KR960007888B1 - Goniometer - Google Patents

Abstract

The goniometer comprises an object lens(1) and an object lens holder(2) which are moving toward the focusing direction(A) and tracking direction(B), a spring plate support(6) pressed by a spring(11) evenly which enables to get a stable inclination by the sliding contact with an arc surface(8) and protrusion(9), a tracking plate spring(5) and focus plate spring(3) which are inclined by the inclination of support plate(6). The object lens holder(2) and the object lens(1) are inclined and the support plate(6) is returned to the original position by the spring(11) as the control screw is rotated in the opposite direction.

Description

Tilt adjuster of optics

1 is an embodiment of the present invention applied to the optical disk pickup head.

2 is another embodiment of the present invention applied to an optical disk pickup head.

* Explanation of symbols for main parts of the drawings

1: objective lens 2: objective lens holder

3: focus leaf spring 4: rider

5: tracking leaf spring 6,16: leaf spring pedestal

7,17: carriage 8,18: arc portion

9,19: projection 12: adjusting screw

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an inclination adjusting device of an optical apparatus. In particular, when the assembly requires precise adjustment of the inclination during assembly, such as an object red used in an optical disk device such as an optical disk, LDP, CDP, etc. In the case of a device that changes the inclination of the object, such as (Goniometer), it is possible to finely adjust the inclination only without moving the center position of the object.

Here, the present invention will be described in the objective lens adjustment of the optical disk apparatus among various optical instruments.

In order for the optical head to operate normally in the optical disk apparatus, the inclination of the objective lens needs to be precisely adjusted.

In order to adjust the objective lens, conventionally, the objective lens assembly device is manufactured separately, and the objective lens holder is gripped on the objective lens holder for supporting the objective legs to adjust the inclination, and then fixed with adhesive to the objective lens holder. I'm applying the way.

In this conventional method, a separate objective lens assembly device is required, and this assembly takes a long time because of the need to hold and adjust the objective lens. When doing so, the objective lens needs a jig to fix the holder.

Therefore, there are various problems such as taking longer time to fix the objective lens holder using this jig, and eventually these problems have been a factor to increase the unit cost of mass production.

Accordingly, it is an object of the present invention to provide an inclination adjusting device of an optical apparatus which is very easy to incline the inclined object such as an objective lens of the optical disk device.

Another object of the present invention is to provide an inclination adjusting device of an optical apparatus that can be adjusted by a simple operation without the need to move the center of the inclined object when the inclination of the inclined object such as the objective lens of the optical disk device. It is for.

In order to achieve the object of fraud, the present invention is a movable part including a part connected to the subject and selected within one or more division angles of four division angles centered on the subject and comprising an arc for the center. And a fixed part having projections proximate to the movable part and in contact with the arc portion, support means for holding the movable part elastically in contact with the fixed part, and resisting the support means. It is characterized by the adjusting screw to adjust the tilt adjuster.

Another characteristic of this invention is that the arc part of the said movable part and the protrusion which support it are formed in at least 3 or more places.

Another feature of the present invention is that stoppers are formed in contact with each other at one end of the movable part and the fixed part so that the movement of the movable part is restricted before the adjustment screw is adjusted.

Another feature of the present invention is that a spring is further provided to push the movable part to a state before being adjusted between the movable part and the fixed part.

The arc portion centered on the subject may be included in only one divided angle of the four-division angle centered on the subject, or may be distributed in two or more divided angles.

The support means comprises a screw fixed to the fixed part from the movable part and a spring installed on the screw to push the movable part toward the fixed part.

Therefore, when one end of the movable part is pushed with the adjustment screw, the movable part is moved in the circumferential direction with respect to the to-be- projected body while maintaining the circumferential contact with the projection of the fixed part.

Therefore, the inclined object connected to the movable part is tilted in response to the movement of the movable part.

The present invention will be described in more detail with reference to the accompanying drawings as follows.

1 and 2 show an embodiment in which the present invention is applied to an optical disk pickup head, wherein the to-be-targeted object is the objective lens 1.

Referring to these drawings, in a typical optical disk apparatus, a laser beam indicated by a dotted line is focused while passing through the objective lens 1 to focus on the optical disk. The objective lens 1 is supported by the objective lens holder 2 and the magnetic circuit is attached to the objective lens holder 2 so as to focus the objective lens 1 and the objective lens holder 2 in the direction A of focusing. And driving in the tracking direction B so that the focus of the laser beam is always formed at a desired position on the optical disc.

Here, the objective lens holder 2 is supported by the focus plate spring 3, the focus plate spring 3 is supported by the rider (Rider) 4, and again the tracking plate spring (5) is attached to the rider have. The tracking leaf spring 5 is supported by the leaf spring pedestal 6.

When the objective lens holder is forced by a magnetic circuit attached to the objective lens holder, the focus plate spring or the tracking plate spring is bent to move the objective lens in the A or B direction.

The carriage 7 collectively supports the components listed above and moves relatively long distances.

However, it is difficult to assemble the objective lens in the correct position and direction due to the tolerances of each parts and assembly. Is critical to the performance of the pickup head, so the adjustments are made separately.

Therefore, according to the present invention, the tilt of the objective lens is manipulated only by manipulating the component by appropriately designing the movable component selected from the above components. First, FIG. 1 shows one embodiment of the present invention. The part corresponds to the leaf spring pedestal 6 and the fixed part corresponds to the carriage 7.

In particular, the present embodiment shows that the circular arc part 8 centered on the objective lens 1 is included in one division angle selected from four division angles.

The arc portion 8 is shown in two places in the figure but is preferably formed in three or four places.

Each arc portion 8 is part of a circumference having a different radius since all of them are centered on the objective lens 1, which is the target object.

The leaf spring pedestal (6) is approached to the carriage (7), on the surface of the carriage (7) protrusions (9) contacting each of the circular arc portions (8) are projected, respectively, the leaf spring pedestal The fixing screw 10 and the spring 11 are commonly used as the supporting means for properly contacting and maintaining the carriage 6 to the carriage 7, and the screw 10 penetrates approximately the center of the leaf spring pedestal 6. It is fixed to the carriage (7) and a spring (11) is installed between the leaf spring support (6) and the screw head, the leaf spring support (6) is pushed toward the carriage (7), the arc portion (8) and the projection (9) Is always connected.

The plate spring pedestal 6 is inclined by an adjustment screw 12, which is assembled by screws from the carriage 7 and its tip is in contact with one end of the pedestal 6.

The contact surface 13 of the pedestal 6 in contact with the adjustment screw 12 is formed on the outer periphery of each arc portion 8, the contact surface 13 is a straight line including the center of the objective lens (1) It is desirable to correspond to a part of.

Stoppers 14 and 15 are formed at the ends of the leaf spring pedestal 6 and the carriage 7 so as to be in contact with each other. This is to prevent the pedestal 6 from moving before the adjustment screw is adjusted. The stopper 14 on the side of the pedestal 6 is located outside.

Therefore, when the inclination of the objective lens 1 is to be adjusted, when the adjusting screw 12 is rotated, the contact surface 13 is pushed against the adjusting screw 12.

Since the leaf spring pedestal 6 is pushed by the spring 11 as a whole, when one end is pushed, each arc portion 8 and the protrusion 9 are equally slid in contact with each other to have a stable slope as a whole.

Therefore, due to the inclination of the pedestal 6, the objective lens holder 2 is inclined together with the objective lens 1 through the bending of the tracking leaf spring 5 and the focus leaf spring 3.

In addition, when the adjusting screw 12 is rotated reversely, the pedestal 6 is returned to its original state by the spring 11.

Thus, the tilt of the objective lens can be arbitrarily adjusted by simple operation of the adjustment screw 12.

FIG. 2 is a side view of FIG. 1 and shows an embodiment different from that of FIG. 1, and the same reference numerals are applied to the same parts as in FIG.

In particular, the present embodiment shows that the arc portion 18 centered on the objective lens 1 is dispersed at two or more division angles selected from four division angles.

The arc portion 18 is shown in two places in the figure but is preferably formed in three or four places.

Each arc portion 18 forms a part of the circumference around the objective lens (1), which are all to be projected object, and each arc portion 18 may have the same radius because it is located at different division angles, They may be of different radius.

The leaf spring pedestal 16 is approached to the carriage 17, the projection (19) in contact with each of the circular arc portion 18 is projected on the surface of the carriage 17, the leaf spring pedestal Screws 10 and springs 11 were used as the support means for properly contacting and holding the carriage 17 to the carriage 17. The screws 10 penetrate approximately the center of the leaf spring support 16. It is fixed to the carriage 17 and a spring 11 is installed between the leaf spring pedestal 16 and the screw head so that the leaf spring pedestal 16 is pushed toward the carriage 17 so that the arc portion 18 and the projection 19 are fixed. Is always in contact.

The plate spring pedestal 16 is inclined by an adjusting screw 12, which is assembled by screws from the carriage 17, and its tip is in contact with one end of the pedestal 16.

The contact surface 23 of the pedestal 16 in contact with the adjustment screw is formed on the outer periphery of each arc portion 18, the contact surface 23 is a portion of a straight line including the center of the objective lens (1) It is desirable to make it applicable.

Stoppers 24 and 25 are formed at one end of the leaf spring pedestal 16 and the carriage 17 so as to be in contact with each other. This is to prevent the pedestal 16 from moving before adjusting the adjustment screw. A stopper 24 on the pedestal 16 side is positioned outside between the screw 10 and the adjusting screw 12 that hold the center of the leaf spring pedestal 16.

In addition, in the present embodiment, since the circular arc portion is formed in a circumference in a different direction from the center, it is necessary to accurately adjust the adjustment screw and then push it back to its original horizontal state when returning to the original position. For this purpose, the stopper 24 of the pedestal 16 is used. Spring 27 may be further installed to closely contact the spotter 25 of the carriage 17.

Therefore, when the inclination of the objective lens 1 is to be adjusted, when the adjusting screw 12 is rotated, the contact surface 23 is pushed against the adjusting screw 12. Since the leaf spring pedestal 16 is pushed by the spring 11 as a whole, when one end is pushed, each arc portion 18 and the projection 19 are equally slid in contact with each other to have a stable slope as a whole.

The inclination of the pedestal 16 causes the tracking leaf spring 5 and the focus leaf spring 3 to bend and thus the objective lens holder 2 to tilt with the objective lens 1.

In addition, when the adjusting screw 12 is rotated in reverse, the pedestal 16 is returned to its original state by the spring 11 and reliably returned by the spring 27 that pushes horizontally.

Therefore, the inclination of the objective lens can be arbitrarily adjusted by simple operation of the adjustment screw 12.

In the present invention as described above, if only one of the embodiments of FIG. 1 and 2 is selected and used, each arc portion is sufficient to have a strip-shaped surface.

It is also possible to adjust the inclination of the two vertical directions without interference with each other by mixing the embodiments in FIGS. 1 and 2, respectively or individually.

As described above, the present invention can adjust the subject to require precise tilt adjustment such as a lens or a subject by simply turning the adjusting screw, which is very convenient to use, and in particular, partially corrects the shape of the part. It is possible to implement the technology by just doing so, it has the effect of hardly increasing the material cost compared to the existing products.

Claims (9)

A movable part connected to the subject and selected within at least one divided angle of four division angles with respect to the subject and having a portion forming an arc with respect to the center; A fixed part proximate to the movable part and having a projection contacting the arc portion; Support means for elastically maintaining the movable part in contact with the fixed part; And an adjusting screw for adjusting the inclination of the movable part in response to the supporting means. The inclination adjusting device of an optical apparatus according to claim 1, wherein an arc portion of the movable part and a projection supporting the same are formed at at least three places. The tilt control apparatus of claim 1, wherein an arc portion centered on the target object is included in one division angle selected at a quadrant angle. The tilt control apparatus of claim 1, wherein an arc portion centered on the target object is distributed at two or more division angles among four division angles. The tilt adjusting apparatus of claim 1, wherein the support means comprises a screw fixed to the fixed part from the movable part, and a spring installed on the screw to push the movable part toward the fixed part. . 2. The tilt adjusting apparatus of claim 1, wherein the adjusting screw is screwed to the fixing part so that its tip is in contact with the movable part on the outside of the arc portion. The tilt control apparatus of claim 1, wherein the contact surface of the movable part in contact with the end of the adjustment screw corresponds to a part of a straight line including the center of the target object. The tilt control apparatus of claim 1, wherein a stopper is formed at one end of the movable part and the fixed part to be in contact with each other so that the movement of the movable part is restricted before the adjustment screw is operated. The inclination adjusting device of an optical apparatus according to claim 1, further comprising a spring for pushing the movable part in a horizontal state between the movable part and the fixed part.