JPH03259432A - Optical pickup device - Google Patents

Abstract

PURPOSE:To prevent deterioration in the characteristic by fixing a component comprising an optical system member and an electric circuit member to a prescribed position on the upper face of a case made of a conductive flat plate, and adhering a flexible printed circuit board for wiring to the prescribed electric circuit member. CONSTITUTION:A photodetector 4 as an photoelectric conversion element, a printed circuit board 10 for the photodetector 4 and mirrors 6, 7 and an objective lens 8 as optical system components are provided to prescribed positions on the upper face of a case 1, and the components are interconnected by using a flexible printed circuit board 9. Since the flexible printed circuit board 9 is adhered closely to the case 1 as the conductor, external electromagnetic wave noise and a magnetic field generated by a current supplied to the flexible printed circuit board 9 are absorbed by the case 1 and the adverse effect onto a reproducing signal is evaded. Thus, the quality of the reproducing signal is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an optical pickup device used in optical information recording and reproducing devices such as compact disc players and optical disc memory devices.

[Prior Art] Generally, this type of optical pickup device includes a housing 11 made of metal casting or plastic molding, as shown in FIG.
3, spot lenses 15, mirrors 16 and 17, and objective lens 18, as well as constituent members such as electric circuit members (not shown) are built in at predetermined positions, respectively. On the other hand, the laser 12 as a light source, the light receiving element 14 as a photoelectric conversion element, the circuit board 20 of this light receiving element 14, and the wiring pattern 19 are respectively mounted on the housing 11.
is placed at a predetermined location outside of the In addition, the housing 11 itself has a three-dimensionally complex shape in order to house and hold constituent members such as optical system members and electric circuit members at predetermined positions. There is. Therefore, the wiring pattern 19 cannot be brought into close contact with the housing 11, and the housing 11 and the wiring pattern 19 are in a separated state.

[Problem to be solved by the invention]

However, in the above-mentioned conventional structure, the wiring pattern 19 cannot be brought into close contact with the housing 11, and thus complicated work is required to wire the wiring pattern 19 as a circuit. Furthermore, in the case where the casing 11 is made of metal casting, the casing 1
1 becomes large, making it difficult to reduce the weight of the optical pickup device, and also making it difficult to obtain the desired mechanical dimensional accuracy of the casing 11. As a result, it is necessary to perform machining as a post-process. Yes, processing costs are incurred, increasing costs. On the other hand, if a plastic molded product is used for the housing 11, the weight and cost of the optical pickup device can be reduced, but the plastic molded product has poor conductivity and has no electrical shielding effect. , housing 11
The electric circuit components built into the device are susceptible to electromagnetic noise from the outside. For this reason, optical pickup devices that handle weak signals have a problem in that the electrical signal characteristics deteriorate.

[Means to solve the problem]

In order to solve the above problem, the optical pickup device according to claim 1 of the present invention includes a casing made of a conductive flat plate, and an optical system member and an electric circuit are disposed on the top surface of the casing. It is characterized in that the constituent members of the member are fixed at predetermined positions, and a flexible printed wiring board for wiring each predetermined electric circuit member is attached.

In order to solve the above problem, the optical pickup device according to claim 2 of the present invention includes a casing made of a conductive flat plate, and an optical system member and an electric circuit are disposed on the top surface of the casing. The constituent members of the members are fixed in predetermined positions, and a flexible printed wiring board for wiring each predetermined electric circuit member is attached, and the housing has holes, protrusions, and Inside the member positioning part of the recess,
One of the member positioning parts is formed at a predetermined position where a cylindrical optical system member is arranged.

[For production]

According to the structure of claim 1, since the flexible printed wiring board is closely attached to the casing as a conductor, electromagnetic wave noise from the outside and a magnetic field generated by a current applied to the flexible printed wiring board are prevented. is absorbed by the casing, thereby avoiding adverse effects on the reproduced signal.

According to the structure of claim 2, "1 effect of claim 1"
In addition, since the member positioning portion is formed on the top surface of the housing, it is possible to easily position and adjust the cylindrical optical system member disposed on the top surface of the housing on the housing.

[Example] An example of the present invention will be described below based on FIGS. 1 to 3(a) and (b).

As shown in FIG. 1, the optical pickup device according to the present invention includes a flat housing 1 made of a flat plate of metal such as aluminum. Note that the material of the housing 1 is not limited to metal, and may be any material as long as it has conductivity.

The housing 1 is formed by punching a flat plate of metal such as aluminum into a predetermined shape by press working, and holes are formed at predetermined positions of the housing 1 to serve as member positioning parts. 1a and 1a are drilled.

Note that the thickness of the housing 1 is not particularly limited;
The thickness may be sufficient as long as it can press a conductive flat plate made of metal or the like. In addition, the thickness that can be pressed into a flat metal plate varies slightly depending on the material of the flat metal plate, but it is approximately 5.
It is up to the level of a cabinet.

In the holes 1a and 1a, a collimating lens 3,
The cylindrical optical system member of the spot lens 5 is fixed with its side surfaces 3a and 5a in contact with the upper ends 1a' and la' of the holes 1a and 1a, respectively.

The means for fixing the cylindrical optical system member to the holes 1a, 1a may be, for example, adhesive bonding or pressing with a leaf spring, and is not particularly limited.

Further, on the upper surface of the housing 1, a light receiving element 4 as a photoelectric conversion element, a circuit board 10 of this light receiving element 4, mirrors 6 and 7 as optical system members, and an objective lens 8 are arranged.
Each tank bottom member is arranged at a predetermined position, and each tank bottom member is wired in a predetermined manner by a flexible printed wiring board (hereinafter referred to as a wiring pattern) 9.

As shown in FIG.
a, a cover film 9b, a base film 9c, and an adhesive tape 9d.

The conductor 9a is made of copper and is sandwiched between a cover film 9b and a base film 9C, which will be described later.

Further, the thickness of the conductor 9a is approximately 20 μm to 1100 μm.

The cover film 9b and the base film 9C are each made of an electrically insulating material such as polyimide or polyester.
b and the thickness of the Heath film 9c are each 25 μm.
m to about 100 μm.

The wiring pattern 9 is fixed to the flat casing 1 by adhering an adhesive tape 9d affixed to the bottom surface of the base film 9C to the top surface of the casing 1. Further, as a result, the housing 1 with the wiring pattern 9 fixed on the upper surface is itself formed equivalently to one printed circuit board.

Note that the adhesive tape 9d is not particularly limited as a member constituting the wiring pattern 9, and the wiring pattern 9 may be fixed to the upper surface of the housing 1 using a fixing means such as an adhesive.

In the above configuration, the laser beam irradiated from the laser 2 passes through the collimating lens 3 to become parallel light, and then is reflected by the mirrors 6 and 7, as shown by the dashed line in FIG. and reaches the objective lens 8. The objective lens 8 focuses the reflected light and irradiates it onto an information surface of an optical disk (not shown) to form a spot, and guides the reflected light reflected from this information surface to the mirror 7 again. The reflected light passes through the mirror 6 after being reflected by the mirror 7.
and reaches the spot lens 5. Then, the reflected light that reaches the spot lens 5 is focused and supplied to the light receiving element 4, where information on the optical disc is read.

The hole 1a drilled in the housing 1 is for positioning and adjusting the cylindrical optical system member in the housing 1, and the shape is not particularly limited.
) As shown in (b), the protrusions 1b and 1b as member positioning parts and the recess IC are formed by half-blanking press processing on a conductive flat plate such as metal forming the housing 1. For example, a cylindrical optical system member such as the collimating lens 3 may be positioned and adjusted on the housing 1 by forming the collimator lens 3.

Furthermore, the housing 1 of the optical pickup device according to the present invention does not have the hole 1a, the convex portion 1b, and the concave IC member positioning portion, and the cylindrical optical system member is attached to the upper surface of the housing 1 using an adhesive, for example. Even if the device is fixed by a fixing means such as the above, the effect of the invention r described below in the invention of claim 1 can be obtained.

Furthermore, it is useful to provide a cover on the optical pickup device according to the present invention from the viewpoint of dustproofing, and the material of the cover may be metal, plastic, etc., but is not particularly limited. The use of the cover further improves the shielding effect of the optical pickup device of the present invention, which will be described later.

〔Effect of the invention〕

As described above, the optical pickup device according to the invention of claim 1 includes a casing made of a conductive flat plate, and the optical system member and the constituent members of the electric circuit member are disposed on the upper surface of the casing. is fixed at a predetermined position, and a flexible printed wiring board for wiring each predetermined electric circuit member is attached.

As a result, electromagnetic noise from the outside and a magnetic field generated by a current applied to the flexible printed wiring board are absorbed by the casing as a conductor, thereby avoiding adverse effects on the reproduced signal. That is, by exerting such a shielding effect, it is possible to improve the quality of the reproduced signal.

In addition, wiring work can be largely omitted, and space for wiring is no longer required, making it possible to reduce the size, weight, and cost of the optical pickup device.

As described above, the optical pickup device according to the invention of claim 2 includes a casing made of a conductive flat plate, and the optical system member and the constituent members of the electric circuit member are disposed on the upper surface of the casing. is fixed in a predetermined position, and a flexible printed circuit board for wiring each predetermined electric circuit member is attached to the housing. In this configuration, one of the member positioning parts is formed at a predetermined position where a cylindrical optical system member is arranged.

As a result, in addition to the effect of the invention in claim 1,
This has the effect of making it easier to position and adjust the cylindrical optical system member disposed on the upper surface of the housing on the housing.

BRIEF DESCRIPTION OF THE DRAWINGS FIGS. 1 to 3 (a) and (b) show an embodiment of the present invention. FIG. 1 is a schematic configuration diagram showing an optical pickup device. FIG. 2 is a longitudinal sectional view showing a state in which the wiring pattern is attached to the casing. FIG. 3(a) is a perspective view showing a state in which the position of the collimating lens is adjusted by a convex portion formed on the housing. FIG. 3(b) is a perspective view showing a state in which the collimating lens is positioned and adjusted by a recess formed in the housing.

Claims (1)

[Claims] 1. A housing made of a conductive flat plate is provided, and on the upper surface of the housing, constituent members of an optical system member and an electric circuit member are fixed at predetermined positions, and each An optical pickup device characterized in that a flexible printed wiring board for wiring a predetermined electric circuit member is attached. 2. A housing made of a conductive flat plate is provided, and on the upper surface of the housing, optical system members and electrical circuit member components are fixed in predetermined positions, and wiring is connected to each predetermined electric circuit member. A flexible printed wiring board is attached to the housing, and one of the member positioning parts of the hole, the convex part, and the concave part has a cylindrical optical system member disposed thereon. 1. An optical pickup device characterized in that the optical pickup device is formed at a predetermined position where the optical pickup device is used.