KR0166237B1 - Fixed device of objective lens - Google Patents

Abstract

The present invention relates to an objective lens fixture of an optical pickup device, the fitting hole 120 is formed in a predetermined size on one side to the objective lens 110 is fitted, the objective lens 110 is supported and the cover glass 200 It is made of a support member 130 is maintained with a gap, the locking step 140 is supported by the cover glass 200 is supported, and the pressing member 150 is pressed the cover glass 200, bar Advantageous Effects According to the present invention, the objective lens is easily fixed while the objective lens is installed in the aberration measuring apparatus of the objective lens, thereby reducing the working time and improving the work efficiency.

Description

Objective Fixture for Aberration Measurement

1 is a configuration diagram schematically showing the operation principle of a conventional objective lens aberration measuring apparatus.

2 is an exploded view of the objective lens fixture according to the present invention.

3 is a state diagram used in the present invention.

* Explanation of symbols for main parts of the drawings

100: objective lens fixture 105: the main body

107: mounting section 109: female thread

110: objective lens 120: the first through hole

130: support member 135: second through hole

140: locking step 150: pressing member

155: third through hole 200: cover glass

300: transmission spherical lens 400: reflector

The present invention relates to an objective lens fixture for measuring aberration, and more particularly, to an objective lens fixture for measuring aberration so that the objective lens can be easily fixed to the aberration measuring apparatus during aberration measuring operation of the objective lens.

In general, the optical pickup actuator is installed in the vertical direction of the disc, which is an optical recording medium of various optical disc players such as mini disc player (MDP), compact disc player (CDP) or laser disc player (LDP), and is placed in the radial direction of the disc. While detecting the desired track position on the disk while moving in a straight line, at the detected track position, laser light is incident on the pit recorded on the disk surface, and then the reflected light is detected through the optical system, and the detected reflected light is converted into a signal to It is a device that reproduces the recorded content.

In the optical pickup actuator, the objective lens of the actuator moves in the vertical direction, that is, the optical axis direction, in order to adjust the focus, and the objective lens moves in the left, right, or radial directions with respect to the actuator. By doing tracking adjustment.

On the other hand, in the optical pickup actuator, when the objective lens is finely adjusted in the optical axis direction and the radial direction, a suspension is fixedly installed to support the fluctuation of the objective lens and to attenuate the vibration in the event of an impact from the outside. The objective lens has a function of injecting a laser beam into a disk and sending it to the optical system to retrieve the record with the reflected light.

The objective lens of the optical pickup device having such a function is characterized by aberrations (defects such as deformation of the subject formed through the lens, deterioration of sharpness, deterioration of contrast, color bleeding, etc.). To correct this, the aberration of the objective lens is measured by using an interferometer.

FIG. 1 schematically shows the operation principle of the aberration measuring apparatus of the objective lens, which receives and transmits a laser beam from the transmission spherical lens 20 and a laser beam from the light source. An objective lens 30, a cover glass 40 serving as a compact disk having a pit by receiving the laser light of the objective lens 30, and a reflector reflecting the laser light transmitted from the cover glass 40. It consists of 50 structures.

In the aberration measuring apparatus of the objective lens made as described above, the laser beam is transmitted from the light source to the objective lens 30 through the transmission spherical lens 20 and reflected by the reflecting mirror 50 through the cover glass 40 to be input from the computer. By analyzing the data, the interference portions of the objective lens 30 are compared to analyze the aberration of the objective lens 30.

However, since the aberration of the objective lens is increased according to the minute error of the horizontal and vertical parallelism of the objective lens, the measuring device of the objective lens has a lot of difficulties in installation work because the precision is required. There was a drawback in that it takes a lot of work time.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide an objective lens to an aberration measuring apparatus of an objective lens, and to easily fix the objective lens to the aberration measuring apparatus of the objective lens. It is to provide an objective lens fixture for measuring aberration.

In order to achieve the above object, the present invention is a fixture of an objective lens having a first through hole formed at one side, a female thread formed at the other side, and a locking jaw formed therebetween, so that the objective lens can be easily used in the aberration measuring apparatus of the objective lens. In order to be installed, with reference to the accompanying drawings will be described the configuration and effect of the present invention.

As shown in FIGS. 2 and 3, the fixture 100 of the objective lens according to the present invention has a front surface of the first through hole 120 having a predetermined size on one side to which the objective lens 110 is fitted. The main body 105 and the objective lens 110 are formed to form an installation groove 107 for forming and installing the cover glass 200 and the engaging jaw 140 for supporting both ends of the cover glass 200. The support member 130 is supported and maintains a gap with the cover glass 200, and the pressing member 150 is pressed against the cover glass 200.

Referring to the fixture 105 of the objective lens 100 according to the present invention in more detail as follows.

The main body 105 forms a first through hole 120 for installing the objective lens 110 on the front surface, and forms a locking step 140 for supporting both ends of the cover glass 200. The installation part 107 in which the female screw 109 was formed is formed.

In addition, the support member 130 is installed between the objective lens 110 and the cover glass 200 fitted into the installation portion 107 of the main body 105 and fitted into the first through-hole 120 and the transmission inside. A second through hole 135 through which the laser light passing through the objective lens 110 passes through the spherical lens 300 is formed.

In addition, the pressing member 150 is installed at the rear of the cover glass 200, which is both ends of the engaging jaw 140 of the main body 105, the male screw 153 is fastened to the female screw 109 of the main body 105 Is formed on the outside and the third through hole 155 through which the laser beam passing through the second through hole 135 of the support member 130 is formed.

And the support member 130 is sandwiched between the objective lens 110 and the cover glass 200 using a packing of rubber material so that the objective lens 110 can be fixed to the cover glass 200 at regular intervals. do.

In addition, the first through hole 120 and the support member 130 are drilled to a predetermined size corresponding to the width of the objective lens 110 and 954 so that the objective lens 110 can be accurately fixed.

According to the present invention, as shown in FIG. 3, the operator installing the aberration measuring apparatus of the objective lens first inserts the objective lens 110 into the first through hole 120 of the main body 105, and then supports it. The member 130 is installed so as to press the outer edge of the objective lens 110, so that both ends of the cover glass 200 is caught by the engaging jaw 140 formed in the mounting portion 105 of the main body 105. Install. In addition, when the male screw 155 formed on the outer side of the pressing member 150 is fastened to the female screw 109 formed on the main body 105, the pressing member 150 presses one side of the cover glass 200. Becomes

In addition, when the objective lens 110 is fixed to the fixture 100 of the objective lens by the above-described method, and then installed in the objective lens aberration measuring apparatus, the laser light from the light source passes through the transmission spherical lens 300 to objective lens 110 After passing through the second through hole 135 of the support member 130 for supporting the back of the objective lens (110). As described above, the laser beam passing through the second through hole 135 of the support member 130 passes through the cover glass 200 to support one side of the cover glass 200. By analyzing the data input from the computer reflected by the reflector 400 after passing through the three through holes 155, the interference portions of the objective lens 110 are compared to analyze the aberration of the objective lens 110. .

As described above, the present invention is to insert the objective lens in the first through-hole of the main body, the support member is installed on the rear of the objective lens and the cover glass is installed on the rear side of the support member and then formed on the other side of the main body By fixing the objective lens and the cover glass to the main body by tightening the male screw of the pressing member to the main body, the accuracy can be improved when the objective lens is installed in the aberration measuring device of the objective lens and the objective lens can be easily fixed at the same time. It has a useful effect of reducing time and improving work efficiency.

Claims (2)

Transmissive spherical lens 300 through which the laser light is transmitted from the light source, a cover glass 200 provided with a pit, and a reflector 400 for reflecting the laser light transmitted from the cover glass 200, the transmissive spherical surface In the apparatus for measuring the aberration of the objective lens via the objective lens 110 between the lens 300 and the cover glass 200, the first through-hole 120 for installing the objective lens 110 in front A main body 105 having a mounting portion 107 formed thereon and forming a latching jaw 140 for supporting both ends of the cover glass 200 and having a female screw 109 formed on a rear inner side thereof, and the main body 105 The objective lens 110 is installed between the objective lens 110 and the cover glass 200 inserted into the installation portion 107 of the first through hole 120 and pass through the transparent spherical lens 300 therein. The support member 130 having a second through hole 135 through which the laser beam passing through 110 passes; A male screw 153 which is installed at the rear of the cover glass 200 on both ends of the engaging jaw 140 and is fastened to the female screw 109 of the main body 105 is formed on the outer side, and the support member is disposed on the inner side. Aberration measurement, characterized in that consisting of a pressing member 150 formed with a third through hole 155 through which the laser beam passing through the cover glass 200 passes through the second through hole 135 of 130. Objective Lens Fixture. The objective lens fixture of claim 1, wherein the support member is made of a rubber packing.