KR101166804B1 - Apparatus for hardening ferrule of optical connector and method thereof - Google Patents

Abstract

PURPOSE: A ferrule hardening apparatus and method for an optical connector are provided to improve property and reliability of an optical component by locating optical fiber in the center of a ferrule without eccentricity. CONSTITUTION: A setting jig injects a thermosetting adhesive(13) inside a plurality of ferrules while the plurality of ferrules(10) as the perpendicularly parked state. Optical fiber(17) is inserted into the plurality of ferrules. A heating means adds heat to the plurality of ferrules supported to the setting jig. The optical fiber thermally hardens the thermosetting adhesive. The setting jig comprises a board-shaped support plate forming a plurality of ferrule insertion grooves. A hinge shaft is included at the center of the board-shaped support plate which can be bent.

Description

Ferrule Curing Apparatus and Method for Optical Connector {APPARATUS FOR HARDENING FERRULE OF OPTICAL CONNECTOR AND METHOD THEREOF}

The present invention relates to a ferrule curing apparatus for optical connectors and a method thereof, and more particularly, a ferrule is inserted and supported in an up and down direction, and a worker is provided through a setting jig having a support plate that is bent at both sides downwardly with respect to a central hinge axis. By injecting a thermosetting adhesive into the ferrule, inserting an optical fiber, and seating on the heating means without having to hold the ferrule directly by hand, the operator's hands that may be exposed to the thermosetting adhesive do not come into contact with the ferrule. The process can be simplified by eliminating the source of contamination, and the thermosetting is progressed by the heating means while the ferrule is erected in the vertical direction, so that the optical fiber is not eccentric but is in the center of the ferrule, thereby improving the characteristics and reliability of the optical parts. Of ferrule curing apparatus for optical connector and method thereof A.

In general, optical communication is to exchange information by transmitting light through optical fiber, which can transmit tens of thousands of times more information than telecommunications using coaxial cable, and transmit information stably without being influenced by radio waves and magnetic fields from the outside. As a means of communication, the Internet has been spotlighted as a means of improving the transmission speed and quality by using FTTH (Fiber To The Home) network, and the range of its use is expanding in the future.

An optical cable using optical fibers is used to construct an FH network. As a method for interconnecting optical cables, there are typically a fusion splicing method and a mechanical connection method.

The fusion splicing method is a method of melting and connecting optical cables to each other mainly for permanent connection. However, the fusion splicing method has the advantage of high reliability of the connection, but has a disadvantage in that the work is cumbersome and requires an expensive precision fusion splicing device.

On the other hand, the mechanical connection method is mainly a method using an optical connector, the operation is convenient, but also the reliability of the connection can have the same reliability as the fusion-splicing method described above, the mechanical connection method using an optical connector is usually used in the field It is true.

The optical connector is coupled to the front end of the optical cable for the connection between the optical communication equipment or each device, and is currently used in optical transmission systems, optical repeaters, optical measuring instruments, optical transmission / reception modules, optical distribution boxes, and the like. It is also widely used in IMT-2000 system, sensor field and signal processing field. In the future, it is expected to be used as a home networking component along with digital broadcasting.

The ferrule, which is an important component of the optical connector, serves to fix and align the cross section of the optical fiber at the center thereof and to support the optical fiber of another optical connector to be closely connected to each other.

FIG. 1 illustrates a general optical connector ferrule. Referring to the drawings, the optical connector ferrule 10 includes a main body 11 having a cylindrical cylinder shape, and an insertion hole 12 in a length direction inside the main body 11. ) Is formed through, the flange 14 is installed on the upper end of the main body 11 to facilitate the process of injecting the thermosetting adhesive 13 into the insertion hole 12 of the main body (11).

Meanwhile, an adhesive injection hole 15 is formed inside the flange 14 to communicate with the insertion hole 12 of the main body 11 at a lower portion thereof, and a locking step 16 is formed at the lower end of the flange 14. It is.

The optical fiber 17 made of glass having a diameter to the inside of the ferrule 10 is inserted, and the inserted optical fiber 17 and the ferrule 10 must be firmly bonded, which is the optical fiber 17 and the This is because alignment and alignment between the ferrules 10, that is, the optical fiber 17 in the ferrule 10 are correctly aligned, thereby improving the characteristics and reliability of the optical component.

The optical fiber 17 inserted into the ferrule 10 is typically adhesively fixed by the thermosetting adhesive 13. That is, the thermosetting adhesive 13, such as epoxy, is injected into the insertion hole 12 in the ferrule 10, and the optical fiber 17 is inserted, and then heat-cured by a predetermined heating means so that strong adhesion is achieved. do.

In the curing apparatus of the optical connector ferrule according to the prior art, as shown in Figure 5, the adapter block 102 is disposed on the hot plate 101 having a plurality of heaters (101a), the adapter block 102 It has a structure in which a plurality of ferrules 103 are arranged horizontally between the partitions 104 provided in the upper portion of the. Since the hardening operation is performed in a state where the ferrule 103 is horizontally disposed on the hot plate 101, the adhesive inside the ferrule 130 is oriented in one direction so that the optical fiber is not accurately aligned at the center of the ferrule. In addition, when the optical fiber is eccentric on the ferrule, there is a problem in that the characteristics and reliability of the optical component are remarkably deteriorated and the defect rate is very high.

In order to solve the problem that the optical fiber is eccentric on the ferrules, the Utility Model Registration No. 0338681 (registered on Jan. 5, 2004) has proposed a curing device for the ferrule for an optical connector that thermally cures the ferrule in an upright position.

FIG. 6 illustrates a ferrule curing apparatus for an optical connector according to another prior art disclosed in the Utility Model No. 0338681, and FIG. 7 illustrates a ferrule curing process for an optical connector according to the prior art.

Referring to the drawings, another conventional ferrule curing apparatus for an optical connector injects an adhesive into an injection hole formed in the inside of the ferrule 10, inserts the optical fiber 17, and heat-cures the adhesive to the optical fiber inside the ferrule (17) is fixed, but the support means 30 for arranging and fixing the plurality of ferrules 10 vertically, so as to directly apply radiant heat to the plurality of ferrules 10 fixed vertically to the support means (30) At least one radiant heat heater 40 disposed adjacent to the ferrule 10 is characterized in that it is provided.

However, the ferrule curing apparatus for an optical connector according to another prior art also has the human hand to ferrule in the ferrule curing step (S20) during the manufacturing operation of the optical connector as in the ferrule curing method for the optical connector according to the prior art of FIG. After fixing, the thermosetting adhesive is injected and the optical fiber is inserted to contaminate the surface of the ferrule by human hands and the curable adhesive, and to remove it, a ferrule cleaning process (S50) of scraping the surface of the contaminated ferrule with a knife and wiping with ethanol is essential. There was a problem required.

In addition, the ferrule curing device for an optical connector according to another prior art has a problem that can not completely block the radiant heat because it uses a method using a radiant heat heater during the process of the thermal curing of the ferrule, the curing time and temperature for each ferrule type In order to maintain a certain level of quality at all times, each separate temperature setting device and time-counting equipment are required.However, in this type of equipment, two or more ferrules can be processed simultaneously by using a radiant heat heater during curing. There was no problem, and since the amount that can be cured at once is limited, there is a problem that is not easy to use in the process of general mass production system rather than the sample production concept.

The present invention has been made in order to solve the problems of the prior art as described above, an object of the present invention is the setting jig provided with a support plate which is supported by the ferrule is inserted in the vertical direction and bent in both sides downwardly inclined around the center hinge axis. This allows the operator to inject a thermosetting adhesive inside the ferrule, insert an optical fiber, and seat it on the heating means without having to hold the ferrule directly by hand, thereby preventing the operator's hand from touching the ferrule. By eliminating the source of ferrule contaminants, the process can be simplified, and thermal curing is performed by the heating means while the ferrule is erected in the vertical direction, so that the optical fiber is not eccentric but is in the center of the ferrule. Ferrule Curing Apparatus for Optical Connectors and Improved Reliability To provide a way.

Another object of the present invention is to partition the table constituting the heating means into a plurality of seating spaces, and to provide a heating wire and heating control unit in each of the plurality of seating spaces independently, curing time and temperature according to the characteristics and size of the ferrule It is possible to set different one or more ferrules at the same time in a large amount in different conditions, it is possible to harden the ferrule for the optical connector that can minimize the problems caused by radiant heat than the curing method by the radiant heat heater by the curing method by the hot wire. An apparatus and method are provided.

In order to achieve the above object, a ferrule curing apparatus for an optical connector according to the present invention includes a setting jig in which a plurality of ferrules in which a thermosetting adhesive is injected and an optical fiber are inserted and supported vertically, and the setting jig is seated. A ferrule curing apparatus for an optical connector comprising heating means for applying a heat to a plurality of ferrules supported by the setting jig in a closed state to heat-cure the thermosetting adhesive, wherein the setting jig is in a state in which the plurality of ferrules are vertically erected. In the ferrule is provided with a plate-shaped support plate is formed with a plurality of ferrule insertion groove is inserted into the ferrule in the vertical direction to enable the injection of the thermosetting adhesive, the support plate, both sides of the support plate is downward A hinge axis that is bendable at the center is provided so that it can be arranged obliquely After the thermosetting adhesive is injected into the ferrule, the optical fiber is inserted into the ferrule while the support plate is bent downwardly with respect to the hinge axis, and the optical fiber is inserted into the ferrule. After being inserted, the support plate may be seated on the heating means in a state in which the support plate is flatly spread around the hinge axis.

In addition, the ferrule curing apparatus for an optical connector according to the present invention is characterized in that the setting jig is further provided with an optical fiber cradle erected on the support plate so that the interruption portion of the optical fiber is supported in a state spaced apart from the support plate. .

In addition, the ferrule curing apparatus for an optical connector according to the present invention, the heating means, the table in which the setting jig is seated upward, the heating wire provided on the top plate of the table, and the operating time of the heating wire and It is configured to include a heating control unit for controlling the heating temperature, wherein the table is formed by partitioning into a plurality of seating space so that the plurality of the set jig, the heating wire and the heating control unit, a plurality of seating space of the table It is characterized in that each is provided independently.

In addition, the ferrule curing method for an optical connector according to the present invention comprises: an adhesive injection step of injecting a thermosetting adhesive into the inside of the ferrule in a state in which the plurality of ferrules are erected vertically in the ferrule insertion groove of the support plate; An optical fiber insertion step of inserting an optical fiber into the ferrule in a state in which the support plate is bent downwardly with respect to the hinge axis; A thermosetting step of seating the setting jig on the heating means in a state where the support plate is flat and applying heat to a plurality of ferrules supported by the setting jig to thermally harden the thermosetting adhesive; .

By the above configuration, the ferrule curing apparatus and method for the optical connector according to the present invention do not need a ferrule cleaning process through improving the setting jig, which can save manpower and time due to the process simplification, It can be configured to automatically shut down according to the set time and temperature, and it is possible to record the uniform product quality through the vertical arrangement of ferrules. It is possible to mass-work the product through improvement, and it is possible to minimize the problem caused by the radiant heat than the curing method by the radiant heat heater by the curing method by the hot wire, so there is an advantage that quality stability, process simplification, and mass production are possible.

1 is a perspective view showing a cross section of a general ferrule
Figure 2 is a perspective view showing the state of use of the main part of the ferrule curing device for an optical connector according to an embodiment of the present invention
Figure 3 is a perspective view showing a ferrule curing device for an optical connector according to an embodiment of the present invention
4 is a flow chart showing a ferrule curing method for an optical connector according to an embodiment of the present invention.
5 is a perspective view showing a ferrule curing device for an optical connector according to the prior art
Figure 6 is a perspective view showing a ferrule curing device for an optical connector according to another prior art
7 is a flow chart showing an optical connector manufacturing process according to the prior art.

Hereinafter, a ferrule curing apparatus for an optical connector according to the present invention will be described in detail with reference to the embodiment shown in the drawings.

1 is a perspective view showing a cross section of a general ferrule, Figure 2 is a perspective view showing the state of use of the main portion of the ferrule curing device for an optical connector according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention Is a perspective view showing a ferrule curing apparatus for an optical connector according to the present invention.

Referring to the drawings, the ferrule curing apparatus for an optical connector according to an embodiment of the present invention comprises a setting jig 100 and a heating means 200.

The optical connector ferrule 10 has a main body 11 configured in the shape of a cylindrical cylinder as shown in FIG. 1 and described above in the background art, and the insertion hole 12 in the longitudinal direction inside the main body 11. The through-formed, the upper end of the main body 11 is provided with a flange 14 formed with an adhesive injection hole 15 therein to inject the thermosetting adhesive 13 into the insertion hole 12 of the main body 11 The process is configured to be smooth.

The setting jig 100 is configured to support and set the ferrule 10 and the optical fiber 17 is provided with a support plate 110 and the optical fiber holder 120.

 The support plate 110 is formed in a flat plate shape, the ferrule 10 is to enable the injection of the thermosetting adhesive 13 into the inside of the ferrule 10 in a state in which the plurality of ferrules (10) are standing vertically. A plurality of ferrule insertion grooves 111 are inserted and supported in the vertical direction.

In addition, the support plate 110 is provided with a hinge axis 112 that can be bent in the center so that both sides can be disposed to be inclined downward with respect to the center, as shown in the state A of Figure 2 the support plate 110 ) And the thermosetting adhesive 13 is injected into the ferrule 10 in a state where the flattened state is flattened, and then the support plate 110 moves the hinge shaft 112 as shown in the state B of FIG. 2. 3, after the optical fiber 17 is inserted into the ferrule 10 and the optical fiber 17 is inserted into the ferrule 10 in a state where both sides are bent downwardly toward the center. As described above, the support plate 110 is configured to be seated on the heating means 200 in a state in which the support plate 110 is flattened around the hinge shaft 112.

That is, in the ferrule curing apparatus for optical connectors according to the prior art, the ferrule 10 is fixed by a human hand, and then the thermosetting adhesive 13 is injected into the ferrule 10, and in a state of fixing by a human hand. By inserting the optical fiber 17 into the ferrule 10, the thermosetting adhesive 13 flowed out from the ferrule 10 is buried in the hand of the person, and the thermosetting adhesive 13 in the hand of the person The ferrule 10 has a problem that the surface of the ferrule 10 is contaminated. However, in the present invention, the ferrule 10 is supported by the support plate 110 by providing the support plate 110 that can be bent around the hinge shaft 112. It is possible to inject the thermosetting adhesive 13, insert the optical fiber 17, and rest on the heating means 200 as it is supported by the state as a result, so that the ferrule 10 In the step of curing the ferrule 10 is not to contact the human hand is to be able to block the source of contamination.

 The optical fiber holder 120 is a structure that is erected on the support plate 110 so that the stop portion of the optical fiber 17 is supported in a state spaced apart from the support plate 110.

That is, the optical fiber holder 120 is the state of the optical fiber (11) in the state in which the support plate 110 is bent downwardly inclined with respect to the hinge axis 112 in the B state of FIG. When the 17 is inserted, the ferrule 10 supports the stop portion of the optical fiber 17 so that the ferrule 10 does not interfere with the optical fiber 17 having a predetermined length, and the optical fiber holder 120 further supports the support plate. 3, the stopper of the optical fiber 17 is supported by being provided integrally with the stopper of the optical fiber 17 even when the setting jig 100 is seated on the heating means 200 as shown in FIG. 3. The configuration is such that it is not affected by the hot wire 220 that emits predetermined heat.

The heating means 200 is configured to heat the thermosetting adhesive 13 by applying heat to a plurality of ferrules 10 supported by the setting jig 100 while the setting jig 100 is seated. 210, a heating wire 220, and a heating control unit 230 are configured.

The table 210 has a configuration in which the setting jig 100 is seated upward. In one embodiment of the present invention, the table 210 is partitioned into a plurality of seating spaces 211 so that a plurality of the setting jig 100 can be seated. In FIG. 3, four seating spaces 211 are partitioned and formed for convenience of description, and the number of seating spaces 211 may be expanded or reduced.

The heating wire 220 is provided on the top plate of the table 210 to dissipate heat, the heating control unit 230 is configured to control the operating time and heating temperature of the heating wire 220 in one of the present invention In the embodiment, the heating wire 220 and the heating control unit 230 is provided in each of the plurality of seating spaces 211 of the table 210 independently.

That is, the table 210 constituting the heating means 200 is formed by dividing the table 210 into a plurality of seating spaces 211, and the heating wire 220 and the heating controller 230 are the plurality of seating spaces 211. Independently provided to each of the ferrule 10 can be set differently depending on the characteristics and size of the ferrule 10 operating time and heating temperature, it is possible to cure a large amount of one or more ferrules in different conditions at the same time And, by the curing method by the heating wire 220 it is possible to minimize the problems caused by the radiation heat than the curing method by the radiant heat heater.

In the above, the ferrule curing apparatus for an optical connector according to an embodiment of the present invention was described in detail. Hereinafter, the ferrule curing method for an optical connector according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. .

4 is a flowchart illustrating a ferrule curing method for an optical connector according to an embodiment of the present invention.

Referring to the drawings the ferrule curing method for an optical connector according to an embodiment of the present invention is an adhesive injection step (S100) and a process corresponding to the ferrule curing step (S20) in the optical connector manufacturing process according to the prior art shown in FIG. It is configured to include an optical fiber insertion step (S200), and a thermal curing step (300).

In the adhesive injection step S100, the thermosetting adhesive 13 is injected into the ferrule 10 in a state in which the plurality of ferrules 10 are vertically placed in the ferrule insertion groove 111 of the support plate 110. It's a step.

The optical fiber insertion step (S200) is a step of inserting the optical fiber 17 into the ferrule 10 in a state in which the support plate 110 is bent at both sides downwardly inclined about the hinge axis 112.

The thermosetting step (S300) seats the setting jig 100 to the heating means 200 in a state where the support plate 110 is flattened, a plurality of ferrules (supported by the setting jig 100) 10) heat-curing the thermosetting adhesive 13 by applying heat.

In the prior art, the ferrule 10 is fixed by the hand of the person in the adhesive injection step (S100) and the optical fiber insertion step (S200), and then the thermosetting adhesive 13 is injected into the ferrule 10, and the person By inserting the optical fiber 17 into the ferrule 10 in the fixed state by the hand of the thermosetting adhesive 13 flowed out from the ferrule 10 is buried in the hand of the person, the The surface of the ferrule 10 was contaminated by the thermosetting adhesive 13, but in the present invention, the adhesive injection step (S100) and the optical fiber insertion step (S200) are also bent around the hinge axis 112. By using the support plate 110 as much as possible, the thermosetting adhesive 13 is injected as it is while the ferrule 10 is supported by the support plate 110, the optical fiber 17 is inserted, and the Since it is possible to be seated on the heating means 200, as a result, in the process of curing the ferrule 10, the human hand is not in contact with the ferrule 10, thereby being able to block the source of contamination.

Therefore, in the optical connector manufacturing process according to the prior art, the ferrule cleaning process (S50) of scraping the surface of the contaminated ferrule with a knife and wiping with ethanol was required as necessary, but the ferrule curing method for the optical connector according to the present invention. In the case of performing the process of curing the ferrule 10, there is no need for the process of cleaning the ferrule, thereby saving manpower and time due to the process simplification.

The ferrule curing apparatus and method for the optical connector described above and shown in the drawings are only one embodiment for carrying out the invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments which have been improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

10 ferrules
13 thermosetting adhesive
17 fiber optic
100 setting jig
110 support plate
111 Ferrule Insertion Groove
112 hinge shaft
120 Fiber Optic Cradle
200 heating means
210 tables
211 Seating Space
220 heating wire
230 Heating Control Unit

Claims (4)

The thermosetting adhesive is injected therein by applying heat to a plurality of ferrules supported by the setting jig and a setting jig in which a plurality of ferrules in which a plurality of ferrules into which an optical fiber is inserted are vertically erected are supported. In the ferrule curing apparatus for an optical connector comprising a heating means for thermal curing,
The setting jig is provided with a plate-shaped support plate having a plurality of ferrule insertion grooves in which the ferrule is inserted and supported in the vertical direction to enable the injection of the thermosetting adhesive into the ferrule while the plurality of ferrules are vertically placed. But
The support plate is provided with a hinge axis that can be bent in the center so that both sides can be inclined downward with respect to the center, and after the thermosetting adhesive is injected into the ferrule, the support plates are both sides about the hinge axis. When the optical fiber is inserted into the ferrule in the state bent downwardly inclined, the optical fiber is inserted into the ferrule, and then the support plate is seated on the heating means in a state that the support plate is unfolded about the hinge axis. A ferrule curing device for an optical connector. The method of claim 1,
The setting jig, the ferrule curing apparatus for an optical connector, characterized in that the optical fiber support is further provided on the support plate so that the interruption of the optical fiber is supported in a state spaced apart from the support plate. The method according to claim 1 or 2,
The heating means includes a table on which the setting jig is seated upward, a heating wire provided on the upper plate of the table, and a heating control unit controlling an operating time and a heating temperature of the heating wire,
The table is partitioned into a plurality of seating spaces so that a plurality of the setting jig can be seated,
The heating wire and the heating control unit, the ferrule curing apparatus for an optical connector, characterized in that provided independently of each of the plurality of seating space of the table. In the ferrule hardening method for an optical connector using the ferrule hardening apparatus for optical connectors of Claim 1,
An adhesive injection step of injecting a thermosetting adhesive into the ferrule in a state in which the plurality of ferrules are vertically placed in the ferrule insertion groove of the support plate;
An optical fiber insertion step of inserting an optical fiber into the ferrule in a state in which the support plate is bent downwardly with respect to the hinge axis;
A thermosetting step of seating the setting jig on the heating means in a state where the support plate is flat and applying heat to a plurality of ferrules supported by the setting jig to thermally harden the thermosetting adhesive; Ferrule curing method for an optical connector comprising a.

Images