KR930001693Y1 - Fax device - Google Patents

Abstract

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Description

Optical part fixing device of simulation transmitter

1 is a schematic diagram of an optical path of a simulation transmitter.

2 is a fixed state of the optical unit of the conventional simulation transmitter.

3 is a fixed state of the optical unit of the present invention simulation transmitter.

* Explanation of symbols for main parts of the drawings

1: lens 2: lens mount

3: lens holder 4: holder mount

5,5 ': Screw 6: Groove

7: fixed rib 8: hole

9: frame 10: pole

The present invention relates to a fixing device for a photoelectric conversion element used in a simulation transmitter and a method that can be easily assembled.

A commonly used simulation transmitter reads the image of the original at the read point 33 by scanning from the light source according to the movement of the original so that the image is formed on the lens 21 through the reflectors 34, 35, 36. After that, it is input to the CCD 32 and the light input to the CCD 32 is converted into an electrical signal and output.

At this time, the focal length of the lens at the reading part is always constant and the interval must be maintained accordingly.

To this end, the method of fixing the lens to the frame has conventionally been assembled as shown in FIG.

The lens 21 is mounted on the lens mount 22, and the lens 21 is fixed to the lens mount 22 on both sides by using the lens holder 23 to fix the lens 21 on the lens mount 22. The mount 22 is moved back and forth, and the lens 21 is focused, and then tightened with a screw 25 to be fixed to the frame 26.

However, such an optical part fixing device has a constant focal length of the lens at the reading part, so that the distance must be maintained accordingly. An error occurs when the lens is assembled to the lens mount, and an error also occurs when the lens mount is assembled to the frame. Since the mount is fixed directly to the frame, the focal length of the lens differs from one set to another, so each time you assemble the product, you have to focus on moving the lens mount before and after each time. Sex was uncomfortable.

The present invention was devised to compensate for the above-mentioned drawbacks. The system is fixed immediately after the lens is fixed on the jig for fixing the lens part in the simulation transmitter and the like. It is an object of the present invention to increase the reliability of the optical unit by assembling in fast assembly and fastening in the correct position.

An embodiment for achieving the above object will be described in detail with reference to the accompanying drawings.

The lens 1 is mounted on the lens mount 2, the lens holder 3 is wrapped around the upper part of the lens 1, and the lens 1 is fixed to both sides by a screw 5 to couple the lens 1 to the lens mount 2, and the lens The mount (2) is fixed to the fixing rib (7) on both sides of the groove (6) in the center of the holder mount (4) with a screw (5 ') and the frame (9) using the holes (8) on both sides of the upper part of the holder mount (4). It is made by fixing the holes 8 of the holder mount 4 to both side poles 10 formed on the back side. In the figure, reference numeral 1l denotes a CCD and 12 denotes a long hole.

Effects of the present invention configured as described above are as follows.

Place the lens (1) on the lens mount (2) and secure it with the screw (5) using the lens holder (3), and then mount the lens mount (2) on the holder mount (4) and fix it properly with the screw (5 '). Next, the holders 4 are fixed on the jig by inserting both holes 8 of the holder mount 4 into poles formed on both sides of the jig by using the same jig as the frame 9 and then engaging the upper part of the holder mount 4. The lens mount 2 is moved back and forth by using the long side holes 12 of the lens mount 2, so that the focal length of the lens 1 is accurately aligned with the CCD 11. When the focal length is correct, the holder mount 4 and the lens mount 2 are completely fixed with screws 5 'to fix the lens 1, and then the holder mount 4 is removed from the jig to form the frame 9. When the hole 8 of the holder mount 4 is fixed to the pole 10 and the frame 9 and the holder mount 4 are fixed by using a screw 5 ", the focal length of the lens 1 is naturally correct. That's right.

According to the present invention as described above, as soon as the assembly is fixed on the jig for fixing the lens part on the jig necessary for the experiment or work, precisely and quickly set the focal length, and then immediately assembles into the system as soon as possible Fixing it in the correct position can reduce time waste and improve the reliability of optics.

Claims (2)

In the optical unit in which the lens (1) of the replica transmitter is mounted on the lens mount (2) and fixed at both sides with a screw (5) using the lens holder (3) to couple the lens (1) to the lens mount (2), The lens mount (2) is fixed to the holder mount (4) with screws (5 ') to fix the holder mount (4) to a separate jig to adjust the distance between the CCD (11) and the lens (1) A device for fixing an optical part of a transmitter according to claim 1, wherein the hole (8) is inserted into and fixed to both poles (10) formed in the frame (9) using holes (8) on both sides of the holder mount (4). The holder mount (4) is characterized in that the fixing ribs (7) are formed on both sides of the groove (6) for mounting the lens mount (2) in the center and the holes (8) are formed on both upper sides. Optical part fixing device of the simulation transmitter.