KR20000015284U - Multi-core Optical Connector Protective Support Plate - Google Patents

Abstract

The present invention relates to a multi-core optical connector protective support plate, the purpose is to install a plurality of pre-connected multi-core optical connector inside to protect the connection.

The present invention is formed to accommodate a plurality of pre-connected connector is formed by forming a plurality of receiving grooves of the upper opening, the front and rear wall surface of the receiving groove is a ribbon optical fiber extending from the received connector to the outside A body having a predetermined withdrawal groove to be withdrawn, a cover that is coupled to the upper end of the body to protect the housed connector, and is positioned between the cover and the house to fix the connector housed in the house so as not to flow The note has a feature consisting of a fixing member.

According to the present invention, the multi-core optical connector protection support plate is fixed to the optical distribution panel or the terminal box to protect a plurality of pre-connected multi-core optical connector from external physical force or impact.

Description

Multi-core Optical Connector Protective Support Plate

The present invention relates to a multi-core optical connector protection support plate, and more particularly, it is installed inside the optical distribution panel or the junction box to protect a plurality of multi-core connectors safely from connection failure due to external physical force or impact. The present invention relates to a multi-core connector protective support plate.

In general, the incoming and indoor fiber optic cable is a connection between a building or a facility in a local area and a subscriber network. This refers to a cable installed in a ceiling, a wall, and a floor inside each subscriber. The demand is gradually increasing due to the spread of network and the spread of subscriber networks related to various communication services such as optical CATV.

The incoming fiber cable refers to the fiber cable that enters the optical network unit (ONU) from the track to realize the FTTH (Fiber To The Home), which draws fiber into each home, and is mainly a loose tube or ribbon. The optical fiber type of) is applied.

The ribbon-shaped optical cable has a structure in which a slot is formed inside the cable and the core wire of the optical fiber passes through the slot, and the slot-type optical cable stores the optical fiber in a strand-shaped slot that tightly connects the core wire.

In the slot type, a cable structure for accommodating hundreds of shims has been put into practical use. In addition, the slot type is composed of various types according to the cable clustering method and conditions of use, but there are an internal tensile line for arranging the central tensile line in the center of the cable, a commercial method for distributing the cable in the cable, and an external tensile line embedded in the outer shell.

The above-mentioned pull-in optical cable is mainly composed of a material having durability and flexibility because it is often exposed to the outside and often receives a lot of tensile force.

In addition, indoor optical cable is an optical cable connected to the indoor terminal from the terminal terminal box and the indoor cable distributed to the equipment in the optical distribution panel is mainly applied to the optical fiber stranding (Strading) or optical cord stretching (straighting) type of optical cable.

Since the indoor optical cable is often very narrow in space for installation, special structural properties are convenient for installation, and heat resistance is particularly required.

Therefore, the indoor cable as described above is made so that it can be connected immediately after wiring by installing a plug or a connector at the end thereof in advance.

1 is an exploded perspective view illustrating a conventional multi-core optical connector connected.

Referring to this, the multi-core optical connector 40 has a rectangular parallelepiped ferrule 42, 46 protruding from a predetermined length at its tip end, and a plurality of optical fiber cores are formed at the center of the ferrule 42, 46. It is arranged in a line and extends to its tip.

The multi-core optical connector 40 is usually provided at the ends of a plurality of ribbon optical fibers 47 branched from a ribbon type optical end cable, and at the ends of the ribbon type jumper cords 43 to be connected in the junction box or the optical distribution panel.

Looking at the state in which the pair of multi-core optical connector 40 is connected, a pair of guide pins 43 protrudes a predetermined length forward at the front end of the ferrule 42 of one of the multi-core optical connector, the corresponding multi-core light A guide hole of a predetermined depth into which the guide pin 43 is inserted is formed at the tip of the ferrule 46 of the connector 40.

Accordingly, in order to connect the pair of multi-core optical connectors 40 to each other, the guide pins 43 of one of the multi-core optical connectors are inserted into the guide holes of the corresponding multi-core optical connectors 40 and connected. The multi-core optical connector 40 is guided by the guide pin 43 and the guide hole is aligned and connected to the correct position.

In addition, a predetermined clamp 50 is formed at the rear end of the pair of multi-core optical connectors 40 to impart a predetermined elastic force so that the connection portions of the pair of multi-core optical connectors 40 connected to each other are closely connected to each other. .

The clamp 50 is provided with a pair of elastic portions 54, each of which is formed by bending a thin metal plate-like member at right angles from both ends thereof, and is coupled to support the rear end of the multi-core optical connector 40.

However, when a plurality of multi-core optical connectors 40 having such a structure are installed in a narrow space inside the optical distribution panel or junction box, when a physical force or an impact is applied to the adjacent multi-core optical connectors 40 connected thereto, the multi-core The connection state of the optical connector 40 may be poor.

The main object of the present invention is to install a plurality of multi-core optical connectors in pairs elastically tightly connected by the clamps inside a predetermined protective support plate, thereby protecting the multi-core optical connectors connected to each other. It is to provide a connector protective support plate.

1 is an exploded perspective view showing a conventional multi-core connector is connected,

Figure 2 is an exploded perspective view showing a state installed inside the multi-core connector protection support plate according to the present invention,

3 is a cross-sectional view showing a state in which the multi-core connector according to the present invention is installed in the protective support plate.

*** Explanation of symbols for main parts of drawing ***

10: body 11: receiving groove

13: drawing groove 15: flange

20: cover 21: upper surface

25: leg 30: fixing member

40: Multi-core Optical Connector

The present invention is formed to accommodate a plurality of pre-connected connector is formed by forming a plurality of receiving grooves of the upper opening, the front and rear wall surface of the receiving groove is a ribbon optical fiber extending from the received connector to the outside A body having a predetermined withdrawal groove to be withdrawn, a cover that is coupled to the upper end of the body to protect the housed connector, and is positioned between the cover and the house to fix the connector housed in the house so as not to flow The note has a feature consisting of a fixing member.

Hereinafter, with reference to the accompanying drawings for a preferred embodiment of the present invention in detail as follows.

2 is an exploded perspective view showing a state in which the multi-core connector protection support plate according to the present invention is installed, Figure 3 is a cross-sectional view showing a state in which the multi-core connector according to the present invention is installed in the protective support plate.

Referring to this, the protective support plate of the multi-core connector protects the body 10 formed with a plurality of receiving grooves 11 having an open upper portion, and the multi-core optical connector 40 coupled to the upper end of the body 10. The cover 20 and a fixing member 30 positioned between the cover 20 and the receiving groove 11 to fix the multi-core optical connector 40 accommodated in the receiving groove 11.

The body 10 has a plurality of accommodating grooves 11 having an open upper portion, and is configured to accommodate a plurality of pairs of pre-connected multi-core optical connectors 40 therein, and front and rear of the accommodating grooves 11. A predetermined drawing groove 13 is provided on the wall so that the ribbon optical fiber 47 extending from the received multi-core optical connector 40 is drawn out.

In addition, a flange 15 extending a predetermined length is formed at both ends of the bottom surface of the body 10 so as to screw the cover 20.

The cover 20 is located at the upper end of the body 10 to protect the plurality of multi-core optical connector 40 built in the receiving groove 11 and from both ends of the upper plate 21 After bending at a right angle to the top surface of the flange 15 of the body, a leg 25 is bent outward at right angles to be positioned on the top surface of the flange 15 of the body, and is screwed to the flange 15 of the body.

The fixing member 30 is formed of a member having a predetermined elasticity such as a sponge, and is located between the cover 20 and the receiving groove 11 and the multi-core optical connector 40 accommodated in the receiving groove 11. It is made to be fixed to a predetermined elasticity so that it does not flow.

At this time, one side of the plurality of pre-connected multi-core optical connector 40 is given a predetermined elastic force so that the above-mentioned clamp 50 is coupled to the pair of multi-core optical connector 40 is elastically in close contact.

Referring to the working example of the present invention by the above configuration in detail as follows.

The protective support plate of the multi-core optical connector has a plurality of receiving grooves (11) formed in a row to insert a plurality of pre-connected multi-core optical connector 40 in a pair of sponges or the like on top of the receiving groove (11) The fixing member 30 thereon, and the cover 20 is fixed by screwing the flange 15 to the body.

Therefore, the plurality of pre-connected multi-core optical connector 40 is pressed and fixed by a certain elasticity by the fixing member 30, even if the external physical force or impact is applied by the elasticity of the fixing member 30 Multi-core optical connector 40 is protected.

According to the present invention, the multi-core optical connector protection support plate is fixed to the optical distribution panel or the terminal box to protect a plurality of pre-connected multi-core optical connector from external physical force or impact.

Claims (1)

A plurality of accommodating grooves 11 having an open upper portion are formed to accommodate a plurality of paired connectors, and a ribbon optical fiber extending from the accommodated connectors on front and rear walls of the accommodating grooves 11. A body 10 provided with a predetermined drawing groove 13 so that the drawing is made to the outside; A cover 20 coupled to an upper end of the body 10 to protect the received connector; The optical connector protection support plate, characterized in that made of a fixing member 30 is positioned between the cover 20 and the receiving groove 11 to fix the connector accommodated in the receiving groove 11 does not flow.