KR100573578B1 - Focus check device for lanometer reflex camera - Google Patents

Abstract

According to the present invention, a photographing start means for outputting a signal to be performed by a user to perform a photographing operation is performed. A control means for outputting a signal, calculating a ranging signal of the ranging means to determine a ranging distance between the subject and the camera, and outputting a control signal to perform focus adjustment corresponding to the determined ranging distance, and a control signal of the controlling means; And a first adjusting lens including first and second driving means for simultaneously driving as much as the corresponding value, and a first feeding lens for adjusting focus in conjunction with driving of the corresponding driving means of the focus adjusting means. And a photographing lens system for forming an image of a subject to be photographed, and corresponding driving of the focus adjusting means. A second exposure lens which is connected to the stage and performs focus adjustment to have the same focus position as the focus position of the photographing lens system in association with driving of the focus adjusting means, and thus the photographing lens can cover a shooting range. It consists of a finder optical system that allows the user to check, so that the user can check the focus adjustment state of the subject to the shooting lens through the finder, it is possible to prevent the error photo shooting due to the detection error, It is possible to shoot in a focus state, and the reliability of the camera is improved.

Description

Focus check device for lanometer reflex camera

The present invention relates to a focus confirmation device of a binocular reflective camera, and more specifically, to change the attempt of the finder optical system according to the focus adjustment of the photographing lens system to recall a pint image that matches the composition of the picture to be photographed. The present invention relates to a focus confirmation device of a binocular reflective camera, which is made visible to a user through finder optics.

Generally, cameras are classified into single-lens reflex cameras and dual-lens reflex cameras according to the structure of the photographing lens and the finder.

The single-lens reflex camera is a camera capable of observing and photographing a subject with a single lens system, and is a camera in which the composition of the subject to be photographed matches the composition observed by the user through a finder.

The binocular reflective camera is a camera that performs photographing by observing a subject using a photographing lens system and a finder optical system having the same field of view as the photographed lens system positioned above the photographing lens system.

As described above, the binocular reflective camera has a problem in that the focal position of the finder optical system and the focal position of the photographing lens system are not always the same since the optical system for observing a subject and the optical system for forming an image of a subject to be photographed are different from the single-lens camera.

Therefore, the user using the binocular reflective camera could not confirm whether the image state of the subject viewed through the finder, that is, the focal position is the same as the focal position of the photographing lens system.

Accordingly, when the user does not accurately adjust the focus of the camera due to the above problem, the user may not recognize this and may perform the shooting, thereby taking a picture in which the focus is not accurately adjusted.

Therefore, the present invention is to solve the conventional problems, by attaching a lens that can be linked to the extraction lens in the photographing lens system to the finder optical system, so that the image change of the finder optical system appears when the focus is adjusted so that the user can confirm the image change To provide a focus confirmation device for a binocular reflective camera that can determine whether to adjust the focus.

The present invention as a means for achieving the above technical problem

Shooting start means for outputting a signal to be operated by a user to perform a shooting operation;

Ranging means for measuring a distance between the subject and the camera;

Outputs a driving signal to the ranging means according to the signal output from the photographing start means, calculates the ranging signal of the ranging means, determines the range of distance between the subject and the camera, and performs focus adjustment corresponding to the determined range of distance. Control means for outputting a control signal and controlling the overall operation of the camera;

A focus adjusting means including first and second driving means for simultaneously driving as much as a corresponding value according to a control signal output from the control means;

A photographing lens system including a first drawing lens configured to perform focus adjustment in association with driving of the corresponding driving means of the focus adjusting means, to form an image of a subject to be photographed;

And a second feeding lens connected to the corresponding driving means of the focus adjusting means and performing focus adjustment to have the same focus position as the focus position of the photographing lens system in association with driving of the focus adjusting means. It includes a finder optical system that allows the user to check the shooting range that the lens can cover.

With the above-described configuration, a person having ordinary skill in the art to which the present invention pertains will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an apparatus for checking focus of a binocular reflective camera according to an embodiment of the present invention.

As shown in FIG. 1, an apparatus for checking focus of a binocular reflective camera according to an embodiment of the present invention may include

A release switch S1 which is operated by a user and outputs an electrical signal for performing a photographing operation;

A detector 1 which detects light reflected and incident on the subject and outputs an electrical signal;

In response to the one-stage operation signal of the release switch S1, the ranger 1 is driven to receive a signal corresponding to the distance between the subject and the camera, and to perform arithmetic processing. A controller 2 which outputs a corresponding control signal to perform a corresponding focus adjustment;

A focus adjusting unit (3) including a first focusing driving unit (31) and a second focusing driving unit (32) for simultaneously driving as much as a corresponding value according to a control signal output from the controller (2);

The first focusing driver 31 is connected to the first focusing driver 31, and includes a first exposure lens 41 to perform focusing in conjunction with the driving of the first focusing driver 31. An imaging lens system 4 to form an image;

A second extraction lens connected to the second focus adjustment driver 32 and performing focus adjustment so as to have the same focus position as that of the photographing lens system in conjunction with driving of the second focus adjustment driver 32; 51), and includes a finder optical system (5) for allowing a user to check an image of a subject during photographing.

The photographing lens system 4 includes the first extraction lens 41, the front group lens unit 42, and the rear group lens unit 43, and the finder optical system 5 includes the second extraction lens ( 51, the objective part 52, and the eyepiece 53 are comprised.

The first extraction lens 41 may be composed of a plurality of lenses (not shown), and one or more lenses of the configured lenses are connected to the first focusing driver 31 to move left and right to perform focus adjustment. The second extraction lens 51 may include a first lens 511 which moves left or right in association with driving of the second focus control driver 31, and a fixed second lens 512. .

2 (a) and 2 (b) are diagrams showing mounting states of the finder optical system and the extraction lens of the photographing lens system according to the embodiment of the present invention.

As shown in FIG. 2A, the first extraction lens 41 of the photographing lens system 4 according to the embodiment of the present invention is positioned between the front lens group 42 and the rear lens group 43. The left side and the right side in association with the driving of the first focusing control unit 31, and as shown in FIG. 2B, the second extraction lens 51 of the finder optical system 5 has an objective portion. A first lens 511 and a second lens 512 are mounted between the 52 and the eyepiece 53, of which the first lens 512 is mounted in the eyepiece side direction and the second lens 512. ) Is attached to the objective side.

The first lens 511 moves left and right in association with the driving of the second focusing driver 32, and the second lens 512 is fixed.

1 and 2, the operation of the focus confirmation apparatus of the binocular reflective camera according to the embodiment of the present invention will be described.

The user looks at the subject through the finder optical system 5 to take a picture, sets the composition of the subject, and presses the release switch S1.

Since the finder optical system 5 forms the subject image according to the lens position of the initial state, the user always provides the subject image according to the same focus position.

The release switch S1 performs a first stage operation by a user, and outputs a first stage operation signal to the controller 2, and the controller 2 according to the input of the first stage operation signal of the release switch S1. A drive signal is output to the ranger 1 to perform auto focusing.

The ranger 1 is driven according to the driving signal of the controller 2 to irradiate the beam to the subject so as to measure the distance between the subject and the camera so that the irradiated beam reflects and enters the subject.

Then, the ranger 1 detects the incident beam and outputs an electrical signal corresponding to the detected beam to the controller 2.

The controller 2 receives a signal output from the ranger 1 and calculates a distance between the camera and the subject according to a set calculation process.

In addition, the controller 2 determines a focus position corresponding to the calculated value, and outputs a driving signal to the focus controller 3 to perform focus adjustment corresponding to the determined focus position.

Here, the driving signal output by the controller 2 is the same signal that is simultaneously input to the first focus driver 31 and the second focus driver 32 constituting the focus controller 3.

The first focus control driver 31 drives the corresponding value in the corresponding direction according to the drive signal output from the controller 2.

The second focusing driver 32 also drives the corresponding value in the corresponding direction in accordance with the driving signal output from the controller 2.

Here, the first focusing driver 31 and the second focusing driver 32 receive the same driving signal from the controller 2, but each movement amount is different.

This is because the first focusing driver 31 and the second focusing driver 32 have different structures, and the first focusing driver 31 and the second focusing driver 32 are different from each other. Are manufactured according to design data (data) at the time of design to suit the characteristics of the camera.

As described above, when the first and second focusing driving units 31 and 32 are driven, the first extraction lens 41 of the photographing lens system 4 mechanically connected to the first focusing driving unit 31 and In addition, the second extraction lens 51 of the finder optical system 5 mechanically connected to the second focus adjustment driver 32 performs the focus adjustment in association.

When the focus adjustment operation of the first extraction lens 41 and the second extraction lens 52 will be described in detail, the first extraction lens 41 has one or more left and right movements not shown among the plurality of lenses. A possible lens is connected to the first focusing driver 31 to perform focusing in conjunction with the movement of the first focusing driver 31, and the other lenses are fixed.

The second extraction lens 51 is connected to the driving of the second focus adjustment driver 32 by connecting the first lens 511 positioned in the objective portion 52 side direction to the second focus adjustment driver 32. The focus adjustment is performed while moving left or right, and the second lens 512 is fixed.

The first extraction lens 41 is mounted between the front lens group 42 and the rear lens group 43 of the photographing lens system 4 as shown in FIG. 2A, and a movable lens is mounted on the first lens. It moves while having the same movement direction and movement amount as the movement direction and movement amount of the focus adjustment drive part 31.

In addition, the second extraction lens 51 is mounted between the objective portion 52 and the eyepiece portion 53 of the finder optical system 5 as shown in FIG. 2B, and the first lens 511 is The second focusing driver 32 moves while having the same movement direction and movement amount as that of the movement direction and movement amount.

Herein, the shift amount of the first lens 511 is different from the shift amount of the second focus adjustment driver 32 because the shift amount of the first focus driving driver 31 is the movable lens of the first feeding lens 41. It also varies with the amount of movement.

Therefore, the finder optical system 5 forms an image of a subject whose focus position of the photographing lens system 4 has the same focus position on the initially formed subject.

Therefore, the user can confirm the change of the subject through the finder optical system 5 and accordingly the image of the subject to be photographed by the photographing lens system 4.

As described above, the user who confirms the image of the subject to be photographed through the finder optical system 5 operates the release switch S1 so that the release switch S1 outputs a two-stage operation signal to the controller 2. Allow shooting to be performed.

The present invention allows the user to check the focus adjustment state of the subject to the shooting lens through the finder, it is possible to prevent the error photo shooting due to the measurement error, the photographer can shoot in the desired focus adjustment state, The reliability is improved.

1 is a block diagram of a focus check apparatus for a binocular reflective camera according to an embodiment of the present invention,

2 (a) and 2 (b) are diagrams showing mounting states of the finder optical system and the extraction lens of the photographing lens system according to the embodiment of the present invention.

Claims (5)

Shooting start means for outputting a signal to be operated by a user to perform a shooting operation; Ranging means for measuring a distance between the subject and the camera and outputting a corresponding ranging signal; Outputting a driving signal to the ranging means according to the signal output from the photographing start means, determining a ranging distance between the subject and the camera based on the ranging signal of the ranging means, and performing focus adjustment corresponding to the determined ranging distance; Control means for outputting a control signal and controlling the overall operation of the camera; A focus adjusting means including first and second driving means for simultaneously driving in accordance with a control signal output from the control means; A photographing lens system including an image of a subject to be photographed, including a first extraction lens which performs focus adjustment in association with driving of the first driving means of the focus adjusting means; A second extraction lens connected to the second driving means of the focus adjusting means and performing focus adjustment to have the same focus position as that of the photographing lens system in conjunction with the second driving means of the focus adjusting means; And a finder optical system for allowing a user to check a shooting range that the shooting lens can cover. The method of claim 1, wherein in the focusing means The first driving means is driven to change the focus position of the photographing lens system to provide a corresponding moving force to the photographing lens system, And the second driving means drives to change the focus position of the finder optical system to provide a corresponding moving force to the finder optical system. The method of claim 2, wherein the second drive means Since the initial focusing position of the finder optical system is different from the initial focusing position of the photographing lens system, the focusing position of the finder optical system is designed and manufactured so as to have a different amount of movement from that of the first driving means. Focus checking device for a binocular reflex camera, characterized in that it is equal to the adjustment position. The method of claim 1 or 2, wherein the second extraction lens Focus checking device for a binocular reflex camera characterized in being located between the objective and the eyepiece. The method of claim 4, wherein the second extraction lens A binocular reflection type connected to the second driving means, the first lens moving in association with the second driving means to perform focus adjustment of the finder optical system, and a fixed second lens; Camera focus check device.