CN102279440A - Light transmission method, light transmission line and light transmission system using light transmission line - Google Patents
Light transmission method, light transmission line and light transmission system using light transmission line Download PDFInfo
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- CN102279440A CN102279440A CN201010205677.0A CN201010205677A CN102279440A CN 102279440 A CN102279440 A CN 102279440A CN 201010205677 A CN201010205677 A CN 201010205677A CN 102279440 A CN102279440 A CN 102279440A
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- light
- transmission line
- light transmission
- optical transmission
- reflecting mirror
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Abstract
The invention provides a novel light transmission method, a light transmission line and a light transmission system using the light transmission line. The light transmission method comprises the following steps of: A, preparing a reflecting mirror: finding a reflecting mirror with a possibly high reflection index and preparing the reflecting mirror into a reflecting mirror of a corresponding shape; B, preparing a vacuum container: selecting a container with high airtightness; C, arranging a reflecting mirror group according to a light path and putting the reflecting mirror group into a vacuum container obtained in the step B, wherein light rays move forward along a designed light path under the action of the reflecting mirror when a light source is radiated onto a first reflecting mirror at a corresponding incident angle in a corresponding direction, so that the aim of transmitting light rays is fulfilled; and D, exhausting or eliminating gas inside the vacuum container in the step C in a physical or chemical or physical-chemical combination mode till the internal air pressure of the container is possibly close to zero, and sealing the port of the container by using a high-airtightness material to prevent gas from entering the container.
Description
Technical field
The present invention relates to a kind of optical transmission line that is used in light transmission, the invention still further relates to the optical transmission system that utilizes this optical transmission line.
Background technology
We need more healthy, more comfortable, more convenient, more good days environment and life style.
By the light conducts information, become the main flow of current information society.Optical cable is the main delivery means of the various Information Networks of current information society, plays an important role in national economy.Existing optical cable all is to realize what the curve circuit of light was carried by the total reflection principle that utilizes light, wherein is exactly optical fiber cable the most significantly.Though other transmission mode relatively, the transfer efficiency of existing optical fiber cable is higher relatively, and along with the aggravation of IT application process, we need better transmission mode.
Cause the principal element of optical fiber attenuation to have: intrinsic, bending, extruding, impurity, inhomogeneous and butt joint etc.We can learn thus, and the main mode of the decay of light is scattering and absorption in the optical fiber.
Summary of the invention
The present invention forms in view of such problem, and provide a kind of optical transmission system of method, optical transmission line and this optical transmission line of use of new light transmission, be intended to the principle by changing existing light transmission and the structure of optical transmission line, to solve the attenuation problem in the existing optical transmission process.
Technical solution of the present invention is as follows:
The method of light transmission, it is finished by following steps:
A kind of method of light transmission, it is finished by following steps:
The preparation of A, catoptron: seek the high as far as possible catoptron of reflectivity, and be made into corresponding shape;
The preparation of B, vacuum tank: select the good container of impermeability;
C, reflector group is arranged by light path, and place it in the described vacuum tank of step B, after light source was followed corresponding incident angle and direction and shone on first catoptron, light will follow the light path that designs and advance to reach the purpose of transmission ray under the effect of catoptron;
D, the mode by physics, chemistry or its combination the described vacuum tank gas inside of step C is got rid of or eliminate make this internal tank air pressure as much as possible near zero, then by adopting the good material of light transmission that the port sealing of this container is entered in it to intercept gas.
In the method for a kind of light transmission of the present invention, described vacuum tank can be one or more.
In the method for a kind of light transmission of the present invention, described reflector group can be one group or many groups.
A kind of optical transmission line comprises: protective seam, pipeline, reflecting wall, separation layer.
In a kind of optical transmission line of the present invention, described protective seam is used to protect described pipeline not to be squeezed and does not produce violent bending; Comprise one or more of described pipelines in the described protective seam.
In a kind of optical transmission line of the present invention, described pipeline is used to keep the unimpeded and indeformable of its inner space; The inwall of described pipeline is used to lay reflective material and forms described reflecting wall; Described pipeline can be crooked to a certain extent.
In a kind of optical transmission line of the present invention, described reflecting wall is used to reflection ray and makes light obtain transmission; The cross sectional shape of described reflecting wall comprises triangle, quadrilateral, other polygon, circle, ellipse or other arc.
In a kind of optical transmission line of the present invention, described separation layer is the air seal layer of being made by the good material of light conductivity; Described separation layer is used to isolate described pipe interior and is connected with the gas of external environment condition; Described separation layer is used to connect the inside of described pipeline and the light from outside of described pipeline.
A kind of optical transmission system, it adopts the optical transmission line described in a kind of optical transmission line of the present invention as at least a portion optical transmission line.
Advantage of the present invention: the present invention has improved the non-relay transmission length of optical transmission line by the principle that changes existing light transmission, the structure of optical transmission line, has reduced transmission cost effectively.
Description of drawings
Fig. 1 is the light path synoptic diagram of the method for light transmission of the present invention.
Fig. 2 is the cross-sectional view of optical transmission line of the present invention.
Fig. 3 is the synoptic diagram about separation layer of optical transmission line of the present invention.
The figure number explanation:
1 vacuum environment, 2 pipelines
3 protective seams, 4 separation layers
Embodiment
Be used to implement preferred forms of the present invention according to description of drawings below.
Fig. 1 shows the light path synoptic diagram of the method for light transmission of the present invention.
Fig. 2 shows the cross-sectional view of optical transmission line of the present invention.
Fig. 3 shows the synoptic diagram about separation layer of optical transmission line of the present invention.
The method of light transmission of the present invention comprises follow procedure:
A kind of method of light transmission, it is finished by following steps:
The preparation of A, catoptron: seek the high as far as possible catoptron of reflectivity, and be made into corresponding shape;
The preparation of B, vacuum tank: select the good container of impermeability;
C, reflector group is arranged by light path, and place it in the described vacuum tank of step B, after light source was followed corresponding incident angle and direction and shone on first catoptron, light will follow the light path that designs and advance to reach the purpose of transmission ray under the effect of catoptron;
D, the mode by physics, chemistry or its combination the described vacuum tank gas inside of step C is got rid of or eliminate make this internal tank air pressure as much as possible near zero, then by adopting the good material of light transmission that the port sealing of this container is entered in it to intercept gas.
Optical transmission line of the present invention comprises as follows:
Protective seam 3, this protective seam is similar to the protective seam of optical fiber, and this protective seam is used to protect described pipeline 2 not to be squeezed and does not produce violent bending; Comprise one or more of described pipelines 2 in this protective seam.
Pipeline 2, this pipeline are used to keep the unimpeded and indeformable of its inner space; The inwall of this pipeline is used to lay reflective material and forms described reflecting wall; This pipeline can be crooked to a certain extent to make things convenient for the curve transmission of light.
Vacuum environment, this vacuum environment are used to make light to pass therein, to reduce the decay that causes because of absorption in the Optical Fiber Transmission; The air pressure of this vacuum environment is low as much as possible.
Separation layer 4, this separation layer are the air seal layers of being made by the good material of light conductivity; This separation layer is used to isolate described pipeline 2 inside and is connected with the gas of external environment condition; This separation layer is used to connect the inside of described pipeline 2 and the light from outside of described pipeline 2.
Reflecting wall, this reflecting wall are used to reflection ray and make light transmission, to reduce the decay that causes because of scattering in the Optical Fiber Transmission; The cross sectional shape of this reflecting wall comprises triangle, quadrilateral, other polygon, circle, ellipse or other arc; Reflective material forms this reflecting wall by laying on the inwall of described pipeline 2, and we need select the high as far as possible material of reflectivity, also will consider the factor of industry and cost certainly.
Optical transmission system of the present invention, it adopts the optical transmission line described in the transmission line of light of the present invention as at least a portion optical transmission line.
Foregoing description only proposes as a kind of enforceable technical scheme of the optical transmission system of method, optical transmission line and this optical transmission line of use of light transmission of the present invention, as to its structure or technology limitation condition.
Claims (9)
1. the method for a light transmission, it is finished by following steps:
The preparation of A, catoptron: seek the high as far as possible catoptron of reflectivity, and be made into corresponding shape;
The preparation of B, vacuum tank: select the good container of impermeability;
C, reflector group is arranged by light path, and place it in the described vacuum tank of step B, after light source was followed corresponding incident angle and direction and shone on first catoptron, light will follow the light path that designs and advance to reach the purpose of transmission ray under the effect of catoptron;
D, the mode by physics, chemistry or its combination the described vacuum tank gas inside of step C is got rid of or eliminate make this internal tank air pressure as much as possible near zero, then by adopting the good material of light transmission that the port sealing of this container is entered in it to intercept gas.
2. the method for light transmission according to claim 1, it is characterized in that: described vacuum tank can be one or more.
3. the method for light transmission according to claim 1 is characterized in that: described reflector group can be one group or many groups.
4. an optical transmission line comprises: protective seam, pipeline, reflecting wall, separation layer.
5. optical transmission line according to claim 4 is characterized in that: described protective seam is used to protect described pipeline not to be squeezed and does not produce violent bending; Comprise one or more of described pipelines in the described protective seam.
6. optical transmission line according to claim 4 is characterized in that: described pipeline is used to keep the unimpeded and indeformable of its inner space; The inwall of described pipeline is used to lay reflective material and forms described reflecting wall; Described pipeline can be crooked to a certain extent.
7. optical transmission line according to claim 4 is characterized in that: described reflecting wall is used to reflection ray and makes light obtain transmission; The cross sectional shape of described reflecting wall comprises triangle, quadrilateral, other polygon, circle, ellipse or other arc.
8. optical transmission line according to claim 4 is characterized in that: described separation layer is the air seal layer of being made by the good material of light conductivity; Described separation layer is used to isolate described pipe interior and is connected with the gas of external environment condition; Described separation layer is used to connect the inside of described pipeline and the light from outside of described pipeline.
9. optical transmission system, it adopts the described optical transmission line of claim 4 as at least a portion optical transmission line.
Priority Applications (1)
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CN201010205677.0A CN102279440A (en) | 2010-06-12 | 2010-06-12 | Light transmission method, light transmission line and light transmission system using light transmission line |
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CN201010205677.0A CN102279440A (en) | 2010-06-12 | 2010-06-12 | Light transmission method, light transmission line and light transmission system using light transmission line |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110376689A (en) * | 2019-07-22 | 2019-10-25 | 嘉兴怀莲贸易有限公司 | Photoelectric coupling lens group |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1121589A (en) * | 1994-10-22 | 1996-05-01 | 何燕 | Vacuum raysistor |
CN201096911Y (en) * | 2007-04-16 | 2008-08-06 | 潘佩昌 | A vacuum light conduit |
-
2010
- 2010-06-12 CN CN201010205677.0A patent/CN102279440A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1121589A (en) * | 1994-10-22 | 1996-05-01 | 何燕 | Vacuum raysistor |
CN201096911Y (en) * | 2007-04-16 | 2008-08-06 | 潘佩昌 | A vacuum light conduit |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110376689A (en) * | 2019-07-22 | 2019-10-25 | 嘉兴怀莲贸易有限公司 | Photoelectric coupling lens group |
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Application publication date: 20111214 |