CN103969774A - Optical fiber adaptation terminal - Google Patents

Abstract

The invention discloses an optical fiber transfer terminal, which comprises a terminal body of a connection terminal, the bottom of the body is provided with a fixing frame, the side of the body is provided with two optical fiber flanges, the inside of the terminal has an optical fiber fixing shaft, two The connecting optical fiber between the optical fiber flanges is fixed by the optical fiber fixing shaft. The present invention has a simple structure and adopts the packaging method configured separately according to the optical fiber channel. The packaging mode and the fixed mode of the double-connected air switch can be used for the package and the fixed mode, and the volume is not larger than the double-connected air switch. The connection with the pigtail is clear at a glance, and the connection information is very intuitive, which is very convenient for testing and troubleshooting of fiber optic channels in substation construction and operation and maintenance.

Description

An optical fiber transfer terminal

technical field

The invention relates to a transfer terminal, in particular to an optical fiber transfer terminal.

Background technique

At present, the construction of smart substations, as an important part of smart grids, is advancing rapidly. However, the fiber channel equipment that constitutes the core of smart substations has not yet produced special equipment that matches the construction of power grid operation and maintenance, and still uses the original communication industry. Equipment or components are very unfavorable to the construction and operation and maintenance of smart substations. In particular, the existing optical fiber distribution boxes in smart substations have the following deficiencies:

1. Since the optical fiber core of the optical cable and the optical fiber interface need to be welded on site, it not only seriously affects the construction progress of the substation, but also due to the uneven technical level of the on-site technicians and limited operating environment conditions, the quality of the fusion of the optical fiber core and the optical port of the optical fiber distribution box is difficult. Guarantee, affect the quality and stability of optical fiber communication.

2. The fusion joint between the fiber core and the optical port of the existing optical fiber distribution box is sealed in the box body, and the corresponding information of the fusion connection between the optical fiber core and the optical port is not visible, which affects the smooth development of cable channel troubleshooting and operation and maintenance.

3. The existing optical fiber distribution box is too large, occupying a large space of the screen cabinet, which is not conducive to the integration of smart devices.

4. In the existing optical fiber distribution box, multiple optical cables share one box body. When performing a certain channel test or troubleshooting, if you need to observe the splicing situation, you must pull out the entire tray, which may affect other operating channels, which is not conducive to the maintenance of the substation. safe operation.

5. In the existing optical fiber distribution box, multiple fiber cores share one tray. In order to replace the optical cable without affecting the safe operation of the substation, it is necessary to increase the redundant configuration of the optical fiber tray and increase equipment investment.

Contents of the invention

The purpose of the present invention is to provide an optical fiber transfer terminal, which can facilitate the construction and operation and maintenance of substations, and improve the quality and stability of optical fiber communication.

The present invention adopts following technical scheme:

An optical fiber transfer terminal, comprising a plurality of unit terminals arranged side by side, the unit terminals include a terminal packaging box, the bottom of the packaging box is provided with a fixing frame, and the packaging box is provided with For two connected optical fiber flanges, the packaging box has an optical fiber fixing shaft inside, and the connecting optical fiber between the two optical fiber flanges is tightened and fixed by the optical fiber fixing shaft.

The two optical fiber flanges are arranged on one end surface of the packaging box.

The two optical fiber flanges are respectively arranged on two side surfaces of the packaging box.

The vertical section of the packaging box is pentagonal, and the two optical fiber flanges are respectively arranged on two adjacent side surfaces of the packaging box.

The two optical fiber flanges are respectively arranged on two opposite sides of the packaging box.

The multiple unit terminals described above adopt the encapsulation mode and the fixed mode of the double-connected air switch.

The present invention realizes on-site docking of the branch optical cable with the optical fiber plug fused to the pigtail through two interlinked optical fiber flanges, adopts the packaging mode separately configured according to the optical fiber channel, and adopts the packaging mode of double-connected air switch for multiple transfer terminals And fixed mode, not only greatly saves the space of the screen cabinet, but also the connection between the optical cable and the pigtail (jump fiber) is clear at a glance, and the connection information is very intuitive, which is very convenient for the test and troubleshooting of the optical fiber channel in the substation construction and operation and maintenance. The invention not only solves the influence of optical fiber welding on the construction progress of the substation, but also overcomes unforeseen factors affecting the quality and stability of optical fiber communication such as the technical quality of on-site technicians and operating environment conditions, and improves the engineering quality and fault processing speed.

Description of drawings

Fig. 1 is the structural sectional view of embodiment 1 of the present invention;

Fig. 2 is the structural sectional view of embodiment 2 of the present invention;

Fig. 3 is the structural sectional view of embodiment 3 of the present invention;

Fig. 4 is a schematic diagram of the horizontal installation structure of the present invention;

Fig. 5 is a schematic diagram of the vertical installation structure of the present invention.

Detailed ways

As shown in Figure 1, Figure 2 and Figure 3, an optical fiber transfer terminal 7 includes a plurality of unit terminals arranged side by side, the unit terminals include a packaging box for the terminal, and the packaging box The bottom of the body is provided with a fixing frame 3, and the packaging box is provided with two connected optical fiber flanges 1. The inside of the packaging box has an optical fiber fixing shaft 2, and the communication optical fiber 5 between the two optical fiber flanges is fixed by the optical fiber. Axis 2 is tightened and fixed, which facilitates on-site docking of branch cables with fiber optic plugs and pigtails. In the construction and maintenance of substations, it is only necessary to purchase branches with fiber optic plugs according to the requirements of equipment drawings (cable length, number of cores) Optical cables and pigtails (fiber jumpers) can quickly realize the construction of optical fiber channels in smart substations on site. It does not require on-site fusion splicing of the optical fiber core and the optical fiber interface, which not only solves the impact of optical fiber fusion on the construction progress of the substation, but also overcomes the unforeseen factors that affect the quality and stability of optical fiber communication, such as the technical quality of on-site technicians and operating environment conditions. Improved engineering quality and troubleshooting speed.

Because the present invention adopts the fiber optic flange, it can be conveniently and quickly connected and disconnected when used in conjunction with a branch fiber optic cable with fiber optic plugs fused at both ends, and the two fiber optic flanges can be flexibly set according to the overall installation position of the fiber optic terminal. Set the mounting positions of the two fiber optic flanges:

Embodiment 1: Two optical fiber flanges as shown in FIG. 1 are arranged on one end face of the packaging box.

The two optical fiber flanges are respectively arranged on both sides of the packaging box, specifically designed according to the shape of the packaging box:

Embodiment 2: The vertical section of the packaging box as shown in FIG. 2 is pentagonal, and two optical fiber flanges are respectively arranged on two adjacent sides of the packaging box.

Embodiment 3: The two optical fiber flanges as shown in FIG. 3 are respectively arranged on two opposite sides of the packaging box.

The present invention is mainly installed in the intelligent substation protection screen 6 and the intelligent terminal box 4. The specifications of the optical fiber flanges are configured according to the common flange types FC, SC, and ST. Other types can also be flexibly configured according to engineering needs. The three types of flanges Optical fiber transfer terminals can be flexibly installed according to project configuration requirements, among which ST type is mainly used for horizontal installation mode as shown in Figure 4, and FC and SC types can be flexibly installed for vertical installation according to the internal space of the screen cabinet and the fixing method of optical cables, as shown in Figure 4. 5.

The present invention replaces the traditional ODF optical fiber fusion splicing unit with an optical fiber transfer terminal. The terminal is designed with two connected optical fiber flanges. The terminal adopts the packaging mode configured according to the optical fiber. Each optical fiber is independent of each other. The channel needs to be configured on demand, and there is no need to configure a spare optical port or channel, and it is very convenient to replace the terminal when it fails. It solves the technical problem that the traditional optical fiber ODF unit junction box affects other channels during troubleshooting or field testing, and improves the safety of substation operation and maintenance. further. The plurality of unit terminals adopt the encapsulation mode and fixed mode of the double air switch, and the volume is not larger than the double air switch. Due to the small size of the terminal, the fixing method is completely compatible with the terminal in the ordinary substation, and can be flexibly installed on the fixed guide rail of the terminal, which not only greatly saves the space of the screen cabinet, but also the connection between the optical cable and the pigtail (jump fiber) is clear at a glance. The information is very intuitive, which is very convenient for testing and troubleshooting of fiber optic channels in substation construction and operation and maintenance. It solves the problems in the construction, operation and maintenance of intelligent substations.

Claims (6)

1. an optic fibre switching terminal, comprise multiple unit connection terminals of arranging side by side, it is characterized in that: described unit connection terminal comprises the encapsulation casing of connection terminal, described encapsulation bottom half is provided with fixed mount, on encapsulation casing, be provided with two optical fiber flanges that communicate, described encapsulation box house has optical fiber stationary shaft, and the UNICOM's optical fiber between two optical fiber flanges is strained and fixed by optical fiber stationary shaft.

2. optic fibre switching terminal according to claim 1, is characterized in that: two described optical fiber flanges are arranged on an end face of encapsulation casing.

3. optic fibre switching terminal according to claim 1, is characterized in that: two described optical fiber flanges are separately positioned on two sides of encapsulation casing.

4. optic fibre switching terminal according to claim 1, is characterized in that: the vertical section of described encapsulation casing is pentagon, and two optical fiber flanges are separately positioned on two sides adjacent on encapsulation casing.

5. according to the optic fibre switching terminal described in claim 1,3,4 arbitrary claims, it is characterized in that: two described optical fiber flanges are separately positioned on two relative sides of encapsulation casing.

6. according to the optic fibre switching terminal described in the arbitrary claim of claim 5, it is characterized in that: described multiple unit connection terminals adopt encapsulation mode and the fixed mode of duplex air switch.