CN203502627U - Optical fiber jumper wire for high-power laser transmission - Google Patents

Abstract

The utility model relates to an optical fiber jumper wire for high-power laser transmission. The optical fiber jumper wire for high-power laser transmission comprises a collimating lens, an insertion core, an insertion core sleeve, a nut and an optical fiber. The optical fiber jumper wire for high-power laser transmission is characterized in that one end of the insertion core is fixed to the insertion core sleeve, a hole with the same diameter as that of the optical fiber is formed in the center of the end, fixed to the insertion core sleeve, of the insertion core; the insertion core and the nut are connected together through the insertion core sleeve, the optical fiber penetrates through the insertion core sleeve and is fixed in the hole of the insertion hole; and the collimating lens is fixed to the other end of the insertion core, and the focus of the collimating lens is located at the center of the end face of the optical fiber. The optical fiber jumper wire for high-power laser transmission is mainly applied to a transmission system for high-power lights. Compared with a traditional optical fiber jumper wire, the optical fiber jumper wire for high-power laser transmission has the advantages of being good in repeatability, high in reliability, low in environmental influence, long in service life and the like.

Description

A kind of optical patchcord for high power laser transmission

Technical field

The utility model relates to a kind of novel optical patchcord for high power laser transmission, and this optical patchcord is the sub-miniature A connector optical patchcord with collimation lens, has the advantages such as reproducible, reliability is high, processing request is low.

Background technology

Optical patchcord is applied in optical communication at first, is indispensablely in Fiber Optical Communication System to repeat general passive device, for realizing the communication of fast and reliable between optical fiber and equipment, optical fiber and optical fiber, optical fiber and instrument, is connected.It is a kind of device with fastest developing speed in passive device, consumption is maximum, most widely used.Because having the advantage that can plug and be easy to change, it is widely used.Optical patchcord with sub-miniature A connector adopts screw threads for fastening, after optical fiber breaks down, can replace.

Along with the development of superpower laser, sub-miniature A connector optical patchcord, owing to changing conveniently, can plug, starts to be applied in high-power luminous energy transmission gradually.But traditional sub-miniature A connector optical patchcord is the low power light signal of main transmission in optical communication, be applied to after high-power luminous energy transmission, traditional fiber wire jumper there will be a lot of problems.First, because the core diameter of optical fiber only has hundreds of micron left and right, even have very little skew for the wire jumper optical fiber core diameter of high-power luminous energy transmission, the energy that part does not enter the light of optical fiber is just enough to burn out optical fiber.The right alignment of the devices such as the lock pin of traditional optical patchcord, lock pin sleeve, nut will reach very high precision and could meet interchangeable requirement, and difficulty of processing is larger, need to adopt ultrahigh precision mold or mechanical processing technique to make, and cost is higher.Secondly, traditional optical patchcord is for optical fiber communication, what transmit is all low power light, the general glue fixed fiber that adopts, optical fiber is concordant with insertion core end face, after high power transmission, because glue thermal diffusivity is poor, the part luminous energy spilling in optical fiber head place cannot distribute and cause and burn out optical fiber, and lower for high power transmission reliability, the life-span is short.On the other hand, the light of tens even several hectowatts that high-power laser instrument sends concentrates on the optical fiber of about hundreds of micron completely, and energy height is concentrated, and at fiber end face, has small dust or dirtyly all can burn out optical fiber.If Fig. 1 is traditional optical patchcord schematic diagram, the position of optical fiber is in the center of lock pin, and fiber end face is exposed in air.

Summary of the invention

The problem that the purpose of this utility model exists in order to overcome above-mentioned prior art, and the distance that provides a kind of optical patchcord for high power laser transmission, optical patchcord of the present utility model can allow optical fiber skew is 5-10 times of conventional jumpers.Reduce right alignment requirement, greatly reduced difficulty of processing, saved cost, improved repeatability.And optical fiber head is unsettled, the light spilling directly transfers out by air, has improved temperature ability to bear.Lock pin adopts the material with thermal conductive resin as oxygen-free copper, has improved reliability and optical fiber serviceable life.In addition, optical fiber seal is in lock pin, and the collimation lens relative size being exposed at outward in environment is larger, and laser energy relatively disperses, and has improved reliability and the serviceable life of optical patchcord.Compare with traditional sub-miniature A connector optical patchcord, the optical patchcord for high power laser transmission of the present utility model is more suitable for being applied to the transmission of high-power light.

The utility model is achieved through the following technical solutions.

A kind of optical patchcord for high power laser transmission, comprise collimation lens, lock pin, lock pin sleeve, nut, optical fiber, it is characterized in that: lock pin one end is fixed on lock pin sleeve, and lock pin Gai Duan center is provided with the hole that diameter is identical with fibre diameter, for fixed fiber; Lock pin sleeve connects together lock pin and nut, and optical fiber is fixed in the hole of lock pin through lock pin sleeve; Collimation lens is fixed on the other end place of lock pin, and the focus of collimation lens is in the center of fiber end face.Optical fiber is used for receiving the light after collimation lens focuses on, and transmits.

Described collimation lens is for being simultaneously plane, and another side is aspheric lens.

Described optical fiber head stretches into lock pin 2-5mm; And optical fiber is to be fixed in lock pin with high temperature glue or the glass solder of refractive index and optical fiber coupling.

Described nut inside surface has screw thread, whole optical patchcord is closely fixed on the optical device of external thread counterpart.

Lock pin sleeve, except lock pin and nut are connected together, also plays the effect of location, guarantees that the fixing position of each sub-miniature A connector optical patchcord is identical.

Optical patchcord of the present utility model carries the collimation lens good with coupling fiber; When traditional optical patchcord is used and on the optical device of wire jumper cooperation, to add collimation lens, and and wire jumper coupling.

Optical patchcord of the present utility model, when same wire jumper repeatedly plugs or while changing another root for the optical patchcord of high power laser transmission, the variation of the position on optical axis direction can not affect the coupling of light; The variation of the position of traditional optical patchcord on optical axis direction has considerable influence to coupling efficiency.

Optical patchcord of the present utility model, when same wire jumper repeatedly plugs or while changing another root for the optical patchcord of high power laser transmission, the distance of the allowed optical fiber skew perpendicular on optical axis direction be conventional jumpers 5-10 doubly.Like this, the processing request of optical patchcord lock pin is reduced greatly, reduced cost.

Traditional fiber wire jumper optical fiber is used glue to fix, and glue thermal diffusivity is poor, and the part luminous energy spilling in optical fiber head place cannot be gone out by Quick diffusing.The optical fiber of optical patchcord of the present utility model is to be fixed in lock pin with high temperature glue or the glass solder of refractive index and optical fiber coupling, and optical fiber head stretches into lock pin 2-5mm, and the luminous energy spilling can transfer out rapidly, has improved reliability.

Traditional optical patchcord in use on fiber end face energy very concentrated, the minute dust on fiber end face will cause burning out of whole optical patchcord.The optical fiber seal of the utility model optical patchcord is in tube core, and the light on collimation lens relatively disperses, and the impact of minute dust is less.Therefore, optical patchcord of the present utility model requires lower to storage environment and spendable environment is more extensive.

The utility model contrast prior art has following beneficial effect: the utility model is mainly used in the transmission system of high-power light.Compare with traditional fiber wire jumper, there is the advantages such as reproducible, reliability is high, environmental impact is low, the life-span is long.

Accompanying drawing explanation

Fig. 1 is the diagrammatic cross-section of traditional sub-miniature A connector optical patchcord;

Fig. 2 is optical patchcord diagrammatic cross-section of the present utility model; In figure: 1-collimation lens, 2-lock pin, 3-nut, 4-lock pin sleeve, 5-optical fiber.

Embodiment

The utility model will be further described by reference to the accompanying drawings.

As shown in Figure 2, the utility model comprises collimation lens 1, lock pin 2, lock pin sleeve 4, nut 3, optical fiber 5, and lock pin 2 one end are fixed on lock pin sleeve 4, and lock pin 2 Gai Duan centers are provided with the hole that diameter is identical with fibre diameter, for fixed fiber 5; Lock pin sleeve 4 connects together lock pin 2 and nut 3, and optical fiber 5 is fixed in the hole of lock pin 2 through lock pin sleeve 4; Collimation lens 1 is fixed on the other end place of lock pin 2, and the focus of collimation lens 1 is in the center of optical fiber 5 end faces.Optical fiber 5 is used for receiving the light after collimation lens 1 focuses on, and transmits.Described collimation lens is for being simultaneously plane, and another side is aspheric lens.5 described of optical fiber stretch into lock pin 2-5mm; And optical fiber 5 is to be fixed in lock pin 2 with high temperature glue or the glass solder of refractive index and optical fiber coupling.Described nut 3 inside surfaces have screw thread, whole optical patchcord are closely fixed on the optical device of external thread counterpart.

Lock pin sleeve 4, except lock pin 2 and nut 3 are connected together, also plays the effect of location, guarantees that the fixing position of each sub-miniature A connector optical patchcord is identical.

During this assembling of the optical patchcord with collimation lens of the present utility model, first collimation lens 1 use glue is fixed on lock pin 2, again optical fiber 5 is inserted in lock pin 2 and is coupled with collimation lens 1, high temperature glue is injected in the hole after coupling fiber is good after lock pin or glass solder is fixing by optical fiber 5.Then one end of lock pin 2 is fixed on to 4 li, lock pin sleeve, uses jump ring that nut 3 and lock pin sleeve 4 are coupled together.

Claims (4)

1. for an optical patchcord for high power laser transmission, comprise collimation lens, lock pin, lock pin sleeve, nut, optical fiber, it is characterized in that: lock pin one end is fixed on lock pin sleeve, and lock pin Gai Duan center is provided with the hole that diameter is identical with fibre diameter; Lock pin sleeve connects together lock pin and nut, and optical fiber is fixed in the hole of lock pin through lock pin sleeve; Collimation lens is fixed on the other end place of lock pin, and the focus of collimation lens is in the center of fiber end face.

2. the optical patchcord for high power laser transmission according to claim 1, is characterized in that: described collimation lens is for being simultaneously plane, and another side is aspheric lens.

3. the optical patchcord for high power laser transmission according to claim 1, is characterized in that: described optical fiber head stretches into lock pin 2-5mm; And optical fiber is to be fixed in lock pin with high temperature glue or the glass solder of refractive index and optical fiber coupling.

4. the optical patchcord for high power laser transmission according to claim 1, is characterized in that: described nut inside surface has screw thread, whole optical patchcord is closely fixed on the optical device of external thread counterpart.

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