CN218848400U - Power optical cable beam splitting type joint device - Google Patents

Abstract

The utility model relates to an optical cable subassembly technical field just discloses an electric power optical cable beam splitting formula piecing devices, which comprises a base, the inside of base is provided with main business splice box and attached distribution box, all be provided with two splice trays on main business splice box and the attached distribution box, be provided with ring flange and rain-proof layer on the attached distribution box, the left side of base bottom is provided with into the cable hole, the base adopts double-cap structure, main business splice box and attached distribution box pass through the base passageway intercommunication. This electric power optical cable beam splitting formula piecing devices, through adopting electric power special type optical cable beam splitting formula piecing devices to transmit transmission line's control signal on line OPGW optical cable, transmission distance is unrestricted, and signal transmission is stable, can realize implementing control local signal acquisition and super long distance relay transmission to transmission line, can guarantee to implement effective control to transmission line to the application of the original OPGW optical cable of high tension transmission line in electric power system has been expanded.

Description

Beam splitting type connector device for power optical cable

Technical Field

The utility model relates to an optical cable subassembly technical field specifically is an electric power optical cable beam splitting formula piecing devices.

Background

The high-voltage transmission line is erected in an end-to-end ultra-long distance, the towers are erected in the field, the geographic environment is complex, and the transmission line is monitored in real time, data acquisition, data analysis and other modes by adopting an intelligent device. The existing transmission line monitoring mode usually adopts two signal transmission modes of wired and wireless, wherein the wired mode is to send a signal at a source end, receive the signal at a sink end, analyze the line condition according to the signal, and although the wired transmission signal is stable, the transmission distance is limited; the wireless mode is to use public wireless network to monitor the information of signal transmission line, the acquisition point is flexible, but the wireless mode signal transmission is unstable.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a power optical cable beam splitting formula piecing devices possesses advantages such as transmission distance is unrestricted and signal transmission is stable, has solved current wired and wireless transmission line monitoring mode and has had the limited and unstable condition of signal transmission of transmission distance respectively, can't satisfy the problem of actual demand.

(II) technical scheme

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an electric power optical cable beam splitting formula piecing devices, includes the base, the inside of base is provided with main business fusion box and attached distribution box, all be provided with two splice trays on main business fusion box and the attached distribution box, be provided with ring flange and rain-proof layer on the attached distribution box, the left side of base bottom is provided with into the cable hole.

Preferably, the base adopts a double-cap structure, the main service fusion box and the auxiliary wiring box are communicated through a base channel, the special electric power optical cable beam splitting type connector device adopts a double-cap structure design and is composed of the main service fusion box and the auxiliary wiring box, the main service fusion box and the auxiliary wiring box are communicated through the special electric power optical cable beam splitting type connector device base channel and are used for optical cable beam splitting, optical fibers in the main service fusion box are used for optical transmission networking linear connection, and optical fibers in the auxiliary wiring box are used for transmitting additional services.

Preferably, a flange is arranged on the flange plate, the flange plate on the fusion welding plate is provided with a flange, the section of the tail fiber is kept clean, and when the service is accessed, the flange is pulled out, and the tail fiber of the service device is inserted.

Preferably, the rain-proof layer is the rubber material, rain-proof layer adopts a word to run from opposite directions two semicircle structures, is the rain-proof layer of rubber material below the attached distribution box, adopts a word to run from opposite directions two semicircle structures, and during the operation, inwards open, all the other times rain-proof layer freely falls, keeps the closed state, plays rain-proof dustproof effect.

Compared with the prior art, the utility model provides an electric power optical cable beam splitting formula piecing devices possesses following beneficial effect:

1. this electric power optical cable beam splitting formula piecing devices, through adopting electric power special type optical cable beam splitting formula piecing devices to transmit transmission line's control signal on line OPGW optical cable, transmission distance is unrestricted, and signal transmission is stable, can realize implementing control local signal acquisition and super long distance relay transmission to transmission line, can guarantee to implement effective control to transmission line to the application of the original OPGW optical cable of high tension transmission line in electric power system has been expanded.

2. The power optical cable beam splitting type joint device is used for forming a whole line OPGW optical cable through the OPGW optical cable and the special power optical cable joint box in a breaking and welding mode, is used for forming an optical fiber communication network of a power system and provides a lightning protection grounding effect, replaces the special power optical cable joint box on the traditional power transmission line with the special power optical cable beam splitting type joint device in the existing power transmission line, and carries out beam splitting and classification welding on an optical fiber core in the special optical cable so as to meet the actual demand of monitoring the power transmission line.

Drawings

FIG. 1 is a cross-sectional view of the split type optical cable splice device of the present invention;

fig. 2 is the utility model discloses power optical cable beam splitting formula piecing devices structure bottom view.

Wherein: 1. a base; 2. a main service fusion box; 3. an auxiliary wiring box; 4. a fusion splice tray; 5. a flange plate; 6. a rain-proof layer; 7. a cable inlet hole; 8. a base channel; 9. and (4) a flange.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, an optical power cable splitting type joint device, which transmits a monitoring signal of a power transmission line on a line OPGW optical cable by using a special optical power cable splitting type joint device, the transmission distance is not limited, the signal transmission is stable, in-situ signal acquisition and ultra-long distance relay transmission can be realized for monitoring the power transmission line, effective monitoring of the power transmission line can be guaranteed, and the application of the original OPGW optical cable of a high-voltage power transmission line in a power system is expanded, includes a base 1, a main service fusion box 2 and an auxiliary wiring box 3 are arranged inside the base 1, the base 1 adopts a double-cap structure, the main service fusion box 2 and the auxiliary wiring box 3 are communicated through a base channel 8, two fusion splice trays 4 are respectively arranged on the main service fusion box 2 and the auxiliary wiring box 3, a flange 5 and a rainproof layer 6 are arranged on the auxiliary wiring box 3, a flange 9 is arranged on the flange 5, the rainproof layer 6 is made of rubber, the rainproof layer 6 adopts a double-split-half-round structure, a cable inlet 7 is arranged on the left side of the bottom of the base 1, the OPGW optical cable is connected through the special optical power cable via the special optical power fusion splice box, the special optical cable, the optical cable is used for constituting an entire line OPGW, and the special optical cable splitting type joint device, and the optical cable splitting type optical power transmission line optical cable splitting type optical cable splicing device is used for providing a classification for the traditional optical power transmission line for the monitoring of the traditional optical power transmission line.

When the optical fiber distribution box is used, OPGW optical cables at two ends of an iron tower of a high-voltage transmission line enter the main service fusion box through the base of the special optical cable distribution type joint device, the optical fiber distribution box is divided into 4-6 optical fibers which penetrate through optical fiber bundle tubes, the two groups of optical fibers enter the auxiliary distribution box through the base channel of the special optical cable distribution type joint device, the auxiliary distribution box comprises main components such as a fiber coiling box, an optical distribution module (comprising two coils of fusion welding discs, a flange plate and a tail fiber) and a rainproof layer (made of rubber materials), the two groups of optical fibers are respectively fused with the tail fiber in the two coils of the optical distribution module according to the fiber sequence, the fiber core is coiled on the fiber coiling box in the auxiliary distribution box after fusion, and the optical fibers in the auxiliary distribution box are used for transmitting additional services such as monitoring signals of the transmission line. The flange plate on the fusion welding disc is provided with a flange, so that the section of the tail fiber is kept clean, and when the service is accessed, the flange is pulled out, and the tail fiber of the service device is inserted. The rubber rain-proof layer is arranged below the auxiliary distribution box, a straight-line split two-half-circle structure is adopted, during operation, the rain-proof layer is opened inwards, the rain-proof layer falls freely in other time, the closed state is kept, the rain-proof and dust-proof effects are achieved, other fiber cores of the OPGW optical cables at two ends are welded in a fiber sequence one-to-one correspondence mode, after welding, the fiber cores are coiled on a fiber coiling box in a main service welding box, a high-voltage transmission line main optical cable is formed and used for power system optical transmission networking, and the power optical cable beam splitting type joint device is used for between high-voltage transmission line iron towers. In the existing power transmission line, an electric special optical cable beam-splitting type connector device replaces an electric special optical cable connector box on the traditional power transmission line, and carries out beam-splitting classified fusion on optical fiber cores in special optical cables. The optical fiber in the main service fusion box is used for optical transmission networking linear connection, the optical fiber in the auxiliary wiring box is used for transmitting additional services, the electric power special optical cable beam splitting type joint device is adopted for transmitting monitoring signals of the power transmission line on the line OPGW optical cable, the transmission distance is not limited, the signal transmission is stable, the monitoring on-site signal acquisition and the ultra-long distance relay transmission of the power transmission line can be realized, the effective monitoring of the power transmission line can be guaranteed, and the application of the original OPGW optical cable of the high-voltage power transmission line in an electric power system is expanded.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a power optical cable beam splitting formula piecing devices, includes base (1), its characterized in that: the novel rain protection welding line is characterized in that a main service welding box (2) and an auxiliary wiring box (3) are arranged inside the base (1), two welding discs (4) are arranged on the main service welding box (2) and the auxiliary wiring box (3), a flange disc (5) and a rain-proof layer (6) are arranged on the auxiliary wiring box (3), and a cable inlet hole (7) is formed in the left side of the bottom of the base (1).

2. The power cable split joint arrangement of claim 1, wherein: the base (1) adopts a double-cap structure, and the main service fusion box (2) is communicated with the auxiliary wiring box (3) through a base channel (8).

3. The power cable split joint arrangement of claim 1, wherein: and a flange (9) is arranged on the flange plate (5).

4. The power cable split joint assembly of claim 1, wherein: the rain-proof layer (6) is made of rubber, and the rain-proof layer (6) is of a structure that two semicircles are opened from the same side.

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