KR100236640B1 - Camera lens shutter drive system - Google Patents

Abstract

By quickly realizing the responsiveness of the opening / closing lever that controls the operation of the shutter blades that combine the aperture with respect to the standard exposure amount of the subject, a shorter opening time of the shutter blades makes it possible to obtain a clear image of the subject. Therefore, the object of the present invention is to provide a lens shutter driving system of a camera that can achieve compactness and achieve compactness.

Accordingly, the motor gear for transmitting the rotational force of the drive unit; An AE gear that rotates in response to the power of the motor gear; An opening and closing lever for opening and closing the shutter blades by the AE gear; An AF gear for following the AE gear; An AF ring engaged with the AF gear to direct the lens; It is characterized in that it comprises a locking means for stopping at the set position of the AF ring.

Description

Camera lens shutter drive system

1 is an exploded perspective view of a lens shutter driving system according to an embodiment of the present invention.

2 is a plan view of a lens shutter driving system according to an embodiment of the present invention.

3 is a side cross-sectional view of a main portion of a drive system according to an embodiment of the present invention.

4 is a plan view for explaining the operating state of the lens shutter drive system according to an embodiment of the present invention.

5 (a) and 5 (b) are views for explaining the operating state of the shutter blade according to the present invention.

[Industrial use]

The present invention relates to a shutter driving system of a camera, and more particularly, to shorten an opening time of a shutter blade by quickly responsiveness of an opening / closing lever controlling the operation of a shutter blade that uses a diaphragm for a standard exposure amount. A shutter drive system of a camera.

[Prior art]

In general, a camera employing a motor-driven lens shutter which controls a combination of aperture and shutter speed for a subject's exposure amount is disclosed in Japanese Laid-Open Patent Publication No. 2-272434 (published date; November 7, 1990, name; Mou) Shutter shutter, which serves as an aperture, and an opening and closing lever for opening and closing the shutter blade at a closed position and an aperture setting position of the shutter opening, and a cam portion for presetting an operating position of the opening and closing lever. An aperture ring, a drive ring for the opening / closing lever to follow and having a steep inclined surface by the cam portion, and a motor for operating the aperture ring and the drive ring, and additionally a ratchet for autofocusing. And a locking lever which restrains the ratchet by an amateur which is selectively adsorbed by an electromagnet.

[Problem to Solve Invention]

Such a prior art is a diaphragm ring by the drive ring rotated in accordance with the forward rotation of the motor, and reaches the calculated value, the electromagnet is magnetized to constrain the diaphragm ring to perform autofocus, and to reverse the rotation of the motor According to the preset aperture diameter, the driving ring is rotated clockwise to operate the open / close lever by the cam portion having the sharp inclined surface, so that the automatic exposure can be realized. Since the shutter opening time is determined by the driving ring in which the cam portion is held, the response of the opening / closing lever for controlling the opening / closing time of the shutter blade is slow, and thus the shutter opening time is long. .

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to quickly realize the responsiveness of an opening / closing lever for controlling the operation of a shutter blade that combines an aperture with respect to a standard exposure amount of a subject. As a result, as the opening time of the shutter blade is shortened, it is possible to obtain a clear image of a subject, and to provide a lens shutter driving system of a camera that can be structurally simplified to improve performance and realize compactness.

[Means to solve the problem]

In order to achieve the above object, the present invention includes a motor gear for transmitting a rotational force of the drive unit; An AE gear that rotates in response to the power of the motor gear; An opening and closing lever for opening and closing the shutter blade by the Ae gear; An Af gear for following the AE gear; An AF ring engaged with the AF gear to direct the lens; It provides a lens shutter driving system of the camera comprising a locking means for stopping at the set position of the AF ring.

The AE gear and the AF gear are installed up and down, and each corresponding surface is configured such that predetermined protrusions are in contact with each other.

The opening and closing lever has a main body, an actuating pin formed at one end of the main body and penetrating each long hole formed in the shutter blade, and formed on an opposite side of the actuating pin to selectively hit the projection of the AE gear to rotate the main body. It is characterized in that the operating projection and the elastic member for restoring the main body to the initial state.

[Action]

In the lens shutter driving system of the present invention, when the shutter switch is operated, the motor rotates in a direction set by a predetermined angle by a selective output signal of the driving circuit, so that the rotational force is transmitted to the motor gear and the set rotation is performed. The AF gear is rotated in the same direction by the projection of the AF gear in contact with the projection formed on one side by being transmitted to the channel AE gear.

Therefore, when the AF ring is rotated by a predetermined angle in the opposite direction in which the motor rotates, the AF ring is freely rotated by the locking means and the output signal of the driving circuit part is outputted to the motor of the driving part oppositely. When the AE gear is rotated in the opposite direction to the set direction of the rotor, the AE gear is also rotated in the same direction, and the AF gear geared to the AF ring is held in the initial state by the restoring force of the return spring installed in the AF ring, so as to follow the AE gear. It works.

At this time, when the autofocus position set by the calculated value calculated by the ranging circuit unit is reached, autofocus is realized by controlling the rotation of the AF ring by the operation of the locking means.

At this time, the motor of the driving unit is continuously rotated in the direction opposite to the set direction of the motor, so that the projection formed on one side of the AE gear pushes the operating projection formed on the opening and closing lever, so that the shutter blade is opened to calculate the exposure value incident from the subject. Automatic exposure is performed.

When the automatic exposure is realized in this way, the motor of the driving unit is rotated in the set direction again as the output signal of the driving circuit unit is reversed, so that the AE gear is rotated in the set direction so that the opening / closing lever follows the protrusion of the AE gear. Close the shutter blade, and if it continues to rotate, the projection formed on one side is rotated in the set direction in contact with the projection formed in the AF gear, so that the AF ring is rotated in the opposite direction to the set direction. Will be completed.

EXAMPLE

1 is an exploded perspective view of a lens shutter driving system according to an embodiment of the present invention, and FIG. 2 is a plan view of a lens shutter driving system according to an embodiment of the present invention, and reference numeral 1 denotes a rotational force of a driving unit not shown. It shows a motor gear.

The motor gear 1 is gear-coupled so as to reduce the rotational force of the driving unit to the prescribed rotational speed via the reduction gear 3 to be transmitted to the AE gear 5.

The AE gear is configured to operate the opening / closing lever 11 for selectively opening and closing the shutter blades 9a and 9b as well as the protrusions 7 protruding from one side thereof.

The opening and closing lever 11 is hinge-installed to enable the arcuate movement, the operation projection 12 is formed to be located in the area in contact with the projection 7 formed on the AE gear 5 on one side thereof. In addition, the elastic member 13 for restoring to the initial state is installed in a shot, the other side of the operation pin 15 is provided with the hinge of the shutter blades (9a) 9b installed fixedly hinged to each other as shown in FIG. By being inserted into the guide holes 17a and 17b, the shutter blades 9a and 9b are opened and closed in accordance with the operation of the opening and closing lever 11.

As shown in FIG. 3, the AF gear 19 operated by following the operation of the AE gear 5 is formed at a position in contact with the protrusion 7 of the AE gear 5. Similarly, it is provided coaxially and rotates the AF ring 23 which supplies a lens (not shown).

The AF ring 23 has a gear portion 25 which is geared to the AF gear 19 and another gear portion 27 is formed on the opposite side thereof to transmit rotational force to the locking means. Return spring 29 is installed on one side to be restored to the initial state.

And the locking means for restraining the set position of the AF ring 23 is provided with a pinion 31 which is gear-coupled with the gear 27, the cam surface 33 is formed on one side and extends to restrain one-way rotation. It is constrained by the locking groove 40a of the suction piece 40 by the selective magnetization force of the AF lock gear 37 and the AF magnet 39 provided at a predetermined position. It is provided with an elastic member 41 and the tip end portion is composed of an AF lock lever 43 which is selectively locked to the ratchet 35 so as to restrain the AF ring 23 by a calculated value of a distance circuit portion (not shown). have.

Operation of the lens shutter driving system of the camera according to the embodiment of the present invention configured as described above will be described with reference to FIG.

When the shutter switch (not shown) is operated, as the motor of the driving unit rotates clockwise by a predetermined angle due to the selective output signal of the driving circuit unit, the rotational force is transmitted to the motor gear 1, and the reduction gear coupled to the gear The AF gear 19 is driven by the projection 21 of the AF gear 19 which is decelerated at the rotational speed specified in (3) and transmitted to the AE gear 5 and is in contact with the projection 7 formed on one side thereof. Is rotated in the same direction.

As the AF gear 19 is rotated in the clockwise direction, the AF ring 23 geared to the gear rotates counterclockwise, and the AF lock 23 is geared to the gear part 27 of the AF ring 23. As the gear 37 is rotated in the clockwise direction, the AF lock lever 43 shot in the torsionally elastic member 41 is rotated on the cam surface 33 of the lock gear 37.

At this time, when the drive is completed by a predetermined angle, the electrical output signal is magnetized by outputting the AF magnet 39 from the driving circuit unit (not shown), the locking groove 40a of the suction piece 40 provided to the magnet 39 The AF lock lever 43 restrains the AF lock lever 43 so that the AF lock gear 37 engaged with the AF ring 23 maintains a free rotation state.

In this state, when the output signal from the drive cycle is reversely output and the motor of the drive unit is rotated counterclockwise, the AE gear 3 is also rotated counterclockwise and the AF gear 23 is geared to the AF ring 23 at the same time. 19 is maintained in the initial state by the restoring force of the return spring 29 which is installed in the AF ring 23, thereby following the AE gear 5.

At this time, when the autofocus position set by the calculated value calculated by the ranging circuit unit is reached, the AF lock lever 43 is cut off by blocking the electrical output signal applied to the AF magnet 39 that restricts the AF lock lever 43. Is restored to the initial state by the restoring force of the torsionally elastic member 41 and is locked to the ratchet 35 of the AF lock gear 37 to control the rotation of the AF ring 23 so that autofocus is realized.

At this time, the motor of the driving unit continues to rotate in the counterclockwise direction, so that the projection 7 formed on one side of the AE gear 5 overcomes the elastic force of the elastic member 13 installed in the opening / closing lever 11 and the operating projection 12. As the operation pin 15 formed at the other end thereof is pushed inward, the circular arc displacement occurs, so that the shutter blades 9a and 9b are moved to the fifth (b) in the state shown in FIG. As shown in the drawing, the automatic exposure is performed by calculation of the exposure value incident from the subject. The opening degree of the shutter blades 9a and 9b can be controlled by controlling the turning angle of the opening / closing lever 11. do.

When the automatic exposure is realized in this way, the motor of the driving unit rotated in the counterclockwise direction is rotated clockwise as the output signal of the driving circuit unit is reversed, whereby the AE gear 5 is rotated clockwise again to open / close the lever ( The shutter blades 9a and 9b are restored to their initial positions by the restoring force of the elastic member 13 installed in the 11, and as the AE gear 5 continues to rotate, the protrusions 7 formed on one side thereof are the AF gear ( As it rotates in the clockwise direction in contact with the protrusion 21 formed in 19), the AF ring 23 is rotated counterclockwise to complete one cycle by the same operation as the initial operation.

At this time, the opening speed of the shutter blades 9a and 9b is the motor rotation speed of the drive unit for rotating the AE gear 5 counterclockwise, and the closing speed is the motor of the drive unit in which the motor of the drive unit rotates clockwise. As the speed increases, driving with the maximum control characteristics according to the response of the motor makes it possible to rapidly realize the opening operation of the shutter blades 9a and 9b, thereby realizing a shutter driving system that is close to the ideal type, and creating a wise subject image. You can get it.

[effect]

As described above, the lens shutter driving system of the camera of the present invention realizes automatic focusing and automatic exposure, and can control the motor control speed of the driving unit at the maximum response speed. The fast opening / closing speed of the blade allows a clear subject image to be obtained, which improves the reliability of the product. Since the AE ring is not required, it is structurally simple, which improves workability as well as compactness. There is an advantage.

Claims (3)

A motor gear for transmitting a rotational force of the driving unit; An AE gear which rotates by receiving power of the motor gear and has protrusions protruding from one surface thereof; An opening and closing lever for opening and closing the shutter blade by the AE gear; An AF gear disposed at the same rotational center as the AE gear and having another protrusion formed on one surface thereof to rotate in contact with the protrusion of the AE gear; an AF ring engaged with the AF gear to direct a lens; Locking means for stopping at a set position of the ring; Lens shutter driving system of the camera comprising a. 2. The opening and closing lever of claim 1, wherein the opening / closing lever is formed at one end of the main body and passes through each long hole formed in the shutter blade, and is formed at an opposite side of the operating pin to selectively correspond to the projection of the AE gear. And an actuating projection for rotating the main body and an elastic member for restoring the main body to an initial state. 2. The locking device as set forth in claim 1, wherein the locking means includes: a pinion engaged with the gear portion of the AF ring; An AF lock gear integrated with a lower portion of the pinion and having a cam surface formed on one side thereof, and a one-way restraint racket formed on the remaining outer circumferential surface thereof; An AF lock lever corresponding to the ratchet and the AF magnet of the AF lock gear and rotatably installed with an elastic member for restoring to an initial state; An AF magnet for selectively turning the AF lock lever; Lens shutter driving system of the camera having a.