JPH0627330A - End face polishing device for optical connector ferrule - Google Patents

Abstract

PURPOSE:To apply spherical surface polishing work with high accuracy and high quality to the end face of an optical connector ferrule and to improve grinding workability by automating a small sized and light weight grinding device. CONSTITUTION:An end face grinding device for the optical connector ferrule 19 is comprised of a cabinet 3 also used as a hand grip part incorporating a motor 1, a motor gear reduction 12 and a power source, a grinding plate 2 fitted to a motor driving shaft and on the upper plane of which a soft elastic material is adhered, an optical connector holding plate 16 which holds the optical connector ferrule 19 and presses or approaches closely it to the grinding plate 2, and a sliding part driven by the motor 1 and which allows the optical connector holding plate 16 to move relatively with the grinding plate 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compact, lightweight automated polishing apparatus for polishing an end face of an optical connector ferrule for connecting an optical fiber into a spherical shape with high precision and high quality.

[0002]

2. Description of the Related Art Conventionally, Japanese Patent Publication No.
There is one disclosed in Japanese Patent Publication No. 44668-44, which will be described with reference to FIG. Cylindrical housing 53 that also serves as a gripping part that houses a motor 51, a lapping film-equipped polishing plate 52 that is pivotally attached to the motor 51, and the polishing plate 5
The optical connector ferrule 19 is inserted into the polished surface of 2, and the optical connector holding plate 56 having a projecting portion in which the screw 58 is screwed by pressing the spring 55 by force and pressure, and the optical connector holding plate 5
A cylindrical head 57 which is fitted to the cylindrical casing 53 for guiding the reciprocating movement of the polishing plate 52 with respect to the polishing surface of the polishing plate 52.
And consists of. Further, the cylindrical head 57 is provided with a through groove for manually slidingly guiding the optical connector holding plate 56. With the above configuration, the end surface of the optical connector ferrule is polished by the polishing plate 52 which rotates the optical connector holding plate by manually sliding the through groove and rotates.

[0003]

Generally, at the end face of an optical fiber or an optical connector ferrule, optical characteristics (connectivity) are obtained by abutting high precision, high quality spherical shapes having good symmetry with respect to the central axis. It is known that the characteristics and the return loss) are significantly improved. However, in the conventional optical connector ferrule end face polishing machine,
An operator manually mounts an optical connector holding plate 56 for vertically holding the end surface of the optical connector ferrule 19 on the polishing surface of the lapping film 52 on the rotating polishing plate.
By reciprocating in parallel along the guide of the through groove of No. 7, the end face of the optical connector ferrule with respect to the polishing plate 52 can be polished only in a flat shape. Such a manual end face polishing machine for an optical connector ferrule has many problems as described below. That is, (1) since it is a manual work, it requires skill of an operator, handling is complicated, and workability is extremely poor. As a result, polishing is not reproducible such that the polished surface is not uniformly polished. (2) Since it is manual, the polishing rate is not constant, it is difficult to secure the desired processing shape, processing accuracy, quality, etc. of the polishing surface, and the polishing time cannot be controlled. (3) Since it is a flat polishing operation using a lapping film, it is not possible to obtain spherical polishing advantageous for optical characteristics (especially, reflection attenuation amount and transmission loss). In particular, at the optical connector connection site, it is desired to shorten the polishing time as polishing work, improve the quality of the polishing surface, or facilitate polishing anywhere, and realize a compact and lightweight automatic polishing device. It was Therefore, the present invention is to provide an end face polishing device for an optical connector ferrule that is compact and lightweight, automates the polishing device, and improves the polishing work at the same time as the spherical polishing process of the optical connector ferrule end face with high accuracy and high quality. It is intended.

[0004]

An optical connector ferrule end face polishing apparatus for spherically polishing an end face of an optical connector ferrule, a housing that also serves as a handgrip that contains a motor, a motor speed reducer, and a power supply, and a motor drive shaft. A polishing plate which is axially attached to the upper surface of which a soft elastic body is adhered, an optical connector holding plate which holds the optical connector ferrule and presses or approaches the polishing plate, and the optical connector holding plate driven by the motor. Is composed of a sliding portion that moves relative to the polishing plate. Further, the upper surface of the polishing plate has a structure in which a lower soft elastic body and an upper lapping film containing abrasive grains are attached to each other so that the end surface of the optical connector ferrule can be spherically polished. Further, the upper surface of the polishing plate has a structure in which the softener and a cellulose-based film are used as a bonding structure in addition to the structure of the polishing agent, and the end surface of the optical connector ferrule can be spherically polished by using the polishing agent. Configured to.

[0005]

Since the present invention is configured as described above, the end face polishing apparatus for an optical connector ferrule according to claim 1 is provided with a sliding portion that makes a relative motion with the polishing plate, and the optical connector ferrule is provided through the optical connector holding plate. Since the end face of the optical connector ferrule is polished by reciprocating while pushing or bringing it close to the polishing plate, the spherical polishing state is kept constant, and the reproducibility of the processing characteristics and the optical characteristics is improved. The end face can be surely polished. Therefore, since the sliding portion is released from the conventional manual work, it can be easily used on the work site on the ground or on a pillar, and
Optical fiber cable connection work will also be performed with high performance. Further, a laminated sticking structure of a soft elastic body and a wrapping film is formed on the upper surface of the polishing plate according to claim 2, and a sticking structure is formed on the upper surface of the polishing plate using the soft elastic body and a cellulosic film to perform a predetermined polishing. By using the agent, the end face of the optical connector ferrule can be easily pushed down or brought into close proximity, and the end face can be easily sphericalized. The characteristics are obtained.

[0006]

Embodiments of the present invention will be described with reference to the drawings. (Embodiment 1) FIGS. 1 to 3 are explanatory views of an end-face polishing apparatus for an optical connector ferrule according to the present invention. FIG. 1 is a partial vertical sectional view of an end-face polishing apparatus for an optical connector ferrule, and FIG. FIG. 3 is a perspective view showing a main part of the construction of FIG. 3, and FIG. 3 is a partial longitudinal sectional view showing an embodiment of an optical connector holding plate and an optical connector mounting plate. In FIG. 1, a housing 3 also serving as a grip portion accommodates a battery housing portion 9, a power source portion having both or one of power source terminals, a timer 10, a switch 11, and a motor 1 coupled to a speed reducer 12. ing. The polishing plate 2 is coupled to the rotary shaft of the speed reducer 12, and the lower surface of the polishing plate 2 has an integral gear shape. The rocking cam 13 has a gear on the lower surface and a cam portion on the upper surface integrally formed, and is fixed to the support plate 14 by a pin 15 and is provided on the lower surface of the polishing plate 2 and the rocking cam. It meshes with the gear on the bottom. Further, in order to swing the optical connector holding plate 16, the swing cam 13 is fitted in parallel to the cam follower bearing 17 set on the optical connector holding plate 16, and the swing spring 22 suspended at one end of the head 18 is provided. And is pressed against a cam provided on the upper surface of the swing cam 13. On the optical connector holding plate 16, an optical connector mounting plate 20 for holding the optical connector ferrule perpendicularly to the polishing plate 2 and a head 18 provided with a groove for guiding the optical connector mounting plate 20 are provided. The head 18 is fixed to the grip portion housing 3 with a fixing screw 23, and serves to set a fixing position between the grip portion housing 3 and the head 18. The optical connector ferrule 19 is an optical connector mounting plate 20.
Is inserted into the hole formed in the optical connector holding plate 16, and the hole formed in the optical connector mounting plate 20 is fixed to the screw hole formed in the optical connector holding plate 16 via the stud pin 24 (see FIG. 3). ). As a result, the spring 21 inserted by the stud pin 24 presses against the polishing surface of the soft elastic body 25 containing abrasive grains that is attached to the upper surface of the polishing plate 2. The motor 1 uses the battery in the battery storage unit 9 as a power source, reduces the rotation by the reduction gear 12 to increase the torque, and transmits the rotation to the polishing plate 2. As a result, the swing cam 13 is rotated via the gear on the lower surface of the swing cam meshing with the gear on the lower surface of the rotating polishing plate 2, and at the same time, the swing rotation is performed via the cam follower bearing 17 and the spring 22. The optical connector holding plate 16 can be automatically reciprocated in parallel with the polishing surface of the polishing plate 2. When the housing 3 also serving as a grip portion is held in one hand in the state set as described above and the machining time is controlled by the timer 10 and the motor 1 is started by the power switch 11, the polishing plate 2 is rotated. At the same time, the oscillating cam 13 also rotates, and the optical connector holding plate 16 integrated with the cam follower bearing 17 repeats the automatic reciprocating motion parallel to the polishing plate 2. At this time, the optical connector ferrule 19 receives the pressure of the spring 21 set in the hole of the optical connector mounting plate 20, and the end face of the optical connector ferrule is spherically polished. 2 shows the optical connector holding plate 16 and the swing cam 1 of the present invention.
3 is a perspective view showing the head 18 including No. 3 and a partial cross-sectional view of the configuration of the entire main part. FIG. The head 18 is divided so as to fit with the handle housing 3, and a guide plate is provided on the head 18 so as not to come off from the head during swinging of the optical connector holding plate 16 on which the optical connector mounting plate 20 is mounted. 26 is screw 2
It is fixed to the head 18 by 7. As a result, the optical connector holding plate 16 can be repeatedly and automatically swung in parallel with the polishing plate 12. Assembling is performed by inserting the optical connector holding plate 16 into the cutout groove of the head 18 and then superimposing the lower end of the head 18 on the screw hole position on the upper surface of the handle portion housing 3 and fixing both with screws 23 to partially assemble. Do. Finally, the housing 7 for accommodating the timer 10 and the switch 11 and the handle housing 3
And are fixed with screws 28 to assemble the whole. In this way, the gear is fixed coaxially with the rotation axis of the polishing plate 2, and the swing of the optical connector holding plate 16 is guided in parallel to the polishing plate 2 via the swing cam 13. Further, the control of the rotation ratio of the optical connector holding plate 16 with respect to the polishing plate 2 can be easily set by the combination of the gear on the lower surface of the polishing plate 2 and the gear on the lower surface of the swing cam 13. Further, in this embodiment, the optical connector holding plate 20
Although a gear is used to control the number of swing reciprocations, a system of swing reciprocating by a belt may be used. Further, although the battery is used as the power source, a motor drive system using an external power source may be used. The automatic polishing apparatus according to this embodiment weighs 500 g or less, which is far lighter than the conventional one. The type of the optical connector ferrule 19 is not limited to a ferrule usually made of zirconia or alumina ceramics, but may be a plug, a predome ferrule, or polishing only the end face of an optical fiber. It is also possible to simultaneously attach a plurality of optical connector ferrules to the optical connector mounting plate 20. (Embodiment 2) In the apparatus according to the present invention, an elastic body having elastic deformation characteristics is attached to the upper surface of the polishing plate 2 so that a part of the pressed surface is concave. Synthetic rubber containing cork (for example, manufactured by Nagayanagi) or buffing abrasive (for example, manufactured by Yutaka Lens) is attached to the elastic body, and a lapping film having an abrasive layer of alumina and diamond particles is attached thereon. ing. In this configuration, press the end face of the optical connector ferrule 19,
By deforming the surface, the end face of the optical connector ferrule can be polished into a convex spherical surface. (Embodiment 3) In the apparatus according to the present invention, the elastic material described in Embodiment 2 is used for the elastic body on the upper surface of the polishing plate 2, a cellulose resin film is arranged on the surface thereof, and a fine and high-performance abrasive is used. Aqueous solution containing hard diamond and Al ₂ O ₃ , CeO ₂ , SiO ₂ , CrO ₂ , Fe ₂
An aqueous solution containing oxide-based fine particles such as O ₃ , TiO ₂ , and ZrO ₂ is used. This makes it possible to polish the end face of the optical connector ferrule 19 into a convex spherical surface. As described in (Example 2) and (Example 3) above, the polishing speed and processing are performed by the automatic rocking of the optical connector holding plate and the spherical polishing method of the end face of the optical connector ferrule by the combination of the abrasive and the polishing plate. Polishing conditions such as time can be easily controlled.
As a result, the required processing characteristics are obtained, and the optical characteristics are also stable. Further, when polishing is impossible due to the life of the cellulose resin film or the like, the head 18 can be removed from the handle housing 3 to facilitate replacement and replacement.
An adhesive is applied to the back surface of the lapping film and the cellulose resin film and the polishing plate. Further, various particle sizes are selected as the polishing agent, and as the material, in addition to the above-mentioned diamond, CeO ₂ , Al ₂ O ₂ , SiO ₂ , Cr
Oxide fine particles such as O ₂ , Fe ₂ O ₃ , TiO ₂ , and ZrO ₂ can be used for polishing end faces of optical connectors made of quartz, Al, and Zr ceramics.

[0007]

Since the present invention is constructed as described above, it has the following effects. In the optical connector ferrule end face polishing apparatus according to the first to third aspects, the assembly and disassembly are facilitated by making the apparatus small and lightweight and automating each component. In this device, an optical connector ferrule end surface is pressed against the polishing plate by a polishing plate using a combination of an elastic body and a wrapping film used for polishing and a combination of the elastic body and a polishing agent, and the holding means is automatically swung to obtain the optical connector. The ferrule end surface can be polished to a convex spherical surface. As a result, there is an effect that an end face having a small radius of curvature can be uniformly polished with high shape accuracy, and a high-performance optical connector ferrule with extremely small connection loss and return loss can be obtained. Further, as an optical connector on-site work, it can be carried by hand and has a great effect on the fields of communication and measurement using an optical fiber as a compact and lightweight automatic polishing device. Further, as an example of the optical connector, it is possible to obtain high-quality and uniform polishing even on the end surface of the pre-dome ferrule that has been subjected to the curvature processing in advance, so that the processing time on site can be shortened and the polishing operation can be facilitated. Further, by pressing the end face of the optical connector ferrule against the polishing surface of the polishing plate by the spring, it is possible to polish a plurality of fibers at the same time and evenly. Therefore, it is possible to reduce the processing cost for polishing. is there.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing a partial cross section of an end-face polishing apparatus for an optical connector ferrule of the present invention.

FIG. 2 is a perspective view showing a main configuration part of an end-face polishing apparatus for an optical connector ferrule of the present invention.

FIG. 3 is a vertical cross-sectional view showing a partial cross-section showing an embodiment of an optical connector holding plate / mounting plate of an end-face polishing apparatus for an optical connector ferrule of the present invention.

FIG. 4 is a vertical sectional view showing a partial section of a conventional optical connector end face polishing machine.

[Explanation of symbols]

 1 Motor 2 Polishing Plate 3 Handgrip Case 7 Case 9 Battery Storage 10 Timer 11 Switch 12 Speed Reducer 13 Swing Cam 14 Support Plate 15 Pin 16 Optical Connector Holding Plate 17 Cam Follower Bearing 18 Head 19 Optical Connector Ferrule 20 Optical connector mounting plate 21 Spring 22 Spring 23 Fixing screw 24 Stud pin 25 Soft elastic body 26 Guide plate 27 Fixing screw 28 Fixing screw 51 Motor 52 Polishing plate with lapping film 53 Cylindrical housing 55 Spring 56 Optical connector holding plate 57 Cylindrical head 58 screw

Claims (3)

[Claims] 1. An optical connector ferrule end surface polishing apparatus for spherically polishing the end surface of an optical connector ferrule, wherein a housing that also serves as a handgrip containing a motor, a motor speed reducer, and a power supply is mounted on a motor drive shaft. A polishing plate having a soft elastic body adhered to the upper surface thereof, an optical connector holding plate for holding an optical connector ferrule and pressing or bringing the optical connector ferrule into or near the polishing plate, and the optical connector holding plate driven by the motor to move the optical connector holding plate to the polishing plate. An end-face polishing device for an optical connector ferrule, comprising: 2. The end face of the optical connector ferrule is polished on the upper surface of the polishing plate as a bonding structure of a lower soft elastic body and an upper lapping film containing polishing abrasive grains. Optical connector ferrule end face polishing machine. 3. An upper surface of the polishing plate has a structure in which a soft elastic body and a cellulose film are attached, and an end face of the optical connector ferrule is polished by using a polishing agent for finishing. An end face polishing apparatus for an optical connector ferrule according to claim 1.