CN202204965U - Energy transfer optical cable for small and medium power laser transmission - Google Patents

Abstract

The utility model provides an energy transfer optical cable for small and medium power laser transmission, which comprises an energy transfer optical cable, wherein one end of the optical cable is embedded into a first energy transfer optical cable joint, the other end of the optical cable is embedded into a second energy transfer optical cable joint, and an optical transmission section part of the optical cable is covered with a metal sleeve. The first energy transfer optical cable joint comprises a metal pipe, a transparent glass end cap, a metal plate, heat radiation fins and a temperature sensor, the transparent glass end cap and the metal plate respectively seal two ends of the metal pipe, the heat radiation fins surround the outer wall of the metal pipe, and the temperature sensor is arranged in the outer wall of the metal pipe. One end of the energy transfer optical cable extends by passing through the metal plate along the axial line of the metal pipe and is coupled with the transparent glass end cap. The temperature sensor and/or the metal sleeve covered at the optical transmission section part of the optical cable are/is connected onto a controller, so when the temperature value detected by the temperature sensor is greater than the first preset threshold value or when the resistance of the metal sleeve is greater than the second preset threshold value, the output of a laser is cut off by the controller.

Description

The biography that is used for the middle low power Laser Transmission can optical cable

Technical field

The utility model belongs to the optical transport technology field, and specifically, relating to a kind of biography that is used for the middle low power Laser Transmission can optical cable.

Background technology

Along with the development of laser technology, high-power, middle low power laser is more and more noticeable in the application of aspects such as industrial processes, weaponry and medicine equipment.Transmission problem high-power, middle low power laser is one of key issue of high-power, middle low power laser applications aspect.Pass optical cable to be the main path that addresses this problem.

At present, existing biography can the optical cable maximum can be transmitted the laser of average power in kilowatt magnitude.Can produce very high heat when transmitting in the fiber cores of powerful like this laser in passing the ability optical cable, might damage biography ability optical cable and cause security incident.When middle low power laser (for example, average power is below 1 kilowatt) transmits,, also can accumulate very high heat therein in passing the ability optical cable, therefore also have the problem of efficiently radiates heat along with the increase of working time.For example; The LLK-B biography ability optical cable of Germany Trumpf company carries out the frosted processing to the fibre core covering of optical cable; Make the light be not coupled in the fibre core when being transferred to covering-air interface, scatter in the air, thereby avoided being absorbed and causing that temperature raises so that burn out optical cable by the coat in the optical cable.But because the surface area of fibre core covering is less, thereby light scattering and insufficient.In addition, United States Patent(USP) No. 5497442 discloses the cable core structure that a kind of biography that is used to transmit high power laser can optical cable, wherein, uses to wrap in the working condition observation circuit that the outer metal level of fibre core constitutes this optical cable.But at present adopt the method for electroless platings outside fibre core, to form metal level, this class methods complex manufacturing technology and have chemical contamination is unfavorable for reducing cost and protecting environment more.

The utility model content

The purpose of the utility model is to provide a kind of biography ability optical cable that is used for the middle low power Laser Transmission; This pass can optical cable not only simple in structure, cost is low, safe in utilization, and can fully dispel the heat to guarantee that this biographys can optical cable long-time continuous ground transmits the laser of middle low power.

To achieve these goals; The utility model provides a kind of biography ability optical cable that is used for the middle low power Laser Transmission; This biography can comprise one section energy-transmission optic fibre by optical cable; One end of this section energy-transmission optic fibre embeds in the first energy-transmission optic fibre joint that is coupled with the laser emitting end, and the other end of this section energy-transmission optic fibre embeds in the second energy-transmission optic fibre joint, is surrounded by metallic sheath around the optical transmission section part outside the said two ends of this section energy-transmission optic fibre.The said first energy-transmission optic fibre joint comprises: metal tube; Be fixed on the clear glass end cap in the end port of this metal tube hermetically; Be fixed on the sheet metal in the other end port of this metal tube hermetically; The heat radiator that closely is provided with around the outer wall of said metal tube; And be arranged on the temperature sensor in the said metal tube outer wall.Simultaneously; A said end of said energy-transmission optic fibre passes said sheet metal extension along the axis of said metal tube; The end face of this end and the coupling of said clear glass end cap, the part between said clear glass end cap and said sheet metal of a said end of said energy-transmission optic fibre closely is with the light scattering pipe.In addition; Said temperature sensor and/or wrap in optical transmission section part outside the said two ends of said energy-transmission optic fibre around said metallic sheath be connected on the controller; Make when the value of said temperature sensor institute temperature detected greater than first predetermined threshold or when the resistance of said metallic sheath during greater than second predetermined threshold, said controller cuts off the output of said laser instrument.

Preferably, the end face with an end said laser emitting end coupling said clear glass end cap can be coated with antireflection film, and the side surface with an end said energy-transmission optic fibre coupling said clear glass end cap can carry out frosted to be handled.

Preferably; Side in the face of said clear glass end cap of the said sheet metal in the said first energy-transmission optic fibre joint can also be provided with glass plate, and this glass plate can closely contact with said sheet metal and the frosted processing can be carried out in the surface with said sheet metal closely contacts of this glass plate.

Preferably, said light scattering pipe can be processed by glass tube, and this light scattering pipe can be bonding through the covering of bonding agent and said energy-transmission optic fibre, and the outer wall of this light scattering pipe can carry out the frosted processing.

Preferably, can be coated with the light absorbing material that is used to absorb the light in one or more wavelength coverages on the surface of a side of facing said clear glass end cap of the inwall of said metal tube and/or said sheet metal.Said light absorbing material can comprise one or more layers light absorbing material.

In addition; Preferably; Wrap in optical transmission section part outside the said two ends of said energy-transmission optic fibre around said metallic sheath can comprise first metallic sheath that is enclosed within on the said energy-transmission optic fibre and be enclosed within second metallic sheath on said first metallic sheath; And can be filled with electrically insulating material between said first metallic sheath and said second metallic sheath, said second metallic sheath can be fixedly connected with the said other end of the said metal tube of the said first energy-transmission optic fibre joint.

Moreover; Preferably; The structure of the said second energy-transmission optic fibre joint can be identical with the structure of the said first energy-transmission optic fibre joint, and the combination of the said other end of said second energy-transmission optic fibre joint and said energy-transmission optic fibre can be identical with the combination of the said end of said first energy-transmission optic fibre joint and said energy-transmission optic fibre.Further preferably, the temperature sensor on the said second energy-transmission optic fibre joint can be connected on the said controller, makes that this controller can cut off the output of said laser instrument when this temperature sensor institute temperature detected during greater than the 3rd predetermined threshold.

As stated; At the described biography ability optical cable that is used for the middle low power Laser Transmission of the utility model; Adopt the light scattering pipe to increase scattering volume or the area of fibre core covering and the outside surface of the outside surface of the side surface of clear glass end cap, fibre core covering and light scattering pipe is carried out frosted handle the scattering that increases the laser that is not coupled into fibre core, a bit produce high temperature thereby these light can be gathered in; The coupled end and the optical transmission section that adopt glass plate/sheet metal will pass the ability optical cable separate, and make that the laser that is not coupled into fibre core in the said coupled end can not be radiated on the optical cable of optical transmission section; Through on the surface in the face of a side of said clear glass end cap of the inwall of said metal tube and/or said sheet metal, covering the light absorbing material that is used to absorb the light in one or more wavelength coverages, strengthen the conversion efficiency of luminous energy; Use metal tube and heat radiator to make the heat that laser produced that is not coupled into fibre core conduct as early as possible and be dispersed in the extraneous air; Utilize temperature sensor, wrap in optical transmission section part outside the two ends of said energy-transmission optic fibre around metallic sheath and controller constitute the temperature monitoring unit; When the temperature in the biography ability optical cable is too high, cut off the output of laser instrument with assurance, thereby guaranteed the safe handling of this biography ability optical cable.

Description of drawings

Fig. 1 is the cut-open view of the structure of optically-coupled end that the described biography that is used for the middle low power Laser Transmission of an embodiment of the utility model can optical cable and optical transmission section;

Fig. 2 is the structure enlarged drawing of the optically-coupled end of the biography ability optical cable that is used for the middle low power Laser Transmission among Fig. 1; And

Fig. 3 is the energy-transmission optic fibre that the described biography that is used for the middle low power Laser Transmission of an embodiment of the utility model can optical cable and the structural representation of light scattering pipe.

Embodiment

Below with reference to accompanying drawing the described embodiment that is used for the biography ability optical cable of middle low power Laser Transmission of the utility model is described.Those of ordinary skill in the art can recognize, under the situation of spirit that does not depart from the utility model and scope, can revise described embodiment with various mode or its combination.Therefore, accompanying drawing is illustrative with being described in essence, rather than is used to limit the protection domain of claim.In addition, in this manual, accompanying drawing is not in scale to be drawn, and identical Reference numeral is represented identical part.

The described biography that is used for the middle low power Laser Transmission of the utility model can comprise one section energy-transmission optic fibre by optical cable; One end of this section energy-transmission optic fibre embeds in the first energy-transmission optic fibre joint that is coupled with the laser emitting end; Thereby constitute the optically-coupled end of this biography ability optical cable; The other end of this section energy-transmission optic fibre embeds in the second energy-transmission optic fibre joint; Thereby form the light output end of this biography ability optical cable, be surrounded by metallic sheath around the part outside the said two ends of this section energy-transmission optic fibre, constituted the optical transmission section part of this biography ability optical cable.Fig. 1 is a cut-open view; Show the optically-coupled end that the described biography that is used for the middle low power Laser Transmission of the embodiment of the utility model can optical cable and the structure of optical transmission section; Wherein, an end of said one section energy-transmission optic fibre 10 and the first energy-transmission optic fibre joint 20 combine the optically-coupled end that constitutes biography ability optical cable 100.Part outside the optically-coupled end of the biography ability optical cable 100 among Fig. 1 is the optical transmission section part; This optical transmission section part by energy-transmission optic fibre 10 with wrap on the energy-transmission optic fibre 10 one or more layers and constitute by the metallic sheath 30 that insulating medium separates each other, and the light output end of the biography that the other end of energy-transmission optic fibre 10 and the said second energy-transmission optic fibre junction constitute altogether ability optical cable 100 is not shown in Fig. 1.Fig. 2 is the structure enlarged drawing of the optically-coupled end of the biography ability optical cable 100 among Fig. 1; Wherein for the sake of brevity; Heat radiator in Fig. 2 among not shown Fig. 1, temperature sensor and connection lead (back will be described); In addition, for the sake of clarity, the dimension scale of the clear glass end cap among Fig. 2 is by exaggerative.Fig. 3 is energy-transmission optic fibre 10 and the structural representation of light scattering pipe of the biography among Fig. 1 in can optical cable 100.

As shown in Figure 1, the metallic sheath 30 and the second energy-transmission optic fibre joint (not shown) that the biography that an embodiment of the utility model is described to be used for the middle low power Laser Transmission can optical cable 100 comprises energy-transmission optic fibre 10, the first energy-transmission optic fibre joint 20, separated each other by insulating medium.

Referring to Fig. 2 and Fig. 3, energy-transmission optic fibre 10 comprises fibre core 11 and covering 12, and the outside surface 12a of covering can pass through frosted and handle.At the described energy-transmission optic fibre 10 that passes optically-coupled end that can optical cable 100 of the utility model (promptly; At the clear glass end cap that will describe of back and the fiber section between the sheet metal) the outside surface of covering 12 light scattering pipe 13 is set; Light scattering pipe 13 can be processed through glass tube (for example quartz ampoule); Its refractive index greater than or be approximately equal to the refractive index of the covering 12 of optical fiber 10, its outside surface 13a handles through frosted.Light scattering pipe 13 can bond together through bonding agent 14 with the covering 12 of energy-transmission optic fibre 10.

Referring again to Fig. 1 and Fig. 2, the first embedded energy-transmission optic fibre joint 20 of an end of energy-transmission optic fibre 10 comprise metal tube 21, hermetically be fixed on clear glass end cap 22 in the end port of this metal tube 21, hermetically the sheet metal 23 in the other end port of fixing this metal tube, closely around the heat radiator 27 of the outer wall setting of metal tube 21 and be arranged on the temperature sensor 28 in metal tube 21 outer walls.

A said end of energy-transmission optic fibre 10 passes sheet metal 23 and extends the end face of this end and 22 couplings of clear glass end cap in grass tube 24 inside along the axis of metal tube 21.In addition, as stated, closely be with light scattering pipe 13 in the part between clear glass end cap 22 and sheet metal 23 of this end of energy-transmission optic fibre 10.

In the described in the above first energy-transmission optic fibre joint 20, according to some embodiment of the utility model, metal tube 21 can be processed by for example metal or metal alloy such as copper, aluminium or stainless steel with sheet metal 23.

According to some embodiment of the utility model, clear glass end cap 22 can be quartzy end cap, and it can be fixed in the port of an end of metal tube 21 through bonding agent 22a hermetically.The end face 22b of one end of clear glass end cap 22 can be coated with antireflection film, the exit end (not shown) coupling of this end face 22b and laser instrument.The end face 22c of the other end of clear glass end cap 22 can with the end face coupling of the said end of energy-transmission optic fibre 10, the side surface 22d of this end can carry out frosted to be handled.

When on the end face 22b of laser beam irradiation that laser instrument penetrates at clear glass end cap 22, owing to be coated with antireflection film on this end face 22b, so this laser beam gets in the clear glass end cap 22 in the lowland with regard to no reflection events or reflectivity very much.As shown in Figure 2; Some laser beam A shines on the fibre core 11 of energy-transmission optic fibre 10 and its incident angle meets the numerical aperture of energy-transmission optic fibre 10, and therefore, these laser beam A just is coupled in the energy-transmission optic fibre 10; In the total reflection of generation at the interface of fibre core 11 and covering 12, thus transmission forward.Some laser beam B also shines on the fibre core 11 of energy-transmission optic fibre 10, but its incident angle does not meet the numerical aperture of energy-transmission optic fibre 10, and some refraction on the interface of fibre core 11 and covering 12 of laser beam B that therefore gets in the optical fiber 10 gets in the covering 12.Some laser beam C then shines directly on the covering 12, enters into covering 12 transmission.Since the refractive index of the light scattering pipe 13 of covering 12 outsides greater than or be approximately equal to the refractive index of optical fiber 10 coverings 12; So laser beam B and the C of transmission can enter into light scattering pipe 13 in the outside surface 12a of the covering of handling through frosted 12 place's scattering in covering 12, and then light scattering pipe 13 in frosted was handled outside surface 13a place scattering entering grass tube 24.Like this, because the outside surface 12a of fibre core covering 12 and the outside surface 13b of light scattering pipe 13 have carried out the frosted processing, thereby have increased the scattering of the laser that is not coupled into fibre core greatly, this part light can be gathered in a bit produce high temperature.In addition, the light path disalignment of some laser beam D shines on the conical lateral surface 22d of clear glass end cap 22, because side surface 22d has passed through the frosted processing, therefore can laser beam D be scattered out.

No matter be the light that from energy-transmission optic fibre 10, scatters out, the light that still scatters out from the side surface 22d of clear glass end cap 22 finally all will be directly by metal tube 21 and sheet metal 23 absorptions and be converted into heat.Some embodiment according to the utility model; Side in the face of clear glass end cap 22 of the sheet metal 23 in the first energy-transmission optic fibre joint 20 can also be provided with glass plate 23a; This glass plate 23a closely contacts with sheet metal 23, and the frosted processing has been carried out on the surface with sheet metal 23 closely contacts of this glass plate 23a.Like this can be to might carrying out scattering from the light beam that laser instrument directly is mapped on the sheet metal 23, preventing damaging sheet metal 23, thereby prevent to damage the optical cable of sheet metal 23 back.

In order to improve the absorption efficiency of these scattered lights; So that as early as possible the form of luminous energy with heat energy exhaled; In some embodiment of the utility model; On the inwall in the face of the wall of a side of clear glass end cap 22 and metal tube 21 of sheet metal 23, cover the light absorbing material that is used to absorb the light in one or more wavelength coverages, wherein, this light absorbing material can comprise one or more layers light absorbing material.

The heat that is produced behind metal tube 21 and the sheet metal 23 ABSORPTION AND SCATTERING light can distribute very soon through heat radiator 27 goes out.In an embodiment of the utility model, as shown in Figure 1, heat radiator 27 comprises the base portion 27a that is close on metal tube 21 outer walls and is fixed on a plurality of blade 27b that base portion 27a goes up and separates each other.Heat radiator can adopt high conductivity material (for example copper, silica gel etc.) to process.

Referring again to Fig. 1; Can use safely by optical cable in order to make the described biography of the utility model; In one aspect; The described biography that is used for the middle low power Laser Transmission of an embodiment of the utility model can optical cable 100 first pass on the tube wall of metal tube 21 that can fiber cable joint 20 and also be provided with one or more temperature sensors 28, the temperature that is used to keep watch on metal tube 21.Temperature sensor 28 is connected with controller; Make because laser power is too big or the working time is oversize or since laser instrument when passing can the optical cable coupling not good value that causes the temperature that is detected that the laser leakage makes temperature sensor 28 greater than first predetermined threshold, said controller just cuts off the output of said laser instrument.

In Fig. 1, the part outside the optically-coupled end of biography ability optical cable 100 is the optical transmission section part, and this optical transmission section part is made up of energy-transmission optic fibre 10 and the metallic sheath 30 that wraps on the energy-transmission optic fibre 10.This metallic sheath 30 can only comprise first metallic sheath 31 that is enclosed within on the energy-transmission optic fibre 10; Second metallic sheath 33 that also can that kind as shown in Figure 1 comprises first metallic sheath 31 and separate through the insulating medium 32 and first metallic sheath 31, wherein second metallic sheath 33 is fixedly connected with the said other end of the metal tube 21 of the first energy-transmission optic fibre joint 20.Preferably, second metallic sheath 33 is the flexible metal(lic) conduits that turn to.

Can use safely by optical cable in order to make the described biography of the utility model; In yet another aspect, the two ends that are enclosed within first metallic sheath 31 on the energy-transmission optic fibre 10 of the optical transmission section that the described biography that is used for the middle low power Laser Transmission of the embodiment of the utility model can optical cable 100 are connected to said controller.If the power at the laser of this optical transmission section transmission is too big, to such an extent as to burn out first metallic sheath 31, resistance will become big between the said two ends of this first metallic sheath 31 so.When the resistance between the said two ends of first metallic sheath 31 during greater than second predetermined threshold, said controller will cut off the output of laser instrument.

Although in Fig. 1-Fig. 3, do not illustrate; An embodiment of the utility model is described pass can optical cable 100 the other end relative with its optically-coupled end be light output end, the light output end is that the relative other end of an end that is coupled to clear glass end cap 22 with it of energy-transmission optic fibre 10 embeds in the second energy-transmission optic fibre joint and forms.In an embodiment of the utility model; The structure of this second energy-transmission optic fibre joint can be identical with the structure of the first energy-transmission optic fibre joint 20, and the combination of this second energy-transmission optic fibre joint and the said other end of energy-transmission optic fibre 10 can be identical with the combination with ends 22 couplings of clear glass end cap the first energy-transmission optic fibre joint 20 and energy-transmission optic fibre 10.In other words, in an embodiment of the utility model, the biography that is used for the middle low power Laser Transmission can have the head and the tail symmetrical structure by optical cable 100.Temperature sensor on the said second energy-transmission optic fibre joint is connected on the said controller, and when making value when the temperature that this temperature sensor detected greater than the 3rd predetermined threshold, this controller cuts off the output of said laser instrument.In use, from pass can optical cable 100 outputs laser radiation on object, at this moment, the reflected light that has a some returns biography can optical cable 100, thereby the temperature of the light output end that biography can optical cable 100 is raise.Therefore, the clear glass end cap of the light output end of biography ability optical cable 100 need not plate antireflection film.In addition, also can according to circumstances design the light-emitting face shape of this clear glass end cap, make the light that reflects from object be not easy to be coupled into the said light output end of biography ability optical cable 100.Certainly; According to different application,, can also adopt the simpler second energy-transmission optic fibre joint of structure according to catoptrical power; For example, just the light output end of energy-transmission optic fibre is sealed in the second energy-transmission optic fibre joint that with dust around reducing fiber end face is polluted in the glass cap.

Should note; Functional circuit can directly or (for example be passed through in the two ends of the metallic sheath (perhaps first metallic sheath) of the optical transmission section of the temperature sensor on the first energy-transmission optic fibre joint among the said embodiment of the utility model, the temperature sensor on the second energy-transmission optic fibre joint and biography ability optical cable; Amplifier, signal converter, comparer, trigger etc.) be connected to indirectly in the said controller, thus the monitoring and the control of realization temperature.Comprise that said temperature sensor, optical transmission section metallic sheath, controller and other function electric device are that those of skill in the art are easy to conceive with the structure of the circuit of the described temp monitoring function of realization the utility model; And can have multiple modification, just it not carried out detailed description here.Need to prove; As shown in Figure 1, lead 28a that links to each other with said temperature sensor 28 and the lead 31a that links to each other with said optical transmission section metallic sheath 31 can be through in the metallic channels on the tube wall that embeds metal tube 21 for example or imbed in the insulation course 32 of said optical transmission section and come cabling.Obviously, other cabling mode also is possible.

As stated; The described biography ability structure that optical cable adopted that is used for the middle low power Laser Transmission of the embodiment of the utility model makes laser pass and can produce heat as few as possible by optical cable; Even and laser is passing and can produce heat in the optical cable; Heat is dissipated as early as possible, in addition, in case the heat that laser produces just makes biography quit work by optical cable in the time of maybe will damaging optical cable.Like this, the utility model is described to pass the laser that the ability optical cable not only can transmit middle low power, and in use safe and reliable.In addition, the compact conformation of the said biography ability of the utility model optical cable is simple, has reduced manufacturing cost.

As above having described the described biography that is used for the middle low power Laser Transmission of the utility model with reference to accompanying drawing with the mode of example can optical cable.But, it will be appreciated by those skilled in the art that for the described biography ability optical cable that is used for the middle low power Laser Transmission of above-mentioned the utility model, can also on the basis that does not break away from the utility model content, make various improvement.Therefore, the protection domain of the utility model should be confirmed by the content of appending claims.

Claims (10)

1. a biography that is used for the middle low power Laser Transmission can optical cable; It is characterized in that; Comprise one section energy-transmission optic fibre, an end of this section energy-transmission optic fibre embeds in the first energy-transmission optic fibre joint that is coupled with the laser emitting end, and the other end of this section energy-transmission optic fibre embeds in the second energy-transmission optic fibre joint; Be surrounded by metallic sheath around the optical transmission section part outside the said two ends of this section energy-transmission optic fibre, the said first energy-transmission optic fibre joint comprises:

Metal tube;

Be fixed on the clear glass end cap in the end port of this metal tube hermetically;

Be fixed on the sheet metal in the other end port of this metal tube hermetically;

The heat radiator that closely is provided with around the outer wall of said metal tube; And

Be arranged on the temperature sensor in the said metal tube outer wall,

Wherein, A said end of said energy-transmission optic fibre passes said sheet metal extension along the axis of said metal tube; The end face of this end and the coupling of said clear glass end cap; The part between said clear glass end cap and said sheet metal of a said end of said energy-transmission optic fibre closely is with the light scattering pipe

Said temperature sensor and/or wrap in optical transmission section part outside the said two ends of said energy-transmission optic fibre around said metallic sheath be connected on the controller; Make when the value of said temperature sensor institute temperature detected greater than first predetermined threshold or when the resistance of said metallic sheath during greater than second predetermined threshold, said controller cuts off the output of said laser instrument.

2. the biography ability optical cable that is used for the middle low power Laser Transmission according to claim 1; It is characterized in that; End face with an end said laser emitting end coupling said clear glass end cap is coated with antireflection film, and the side surface with an end said energy-transmission optic fibre coupling said clear glass end cap has carried out the frosted processing.

3. the biography ability optical cable that is used for the middle low power Laser Transmission according to claim 1; It is characterized in that; Side in the face of said clear glass end cap of the said sheet metal in the said first energy-transmission optic fibre joint also is provided with glass plate, and this glass plate closely contacts with said sheet metal and the frosted processing has been carried out on the surface with said sheet metal closely contacts of this glass plate.

4. the biography ability optical cable that is used for the middle low power Laser Transmission according to claim 1; It is characterized in that; Said light scattering pipe is processed by glass tube, and this light scattering pipe is bonding through the covering of bonding agent and said energy-transmission optic fibre, and the outer wall of this light scattering pipe has carried out the frosted processing.

5. the biography ability optical cable that is used for the middle low power Laser Transmission according to claim 1; It is characterized in that, be coated with the light absorbing material that is used to absorb the light in one or more wavelength coverages on the surface of a side of facing said clear glass end cap of the inwall of said metal tube and/or said sheet metal.

6. the biography ability optical cable that is used for the middle low power Laser Transmission according to claim 3; It is characterized in that, be coated with the light absorbing material that is used to absorb the light in one or more wavelength coverages on the surface of a side of facing said clear glass end cap of the inwall of said metal tube and/or said sheet metal.

7. according to claim 5 or the 6 described biography ability optical cables that are used for the middle low power Laser Transmission, it is characterized in that said light absorbing material comprises one or more layers light absorbing material.

8. according to the described biography ability optical cable that is used for the middle low power Laser Transmission of the arbitrary claim among the claim 1-6; It is characterized in that; Wrap in optical transmission section part outside the said two ends of said energy-transmission optic fibre around said metallic sheath comprise first metallic sheath that is enclosed within on the said energy-transmission optic fibre and be enclosed within second metallic sheath on said first metallic sheath; And be filled with electrically insulating material between said first metallic sheath and said second metallic sheath, said second metallic sheath is fixedly connected with the said other end of the said metal tube of the said first energy-transmission optic fibre joint.

9. according to the described biography ability optical cable that is used for the middle low power Laser Transmission of the arbitrary claim among the claim 1-6; It is characterized in that; The structure of the said second energy-transmission optic fibre joint is identical with the structure of the said first energy-transmission optic fibre joint, and the combination of the said other end of said second energy-transmission optic fibre joint and said energy-transmission optic fibre is identical with the combination of a said end of said first energy-transmission optic fibre joint and said energy-transmission optic fibre.

10. the biography ability optical cable that is used for the middle low power Laser Transmission according to claim 9; It is characterized in that; Temperature sensor on the said second energy-transmission optic fibre joint is connected on the said controller; Make that this controller cuts off the output of said laser instrument when this temperature sensor institute temperature detected during greater than the 3rd predetermined threshold.

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