CN202853135U - Micro-arc linear Fresnel concentrating system and panel heat storing and collecting device for the same - Google Patents

Micro-arc linear Fresnel concentrating system and panel heat storing and collecting device for the same Download PDF

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Publication number
CN202853135U
CN202853135U CN201220406906XU CN201220406906U CN202853135U CN 202853135 U CN202853135 U CN 202853135U CN 201220406906X U CN201220406906X U CN 201220406906XU CN 201220406906 U CN201220406906 U CN 201220406906U CN 202853135 U CN202853135 U CN 202853135U
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China
Prior art keywords
differential
linear fresnel
heat
arc
thermal
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CN201220406906XU
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Chinese (zh)
Inventor
檀满林
何斌
欧阳陆
陈建军
李冬霜
王晓伟
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Tsinghua University
Shenzhen Research Institute Tsinghua University
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Shenzhen Research Institute Tsinghua University
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/44Heat exchange systems
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/47Mountings or tracking

Abstract

The utility model discloses a panel heat storing and collecting device capable of effectively colleting and storing heat for a concentrating system. The panel heat storing and collecting device comprises a heat storing base, a heat collecting tube arranged in the heat collecting base and a permeability-increasing and super-white strengthened glass plate fixed at the lower end of the heat collecting base, a heat insulation layer is coated on the outer surface of the heat collecting base, and a heat-conducting medium is filled between an inner cavity of the heat collecting base and the heat collecting tube. The utility model further provides a micro-arc linear Fresnel concentrating system which comprises a linear Fresnel support frame, a micro-arc mirror module provided with multiple micro-arc mirror groups, a sun tracking control mechanism and the panel heat storing and collecting device. The micro-arc mirror groups are movably arranged on the linear Fresnel support frame, the sun tracking control mechanism comprises a sun tracking controller arranged on the linear Fresnel support frame and a driving device, the panel heat storing and collecting device is arranged on the upper end of the linear Fresnel support frame and corresponds to the micro-arc mirror groups. The micro-arc linear Fresnel concentrating system has the advantages of being simple in structure and good in concentrating effect and sun tracking effect.

Description

Differential of the arc linear Fresnel condenser system reaches the dull and stereotyped heat accumulation heat collector that is used for this system
Technical field
The utility model relates to application of solar, relates in particular to a kind of differential of the arc linear Fresnel condenser system and reaches the dull and stereotyped heat accumulation heat collector that is used for this system.
Background technology
The global warming of greenhouse gas emission more and more is subject to the extensive concern of international community; strengthening energy-saving and emission-reduction is important means of reply Global climate change and shortage of resources and the limited challenge of environmental carrying capacity; solar energy is as a kind of regenerative resource, and its development and use save conventional energy resource, conservation of nature environment, slow down climate variation etc. earth shaking meaning.Compare with conventional energy resource, solar energy has also that gross energy is large, permanence, generality, the plurality of advantages such as pollution-free, but it also exists dispersiveness, intermittence to close the weakness such as randomness simultaneously, so that the utilizing that difficulty is large of solar energy and efficient is low.
In the prior art, the technology of domestic and international dependent linearity Fresnel condenser system or parts, mainly consisted of by linear reflective Jing Jingchang and heat collector, these linear reflective devices are arranged in parallel, drive the corresponding servo-actuated of Jing Chang by following the tracks of solar motion, sunlight is concentrated on the heat collector that reflexes to the top, with the focus utilization Photospot solar.
But in the most known linear Fresnel condenser system, have with structures such as frequency conversion drive or magnetic couplings, it is inaccurate that driving mechanism and the sun move crucial relational structure, it follow the tracks of to drive and link gear complexity and reliability is low, and because Jing Chang is parallel to ground, the sunlight inductor does not have detection and tracking or inaccurate to the component of sun north and south angle, thus connection to have influence on transmeridional tracking accuracy not high yet; Minute surface adopts level crossing mostly, causes every narrower necessary number that increases the mirror group of mirror group, and makes the width of optically focused band wider, and light concentrating times is but not high.
In addition, the heat collector of installing in traditional solar electrical energy generation module is comparatively single, heat collector also adopts compound parabolic mirror (CPC) secondary condensation mode mostly, cause the reduction of light gathering efficiency and the increase of cost, and heat collector itself can not heat accumulation, and the system quantity of heat given up of making is subjected to the influence of fluctuations of Changes in weather larger.
The utility model content
One of the utility model purpose is to overcome the deficiencies in the prior art, and a kind of dull and stereotyped heat accumulation heat collector for solar concentrating system is provided, and this flat board heat accumulation heat collector can carry out thermal-arrest and heat accumulation to condenser system effectively.
The dull and stereotyped heat accumulation heat collector that the utility model provides is used for condenser system, and it comprises:
One thermal-arrest seat is provided with an inner chamber, described inner chamber be installed with one can be external thermal-collecting tube, described thermal-arrest seat outer surface is coated with heat-insulation layer;
One anti-reflection ultrawhite strengthening glass sheets, it is fixed in described thermal-arrest seat lower end as the sensitive surface transparent heat insulating member of whole device;
Have a packing space between the inner chamber of described thermal-arrest seat and the described thermal-collecting tube, be filled with heat-conducting medium in this packing space.
Particularly, described thermal-arrest seat comprises that one encloses the trapezoidal main body with cavity of formation, described thermal-collecting tube places in the cavity of this trapezoidal main body, the large end of described trapezoidal main body both sides have an extension downwards, and this extension lower end is provided be used to the screens of assembling described anti-reflection ultrawhite strengthening glass sheets.
Further, have a spatial accommodation between described anti-reflection ultrawhite strengthening glass sheets and the described thermal-arrest seat, this spatial accommodation hollow arranges or fills the transparent thermal insulation aeroge.
Further, the face that described thermal-arrest seat is relative with described anti-reflection ultrawhite strengthening glass sheets is coated with selective heat absorbing coating.
Particularly, described heat-insulation layer comprises the inner thermal insulating layer that is coated on described thermal-arrest seat outer surface and covers outer insulation clad in described inner thermal insulating layer outer surface, described inner thermal insulating layer is rock wool heat-preservation layer or aeroge heat-insulation layer, and described outer insulation clad is aluminium skin or galvanized sheet.
The utility model also provide a kind of simple in structure, spotlight effect good, and the splendid differential of the arc linear Fresnel condenser system of tracking accuracy, described differential of the arc linear Fresnel condenser system comprises:
One linear Fresnel support is as the carrier of whole system;
Many group differential of the arc mirror modules comprise a plurality of differential of the arc mirror groups, and described each differential of the arc mirror group is movably installed on the described linear Fresnel support, and the radian of differential of the arc mirror is made of the parabolic arc that multi-point support is shaped in each differential of the arc mirror group;
The solar tracking controlling organization comprises the solar tracking controller that is installed on the described linear Fresnel support and be used for driving the drive unit that described differential of the arc mirror module moves on described linear Fresnel support; And,
Dull and stereotyped heat accumulation heat collector described above is installed on described linear Fresnel support upper end, and corresponding with described differential of the arc mirror module.
Particularly, described linear Fresnel support is provided with a plurality of pin joint seats be used to described each differential of the arc mirror group is installed, and described each differential of the arc mirror group all is movably installed on the described linear Fresnel support by a rotating shaft, and described rotating shaft and described pin joint seat are rotationally connected.
Particularly, described solar tracking controlling organization comprises the solar tracking controller that is installed on the described linear Fresnel support and the drive unit that is used for driving described differential of the arc mirror module action, described solar tracking controller is movably installed on the described linear Fresnel support by a gear train, it comprises that one can detect the sunlight inductor of solar azimuth, and the micro-reducer of following the tracks of the component of sunshine North and South direction, described sunlight inductor east-west direction component forms the closed loop interlock by train of reduction gears and described rotating shaft.
Particularly, described drive unit comprises a plurality of connecting rods that are installed on described rotating shaft end, is used for driving the drive rod of described connecting rod synchronization action and is installed on the described linear Fresnel support and is used for driving the electric pushrod of this drive rod.
Further, but described connecting rod is provided with one for the locking axle sleeve of adjusting the relative described dull and stereotyped heat accumulation heat collector optically focused angle of each differential of the arc mirror group of described differential of the arc mirror module with the junction of described rotating shaft, but described connecting rod is fixed in described rotating shaft end by this locking axle sleeve.
The dull and stereotyped heat accumulation heat collector of the utility model compact conformation, the luminous energy that anti-reflection ultrawhite strengthening glass sheets in this flat board heat accumulation heat collector sees through and insulation is assembled by condenser system, the heat conduction heat accumulation fused salt that heating is positioned at the thermal-arrest seat melts as liquid to it, heat conduction heat accumulation fused salt is liquid by solid-state phase changes, can store a large amount of heats, and heat is transferred to stainless steel seamless pipe, water to stainless steel seamless pipe heats, and the high-temperature high-pressure steam of formation can easily be used for generating, baking, refrigeration etc.Simultaneously, the heat-insulation layer of the coating of the thermal-arrest seat outer surface in the dull and stereotyped heat accumulation heat collector also can increase the efficient of thermal-arrest and the heat accumulation of dull and stereotyped heat accumulation heat collector.
The utility model differential of the arc linear Fresnel condenser system is simple in structure, spotlight effect is fabulous, but differential of the arc linear Fresnel condenser system cooperates the action of locking axle sleeve control differential of the arc mirror module by the solar tracking controlling organization, realizes the high precision tracking sun.
Description of drawings
Fig. 1 is the structural representation that is used for the dull and stereotyped heat accumulation heat collector of differential of the arc linear Fresnel condenser system in the utility model;
Fig. 2 is the structural representation of differential of the arc linear Fresnel condenser system in the utility model;
Fig. 3 is the local enlarged diagram of A part among Fig. 2.
Description of reference numerals:
1 dull and stereotyped heat accumulation heat collector 11 thermal-arrest seats 110 heat-conducting mediums
113 screens of 111 trapezoidal main body 112 extensions
12 thermal-collecting tubes, 13 anti-reflection ultrawhite strengthening glass sheets 130 spatial accommodations
14 heat-insulation layers, 141 inner thermal insulating layers, 142 outer insulation clads
2 differential of the arc mirror modules, 20 differential of the arc mirror groups, 200 differential of the arc mirrors
3 solar tracking controlling organizations, 31 solar tracking controllers, 311 micro-reducers
312 sunlight inductors, 32 drive units, 321 connecting rods
322 drive rods, 323 line handspikes, 33 gear trains
42 rotating shafts of 4 linear Fresnel supports, 41 pin joint seats
But 43 locking axle sleeves, 44 side stands, 45 poles
The specific embodiment
In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.
Referring to Fig. 1, the utility model at first provides a kind of dull and stereotyped heat accumulation heat collector embodiment, be used for solar concentrating system, this flat board heat accumulation heat collector 1 comprises: a thermal-arrest seat 11 and an anti-reflection ultrawhite strengthening glass sheets 13, described thermal-arrest seat 11 is provided with an inner chamber, and this inner chamber wears and is installed with a thermal-collecting tube 12, and the interface tube at these thermal-collecting tube 12 two ends is revealed in outside the thermal-arrest seat 11, be used for and cross current, can make in the thermal-collecting tube 12 like this and be connected with water.Described thermal-collecting tube 12 can be selected metal tube, preferred stainless steel seamless pipe, and it has better heat-conductive characteristic, and can prevent the corrosion on top layer, has long service life.The surface is coated with heat-insulation layer 14 outside described thermal-arrest seat 11, to reduce and to prevent that the heat of thermal-arrest seat 11 from outwards distributing, increases the thermal-arrest of thermal-arrest seat 11 and the efficient of heat accumulation.In described thermal-arrest seat 11 lower ends, be provided with an anti-reflection ultrawhite strengthening glass sheets 13, it is as the sensitive surface transparent heat insulating member of whole device, and the sunshine of assembling can be conducted to thermal-arrest seat 11.Between the inner chamber and described thermal-collecting tube 12 of described thermal-arrest seat 11, can consist of a packing space, be filled with heat-conducting medium 110 in this packing space, heat-conducting medium 110 can be the heat accumulation fused salt.In the said structure, by the luminous energy that anti-reflection ultrawhite strengthening glass sheets 13 sees through and insulation is assembled from condenser system, can heat the heat-conducting medium 110--heat accumulation fused salt that is positioned at thermal-arrest seat 11 melts as liquid to it, making heat conduction heat accumulation fused salt is liquid by solid-state phase changes, can store a large amount of heats, and heat is transferred to thermal-collecting tube 12, the water of thermal-collecting tube 12 is heated, the high-temperature high-pressure steams that form etc. are realized the functions such as generating.
Referring to Fig. 1, in the concrete structure design, comprise that one is enclosed by plate and to form a bottom and be the trapezoidal main body 111 of large end, thermal-collecting tube 12 vertically wears in the cavity that places this trapezoidal main body 111 along it, described trapezoidal main body 111 bottoms hold greatly both sides to have an extension 112 downwards, this relative bending in extension 112 lower ends, the screens 113 that is configured for assembling anti-reflection ultrawhite strengthening glass sheets 13.This structure both can guarantee that itself and heat-conducting medium 110 and sunshine had larger receiving plane, adopted simultaneously plate to enclose and formed whole thermal-arrest seat 11 member layout type, and material and processing cost are very cheap, easily realize.
Further, described anti-reflection ultrawhite strengthening glass sheets 13 is installed in the screens 113 of described thermal-arrest seat 11 with behind the lower end of being fixed in thermal-arrest seat 11, just form a spatial accommodation 130 between itself and the thermal-arrest seat 11, these spatial accommodation 130 hollows arrange and form a hollow layer or adopt the transparent thermal insulation aeroge to fill, both can reach the printing opacity requirement, can be incubated again.Simultaneously, be coated with selective heat absorbing coating at described thermal-arrest seat 11 and anti-reflection ultrawhite strengthening glass sheets 13 relative faces, this face is as the endothermic section of whole dull and stereotyped heat accumulation heat collector 1.
Further, described thermal-arrest seat 11 outer surface heat-insulation layers 14 are coated with double insulation, described double insulation 14 comprises the inner thermal insulating layer 141 that is coated on described thermal-arrest seat 11 outer surfaces and covers outer insulation clad 142 in inner thermal insulating layer 141 outer surfaces, and wherein inner thermal insulating layer 141 is rock wool heat-preservation layer or aeroge heat-insulation layer; Should outer insulation clad 142 be aluminium skin or galvanized sheet, can increase like this thermal-arrest of whole dull and stereotyped heat accumulation heat collector 1 and the insulating efficiency of heat accumulation.
See also Fig. 2, Fig. 3, the utility model also provides a kind of differential of the arc linear Fresnel condenser system, this system comprises: a linear Fresnel support 4, be installed on many groups differential of the arc mirror module 2, solar tracking controlling organization 3 and dull and stereotyped heat accumulation heat collector 1 described above on the linear Fresnel support 4, wherein, described linear Fresnel support 4 comprises at least two side stands 44 that be arranged in parallel and the pole 45 that is extended upward setting by this side stand 44 as the carrier of whole system; Described many group differential of the arc mirror modules 2 are arranged by a plurality of differential of the arc mirror groups 20 and are consisted of, and each differential of the arc mirror group 20 all is movably installed on the side stand 44 of linear Fresnel support 4; Described solar tracking controlling organization 3 comprises the solar tracking controller 31 on the side stand 44 that is installed on linear Fresnel support 4 and is used for driving described differential of the arc mirror module 2 at the drive unit 32 of side stand 44 actions, and drive unit 32 can drive the tracking that differential of the arc mirror module 2 moves to realize 2 pairs of sun of differential of the arc mirror module; Described dull and stereotyped heat accumulation heat collector 1 is installed on pole 45 upper ends of described linear Fresnel support 1, and the anti-reflection ultrawhite strengthening glass sheets 13 on it is corresponding with described differential of the arc mirror module 2.
Further, carrier as whole condenser system, described linear Fresnel support 4 is provided with a plurality of pin joint seats 41 for differential of the arc mirror module 2 differential of the arc mirror groups 20 are installed, described differential of the arc mirror module 2 is comprised of a plurality of differential of the arc mirror groups 20 of arranging along side stand 44 axis directions, differential of the arc mirror group 20 then is made of the differential of the arc mirror 200 that arrange perpendicular to side stand 44 axis directions on a plurality of edges, thereby forms the arrayed form of a plurality of differential of the arc mirrors 200.The radian of each differential of the arc mirror 200 is made of the parabolic arc that multi-point support is shaped, each differential of the arc mirror group 20 all is fixed in the rotating shaft 42 that is arranged on the side stand 44, by this rotating shaft 42, each differential of the arc mirror group 20 movable being installed on the side stand 44, described rotating shaft 42 is rotationally connected with pin joint seat 41, and be controlled by solar tracking controlling organization 3, to realize the tracking of the sun, the end of rotating shaft 42 is revealed in outside the pin joint seat 41.
Particularly, described drive unit 32 comprises: a plurality of terminal and connecting rods 321 vertical with rotating shaft 42 axis of rotating shaft 42 that are installed on, and with on each connecting rod 321 angled setting and, the side stand 44 that is used for driving the drive rod 322 of each connecting rod 321 synchronization action and being installed on linear Fresnel support 4 hinged with each connecting rod 321 lower end and be used for driving the electric pushrod 323 of this drive rod 322.Described line handspike 323 moves each connecting rod 321 by driving drive rod 322 simultaneously, thereby many rotating shafts 42 are rotated under the drive of connecting rod 321 synchronously, to realize a plurality of differential of the arc mirror group 20 synchronization actions, realizes the tracking to the sun.
Further, but the junction of described connecting rod 321 and rotating shaft 42 is provided with a locking axle sleeve 43 for the differential seat angle of adjusting differential of the arc mirror module 2 each differential of the arc mirror group 20, but connecting rod 321 is fixed in rotating shaft 42 ends by this locking axle sleeve 43.By regulating the position of each differential of the arc mirror group 20, can regulate each differential of the arc mirror 200 with respect to reverberation angle on the described dull and stereotyped heat accumulation heat collector 1, thereby make the optically focused band narrower, light concentrating times is higher, and optically focused band East and West direction is fixed on the thermal-arrest seat 11.
Particularly, described solar tracking controlling organization 3 comprises the solar tracking controller 31 on the side stand 44 that is installed on linear Fresnel support 4 and be used for driving the drive unit 32 that differential of the arc mirror module 2 moves on side stand 44.Described solar tracking controller 31 is movably installed on the side stand 44 of described linear Fresnel support 4 by a gear train 33, it comprises a sunlight inductor 312 and micro-reducer 311, described sunlight inductor 312 is for detection of the orientation of the sun, it has a pedestal, this pedestal is provided with micro-reducer 311, reductor 311 pedestal gear trains 33 connect gear train 33 speed reducing ratio 1/2.Micro-reducer 311 control sunlight inductors are followed the tracks of the component of sun North and South direction, the component gear train 33 of sun thing angle and drive unit 32 closed loops connection are with the sunlight inductor 312 on the control solar tracking controller 31 and the closed loop interlock between the rotating shaft 42.Like this, the angle that can make sunlight inductor 312 follow the tracks of solar light irradiation both can detect the tracking North and South direction, also can detect the tracking east-west direction, no matter namely the sun is in any angle, sunlight answers device 312 all over against the sun, and the four corners of the world component of whole tracking system and sun operation are accurately correlated.
In sum, in the utility model condenser system, drive the tracking that differential of the arc mirror module 2 moves to realize 2 pairs of sun of differential of the arc mirror module by solar tracking controlling organization 3, make differential of the arc mirror module 2 constantly at utmost to assemble sunshine in dull and stereotyped heat accumulation heat collector 1.Meanwhile, described dull and stereotyped heat accumulation heat collector 1 sees through and is incubated the luminous energy of being assembled by differential of the arc mirror module 2 by anti-reflection ultrawhite tempered glass 13, the heat-conducting medium 110--heat accumulation fused salt that heating is positioned at thermal-arrest seat 11 melts as liquid to it, this heat conduction heat accumulation fused salt is liquid by solid-state phase changes, can store a large amount of heats, and heat is transferred to thermal-collecting tube 12, water in the thermal-collecting tube 12 is heated, the high-temperature high-pressure steam that forms, can utilize easily that above-mentioned heat energy generates electricity, toasts, refrigeration etc., thereby realized the purpose of this utility model.
Need to prove, the above-mentioned dull and stereotyped heat accumulation heat collector 1 of the utility model not only can be used for also can be used in other condenser systems in the utility model differential of the arc linear Fresnel condenser system.
The above only is preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of within spirit of the present utility model and principle, doing, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. dull and stereotyped heat accumulation heat collector is used for condenser system, it is characterized in that comprising:
One thermal-arrest seat is provided with an inner chamber, described inner chamber be installed with one can be external thermal-collecting tube, described thermal-arrest seat outer surface is coated with heat-insulation layer;
One anti-reflection ultrawhite strengthening glass sheets, it is fixed in described thermal-arrest seat lower end as the sensitive surface transparent heat insulating member of whole device;
Have a packing space between the inner chamber of described thermal-arrest seat and the described thermal-collecting tube, be filled with heat-conducting medium in this packing space.
2. dull and stereotyped heat accumulation heat collector according to claim 1, it is characterized in that: described thermal-arrest seat comprises that one encloses the trapezoidal main body with cavity of formation, described thermal-collecting tube places in the cavity of this trapezoidal main body, the large end of described trapezoidal main body both sides have an extension downwards, and this extension lower end is provided be used to the screens of assembling described anti-reflection ultrawhite strengthening glass sheets.
3. dull and stereotyped heat accumulation heat collector according to claim 1 is characterized in that: have a spatial accommodation between described anti-reflection ultrawhite strengthening glass sheets and the described thermal-arrest seat, this spatial accommodation hollow setting or filling transparent thermal insulation aeroge.
4. dull and stereotyped heat accumulation heat collector according to claim 1, it is characterized in that: the face that described thermal-arrest seat is relative with described anti-reflection ultrawhite strengthening glass sheets is coated with selective heat absorbing coating.
5. the described dull and stereotyped heat accumulation heat collector of any one according to claim 1-4, it is characterized in that: described heat-insulation layer comprises the inner thermal insulating layer that is coated on described thermal-arrest seat outer surface and covers outer insulation clad in described inner thermal insulating layer outer surface, described inner thermal insulating layer is rock wool heat-preservation layer or aeroge heat-insulation layer, and described outer insulation clad is aluminium skin or galvanized sheet.
6. differential of the arc linear Fresnel condenser system is characterized in that comprising:
One linear Fresnel support is as the carrier of whole system;
Many group differential of the arc mirror modules comprise a plurality of differential of the arc mirror groups, and described each differential of the arc mirror group is movably installed on the described linear Fresnel support, and the radian of differential of the arc mirror is made of the parabolic arc that multi-point support is shaped in each differential of the arc mirror group;
The solar tracking controlling organization comprises the solar tracking controller that is installed on the described linear Fresnel support and be used for driving the drive unit that described differential of the arc mirror module moves on described linear Fresnel support; And,
Each described dull and stereotyped heat accumulation heat collector of claim 1-5 is installed on described linear Fresnel support upper end, and corresponding with described differential of the arc mirror module.
7. differential of the arc linear Fresnel condenser system according to claim 6, it is characterized in that: described linear Fresnel support is provided with a plurality of pin joint seats be used to described each differential of the arc mirror group is installed, described each differential of the arc mirror group all is movably installed on the described linear Fresnel support by a rotating shaft, and described rotating shaft and described pin joint seat are rotationally connected.
8. differential of the arc linear Fresnel condenser system according to claim 7, it is characterized in that: described solar tracking controlling organization comprises the solar tracking controller that is installed on the described linear Fresnel support and the drive unit that is used for driving described differential of the arc mirror module action, described solar tracking controller is movably installed on the described linear Fresnel support by a gear train, it comprises that one can detect the sunlight inductor in sunshine orientation, and the micro-reducer of following the tracks of the component of sunshine North and South direction, described sunlight inductor east-west direction component forms the closed loop interlock by train of reduction gears and described rotating shaft.
9. it is characterized in that according to claim 7 or 8 described differential of the arc linear Fresnel condenser systems: described drive unit comprises a plurality of connecting rods that are installed on described rotating shaft end, be used for driving the drive rod of described connecting rod synchronization action and be installed on the described linear Fresnel support and be used for driving the electric pushrod of this drive rod.
10. differential of the arc linear Fresnel condenser system according to claim 9, it is characterized in that: but described connecting rod is provided with one for the locking axle sleeve of adjusting the relative described dull and stereotyped heat accumulation heat collector optically focused angle of each differential of the arc mirror group of described differential of the arc mirror module with the junction of described rotating shaft, but described connecting rod is fixed in described rotating shaft end by this locking axle sleeve.
CN201220406906XU 2012-08-16 2012-08-16 Micro-arc linear Fresnel concentrating system and panel heat storing and collecting device for the same Expired - Fee Related CN202853135U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102853556A (en) * 2012-08-16 2013-01-02 深圳清华大学研究院 Micro-arc linear Fresnel light condensing system and flat plate heat storage heat collection device for such system
CN103234286A (en) * 2013-04-22 2013-08-07 南京工业大学 Two-dimensional tracking type Fresnel solar concentrator
CN104990286A (en) * 2015-06-25 2015-10-21 上海理工大学 Composite paraboloid solar collector
CN107976731A (en) * 2017-12-27 2018-05-01 成都菲斯特科技有限公司 A kind of reverse antiradiation heat drop adiabator of four-layer structure

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102853556A (en) * 2012-08-16 2013-01-02 深圳清华大学研究院 Micro-arc linear Fresnel light condensing system and flat plate heat storage heat collection device for such system
CN102853556B (en) * 2012-08-16 2015-07-29 深圳清华大学研究院 Differential of the arc linear Fresnel condenser system and the dull and stereotyped heat storage heat collection device for this system
CN103234286A (en) * 2013-04-22 2013-08-07 南京工业大学 Two-dimensional tracking type Fresnel solar concentrator
CN104990286A (en) * 2015-06-25 2015-10-21 上海理工大学 Composite paraboloid solar collector
CN107976731A (en) * 2017-12-27 2018-05-01 成都菲斯特科技有限公司 A kind of reverse antiradiation heat drop adiabator of four-layer structure

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