CN205229557U - Solar energy increase beam condensing unit and speculum thereof - Google Patents
Solar energy increase beam condensing unit and speculum thereof Download PDFInfo
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- CN205229557U CN205229557U CN201520984575.1U CN201520984575U CN205229557U CN 205229557 U CN205229557 U CN 205229557U CN 201520984575 U CN201520984575 U CN 201520984575U CN 205229557 U CN205229557 U CN 205229557U
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- catoptron
- speculum
- condensing unit
- beam condensing
- reflection
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Abstract
The utility model discloses a solar energy increase beam condensing unit and speculum thereof, including speculum and base, the fixed mounting all around of speculum has the protection side bar frame, the equal fixedly connected with bracing piece in bottom four corners of speculum, the bottom of four bracing pieces all with connecting piece fixed connection, the top fixed mounting of base has the support column, the equal fixedly connected with bracing piece in bottom four corners of speculum, the speculum passes through the bracing piece and the top at the support column is installed to the connecting piece, there is the punctiform receiver top of speculum through connecting rod fixed mounting. This solar energy increase beam condensing unit and speculum thereof simple structure, reasonable in design, the function of fresnel lens spotlight can strengthen the spotlight effect of beam condensing unit, and reflection efficiency that can effectual improvement speculum has avoided influencing the reflection effect because the oxidation appears in aluminium reflection stratum and silver -colored reflection stratum, influences the spotlight effect of device.
Description
Technical field
The utility model relates to application of solar, is specially a kind of sun power synergy beam condensing unit and catoptron thereof.
Background technology
Along with the progress of society and improving constantly of living standard, the concern of people to environment also grows with each passing day, national governments, and especially government of developed country is when policies, can consider environmental factor more and more, to ensure the class sustainable development of society; The sun power of development utilization renewable resource becomes the focus of concern, and the Chinese government is is also supporting and encourageing development and utilization new forms of energy and renewable resource energetically; Sun power is the energy discharged in the inner continuously nuclear fusion reaction process of Ouyang very much, and be radiated the earth, people make it the translation services mankind by photoelectricity, photo-thermal, photochemical way.Sun power relevant apparatus is also seen everywhere.
And solar-energy light collector is be sun power " heart " in solar energy equipment, and the catoptron most important part that is beam condensing unit, the efficiency of existing solar-energy light collector and catoptron is very low, the mirror surface of existing beam condensing unit, mostly there is the material of high reflectance, the easily frayed or dust effect and affect reflectivity of this surface reflection face at substrate surface evaporation or brushing one deck; Another kind is backside reflection minute surface, be coated with last layer reflecting material at the back side of base material, advantage is that itself can clean, durable in use, currently available technology is that reflectance coating of aluminizing on a glass substrate makes glass mirror, bond with liner plate and make thermal-arrest eyeglass, this specular reflectance is low, so we propose a kind of sun power synergy beam condensing unit and catoptron thereof.
Utility model content
The purpose of this utility model is to provide a kind of sun power synergy beam condensing unit and catoptron thereof, to solve the problem proposed in above-mentioned background technology.
For achieving the above object, the utility model provides following technical scheme: a kind of sun power synergy beam condensing unit and catoptron thereof, comprise catoptron and base, the surrounding of described catoptron is installed with protection frame, the corner, bottom of described catoptron is all fixedly connected with support bar, the bottom of four support bars is all fixedly connected with web member, the top of described base is installed with support column, the top of described support column is provided with Baltimore groove, the corner, bottom of described catoptron is all fixedly connected with support bar, the bottom of four support bars is all fixedly connected with web member, described catoptron is arranged on the top of support column by support bar and web member, the top of described catoptron is installed with point-like receiver by connecting link,
Described catoptron comprises glass substrate and hard protective seam; the bottom of described glass substrate is fixedly connected with Fresnel Lenses; reflection horizon is provided with between described Fresnel Lenses and hard protective seam; described reflection horizon includes media coating, aluminium reflection horizon, argentum reflecting layer, coat of metal and reflection compensation transition bed from top to bottom successively, described hard protective seam bottom be also coated with protective paint layer.
Preferably, the quantity of described connecting link has four, and the bottom of four connecting links is connected with the Corner Strapped of protection frame respectively, and the top of four connecting links is all fixedly connected with point-like receiver.
Preferably, described reflection compensation transition bed is reflection compensation transition aluminium lamination, and the thickness of described reflection compensation transition bed is 80 to one hundred nanometers.
Preferably, described hard protective seam is titanium nitride sputtering composite bed, and its thickness is 20 to five ten nanometers.
Preferably, described point-like receiver is equal with the focal length of Fresnel Lenses to the vertical range of catoptron.
Compared with prior art, the beneficial effects of the utility model are: this sun power synergy beam condensing unit and mirror structure simple, reasonable in design, the bottom of the glass substrate being arranged on catoptron is provided with Fresnel Lenses, Fresnel Lenses has function directional light being gathered a bit, the spotlight effect of beam condensing unit can be strengthened, by being arranged on the reflection horizon between Fresnel Lenses and hard protective seam, effectively can strengthen the reflection efficiency of catoptron, by being arranged on media coating in reflection horizon and coat of metal, can effectively prevent aluminium reflection horizon and argentum reflecting layer from occurring oxidation, avoid because aluminium reflection horizon and argentum reflecting layer occur that oxidation has influence on reflecting effect, have influence on the spotlight effect of device.
Accompanying drawing explanation
Fig. 1 is the utility model structural representation;
Fig. 2 is the utility model vertical view;
Fig. 3 is the utility model catoptron cut-open view;
Fig. 4 is the utility model reflection layer structure schematic diagram;
Fig. 5 is the utility model Fresnel Lenses optically focused schematic diagram.
In figure: 1 catoptron, 11 glass substrates, 12 luxuriant and rich with fragrance Neil lens, 13 reflection horizon, 131 media coatings, 132 aluminium reflection horizon, 133 argentum reflecting layers, 134 coat of metals, 135 reflection compensation transition beds, 14 hard protective seams, 15 protective paint layers, 2 protection frames, 3 point-like receivers, 4 connecting links, 5 support bars, 6 web members, 7 Baltimore grooves, 8 support columns, 9 bases.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.
Refer to Fig. 1-5, the utility model provides a kind of technical scheme: a kind of sun power synergy beam condensing unit and catoptron thereof, comprise catoptron 1 and base 9, the surrounding of catoptron 1 is installed with protection frame 2, the corner, bottom of catoptron 1 is all fixedly connected with support bar 5, the bottom of four support bars 5 is all fixedly connected with web member 6, the top of base 9 is installed with support column 8, the top of support column 8 is provided with Baltimore groove 7, catoptron 1 is arranged on the top of support column 8 by support bar 5 and web member 6, the top of catoptron 1 is installed with point-like receiver 3 by connecting link 4, the quantity of connecting link 4 has four, the bottom of four connecting links 4 is connected with the Corner Strapped of protection frame 2 respectively, and the top of four connecting links 4 is all fixedly connected with point-like receiver 3,
Catoptron 1 comprises glass substrate 11 and hard protective seam 14, hard protective seam 14 is titanium nitride sputtering composite bed, its thickness is 20 to five ten nanometers, the bottom of glass substrate 11 is fixedly connected with Fresnel Lenses 12, point-like receiver 3 is equal with the focal length of Fresnel Lenses 12 to the vertical range of catoptron 1, farthest can reach the effect of optically focused, reflection horizon 13 is provided with between Fresnel Lenses 12 and hard protective seam 14, reflection horizon 13 includes media coating 131 from top to bottom successively, aluminium reflection horizon 132, argentum reflecting layer 133, coat of metal 134 and reflection compensation transition bed 135, be provided with aluminium reflection horizon 132 and the reflection of argentum reflecting layer 133 bilayer, the reflecting effect of catoptron 1 can be improved, the spotlight effect of beam condensing unit is strengthened, media coating 131 and coat of metal 134 can carry out protection against oxidation to aluminum metal layer 132 and silver metal layer 133, avoid because aluminum metal layer 132 and silver metal layer 133 are oxidized the spotlight effect having influence on beam condensing unit, reflection compensation transition bed 135 is reflection compensation transition aluminium lamination, the thickness of reflection compensation transition bed 135 is 80 to one hundred nanometers, the setting of reflection compensation transition bed 135 can compensate the reflecting effect in reflection horizon 13, promote the reflecting effect of catoptron 1, strengthen the spotlight effect of beam condensing unit, hard protective seam 14 bottom be also coated with protective paint layer 15.
Although illustrate and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that and can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and spirit, scope of the present utility model is by claims and equivalents thereof.
Claims (5)
1. a sun power synergy beam condensing unit and catoptron thereof, comprise catoptron (1) and base (9), the surrounding of described catoptron (1) is installed with protection frame (2), the corner, bottom of described catoptron (1) is all fixedly connected with support bar (5), the bottom of four support bars (5) is all fixedly connected with web member (6), it is characterized in that: the top of described base (9) is installed with support column (8), the top of described support column (8) is provided with Baltimore groove (7), described catoptron (1) is arranged on the top of support column (8) by support bar (5) and web member (6), the top of described catoptron (1) is installed with point-like receiver (3) by connecting link (4),
Described catoptron (1) comprises glass substrate (11) and hard protective seam (14); the bottom of described glass substrate (11) is fixedly connected with Fresnel Lenses (12); reflection horizon (13) is provided with between described Fresnel Lenses (12) and hard protective seam (14); described reflection horizon (13) includes media coating (131), aluminium reflection horizon (132), argentum reflecting layer (133), coat of metal (134) and reflection compensation transition bed (135) from top to bottom successively, described hard protective seam (14) bottom be also coated with protective paint layer (15).
2. a kind of sun power synergy beam condensing unit according to claim 1 and catoptron thereof, it is characterized in that: the quantity of described connecting link (4) has four, the bottom of four connecting links (4) is connected with the Corner Strapped of protection frame (2) respectively, and the top of four connecting links (4) is all fixedly connected with point-like receiver (3).
3. a kind of sun power synergy beam condensing unit according to claim 1 and catoptron thereof, is characterized in that: described reflection compensation transition bed (135) is reflection compensation transition aluminium lamination, and the thickness of described reflection compensation transition bed (135) is 80 to one hundred nanometers.
4. a kind of sun power synergy beam condensing unit according to claim 1 and catoptron thereof, is characterized in that: described hard protective seam (14) is titanium nitride sputtering composite bed, and its thickness is 20 to five ten nanometers.
5. a kind of sun power synergy beam condensing unit according to claim 1 and catoptron thereof, is characterized in that: described point-like receiver (3) is equal with the focal length of Fresnel Lenses (12) to the vertical range of catoptron (1).
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CN201520984575.1U CN205229557U (en) | 2015-12-02 | 2015-12-02 | Solar energy increase beam condensing unit and speculum thereof |
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CN201520984575.1U CN205229557U (en) | 2015-12-02 | 2015-12-02 | Solar energy increase beam condensing unit and speculum thereof |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106249402A (en) * | 2016-08-31 | 2016-12-21 | 常州创微电子机械科技有限公司 | A kind of one-dimensional micro mirror of Electromagnetic Drive |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106249402A (en) * | 2016-08-31 | 2016-12-21 | 常州创微电子机械科技有限公司 | A kind of one-dimensional micro mirror of Electromagnetic Drive |
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