KR940006541Y1 - Lens mount - Google Patents

Abstract

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Description

Objective Lens Support

1 is a perspective view showing an embodiment of the present invention.

2a and b are respectively a front view and a cross-sectional view of the support member used in the present invention.

3 is a partial cross-sectional view provided in the description of the present invention.

* Explanation of symbols for main parts of the drawings

1: lens holder 2: objective lens

12: frame 13: wire

14 support member 16 insertion hole

The present invention relates to an objective lens support device for supporting an object lens of a pickup device for optically reading out a signal recorded on a signal recording medium with a displacement material.

Background Art Conventionally, as an objective lens support device for supporting an objective lens with a displacement material, it is indicated in Japanese Patent Laid-Open Nos. 61-115 and 249, for example. The objective lens support apparatus secures one end of each of the plurality of wires to the frame, and inserts the other end into a hole formed in the frame to support the plurality of wires between both ends of the frame, The lens holder in which the objective lens is stored is fixed to support the objective lens in a displaceable manner.

By the way, as mentioned above, the objective lens support apparatus by which the many wires for supporting an objective lens were lengthened between the both ends of a frame is inserted so that one side of a wire support part can be moved by inserting the other end of a wire. Although it is necessary to insert and support the other end of the wire into the frame hole, the objective lens support device of the publication can fill the dump material in the frame hole, so that the wire can be supported without swinging, or Q can be lowered.

However, since oil was used as a dump material mentioned above conventionally, the displacement characteristic of the wire with respect to temperature change was not suitable. That is, since oil generally becomes viscous when the temperature rises, the other end of the wire is easily displaced in the up, down, left and right directions, and easily soldered in the front and rear directions. Therefore, when temperature rises, the displacement of a wire will become large also by the same driving force. On the other hand, since the oil becomes more viscous when the temperature drops, the other end of the wire becomes difficult to displace in the vertical direction of the axis, and also hard to solder in the axial direction. Therefore, when temperature falls, the displacement of an objective lens will become small even with the same driving force.

The present invention is an objective lens support device manufactured in consideration of the above-mentioned, a plurality of wires that are supported between the both ends of the frame and displaceably supports the objective lens, and an insertion hole into which one end of the plurality of wires is inserted, respectively. It is provided with the support member fixed to a frame, and this support member is comprised by the elastic material which becomes large or small together with elasticity and a friction coefficient with temperature change.

The present invention constitutes a supporting member for supporting one end of the wire by an elastic material having a large or small elasticity and friction coefficient at the same time with temperature change, and the elasticity of the supporting member is increased so that the wire is displaced in the vertical direction of the axis. When it is easy to do so, the friction in the insertion hole of the support member increases, making it difficult for the wire to lead in the insertion hole, and conversely, when the elasticity of the support member decreases, the wire becomes difficult to displace in the vertical direction of the axis. The friction in the insertion hole of the support member is reduced so that the wire is easily soldered into the insertion hole.

1 is a perspective view showing an embodiment of the present invention, (1) is a lens holder in which an objective lens (2) is attached to an integrally molded barrel (1a), and (3) a focusing direction of the objective lens (2). Focusing coil mounted to the lens holder 1 to drive in the (AA 'direction), (4) is mounted to the lens holder 1 to drive the objective lens 2 in the tracking direction (BB' direction) Tracking coils (5) are a pair of permanent magnets (6) and (7), yokes (8) and (9) attached to each of the permanent magnets (6) and (7), and the yoke (8) And a magnetic circuit for forming a magnetic field between the plates 10 and 11 arranged between respective stages of (9), (12) a frame to which the magnetic circuit (5) is attached, (13) Four wires for supporting the lens holder 1 in the frame 12, 14 is a support member for displaceably supporting one end of the wire 13, 15 is the wire 13 To fix the other end of the A substrate.

By the way, the support member 14 is comprised by synthetic rubber, for example, silicone rubber, and is comprised by the elastic material which becomes large simultaneously with elasticity and a friction coefficient with temperature rise. In addition, the support member 14 is gradually narrowed from the opening into which the wire 13 is inserted, as shown in the front view of FIG. 2A and the cross-sectional view of FIG. 2B to support the wire 13 therein. The morning glory-shaped insertion hole 16 which has 14 is formed, and this insertion hole 16 is formed in the cylindrical protrusion part 14a. And as shown in FIG. 3, the said support member 14 is being fixed to the frame 12 by fitting the protrusion part 14a to the hole which was built in the frame 12. As shown in FIG.

When assembling the objective lens support device configured as described above, first, the lens holder 1 on which the focusing coil 3 and the tracking coil 4 are mounted is hypothesized at a predetermined position, and then one end is printed out in advance. The four wires 13 soldered to) are respectively inserted into one hole of the frame 12 from the outside of the frame 12 and inserted into the hole of the attachment portion 1b of the lens holder 1. Then, the lens holder 1 is set at a predetermined position of the magnetic circuit 5 after being inserted into the hole on the other side of the frame 12 and the insertion hole 16 of the support member 14, and the lens holder When the attachment part 1b of (1) is bonded to four wires 13, assembly is completed. In this case, the focusing coil 3 and the tracking coil 4 are displaced in the focusing direction (AA 'direction) and tracking direction (BB' direction) by the magnetic field generated by the magnetic circuit 5. It is arranged in the magnetic circuit (5). Therefore, the objective lens 2 attached to the lens holder 1 can be driven in the focusing direction and the tracking direction in accordance with a control signal supplied to the focusing coil 3 and the tracking coil 4.

In addition, one end of the wire 13 is inserted into the insertion hole 16 of the support member 14, but since the insertion hole 16 is a morning glory with a large opening, one end of the wire 13 is easily formed. It can be inserted into the insertion hole (16). One end of the wire 13 inserted into the insertion hole 16 is supported by the supporting portion 16a of the insertion hole 16.

Here, since the wire 13 is made of a metal wire, for example, phosphor bronze, and has no elasticity in the axial direction, the wire 13 is interposed between both ends of the frame 12.

When the lens holder 1 is driven and the wire 13 is bent, as shown by the broken line in FIG. 3, one end of the wire 13 is changed to the support member 14 in accordance with the displacement of the lens holder 1. The displacement is also attempted in the insertion hole 16. Here, the support member 14 is made of an elastic material, and one end of the wire 13 is inserted into the insertion hole 16 of the support member 14, so that the displacement of the wire 13 is reduced. Accordingly, the contact portion of the wire 13 of the support member 14 is deformed, the axis of the wire 13 is displaced in the vertical direction, and the wire 13 is soldered into the insertion hole 16, so that the wire ( 13) displacement in the axial direction.

By the way, since the support member 14 is comprised by the synthetic rubber which elasticity and a friction coefficient become large simultaneously with temperature rise, when the temperature rises and the elasticity of this support member 14 becomes large, the support member 14 Friction in the insertion hole 16 increases, and conversely, when the temperature decreases, the elasticity of the support member 14 decreases, so that the friction in the insertion hole 16 decreases.

Therefore, when the elasticity of the said support member 14 becomes large and this support member 14 becomes easy to deform | transform, and the wire 13 becomes easy to deform in the vertical direction of an axis | shaft, this wire 13 is a support member ( It becomes difficult to lead the insertion hole 16 of 14), conversely, the elasticity of the said support member 14 becomes small, and this support member 14 becomes difficult to deform, and the wire 13 displaces in the vertical direction of an axis | shaft. When it becomes difficult to carry out, this wire 13 becomes easy to lead the said insertion hole 16 inside. That is, as the temperature rises, it becomes difficult for the wire 13 to lead in the insertion hole 16, and the wire 13 can be displaced to the displacement of the lens holder 1 by the displacement in the axial direction. When the range decreases, the support member 14 tends to deform to compensate for the decrease, and the displacement in the direction perpendicular to the axis of the wire 13 expands. On the contrary, when the temperature drops and the support member 14 becomes difficult to deform, and the range that can correspond to the displacement of the lens holder 1 due to the deformation of the support member 14 decreases, the wire ( It becomes easy to lead 13 into the said insertion hole 16, and the displacement in the axial direction of the wire 13 expands.

Therefore, in the same driving force, the change in displacement of the lens holder 1 with respect to the temperature change becomes small.

As described above, the present invention constitutes a supporting member for supporting one end of the wire by an elastic material whose elasticity and friction coefficient are large or small at the same time with temperature change. When the wire becomes easy to be displaced in the vertical direction of the shaft, the wire becomes difficult to lead in the insertion hole of the supporting member, and on the contrary, when the wire becomes difficult to displace in the vertical direction of the shaft, the elasticity of the supporting member becomes small. This wire has an advantage of easily soldering the inside of the insertion hole, and can reduce the change of displacement of the objective lens with respect to the temperature change in the same driving force.

Claims (1)

An objective lens support apparatus for supporting an objective lens with a displacement material to move an optical beam for reading out a signal, comprising: a plurality of wires that are supported between the ends of the frame and displaceably support the objective lens; And a supporting member fixed to the frame at the same time as one end of each of the plurality of wires is inserted, and the supporting member is made of an elastic material having a large or small elastic friction coefficient at the same time with temperature change. Objective lens support device.