JP2703455B2 - Photodetector mounting device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photodetector mounting device for mounting a photodetector provided in an optical pickup device for reading a signal from a signal recording medium using a light beam to an optical block base.

[0002]

2. Description of the Related Art In an optical pickup device for reproducing a signal recorded on a signal recording medium such as a disk or for irradiating a signal recording medium with a light beam for recording a signal on the signal recording medium, a signal recording medium is used. In order to obtain a focusing error signal indicating a focus shift of the light beam on the signal recording medium by the photodetector that receives the light beam modulated on the signal surface, the position of the focal point of the light beam received by the photodetector is determined. It is necessary to adjust the diameter of the light spot formed on the light receiving surface of the light detector by moving the light beam in the optical axis direction with respect to the light detector.

For this reason, initially, an optical pickup device arranges a focusing lens such as a concave lens on an optical path toward a photodetector, and displaces the focusing lens to focus a light beam received by the photodetector. Is configured to be displaceable in the optical axis direction of the light beam with respect to the photodetector. However, this structure requires a focusing lens and an optical block base in which various optical elements are incorporated. It is necessary to fix the focus adjusting lens after adjusting the position, which is disadvantageous for downsizing and complicates the structure.

Therefore, conventionally, for example, Japanese Utility Model Laid-Open No. 2-803
As shown in Japanese Patent Publication No. 12 (1999), one end of a printed circuit board to which a photodetector is soldered and fixed is fixed to an optical block base by a screw, and the other end is turned by the elasticity of the printed board by turning a screw at the other end. The position of the photodetector in the direction of the optical axis of the light beam received by the photodetector can be adjusted by displacing the base with respect to the base.

[0005]

However, in such a conventional optical pickup device, the end of the printed circuit board is displaced by utilizing the elasticity of the printed circuit board itself, so that the entire printed circuit board is curved in a bow shape. As a result, the portion where the photodetector is soldered is also deformed, so that stress is applied to the photodetector and distortion occurs, preventing accurate detection, and the solder fixing the photodetector to the printed circuit board. There was also a problem that the stress was applied to cause damage.

Further, as disclosed in Japanese Utility Model Laid-Open Publication No. Sho 61-105916, in addition to a printed circuit board to which a photodetector is fixed by soldering, a mounting plate for supporting the printed circuit board is provided. A structure that supports the optical block base so as to be displaceable using screws and fixes the mounting plate to the optical block base at one place has been considered.

With such a structure, when the mounting plate is deformed in the surface direction due to a temperature change, it is possible to prevent the soldering of the photodetector due to the deformation of the mounting plate. There is a problem that the light receiving position of the light beam by the photodetector is shifted due to expansion and contraction due to a temperature change.

In addition, with the above-described structure, both the adjusting spacer and the fixing screw must be adjusted to adjust the position of the mounting plate, which makes the adjustment work complicated and the structure complicated. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above technical problem, and achieves adjustment of the position of a photodetector in the optical axis direction of a light beam received by the photodetector with a simple configuration. It is another object of the present invention to provide a photodetector mounting device in which a light receiving position of a light beam by a photodetector is prevented from being shifted due to a temperature change.

[0010]

SUMMARY OF THE INVENTION The present invention provides a photodetector mounting method for mounting a photodetector for receiving a light beam modulated on a signal surface of a signal recording medium to an optical block base on which various optical elements are disposed. In the apparatus, a printed board on which the photodetector is mounted, a mounting plate on which the printed board is mounted, a fixing screw for fixing one end of the mounting plate to the optical block base, and a second end of the mounting plate. And a position adjusting screw for displacing the mounting plate in the optical axis direction of the light beam received by the photodetector according to the degree of screwing,
The mounting plate is made of the same material as the optical block base.

[0011]

According to the present invention, the mounting plate is fixed to the optical block base at one end, and the mounting plate is displaced in the optical axis direction of the light beam by a position adjusting screw arranged at the other end of the mounting plate. To adjust the position of the photodetector. The mounting plate is made of the same material as the optical block base, so that the coefficient of thermal expansion of the mounting plate is made the same as that of the optical block base.

[0012]

An embodiment will be described with reference to the drawings. FIG. 1 is a front view showing an embodiment of the photodetector mounting device according to the present invention, and FIG. 2 is a perspective plan view showing an optical pickup device provided with the photodetector mounting device of FIG.

An optical block base 1 serving as a base into which various optical elements (to be described in detail later) of the optical pickup device are incorporated is provided with guide shafts 2 and 3 arranged in parallel with each other.
Thus, the recording medium can be moved in the tracking direction of a signal recording medium such as a disk.

An objective lens 4 is mounted on the optical block base 1 , a focusing coil (not shown) and a tracking coil 5 are mounted, and the optical block base 1 is displaceably supported by a plurality of wires 6. A lens holder, a pair of permanent magnets 8, 9 having the same magnetic pole face opposed to each other with the lens holder 7 interposed therebetween, and a magnetic pole face that is not on the opposing face side of the pair of permanent magnets 8, 9 is provided. An objective lens driving mechanism 11 including a magnetic circuit composed of a yoke 10 formed to surround the lens holder 7 is attached, and the objective lens driving mechanism 11 allows the focusing coil and the tracking coil 5 to flow. The objective lens 4 can be driven in the focusing direction and the tracking direction according to the control current.

On the other hand, the optical block base 1 includes a laser diode 12 as a light source for generating a light beam (laser light), a diffraction grating 13 for diffracting the light beam generated from the laser diode 12, and a diffraction grating. A half mirror 14 composed of a parallel flat plate for dividing the optical path of the light beam passing through 13 and generating astigmatism used for focus control, and the optical axis of the light beam reflected by the half mirror 14 is formed at a right angle. A mirror 15 for reflecting the light beam on the objective lens 4 and a light detector for receiving the light beam reflected and modulated by the signal surface of the signal recording medium and transmitted through the half mirror 14 16 are attached.

In the photodetector 16, predetermined terminals are soldered to lands provided separately on the printed board 17 and the flexible board 18 after the flexible board 18 is overlaid on the printed board 17. Then, the printed board 1 on which the flexible board 18 is superimposed
Reference numeral 7 is fixed to the mounting plate 21 by screws 20a and 20b together with a stainless steel cover 19 covering the rear of the photodetector 16.

The mounting plate 21 has one end fixed to the optical block base 1 by two fixing screws 22a and 22b, and the fixed portion and the mounting portion to which the printed circuit board 17 is mounted are narrower than other portions. The configured narrow part 2
They are connected by 3a and 23b. The narrow portions 23a and 23b are formed with thin portions 24 extending vertically and cut into a V-shaped cross section.

On the other hand, a position adjusting screw 25 having a sharp tip is screwed into the other end on the reflection side of the fixed portion of the mounting plate 21 at a position facing the cutout portion of the printed circuit board 17. The tip of the position adjusting screw 25 is in contact with a predetermined wall surface of the optical block base 1 . For that reason,
The position adjusting screw 25 is turned to easily adjust the position of the light detector 16 in the optical axis direction of the light beam received by the light detector 16 according to the degree of screwing of the position adjusting screw 25 to the mounting plate 21. Can be done. That is, the position adjusting screw 25
2, the other end of the mounting plate 21 is displaced in the direction of arrow A in FIG. 2 around the thin portion 24 as the rotation center axis, and when it is loosened, the other end is displaced in the direction of arrow B. The position of the photodetector 16 can be adjusted by displacing in the direction B.

In particular, since the stress applied to the mounting plate 21 by screwing the position adjusting screw 25 is concentrated on the thin portion 24 and the thin portion 24 is bent, the mounting plate 21 or the printed circuit board 17 is bent. Is not distorted, so that no stress is applied to the photodetector 16 and accurate detection can be performed, and damage to the photodetector 16 itself does not occur.

The optical block base 1 is formed by die casting using an aluminum alloy as a material. On the other hand, the mounting plate 21 is formed by press working using an aluminum alloy of the same material, and has the same thermal expansion coefficient as the optical block base 1 .
Therefore, when the mounting plate 21 expands or contracts due to a temperature change, the optical block base 1 also expands or contracts at the same ratio as the mounting plate 21, and as a result, the mounting plate 21 changes due to the temperature change. Expand or contract,
Even if the position of the photodetector 16 is displaced in the surface direction of the mounting plate 21 by extending or shortening the position fixed by the fixing screws 22a and 22b as a base point, the light of the optical block base 1 is approximated to the amount of displacement. The position of the beam optical path is also displaced.

Therefore, the photodetector 1 is changed by the temperature change.
6, the light beam received by the photodetector 16 is displaced substantially in parallel according to the amount of displacement even when the light receiving position of the light beam is displaced. Of the light receiving position hardly occurs.

The printed board 17 and the flexible board 18 are made of a material formed of a polyimide resin. The polyimide resin has a coefficient of thermal expansion that is closer to that of an aluminum alloy used for the mounting plate 21 than glass epoxy resin that has been generally used as a material of a conventional printed circuit board. Incidentally, the thermal expansion coefficient of the aluminum alloy is 21 × 10 ⁻⁶ cm / cm ° C., whereas the thermal expansion coefficient of glass epoxy is 13 × 10 ^−6.
cm / cm ° C., while the coefficient of thermal expansion of polyimide is 20 × 10 ⁻⁶ cm / cm ° C.

Therefore, the printed board 17 and the flexible board 18 fixed on the mounting plate 21
Distortion or stretching due to the difference in the degree of deformation due to the difference in the thermal expansion coefficient is greatly reduced.

[0024]

As described above, according to the present invention, the tip of the position adjusting screw screwed to the other end of the mounting plate is configured to abut on the optical block base, and the mounting plate is fixed with the fixing screw. Since the contact position of the tip of the position adjusting screw can be slidably displaced on the contact surface of the optical block base with the base point as the base point, the mounting plate is made of the same material as the optical block base. In addition to being able to prevent the plate from being distorted or stretched, it is possible to provide a photodetector mounting device that can prevent a shift in the light receiving position of the photodetector with respect to the light beam due to a temperature change by a simple configuration.

[Brief description of the drawings]

FIG. 1 is a front view showing one embodiment of the present invention.

FIG. 2 is a perspective plan view showing an optical pickup device including the photodetector mounting device of FIG. 1;

[Description of Signs] 1 Optical block base 16 Photodetector 17 Printed circuit board 18 Flexible board 21 Mounting plate 22a, 22b Fixing screw 25 Position adjusting screw

Claims (1)

(57) [Claims] 1. A photodetector mounting device for mounting a photodetector for receiving a light beam modulated on a signal surface of a signal recording medium to an optical block base on which various optical elements are disposed, wherein the photodetector is The mounted printed circuit board, a mounting plate to which the printed circuit board is mounted, a fixing screw for fixing one end of the mounting plate to the optical block base, and a tip screwed to the other end of the mounting plate. Optical block base
Made by and a position adjusting screw that contacts, said position adjustment
Depending on the degree of screw engagement, the tip of the position adjustment screw is
The other end of the mounting plate is connected to the optical
A photodetector mounting device , wherein the mounting plate is made of the same material as the optical block base, while being displaced in the optical axis direction of the arm .