KR100669947B1 - Optical connector for assembling in the field - Google Patents

Abstract

An optical connector assembled in the field is provided to improve working efficiency and price competitiveness by reducing the number of assembled elements and stably fixing optical fibers. An optical connector includes a housing(100) for enveloping and protecting components, a plug(200) movably inserted into the housing, a line aligning member(300) movably inserted into the plug, a fixing cap(400) for fixing an optical fiber inserted into the line aligning member, a spring(500) for elastically supporting the line aligning member in one direction, a fixed member(600) inserted into the plug while enveloping parts of the fixing cap and the line aligning member, and a protecting cover(700) for enveloping and sealing a free end of the fixed member. The line aligning member includes a ferrule(310) in which a line with a predetermined length is arranged in the length direction, and a flange(320) having a guide. The fixing cap has a hole for accommodating the line aligning member, and a fixing hole.

Description

Optical connector for assembling in the field}

1 is a cross-sectional view of a conventional field assembly optical connector.

Figure 2 is an exploded cross-sectional view of the field assembly optical connector shown in FIG.

3 is an explanatory view of the assembly of the main line alignment member 30 and the main line connecting member 50 shown in FIG.

Figure 4 is a cross-sectional view of the coupling of the field assembly optical connector according to an embodiment of the present invention.

FIG. 5 is an exploded cross-sectional view of the field assembled optical connector shown in FIG. 4; FIG.

6 is an external perspective view of the main line alignment member 300 and the main line fixing cap 500 shown in FIG.

7 is an external perspective view of the main line alignment member 300 and the main line fixing cap 400 shown in FIG.

FIG. 8 is a view illustrating an X-X 'cross section of the main line alignment member 300 shown in FIG.

******* Brief description of the main parts of the drawing *******

100: housing, 200: plug,

300: alignment arrangement member, 400: alignment fixing cap,

500: spring, 600: fixing member,

700: protective cover.

The present invention relates to an optical connector, and more particularly, to a field assembly optical connector that allows a user to easily connect the optical fiber in the field.

Recently, an FTTH (Fiber To The Home) system has been proposed that can provide various information including broadcasting and communication by connecting optical cables to homes and is being applied to new apartments.

In the FTTH system, the optical cable is connected to the wall of the home, and the end thereof is finished in the form of a connector and installed on the wall. In this case, the FTTH installer sets the length of the optical cable to be several meters longer than the actual length so that the length of the optical cable can be sufficiently connected to the home. Then, the installation site The construction that is, after one section by the length necessary for the optical cable in the premises to assemble the optical connector on its end to connect it to the optical adapter is installed in the premises wall.

1 and 2 are for explaining the structure of the field assembly optical connector described above, Figure 1 is a cross-sectional view of the conventional field assembly optical connector and Figure 2 is a separate cross-sectional view.

As shown, the conventional field-assembled optical connector has a housing 10 surrounding and protecting components, a plug 20 movably inserted into and fixed to the housing 10, and a seat 20 movably inserted into the plug 20. The main member aligning member 30 is inserted into and fixed to the fixing member 50 and the fixing member 50 which are inserted and fixed to the plug 20 while surrounding a portion of the main alignment member 30 protruding into the plug 20. It is composed of a spring 40 for supporting the main alignment member 30 in one direction, and a protective cover 60 for wrapping and sealing the free end of the fixing member 50.

Here, the "main line" (A) refers to the optical fiber consisting of only the core and the cladding is removed from the normal optical fiber.

In addition, the main line alignment member 30 is inserted into the ferrule through-hole 21 of the plug 20 and the ferrule 31 in which the main line insertion hole 31a into which the main line A is inserted is formed along the longitudinal direction. , The main line insertion hole 32a is formed along the longitudinal direction while being coupled with the ferrule 31 and the guide portion 32b of the tubular shape is formed to protrude from the free end thereof in the flange receiving hole 22 of the plug 20. A flange 32 fitted and seated; It consists of the C-type clip 33 which meshes and fixes the outer side of the guide part 32b of the flange 32 in a clip form.

At this time, the guide portion 32b of the flange 32 is separated into first to third bodies 32b1, 32b2, and 32b3, and a fitting protrusion 32c for fitting with the spring 40 is formed at an end thereof. It is configured. And, as shown in Figure 2, the guide portion 32b is fixed to the clip by the C-type clip 33 in the assembled state so that the main line receiving groove (32d) is formed. Here, the main line receiving groove 32d is set to have a diameter equal to or slightly smaller than the diameter of the main line A, and the guide portion 32b and the C-type clip 33 have a hard material, for example, the guide portion 32b. ) Is made of plastic and the C-type clip 33 is made of metal. Therefore, the installer uses a separate device for spaced apart a certain distance from the opening of the main accommodation receiving groove (32d) in order to insert the main boat into the main accommodation receiving groove (32d) of the guide portion (32b) in the field. That is, the installer inserts the "V" shaped protrusion 91 provided in the separate expansion device 90 to the main line receiving groove 32d through the opening of the guide part 32b, as shown in FIG. The main line is inserted into the main line accommodating groove 32d in a state where the diameter r1 of the main line accommodating groove 32d is extended (r2). When the installer detects that one end of the main line is in contact with the main line of the main line alignment member 30, the installer separates the expansion device 90 from the main line receiving groove 32d to maintain the main line fixed to the main line alignment member 30. do. FIG. 3A shows a state before the expansion device 90 is inserted into the main line accommodation groove 32d, and FIG. 3B shows a state where the expansion device 90 is inserted into the main line accommodation groove 32d.

In other words, the conventional field connection optical connector requires a separate device for the main line insertion into the main line connecting member 30 for guiding and fixing the main line. This, in turn, increases the component cost of the optical connector, which not only increases the cost of the optical connector, but also increases the working time, thereby reducing the work efficiency.

Accordingly, the present invention has been made in view of the above circumstances, and by reducing the number of assembly parts, it is possible to stably provide a fixing function for the optical fiber, thereby improving the cost competitiveness and work efficiency of the device in the field connection The technical purpose is to provide an optical connector for.

Optical connector for field connection according to the present invention for achieving the above object is a housing 100 for wrapping and protecting the components, the plug 200 is inserted and fixed to be movable to the housing 100, plug 200 The main line alignment member 300, which is movablely seated and seated, surrounds and seals a portion of the main line alignment member 300 to fix and maintain the optical fiber S inserted in the main line alignment member 300, and the main line fixing cap 400 and the main line. Inserted into the plug 200 while surrounding the portion of the spring 500, the caster fixing cap 400 and the caster alignment member 300 is seated and inserted into the fixed cap 400 to support the caster alignment member 300 in one direction. It consists of a fixing member 600 is fixed, and a protective cover 700 for wrapping and sealing the free end of the fixing member 600, the main line alignment member 300 is a ferrule having a predetermined length of the main line is disposed along the longitudinal direction 310 and one end is coupled with the ferrule 310 while the main insertion hole 32 1) is in communication with the main line insertion hole 311 of the ferrule 310, the free end thereof in the form of a tube having a predetermined length in the longitudinal direction of the main line insertion hole 321 is formed with a fixed ring on its outer peripheral surface 325 is composed of a flange 320 having a guide portion 323 is configured to be coupled, the caster fixing cap 400 is the receiving hole 410 for accommodating the caster alignment member 300 is a length It is formed in communication with each other, the inner circumferential surface is characterized in that the fixing groove 420 for engaging and fixing the fixing ring 325 of the guide portion 323 is formed.

In addition, the outer circumferential surface of the guide portion 323 is composed of a plurality of fixing rings (325,326) of different diameters, the inner circumferential surface of the main line fixing cap 400 a plurality of fixing grooves (corresponding to the fixing rings (325,326) ( 420 and 430 are formed and configured.

In addition, the main line insertion hole 321 of the flange 320 is characterized in that the rhombus shape.

In addition, the guide portion 323 of the flange 320 has a semicircular cross section and has a shape in which the first and second guides 323a and 323b having a predetermined length are separated, and the first and second guides ( 323a and 323b are characterized in that the insertion groove for inserting the main line (A) is formed on the opposite surface.

That is, according to the above, it is possible to stably maintain the optical fiber to the alignment alignment member by a simple method of detachably fitting the alignment fixing cap to the alignment alignment member, thereby reducing the number of assembly parts and shortening the assembly time. It is possible to provide field-mounted optical connectors.

 In other words, the optical connector for field assembly according to the present invention improves the optical connector assembly efficiency while improving the price competitiveness compared to the conventional optical connector.

Hereinafter, embodiments according to the present invention will be described.

First, in the present embodiment, the main lines A and B refer to an optical fiber having a core and a clad only in a state in which the coating is removed from the optical fiber S. FIG.

4 and 5 are views for explaining the structure of the field connector for the field connection according to the first embodiment of the present invention, Figure 4 is a cross-sectional view of the coupling of the optical connector for the field connection, Figure 5 is a cross-sectional view.

4 and 5, the optical connector for field connection according to the present invention includes a housing 100 which surrounds and protects components, a plug 200 that is movably inserted and fixed to the housing 100, and a plug ( A main line fixing cap 400 for holding and holding a main line A inserted into the main line alignment member 300 by sealing and sealing a portion of the main line alignment member 300 and the main line alignment member 300 that are inserted and seated to be moved to the 200. ), The host alignment member 300 and the host member fixing cap 500 are wrapped around the stationary member 600 to be inserted into the plug 200 and inserted into and fixed to the stationary member 600. It is composed of a spring 500 for supporting the ball and a protective cover 700 to seal the free end of the fixing member 600.

Here, the housing 100 protrudes inwardly from the inner circumferential surface of the receiving hole 110 and the guide hole 120 and the inner circumferential surface of the receiving hole 110 which are opened outward from the inner circumferential surface of the receiving hole 110. The locking step 130 is formed is configured.

The plug 200 includes a fixing member receiving hole 210, a flange receiving hole 220 having a diameter smaller than that of the fixing member receiving hole 210, a ferrule through hole 230 having a diameter smaller than the flange receiving hole 220, and A fastening hole 240 into which an optical outlet (not shown) is fitted is formed to communicate along the length direction, and an anti-rotation groove 250 is formed on an inner circumferential surface of the flange receiving hole 220, and a fixing member receiving hole 210 is provided. The fixing hole 260 is formed in the inner surface of the housing), while the locking jaw 270 is inserted into the receiving hole 110 of the housing 100 to face the locking jaw 130 thereof, and the housing 100 is accommodated therein. A fixing protrusion 280 is formed on the outer circumferential surface of the guide hole 120 so as to be movable and inserted into the guide hole 120 through the hole 110.

The main alignment member 300 is configured by combining the ferrule 310 and the flange 320. Ferrule 310 is inserted into the ferrule through-hole 230 of the plug 200 is inserted into the ferrule through-hole 230 of the plug 200 is inserted into the main line insertion hole 311 is formed to penetrate along the longitudinal direction fastening hole 240 and It is configured to protrude a predetermined length out of the housing 100. The flange 320 communicates with the main line insertion hole 311 of the ferrule 310 such that the main line B inserted into the main line insertion hole 311 of the ferrule 310 is the main line insertion hole 321 of the flange 320. Inserted to a certain position of the rotational projection 322 is formed on the outer circumferential surface of the plug 200 is fitted into the rotation preventing groove 250, the guide portion 323 of the tubular shape having a predetermined length at its free end. Is formed to protrude and is fitted into the flange receiving hole 220 of the plug 200 is configured to be seated. Here, the guide portion 323 may be configured in a separated form. That is, the guide part 323 has a semicircular cross section and the first and second guides 323a and 323b having a predetermined length are separated as shown in FIG. 6. In addition, fitting protrusions 324 for fitting the spring 500 are formed at free ends of the first guide 323a and the second guide 323b, and the first and second guides 323a and 323b. ) Is formed such that the main line insertion groove 321 is formed in the longitudinal direction in which the main line (B) is inserted. At this time, the main line inserting groove 321 is circular or as shown in Figure 8a to form a main line inserting groove 321 formed in the first and second guides (323a, 323b) in a triangular shape, the first and the first 2 When the guides 323a and 323b are combined, a rhombic main line insertion groove 321 is formed, or as shown in FIG. 8B, the second guide 323b has a triangular main line insertion groove 321 formed therein. The first guide 323a may be formed in a triangular shape having a planar shape. The first and second guides 323a and 323b may be formed of the first guide 323a and the second guide 323b by the main line A while the main line A is disposed in the main line insertion groove 321. The opposing surfaces of are arranged to be spaced apart by a predetermined interval. That is, as shown in Fig. 7, predetermined openings are formed on both sides of the main line (A). In addition, the first and second guides 323a and 323b have a predetermined groove 323b1 and a corresponding protrusion 323a1 corresponding to the opposite surface, as shown in FIG. It is composed. In addition, the main line insertion grooves 321 formed in the first and second guides 323a and 323b may prevent slippage when the main line is coupled to the main line insertion groove 321 as shown in FIG. 6. A portion of the center portion of the main line insertion groove 321 may be configured to have a larger diameter than the main line. In addition, the outer periphery of the guide 323 is configured to be integrally coupled to the first and second fixing rings (325, 326) engaging the first and second fitting grooves (420, 430) of the fixing cap (400). Here, the first fixing ring 325 is located at the front end coupled with the ferrule 310 and the second fixing ring 326 has a diameter smaller than the first fixing ring 325 while the first fixing ring 325 It is located at the end of. In addition, a plurality of first fixing rings 325 may be formed, for example, two to be spaced apart from each other by a predetermined distance.

As shown in FIG. 7, the length of the main line fixing cap 400 is set so as to surround only a predetermined length of the flange 320 of the main line alignment member 300, and the main line insertion hole 410 and the first and And first and second fixing grooves 420 and 430 engaged with the second fixing rings 325 and 326. Here, the main line fixing cap 400 is set to be the same or smaller than the diameter of the guide portion 323 in the state where the main line (A) is arranged to closely couple the first and second guides (323a, 323b). It is configured to firmly fix the main line (A) inserted into the main line insertion hole 321 of the guide portion (323).

The spring 500 is coupled to the fitting protrusion 324 of the flange 320, the guide portion 323 of the main alignment member 300 is seated in the receiving hole 620 of the fixing member 600, the main alignment member The flange 320 of the 300 is composed of a coil spring to support the carbon in one direction.

The fixing member 600 is fixed to be engaged with the optical fiber receiving hole 610, the receiving hole 620 having a diameter larger than the optical fiber receiving hole 610, the fixing hole 260 of the plug 200. The protrusion 630 and a fixing groove 640 into which the fixing protrusion 712 of the protective cover 700 is inserted and fixed are formed on the outer circumferential surface thereof, and the plug 200 is wrapped around the main line fixing cap 400 and the guide part 323. It is configured to engage the fixing member receiving hole 210 of the).

The protective cover 700 has an accommodating portion 710 having an accommodating hole 711 formed on an inner surface thereof and having a fixing protrusion 712 engaged with the fixing groove 630 of the fixing member 600 at a free end thereof. , Formed with a bent portion 720 in which a receiving hole 721 penetrating through the receiving hole 711 of the receiving portion 710 is formed and a bending guide groove 722 is opened to the outside from the inner circumferential surface of the receiving hole 721. do.

Next, the assembly process of the field assembly optical connector having the above-described configuration will be described.

First, a manufacturer of the main line alignment member 300 cuts the main line (B) consisting of only the core and the cladding to a predetermined length. That is, one end of the main line (B) forms the same plane as the cross section of the ferrule 310 and the other end is cut to a length that becomes a position protruding a predetermined distance from the ferrule 310. Subsequently, the cut main line B is inserted into the main line insertion hole 311 of the ferrule 310. The ferrule 310 and the flange 320 are coupled to each other so that the main line B protruding from the ferrule 310 is disposed up to a predetermined position of the main line insertion hole 321 of the flange 320. At this time, the flange 320 is in a state in which the second guide 323b is separated. In addition, the ferrule 310 and the flange 320 may be coupled in various ways, such as by pressing the ferrule 310 into the flange 320 or by using an adhesive material such as an epoxy resin.

On the other hand, the installer cuts the optical fiber (S) introduced into the house at the required position, and peels off the jacket of the optical fiber (S) of the length, more specifically, the length disposed in the optical connector, consisting of only the core and the cladding. Make a main line (A).

Subsequently, the installer sequentially installs the optical fiber, that is, the optical fiber S having the tip portion as the main line A in the protective cover 700, the fixing member 600, the spring 500, and the main line fixing cap 400. Insert it through.

In the above state, the installer places the optical fiber S in the first guide so that the front end surface of the main line A is brought into contact with the end surface of the main line B disposed in the main guide insertion slot of the first guide 323a of the flange 320. 323a) the main line (A) and the main line (B) are coupled to the main line insertion groove (321).

Thereafter, the installer arranges the second guide 323b so as to correspond to the first guide 323a in the state in which the main line A is disposed, and the outer circumferential surfaces of the first and second guides 323a and 323b in this state are arranged in the main line. The main line fixing cap 400 is pushed toward the main line alignment member 300 so as to be inserted into the receiving hole 410 of the fixed cap 400. At this time, the first and second guide parts 323a and 323b of the main line alignment member 300 are tightly coupled by the main line fixing cap 400 to tighten the main line insertion groove 321 of the flange 320.

Subsequently, the installer arranges the spring 500 on the fitting protrusion 324 of the main alignment member 300 and arranges the plug 200 at the tip of the main alignment member 300, and then arranges the main assembly with the plug 200. The fixing member 600 disposed at the rear end of the member 300 is fastened. Accordingly, the main line alignment member 300 disposed between the plug 200 and the fixing member 600 is elastically supported in one direction in the fixing member 600 by the spring 500.

Finally, the installer fastens the protective cover 700 to the rear end of the fixing member 600, and then inserts and fixes the plug 200 in the housing 100, thereby completing the assembly of the optical connector in the field.

That is, according to the above embodiment, the optical fiber can be stably fixed to the main line alignment member 300 in a simple manner by inserting the main line fixing cap 400 into the main line alignment member 300 in a detachable manner, thereby increasing the number of assembly parts. In addition to reducing the assembly time, it is possible to provide field-mountable optical connectors.

 Therefore, the price competitiveness of the optical connector can be improved, as well as the optical connector assembly efficiency can be improved.

In addition, the present invention is not limited to the above embodiments, and various modifications can be made without departing from the technical spirit of the present invention.

As described above, according to the present invention, the optical fiber can be stably held and fixed to the alignment alignment member by a simple method of inserting the alignment fixing cap into the alignment alignment member detachably, thereby reducing the number of assembly parts and shortening the assembly time. It is possible to provide field-mountable optical connectors that can be made.

 In other words, it is possible to improve the price competitiveness of the optical connector as well as to improve the optical connector assembly efficiency.

Claims (4)

Housing 100 for wrapping and protecting the components, the plug 200 is inserted and fixed to the housing 100, the alignment arrangement member 300, which is inserted and seated in the plug 200, the alignment arrangement member ( Wrapped around the portion of the 300 to maintain the optical fiber (S) inserted into the alignment alignment member 300 fixed to the main line fixed cap 400, inserted into the main line fixed cap 400 is seated in the main alignment line member 300 Spring 500 to support the ball shot, the fixing member 400 and the fixed member 600 is inserted and fixed to the plug 200 while wrapping a portion of the main fixed member 400 and the main alignment member 300, the free end of the fixing member 600 Consists of a protective cover 700 to surround and seal the, The main line alignment member 300 has a ferrule 310 having a main line of a predetermined length disposed in the longitudinal direction, and a main line insertion hole 321 of the main line insertion hole (321) of the ferrule 310 while one end is combined with the ferrule 310. 311), the free end thereof is formed in a tubular shape having a predetermined length in the side of the main line insertion hole 321 is formed in the longitudinal direction of the guide portion 323 is composed of a fixed ring 325 is coupled to the outer peripheral surface It consists of a flange 320 with The main line fixing cap 400 is formed so that the receiving hole 410 for accommodating the main line alignment member 300 in communication along the longitudinal direction, the inner circumferential surface of the fixing ring 325 of the guide portion 323 On-site assembly type optical connector, characterized in that the fixing groove 420 is formed for the engagement. The method of claim 1, The outer peripheral surface of the guide portion 323 is composed of a plurality of fixing rings (325, 326) of different diameters are combined, Field assembly type optical connector, characterized in that a plurality of fixing grooves (420,430) is formed on the inner circumferential surface of the main line fixing cap 400 is formed to correspond to the fixing ring (325,326). The method of claim 1, The main assembly insertion hole 321 of the flange 320 is a field assembly type optical connector, characterized in that the rhombus shape. The method according to any one of claims 1 to 3, The guide part 323 of the flange 320 has a semicircular cross section and has a form in which the first and second guides 323a and 323b having a predetermined length are separated from each other. The first and second guides (323a, 323b) is a field assembly type optical connector, characterized in that the insertion groove for inserting the main line (A) is formed on the opposite surface.

Images