KR101680585B1 - Feeding apparatus for recoding multiplex hologram - Google Patents

Abstract

Feeding devices for recording multiplexed video holograms are particularly useful when you are very sensitive to the surrounding environment, such as hologram photography. When the hologram is recorded, the interference of the laser light is disturbed even in a small noise around the hologram, so that the hologram is often failed to record. Also, in order to make a complex hologram like a multiplex hologram, a plurality of images passing through a slit sequentially moved by a motor are gathered to form a single image.
That is, in such a complicated operation, if the optical equipment is not automated, the hologram can not be stored.
In order to manufacture the multiplex hologram in the form of a moving image as in the present invention, a special film transfer device is required. In addition to the control for moving the slit, control for moving the film in units of frames is required.
In the present invention, the slit and the linear actuator are fixed to the upper surface and the lower surface of the belt so that the slit and the linear actuator are moved in opposite directions while moving the slit with the motor to accommodate the requirement, The present invention relates to an apparatus and method capable of producing a moving image multiplexed hologram by moving the film in units of frames.

Description

[0001] The present invention relates to a feeding apparatus for recording a multiplex hologram,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a feeding apparatus and a feeding method for feeding a film for storing and reproducing an image with a linear actuator having a double structure. More particularly, the present invention relates to a feeding apparatus and a slitting method for forming a multiplex hologram, The present invention relates to a feeding apparatus for feeding a hologram film for producing a recording bar of a video image.

Optical systems such as holographic photography are very sensitive to the surrounding environment. When the hologram is recorded, the interference of the laser light is disturbed even in the vicinity of the noise like the voice, so that the hologram recording may fail. Therefore, when a plurality of images are recorded on a single film such as a multiplex hologram instead of a single hologram, management of the optical system by a person is an obstacle to the production of the hologram.

Particularly, in order to make a complex hologram like a multiplex hologram, an image having passed through a narrow slit (width of about 5 mm in the embodiment) has to reach the surface of the hologram film, and the slit is sequentially moved by the motor, We gather together to make one image. In other words, automation of optical equipment is essential when such a complicated operation is required. In recent years, digital hologram printer method has been developed. Since it is a one-sheet hologram, it is composed of linear actuator of x-axis and y-axis and optical hologram system, and hologram is made by automation of optical engine. On the other hand, when the hologram is manufactured by the moving picture multiplex hologram method as in the present invention, the control of the feeding device for moving the film is further complicated because slit control and linear actuator control are added.

The optical equipment consists of an object beam reflected from an object or a reference beam propagated directly to a film, and then the hologram is stored in a state where the two lights are combined into a hologram film. Here, DMD (Digital Micromirror Device) or the object exists in the case where the object light is reflection type, and when the object light passes through, it is classified into the case where the LCD or the image film is placed in the object place. Also, when the LCD, which is a general display device, is used for a special purpose to make a hologram, it is called another name of Spacial Light Modulator (SLM).

Since the multiplexed moving picture hologram made in the present invention is a hologram made primarily, the reproduction light source must use a laser beam.

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus and a method for stably manufacturing a hologram by constituting an automation system of optical equipment that is indispensable in a complex hologram operation in which a plurality of images are recorded on one hologram film .

In order to achieve the above object, the present invention relates to an automation system for optical equipment required in a hologram operation for recording a plurality of images on one holographic film using the system of FIG. 3;

The belt 140 is connected to the motor 100 for coupling and moving the belt tray 120, the slit 520, and the linear actuator 130;

The linear actuator 130 is coupled to or separated from the slider tray 330 at a specific position by a control signal;

  A structure in which the belt tray 120 and the linear actuator 130 are moved in a direction opposite to each other when they are moved by the motor 100 in a state where the belt tray 120 and the linear actuator 130 are coupled to the belt 140;

And the multiplexing video hologram can be recorded by the provision of the film feeding device structure.
The slit 520 and the motor 100 for moving the slit 520, the slider tray 330 for moving the film, and the linear actuator 130 are mounted on the slit 520, (Fig. 3) of a system in which the system is operated in cooperation with the system; A structure (Figure 5) of the system coupled with the belt tray 120 to move the slit 520; (Fig. 4) having a structure in which the linear actuator 130 is coupled to and separated from a slider tray 330 at a specific position.
The present invention also provides a film feeding apparatus for multiplexed moving picture hologram recording, characterized by a structure combined with a motor (100) for moving a slit (520) coupled to a belt tray (120).
The present invention also provides a film feeding apparatus for multiplexed moving picture hologram recording characterized by a structure of a system in which a linear actuator 130 is combined or separated at a specific position with a slider tray 330 by a control signal .
The present invention also provides a multiplex moving picture hologram recording method characterized by a structure in which a belt tray (120) and a linear actuator (130) are moved in opposite directions when moved by a motor (100) A film feeding device for a film.

As described above, the synchronous operation of the slider tray for holding the holographic film according to the present invention and the linear actuator for moving the slit enables a plurality of images to be recorded in one holographic film.

  In addition, according to the present invention, the manufacturer can set the optical table set-up and the automation routine only by the automation of the optical system, thereby ensuring homogeneity and stability of the hologram production.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a schematic configuration in which a belt tray for moving a slit and a linear actuator for moving a slider tray are mounted in a feeding device for recording a multiplexed moving picture hologram according to the present invention.
Fig. 2 is a schematic view showing a state in which the feeding device according to the present invention is moved counterclockwise by rotation of the motor.
3 is a schematic diagram showing a state in which a linear actuator is operated and a slider tray is caught by a feeding device according to the present invention.
4 is a schematic diagram showing a state in which a linear actuator is engaged with a slider tray and moves to the left in a feeding device according to the present invention.
FIG. 5 is a schematic view showing a combined state of a fixing frame for fixing a slit and a belt tray in a feeding device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings. In the description of the present invention, the same parts are denoted by the same reference numerals, and repetitive description thereof will be omitted.

  First, a configuration of an overall system for implementing a feeding device for recording a multiplexed moving picture hologram according to the present invention will be described with reference to FIGS. 1 and 3. FIG.

  2 is a view illustrating a state in which a feeding device is moved by a motor, and FIG. 3 is a view illustrating a state in which the linear actuator is in a position for engaging with the slider tray FIG. 4 is a schematic view showing a state in which the linear actuator is moved in a state of being engaged with the slider tray, and FIG. 5 is a view showing a state in which the slit and the belt tray are coupled.

As shown in the drawings, the present invention basically comprises a motor 100, a pulley 110, a belt tray 120, a belt 140, a linear actuator 130, a slider frame 300, A tray 330 and a slit (FIG. 5). Hereinafter, each constitution will be examined.

    The motor 100 is a basic operation for moving the film in the system of the present invention and functions to move the belt while supporting the belt 140 together with the pulley 110. [

  The belt tray 120 is configured to be coupled with a slit (FIG. 5) for forming a multiplex hologram, and is most frequently reciprocated.

  The belt 140 fixes the belt tray 120 and the linear actuator 130 between the upper and lower sides of the belt and moves the two accessories in opposite directions according to the movement of the belt.

The linear actuator 130 is coupled to the slider tray 330 to move the film in a frame unit at a specific position.

  The slider tray 330 supports the holographic film and moves the holographic film in units of frames.

The linear actuator 130 may be a slider tray 330 that moves on the rail on the slider frame 300 as a means for moving the holographic film by the frame length. The slider tray 330 is configured to vertically fix the hologram film, and any structure may be used. In order to move the slider tray 330, the motor 100 is driven. As the belt 140 moves by the operation of the motor, the linear actuator 130 coupled to the belt 140 moves together, The linear actuator 130 is operated so as to move together with the slider tray 330 at the frame specific position or end portion of the film and to move away from the slider tray 330 at the beginning of the frame.

The operation of the motor 100 is repeated in the clockwise direction (CW) at the start position of the frame and in the counterclockwise direction (CCW) at the end position of the frame. In particular, at the end of the frame, the linear actuator 130 is operated so that the slider tray 330 and the coupling operation are interlocked with each other.

The slider tray 330 requires a coupling hole at a specific position to engage with the linear actuator 130. However, if the length of the frame varies, the position of the coupling hole becomes meaningless. Therefore, in order to engage with the linear actuator 130 at an arbitrary position even if the length of the frame changes, the end portion of the linear actuator 130 is formed in the form of an electromagnet, and the slider tray 330 is also made of a metal It is preferable that the two parts are formed in such a form that they can be combined even at an arbitrary position.

  It is desirable that the spacing of the slits (Figure 5) in the system described above is not the case where the system is often adjusted to operate, so that it may be configured in the form of a clip for manual adjustment to reduce the complexity of the overall system.

  Implementations of the present invention may be further implemented with simple sequential control circuitry in which the above-described operations may be implemented in the above apparatus. Here, only the above-described operation procedure and configuration of the mechanism are described. Since the sequential control circuit is flat, the description of the circuit and the program is omitted, and the above-described technique makes it possible to construct an automation system of optical equipment in complex hologram operations, And to provide an apparatus and a method for manufacturing the same.

100: motor 110: pulley
120: Belt tray 130: Linear actuator
140: Belt 300: Slider frame
320: CW rotation 330: Slider tray
510: slit fixing frame 520: slit

Claims (4)

A motor rotating on both sides and a belt rotating using a pulley;
A belt tray coupled to one side of the belt and having a slit through which images for generating a multiplex hologram are formed;
A linear actuator coupled to the other side of the belt and positioned at a position facing the belt tray; And
A slider tray for moving the holographic film for recording the multiplex hologram in units of frames,
And a recording unit for recording the multiplexed hologram. The method according to claim 1,
Wherein the linear actuator moves in a direction opposite to a direction in which the belt tray moves when the belt rotates,
Wherein the feeding device is used for recording a hologram moving picture. The method according to claim 1,
The linear actuator is coupled to the slider tray to interlock with the slider tray when the motor rotates in a counterclockwise direction and is separated from the slider tray so as not to interlock with the slider tray when the motor rotates clockwise And a multiplexing unit for multiplexing the multiplexed holograms. The method according to claim 1,
The slider tray may have a hole formed at one side thereof for coupling with the linear actuator,
Wherein the linear actuator is formed of an electromagnet, and the slider tray includes a metal component.

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