RU184781U1 - FIBER DISTRIBUTION TERMINAL - Google Patents

Abstract

The proposed technical solution relates to distribution terminals, which are installed on the border between the distribution network and cables serving directly for connecting subscribers. In the claimed distribution terminal, the outer surface of the removable cover is dome-shaped, while the formed cavity of the fiber optic distribution terminal is divided into a main cable entry area, a main cable removal area, a splitter switching area, a splitter storage area, a cable storage area, a splitter subscribers connection area. The housing of the distribution terminal is made easily collapsible with the possibility of opening without an additional tool through the use of clip-on clothespins. Clothespins are removable and replaceable. The objective of the proposed technical solution is the development of a fiber optic distribution terminal, which expands the arsenal of tools currently in use. 9 s.p. f-ly, 6 ill.

Description

Fiber optic distribution terminal

The proposed technical solution relates to distribution terminals (drop terminal), which are installed on the border between the distribution network and cables that serve directly to connect subscribers.

As a rule, the design of such terminals allows you to install several splitters in them (for example, 1: 4 or 1: 8), which can be used in a cascade circuit. The more subscribers are connected to one distribution terminal, the greater the length of the subscriber cables, which increases the cost of their installation. Therefore, usually the number of subscribers served through one drop-terminal is limited to 6-10, leaving several ports in reserve for the future. Distribution terminals can be installed in various places, for example on a telegraph pole or underground. The installation of these elements on poles facilitates access to them and reduces the requirements for protection from adverse environmental influences. It is clear that during the underground installation of the distribution terminal it is required to ensure its complete tightness and a high degree of protection against moisture, rodents, etc.

Known methods and systems for the distribution of fiber optic communication services in the local service area (WO 2009/155487, IPC G02b 6/36, publ. 12/23/2009). A fiber distribution terminal is known from this source. The distribution terminal contains a housing, several hardened adapters. Each hardened adapter contains several ports. Access to these ports is possible from the outside of the case and from the inside.

Known fiber-optic distribution terminal (RU No. 20111101738, IPC G02b 6/44, publ. 27.07.2012). The fiber optic distribution terminal block contains a box in the form of a rectangular parallelepiped. The unit includes a first outer surface and an opposite second outer surface, several hardened adapters mounted on the first outer surface of the housing, each hardened adapter contains a first port that can be accessed from outside the housing, and a second port that can be accessed from inside the housing , a coil attached to the second outer surface, the coil comprises a cylindrical portion, and a fiber optic distribution cable wound around the cylindrical portion, this distribution cable the linen comprises a first end and an opposite second end, the second end being located inside the housing. The block body of the fiber optic tap terminal includes a front portion and a rear portion. The fiber optic distribution terminal block further comprises a sealing element located between the front and rear parts of the housing. Several hardened adapters are installed at an acute angle relative to the plane that passes through the central longitudinal axis of the housing and along the width of the housing.

Known fiber-optic distribution terminal according to the patent of the Republic of Kazakhstan No. 1298, IPC G02B 6/44, publ. July 15, 2015. This distribution terminal contains a hollow flattened housing with side walls and a bottom. The hollow body is made flattened, through holes are made in the bottom of the body to accommodate landing sites for hardened adapters. Each hardened adapter contains a port that can be accessed from outside the chassis and a port that can be accessed from inside the chassis. This fiber optic distribution terminal is closest to the offer.

However, the use of this famous terminal showed that its use in real conditions encountered a number of inconveniences. The flat cover of a well-known terminal in winter conditions accumulates frozen precipitation in the form of ice on its surface and makes it difficult to remove it from the terminal. Placing the terminal surrounded by trees can lead to the accumulation of branches on the flat terminal cover.

A large number of bolted connections of the cover to the terminal housing prevents quick access to the terminal.

In the hollow case of the known terminal there is a cassette for placing and fixing coils and splices of optical fibers. A cassette with an organizer designed to enable the layout and storage of pigtail stocks is provided with a lodgement made to allow the placement of sleeves, for example, from a weld joint protection kit (KDZS) for terminating an optical distribution cable (OK) through the input port, terminated on pigtails (optical mounting cords) for connecting to the output ports from the inside.

A known terminal is connected to the network by removing one fiber from the trunk cable. In this case, a coupling is used. In the clutch, one fiber is separated from the trunk cable and spliced with a patch cord to supply a signal to the input of the splitter. A well-known terminal is positioned as a maintenance-free closed device with a splitter installed inside.

The objective of the proposed technical solution is to develop a fiber optic distribution terminal, which expand the arsenal of tools currently in use and eliminates the disadvantages of the known solution.

The problem is solved due to the fact that the outer surface of the removable terminal cover is domed. In this case, a cavity of the fiber-optic distribution terminal is formed, which is divided into the main cable entry zone, the fiber optic cable removal zone, the splitter signal switching zone, the splitter storage area, the cable storage area, the subscriber connection (switching) zone. All functional areas of the terminal have a separate arrangement in separate planes in the formed cavity of the housing.

Perpendicular to the splitter storage area, the casing has a welding zone in the form of a cassette and an optical fiber storage area in the form of an organizer.

The fiber optic distribution terminal is configured to transit fiber optic cable without breaking the fibers.

The fiber-optic distribution terminal is made with a lateral arrangement of the inputs of the fiber-optic cable for different cable diameters and replaceable sealing elements.

The terminal is designed to provide sealing and grounding.

The case, cover, cassette for placement and fixing of coils and splices of optical fibers and hardened adapters are made of a polymer material, for example, polyethylene or polypropylene.

The housing, cover, cassette for placing and fixing the coils and splices of optical fibers and hardened adapters are made, for example, by injection molding.

The hollow body is made flattened, preferably with a horizontal section close in shape to a semicircle.

The proposed design of the fiber optic distribution terminal is shown in the accompanying drawings, where:

- FIG. 1 shows a general view of the proposed fiber optic distribution terminal, front view;

- FIG. 2 shows a fiber optic distribution terminal, top view;

- FIG. 3 shows a fiber optic distribution terminal, front view, cover removed;

- FIG. 4 shows a fiber optic distribution terminal, top view;

- FIG. 5 shows a general view of the proposed fiber optic distribution terminal with the cover removed from one side;

- FIG. 6 is a general view of the proposed fiber optic distribution terminal with the cover removed from the other side.

The fiber optic distribution terminal comprises a hollow body 1 with a removable cover 2. The hollow body 1 is made flattened, preferably with a horizontal section close in shape to a semicircle. The outer surface of the removable cover 2 of the terminal is domed. This forms the cavity of the fiber optic distribution terminal, which is divided into zones. All functional areas of the terminal have a separate arrangement in separate planes in the formed cavity of the housing. The removable cover 2 is fixed with clips - clothespins 3. The lower part of the housing is equipped with adapters 4.

In the cavity of the housing 1, a splitter 5 storage zone is horizontally placed. A welding zone 6 and a cable storage zone 7 are fixed on the bracket perpendicular to the splitter storage zone 5. The switching zone 8 of the splitter signal is located below the welding zone 6. Group of adapters 4 represent the connection zone of subscribers 9. Fiber optic the distribution terminal is made with a lateral arrangement of the input zone 10 of the fiber optic cables 11 and 12 for different cable diameters and replaceable sealing elements (not shown).

On the convex part of the outer surface of the lid 2 there are rounded stiffeners, and the inner surface of the lid is provided with radial stiffeners. The edges of the lid 2 repeat the outer surface of the flange of the housing 1, and a protrusion is made on the inner surface of the edge of the lid 2, which repeats the shape of a closed sealing groove of the housing placed on the horizontal surface of the flange of the housing to ensure a tight fit of the lid to the housing and protect against displacement of the sealing element. The outer side surface of the housing 1 is provided with stiffeners.

The housing 1 of the distribution terminal is made easily collapsible with the possibility of opening without an additional tool due to the use of clip-on clothespins. Clips-clothespins 3 are made removable and replaceable.

The terminal is designed to provide sealing and grounding (not shown).

The housing 1, cover 2, adapters 4 of the fiber optic distribution terminal are made of a polymer material, for example, polyethylene or polypropylene.

The case, cover, cassette for placement and fixation of coils and splices of optical fibers and hardened adapters are made of polymers that are resistant to ultraviolet radiation.

Claims (10)

1. An optical fiber distribution terminal comprising a hollow body with a horizontal section close in shape to a semicircle, the inner and outer side surfaces of which are made in the form of wave-like surfaces that envelope the area of the reinforced guide adapters, one ends of which are placed on the landing sites in the cavity of the housing, and other ends are placed on landing sites made on a common protrusion of the outer surface of the bottom of the body, a removable cover with a sealing element, installed between the seats of the cover and the housing, the fastening elements of the cover with the housing, a cassette for placing and fixing the coils and splices of optical fibers installed in the hollow housing, characterized in that the outer surface of the removable cover is domed with the formation of a cavity of the housing, which is divided into the input zone the main cable, the zone of removal of the optical fiber from the main cable, the switching zone of the splitter, the storage area of the splitter, the storage area of the cable reserves, the connection area of the subscribers of the splitter 2. The fiber optic distribution terminal according to claim 1, characterized in that all the functional areas of the terminal have a separate arrangement in separate planes in the formed cavity of the housing. 3. The fiber optic distribution terminal according to claim 1, characterized in that, perpendicular to the splitter storage area, welding zones in the form of a cassette and an optical fiber storage area in the form of an organizer are installed in the housing. 4. The fiber optic distribution terminal according to claim 1, characterized in that it is made with the possibility of transit of the fiber optic cable without breaking the fibers. 5. The fiber optic distribution terminal according to claim 1, characterized in that it is made with a lateral arrangement of the inputs of the fiber optic cable for different cable diameters and replaceable sealing elements. 6. The fiber optic distribution terminal according to claim 1, characterized in that it is designed to provide sealing and grounding. 7. The fiber optic distribution terminal according to claim 1, characterized in that the housing of the distribution terminal is easily collapsible with the possibility of opening without additional tools through the use of clip-on clothespins. 8. The fiber optic distribution terminal according to claim 7, characterized in that the clothespin clips are removable and replaceable. 9. The fiber optic distribution terminal according to claim 1, characterized in that its housing, cover, cassette for placing and fixing the coils and splices of optical fibers and hardened adapters are made of a polymeric material, such as polyethylene or polypropylene. 10. The fiber optic distribution terminal according to claim 1, characterized in that its housing, cover, cassette for placement and fixation of coils and splices of optical fibers and hardened adapters are made, for example, by injection molding.

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