CN102955208B - System for adjusting light transmission channel interface dislocation - Google Patents
System for adjusting light transmission channel interface dislocation Download PDFInfo
- Publication number
- CN102955208B CN102955208B CN201110248914.6A CN201110248914A CN102955208B CN 102955208 B CN102955208 B CN 102955208B CN 201110248914 A CN201110248914 A CN 201110248914A CN 102955208 B CN102955208 B CN 102955208B
- Authority
- CN
- China
- Prior art keywords
- light transmission
- light
- channel interface
- transmission channel
- identical element
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
A system for adjusting light transmission channel interface dislocation comprises an energy-level curve light transmission unit, an energy-level linear light transmission unit, a shell layer, fasteners, photovoltaic boards, a positioning system, an adjusting system, and a software control system. The system is characterized in that the energy-level curve light transmission unit and the energy-level linear light transmission unit are connected into a light transmission channel. A process for starting the system for adjusting light transmission channel interface dislocation includes: after a light transmission channel interface dislocates, light from the light transmission channel escapes from the light transmission channel interface; the photovoltaic boards at the light transmission channel interface are irradiated by the escaping light and convert light energy into electric energy; and the positioning system, the adjusting system and the software control system are started to adjust the light transmission channel interface dislocation.
Description
Technical field
What patent of the present invention related to is light transmission channel interface dislocation adjustment System, especially a kind of by location light transmission channel interface, light transmission channel interface adjustment System formation light transmission channel interface dislocation adjustment System.
Background technology
Light transmission channel interface dislocation adjustment System is to adjust the adjustment System of energy grade light ray curve transmission and the dislocation of energy grade light ray linear transmission internal transmission interface.
Light transmission channel interface dislocation adjustment System is to reflect, reflection, total reflection polycondensation mirror (application number: 201010028057.4), refraction, reflection, total reflection polycondensation mirror is the integrated concentrating method (application number: 201010134349.6) of main body, refraction, reflection polycondensation mirror (application number: 201010028058.9), refraction, reflection polycondensation mirror is the integrated concentrating method (application number: 201010134358.5) of main body, the method of energy grade light ray curve transmission (application number: 201010266432.9), the method of energy grade light ray linear transmission (application number: 201010266412.1), slide rheostat localization method (the application number: 201010286320.X) of light transmission passage, the pressure localization method of light transmission passage (application number: 201010286334.1) be basis.
Summary of the invention
The object of the invention is to adjust the dislocation of light transmission channel interface in the mode of robotization, provide a kind of and carry out by robotization mode the light transmission channel interface dislocation adjustment System that interface dislocation is adjusted.
Light transmission channel interface dislocation adjustment System of the present invention, comprise: energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element, shell layer, stationary installation, electro-optical package, positioning system, adjustment System, software control system, it is characterized in that: by energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element connects into light transmission passage, the unit joint of light transmission passage is exactly energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element, connector between light transmission channel unit joint is exactly light transmission channel interface, energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element is all unidirectional to the transmission of light, therefore, light transmission channel interface is divided into Four types: the first is the combination of interfaces of light from energy grade light ray curve transmission identical element to energy grade light ray linear transmission identical element, the second is the combination of interfaces of light from energy grade light ray curve transmission identical element to energy grade light ray curve transmission identical element, the third is the combination of interfaces of light from energy grade light ray linear transmission identical element to energy grade light ray linear transmission identical element, the 4th kind is the combination of interfaces of light from energy grade light ray linear transmission identical element to energy grade light ray curve transmission identical element, central core is light transmission passage, skin is the shell layer of sealing and protection light transmission passage, light transmission passage does not directly contact with shell layer, by energy grade light ray curve transmission identical element, the two ends of energy grade light ray linear transmission identical element are fixed on shell layer inside, fixed sources of energy level light ray curve transmission identical element, the device at the two ends of energy grade light ray linear transmission identical element has three functions, first function is fixed sources of energy level light ray curve transmission identical element, energy grade light ray linear transmission identical element, second function is location energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element residing position in shell layer, the 3rd function is to adjust energy grade light ray curve transmission identical element, the position of energy grade light ray linear transmission identical element.Light transmission channel interface dislocation adjustment System consists of four parts, and first is fixed on shell layer inside at light transmission channel interface punishment cloth electro-optical package, to adjustment System, provides electric energy, second portion is positioning system, positioning system is in the inside of the matrix of stationary installation, location light transmission passage is in the position of shell layer inside, the construction method of positioning system has two kinds: the first is the pressure localization method of light transmission passage, coordinate system at least consists of three identical cylinder system, three cylinder system are fixed in loop configuration, and three cylinder system are in same plane, the top of piston handle is on concentric circles, the extended line of piston handle meets at a bit, the extending line intersection point of piston handle is the concentrically ringed center of circle on piston handle top, the intersection point of piston handle extended line is the reference point of coordinate system, piston handle top is connected with light transmission passage, the second is the slide rheostat localization method of light transmission passage, coordinate system at least consists of three pairs of identical slide rheostats and spring pairing, the three pairs of identical slide rheostats and spring are fixed in loop configuration, slide rheostat and spring are in same plane, and slide rheostat is parallel with spring, the top of spring is on concentric circles, the extended line of spring meets at a bit, the extending line intersection point of spring is the concentrically ringed center of circle on spring top, the intersection point of spring extended line is the reference point of coordinate system, spring top is connected with light transmission passage, third part is adjustment System, adjustment System is at least by three pairs of identical movable externally threaded right cylinders that have, fixing have internal thread and have a supporting matrix of externally threaded right cylinder with movable, direct current motor forms, adjustment System construction method is identical with the construction method of positioning system, all one to one, the movable externally threaded right cylinder that has is placed in fixing matrix, direct current motor is fixed in matrix, on the rotation axis of direct current motor, mixing screw thread coordinates with the movable externally threaded right cylinder that has, the externally threaded right cylinder that has that DC motor control is movable extends and shortens in fixing base, the movable externally threaded cylindrical top that has is connected with light transmission passage, the interface of depositing for the light transmission channel interior adjustment that misplaces, the 4th part is software control system, by sensor, chip, software, formed, by light transmission passage, the positional information in shell layer inside passes to chip to sensor, and software virtual goes out the positional information of light transmission channel in shell layer, software control adjustment System.The mode of adjusting the dislocation of light transmission channel interface has three kinds: the first is that the beam projecting end of light transmission channel interface is fixed, and adjusts the light incident end of light transmission channel interface; The second is the beam projecting end of adjusting light transmission channel interface, and the light incident end of light transmission channel interface is fixed; The third is to adjust the beam projecting end of light transmission channel interface and the light incident end of light transmission channel interface simultaneously.The startup flow process of light transmission channel interface dislocation adjustment System: light transmission channel interface dislocation, light in light transmission passage is escaped from light transmission channel interface, the light of escaping is irradiated to the electro-optical package at light transmission channel interface place, transfer luminous energy to electric energy, start positioning system, adjustment System, software control system, adjust the dislocation of light transmission channel interface.
Light transmission channel interface dislocation adjustment System of the present invention is provided in detail by the following drawings and embodiment.
Accompanying drawing explanation
Fig. 1 is the schematic cross-section of light transmission channel interface dislocation adjustment System;
Fig. 2 is the identical element schematic cross-section on the annulus of stationary installation of light transmission channel interface dislocation adjustment System.
Embodiment
Embodiment:
Fig. 1 is the schematic cross-section of light transmission channel interface dislocation adjustment System, (1) represent the light transmission direction in light transmission passage, (2) represent the stationary installation of light transmission channel interface beam projecting end, (3) represent the unit joint of the light transmission passage of light transmission channel interface beam projecting end, (4) represent electro-optical package, (5) represent housing, (6) represent the stationary installation of light transmission channel interface light incident end, (7) represent the unit joint of the light transmission passage of light transmission channel interface light incident end, light transmission direction (1) in light transmission passage is unidirectional, and its reason is: the energy grade light ray curve transmission identical element and the energy grade light ray linear transmission identical element that form light transmission passage are all unidirectional to the transmission of light, the unit joint (3) of the light transmission passage of light transmission channel interface beam projecting end saves with the unit of the light transmission passage of light transmission channel interface light incident end the light transmission channel interface that (7) form, the unit joint (3) of the light transmission passage of light transmission channel interface beam projecting end has two kinds of structures: the first is energy grade light ray curve transmission identical element, the second is energy grade light ray linear transmission identical element, the unit joint (7) of the light transmission passage of light transmission channel interface light incident end has two kinds of structures: the first is energy grade light ray curve transmission identical element, the second is energy grade light ray linear transmission identical element, electro-optical package (4) is the inside that is fixed on housing (5), its effect is: when the unit joint (3) of light transmission passage of light transmission channel interface beam projecting end and the light transmission channel interface dislocation of unit joint (7) formation of the light transmission passage of light transmission channel interface light incident end, light in light transmission passage is escaped from light transmission channel interface, the light of escaping is irradiated to the electro-optical package (4) at light transmission channel interface place, electro-optical package (4) transfers luminous energy to electric energy, for positioning system, adjustment System, software control system provide electric energy, housing (5) is the firm housing of tubulose, housing (5) is when two ports of sealing, can seal light transmission passage, its effect is: do not allow dust adhesion at light transmission passage, housing (5) is firm, its effect is: guarantee that housing (5) is difficult for generation deformation, the light transmission passage in protection housing (5) and device and electro-optical package fixing, that locate, adjust light transmission passage, the stationary installation (6) of the stationary installation (2) of light transmission channel interface beam projecting end and light transmission channel interface light incident end is fixed on the inner central area of housing (5) by light transmission passage, and, light transmission passage is not directly contacted with housing (5), and the inside of the stationary installation (6) of the stationary installation (2) of light transmission channel interface beam projecting end and light transmission channel interface light incident end is Integrated Positioning System, adjustment System, chip also.
Fig. 2 is the identical element schematic cross-section on the annulus of stationary installation of light transmission channel interface dislocation adjustment System, (8) represent to connect the piston of light transmission passage, (9) represent the matrix of stationary installation, (10) represent to connect the space of the piston of light transmission passage and the formation of the matrix of stationary installation, (11) the matrix inside that is illustrated in stationary installation has screw rod that can kinetic force, (12) represent that diameter becomes large screw rod, (13) represent chip, (14) represent power lead, (15) represent data line, (16) represent power lead, (17) represent direct current motor, (18) represent drive link, the top that connects the piston (8) of light transmission passage is connected with light transmission passage, the piston (8) that connects light transmission passage is present in the cylinder on matrix (9) top of stationary installation, the movement locus of the piston (8) of the cylinder control linkage light transmission passage on the matrix of stationary installation (9) top, the cylinder height on the matrix of stationary installation (9) top is lower than the height that connects the piston (8) of light transmission passage, and its effect is to prevent that light transmission passage from bumping against the matrix of stationary installation (9) top, the space (10) that connects the piston of light transmission passage and the formation of the matrix of stationary installation is the activity space of the piston (8) that is connected light transmission passage, in the matrix inside of stationary installation, have can kinetic force screw rod (11) and diameter to become large screw rod (12) be one, in the matrix inside of stationary installation, having can the screw rod (11) of kinetic force and the matrix (9) of stationary installation is inner forms supporting helicitic texture, the matrix inside that is rotated in stationary installation has screw rod (11) that can kinetic force, when the matrix inside in stationary installation have can kinetic force screw rod (11) during in space (10) elongation that connects that the piston of light transmission passage and the matrix of stationary installation form, in the matrix inside of stationary installation, have can kinetic force screw rod (11) piston (8) that promotes to connect light transmission passage move upward, when the matrix inside in stationary installation have can kinetic force screw rod (11) during in space (10) shortening that connects that the piston of light transmission passage and the matrix of stationary installation form, the piston (8) that connects light transmission passage has the space moving downward in the space (10) that connects the piston of light transmission passage and the formation of the matrix of stationary installation, diameter becomes large screw rod (12) and coordinates threadably with the drive link (18) on direct current motor (17), direct current motor (17) controls by drive link (18) motion that diameter becomes large screw rod (12), reach the stretching motion that the matrix inside that is controlled at stationary installation has screw rod (11) that can kinetic force, it is larger than the diameter of drive link (18) that diameter becomes large screw rod (12), it is greatly in order to be reduced in the matrix inside of stationary installation, to have the stretching speed of screw rod (11) that can kinetic force that the diameter that diameter becomes large screw rod (12) becomes, and then the precision of raising control, positioning system is imported data message into chip (13) by data line (15), chip (13) is controlled connected mode and the time of power lead (14) and power lead (16), control the rotating manner of direct current motor (17): rotate and reverse, control the rotation time of direct current motor (17), the stationary installation of light transmission channel interface dislocation adjustment System at least consists of the matrix (9) of three identical stationary installations, the matrix of three stationary installations (9) is fixed on circular ring structure, and the matrix of three stationary installations (9) is in same plane.
Claims (6)
1. light transmission channel interface dislocation adjustment System, comprise: energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element, shell layer, stationary installation, electro-optical package, positioning system, adjustment System, software control system, it is characterized in that: by energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element connects into light transmission passage, the unit joint of light transmission passage is exactly energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element, connector between light transmission channel unit joint is exactly light transmission channel interface, central core is light transmission passage, skin is the shell layer of sealing and protection light transmission passage, light transmission passage does not directly contact with shell layer, and the two ends of energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element are fixed on to shell layer inside, light transmission channel interface dislocation adjustment System consists of four parts, and first is fixed on shell layer inside at light transmission channel interface punishment cloth electro-optical package, to adjustment System, provides electric energy, second portion is positioning system, positioning system is in the inside of the matrix of stationary installation, location light transmission passage is in the position of shell layer inside, the construction method of positioning system has two kinds: the first is the pressure localization method of light transmission passage, coordinate system consists of three identical cylinder system, three cylinder system are fixed in loop configuration, and three cylinder system are in same plane, the top of piston handle is on concentric circles, the extended line of piston handle meets at a bit, the extending line intersection point of piston handle is the concentrically ringed center of circle on piston handle top, the intersection point of piston handle extended line is the reference point of coordinate system, piston handle top is connected with light transmission passage, the second is the slide rheostat localization method of light transmission passage, coordinate system consists of three pairs of identical slide rheostats and spring pairing, the three pairs of identical slide rheostats and spring are fixed in loop configuration, slide rheostat and spring are in same plane, and slide rheostat is parallel with spring, the top of spring is on concentric circles, the extended line of spring meets at a bit, the extending line intersection point of spring is the concentrically ringed center of circle on spring top, the intersection point of spring extended line is the reference point of coordinate system, spring top is connected with light transmission passage, third part is adjustment System, adjustment System is by three pairs of identical movable externally threaded right cylinders that have, fixing have internal thread and have a supporting matrix of externally threaded right cylinder with movable, direct current motor forms, adjustment System construction method is identical with the construction method of positioning system, all one to one, the movable externally threaded right cylinder that has is placed in fixing matrix, direct current motor is fixed in matrix, on the rotation axis of direct current motor, mixing screw thread coordinates with the movable externally threaded right cylinder that has, the externally threaded right cylinder that has that DC motor control is movable extends and shortens in fixing base, the movable externally threaded cylindrical top that has is connected with light transmission passage, the light transmission channel interface of depositing for the light transmission channel interior adjustment that misplaces, the 4th part is software control system, by sensor, chip, software, formed, by light transmission passage, the positional information in shell layer inside passes to chip to sensor, and software virtual goes out the positional information of light transmission channel in shell layer, software control adjustment System, the startup flow process of light transmission channel interface dislocation adjustment System: light transmission channel interface dislocation, light in light transmission passage is escaped from light transmission channel interface, the light of escaping is irradiated to the electro-optical package at light transmission channel interface place, transfer luminous energy to electric energy, start positioning system, adjustment System, software control system, adjust the dislocation of light transmission channel interface.
2. light transmission channel interface dislocation adjustment System according to claim 1, it is characterized in that: energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element is all unidirectional to the transmission of light, therefore, light transmission channel interface is divided into Four types: the first is the combination of interfaces of light from energy grade light ray curve transmission identical element to energy grade light ray linear transmission identical element, the second is the combination of interfaces of light from energy grade light ray curve transmission identical element to energy grade light ray curve transmission identical element, the third is the combination of interfaces of light from energy grade light ray linear transmission identical element to energy grade light ray linear transmission identical element, the 4th kind is the combination of interfaces of light from energy grade light ray linear transmission identical element to energy grade light ray curve transmission identical element.
3. light transmission channel interface dislocation adjustment System according to claim 1, it is characterized in that: fixed sources of energy level light ray curve transmission identical element, the device at the two ends of energy grade light ray linear transmission identical element has three functions, first function is fixed sources of energy level light ray curve transmission identical element, energy grade light ray linear transmission identical element, second function is location energy grade light ray curve transmission identical element, energy grade light ray linear transmission identical element residing position in shell layer, the 3rd function is to adjust energy grade light ray curve transmission identical element, the position of energy grade light ray linear transmission identical element.
4. light transmission channel interface dislocation adjustment System according to claim 1, it is characterized in that: the mode of adjusting the dislocation of light transmission channel interface has three kinds: the first is that the beam projecting end of light transmission channel interface is fixed, and adjusts the light incident end of light transmission channel interface; The second is the beam projecting end of adjusting light transmission channel interface, and the light incident end of light transmission channel interface is fixed; The third is to adjust the beam projecting end of light transmission channel interface and the light incident end of light transmission channel interface simultaneously.
5. light transmission channel interface dislocation adjustment System according to claim 1, it is characterized in that: the light transmission direction (1) in light transmission passage is unidirectional, and its reason is: the energy grade light ray curve transmission identical element and the energy grade light ray linear transmission identical element that form light transmission passage are all unidirectional to the transmission of light, the unit joint (3) of the light transmission passage of light transmission channel interface beam projecting end saves with the unit of the light transmission passage of light transmission channel interface light incident end the light transmission channel interface that (7) form, the unit joint (3) of the light transmission passage of light transmission channel interface beam projecting end has two kinds of structures: the first is energy grade light ray curve transmission identical element, the second is energy grade light ray linear transmission identical element, the unit joint (7) of the light transmission passage of light transmission channel interface light incident end has two kinds of structures: the first is energy grade light ray curve transmission identical element, the second is energy grade light ray linear transmission identical element, electro-optical package (4) is the inside that is fixed on housing (5), its effect is: when the unit joint (3) of light transmission passage of light transmission channel interface beam projecting end and the light transmission channel interface dislocation of unit joint (7) formation of the light transmission passage of light transmission channel interface light incident end, light in light transmission passage is escaped from light transmission channel interface, the light of escaping is irradiated to the electro-optical package (4) at light transmission channel interface place, electro-optical package (4) transfers luminous energy to electric energy, for positioning system, adjustment System, software control system provide electric energy, housing (5) is the firm housing of tubulose, housing (5) is when two ports of sealing, can seal light transmission passage, its effect is: do not allow dust adhesion at light transmission passage, housing (5) is firm, its effect is: guarantee that housing (5) is difficult for generation deformation, the light transmission passage in protection housing (5) and device and electro-optical package fixing, that locate, adjust light transmission passage, the stationary installation (6) of the stationary installation (2) of light transmission channel interface beam projecting end and light transmission channel interface light incident end is fixed on the inner central area of housing (5) by light transmission passage, and, light transmission passage is not directly contacted with housing (5), and the inside of the stationary installation (6) of the stationary installation (2) of light transmission channel interface beam projecting end and light transmission channel interface light incident end is Integrated Positioning System, adjustment System, chip also.
6. light transmission channel interface dislocation adjustment System according to claim 1, it is characterized in that: the top that connects the piston (8) of light transmission passage is connected with light transmission passage, the piston (8) that connects light transmission passage is present in the cylinder on matrix (9) top of stationary installation, the movement locus of the piston (8) of the cylinder control linkage light transmission passage on the matrix of stationary installation (9) top, the cylinder height on the matrix of stationary installation (9) top is lower than the height that connects the piston (8) of light transmission passage, its effect is to prevent that light transmission passage from bumping against the matrix of stationary installation (9) top, the space (10) that connects the piston of light transmission passage and the formation of the matrix of stationary installation is the activity space of the piston (8) that is connected light transmission passage, in the matrix inside of stationary installation, have can kinetic force screw rod (11) and diameter to become large screw rod (12) be one, in the matrix inside of stationary installation, having can the screw rod (11) of kinetic force and the matrix (9) of stationary installation is inner forms supporting helicitic texture, the matrix inside that is rotated in stationary installation has screw rod (11) that can kinetic force, when the matrix inside in stationary installation have can kinetic force screw rod (11) during in space (10) elongation that connects that the piston of light transmission passage and the matrix of stationary installation form, in the matrix inside of stationary installation, have can kinetic force screw rod (11) piston (8) that promotes to connect light transmission passage move upward, when the matrix inside in stationary installation have can kinetic force screw rod (11) during in space (10) shortening that connects that the piston of light transmission passage and the matrix of stationary installation form, the piston (8) that connects light transmission passage has the space moving downward in the space (10) that connects the piston of light transmission passage and the formation of the matrix of stationary installation, diameter becomes large screw rod (12) and coordinates threadably with the drive link (18) on direct current motor (17), direct current motor (17) controls by drive link (18) motion that diameter becomes large screw rod (12), reach the stretching motion that the matrix inside that is controlled at stationary installation has screw rod (11) that can kinetic force, it is larger than the diameter of drive link (18) that diameter becomes large screw rod (12), it is greatly in order to be reduced in the matrix inside of stationary installation, to have the stretching speed of screw rod (11) that can kinetic force that the diameter that diameter becomes large screw rod (12) becomes, and then the precision of raising control, positioning system is imported data message into chip (13) by data line (15), chip (13) is controlled connected mode and the time of the first power lead (14) and second source line (16), control the rotating manner of direct current motor (17): rotate and reverse, control the rotation time of direct current motor (17), the stationary installation of light transmission channel interface dislocation adjustment System consists of the matrix (9) of three identical stationary installations, and the matrix of three stationary installations (9) is fixed on circular ring structure, and the matrix of three stationary installations (9) is in same plane.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201110248914.6A CN102955208B (en) | 2011-08-28 | 2011-08-28 | System for adjusting light transmission channel interface dislocation |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201110248914.6A CN102955208B (en) | 2011-08-28 | 2011-08-28 | System for adjusting light transmission channel interface dislocation |
Publications (2)
Publication Number | Publication Date |
---|---|
CN102955208A CN102955208A (en) | 2013-03-06 |
CN102955208B true CN102955208B (en) | 2014-10-01 |
Family
ID=47764246
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201110248914.6A Expired - Fee Related CN102955208B (en) | 2011-08-28 | 2011-08-28 | System for adjusting light transmission channel interface dislocation |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN102955208B (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5143435A (en) * | 1989-10-02 | 1992-09-01 | Olympus Optical Co., Ltd. | Illumination system for endoscopes |
US5497295A (en) * | 1993-06-14 | 1996-03-05 | Lumitek Development, Inc. | Lighting system |
JPH10163964A (en) * | 1996-11-29 | 1998-06-19 | Nec Corp | Multiple channel parallel light transmitting system and manufacture of multimode optical waveguide used for the same |
JP2003014992A (en) * | 2001-07-02 | 2003-01-15 | Matsushita Electric Ind Co Ltd | Semiconductor laser module and light transmission system |
JP2005032840A (en) * | 2003-07-08 | 2005-02-03 | Toshiba Corp | Optical transmission module |
-
2011
- 2011-08-28 CN CN201110248914.6A patent/CN102955208B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5143435A (en) * | 1989-10-02 | 1992-09-01 | Olympus Optical Co., Ltd. | Illumination system for endoscopes |
US5497295A (en) * | 1993-06-14 | 1996-03-05 | Lumitek Development, Inc. | Lighting system |
JPH10163964A (en) * | 1996-11-29 | 1998-06-19 | Nec Corp | Multiple channel parallel light transmitting system and manufacture of multimode optical waveguide used for the same |
JP2003014992A (en) * | 2001-07-02 | 2003-01-15 | Matsushita Electric Ind Co Ltd | Semiconductor laser module and light transmission system |
JP2005032840A (en) * | 2003-07-08 | 2005-02-03 | Toshiba Corp | Optical transmission module |
Also Published As
Publication number | Publication date |
---|---|
CN102955208A (en) | 2013-03-06 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP2657623A3 (en) | Automatic solar tracking adjustment/control apparatus of solar generation system | |
RU2722249C1 (en) | Landing platform for uav vertical take-off and landing | |
CN110131907A (en) | A kind of heliostat mirror field automatic fault maintenance navigation methods and systems | |
CN102955208B (en) | System for adjusting light transmission channel interface dislocation | |
CN103034248B (en) | Sun tracking detection device made of compound convex lens combined with four-quadrant photoreceptor | |
WO2022007370A1 (en) | Heliostat optical path closed-loop control system and method | |
CN104820462A (en) | Device and method for tracing maximum power point of photovoltaic cell panel | |
CN101777856B (en) | Photovoltaic tracking device using photosensitive difference and network-based monitoring method | |
CN101078500A (en) | Intelligentized navigation mark spinning lamp device and its control method | |
KR20090008943A (en) | An apparatus for illuminating sunbeams | |
CN107876974A (en) | A kind of optical-fiber laser cutting machine self-adapting focusing cutting head | |
CN107728652A (en) | A kind of method that spherical solar azimuth automatic tracing instrument and control solar panels rotate | |
CN202995137U (en) | Randomly rotatable laser scanning head | |
CN209579582U (en) | Joint electric energy short range transmission structure and the legged type robot and mechanical arm for applying it | |
CN203962001U (en) | A kind of shield pipe sheet assembling machine six degree of freedom full-automatic control system | |
CN106054941B (en) | Intelligent reflection solar system | |
CN204227067U (en) | For the coiled pipe of portable lamp | |
CN203520171U (en) | Solar energy automatic tracking device | |
CN102789241B (en) | Device and method for simulating solar illumination with autoregulative elevation angle | |
CN102609007B (en) | Sunlight polar axis type automatic tracking device | |
CN201636670U (en) | Angle-adjustable LED annular light source device | |
CN106501912A (en) | A kind of multi-faceted eyeglass automatic regulating apparatus | |
CN101458529B (en) | Sun tracking positioning device | |
CN208076419U (en) | Defectoscope support device, storage tank crawling device, detection device and system | |
CN107168390A (en) | A kind of multi-faceted eyeglass automatic regulating apparatus |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20200513 Address after: 236000 Yingtai Road, Yingshang County Industrial Park, Fuyang City, Anhui Province Patentee after: HAIQUAN FENGLEI NEW ENERGY POWER GENERATION Co.,Ltd. Address before: High tech Zone Gaopeng road in Chengdu city of Sichuan province 610041 No. 5 A-93 Patentee before: CHENGDU YISHENGXUAN TECHNOLOGY Co.,Ltd. |
|
TR01 | Transfer of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141001 Termination date: 20200828 |
|
CF01 | Termination of patent right due to non-payment of annual fee |