KR100327321B1 - Laser diode module of an optical scanning device - Google Patents

Abstract

The present invention discloses a laser diode module of an optical scanning device.

The present invention, the base; A circuit board located at one rear of the base; A case in which left, right, and up and down flows on one side of the circuit board, and a laser diode is built-in; It is fixedly installed on the front of the case, and a flat guide surface is formed in the front and rear directions on the left and right sides based on the optical axis direction of the beam scanned from the laser diode. A guide surface is formed and is mounted on the upper surface of the base; A plurality of hook pieces extending from both edges of the base so that the slider seated on the base upper surface is fixed in position, and hooked and fixed to the upper surface of the slider; And a lens holder having a cylindrical body and a guide piece extending from both sides of the body and seated on a flat guide surface of the slider. By positioning the slider on the base, not only the initial position can be defined by the coupling between the guide boss and the through hole, but also the hook piece can elastically fix the slider. Therefore, there is an advantage that can improve the workability by not being accompanied by a separate screw fastening operation, there is an advantage that can prevent the misalignment of the optical axis that may occur in the process of screw fastening.

Description

Laser diode module of an optical scanning device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical scanning device, and more particularly, to a laser diode module which is a light emitting unit for forming a focus on a photosensitive drum.

In general, the structure of the optical scanning device applied to the laser printer, as shown in Figures 1 and 2, has a substantially rectangular housing (1), the interior of the housing (1), The laser diode module, which is a light source, is located.

The laser diode module has a laser diode 3 for generating a laser beam, a collimator lens 4 for shaping the beam scanned from the laser diode 3 into parallel light, and a rectangular hole for passing only a part of the shaped parallel light. It consists of a slit 5 in which 5a is formed.

On the path of the beam passing through the slit 5, the cylindrical lens 6 for converging the scanned beam in the sub-scanning direction, and the beam passing through the cylindrical lens 6 while rotating at high speed A polygon mirror 7 is located having a plurality of reflecting surfaces for reflecting at an angle of view.

In addition, the front of the polygon mirror (7) to spot the beam on the photosensitive drum (9), the f-θ lens consisting of a toric lens (8a) and a focusing lens (8b) aspherical lens, that is, a scanning lens (8) is located.

Referring to the operation of the optical scanning device having such a configuration as follows.

When the beam is scanned from the laser diode 3 constituting the laser module, the beam passes through the collimator lens 4 in parallel with the horizontal main scanning direction and the vertical sub scanning direction in parallel. It is shaped into a beam and then converges in the sub-scanning direction while passing through the rectangular hole 5a of the slit 5 and the cylindrical lens 6.

The beam converged in the sub-scanning direction is reflected by the polygon mirror 7, which is rotating at high speed, at a constant angle of view, and is scanned by the scanning lens 8 composed of the toric lens 8a and the focusing lens 8b. Focusing on the photosensitive drum 9 in a state converged in the main scanning direction, a desired image is obtained.

On the other hand, in such an optical scanning device, in particular, the laser diode module has a very high precision assembly because the assembling position of each lens and the state of focus formed on the photosensitive drum 9 are left and right according to the assembling state thereof. I'm asking.

3 and 4 show the assembly state of a typical laser diode module.

The laser diode 3 is located on the substrate 10, and the case 11 having the thread 11a formed on the front inner circumferential surface thereof is coupled to the substrate 10.

A holder 12 having a predetermined depth of insertion groove 12a is screwed into the threaded portion 11a of the case 11, and the fastener 13 is inserted into the holder groove 12a of the holder 12. Through the collimator lens 4 is built.

In addition, the slit 5 in which the rectangular hole 5a was formed is engaged in front of the holder 12. As shown in FIG.

At this time, between the rear of the case 10 and the rear of the holder 12 there is a spring 14 for elastically supporting the holder 12 in the outward direction so that the holder 12 is prevented from flowing by an impact from the outside. do.

The laser diode module having such a configuration adjusts the optical axis distance of the collimator lens 3 by moving the holder 12 having the collimator lens 4 therein forward and backward along the case 11.

3 (a) to 3 (c), the substrate is formed by unfastening and tightening the laser diode 3 fixed through the fixing screw s on the substrate 10 through the fixing screw s. The optical axis of the laser diode 3 is adjusted by moving in the up, down, left, and right directions about (10).

However, in such a conventional laser diode module, there are many problems listed below.

First, a plurality of parts such as a holder 12 and a case 11 in which the collimator lens 4 is built, and a fixture 13 and a spring 14 for fixing the collimator lens 4 on the holder 12 are provided. This necessitated a rise in the unit cost due to an increase in the number of parts and a decrease in assembly workability.

Second, in order to transfer the holder 12 in the front and rear directions about the case 11, a tool for adjusting the holder 12 separately is required, which also causes a unit cost increase.

Third, the holder 12 is to maintain a state in which the flow is prevented through the spring 14 and the fixture 13 to some extent, but the elastic force of the spring 14 after the impact from the outside or after a certain time has elapsed The change causes the flow of the holder 12, resulting in a problem that the optical axis distance between the collimator lens 4 and the laser diode 3 changes.

Fourth, a machining error occurs in the process of screwing the inner circumferential surface of the case 11 and the outer circumferential surface of the holder 12, and thus there is a problem that the quality of the parts produced is not uniform.

In order to solve such a problem, the applicant has proposed an improved laser diode module of an optical scanning device through Patent Application No. 98-39364.

That is, as shown in FIG. 5 and FIG. 6, the base 50 and the circuit board 51 located in the back surface of this base 50 are provided.

One side of the circuit board 51 is provided with a case 53 in which the laser diode 52 is built so as to be movable left, right, up and down.

A slider 54 is fixed to the front surface of the case 53, and the slider 54 has a flat guide surface along the front and rear directions left and right on the basis of the optical axis direction of the beam scanned from the laser diode 52 ( 54a) is formed, and the barrel-shaped guide surface 54b having a predetermined curvature is formed in the front and rear directions.

And the case 53 and the slider 54 is seated on the upper surface of the base 50 is fixed via a plurality of fixing screws (S).

The lens holder 55 is slidably seated on the barrel guide surface 54b of the slider 54 in the front and rear directions.

The lens holder 55 has a cylindrical body 55a into which the collimator lens 56 is inserted, and can be seated on the flat guide surface 54a of the slider 54 from both sides of the cylindrical body 55a. The guide piece 55b is extended.

In the laser diode module of the optical scanning device according to the present invention having such a configuration, the optical axis distance adjustment between the collimator lens and the laser diode is very easy, while the case 53 and the slider ( Positioning the 54 through a plurality of fixing screws (S) has caused a decrease in productivity, in particular, the position of the slider 54 and the case 53 may be changed in the process of fixing the position through the fixing screw (S) This results in the possibility that the optical axis of the laser beam scanned from the laser diode 52 may deviate.

The present invention was created in order to solve such a conventional problem, it is very easy to adjust the optical axis distance between the collimator lens and the laser diode, the unit cost reduction and workability due to the reduction of the number of parts and the quality of the parts produced in large quantities It is an object of the present invention to provide a laser diode module of an optical scanning device that can improve reliability by being uniform.

1 and 2 are a plan view and a front view conceptually showing a general optical scanning device,

3 (a) to 3 (c) are a left side view, a front view and a right side view of a conventional laser diode module,

4 is a cross sectional view of a conventional laser diode module;

5 and 6 are a perspective view and a cross-sectional view of the laser diode module that the applicant has filed previously;

7 is an exploded perspective view showing a laser diode module of the optical scanning device according to the present invention;

8 is a perspective view of the coupled state of the laser diode module of the optical scanning device according to the present invention.

<Description of the symbols for the main parts of the drawings>

50: base 51: circuit board

52: laser diode 53: case

54: slider 100: hook

110: locking groove 200: guide boss

210: through hole

In order to achieve the above object, the laser diode module of the optical scanning device according to the present invention includes a base; A circuit board positioned at one rear surface of the base; A case which is installed on one side of the circuit board so as to be movable left, right, up and down, and has a laser diode built therein; It is fixedly installed on the front of the case, a flat guide surface is formed along the front and rear directions on the left and right sides based on the optical axis direction of the beam scanned from the laser diode, and the center has a predetermined curvature along the front and rear directions. A slider having a barrel-shaped guide surface and seated on the upper surface of the base; A plurality of hook pieces extending from both side edges of the base such that the slider seated on the upper surface of the base is fixed to the upper surface of the base; And a lens holder having a cylindrical body and a guide piece extending from both sides of the body and seated on a flat guide surface of the slider. It is characterized by.

One preferred feature of the present invention is to extend a plurality of bosses on both upper surfaces of the base so that the initial engagement position of the slider seated on the base is limited, and through holes to insert the boss on the corresponding slider. It is formed.

Another desirable feature of the present invention is to provide a hook groove having a predetermined depth so that the hook piece can be locked to the edge surface of the slider such that the hook piece extending from the base and the upper surface of the slider form the same plane. Is in.

Hereinafter, exemplary embodiments of a laser diode module of an optical scanning device according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 7 is an exploded perspective view of the laser diode module of the present invention, Figure 8 is a perspective view of the coupled state.

5 and 6, the same components are denoted by the same reference numerals.

First, referring to FIGS. 5 and 6, a base 50 and a circuit board 51 positioned on the rear surface of the base 50 are provided.

One side of the circuit board 51 is provided with a case 53 in which the laser diode 52 is built so as to be movable left, right, up and down.

A slider 54 is fixed to the front surface of the case 53, and the slider 54 has a flat guide surface along the front and rear directions left and right on the basis of the optical axis direction of the beam scanned from the laser diode 52 ( 54a) is formed, and the barrel-shaped guide surface 54b having a predetermined curvature is formed in the front and rear directions.

And the case 53 and the slider 54 is seated on the upper surface of the base 50 is fixed by the fixing means position.

As the fixing means, a hook piece 100 which is engaged with both edges of the slider 54 from both edges of the base 50 is used.

At this time, when the hook piece 100 is caught by the upper surface of the slider 54, it may protrude outward and damage the aesthetics.

In order to prevent this, the slider 54 and the hook piece 100 preferably form the same plane.

To this end, the upper surface of the slider 54, that is, the edge surface is provided with a locking groove 110 to a predetermined depth so that the hook piece 100 is elastically coupled and locked.

On the other hand, also when locking the slider 54 via the hook piece 100, it is necessary to limit an initial position.

To this end, guide bosses (200) are formed on both upper surfaces of the base (50), and through holes (210) are formed in the corresponding slider (54) so that the guide bosses (200) can be inserted.

The lens holder 55 is slidably seated in the front and rear directions on the barrel guide surface 54b of the slider 54 described above.

The lens holder 55 has a cylindrical body 55a into which the collimator lens 56 is inserted, and can be seated on the flat guide surface 54a of the slider 54 from both sides of the cylindrical body 55a. The guide piece 55a is extended.

Laser diode module of the optical scanning device according to the present invention having such a configuration, the initial position through the coupling between the guide boss 200 and the through hole 210 by mounting the slider 54 on the upper surface of the base 50 At the same time, the hook piece 100 extending from both edges of the base 50 is locked to the locking groove 110 formed on the upper surface of the slider 54, that is, on both edges.

As described above, according to the laser diode module of the optical scanning device according to the present invention, not only the initial position can be defined through the coupling between the guide boss and the through hole through the operation of seating the slider on the base, but also the hook piece is used to It is possible to fix the hook elastically.

Therefore, there is an advantage that can improve the workability by not being accompanied by a separate screw fastening operation, there is an advantage that can prevent the misalignment of the optical axis that may occur in the process of screw fastening.

Claims (3)

A base; A circuit board positioned at one rear surface of the base; A case which is installed on one side of the circuit board so as to be movable left, right, up and down, and has a laser diode built therein; It is fixedly installed on the front of the case, a flat guide surface is formed along the front and rear directions on the left and right sides based on the optical axis direction of the beam scanned from the laser diode, and the center has a predetermined curvature along the front and rear directions. A slider having a barrel-shaped guide surface and seated on the upper surface of the base; A plurality of hook pieces extending from both side edges of the base such that the slider seated on the upper surface of the base is fixed to the upper surface of the base; And a lens holder having a cylindrical body and a guide piece extending from both sides of the body and seated on a flat guide surface of the slider. Laser diode module of the optical scanning device characterized in that. According to claim 1, A plurality of bosses are formed on both sides of the upper surface of the base so that the initial engagement position of the slider seated on the base is limited, and through holes are formed on the corresponding slider to be inserted into the boss Laser diode module of the optical scanning device, characterized in that. The method of claim 1, wherein the hook piece extending from the base and the upper surface of the slider is formed on the edge surface of the slider is provided with a locking groove of a predetermined depth so that the hook piece can be locked. Laser diode module of the optical scanning device.