KR102578372B1 - Field-assembled fiber optic connector of waterproof type - Google Patents

Abstract

The present invention relates to a field-assembled optical connector for outdoor use. More specifically, by assembling the optical fiber connector according to the field installation length by connecting the connector and fusing the optical fiber in the field, unnecessary waste of optical fiber cable can be prevented, and unnecessary waste of optical fiber cable can be prevented. This makes it possible to manufacture a waterproof type fusion connector that can be used outside by applying sealing members to the plug and housing, plug and protection cap, screw cap and protection cap, which are the assembly parts of the connector. This relates to field-assembled optical connectors.

Description

Outdoor field-assembled optical connector {Field-assembled fiber optic connector of waterproof type}

The present invention is an outdoor field site that adjusts the length of the optical fiber cable according to the installation length in the field, allowing fusion of optical fibers and cable assembly, and applying sealing members to multiple parts to provide a waterproof effect when installed outside. This relates to assembled optical connectors.

Recently, the FTTH (Fiber To The Home) system, which connects optical cables to ordinary homes to provide various information including broadcasting and communication, has been proposed and is being installed in apartments and houses. In the FTTH system, the optical cable is connected to, for example, a home, and the end is finished in the form of a connector and installed. At this time, considering the connection between optical cables, the FTTH worker sets the optical cable to be several meters longer than the actual length and introduces it into the home. Then, workers cut the optical cable to the required length within the home, which is the construction site, assemble an optical connector at the end, connect it to an optical adapter, and install it within the home.

Meanwhile, a general optical fiber is composed of a core layer and a clad layer, the diameter of the clad is formed to be approximately 125㎛, and the outside of this optical fiber is covered with a coating layer with a thickness of approximately 250㎛ or 900㎛ (hereinafter, this is referred to as a core wire). ) A shell is covered on the outside of the coating layer (hereinafter referred to as a cord line)

The outside of the core wire is covered with a jacket made of, for example, PVC, etc., through a cushioning material, such as Kevlar (aramid yarn), to enhance tensile strength.

The optical fiber is capable of transmitting and receiving desired signals through light transmitted through the core layer. Therefore, when constructing an optical cable, it is necessary to accurately align and connect optical fibers to minimize light transmission loss.

As described above, various technologies, such as field-assembled optical connectors, are being developed to accurately align and connect optical fibers in the field.

However, in the case of these various existing field-assembled optical connectors, there was a problem that a lot of work time was required due to the large number of parts, and also problems such as cases where workers assembled incorrectly due to the large number of parts also occurred.

In addition, as conventionally, the connector part is manufactured and supplied as an integrated piece connected to the optical fiber at the factory, so when using these optical fiber cables in the field, many parts of the cable are unused and discarded as they are installed according to the installation length at the site. There was a problem of increased installation costs.

In addition, since waterproofing is required for optical fiber connectors installed externally, there is a demand for the development of optical fiber connectors that can be assembled on-site while taking these effects into consideration.

Republic of Korea Domestic Patent No. 10-610148 (registered on August 1, 2006) Republic of Korea Domestic Patent Publication No. 10-2011-0050335 (published on May 13, 2011)

The present invention was created to solve the above problems, and the purpose of the present invention is not to use an existing optical fiber connector manufactured in a factory with a connector attached, but to allow workers to install it at the site according to the installation length at the site. By connecting connectors and allowing the use of optical fibers, unnecessary cable waste can be prevented, and a plug is provided to interconnect the housing and the protective cap. In order to solve the problem of water seeping in due to this, the assembly part The aim is to provide an outdoor field-assembled optical connector that has a waterproof effect that can be used outdoors by configuring a structure in which sealing members are applied to various parts.

Other objects and advantages of the present invention will be explained below and will be learned by practice of the present invention. Additionally, the objects and advantages of the present invention can be realized by the means and combinations indicated in the claims.

The present invention, as a means to solve the above problems, provides a plug that connects the housing and the protective cap to each other, or connects the housing and the adapter to each other; A plug frame accommodating the ferrule in which the optical fiber is assembled is assembled between the inside of the plug and the frame, the position of the ferrule is determined, and the connection part and connection protection member are placed inside the frame to protect the connection part, and an optical cable (A) is attached to the frame. is clamped by pressing with a clamp ring, the plug is provided with first and second sealing members (R1, R2), and the housing and the optical cable (A) are provided with a sealing tube to have waterproof characteristics that prevent water from penetrating into the connector. and; When the housing and the protective cap are interconnected, the first sealing member (R1) is formed on the rear outer periphery of the plug in contact with the housing to seal the connection portion between the plug and the housing, and the second sealing member ( R2) is formed on the front outer periphery of the plug in contact with the protective cap to seal the connection portion between the plug and the protective cap, thereby enabling water resistance; When the protective cap is removed and the housing and the adapter are interconnected, the first sealing member (R1) is formed on the rear outer periphery of the plug in contact with the housing to seal the connection portion between the plug and the housing, The second sealing member (R2) is formed on the front outer periphery of the plug in contact with the adapter to seal the connection portion between the plug and the adapter, thereby enabling water resistance; It relates to a field-assembled optical connector for outdoor use in which a locking groove capable of engaging and disengaging the adapter is provided on the outside of the plug so that the connector can be fastened to the adapter when inserted into the adapter.

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As seen above, the present invention does not use optical cables with connectors at the factory, but rather installs optical connectors and fuse optical fibers at the site by workers without disconnecting the optical cables, thus preventing unnecessary waste of cables. It has the effect of preventing elements that hinder aesthetics due to wrapped women's clothing.

In addition, the present invention provides a plug that interconnects the housing and the protective cap, and in order to solve the problem of water seeping in, a plurality of sealing members are applied to the connection parts that make up the waterproof fusion connector, so that it can be installed externally. This has the effect of making it possible to assemble a connector that also has a waterproof effect.

Figure 1 is an exploded perspective view of an embodiment of an outdoor field-assembled optical connector according to the present invention.
2 to 4 are cross-sectional views of an embodiment of an outdoor field-assembled optical connector according to the present invention.
5 to 7 are perspective views of an embodiment of an outdoor field-assembled optical connector according to the present invention.
Figure 8 is a cross-sectional view of an embodiment of an adapter and a coupling locker according to the present invention.
Figure 9 is an operational diagram showing an embodiment of the attachment and detachment structure of the adapter according to the present invention.
Figure 10 is a diagram showing an embodiment of an outdoor field-assembled optical connector equipped with an adapter according to the present invention.

Before describing the various embodiments of the present invention in detail, it will be appreciated that its application is not limited to the details of the configuration and arrangement of components described in the following detailed description or shown in the drawings. The invention may be embodied and practiced in different embodiments and carried out in various ways. Additionally, device or element orientation (e.g. “front”, “back”, “up”, “down”, “top”, “bottom”). The expressions and predicates used herein with respect to terms such as ", "left", "right", "lateral", etc. are merely used to simplify the description of the invention and related devices. Alternatively, you may notice that it does not simply indicate or imply that an element should have a particular orientation. Additionally, terms such as “first,” “second,” and the like are used herein and in the appended claims for purposes of description and are not intended to indicate or imply relative importance or intent.

The present invention has the following features to achieve the above object.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Prior to this, the terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor should appropriately use the concept of terms to explain his or her invention in the best way. It must be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle of definability.

Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention, so at the time of filing this application, various alternatives are available to replace them. It should be understood that equivalents and variations may exist.

Embodiments of the present invention
The housing 50 and the protective cap 70 are interconnected, or the housing 50 and the
Provide a plug 40 that interconnects the adapter 100;
A plug frame 22 accommodating the ferrule 23 on which the optical fiber B is assembled is assembled between the inside of the plug 40 and the frame 10, the position of the ferrule is determined, and a connection part is formed inside the frame 10. The connection protection member 30 is positioned to protect the connection portion, and the optical cable A is clamped to the frame 10 by pressing it with the clamp ring 11, and the first and second sealing members (R1) are attached to the plug 40. , R2), and a sealing tube 80 is provided on the housing 50 and the optical cable A to have waterproof characteristics that prevent water from penetrating into the connector;
In the case of interconnecting the housing 50 and the protective cap 70,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50,
The screw cap 60 is installed on the outer periphery of the connection area between the plug 40 and the housing 50, and a thread is formed on the front inner periphery of the screw cap 60, so that it can be attached and detached from the protective cap 70. , the first sealing member (R1) is formed within the rear width range of the screw cap (60);
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the protective cap 70 to seal the connection portion between the plug 40 and the protective cap 70, making it waterproof. So and so;
When removing the protective cap 70 and connecting the housing 50 and the adapter 100 to each other,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50, and the first sealing member (R1) is formed within the rear width range of the screw cap 60;
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the adapter 100 to seal the connection portion between the plug 40 and the adapter 100, thereby making it waterproof. ;
A locking groove 42 capable of fastening and disengaging the adapter 100 is provided on the outside of the plug 40 so that the connector can be fastened to the adapter 100 when inserted into the adapter 100. This relates to field-assembled optical connectors.

In addition, another embodiment of the present invention,
The housing 50 and the protective cap 70 are interconnected, or the housing 50 and the
Provide a plug 40 that interconnects the adapter 100;
A plug frame 22 accommodating the ferrule 23 on which the optical fiber B is assembled is assembled between the inside of the plug 40 and the frame 10 to determine the position of the ferrule, and an optical cable ( A) is clamped, first and second sealing members (R1, R2) are provided on the plug (40), and a sealing tube (80) is provided on the housing (50) and the optical cable (A) to prevent water from entering the connector. It has waterproof properties that do not penetrate,
In the case of interconnecting the housing 50 and the protective cap 70,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50,
The screw cap 60 is installed on the outer periphery of the connection area between the plug 40 and the housing 50, and a thread is formed on the front inner periphery of the screw cap 60, so that it can be attached and detached from the protective cap 70. , the first sealing member (R1) is formed within the rear width range of the screw cap (60);
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the protective cap 70 to seal the connection portion between the plug 40 and the protective cap 70, making it waterproof. So and so;
When removing the protective cap 70 and connecting the housing 50 and the adapter 100 to each other,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50, and the first sealing member (R1) is formed within the rear width range of the screw cap 60;
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the adapter 100 to seal the connection portion between the plug 40 and the adapter 100, thereby making it waterproof. ;
A locking groove 42 capable of fastening and disengaging the adapter 100 is provided on the outside of the plug 40 so that the connector can be fastened to the adapter 100 when inserted into the adapter 100. This relates to field-assembled optical connectors.
In addition, the present invention
The ferrule 23 on which the optical fiber B is assembled and the plug frame 22 containing the spring are integrated into a subassembly 20.
In addition, the present invention
The connection protection member 30 is made of a heat shrink sleeve, an adhesive protection member, or a mechanical connector.
In addition, the present invention
The optical fiber (B) is provided by previously stripping and cutting the coating at the factory.
In addition, the present invention
The optical fiber (B) is stripped of its covering, cut, and connected at the site.
In addition, the present invention
The clamping method uses a clamp ring (11) and is made of stainless steel or aluminum.
Additionally, the present invention uses adhesive as a clamping method.

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Hereinafter, an outdoor field-assembled optical connector according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 10.

The outdoor field-assembled optical connector according to the present invention allows fusing the optical fiber (B) and assembling the optical fiber connector while adjusting the connection length of the optical fiber (B) according to the installation length in the field. Nos. 1, 2, and 3 The sealing members (R1, R2, R3) (O-Ring) enable waterproofing of the optical fiber connector installed externally, and include the frame (10) and the sub-assembly (20) (Sub-Ass'y). , connection protection member (30) (Protection Sleeve), plug (40) (Plug), housing (50) (Housing), screw cap (60) (Screw Cap), protection cap (70) (Cap), sealing tube ( It consists of 80) (Sealing Tube) and boot (90).

The frame 10 has a tubular shape into which an optical cable (A) is inserted in the longitudinal direction, and the optical cable (A) is exposed front and rear.
When using the clamp ring 11 as a clamping method for the optical cable (A) on the frame 10, a cut is formed in the longitudinal direction at the rear of the frame 10, and the outer periphery of this cut has a preset width. A ring-shaped clamp ring 11 (made of stainless steel or aluminum) is fitted, and the optical cable A inserted inside the frame 10 is pressed and assembled so that it floats.
This frame accommodates the optical fiber connection part and the connection protection member (30, a heat shrink sleeve, an adhesive protection member, or a mechanical connector is used), which is the space where the optical fiber is contacted, and fixes the optical cable to maintain tension.

Depending on the user's embodiment, adhesive may be used as a method of clamping the optical cable (A) to the frame 10.

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As one of the technical features of the present invention,
A plug 40 is added to interconnect the housing 50 and the protective cap 70,
In order to prevent water from penetrating while adding the plug 40, sealing members are formed at the front and rear ends of the plug 40.
To explain this in detail, as shown in Figures 2 and 3,
This invention
The plug 40 is provided with first and second sealing members (R1, R2), and the housing 50 and the optical cable (A) are provided with a sealing tube 80, so that water does not penetrate into the connector, making it waterproof. To have,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50,
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the protective cap 70 to seal the connection portion between the plug 40 and the protective cap 70, making it waterproof. This relates to an outdoor field-assembled optical connector that allows
At this time, the screw cap 60 is installed on the outer periphery of the connection portion between the plug 40 and the housing 50, and a thread is formed on the front inner periphery of the screw cap 60, so that the protective cap 70 and It is removable, and the first sealing member (R1) is characterized in that it is formed within the rear width range of the screw cap (60), which means that the front of the screw cap (60) is screwed with the protection cap (70). Since there is no waterproofing structure at the rear of the outer periphery of the housing 50, external water penetrates into the gap between the outer periphery of the housing 50 and the inner periphery of the screw cap 60 and enters the connector. In preparation for this case of penetration, the first sealing member (R1) is formed at a rear position of the screw cap (60).
Of course, this also applies to the case where the protective cap 70 is removed and installed on the adapter 100, which is the installation location of the connector of the present invention.
The protective cap 70 is used when transporting the optical connector to an outdoor installation location.
This is to protect the optical connector,
In addition, as another technical feature of the present invention, as shown in FIG. 9,
In order to install the optical connector in a required location, the protective cap 70 is removed and the housing 50 and the adapter 100 are connected to each other.
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50, and in this case, the screw cap (60) is installed on the outer periphery of the connection area between the plug 40 and the housing 50, and a thread is formed on the front inner periphery of the screw cap 60, so that it can be attached and detached from the protective cap 70, The first sealing member (R1) is characterized in that it is formed within the rear width range of the screw cap (60),
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the adapter 100 to seal the connection portion between the plug 40 and the adapter 100, thereby making it waterproof. ;
On the outside of the plug 40, a locking groove 42 that can function to engage and disengage the adapter 100 is provided to enable the connector to be connected to the adapter 100 when inserted into the adapter 100. .
In addition, the present invention

The sub-assembly 20 is inserted inside the plug 40 and is a part where an optical fiber (B) for fusion with the optical cable (A) penetrating the frame 10 at the work site protrudes backward.

This sub-assembly 20 is composed of a fastening structure of first and second plug frames 21 and 22 (Plug Frame), which have different shapes and can be assembled separately from each other, and an optical fiber (B) penetrates the interior in the longitudinal direction. It is exposed on both sides, but contains a ferrule (23) inside. The end face of the ferrule (23) is protected by a removable dust protection cap (24), and the rear optical fiber (B) is peeled off during fusion. It is used.

In addition, at the fusion area between the optical fiber (B) and the optical cable (A) of the sub-assembly (20), a connection protection member (30) made of a heat-shrinkable material is placed to surround the outer periphery of the peeled optical fiber (B). , The fusion area is protected through heat shrinkage.

The plug 40 is a part that is inserted into the outer periphery of the above-described sub-assembly 20 and then fastened to the front of the frame 10.

The housing 50 is a part that is fitted around the outer periphery of the above-described frame 10 and then fastened to the rear of the plug 40, and the subassembly 20 is located inside the plug 40. It is combined with the frame (10).

The screw cap 60 is installed on the outer periphery of the connection area between the plug 40 and the housing 50, and has threads on the front inner periphery, making it removable from the protective cap 70, which will be described later.
In more detail, a ring-shaped fastening protrusion 61 is formed on the inner periphery of the screw cap 60, and the plug 40 is formed on the front outer periphery of the first sealing member (R1) formed on the rear outer periphery, A ring-shaped fastening groove 41 corresponding to the fastening protrusion 61 described above is formed so that the screw cap 60 is fixed to the plug 40 and fastened to the front of the housing 50.

The protective cap 70 surrounds the outer periphery of the plug 40 to which the above-described sub-assembly 20 is coupled and is screwed to the screw cap 60, and has threads of the screw cap 60 around the rear outer periphery. Another corresponding thread is formed and serves to protect the subassembly 20 and the plug 40.

In the case of this protective cap 70, it is removable and can be connected to the housing 50 and a strap 71 (Strap) to prevent loss.

The sealing tube 80 is a tube that surrounds and seals the outer periphery of the housing 50 and the optical cable (A) at the rear of the housing 50, and the boot 90 is attached to the housing at the outer periphery of the sealing tube 80. This is the part that protects the rear end of (50).

When connecting the assembled outdoor waterproof optical connector to the adapter 100,

After removing the protective cap 70, push it in the axial direction to fasten it to the adapter 100,

This adapter 100 (Adapter) includes a locking ball 101, a coupling 102, a coupling locker 103, and a ceramic sleeve 104. Sleeve).

The locking ball 101 is a ball formed on the outer periphery of the plug 40 to correspond to the locking groove 42 (locking groove) recessed on the outer periphery of the front side.

The coupling 102 is integrally formed on the outside of the adapter 100 and can be coupled forward and backward in the axial direction on the outside of the adapter 100, and the coupling 102 is attached to the screw cap 60. This is the part where the outdoor waterproof optical connector is fastened and separated as the coupling 102 is pulled.

The coupling locker 103 is formed to protrude on the inner periphery of the coupling 102, and when the optical connector is coupled to the adapter 100, the locking ball 101 is pushed into the locking groove 42 to push the adapter ( 100) is a coupling locker 103 that is fixed to the plug 40.

The ceramic sleeve 104 is a component into which the ferrule 23 of the assembled optical connector is inserted and aligned with the ferrule of the counterpart optical connector, and is accommodated in the adapter 100.

Of course, this adapter 100 has a structure that can be attached and detached to the front of the outdoor waterproof optical connector, and when the outdoor waterproof optical connector is pulled backward after being fastened to the adapter 100, the part pressed by the coupling locker 103 is removed. As the position of the locking ball (101) is moved to a position that does not correspond to the coupling locker (103), the adapter (100) and the coupling locker (103) are separated, and the outdoor waterproof optical connector is removed from the adapter (100). You will be able to do it.

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In addition, the present invention applies multiple sealing members to have a waterproof form that can be used externally.

A first sealing member (R1) formed spaced apart from the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50;

A second sealing member (R2) formed at a distance from the front outer periphery of the plug 40 in contact with the protective cap 70 to seal the connection portion between the plug 40 and the protective cap 70;
Sealing members 80 between the housing 50 and the cable A are formed on the outer periphery of each, and contact parts for coupling (plug 40 and housing 50, plug 40 and protective cap 70, Ensure that the screw cap (60) and protective cap (70) are waterproof.

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As described above, although the present invention has been described with limited examples and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following will be understood by those skilled in the art to which the present invention pertains. Of course, various modifications and changes are possible within the scope of equivalence of the patent claims to be described.

10: Frame 11: Clamp Ring
20: Subassembly 21: First plug frame
22; Second plug frame 23: Ferrule
24: dust protection cap 30: connection protection member
40: Plug 41: Fastening groove
42: Locking groove 50: Housing
60: screw cap 61: fastening protrusion
70: Protective cap 71: Strap
80: Sealing tube 90: Boot
100: Adapter 101: Locking ball
102: Coupling 103: Coupling locker
104: Ceramic sleeve
A: optical cable B: optical fiber
R1: first sealing member R2: second sealing member

Claims (10)

The housing 50 and the protective cap 70 are interconnected, or the housing 50 and the
Provide a plug 40 that interconnects the adapter 100;
A plug frame 22 accommodating the ferrule 23 on which the optical fiber B is assembled is assembled between the inside of the plug 40 and the frame 10, the position of the ferrule is determined, and a connection part is formed inside the frame 10. The connection protection member 30 is positioned to protect the connection portion, and the optical cable A is clamped to the frame 10 by pressing it with the clamp ring 11, and the first and second sealing members (R1) are attached to the plug 40. , R2), and a sealing tube 80 is provided on the housing 50 and the optical cable A to have waterproof characteristics that prevent water from penetrating into the connector;
In the case of interconnecting the housing 50 and the protective cap 70,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50,
The screw cap 60 is installed on the outer periphery of the connection area between the plug 40 and the housing 50, and a thread is formed on the front inner periphery of the screw cap 60, so that it can be attached and detached from the protective cap 70. , the first sealing member (R1) is formed within the rear width range of the screw cap (60);
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the protective cap 70 to seal the connection portion between the plug 40 and the protective cap 70, making it waterproof. So and so;
When removing the protective cap 70 and connecting the housing 50 and the adapter 100 to each other,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50, and the first sealing member (R1) is formed within the rear width range of the screw cap 60;
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the adapter 100 to seal the connection portion between the plug 40 and the adapter 100, thereby making it waterproof. ;
On the outside of the plug 40, a locking groove 42 capable of engaging and disengaging the adapter 100 is provided so that the connector can be connected to the adapter 100 when inserted into the adapter 100. A field-assembled optical connector for outdoor use. The housing 50 and the protective cap 70 are interconnected, or the housing 50 and the
Provide a plug 40 that interconnects the adapter 100;
A plug frame 22 accommodating the ferrule 23 on which the optical fiber B is assembled is assembled between the inside of the plug 40 and the frame 10 to determine the position of the ferrule, and an optical cable ( A) is clamped, first and second sealing members (R1, R2) are provided on the plug (40), and a sealing tube (80) is provided on the housing (50) and the optical cable (A) to prevent water from entering the connector. It has waterproof properties that do not penetrate,
In the case of interconnecting the housing 50 and the protective cap 70,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50,
The screw cap 60 is installed on the outer periphery of the connection area between the plug 40 and the housing 50, and a thread is formed on the front inner periphery of the screw cap 60, so that it can be attached and detached from the protective cap 70. , the first sealing member (R1) is formed within the rear width range of the screw cap (60);
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the protective cap 70 to seal the connection portion between the plug 40 and the protective cap 70, making it waterproof. So and so;
When removing the protective cap 70 and connecting the housing 50 and the adapter 100 to each other,
The first sealing member (R1) is formed on the rear outer periphery of the plug 40 in contact with the housing 50 to seal the connection portion between the plug 40 and the housing 50, and the first sealing member (R1) is formed within the rear width range of the screw cap 60;
The second sealing member (R2) is formed on the front outer periphery of the plug 40 in contact with the adapter 100 to seal the connection portion between the plug 40 and the adapter 100, thereby making it waterproof. ;
On the outside of the plug 40, a locking groove 42 capable of engaging and disengaging the adapter 100 is provided so that the connector can be connected to the adapter 100 when inserted into the adapter 100. A field-assembled optical connector for outdoor use. According to claim 1 or 2,
An outdoor field-assembled optical connector, characterized in that the ferrule (23) on which the optical fiber (B) is assembled and the plug frame (22) containing the spring are integrated and assembled into a subassembly (20). According to clause 1,
The connection protection member 30 is an outdoor field-assembled optical connector, characterized in that it is made of a heat shrink sleeve, an adhesive protection member, or a mechanical connector. According to claim 1 or 2,
The optical fiber (B) is an outdoor field-assembled optical connector, characterized in that the coating is removed and cut in advance at the factory. According to claim 1 or 2,
The optical fiber (B) is an outdoor field-assembled optical connector, characterized in that the coating is removed at the site, cut, and connected. According to claim 1 or 2,
An outdoor field-assembled optical connector that uses a clamp ring (11) as a clamping method and is made of stainless steel or aluminum.
According to clause 2,
An outdoor field-assembled optical connector characterized by using adhesive as a clamping method.
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