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Optical transceiver components that can quickly connect to optical fibers

A technology for optical transceiver components and quick connection, applied in electromagnetic transceivers, coupling of optical waveguides, etc., can solve problems such as difficulty, and achieve the effect of fast and convenient connection and saving optical fiber materials

Inactive Publication Date: 2017-06-13
NANJING YUNENG NEW ENERGY TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This kind of optical fiber with inserts fixed at both ends will encounter inconvenience in many applications. For example, during on-site operations, there will be different requirements for the length of the transmission optical fiber. If the optical fiber is cut on site and the insert is fixed at its end, It saves time and requires special tools, so the difficulty is quite large

Method used

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  • Optical transceiver components that can quickly connect to optical fibers
  • Optical transceiver components that can quickly connect to optical fibers
  • Optical transceiver components that can quickly connect to optical fibers

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] This embodiment is a single-core optical transceiver component, and its appearance is as attached figure 1 As shown, its structure is as attached figure 2 , 3 , 4, and 5.

[0030] The optical transceiver in this embodiment adopts single-core optical transceiver, as attached Figure 14 As shown, the light-emitting element 43 and the light-receiving element 42 of this single-core optical transceiver are coaxially arranged, that is, the light-emitting element 43 is placed at the center of the light-receiving element 42. For this structured light transceiver, only an external switch circuit is required to control the light emission. The element 43 and the light-receiving element 42 work separately, that is, adopt the half-duplex working mode, and a single optical fiber 47 can be used to realize the transmission and reception of optical signals.

[0031]The single-core optical transceiver 13 in this embodiment is positioned in the hollow groove of the seat body 14 latera...

Embodiment 2

[0035] This embodiment is a dual-core optical transceiver component, and its appearance is as attached Figure 6 As shown, its structure is as attached Figure 7 , 8 , as shown in 9.

[0036] In this embodiment, a dual-core optical transceiver 23 is used. One side of the dual-core optical transceiver is a light-emitting element, and the other side is a light-receiving element. Two-way optical signal transmission can be realized by using two optical fibers. The specific connection form is to connect one end of fiber A to the light-emitting element end of dual-core optical transceiver A, and connect the other end of fiber A to the light-receiving element end of dual-core optical transceiver B; Connect the other end of the optical fiber B to the light-emitting element end of the dual-core optical transceiver B to the light-receiving element end of the dual-core optical transceiver A. In this way, two-way uninterrupted optical communication can be realized between the dual-core...

Embodiment 3

[0041] This embodiment is another single-core optical transceiver component, its appearance is as attached Figure 10 As shown, its structure is as attached Figure 11 , 12 , 13 shown.

[0042] The optical transceiver in this embodiment adopts a single-core optical transceiver, and its structure is as attached Figure 14 shown.

[0043] The single-core optical transceiver 33 in this embodiment is positioned in the hollow slot of the seat body 34 laterally, and the position of the light-emitting element and the light-receiving element on the single-core optical transceiver 33 is facing the optical fiber introduction hole 36, that is, on the single-core optical transceiver 33. The central axis of the light-emitting element and the light-receiving element coincides with the central axis of the optical fiber introduction hole 36, and the special-shaped elastic pressing piece 32 is embedded in the slot 35 of the seat body 34 laterally. The pressure end 38 of 32 stretches into t...

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PUM

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Abstract

The invention relates to an optical transceiver assembly capable of quickly connecting optical fibers, which consists of a base body, a side plate, an optical transceiver, and an optical fiber locking and releasing mechanism, and is characterized in that the optical transceiver is embedded in the empty slot, The seat body is also provided with an optical fiber introduction hole, the central axis of which is coincident with the central axis of the light-emitting element or (and) light-receiving element of the optical transceiver, the optical fiber is inserted into the optical fiber introduction hole, and the fiber end directly touches the optical transceiver; The mechanism is composed of an elastic pressing piece, which is embedded in the slot of the base body as a whole, and the pressure end of the elastic pressing piece can extend into the fiber introduction hole. When there is an external force, the pressure end will exit the fiber introduction hole, and the fiber can be smoothly Insert the optical fiber into the hole and directly touch the optical transceiver. At this moment, the external force is removed, and the elastic force of the elastic pressure piece makes the pressure end press against the optical fiber, so that the optical fiber and the optical transceiver remain relatively fixed. The invention is convenient to connect with the optical fiber, the end of the optical fiber does not need to be equipped with plug-ins, and the length of the optical fiber can be cut arbitrarily as required.

Description

technical field [0001] The invention relates to an optical transmission communication device, in particular to an optical transceiver component that can be quickly connected to a plastic optical fiber. Background technique [0002] The end of the optical fiber (plastic optical fiber, quartz optical fiber) used as the optical transmission medium must be precisely aligned with the light-emitting element or light-receiving element in the optical transceiver device to reduce optical transmission loss. For this reason, it is usually fixed at the end of the optical fiber A special plug-in, which is inserted and fixed into a special component socket with a built-in optical transceiver through a mechanical structure, so as to ensure the collimated connection between the optical fiber and the optical transceiver. This kind of optical fiber with inserts fixed at both ends will encounter inconvenience in many applications. For example, during on-site operations, there will be different...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B6/42H04B10/40
Inventor 胡国祥吴启文
Owner NANJING YUNENG NEW ENERGY TECH