Advantages of the fusion splicer
Advantages of the fusion splicer
A fusion splicer(supplied by fusion splicer manufacturer) that can execute fusion splice and reinforcement preparations of optical fibers to be next subjected to reinforcement treatment efficiently at a proper timing by keeping track of the reinforcement treatment progress state to perform fusion splice and reinforcement treatment in parallel with each other is provided.
According to the otdr(supplied by otdr manufacturer), it is made possible to keep track of the progress state of the current reinforcement treatment being executed in real time on the display for monitoring the state of fusion splice, so that fusion splice and preparations for reinforcement treatment of the optical fibers to be next subjected to reinforcement treatment can be executed at good timing. Consequently, the optical fibers whose fusion splice is complete can be transported efficiently from the fusion splicing device to the reinforcement treatment device without standby. If standby occurs, reinforcement treatment can be executed in sequence efficiently in an appropriate standby time without accumulating a large number of optical fibers for waiting. To include a plurality of reinforcement treatment devices that can be operated independently of each other, the reinforcement treatment device that can be next used can be determined and the wait time, etc., becomes obvious, so that preparation work can be conducted efficiently, it is made possible to set non-wasteful work allocation as a whole, and the workability can be enhanced.
Particularly, to include a plurality of reinforcement treatment devices that can be operated independently of each other, the reinforcement treatment device that can be next used can be determined and the wait time, etc., becomes obvious, so that preparation work can be conducted efficiently, it is made possible to set non-wasteful work allocation as a whole, and the workability can be enhanced. The reinforcement treatment progress state can be easily displayed by adding hardware to an existing display, but can also be displayed using software. The reinforcement treatment progress state can be displayed using software with no change made to an existing fusion splicer main body or display.
A fusion splicer(supplied by fusion splicer manufacturer) that can execute fusion splice and reinforcement preparations of optical fibers to be next subjected to reinforcement treatment efficiently at a proper timing by keeping track of the reinforcement treatment progress state to perform fusion splice and reinforcement treatment in parallel with each other is provided.
According to the otdr(supplied by otdr manufacturer), it is made possible to keep track of the progress state of the current reinforcement treatment being executed in real time on the display for monitoring the state of fusion splice, so that fusion splice and preparations for reinforcement treatment of the optical fibers to be next subjected to reinforcement treatment can be executed at good timing. Consequently, the optical fibers whose fusion splice is complete can be transported efficiently from the fusion splicing device to the reinforcement treatment device without standby. If standby occurs, reinforcement treatment can be executed in sequence efficiently in an appropriate standby time without accumulating a large number of optical fibers for waiting. To include a plurality of reinforcement treatment devices that can be operated independently of each other, the reinforcement treatment device that can be next used can be determined and the wait time, etc., becomes obvious, so that preparation work can be conducted efficiently, it is made possible to set non-wasteful work allocation as a whole, and the workability can be enhanced.
Particularly, to include a plurality of reinforcement treatment devices that can be operated independently of each other, the reinforcement treatment device that can be next used can be determined and the wait time, etc., becomes obvious, so that preparation work can be conducted efficiently, it is made possible to set non-wasteful work allocation as a whole, and the workability can be enhanced. The reinforcement treatment progress state can be easily displayed by adding hardware to an existing display, but can also be displayed using software. The reinforcement treatment progress state can be displayed using software with no change made to an existing fusion splicer main body or display.