KR200266313Y1 - Mirror driving apparatus for Single Lens Reflex Camera - Google Patents

Abstract

The objective lens and the finder are coupled to the camera body, and the reflective mirror sliding part is disposed between the finder and the objective lens by a driving source installed at one inner side of the camera body so that the reflective mirror is slid to selectively move the image of the subject. In the single-lens reflex camera to make it to a finder through an objective lens,

And a solenoid having a rod that linearly moves to the drive source, and a reflection mirror position fixing means installed at an upper end of the solenoid outside to limit movement or stop at an accurate position when the reflective mirror is returned after sliding. .

The resilient member holds the lever so that the subject can be observed through the finder, and the reflecting mirror is fixed at the correct position. When the reflecting mirror is returned after shooting, the reflecting mirror is fixed at the correct position. In addition, the shock that may occur when the reflection mirror is returned is absorbed by the lever and the elastic member to reduce the impact, thereby reducing camera shake. In addition, the exposure time can be controlled according to the time that power is applied to the solenoid, and in the finder state, the latch is fixed by the latch, thus saving power by not applying power to the solenoid.

Description

Mirror driving mechanism for single-lens reflex cameras

The present invention relates to a single-lens reflex camera, and more particularly, to a single-lens reflex camera that can be applied to a digital still camera (Digtal still camera) and the driving of the mirror in a sliding manner.

In general, a single lens reflex camera is a finder in which an image entered through a lens is reflected by a 45 ° inclined mirror installed at the back of the lens by 90 ° and reflected on a focusing screen located at the same distance as the film surface. It is a camera with.

Such single-lens reflex cameras include a method in which the mirror is moved up and down about a hinge axis, and a method in which the mirror slides. The present invention relates to the manner in which the mirror slides, and this technique is well shown in US Patent Publications 4,750,012, 5,715,003 and 4,659,202 and the like.

First, US Patent Publication No. 4,750,012 shows a structure in which a rotary solenoid is used to move the mirror linearly and a light is blocked using a masking plate. U.S. Patent No. 5,715,003 shows a structure in which light is transmitted to the viewfinder using two mirrors, and a structure in which light is exposed to the film surface by slits between the mirrors is disclosed. A structure driven by means and requiring a shutter is shown.

Such a conventional single-lens reflex camera has to be stopped at a predetermined position before or after the frame on which the reflection mirror is fixed, but the impact occurs when the stopping distance is extended or physically stopped due to the moving inertia. There is this.

An object of the present invention is to provide a single-lens reflex camera which stops at the correct position when the reflection mirror is slid and returned, and reduces the shock generated when stopping.

1 is a block diagram of a camera for explaining an embodiment according to the present invention,

2 is an exploded perspective view of a solenoid applied to the present invention,

3 is a front view showing the main part of the camera in a finder state for explaining an embodiment according to the present invention,

4 is a perspective view of FIG. 3;

5 is a plan view showing the main part of FIG.

6 is a front view showing the main part of the camera in the photographing state for explaining an embodiment according to the present invention,

FIG. 7 is a plan view illustrating main parts of FIG. 6. FIG.

The object of the present invention is that the objective lens and the finder are coupled to the camera body, and the reflective mirror sliding part is disposed between the finder and the objective lens by a driving source installed at one inner side of the camera body, so that the reflective mirror is slid to selectively move the subject. In the single-lens reflex camera which makes an image of an image finder through an objective lens,

And a solenoid having a rod that linearly moves to the drive source, and a reflection mirror position fixing means installed at an upper end of the solenoid outside to limit movement or stop at an accurate position when the reflective mirror is returned after sliding. .

In the case of observing the subject through the finder, it is fixed by the above-described reflective mirror position fixing means. In the photographing state, the reflection mirror is moved to a predetermined position while overcoming the pressing force of the reflective mirror position fixing means in the solenoid operation. Subsequently, after shooting, the reflection mirror is returned to the initial position, whereby the reflection mirror is fixed at the correct position by the position fixing means.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

1 is a side cross-sectional view of a camera for explaining an embodiment according to the present invention, which is formed on the camera body 1, the objective lens 3 disposed on the subject side, and one side of the camera body 1. The imaging surface 5 and the reflective mirror assembly 7 are shown. In addition, an eyepiece 11 is installed at one side of the camera body 1 so that an image of a subject is formed by the reflection mirror 9 of the reflection mirror assembly 7. The solenoid 15 is disposed at the lower end of the reflective mirror assembly 7 so as to move the reflective mirror assembly 7. As shown in FIG. 2, the solenoid 15 includes a case 16 fixed to the camera body 1, a solenoid guide bar 18 housed inside the case 16, and a moving member ( 20) and a coil 22. The case 16 is fixed to the camera body 1 and consists of a cylindrical shape having a substantially constant length, and a storage space is formed therein. The solenoid guide bar 18 is accommodated in the storage space of this case 16. And the outer periphery of the solenoid guide bar 18 is coupled to the movable member 20 to be movable in the longitudinal direction. In addition, a coil 22 is wound around the outer circumference of the moving member 20, and the coil is connected to a power source (not shown) to be magnetized when the power is applied, so that the moving member 20 may have an electromagnet property. On the other hand, a lever 27 to be described later protrudes from the upper end of the movable member 20, and a connecting portion 24 connected to the reflective mirror assembly 7 protrudes from the lever 27.

As shown in FIGS. 3 and 4, the above-described reflective mirror assembly 7 is disposed in front of the imaging surface 5 and is coupled to a fixing bracket 13 fixed to the camera body 1. A solenoid 15, a reflective mirror assembly 7 which slides by the operation of the solenoid 15. The reflective mirror assembly 7 is coupled to move horizontally on the mirror guide bar 17 arranged horizontally on the camera body 1. The reflection mirror assembly 7 has a photographing frame 26 coupled to one side thereof, and a reflection mirror 21 coupled to the photographing frame 26 at an inclination of 45 °. That is, in the photographing state of the reflecting mirror assembly 7, the photographing frame portion 26 allows light entering through the objective lens 3 to the image pickup surface 5 and the light entering through the objective lens 3 in the finder state (finder). 11) side by side with a reflection mirror 9 which is inclined at 45 ° through the eyepiece.

The reflective mirror assembly 7 is in a state where the camera can be viewed by the finder through the reflective mirror 9 when the camera is in a standby state, and is fixed by position fixing means, and power is not applied to the solenoid 15. to be. The sensors 23 and 25 are disposed on one side of the photographing frame 26 and the reflection mirror 21, respectively. The sensors 23 and 25 are used to detect a state in which an image of a subject forms on the finder 11 or to detect a movement state of the reflection mirror 21 in a photographing state.

Fig. 5 is a plan view showing the main part of Fig. 3, showing the connection relationship between the solenoid 15 and the reflection mirror position fixing means. The solenoid 15 has a lever 27 protruding from the center thereof, and the lever 27 is connected to the moving member 20 to move horizontally. Such a solenoid may be a conventional one, but may be any structure as long as the lever 27 is linearly moved horizontally. The latch 29 is hinged to the outer surface of the solenoid 15 as described above so as to rotate in a clockwise or counterclockwise direction. One end of the latch 29 is in contact with the lever 27 of the solenoid 15. The above-mentioned latch 29 is supported by an elastic member made of a torsion spring 31 so that an elastic force acts in the direction in which the part in contact with the lever 27 is in close contact. On the other hand, a stopper 33 is provided on the outer circumferential surface of the solenoid 15 to restrict the movement so that the latch 29 does not move beyond the state in which the lever 27 is pressed.

On the other hand, the latch 29 is inclined surface 29a having a constant angle horizontally at a portion in contact with the lever 27 so that the contact with the lever 27 is easily released while being rotated when the lever 29 is pressed by the lever 27. Have Another inclined surface 29b is formed at a portion adjacent to the inclined surface 29a. The other inclined surface 29b is for sliding the lever 27 to be easily moved to one side of the latch 29 when the lever 27 is returned to the photographed state and then returned.

In this single-lens reflex camera, a subject (not shown) is reflected by the reflection mirror 9 through the objective lens 3 to form an image in the finder 11. Therefore, the subject can be confirmed through the finder 11.

In this state, the reflection mirror 21 is located in front of the imaging surface 5. At this time, photographing is performed, and the lever 27 slides with the inclined surface 29a by the action of the solenoid 15 to move to the right as shown in FIGS. 6 and 7. The lever 27 then moves the reflective mirror assembly 7 together. The mirror assembly 7 then moves to the right along the mirror guide bar 17 as well. Therefore, the photographing frame 26 is positioned in front of the imaging surface 5, and the subject forms an image on the imaging surface 5 through the imaging frame 26. Therefore, photographing is made and the lever 27 is moved by the action of the solenoid 15. This lever 27 is slid along the inclined surface 29b to its original position and the mirror assembly 7 is moved to the left by the lever 27. Therefore, the reflection mirror 21 is located in front of the imaging surface 5 again, and the reflection mirror assembly 9 is returned and fixed by the latch 29. And the latch 29 is pressed and fixed by the torsion spring 31 like before photography. In other words, when the shooting button (release button) is pressed, power is applied to the solenoid 15 to move the reflection mirror assembly 7 in one direction (shooting state), and the driving force of the solenoid is compared with the torsion spring 31 of the position fixing means. Increase When the solenoid 15 is driven in one direction to be in the photographing state, the sensor 25 checks the photographing state and after the set time passes, the solenoid 15 is driven in the other direction (finder state). Then, the lever 27 connected to the moving member of the solenoid 15 hits the inclined surface of the latch 29 and passes through the finder. When the sensor 23 detects this, the power applied to the solenoid is turned off. In this way, the exposure time can be controlled according to the time that the power is applied to the solenoid, and in the finder state, it is fixed by the latch, so that power is not required to apply power to the solenoid, thereby saving power.

According to the present invention, the resilient member holds the lever so that the subject can be observed through the finder, and the reflecting mirror is fixed in position. When the reflecting mirror is returned after shooting, the reflecting mirror position fixing means is fixed in position. . In addition, the shock that may occur when the reflection mirror is returned is absorbed by the lever and the elastic member to reduce the impact, thereby reducing camera shake. In addition, the operating power of the solenoid can be saved only when the reflection mirror assembly is in the shooting state and not in the viewfinder state.

Claims (2)

The objective lens and the finder are coupled to the camera body, and the reflective mirror sliding part is disposed between the finder and the objective lens by a driving source installed at one inner side of the camera body so that the reflective mirror is slid to selectively move the image of the subject. In the single-lens reflex camera to make it to a finder through an objective lens, A solenoid having a rod that linearly moves to the drive source, Reflecting mirror position fixing means provided outside the solenoid to stop or limit movement at the correct position when the reflecting mirror is returned after the sliding movement. Single lens reflex camera including more. In claim 1, The reflective mirror position fixing means is hinged in the camera body, the latch rotates about the hinge coupling point by the rod, An elastic member supported by the latch and having an elastic force to rotate the latch in one direction; And a stopper disposed at one side of the latch and limiting movement of the latch.