JPS6129825A - Diaphragm mechanism driving device of camera - Google Patents

Abstract

PURPOSE:To make the structure of a driving part simple and small-sized to facilitate setting a diaphragm mechanism into a camera body by arranging a fixed cylindrical coil and a moving permanent magnet coaxially in parallel with an aperture plane. CONSTITUTION:A moving cylinder member 15 is inserted to a nonmagnetic material shaft 16 arranged in parallel with the aperture plane, and permanent magnets 14a and 14b are fixed to both of them. On the outside of the cylinder member 15, fixed coils 11a and 11b are fixed to a diaphragm plate 13. When a DC current is flowed to the coil 11a in this constitution, the cylinder member 15 is moved in the direction of an arrow, and the member 15 is braked and controlled by the repulsive force of the electromagnetic action between permanent magnets 14a and 14b. An mechanism 20 is driven through a moving pin 17 and a lever 18 of the cylinder member 15. Thus, the structure of the driving part is made simple and small-sized to facilitate the assembly of aperture mechanism to the camera body.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an aperture mechanism drive device for a camera using an electromagnetic drive coil.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Conventional Structure and Problems A conventional aperture mechanism drive device for a video camera will be described with reference to FIGS. 1 to 3.

1 and 2, a coil motor 1 is fixed to an aperture plate 3 via a connecting pin 2 with screws or the like. A pin plate 4 is fixed to the motor shaft 1a of the coil motor 1 with screws or the like, and a pin 5 is incorporated into the pin plate 4. One end of the spiral spring 6 is attached to the pin plate 4, and the other end is attached to the aperture plate 3 by welding or the like, respectively, and applies rotational torque in a fixed direction to the motor shirt 1a of the coil motor 1.

An aperture lever 7 is connected to the pin 6.

With the above configuration, in the coil motor 1, by turning the motor shirt 1a with a rotation torque larger than the initial rotation torque of the spiral spring 6 and in the opposite direction, a torque is applied to the aperture lever 7 via the pin plate 4 and the pin 6. The force is transmitted, and it rotates to a position where it balances the rotational torque of the spiral spring 6, and then stops. When the rotational torque of the coil motor 1 becomes zero, the aperture levers 3' and 7 return to their original positions due to the spiral spring 6. Then, the aperture mechanism section 8 is operated by the movement of the aperture lever 7.

FIG. 3 is a sectional front view of the coil motor 1.

A motor shaft 1a is provided in a direction perpendicular to the central axes of the coils 9a and 9b, and a cylindrical permanent magnet 1o is incorporated therein. The magnetic field of the permanent magnet 10 is divided into north and south poles on a plane including the axis of the motor shaft 1a, and the magnitude of the rotational torque can be adjusted by adjusting the magnitude of the direct current flowing through the coil 9a.

By rotating the permanent magnet 10 by the coil 9a,
Since the magnetic flux passing through the coil 9b changes, a back electromotive force is generated in the coil 9b. Therefore, the coil 9b performs a brake action that rapidly weakens the rotational force exerted by the coil 9a.

However, with the above configuration, a space corresponding to the length of the motor shaft 1a of the coil motor 1 is required, the drive unit becomes large, and moreover, it becomes an obstacle when incorporating the aperture mechanism into the video camera lens section. However, it had the disadvantage of poor workability.

OBJECTS OF THE INVENTION It is an object of the present invention to provide an aperture mechanism drive device for a camera that eliminates the above-mentioned conventional drawbacks, reduces the size of the drive device section, and can be easily incorporated into a compact camera. shall be.

Structure of the Invention The present invention provides a drive device using an electromagnetic method in which a fixed cylindrical coil and a movable cylindrical permanent magnet located inside the fixed cylindrical coil are coaxially arranged, and the axis and the aperture surface are arranged parallel to each other. By doing so, the diaphragm mechanism is driven via the connecting means, saving space, and
This improves workability.

DESCRIPTION OF THE EMBODIMENTS As an embodiment of the present invention, an aperture mechanism drive device for a fixed video camera will be described with reference to FIGS. 4-6.

The coils 11a and 11b are each fixed cylindrical member 12a
, 12b, and parallel to the aperture surface, the aperture plate 1
3 is fixed with screws etc. cylindrical permanent magnet 14a,
14b is glued or press-fitted into the movable cylindrical member 16, and the movable cylindrical member 16 is connected to the non-magnetic shaft 1.
6, the fixed cylindrical members 12a, 12
b can move freely in the axial direction of the shaft 16. Both ends of the shaft 16 are fixed cylindrical members 12a.

It is fixed by being coaxially press-fitted into 12b.

Further, a pin 17 protrudes near the center of the movable cylindrical member 15 in a direction perpendicular to the axis to the outside of the fixed cylindrical members 12a, 12b, and an aperture lever 18 is connected to the pin 17. One end of the tension coil spring 19 is attached to the aperture lever, and the other end is attached to the aperture plate 13, thereby applying a force in a fixed direction to the aperture lever 18.

When the N and S poles of the permanent magnets 14111 and 14b are arranged as shown in FIG. 6, the movable cylindrical member 15 moves to a position where the six bases and seven poles of the coil 11a are balanced.

At the same time, the coil 11b has, in proportion to the moving speed,
A magnetic field is generated by electromagnetic induction with the permanent magnet 14b. Due to the repulsive force between the generated magnetic field and the permanent magnet 14b, a braking force is generated in the movable cylindrical member 16 and controlled. When the movable cylindrical member 15 moves in this way, the aperture lever 18 connected via the pin 17 attached to the movable cylindrical member 15 is moved, and acts on the aperture mechanism section 2o. Therefore, the aperture can be adjusted depending on the magnitude of the current value passed through the coil 11a.

In addition, although the case where the movable cylindrical member 16 moves linearly on the shaft 16 was illustrated above, it is also possible to make a shaft shape into a circular arc curve shape, and to move a movable cylindrical member in a circular arc shape.

Further, in the above embodiments, a fixed video camera was described, but it goes without saying that a movable or portable video camera is also possible.

Effects of the Invention As described above, according to the present invention, the fixed side coil and '7. ．．
−.

By configuring the movable side permanent magnets coaxially and arranging their axes parallel to the aperture surface, the drive unit can be made small, compact, and simple in structure, significantly reducing space. This allows the camera lens section to be made more compact. Still, effects such as improved workability can be obtained.

[Brief explanation of drawings]

Figure 1 is a front view of the aperture mechanism drive device of a conventional camera.
FIG. 82 is an AAI sectional view of the same device, FIG. 3 is a sectional front view of essential parts of the same device, FIG. 4 is a perspective view showing the aperture mechanism drive device of a camera in an embodiment of the present invention, and FIG. 5 is the same. BB of the device
'This is a cross-sectional view. DESCRIPTION OF SYMBOLS 1...Coil motor, 1a...Remotor shaft, 2...Connection pin, 3...Aperture plate, 4...Pin plate, 6...Pin, 6...
...Swirling spring, 7...Aperture lever, 8
a, 8b...Coil, 9...Cylindrical permanent magnet, 1o...Aperture mechanism section, 11a, 1l
b-・-・-coil, 12 a, 12 b・-=
- Fixed cylindrical member, 13... Aperture plate, 14a
. 14b...Cylindrical permanent magnet, 16-movable cylindrical member, 16...Non-magnetic shaft, 17...
- Pin, 18...Aperture lever, 19...Tension coil spring, 20...Aperture mechanism section. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2 Figure 3! a, IO Figure 4

Claims (2)

[Claims] (1) Permanent magnets are provided at both ends of a movable cylindrical member that moves on a fixed shaft, and a fixed coil is placed outside of the permanent magnet, and the movable cylindrical member is moved using the electromagnetic action of the coil and permanent magnet. A diaphragm mechanism driving device for a camera, which drives an diaphragm mechanism section that adjusts light passing through the lens by adjusting the diaphragm mechanism through a connecting means. (2) An aperture mechanism drive device for a camera according to claim 1, wherein two fixed coils are arranged for the permanent magnets at both ends of the movable member, one of which is used for driving and the other for control.