KR200154840Y1 - Collimate lenz fine controlling apparatus of laser scanning unit - Google Patents

Abstract

The present invention relates to an adjusting device for finely moving a collimating lens of a laser scanning unit. The main object of the present invention is to move only in the direction of an optical axis without rotating the screw of the holder containing the collimating lens. The left, right direction and the up and down direction is already set so as not to be wrong.

A characteristic configuration for this is that the light of the laser diode fixed to the PCB passes through the aperture of the laser diode holder through the collimated lens turned off in the holder of the collimator fixing portion to be balanced light, but the collimator fixing portion The holder holding the collimated legs while being locked inside and the screw adjustment mechanism by pushing the holder in a separate configuration are separately constructed. When the holder is moved by loosening or tightening the screw adjustment mechanism, the above holder goes straight without rotational motion. Only exercise is to be done.

Description

Collimated Lens Fine Tuning Device for Laser Scanning Unit

1 is a cross-sectional view showing the configuration of the present invention,

2 is a plan sectional view showing a conventional configuration.

* Explanation of symbols for main parts of the drawings

1: PCB 2: laser diode

3: diode holder 4: holder

5: collimating fixing part 6: collimating lens

7: Spring 8: Screw Adjuster

9: washer

The present invention relates to an adjusting device for finely moving the collimating lens of the laser scanning unit, so that the position of the holder can be moved regardless of the distance adjusting screw.

In general, in the laser scanning unit, as shown in FIG. 2, the light of the laser diode b fixed to the PCB (a) on one side passes through the through hole d of the laser diode holder c. Pass the collimating lens (f) provided in the g (g) to be a balanced beam.

At this time, the holder (e) is embedded in the collimating fixing part (g), the collimating lens (f) is fitted into the inside of the holder, the screw portion (h) is formed on the outside The position of the collimating lens f is shifted by the degree of tightening and loosening this screw part.

However, in the conventional collimating lens adjustment structure as described above, when the holder e is loosened or tightened to focus, the screw part h is not precise, and thus the left and right directions, which are already set within several tens of micrometers, and There is a drawback to shake back up and down.

Therefore, the present invention has been devised by solving the conventional problems as described above. The main purpose of the present invention is that the lens is moved only in the optical axis direction even if the lens is not rotated even if the screw of the holder incorporating the collimated lens is already set. It is to prevent the left, right and up and down directions from being misaligned.

And a characteristic configuration for this is to ensure that the light of the laser diode fixed to the PCB passes through the collimating lens fitted in the holder of the collimating fixture through the aperture of the laser diode holder to be balanced light, The holder holding the sieve collimated lens fitted to the inner diameter and the screw adjusting mechanism for pushing and moving the holder are separately constituted. When the holder is moved by loosening or tightening the screw adjusting mechanism, the holder does not rotate without rotation. Only exercise is to be done.

Hereinafter, the configuration and operation of the present invention in detail according to the accompanying drawings.

1 is a planar cross-sectional view showing the structure of the present invention, in which a diode holder 3 fixed to a PCB 1 can be seen, and a diode holder 3 surrounding the laser diode 2, and the diode holder 3 You can see the collimator fixing part 5 fixed together.

In the collimator fixing part 5, a cylindrical holder 4 is fitted tightly, and a collimating lens 6 is fitted in the holder 4.

The inner diameter end of the fixing portion 5 is a female threaded portion to allow the screw adjustment mechanism 8 to be screwed in. On the contrary, a coil spring 7 is installed inside the holder 4.

A washer 9 (for example, a synthetic resin washer or the like) is interposed between the screw adjusting device 8 and the holder 4 to minimize the frictional force.

In the figure, reference numeral 10 is a fixing screw.

The following describes the operating state of the present invention configured as described above.

The position of the light emitted from the laser diode 2 is set by first adjusting left, right or up and down with a collimation jig (not shown).

Then, in order to focus the light, the denture of the collimated lens 6 must be moved back and forth. In this case, the screw adjuster 8 is adjusted by turning.

That is, when the screw adjusting tool 8 is turned, the screw adjusting tool 8 moves forward and backward along the axis of light, and since the holder 4 is coalesced in the coil spring 7 therein, it is difficult to move forward and backward. In addition, since there is a washer 9 between the rotating screw adjuster 8 and the holder 4 which moves only straight, the rotational force of the screw adjuster 8 is not transmitted to the holder 4.

As described in detail above, the present invention, in adjusting the position of the collimated lens 6, first adjusts in the up, down, left, and right directions, and then adjusts the front and back directions again, but the screw adjusting holes 8 Even if the holder is turned, the holder 4 only moves forward and backward without rotation, so that the adjustment state of the pre-adjusted up, down, left, and right directions is not obscured, unlike the conventional one, in which the screw part is in a single position, and the focus is quickly and accurately in a very limited state. Will be able to fit.

Claims (3)

The light of the laser diode 2 fixed to the PCB 1 passes through the through hole 31 of the lazy diode holder 3 and the collimated lens 5 turned off into the holder 4 of the collimator fixing part 5. To pass through to the balanced light, A holder (4) holding the collimating lens (6) turned off to the inner diameter of the collimating fixing part (5) described above, When the holder 4 is moved by loosening or tightening the screw adjusting device 8 by separately configuring the screw adjusting device 8 for pushing and moving the holder 4, the holder moves straight without a rotational motion. Collimating lens fine adjustment device of the laser scanning unit, characterized in that only made. The method of claim 1, The inside of the holder (4) is a collimating lens fine adjustment device of the laser scanning unit, characterized in that the built-in coil spring (7) for pushing the holder outward. The method of claim 1, The fine adjustment device of the collimated lens of the laser scanning unit, characterized in that between the holder (4) and the screw adjustment mechanism (8) through a washer (9) for minimizing friction.