfinder 100. In this case, since the control device 132 controls the viewfinder liquid crystal 121 to turn off the display of the viewfinder liquid crystal 121, nothing is displayed on the display surface 121a.

  When a release button (not shown) is pressed, for example, a still image of the subject image passes through an interchangeable lens (not shown) in a shooting mode according to the setting of the mode setting dial 33 such as a shutter speed priority mode or an aperture priority mode. The image is picked up by the image sensor 15. That is, when the eyepiece unit 110 is set to the still image shooting mode setting position, the subject image can be confirmed and imaged by the optical viewfinder 100 as in the case of a conventional digital single lens reflex camera that captures a still image.

---- Video recording ----
When the eyepiece unit 110 is rotated to an upper position (hereinafter referred to as a moving image shooting mode setting position) around the axis 111, the upper surface of the eyepiece unit 110 presses the pressing portion 131a as shown in FIG. The switch 131 is turned on. When receiving the ON signal from the switch 131, the control device 132 controls each part of the camera 1 so as to switch the shooting mode to the moving image pickup mode and pick up a moving image of the subject. In the moving image capturing mode, as shown in FIG. 3, the main mirror 11 and the sub mirror 12 are retracted from the photographing optical path.

  When the eyepiece unit 110 is set to the moving image shooting mode setting position, the optical axis AX2 of the eyepiece unit 110 is also moved, so that the display surface 121a of the viewfinder liquid crystal 121 can be visually recognized by the optical viewfinder 100. In this case, the control device 132 controls the viewfinder liquid crystal 121 so that the subject image captured by the image sensor 15 is displayed on the display surface 121a. As a result, the subject image captured by the image sensor 15 via the interchangeable lens can be visually recognized by the optical viewfinder 100 on the display surface 121a.

  Since the viewfinder liquid crystal 121 must be disposed in a limited space in the vicinity of the focusing screen 101 and the liquid crystal display device 102, the size thereof is restricted. However, in the camera 1 of the present embodiment, the image displayed on the display surface 121a is magnified by the magnifying optical system 123, so that the user looking through the optical finder 100 forms the subject image formed on the focusing screen 101. A subject image of the same size as can be observed. When the eyepiece unit 110 is set to the moving image shooting mode setting position, the optical axis AX2 moves and the optical path of the eyepiece unit 110 changes, so that the focusing screen 101 and the liquid crystal display device 102 are visible from the optical viewfinder 100. Can not. In this case, the control device 132 controls the liquid crystal display device 102 to turn off the display of the liquid crystal display device 102.

  When a release button (not shown) is pressed, shooting (recording) of a moving image of the subject image is started. Since the subject image captured by the image sensor 15 is displayed on the display surface 121a of the viewfinder liquid crystal 121 even during shooting of a moving image, the user can check the subject image being shot by looking into the optical viewfinder 100. . When a preset time elapses or the release button is pressed again, moving image shooting ends. That is, when the eyepiece unit 110 is set to the moving image shooting mode setting position, the user can shoot a moving image of the subject while checking the subject image with the optical viewfinder 100.

  As described above, in the camera 1, the moving image shooting and the still image shooting can be switched by changing the rotation position of the eyepiece unit 110 of the optical viewfinder 100. Further, the optical path of the eyepiece unit 110 is switched by changing the rotation position of the eyepiece unit 110, and the object image that can be observed is formed on the focusing screen 101 or the viewfinder liquid crystal 121. The screen is switched to the image displayed on the display surface 121a. Therefore, the user can instantaneously switch between the moving image capturing mode and the still image capturing mode without taking his eyes off the optical viewfinder 100.

The camera 1 of the present embodiment described above has the following operational effects.
(1) The eyepiece unit 110 can be rotated between a position where the subject image formed on the focusing screen 101 can be observed and a position where the image displayed on the display surface 121a of the viewfinder liquid crystal 121 can be observed. It comprised so that it might become. As a result, the object to be observed can be switched by simply rotating the eyepiece unit 110, so that the subject image reflected by the main mirror 11 and the viewfinder can be used without complicating the structure of the optical viewfinder 100. Both images displayed on the display surface 121 a of the liquid crystal 121 can be observed with the optical viewfinder 100.

(2) The subject image captured by the image sensor 15 is displayed on the viewfinder liquid crystal 121. As a result, the subject image captured by the image sensor 15 at the time of capturing a moving image can be observed by the optical viewfinder 100, so that the user looks at the eyepiece rubber 110a in the same manner as a conventional single-lens reflex camera that captures a still image. You can shoot a moving image while pressing around. In cameras, particularly single-lens reflex cameras, the interchangeable lens is attached to the front of the camera body and is heavy, so it is desirable to hold the camera 1 stably by bringing the camera 1 held by the hand closer to the user's body. . For example, when a subject image captured by the image sensor 15 is displayed on the rear liquid crystal 17, it is difficult to observe the subject image displayed on the rear liquid crystal 17 when the camera 1 is brought close to the user's body. Moreover, it is preferable to hold the camera 1 stably by bringing a part of the camera 1 into contact with a part of the body other than the hand. In the camera 1 of the present embodiment, as described above, a moving image is displayed while observing the subject image captured by the image sensor 15 with the optical viewfinder 100 while the user presses the eyepiece rubber 110a around the eye. Can shoot. Therefore, the camera 1 of the present embodiment is excellent in terms of observing the subject image and in holding the camera 1.

(3) The viewfinder liquid crystal 121 is provided in the vicinity of the focusing screen 101 and at a position offset substantially perpendicular to the incident optical axis AX1 of the subject light with respect to the focusing screen 101. As a result, the amount of movement of the optical axis AX2 of the eyepiece unit 110, that is, the amount of rotation of the eyepiece unit 110 can be reduced, so that the structure around the eyepiece unit 110 can be made compact and simplified. That is, the structural change of the camera 1 can be minimized, an increase in the cost of the camera 1 can be suppressed to a minimum, and the camera can be downsized.

(4) Since the switch 131 for detecting the rotational position of the eyepiece unit 110 is provided, switching between the moving image capturing mode and the still image capturing mode is facilitated, and the operability is improved.
(5) The control device 132 is configured to control the display of the viewfinder liquid crystal 121 by detecting the on / off state of the switch 131. As a result, the subject image is displayed on the viewfinder liquid crystal 121 only when necessary, so that the power consumption of the camera 1 can be saved and the movable time of the camera 1 can be extended.
(6) The image displayed on the display surface 121 a of the viewfinder liquid crystal 121 is configured to be magnified by the magnification optical system 123. Thereby, the viewfinder liquid crystal 121 can be disposed without increasing the size of the camera 1. In addition, since a user looking through the optical viewfinder 100 can observe a large image, the subject image can be easily observed during moving image shooting.

---- Modified example ---
(1) In the above description, when the eyepiece unit 110 is set to the still image shooting mode setting position, the display surface 121a of the viewfinder liquid crystal 121 is configured not to be visible from the optical viewfinder 100. The present invention is not limited to this. For example, even when the eyepiece unit 110 is set to the still image shooting mode setting position, a part of the display surface 121a of the viewfinder liquid crystal 121 (hereinafter referred to as a constantly visible region) is visually recognized by the optical viewfinder 100. You may comprise so that it can do.

  When the eyepiece unit 110 is set to the still image shooting mode setting position, information related to imaging (imaging information) such as the shutter speed, the aperture value, and the selected shooting mode may be displayed in the always visible region. Good. With this configuration, the user can visually recognize both the subject image formed on the focusing screen 101 and the imaging information displayed in the always visible area when the still image is captured. Improves.

  Further, in addition to the above-described modification, the camera 1 may be configured as follows. The mode setting dial 33 is used to switch between the still image shooting mode and the moving image shooting mode. In the following description, the position where the eyepiece unit 110 is rotated downward corresponding to the above-described still image shooting mode setting position is referred to as the lower position, and the eyepiece unit 110 corresponding to the moving image shooting mode setting position is positioned upward. The position rotated to is called the upper position.

  When the still image shooting mode is selected with the mode setting dial 33 and the eyepiece unit 110 is rotated to the lower position, the subject image formed on the focusing screen 101 can be always visually recognized as in the above-described modification. The user can visually recognize both of the imaging information displayed in the area with the optical viewfinder 100. Here, when the eyepiece unit 110 is rotated to the upper position, the entire display surface 121a of the viewfinder liquid crystal 121 is visible on the optical viewfinder 100. The shooting information may be displayed.

  Then, when the moving image shooting mode is selected with the mode setting dial 33 and the eyepiece unit 110 is rotated to the upper position, the moving image can be shot as in the above-described embodiment. Good.

(2) In the above description, the viewfinder liquid crystal 121 is disposed behind the focusing screen 101 and the liquid crystal display device 102 in the front-rear direction of the camera 1. A viewfinder liquid crystal 121 may be disposed in front of the camera 1 in the front-rear direction with respect to the plate 101 or the liquid crystal display device 102.

(3) In the above description, the aspect ratio of the size of the display image on the display surface 121a is 4: 3, which is the same as the aspect ratio of a general image, and the width of the image captured by the image sensor 15 is increased. Although configured to be equal to the aspect ratio, the present invention is not limited to this. The space behind the focusing screen 101 and the liquid crystal display device 102 in which the viewfinder liquid crystal 121 is disposed has little room in the front and rear and up and down directions, but has room in the left and right directions. Therefore, the ratio of the number of vertical and horizontal pixels is the same as that of the above-described viewfinder liquid crystal 121, but the shape of each pixel is longer than that of the above-described viewfinder liquid crystal 121, and the entire display surface is also larger than that of the viewfinder liquid crystal 121. Alternatively, a horizontally long display device may be used as the viewfinder liquid crystal 121. When such a display device is used, the subject image displayed on the display device is horizontally longer than the real image. Therefore, the vertical magnification in the magnifying optical system 123 is set to be larger than the horizontal magnification. It needs to be bigger.

(4) In the above description, the image displayed on the display surface 121a of the viewfinder liquid crystal 121 is configured to be magnified by the magnification optical system 123, but the present invention is not limited to this. For example, as shown in FIG. 4, the magnifying optical system 123 can be omitted. In this case, it is desirable that the image displayed on the display surface 121a is enlarged by moving any of the lenses constituting the eyepiece unit 110 along the optical axis AX2. FIG. 4 shows a state at the time of moving image shooting.

  As described above, when the eyepiece unit 110 is configured so that the image displayed on the display surface 121a can be enlarged and observed, as shown in FIGS. 5 and 6, for the viewfinder, the display surface 121a faces substantially upward. A liquid crystal 121 may be provided. 5 shows a state before the start of still image shooting (before the release operation starts), and FIG. 6 shows a state at the time of moving image shooting.

(5) In the above description, the pentaprism 103 is used as a component of the optical viewfinder 100, but a so-called mirror pentaprism may be used.
(6) The above-described embodiments and modifications may be combined.

Note that the present invention is not limited to the above-described embodiment, and includes a mirror that reflects the transmitted light of the interchangeable lens, a focusing plate on which a subject image reflected by the mirror is formed, and the vicinity of the focusing plate. A display member provided for displaying information; and an optical viewfinder for observing a subject image formed on the focusing screen and information displayed on the display member . The optical viewfinder forms an image on the focusing screen. An eyepiece that is movable between a first position for observing the captured subject image and a second position for observing information displayed on the display member, and a subject image formed on the focusing screen. A first reflecting member that reflects an information light beam for information displayed on the subject light beam and the display member, and a second reflecting member that reflects the subject light beam and the information light beam reflected by the first reflecting member and guides them to the eyepiece. A reflecting member and a subject luminous flux Unlike the incident angle at which the light beam enters the first reflecting member and the incident angle at which the information light beam enters the first reflecting member, the subject light beam is reflected by the first and second reflecting members, so that the first light beam is reflected on the first reflecting member. A single-lens reflex camera having various structures, which is guided to an eyepiece at a position and the information light beam is reflected by the first and second reflecting members to be guided to the eyepiece at a second position. Includes a camera.

It is sectional drawing when the camera 1 before the start of imaging | photography of a still image (before release operation start) is seen from front right. It is a right view when the camera 1 is seen from the front. It is sectional drawing when the camera 1 at the time of video recording is seen from the front right. It is a figure which shows a modification, and is sectional drawing when the camera 1 at the time of video recording is seen from front right. It is a figure which shows a modification, and is sectional drawing when the camera 1 before the photography start of a still image (before release operation start) is seen from the front right. It is a figure which shows a modification, and is sectional drawing when the camera 1 at the time of video recording is seen from front right.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Camera (digital single-lens reflex camera) 15 Image pick-up element 100 Optical finder 101 Focus plate 103 Penta prism 110 Eyepiece unit 121 Viewfinder liquid crystal 123 Magnification optical system 131 Switch 132 Control device

Claims (6)

A mirror that reflects the transmitted light of the interchangeable lens;
A focusing plate an object image reflected by the mirror is imaged,
A display member provided in the vicinity of the focusing screen for displaying information;
An optical viewfinder for observing the subject image formed on the focusing screen and information displayed on the display member ;
The optical viewfinder is an eyepiece that is movable between a first position for observing the subject image formed on the focusing screen and a second position for observing information displayed on the display member. And a first reflecting member that reflects a subject luminous flux for the subject image formed on the focusing screen and an information luminous flux for information displayed on the display member; and the first reflecting member that is reflected by the first reflecting member A second reflecting member that reflects the subject luminous flux and the information luminous flux to guide the eyepiece to the eyepiece,
The incident angle at which the subject luminous flux is incident on the first reflecting member is different from the incident angle at which the information luminous flux is incident on the first reflecting member.
The subject luminous flux is guided to the eyepiece at the first position by being reflected by the first and second reflecting members,
The single-lens reflex camera according to claim 1, wherein the information light beam is guided to the eyepiece at the second position by being reflected by the first and second reflecting members . The single-lens reflex camera according to claim 1,
An image sensor for capturing a subject image;
The single-lens reflex camera, wherein the display member displays a subject image captured by the image sensor. In the single-lens reflex camera of Claim 1 or Claim 2,
The mirror reflects the transmitted light of the interchangeable lens from the front to the rear of the single-lens reflex camera toward the upper side of the single-lens reflex camera,
The focusing screen is disposed above the mirror;
The first reflecting member is disposed above the focusing screen,
The second reflecting member is provided in front of the focusing plate and the first reflecting member between the focusing plate and the first reflecting member.
The eyepiece is disposed behind the focusing screen and the first reflecting member,
The single-lens reflex camera according to claim 1, wherein the display member is disposed in the vicinity of the focusing screen and in front of or behind the focusing screen. In the single-lens reflex camera as described in any one of Claims 1-3,
The optical viewfinder enables simultaneous observation of the subject image formed on the focusing screen and information relating to imaging displayed on the display member when the eyepiece is moved to the first position. A single-lens reflex camera characterized by this. In the single-lens reflex camera as described in any one of Claims 1-4,
Detecting means for detecting whether or not the eyepiece is in the second position;
A single-lens reflex camera comprising: control means for controlling display of information on the display member based on a detection result of the detection means. In the single-lens reflex camera as described in any one of Claims 1-5,
The single-lens reflex camera further provided with the expansion optical system which expands the information displayed on the said display member.

Images