JP3041018B2 - Camera finder device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a finder device for a camera, and more particularly, to a finder device including one prism optical element and an optical element having a roof surface.

[Related Art] In recent years, since single-lens reflex cameras place importance on holding, many cameras having various shapes of camera bodies have been proposed. When determining the body shape related to the holding, the outer shape of the finder prism is a problem. For example, in a camera that holds the grip portion of the camera and the lens barrel, as a viewfinder prism, the height of the prism portion is suppressed as much as possible, and further, the eye point of the viewfinder is moved rearward on the photographer side. Things are often requested. In such a case, the finder using the pentaprism becomes high in height, and it is also difficult to shift the eye point backward.

Therefore, as a conventional example to match the purpose,
A finder prism was constructed by combining several triangular prisms. For example, FIG. 9 shows an example of a conventional finder prism, which is constituted by triangular prisms 101 and 103 and a roof prism. Further, the finder prism for a reflex camera disclosed in Japanese Utility Model Publication No. 56-53372 has three prism parts provided in one body. Furthermore, Japanese Utility Model Laid-Open No. 57-182725,
The eye level finder prism of the reflex camera disclosed in Japanese Utility Model Laid-Open Publication No. 57-182726 is a finder prism having four prisms. All of the above are finder prisms in which the eye point is shifted backward using the roof prism.

[Problems to be Solved by the Invention] However, the finder prism shown in FIG. 9 and the finder prism disclosed in Japanese Utility Model Application Laid-Open No. 56-53372 have the effect of lowering the eye point backward. . However, no remarkable effect can be expected with respect to the reduction in height. Furthermore, the optical path is extended as compared with a finder using a pentaprism, and as a result,
There was a problem that the finder image became far away and the finder magnification was reduced.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problem by providing a fifth reflecting surface, which reflects reflected light from a roof surface rearward, in a finder device of a camera at a more effective position. It is an object of the present invention to provide a finder device which lowers the point backward, sufficiently reduces the height, and further shortens the optical path length, and satisfies functions required for a camera to be mounted.

[Means and Actions for Solving the Problems] A finder device for a camera according to the present invention includes a light incident surface facing a focusing screen, and a light reflecting surface that reflects incident light from the incident surface downward and obliquely backward in the camera. A first reflecting surface, a second reflecting surface for reflecting the light from the first reflecting surface obliquely upward and rearward of the camera, and a third reflecting surface for reflecting the light from the second reflecting surface to surfaces on the other side And a fifth reflecting surface for reflecting light reflected from the roof portion backward, the third reflecting surface provided on the roof portion. Each of the first and second reflecting surfaces reflects the light from the second reflecting surface, and the first and second reflecting surfaces reflect the light from the first and second reflecting surfaces. A fifth effective reflection area, Is located near the first effective reflection area and the second effective reflection area of the third reflection surface and the fourth reflection surface, and is located at a position avoiding the two effective reflection areas. It is characterized by having penetrated into the department.

Further, another camera finder device according to the present invention includes:
A roof portion provided with first and second reflection surfaces, which are roof surfaces for reflecting incident light to each other, and a third reflection surface for reflecting light reflected by the roof portion; Wherein each of the first and second reflection surfaces is a primary effective reflection region that reflects incident light and the first effective reflection region or the second reflection surface is different from the primary effective reflection region. One end of the third reflection surface has a secondary effective reflection region that reflects light, and one end of the third reflection surface has the primary effective reflection region and the secondary effective reflection region that each of the first and second reflection surfaces has. , And at a position avoiding the two effective reflection areas.

[Embodiment] The present invention will be described below with reference to an illustrated embodiment.

FIG. 1 is a longitudinal sectional view of an optical system of a finder device of a camera showing a first embodiment of the present invention. FIG. 3 is a perspective view of a main part of the above-mentioned finder device.
The finder device is formed by a first optical block and a second optical block. The first optical block is formed by a prism 8, and the second optical block is formed by a mirror frame 9 and a mirror 10, which is a plane mirror. Respectively.

The prism 8 is fixed to a mounting table 28. And
It has opposing the light incident surface 8a on the focusing screen focusing screen 6 of which are supported by the mounting frame 26 above the main mirror 5, further reflections allowed to reflect incident light L ₂ from the entrance surface 8a downward obliquely rearward A first reflecting surface 8b on which a reflective coating is applied, and a surface corresponding to the incident surface 8a,
Has a second reflecting surface 8c which allowed to reflect the reflected light L ₃ from the reflecting surface 8b upward obliquely rearward, the exit surface 8d for emitting the reflected light L ₄ in the next stage of the second optical block, respectively.

The mirror frame 9 is mounted on the mounting table in the same manner as the prism 8.
28, a hollow frame body having an entrance opening opposed to the exit surface 8d, and the peripheral surface of the opening is the first
As shown in the figure, a notch having an L-shaped cross section is provided, and the notch is mounted on the prism 8. This prevents light from leaking between the prism 8 and the mirror frame 9. In addition, this mirror frame 9 has a roof-shaped shape (DD in FIG. 1) which is abutted at right angles to reflect incident light.
Third and fourth reflecting surfaces 9a and 9b, which are roof portions on which aluminum is deposited, are provided on the inner surface of the sectional view (see FIG. 2). Since the slope 9c is a non-reflective surface, a V-shaped groove having a predetermined angle of inclination is provided in a stepwise manner.

The light reflected by the third and fourth reflecting surfaces 9a and 9b is respectively directed toward the fourth and third reflecting surfaces 9b and 9a on the opposite side that are inclined and opposed. That is, light incident on the primary effective reflection area A of the third reflection surface or the primary effective reflection area B of the fourth reflection surface (the area surrounded by a broken line in FIG. 1) is reflected to form the fourth reflection area. (in FIG. 1, a region surrounded by the chain double-rolling) 'secondary effective area a or the third reflecting surface' secondary effective reflection area B of the surface incident respectively, are reflected as reflected light L ₅ obliquely downward You.

An opening for inserting the mirror 10 is provided below the mirror frame 9. Further, a mirror positioning receiving portion 9f for fixing the mirror 10 is provided at a position where it enters the roof surface.

The mirror 10 has a fifth reflecting surface 10a, and is fixed to the receiving portion 9f of the mirror frame 9 by bonding. Then, the reflected light L ₅ represents is reflected by the fifth reflecting surface 10a, the reflected light L ₆ is incident on the light receiving element 12 including the eyepiece 11 and the condenser lens are arranged in parallel to the rear.

The primary or secondary effective reflection areas A, B, A ', B' on the third and fourth reflection surfaces 9a, 9b are portions required as reflection surfaces in viewfinder function. However, as shown in FIG. 1, the reflecting surfaces 9a and 9b serving as roof portions do not occupy the entire plane. Therefore, in order to make the height of the finder portion as low as possible and further shorten the finder optical path length as much as possible, the receiving portion 9f of the mirror 10 is set in a range avoiding a portion necessary as the reflection surface, that is, the region A , B, A ′,
Penetrate into the roof area other than B '. In other words, the fifth reflection surface 10a is positioned so as to intersect with the ridge line C indicating the edge of the roof surface. The ridge C indicating the end of the roof corresponds to the ridge C 'of the outer shape of the mirror frame 9 in FIG. By allowed to approach the effective reflection surface of the roof portion of the mirror 10 this way, it is possible to set the height of the mirror frame 9 and at the same time the optical path is shortened in the reflected light L ₅ is also low. FIG. 2 shows the cross-sectional shape of the roof portion and the mirror 10 taken along the line DD in FIG.

The mirror frame 9 to which the prism 8 and the mirror 10 are fixed as described above is fixed to the mounting table 28, and the screen mat 6 and the condenser lens 7 are fixed to the mounting frame 26. The frames 26 are fixed to each other. FIG. 4 is an exploded perspective view of the mounting table 28 and the mounting frame 26 described above.
As shown in the figure, the mounting 28 has an opening 28d for the prism 8 and a support surface 28a. The mirror frame 9 has support portions 28b and 28c for the mirror frame 9 and further has a projection 9g (see FIG. 3) of the mirror frame 9 fitted and bonded thereto.
And a concave portion 28e for positioning and fixing.

Referring to the Figure 1 the transmission path of the optical path configuration finder apparatus of the present embodiment as described above, first, subject light L ₀ is taken into the camera via a photographing lens along the optical axis O. Then, the light is reflected upward by the main mirror 5 as finder subject light. At the time of photographing, the main mirror 5 is retracted from the optical axis O, goes straight as it is, and forms an image on a photographing film located via the focusing shutter unit 15.

On the other hand, the finder subject light forms an image on the focus screen 6, and the image forming light from the focus screen 6 enters the prism 8 via the condenser lens 7 and is reflected by the first reflection surface and the second reflection surface. And mirror frame 9
To the mirror 10 and reflected by the third and fourth reflecting surfaces
The reflected light is emitted from the upper fifth reflecting surface 10a in a certain direction of the eyepiece 11. Then, a finder image is observed at the eye point P, and at the same time, the amount of light is measured by the light receiving element 12. It is assumed that light incident on the eyepiece 11 is emitted upward by an angle α with respect to the optical axis direction O ′.

As described above, according to the finder device of the present embodiment, the height of the finder device can be kept low by mounting the mirror 10 by immersing it in the roof portion,
At the same time, the optical path length can be shortened, and the eyepiece 11 can be located rearward. Further, since the mirror frame 9 having the roof portion is formed of a hollow frame, the weight of the finder device can be reduced. At the same time, the frame can be manufactured by injection molding or the like, and the cost of parts can be reduced.

In addition, as shown in FIG. 3, the light receiving element 12 is arranged in parallel on the side of the eyepiece 11. This is the fifth
Since the position of the reflecting surface 10a and the eyepiece 11 are very close to each other, if the light receiving element 12 is disposed above the eyepiece 11, the light receiving element 12
This is because it becomes difficult to receive the subject light from the camera.

Next, a single-lens reflex camera equipped with the finder device of the present embodiment will be described with reference to a longitudinal sectional view of the camera in FIG. 5 and a transverse sectional view when the rear lid is opened in FIG. The present camera is characterized by its holding function, and usually has one side of the holding portion which is different from a conventional camera having a holding body portion extending to the left and right of the taking lens. The battery, the spool, and the like that were built in the portion are built in the rear lid. Therefore, according to this camera, the right hand supports the holding grip 1a (see FIG. 6), and the left hand holds the lens barrel. Easy.

However, since the battery, spool, and the like are built in the rear lid as described above, the rear end face of the camera extends rearward. Therefore, it is necessary to position the eyepiece of the finder behind. Furthermore, as described above, photographing is performed with the camera body rotated at various angles, so that the height of the finder portion is preferably low. Furthermore, the camera itself, especially the viewfinder, must be lightweight. Therefore, in order to satisfy these conditions, the present camera is equipped with the finder device shown in the first embodiment. The above camera has a camera body 1, a rear cover 2, and a strobe unit.
It comprises a 21, a lens barrel 3, a main mirror 5, a shutter unit 15, a finder device, and an eyepiece.

The camera body 1 has a holding portion 1a for supporting the lens barrel 3 and a holding grip 1a on one of the portions, and a supporting hinge portion 1c for the rear cover 2 and a supporting hinge portion 1d for the strobe unit 21. I have. Further, at the rear end corresponding to the position above the rear lid 2, a support 1b for the eyepiece 11 of the eyepiece 11 and the eyepiece of the light receiving element 12 is provided. A strobe condenser 23 and a film cartridge 16 are held in the grip portion 1a.

The rear lid is supported by the hinge portion 1c of the main body 1 and is opened and closed when a film is loaded or the like. The rear lid includes a sprocket 17, a spool 18, a battery 24, and the like.
Then, the film 19 is wound around the spool 18 in an inverted S-shape. Also, a strobe unit having a flash tube 22
21 is also supported by the hinge portion 1d of the main body 1 and can perform a hop-up operation as shown in FIG.

The lens barrel 3 supported by the main body has a taking lens 4, and subject light taken from the taking lens 4 is:
Is reflected by the main mirror 5, the reflected light L ₂ is imaged as a finder image on the focusing screen 6. Then, the light enters the finder device via the condenser lens 7. On the other hand, at the time of photographing, the main mirror 5 is in a retracted state, the subject light forms an image on the film 19 located via the focal plane shutter unit 15, and photographing is performed.

The finder device is the same as the finder device of the first embodiment shown in FIG.
And a mirror frame 9 having a roof portion and a mirror 10 having a fifth reflecting surface. The finder light beam reflected by the fifth reflecting surface is incident on the eyepiece lens portion, and observation or photometry of the finder image is performed. Be executed.

By mounting the finder device of the first embodiment, the present camera configured as described above can perform holding with a high degree of freedom in the photographing posture, which is a characteristic of the camera, and can make full use of good operability.

Next, a finder device according to a second embodiment of the present invention will be described.
This will be described with reference to FIGS. In the first embodiment, the second optical block has a hollow mirror frame 9 and a mirror 10, but the finder device of the present embodiment uses a prism having a roof portion in the second optical block. It is. That is, as shown in a vertical sectional view of a main part of the finder device in FIG. 7, the present device is formed of a prism 34 as a first optical element and a roof prism 35 as a second optical element. The prism 34 has the same function as the prism 8 of the first embodiment. The roof prism 35 uses a prism, and a plan view thereof is shown in FIG. The third and fourth reflecting surfaces 35a and 35b, which are the roof portions, are provided with a reflective coating, and the surface 35c is provided with a non-reflective coating. The roof portion has the same shape as the roof surface of the mirror frame 9 of the first embodiment. Further, a fifth reflection surface 35f coated with a reflection is provided below the roof portion. Like the mirror 10 of the first embodiment, the reflection surface 35f is provided in a state in which the necessary portion of the third and fourth reflection surfaces 35a and 35b of the roof portion is avoided and enters the roof portion. That is, the fifth reflection surface 35f is provided so as to bite into the ridge line C which is the end of the roof portion.

In this finder device, subject light is reflected upward by a main mirror 31 and is focused on a focusing screen 32.
And through a condenser lens 33, is incident from the light incident surface 34a of the prism 34, the incident light L ₁₂ in the first reflecting surface 34b is a reflective coating surface, is reflected downwardly obliquely rearward. Then, the reflected light L ₁₃ is reflected obliquely upwardly at the second reflecting surface 34c. Then, the reflected light L ₁₄ is emitted from the exit surface 34d, and enters from the roof prism 35 incident surface 35d. Then, the third reflecting surface 35a and the fourth reflecting surface 35b
In the incident light L ₁₄ above reflects, toward the fourth reflecting surface 35b and the third reflecting surface 35a of the reflecting surface of the mating facing each other. Furthermore, the reflective surface 35b, the reflected light L ₁₅ at 35a, the rearward fifth reflecting surface eyepiece 36 and the light receiving element 37 is reflected at 35f are arranged side by side, it is emitted through the exit surface 35e You.

As described above, according to the finder device of the present embodiment, similarly to the finder device of the first embodiment, the eye point P can be moved backward, and at the same time, the fifth reflecting surface 35F enters the roof area. By doing so, the height of the finder itself can be kept low, and the optical path length of the finder can be shortened. Further, since the roof portion of the finder according to the present embodiment is constituted by a prism, it is possible to provide a device having excellent optical accuracy.

[Effects of the Invention] As described above, the finder device for a camera according to the present invention has a structure in which the fifth reflection surface is made to enter the roof area, and according to the present invention, the eyepoint of the finder is provided. Can be moved backward, that is, the eyepiece can be moved backward, and at the same time, the height of the finder device can be kept low.Furthermore, the finder optical path length can be set short, so that the finder magnification can be reduced. It is possible to provide a finder device that has a remarkable effect such as not causing a decrease.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal sectional view of a finder device of a camera according to a first embodiment of the present invention, FIG. 2 is a sectional view taken along line DD of FIG. 1, and FIG. FIG. 4 is a perspective view of a main part of the finder device of FIG. 1, FIG. 4 is an exploded perspective view of a prism mounting table and a screen mounting table in the finder of FIG. 1, and FIG. 5 is a finder device of FIG. FIG. 6 is a cross-sectional view of the camera shown in FIG. 5 when the rear cover is opened, and FIG. 7 is a cross-sectional view of the finder device showing the second embodiment of the present invention. FIG. 8 is a plan view of a roof prism used in the finder device of FIG. 7, and FIG. 9 is a vertical sectional view of a main part of a finder device showing a conventional example. 6, 32 Focusing screen (focusing plate) 8a, 34a Light incident surface 8b, 34b First reflecting surface 8c, 34c Second reflecting surface 9a, 35a Third reflecting surface (dach portion) 9b, 35b: fourth reflecting surface (dach portion) 10a, 35f: fifth reflecting surface

Continuation of front page (56) References JP-A-61-6601 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) G03B 13/00-13/28

Claims (7)

(57) [Claims] 1. A light incident surface facing a focusing screen, a first reflecting surface for reflecting incident light from the incident surface downward and obliquely rearward of the camera, and a light from the first reflecting surface being reflected by the camera. A second reflecting surface that reflects upward and obliquely backward, and a third reflecting surface that reflects light from the second reflecting surface to surfaces on the other side.
In a finder device for a camera having a roof portion having a reflecting surface and a fourth reflecting surface, and a fifth reflecting surface for reflecting the reflected light from the roof portion to the rear, the fifth portion provided on the roof portion Each of the third reflection surface and the fourth reflection surface reflects the light from the primary effective reflection region reflecting the light from the second reflection surface and the light from the first effective reflection region of the fourth reflection surface or the third reflection surface. One end of the fifth reflecting surface is located near the first effective reflecting region and the second effective reflecting region of the third reflecting surface and the fourth reflecting surface. A camera finder device wherein the camera enters the roof portion at a position avoiding the two effective reflection areas. 2. The light incident surface, the first reflecting surface and the second reflecting surface.
The optical system according to claim 1, further comprising: a first optical block including a reflective surface; and a second optical block including the third reflective surface, the fourth reflective surface, and the fifth reflective surface. A finder device for the camera described in the above. 3. The camera viewfinder device according to claim 2, wherein said second optical block comprises a hollow frame. 4. A roof portion provided with first and second reflection surfaces, which are roof surfaces for reflecting incident light to surfaces on the other side, and a roof portion for reflecting light reflected by the roof portion. And each of the first and second reflection surfaces is a primary effective reflection region for reflecting incident light and the primary effective reflection region of the first reflection surface or the second reflection surface. A second effective reflection area for reflecting light from the effective reflection area; one end of the third reflection surface is connected to the first effective reflection area and the second effective reflection area of each of the first and second reflection surfaces; A finder device for a camera, wherein the finder device is located near the next effective reflection area and at a position avoiding the two effective reflection areas. 5. The finder device for a camera according to claim 4, wherein said third reflecting surface intersects an edge ridge of the roof surface of said roof portion. 6. The finder device for a camera according to claim 4, wherein said first to third reflecting surfaces are formed by one optical block. 7. The camera viewfinder device according to claim 6, wherein said one optical block comprises a hollow frame.