JP2017142462A - Ferrule cleaning device, ferrule cleaning method, and ferrule cleaning program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a ferrule cleaning device that can sufficiently clean an outer peripheral surface of a ferrule and is easily operated.SOLUTION: A ferrule cleaning device comprises: a holding jig 1 that holds a ferrule 20 including a through hole 21; a cleaning tank 2 that can store the holding jig 1 and retains a cleaning liquid W1 for cleaning the ferrule 20; and a vibration generation part 3 that applies vibration to the cleaning fluid W1 inside the cleaning tank 2. The cleaning tank 2 includes a cleaning fluid discharge part 17a that discharges the cleaning fluid W1 inside the cleaning tank 2, and a gas introduction part 16a that introduces a gas into the cleaning tank 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a ferrule cleaning device, a ferrule cleaning method, and a ferrule cleaning program.

There is a ferrule as a member for accurately aligning the end faces of the optical fibers and connecting the optical fibers. The ferrule is a cylindrical member having a through hole formed along its central axis.
Since the formation accuracy of the through hole affects the connection characteristics of the optical fiber, the concentricity and the inner diameter of the through hole are measured (for example, see Patent Document 1). For example, the through hole of a ferrule is imaged, and the concentricity of the through hole is obtained based on the obtained image. If the concentricity of the through hole is within a predetermined range, it is determined as a normal product.

If foreign matter (machine oil, dust, etc.) adheres to the outer peripheral surface of the ferrule, the holding position of the ferrule will be displaced, and the measurement results such as concentricity and inner diameter may be affected. In that case, a normal ferrule is determined to be an abnormal product, and the manufacturing yield may be reduced.
Therefore, the outer peripheral surface of the ferrule is cleaned. As a cleaning method, for example, there is a method in which the operator wipes the outer peripheral surface of the ferrule with a nonwoven fabric or the like. In addition, a technique is also used in which an operator cleans the outer peripheral surface of the ferrule by spraying a cleaning liquid onto the ferrule.

JP 2003-65729 A

However, since the operation of cleaning the outer peripheral surface of the ferrule is complicated and time-consuming, it has been desired to facilitate the operation.
An object of the present invention is to provide a ferrule cleaning device, a ferrule cleaning method, and a ferrule cleaning program that can sufficiently clean the outer peripheral surface of a ferrule and that are easy to operate.

(1) A ferrule cleaning device according to the present invention includes a holding jig that holds a ferrule having a through hole, a cleaning tank that can store the holding jig and stores a cleaning liquid, and a cleaning liquid in the cleaning tank. And a vibration generating section that applies vibration to the cleaning tank. The cleaning tank includes a cleaning liquid discharge section that discharges the cleaning liquid in the cleaning tank, and a gas introduction section that introduces gas into the cleaning tank.
According to this configuration, cleaning of the outer peripheral surface of the ferrule with the cleaning liquid and drying of the outer peripheral surface of the ferrule can be performed by continuous operations. Therefore, compared with the method in which the operator wipes the outer peripheral surface of the ferrule and the method in which the cleaning liquid is sprayed on the ferrule, the operation can be facilitated and the working efficiency can be increased. Therefore, the time required for the cleaning work can be shortened.
Further, in the cleaning process, foreign matters on the outer peripheral surface of the ferrule can be reliably removed by the cleaning liquid. Therefore, it is possible to prevent erroneous determination caused by the foreign matter in the measurement of the concentricity of the through holes, and to avoid a decrease in manufacturing yield.

(2) In the ferrule cleaning device, the holding jig may include a jig main body having a holding recess for holding the ferrule and an upper plate portion that prevents the ferrule from coming off from the holding recess. .
According to this configuration, the ferrule can be prevented from falling off the holding jig, and the ferrule can be reliably cleaned.

(3) In the ferrule cleaning device, the jig body may include a holding tube inserted into the through hole of the ferrule.
According to this configuration, the vibration transmitted to the holding jig by the vibration generating unit can be efficiently transmitted to the ferrule through the holding tube. Therefore, the ferrule can be cleaned efficiently.

(4) The ferrule cleaning method according to the present invention includes a holding jig that holds a ferrule having a through hole, a cleaning tank that can store the holding jig and stores a cleaning liquid, and a cleaning liquid in the cleaning tank. A ferrule cleaning device provided with a vibration generating unit for applying vibration to the cleaning jig, and in the state where the ferrule held by the holding jig is immersed in the cleaning liquid in the cleaning tank, A cleaning process for applying vibration, a discharging process for discharging the cleaning liquid in the cleaning tank through the cleaning liquid discharge section, and introducing the gas into the cleaning tank through the gas introduction section. A drying step of drying the cleaning liquid.
According to this method, cleaning of the outer peripheral surface of the ferrule with the cleaning liquid and drying of the outer peripheral surface of the ferrule can be performed by continuous operations. Therefore, compared with the method in which the operator wipes the outer peripheral surface of the ferrule and the method in which the cleaning liquid is sprayed on the ferrule, the operation can be facilitated and the working efficiency can be increased. Therefore, the time required for the cleaning work can be shortened.
Further, in the cleaning process, foreign matters on the outer peripheral surface of the ferrule can be reliably removed by the cleaning liquid. Therefore, it is possible to prevent erroneous determination caused by the foreign matter in the measurement of the concentricity of the through holes, and to avoid a decrease in manufacturing yield.

(5) In the ferrule cleaning program according to the present invention, in the computer of the ferrule cleaning device, the ferrule held by the holding jig is immersed in the cleaning liquid in the cleaning tank, and the vibration generating unit A cleaning step of vibrating the cleaning liquid, a discharging step of discharging the cleaning liquid in the cleaning tank through the cleaning liquid discharge section, and introducing the gas into the cleaning tank through the gas introduction section. And a drying step of drying the cleaning liquid adhered to the substrate.
According to this configuration, since the computer of the ferrule cleaning device can execute the cleaning process, the discharge process, and the drying process, the cleaning of the outer peripheral surface of the ferrule with the cleaning liquid, the discharge of the cleaning liquid from the tank body, and the ferrule Drying of the outer peripheral surface can be performed with an easy operation, and work efficiency can be improved.

According to the present invention, cleaning of the outer peripheral surface of the ferrule with the cleaning liquid and drying of the outer peripheral surface of the ferrule can be performed by continuous operations. Therefore, compared with the method in which the operator wipes the outer peripheral surface of the ferrule and the method in which the cleaning liquid is sprayed on the ferrule, the operation can be facilitated and the working efficiency can be increased. Therefore, the time required for the cleaning work can be shortened.
Further, in the cleaning process, foreign matters on the outer peripheral surface of the ferrule can be reliably removed by the cleaning liquid. Therefore, it is possible to prevent erroneous determination caused by the foreign matter in the measurement of the concentricity of the through holes, and to avoid a decrease in manufacturing yield.

It is sectional drawing which shows typically one Embodiment of the ferrule cleaning apparatus which concerns on this invention. It is sectional drawing which shows typically a part of modification of a holding jig.

Embodiments of the present invention will be described with reference to the drawings.
[Ferrule cleaning device]
A ferrule cleaning device according to an embodiment of the present invention will be described.
FIG. 1 is a cross-sectional view schematically showing a ferrule cleaning device 10 which is an embodiment of a ferrule cleaning device according to the present invention. In the following description, “upper” and “lower” correspond to the upper and lower sides in FIG. Plan view means viewing from above or below.

The ferrule 20 will be briefly described.
As shown in FIG. 1, the ferrule 20 has a through hole 21 through which an optical fiber (not shown) is inserted along the central axis. The outer shape of the ferrule 20 is cylindrical.

The ferrule cleaning device 10 includes a holding jig 1, a cleaning tank 2, a vibration generating unit 3, an air supply unit 4, and a control unit 5.
The holding jig 1 has a jig body 6 and an upper plate part 7.
The jig body 6 includes a block-shaped main portion 8, a support column 9 erected on the upper surface 8 a of the main portion 8, and a leg portion 12 provided on the lower surface 8 b of the main portion 8.

The main portion 8 is formed in a rectangular parallelepiped shape, for example. A plurality of holding recesses 11 are formed on the upper surface 8 a of the main portion 8. The holding recess 11 has, for example, a cylindrical internal space 11a whose central axis is along the vertical direction. The inner diameter of the holding recess 11 is larger than the outer diameter of the ferrule 20. Therefore, when the ferrule 20 is accommodated in the holding recess 11, a gap 24 is formed between the outer peripheral surface 20 a of the ferrule 20 and the inner surface of the holding recess 11.
A discharge hole 11 c that is a through hole reaching the lower surface 8 b of the main portion 8 is formed in the bottom portion 11 b of the holding recess 11. In the discharge step (described later), the cleaning liquid W1 in the holding recess 11 can be discharged through the discharge hole 11c.
The number of holding recesses 11 is not limited to a plurality, and may be one.

The upper plate portion 7 is formed in a plate shape, for example. The upper plate part 7 can be formed in a rectangular plate shape in a plan view, for example. A through hole 7 a that penetrates in the thickness direction is formed in the upper plate portion 7 at a position overlapping the holding recess 11 in plan view.
The upper plate portion 7 is provided at a position separated upward from the main portion 8. The upper plate portion 7 is provided at a position facing the upper surface 8 a of the main portion 8 and is supported by the support pillar 9. It is preferable that the upper plate portion 7 can be attached to and detached from the support column 9.

  The upper plate portion 7 is provided at a height position at which the ferrule 20 held in the holding recess 11 can be prevented from coming off from the holding recess 11. In FIG. 1, the upper plate portion 7 is located at a position higher than the upper end of the ferrule 20, but the ferrule 20 does not come off the holding recess 11 even when the ferrule 20 rises to a position where it contacts the upper plate portion 7. Therefore, the ferrule 20 can be prevented from falling off the holding jig 1 and the ferrule 20 can be reliably cleaned.

The cleaning tank 2 includes a tank body 15 and a lid 16.
The tank body 15 includes a bottom wall portion 17 and a side wall portion 18 erected on the peripheral edge portion of the bottom wall portion 17. The tank body 15 can store the cleaning liquid W <b> 1 in a space (internal space 15 a) surrounded by the bottom wall portion 17 and the side wall portion 18. The tank body 15 can accommodate the holding jig 1 in the internal space 15a.

  The bottom wall portion 17 is formed with a cleaning liquid discharge hole 17a (cleaning liquid discharge portion) formed so as to penetrate in the thickness direction. A discharge pipe 22 is connected to the cleaning liquid discharge hole 17a. The discharge pipe 22 can discharge the cleaning liquid W1 in the tank body 15. The discharge pipe 22 can be provided with an opening / closing valve 23.

It is preferable that the lid portion 16 can close the upper opening 15b of the tank body 15 in an airtight manner by contacting the upper end portion 18a of the side wall portion 18 without a gap.
The lid portion 16 is formed with a gas introduction hole 16a (gas introduction portion) that penetrates the lid portion 16 in the thickness direction, and a gas supply pipe 19 is connected to the gas introduction hole 16a. The gas supply pipe 19 can supply the gas G <b> 1 to the internal space 15 a of the tank body 15.

The vibration generating unit 3 includes, for example, an ultrasonic vibrator 13 attached to the bottom wall portion 17 of the cleaning tank 2 and a drive unit 14 that drives the ultrasonic vibrator 13.
The ultrasonic transducer 13 is electrically connected to the drive unit 14 and vibrates by a drive signal output from the drive unit 14. The vibration of the ultrasonic transducer 13 is transmitted to the internal space 15a through the bottom wall portion 17. Specifically, ultrasonic waves are output from the bottom wall portion 17 toward the internal space 15a by the vibration of the ultrasonic transducer 13 (vibration source).
The air supply means 4 can send gas G 1 (air or the like) to the tank body 15 through the gas flow path 19. For example, a compressor can be used as the air supply means 4.

The controller 5 can open the on-off valve 23 to discharge the cleaning liquid W1 in the tank body 15 through the cleaning liquid discharge hole 17a, and then operate the air supply means 4 to send the gas G1 into the tank body 15.
In the discharging step (described later), it can be determined, for example, based on the remaining amount of the cleaning liquid W1 in the tank body 15 that the entire amount of the cleaning liquid W1 in the tank body 15 has been discharged. The amount of the cleaning liquid W1 can be grasped based on, for example, the mass of the cleaning liquid W1 measured by mass measuring means (not shown). The amount of the cleaning liquid W1 can also be grasped based on the liquid level position of the cleaning liquid W1 in the tank body 15 measured by a liquid level gauge (not shown).
For example, the control unit 5 can control the operation and stop of the air supply unit 4 by sending a control signal to the air supply unit 4 based on a measurement signal from the mass measurement unit or the like.

The control unit 5 includes a computer-readable recording medium 5a in addition to a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), various interfaces, and the like (not shown).
As an example of the operation, the controller 5 executes a cleaning process, a discharging process (described later), and a drying process (described later) by reading and executing a ferrule cleaning program stored in the recording medium 5a, for example. Yes.

The “computer-readable recording medium” refers to a portable medium such as a flexible disk, a magneto-optical disk, a CD-ROM, or a semiconductor memory, and a drive device (for example, a CD-ROM drive device) or an interface. (For example, a USB interface).
The “computer-readable recording medium” is not limited to the portable medium, and may be a storage unit such as a hard disk built in a computer system (which includes an OS and hardware such as peripheral devices). “Computer-readable recording medium” is a medium that dynamically holds a program for a short time, such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line, In this case, it may include a program that holds a program for a certain time, such as a volatile memory inside a computer system that serves as a server or client.

[Ferrule cleaning method]
A ferrule cleaning method according to an embodiment of the present invention will be described.
(Washing process)
As shown in FIG. 1, the ferrule 20 is held in the holding recess 11 of the holding jig 1.
Since the outer diameter of the ferrule 20 is smaller than the inner diameter of the holding recess 11, a gap 24 is formed between the outer peripheral surface 20 a of the ferrule 20 and the inner peripheral surface of the holding recess 11.
A sufficient amount of cleaning liquid W1 is stored in the tank body 15. As the cleaning liquid W1, ethanol, water, or the like can be used. The on-off valve 23 of the discharge pipe 22 is closed.
By putting the holding jig 1 into the tank body 15, the ferrule 20 is immersed in the cleaning liquid W1. The holding jig 1 is placed on the bottom wall portion 17. The cleaning liquid W1 flows into the holding recess 11 and contacts the outer peripheral surface 20a of the ferrule 20. The entire outer peripheral surface 20a of the ferrule 20 is preferably in contact with the cleaning liquid W1.

The ultrasonic vibrator 13 is vibrated by the drive unit 14. The vibration of the ultrasonic transducer 13 is transmitted to the cleaning liquid W1 in the internal space 15a through the bottom wall portion 17. Specifically, ultrasonic waves are output from the bottom wall portion 17 toward the cleaning liquid W1 in the internal space 15a by the vibration of the ultrasonic vibrator 13. At this time, the bottom wall portion 17 functions as a vibrating body that transmits the vibration of the ultrasonic vibrator 13 to the cleaning liquid W1.
When there is a foreign object (such as machine oil or dust) on the outer peripheral surface 20a of the ferrule 20, the foreign object is peeled off from the outer peripheral surface 20a of the ferrule 20 by vibration. Thereby, the outer peripheral surface 20a of the ferrule 20 is cleaned.
After sufficiently washing the outer peripheral surface 20a of the ferrule 20, the vibration generating unit 3 is stopped.

(Discharge process)
By opening the on-off valve 23 of the discharge pipe 22, the cleaning liquid W1 in the tank body 15 is discharged through the cleaning liquid discharge hole 17a and the discharge pipe 22.

(Drying process)
The gas supply means 4 sends gas G1 (air or the like) through the gas supply pipe 19 to the internal space 15a of the tank body 15 and discharges the gas G1 in the internal space 15a through the cleaning liquid discharge hole 17a and the discharge pipe 22. Thereby, the gas G1 can be circulated in the internal space 15a of the tank body 15. The gas G1 is not limited to the cleaning liquid discharge hole 17a, and may be discharged from other discharge holes (not shown).
Since the discharge hole 11c is formed in the bottom 11b of the holding recess 11, the gas G1 can flow through the internal space 11a from the upper opening of the holding recess 11 toward the discharge hole 11c.
By bringing the gas G1 into contact with the ferrule 20, the outer peripheral surface 20a of the ferrule 20 can be dried.

In the case of using the control unit 5, for example, after the ferrule 20 is cleaned by the control unit 5 using the vibration generating unit 3 for a predetermined time, the opening / closing valve 23 is opened and the cleaning liquid in the tank main body 15 is opened. When the discharge of W1 is started and the entire amount of the cleaning liquid W1 is discharged, the air supply means 4 can be operated.
Through the above steps, the ferrule 20 whose outer peripheral surface 20a is clean and dry is obtained.

According to the ferrule cleaning device 10, the cleaning of the outer peripheral surface 20a of the ferrule 20 with the cleaning liquid W1 and the drying of the outer peripheral surface 20a of the ferrule 20 can be performed by continuous operations.
Therefore, compared with the method in which the operator wipes the outer peripheral surface of the ferrule and the method in which the cleaning liquid is sprayed on the ferrule, the operation can be facilitated and the working efficiency can be increased. Therefore, the time required for the cleaning work can be shortened.
Further, in the cleaning process, the foreign matter on the outer peripheral surface 20a of the ferrule 20 can be reliably removed by the cleaning liquid W1. Therefore, erroneous determination caused by the foreign matter in the measurement of the concentricity of the through-hole 21 can be prevented, and a decrease in manufacturing yield can be avoided.

According to the ferrule cleaning method described above, cleaning of the outer peripheral surface 20a of the ferrule 20 with the cleaning liquid W1 and drying of the outer peripheral surface 20a of the ferrule 20 can be performed by continuous operations.
Therefore, compared with the method in which the operator wipes the outer peripheral surface of the ferrule and the method in which the cleaning liquid is sprayed on the ferrule, the operation can be facilitated and the working efficiency can be increased. Therefore, the time required for the cleaning work can be shortened.
Further, in the cleaning process, the foreign matter on the outer peripheral surface 20a of the ferrule 20 can be reliably removed by the cleaning liquid W1. Therefore, erroneous determination caused by the foreign matter in the measurement of the concentricity of the through-hole 21 can be prevented, and a decrease in manufacturing yield can be avoided.

  According to the above-described ferrule cleaning program, the computer of the ferrule cleaning device 10 can execute the cleaning process, the discharging process, and the drying process, so that the outer peripheral surface 20a of the ferrule 20 is cleaned with the cleaning liquid W1, and the tank body 15 It is possible to discharge the cleaning liquid W1 from the nozzles and dry the outer peripheral surface 20a of the ferrule 20 by an easy operation, and the working efficiency can be increased.

  According to the recording medium described above, for example, by installing it on the computer of the ferrule cleaning device 10, the cleaning of the outer peripheral surface 20a of the ferrule 20 with the cleaning liquid W1, the discharge of the cleaning liquid W1 from the tank body 15, and the ferrule 20 The outer peripheral surface 20a can be dried by an easy operation, and work efficiency can be improved. Moreover, it can respond suitably to the distribution of programs and the like.

[Holding jig] (Modification)
A modification of the holding jig 1 will be described.
FIG. 2 is a cross-sectional view schematically showing a part of a holding jig 31 which is a modified example of the holding jig 1.
The holding jig 31 is different from the holding jig 1 shown in FIG. 1 in that a holding tube 32 (holding convex portion) that protrudes into the internal space 11 a is formed on the bottom portion 11 b of the holding concave portion 11.
The holding tube 32 is formed in a tubular shape having a circular cross section, for example. The holding tube 32 is formed to protrude upward along the central axis of the holding recess 11 from the upper surface of the bottom portion 11b. The outer diameter of the holding tube 32 is determined so that it can be inserted into the through hole 21 of the ferrule 20.

The holding jig 31 can hold the ferrule 20 in a state where the holding tube 32 is inserted into the through hole 21 of the ferrule 20.
By using the holding jig 31, the vibration transmitted to the holding jig 31 by the vibration generator 3 can be efficiently transmitted to the ferrule 20 through the holding tube 32. Therefore, the ferrule 20 can be cleaned efficiently.

The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, in the ferrule cleaning apparatus 10, the vibration generating unit 3 that generates ultrasonic waves is used. However, the vibration generating unit is not particularly limited as long as it can apply vibration to the cleaning liquid in the cleaning tank, and can generate ultrasonic waves. It is not limited to things.
In the holding jig 31 shown in FIG. 2, the holding tube 32 is provided on the jig body 6 (main part 8), but the holding tube may be provided on the lid. Moreover, although the tubular holding tube 32 is used in the holding jig 31, a convex portion that is not tubular may be employed instead.

DESCRIPTION OF SYMBOLS 1,31 ... Holding jig 2 ... Cleaning tank 3 ... Vibration generating part 4 ... Air supply means 6 ... Jig main body 7 ... Upper plate part 10 ... Ferrule cleaning apparatus 11 ... Holding recessed part 16a ... Gas introduction hole (gas introduction part)
17a ... Cleaning liquid discharge hole (cleaning liquid discharge part)
DESCRIPTION OF SYMBOLS 20 ... Ferrule 20a ... Outer peripheral surface 21 ... Through-hole 32 ... Holding tube W1 ... Cleaning liquid G1 ... Gas

Claims (5)

A holding jig for holding a ferrule having a through hole;
A cleaning tank capable of accommodating the holding jig and storing a cleaning liquid;
A vibration generating unit that vibrates the cleaning liquid in the cleaning tank,
The ferrule cleaning apparatus, wherein the cleaning tank includes a cleaning liquid discharge unit that discharges the cleaning liquid in the cleaning tank, and a gas introduction unit that introduces gas into the cleaning tank.   The ferrule cleaning device according to claim 1, wherein the holding jig includes a jig main body having a holding concave portion for holding the ferrule and an upper plate portion that prevents the ferrule from being detached from the holding concave portion.   The ferrule cleaning device according to claim 2, wherein the jig body has a holding tube inserted into the through hole of the ferrule. A ferrule comprising: a holding jig that holds a ferrule having a through hole; a cleaning tank that can store the holding jig and that stores a cleaning liquid; and a vibration generator that vibrates the cleaning liquid in the cleaning tank. Use a cleaning device,
In the state where the ferrule held by the holding jig is immersed in the cleaning liquid in the cleaning tank, a cleaning step of applying vibration to the cleaning liquid by the vibration generating unit;
A discharge step of discharging the cleaning liquid in the cleaning tank through the cleaning liquid discharge unit;
A ferrule cleaning method comprising: a drying step of drying the cleaning liquid adhering to the ferrule by introducing the gas into the cleaning tank through the gas introduction unit. A computer of the ferrule cleaning device according to any one of claims 1 to 3,
In the state where the ferrule held by the holding jig is immersed in the cleaning liquid in the cleaning tank, a cleaning step of applying vibration to the cleaning liquid by the vibration generating unit;
A discharge step of discharging the cleaning liquid in the cleaning tank through the cleaning liquid discharge unit;
A drying step of drying the cleaning liquid attached to the ferrule by introducing the gas into the cleaning tank through the gas introduction unit;
A ferrule cleaning program characterized in that

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