CN101307960B - Solar energy intensively effective concentrating collector - Google Patents

Solar energy intensively effective concentrating collector Download PDF

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Publication number
CN101307960B
CN101307960B CN2008100677859A CN200810067785A CN101307960B CN 101307960 B CN101307960 B CN 101307960B CN 2008100677859 A CN2008100677859 A CN 2008100677859A CN 200810067785 A CN200810067785 A CN 200810067785A CN 101307960 B CN101307960 B CN 101307960B
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condenser
solar
water
hot
pipe
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CN101307960A (en
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林于纮
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S23/00Arrangements for concentrating solar-rays for solar heat collectors
    • F24S23/30Arrangements for concentrating solar-rays for solar heat collectors with lenses
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S10/00Solar heat collectors using working fluids
    • F24S10/40Solar heat collectors using working fluids in absorbing elements surrounded by transparent enclosures, e.g. evacuated solar collectors
    • F24S10/45Solar heat collectors using working fluids in absorbing elements surrounded by transparent enclosures, e.g. evacuated solar collectors the enclosure being cylindrical
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S10/00Solar heat collectors using working fluids
    • F24S10/90Solar heat collectors using working fluids using internal thermosiphonic circulation
    • F24S10/95Solar heat collectors using working fluids using internal thermosiphonic circulation having evaporator sections and condenser sections, e.g. heat pipes
    • 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
    • Y02E10/50Photovoltaic [PV] energy

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Sustainable Development (AREA)
  • Sustainable Energy (AREA)
  • Thermal Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Photovoltaic Devices (AREA)

Abstract

An object of the present invention is to provide a light-gathering device so as to solve the problem that the efficiency of solar thermal collection is bad, by use of extended optical collectors and adjustable supports, thereby making solar thermal collectors emit several-fold heat energy. A high-efficiency focus solar thermal collector has the light-gathering device according to the invention, wherein, a shell is provided with a plurality of groups of strip-shaped solar thermal collectors and extended optical collectors; a strip-shaped extended optical collector is arranged on the upper part of each strip-shaped solar thermal collector; reflecting shades are arranged under the strip-shaped solar thermal collectors; the extended optical collectors are fixed on adjustable supports which can adjust a solar power generator toward the solar source; the extended optical collectors and the reflecting shades focus several-fold solar light energy on the solar thermal collectors; the extended optical collectors effectively shorten the distance between the optical collectors and the solar thermal collectors; the several-fold solar light energy makes the solar thermal collectors emit several-fold heat energy; the adjustable supports can adjust the solar thermal collectors toward the sun, thereby improving the efficiency of solar thermal collection.

Description

Solar energy intensively effective concentrating collector
Affiliated technical field
The present invention relates to a kind of solar energy heat collector, refer in particular to tool and extend condenser, the solar energy intensively effective concentrating collector of reflection shield and adjustable support, tool extends condenser and reflection shield can be assembled the solar energy of several times, rotate adjustable support and can will extend condenser tuning solar source, and sunshine is gathered on the solar thermal collector, the extension condenser effectively shortens the distance of condenser and solar thermal collector, the solar energy of several times is gathered on the solar thermal collector, makes solar thermal collector send the heat energy of several times.
Background technology
Generally commonly use solar-energy light collector such as Figure 30 in the city: commonly use solar water heater figure, one group of solar water heater is directly towards sunshine 52, solar water heating pipe 72 is after connection in series-parallel, connect a water storage cylinder 71, the thermal energy storage that solar water heating pipe 72 is sent out is used in hot water water storage cylinder 71 or direct supply, be applied to solar water heater and study present solar water heating pipe 72 according to the expert, really waste one's talent on a petty job, solar water heating pipe can bear the sunshine of several times, and can send the heat energy of several times, and the solar water heater production technology is controlled in foreign producer, solar water heater holds at high price, the heat energy that the solar energy heating apparatus is sent is again so few, the benefit rate that solar thermal collector is installed can't improve, everybody knows that solar energy is green energy resource perfectly well, with not to the utmost, that gets is without cease, it is green energy resource not to the utmost infinite and that need not spend to buy, but the thermal energy that solar thermal collector produced reaches costing an arm and a leg of this device less, hereat solar thermal collector can't effectively be promoted always, and everybody knows that convex lens can optically focused perfectly well, and why do not have producer with the convex lens concentration applications in solar thermal collector, and the sun is to move, and general solar energy collector all fixedly mounts, the usefulness of solar energy heating is relatively poor, so generally commonly use the solar thermal collector space that has greatly improved.
Summary of the invention
1. the purpose of this invention is to provide a kind of beam condensing unit that solves solar energy heating energy inefficiency, to extend condenser and adjustable support, solve solar energy heating energy inefficiency, make solar thermal collector send the heat energy of several times, the electric flux that the solar energy heating apparatus is produced reaches costing an arm and a leg of this device solar thermal collector less, the benefit rate that solar energy collector is installed can't improve, at first to improve the benefit rate of solar energy collector, improve the heat-collecting capacity of solar energy exactly, solar thermal collector can bear the sunshine of several times, and can send the heat energy of several times, the caloric value that improves solar energy just must improve the optically focused amount of sunshine, so must install optically focused convex lens additional, with the optically focused amount of raising sunshine, and then the heat-collecting capacity of raising solar energy.
2. everybody knows that convex lens can optically focused perfectly well, and why do not have producer with the convex lens concentration applications in the solar energy collecting apparatus, originally a large-area convex lens weight is very heavy, large-area focal length of convex lens is very long, and large-area convex lens are difficult for making, cost an arm and a leg, thus the solar energy collecting apparatus done with large-area convex lens, bulky, weight is very heavy, cost an arm and a leg, hereat change large-area convex lens into little convex lens, little convex lens price easy to manufacture is lower, focal length is shorter, the volume of energy collector device can attenuate, thus with several little convex lens arrays on a plane, no matter be square array, annular array or cellular hexagonal array, all can reduce price effectively, the volume attenuate, several little convex lens arrays are to be the compound eye condenser.
3. when still several little convex lens are arranged on the plane, the focus of little convex lens is disperseed, solar absorber plate must be cut into a fritter a small area of ground and be arranged in a plane, do and cause the volume expansion of energy collector like this, if when several little convex lens being arranged on the curved surface of a curved arch, the focus of little convex lens can be concentrated, and needn't cutting into a fritter a small area of ground, absorber plate is arranged in a plane, absorber plate can be concentrated the central authorities of the curved surface that is placed in curved arch, do like this, just can concentrate the volume of energy collector device effectively, and other position is used for settling other part, can reduce the volume of energy collector device
4. polarisation optically focused signal is arranged in the curved surface of a curved arch with several little convex lens, is exactly the curved compound eye condenser, when light source slightly be offset right, sunshine still can concentrate on the absorber plate, improves generated energy effectively, and needn't adjust the angle of condenser continually.
5. still the thickness of convex lens is thicker, weight is bigger, cost is still high, as convex lens being cut into several concentric circles, and with the same thickness of each concentric circles furnishing, it is the thin flat mirror, convex lens are cut into 20 or more concentric circles, the rotation of each concentric circles is disposed on the curved surface, is the slim Qu Jing of revolving, though slimly revolve bent mirror luminosity and slightly lose, but the slim Qu Jing of revolving reduces thickness effectively, weight reduction reduces cost, with several thin flat mirrors or revolve the curved surface that Qu Jing extends a curved arch, be exactly that curved surface extends condenser, curved surface extends condenser and reduces cost effectively, improves optically focused amount and generated energy, makes the caloric value of every absorber plate improve several times.
6. when using slim curved surface to extend condenser, can shorten the distance of condenser and absorber plate, if slim curved compound eye condenser is loaded on the support, during use, sunshine shines on absorber plate through extending condenser, improve optically focused amount and generated energy, make the caloric value of every absorber plate improve several times.
7. with several little thin flat mirrors or revolve Qu Jing and extend on a plane or the curved surface, several thin flat mirrors or to revolve that bent mirror extends be to be that compound eye extends condenser, can reduce price effectively, volume attenuate, several thin flat mirrors or to revolve that bent mirror extends be to be that compound eye extends condenser.
8. the embodiment of this device can be applicable to solar water heater, solar distilling hydrophone, solar boiler, the solar energy device that boils, solar power device.
9. the sun moves westwards moving every day from east orientation, and general solar energy collector all fixedly mounts, the usefulness of solar electrical energy generation is relatively poor, one mechanism must be installed makes the solar strong electro-heat equipment improve usefulness, solar energy collector is assembled in the rotary cover, one motor connects the timer circuit plate, motor can regularly drive rotary cover and rotate, rotary cover can be with the timing automatic tuning solar source of solar cell array, extending condenser is gathered in the several times solar energy on the solar energy collector, the extension condenser effectively shortens the distance of condenser and solar energy collector, the several times solar energy makes solar energy collector send the thermal energy storage of several times in accumulator, the timing automatic rotation rotary cover of timer circuit plate control motor makes solar energy collector can turn to solar tracking automatically, improves the usefulness of solar electrical energy generation or thermal-arrest.
10. the embodiment of this device, motor can use dentation belt and dentation belt pulley to come the driven rotary cover to rotate, the rotary cover of long strip type solar thermal collector is the die casting aluminium frame with a rectangular V-arrangement, each die casting aluminium frame top is that locking one long strip type extends condenser, be that a long strip type heat collector is housed within each long strip type die casting aluminium frame, has rotating shaft before and after the die casting aluminium frame of rotary cover, die casting aluminium frame rotating shaft is that dress is fixed on the bearing of body shell, the dentation belt pulley is housed on the rotating shaft of rotary cover, the dentation belt pulley also is housed on the motor drive shaft, the dentation belt is to connect the belt pulley of motor drive shaft and the belt pulley of rotary cover, the timing automatic turn of timer circuit plate control motor, every morning is from the rotation of east orientation west, rotate every night from West to East, rotary cover can make solar thermal collector can turn to solar tracking automatically with the timing automatic transfer of extension condenser of solar thermal collector towards solar source, improves the usefulness of solar-powered heating.
11. the embodiment of this device, pipe top tool extends reflective membrane under condenser and the interior pipe below tool outside the vacuum tube, has an aluminium matter endothermic tube in the vacuum tube, aluminium matter endothermic tube both sides accompany U type pipe, the vacuum tube of array heat collector is housed in the body shell, vacuum tube is interior pipe and outer tube vacuum heat-insulation, the pipe top has the extension condenser outside the vacuum tube, reflective membrane under the tool of pipe below within the vacuum tube, be to have an aluminium matter endothermic tube in the vacuum tube, aluminium matter endothermic tube enlarges the endotherm area of solar water heating pipe, the extension condenser of vacuum tube is gathered in the several times solar energy on hot-water line and the U type pipe, reflective membrane can be gathered in the solar energy reflection on U type pipe and the endothermic tube, the extension condenser effectively shortens the distance of condenser and endothermic tube, the several times solar energy makes energy thermal energy storage that solar energy hydrothermal solution pipe sends several times in the hot water water storage cylinder, extends the usefulness that condenser improves solar-powered heating.
12. the embodiment boiler of this device, the body shell of this device is to have vacuum tube, body shell and unboiled water water storage cylinder and hot boiling water tube are separating devices, the water valve that has ball float in the unboiled water water storage cylinder, raw cooling water (RCW) flows into the unboiled water water storage cylinder through water valve, hot-water line is housed in the vacuum tube, the hot-water line both sides are to have aluminium matter absorber plate, aluminium matter absorber plate enlarges the endotherm area of solar water heating pipe, and cold water pipe connects hot-water line, extends condenser solar energy is concentrated on solar water heating pipe, make solar water heating pipe produce the hot boiling water of several times high temperature, hot boiling water flows into hot boiling water tube, has the water valve of ball float in the hot boiling water tube inner face, and controller control cold water and hot water circuit flow.
13. the embodiment solar water heater of this device, the body shell of solar water heater is to have hot water barrel and hot-water line, the body shell is that rotary cover is housed, rotary cover is solar energy to be housed extend condenser, be to have condenser frame below the rotary cover, be equipped with hot-water line in the middle of the condenser frame, curved surface extends condenser solar energy is concentrated on solar water heating pipe, making solar water heating pipe produce the hot water of several times high temperature, is to have cold water pipe below the hot water barrel, is to have hot-water line above the hot water barrel, hot water rises and is stored in the hot water barrel, be to have cold water pipe below the hot water barrel, cold water pipe connects hot-water line, and cold water and hot water circuit are flowed.
14. the embodiment thermal and electric two way structure of this device, this device has solar cell array and heat collector simultaneously, the body shell of this device is to have the hot water water storage cylinder, hot-water line and battery, long strip type solar energy rotary cover is the condenser frame with rectangular V-arrangement, the condenser frame top is that condenser is extended in locking, be that solar water heating pipe is housed within the array condenser frame, be that solar silicon chip is housed within the array condenser frame in addition, has rotating shaft before and after the condenser frame of rotary cover, the condenser frame rotating shaft is that dress is fixed on the bearing of body shell, on the rotating shaft of rotary cover belt gear is housed, belt gear also is housed on the motor drive shaft, the dentation belt is to connect the belt gear of motor drive shaft and the belt gear of rotary cover, the timing automatic turn of timer circuit plate control motor, every morning is from the rotation of east orientation west, rotate every night from West to East, rotary cover can be with the timing automatic transfer of extension condenser of solar cell array and heat collector towards solar source, make solar cell array and heat collector can turn to solar tracking automatically, improve the usefulness of solar electrical energy generation and thermal-arrest, extend condenser solar energy is concentrated on solar water heating pipe, make solar water heating pipe produce the hot water of several times high temperature, be to have cold water pipe below the hot water water storage cylinder, be to have hot-water line above the hot water water storage cylinder, hot-water line passes the rotating shaft of rotary cover, hot water rises and is stored in the hot water water storage cylinder, and the electrical power storage of solar silicon chip generation is used to motor in battery and power supply.
Description of drawings
Below in conjunction with drawings and Examples the utility model is further specified.
Fig. 1: this creation structure cut-away view.Fig. 2: convex lens optically focused schematic diagram.
Fig. 3: convex lens slimming schematic diagram.Fig. 4: this creation stereoscopic figure.
Fig. 5: this creation three-dimensional exploded view.Fig. 6: the wave structure cut-away view,
Fig. 7: polarisation optically focused schematic diagram.Fig. 8: compound eye prolongs and lists intention.
Fig. 9: simple eye extension schematic diagram.Figure 10: multi-tiling optically focused schematic diagram.
Figure 11: curved surface extends schematic diagram.Figure 12: vacuum tube structure cut-away view.
Figure 13: vacuum U type pipe schematic diagram.Figure 14: U pipe water heater structure chart.
Figure 15: heat pipe structure cut-away view.Figure 16: vacuum heat-pipe structure chart.
Figure 17: heat pipe water heater structure chart.Figure 18: condensing evacuated duct ligation composition.
Figure 19: optically focused U duct ligation composition.Figure 20: split type water heater structure chart.
Figure 21: boiler structure chart.Figure 22: rotary cover stereo appearance figure.
Figure 23: rotary cover structure chart.Figure 24: rotary cover three-dimensional exploded view.
Figure 25: rotary cover action schematic diagram.Figure 26: thermal and electric two way stereo appearance figure.
Figure 27: thermal and electric two way structure chart.Figure 28: thermal and electric two way three-dimensional exploded view.
Figure 29: thermal and electric two way action schematic diagram.Figure 30: commonly use solar water heater figure.
Graphic explanation
01 body shell 02 revolves bent mirror 03 circuit board 04 dull and stereotyped mirror 05 and prolongs the row condenser
11 condensers, 12 convex lens, 13 curved surfaces, 14 condenser frames 15 extend condenser
21 motors, 22 heat pipes, 23 absorber plates, 24 endothermic tubes, 25 dentation belts
31 rotary covers, 32 gears, 33 photosensors, 34 bearings, 35 wave condensers
41 electric organs, 42 silicons, 43 ball floats, 44 bracing frames, 45 array condensers
51 controllers, 52 sunshines, 53 rotating shafts, 54 batteries, 55 adjustable supports
61 heat collectors, 62 reflection shields, 63 heat-collecting boxes, 64 reflective membranes, 65 relief valves
71 water storage cylinder, 72 hot-water lines, 73 cold water pipes, 74 electric heaters, 75 hydrothermal solution pipes
Pipe 83 outer tube 84U type pipes 85 cooling liquid tubes in 81 vacuum tubes 82
91 water pumps, 92 water valves, 93 hot coils, 94 thermal storage devices, 95 hot boiling water tubes
The specific embodiment
1. this case illustrates as Fig. 2: convex lens optically focused schematic diagram.As Fig. 2-1, large-area convex lens 12, weight is very heavy, large-area convex lens 12 focal lengths are very long, large-area convex lens are difficult for making, cost an arm and a leg, do solar-energy light collector with large-area convex lens, bulky, weight is very heavy, cost an arm and a leg, as Fig. 2-2, change large-area convex lens into little convex lens 12, little convex lens price easy to manufacture is lower, focal length is shorter, the volume of beam condensing unit can attenuate, so several little convex lens are arranged on the plane, it is to be plane compound eye condenser that several little convex lens are arranged in the plane, as Fig. 2-3, when several little convex lens 12 are arranged on the plane, the focus of little convex lens is disperseed, solar absorber plate 23 must be cut into a fritter a small area of ground and be arranged in a plane, do and cause the volume expansion of beam condensing unit like this, if when several little convex lens being arranged on the curved surface 13 of a curved arch, the focus of little convex lens can be concentrated, and needn't cutting into a fritter a small area of ground, absorber plate 23 is arranged in a plane, absorber plate 23 can be concentrated the central authorities of the curved surface that is placed in curved arch, do like this, just can concentrate the volume of beam condensing unit effectively, and other position is used for settling other part, can reduce the volume of beam condensing unit, as Fig. 2-4, when several little convex lens 12 were arranged on the curved surface 13 of a curved arch, if the radian of the curved surface of curved arch 13 strengthens, the little convex lens 12 set Focus Clubs on the curved surface 13 shortened, absorber plate 23 can shorten with the distance of convex lens 12, can reduce the volume of beam condensing unit like this, in the curved surface of a curved arch, be exactly curved compound eye condenser 11 with several little convex lens arrays, when light source slightly is offset, sunshine still can concentrate on the absorber plate 23, improves the optically focused amount effectively, and needn't adjust the angle of condenser 11 continually.
2. this case illustrates as Fig. 3: convex lens thin flat schematic diagram.The thickness of convex lens is thicker, weight is bigger, cost is still high, as convex lens 12 are cut into several concentric circles, and with the same thickness of each concentric circles furnishing, though luminosity slightly loses, but thin flat mirror 04 reduces thickness effectively, weight reduction, reduce cost, as Fig. 3-1, convex lens are cut into ten concentric circles, as Fig. 3-2, ten the same thickness of concentric circles furnishing with convex lens, can be with convex lens 12 panelized, as Fig. 3-3, convex lens 12 are cut into 20 or more concentric circles, can effectively can be with dull and stereotyped mirror 04 slimming, this thin flat mirror 04 is exactly the Fresnel condenser (Fresnel lens) that generally is commonly called as, and in the curved surface of a curved arch, is exactly curved surface thin flat compound eye condenser with several thin flat mirror 04 arrays, as Fig. 3-4, convex lens are cut into 20 or more concentric circles, each concentric circles rotation is disposed on the curved surface 13, slimly exactly revolve bent mirror 02, it is slim that to revolve bent mirror 02 be the later important breakthrough invention of Fresnel condenser (Fresnel lens) invention, the slimming that not only has the Fresnel condenser, high optically focused degree, maximum characteristics are that focal distance ratio Fresnel condenser is short, also slimly like this revolve the volume that bent mirror 02 can reduce beam condensing unit, slimly revolve bent mirror 02 and reduce cost effectively, improve optically focused amount and caloric value and generated energy, make the caloric value raising several times of every absorber plate.
With several slim tablet mirrors 04 or revolve bent mirror 02 array in the curved surface of a curved arch, it is exactly the slim compound eye condenser of curved surface, the slim compound eye condenser of curved surface reduces cost effectively, improves optically focused amount and caloric value and generated energy, makes the caloric value of every absorber plate improve several times.
3. this case illustrates as Fig. 4: this creation stereoscopic figure.The condenser frame 14 of dress array solar thermal collector in the body shell 01 of this device, be to be equipped with one to prolong row condenser 05 on each condenser frame 14, condenser frame 14 is that dress is fixed on the body shell 01, the side is to have hot water barrel 71 after the body shell 01, body shell 01 below is that bracing frame 44 is housed, be to have condenser frame 14 above the body shell 01, be equipped with hot-water line 72 in the middle of the condenser frame 14.
4. this case illustrates as Fig. 1: this creation structure cut-away view, the condenser frame 14 of array solar thermal collector is housed in the body shell 01 and prolongs row condenser 05, be to be equipped with one to prolong row condenser 05 on each condenser frame 14, the side is that solar water heating pipe 72 is housed under each condenser frame 14 inside, hot-water line 72 both sides are to have absorber plate 23, absorber plate 23 enlarges the endotherm area of solar water heating pipe 72, body shell 01 below is that bracing frame 44 is housed, bracing frame 44 can be with solar thermal collector tuning solar source, prolonging row condenser 05 is gathered in the several times solar energy on the solar water heating pipe 72, prolong row condenser 05 effective distance that shortens condenser and solar water heating pipe 72, the several times solar energy makes energy thermal energy storage that solar water heating pipe 72 sends several times in water storage cylinder, prolongs the usefulness that row condenser 05 improves solar-powered heating.
5. this case illustrates as Fig. 5: this creation three-dimensional exploded view.The condenser frame 14 of long strip type solar thermal collector is the die casting aluminium condenser frame 14 with a rectangular V-arrangement, each condenser frame 14 top is that locking one long strip type prolongs row condenser 05, be that a long strip type hot-water line 72 is housed within each condenser frame 14, condenser frame 14 belows are to have reflection shield 62, reflection shield 62 can be gathered in the solar energy reflection on the solar water heating pipe 72, bracing frame 44 is equipped with in the side under the body shell 01, bracing frame 44 can lift body shell 01 towards sunshine, prolong row condenser 05 towards solar source, reflection shield 62 can be gathered in the solar energy reflection on the solar water heating pipe 72, improves the usefulness of solar-powered heating.
6. this case illustrates as Fig. 6: the wave structure cut-away view, the condenser frame 14 and the wave condenser 35 of array solar thermal collector are housed in the body shell 01, be that wave condenser 35 is housed on the condenser frame 14, condenser frame 14 is into undaform, wave condenser 35 also becomes undaform, the groove of each wave condenser frame 14 inside is that solar water heating pipe 72 is housed, hot-water line 72 both sides are to have absorber plate 23, absorber plate 23 enlarges the endotherm area of solar water heating pipe 72, condenser frame 14 belows are to have reflection shield 62, wave condenser 35 is gathered in the several times solar energy on solar water heating pipe 72 and the absorber plate 23, reflection shield 62 can be gathered in the solar energy reflection on the solar water heating pipe 72, wave condenser 35 effectively shortens the distance of condenser and solar water heating pipe 72, the several times solar energy makes energy thermal energy storage that solar water heating pipe 72 sends several times in the hot water water storage cylinder, extends the usefulness that condenser improves solar-powered heating.
7. this case illustrates as Fig. 7: polarisation optically focused schematic diagram.With several tablet mirrors 04 or revolve the curved surface that bent mirror 02 extends a curved arch for a short time, be exactly that curved surface extends condenser 15, when light source slightly was offset, sunshine still can concentrate on the absorber plate of hot-water line, improve the optically focused amount effectively, and needn't adjust the angle of condenser continually.As Fig. 7-1, light source is slightly when left is offset, but sunshine still mat curved surface extension condenser 15 concentrates on the absorber plate of hot-water line, as Fig. 7-2, light source is slightly when the top is injected, but sunshine mat curved surface extends condenser 15 to be concentrated on the absorber plate of hot-water line, as Fig. 7-3, light source is slightly when right-hand skew, but sunshine still curved surface extension condenser 15 concentrates on the absorber plate of hot-water line, curved surface extends condenser 15 and improves the optically focused amount effectively than the planar concentrating mirror, and needn't adjust the angle of condenser continually.
8. this case embodiment explanation is as Fig. 8: compound eye prolongs and lists intention.As Fig. 8-1, several convex lens extensions are arranged on the plane, be exactly that lens prolong the row condenser, it is discontinuous that lens prolong the dispersion of row condenser focus, and focal length is very long.As Fig. 8-2, several dull and stereotyped mirrors extensions are arranged on the plane, be exactly that flat board prolongs the row condenser, it is discontinuous that flat board prolongs the dispersion of row condenser reduced thickness focus, but Focus length is still very long, as Fig. 8-3, several are revolved bent mirror extension is arranged on the curved surface, revolve the Qu Yanlie condenser exactly, revolve Qu Yanlie condenser focus and slightly disperse continuously, and focal length shortens naturally.
9. this case embodiment illustrates as Fig. 9: simple eye extension schematic diagram.As Fig. 9-1, it is exactly that lens extend condenser that the section of convex lens 12 is extended on the plane, and lens extend the condenser focus and disperse discontinuously, but focal length is still very long.As Fig. 9-2, the section of a dull and stereotyped mirror is extended on the plane, it is exactly the dull and stereotyped condenser that extends, the dull and stereotyped condenser reduced thickness focus of extending is not disperseed continuously, but Focus length is still very long, as Fig. 9-3, a section that revolves Qu Jing is extended on the plane, revolve the Qu Yanshen condenser exactly, revolve Qu Yanshen condenser focus and do not disperse continuously, and focal length shortens.
10. this case illustrates as this case embodiment such as Figure 10: multi-tiling optically focused schematic diagram, solar absorber plate is divided into several blocks, every suite face intensively effective concentrating mirror is solar absorber plate of configuration down, as Figure 10-1, the section of several dull and stereotyped mirrors is extended on the plane, it is exactly the dull and stereotyped condenser that extends, the dull and stereotyped condenser reduced thickness focus of extending is not disperseed continuously, but Focus length is still very long, dull and stereotyped extension condenser and solar absorber plate distance are longer, and as Figure 10-2, every group is extended condenser solar absorber plate of configuration down, several sections that revolve Qu Jing are extended on the plane, revolve the Qu Yanshen condenser exactly, revolve Qu Yanshen condenser focus and do not disperse continuously, and focal length shortens naturally, it is shorter to revolve Qu Yanshen condenser and solar absorber plate distance, cuts apart the reduced thickness that array makes this device.
11. this case explanation as this case embodiment Figure 11: curved compound eye is extended schematic diagram, the section of several convex lens extended on the curved surface, and be exactly that lens extend condenser, it is discontinuous that lens extend the dispersion of condenser focus, but focal length is still very long.As Figure 11-1, the section of several dull and stereotyped mirrors is extended on the curved surface, it is exactly the dull and stereotyped condenser that extends of curved surface, the dull and stereotyped condenser reduced thickness focus of extending is not disperseed continuously, but Focus length is still very long, as Figure 11-2, several sections that revolve Qu Jing are extended on the curved surface, be exactly that curved surface revolves the Qu Yanshen condenser, revolve Qu Yanshen condenser focus and do not disperse continuously, and focal length shorten naturally.
12. this case illustrates as Figure 12: the vacuum tube structure cut-away view.The condenser frame 14 of array solar thermal collector is housed in the body shell 01 and extends condenser 15, be to be equipped with to extend condenser 15 on the condenser frame 14, condenser frame 14 is into undaform, extend condenser 15 and also become undaform, the groove of each wave condenser frame 14 inside is that solar energy vacuum tube 81 is housed, condenser frame 14 belows are to have reflection shield 62, extending condenser 15 is gathered in the several times solar energy on solar water heating pipe 72 and the endothermic tube 24, reflection shield 62 can be gathered in the solar energy reflection on solar water heating pipe 72 and the endothermic tube 24, extend condenser 15 effective distances that shorten condenser and solar water heating pipe 72, the several times solar energy makes energy thermal energy storage that solar water heating pipe 72 sends several times in the hot water water storage cylinder, extends the usefulness that condenser 15 improves solar-powered heatings.
13. this case illustrates as Figure 13: vacuum U type duct ligation composition.Vacuum tube 81 is interior pipe 82 and outer tube 83 vacuum heat-insulations, and aluminium matter endothermic tube 24 is housed in the vacuum tube 81, and endothermic tube 24 both sides are to have U type pipe 84, and aluminium matter endothermic tube 24 enlarges the endotherm area of solar energy U type pipe 84.
14 this cases illustrate as Figure 14: U type pipe water heater structure chart.The body shell of this device is to have hot water water storage cylinder 71 and vacuum tube 81, water storage cylinder 71 places on the bracing frame 44, be equipped with vacuum tube 81 in the middle of the condenser frame, hydrothermal solution pipe 75 is housed in the vacuum tube 81, hydrothermal solution pipe 75 inboards are to have aluminium matter endothermic tube 24, aluminium matter endothermic tube 24 enlarges the endotherm area of solar energy hydrothermal solution pipe 75, extend condenser 15 solar energy is concentrated on solar energy hydrothermal solution pipe, make solar energy hydrothermal solution pipe 75 produce the hydrothermal solution of several times high temperature, hot water water storage cylinder 71 inner faces are to have a hot coil 93, be to have hydrothermal solution pipe 75 above the hot coil 93, hydrothermal solution pipe 75 passes the hot water water storage cylinder, and hydrothermal solution rising mat hot coil 93 calorifies the hot water water storage cylinder, is to have cooling liquid tube 85 below the hot coil 93, cooling liquid tube connects the hydrothermal solution pipe, and cold liquid and hydrothermal solution are circulated.
15. this case illustrates as Figure 15: the heat pipe structure cut-away view.Pipe 83 top tools extend reflective membrane 64 under condenser 15 and the interior pipe 82 below tools outside the vacuum tube 81, has aluminium matter endothermic tube 24 in the vacuum tube 81, in the aluminium matter endothermic tube 24 heat pipe 22 is housed, the vacuum tube 81 of array solar thermal collector is housed in the body shell, pipe 83 tops have the condenser 15 of extension outside the vacuum tube, reflective membrane 64 under the pipe 82 below tools within the vacuum tube, be to have aluminium matter endothermic tube 24 in the vacuum tube, aluminium matter endothermic tube 24 enlarges the endotherm area of solar water heating pipe, the extension condenser 15 of vacuum tube is gathered in the several times solar energy on the solar heat endothermic tube, reflective membrane 64 can be gathered in the solar energy reflection on the solar energy heat absorption pipe 24, endothermic tube 24 is passed to heat pipe 22 with heat energy, heat pipe 22 heat hot water water storage cylinder, extend condenser 15 effective distances that shorten condenser and solar energy heat absorption pipe, the several times solar energy makes energy thermal energy storage that solar water heater sends several times in the hot water water storage cylinder, extends the usefulness that condenser improves solar-powered heating.
16. this case illustrates as Figure 16: the vacuum heat-pipe structure chart.Vacuum tube 81 is interior pipe 82 and outer tube 83 vacuum heat-insulations, pipe 83 tops have the condenser 15 of extension outside the vacuum tube, reflective membrane under the pipe 82 below tools within the vacuum tube, be to have aluminium matter endothermic tube 24 in the vacuum tube, one heat pipe 22 is arranged in the endothermic tube, and aluminium matter endothermic tube 24 enlarges the endotherm area of solar heat pipe 22.
17. this case illustrates as Figure 17: heat pipe water heater structure chart.The body shell of this device is to have hot water water storage cylinder 71 and vacuum tube 81, water storage cylinder 71 places on the bracing frame 44, be equipped with vacuum tube 81 in the middle of the condenser frame, hydrothermal solution pipe 75 is housed in the vacuum tube 81, hydrothermal solution pipe 75 inboards are to have aluminium matter endothermic tube 24, aluminium matter endothermic tube 24 enlarges the endotherm area of solar energy hydrothermal solution pipe 75, extend condenser 15 solar energy is concentrated on solar energy hydrothermal solution pipe 75, make solar energy hydrothermal solution pipe 75 produce the hydrothermal solution of several times high temperature, hot water water storage cylinder 71 inner faces are to have hot coil 93, be to have hydrothermal solution pipe 75 above the hot coil 93, hydrothermal solution pipe 75 passes the hot water water storage cylinder, and hot water rising mat hot coil 93 calorifies the hot water water storage cylinder, is to have cooling liquid tube 85 below the hot coil 93, cooling liquid tube connects the hydrothermal solution pipe, and cold liquid and hydrothermal solution are circulated.
18. this case illustrates as Figure 18: condensing evacuated duct ligation composition.Pipe 83 top tools extend reflective membrane 64 under condenser 15 and the interior pipe 82 below tools outside the vacuum tube, has aluminium matter endothermic tube 24 in the vacuum tube 81, aluminium matter endothermic tube 24 both sides accompany U type pipe 84, the vacuum tube 81 of array heat collector is housed in the body shell, vacuum tube is interior pipe 82 and outer tube 83 vacuum heat-insulations, pipe 83 tops have the condenser 15 of extension outside the vacuum tube, reflective membrane 64 under the pipe 82 below tools within the vacuum tube, be to have aluminium matter endothermic tube 24 in the vacuum tube 81, aluminium matter endothermic tube 24 enlarges the endotherm area of hot-water line, extension optically focused 15 mirrors of vacuum tube are gathered in the several times solar energy on solar energy heat absorption pipe and the U type pipe 84, reflective membrane 64 can be gathered in the solar energy reflection on solar energy U type pipe 84 and the endothermic tube 24, extend condenser 15 effective distances that shorten condenser and solar energy heat absorption pipe, the several times solar energy makes energy thermal energy storage that solar energy hydrothermal solution pipe sends several times in the hot water water storage cylinder, extends the usefulness that condenser 15 improves solar-powered heatings.
19. this case illustrates as Figure 19: optically focused U duct ligation composition.Vacuum tube 81 is interior pipe 82 and outer tube 83 vacuum heat-insulations, pipe 83 tops have the condenser 15 of extension outside the vacuum tube, reflective membrane 64 under the pipe 82 below tools within the vacuum tube, be to have aluminium matter endothermic tube 24 in the vacuum tube, aluminium matter endothermic tube 24 both sides accompany U type pipe 84, and aluminium matter endothermic tube 24 enlarges the endotherm area of solar water heating pipe.
20. this case illustrates as Figure 20: split type water heater structure chart.The body shell of this device is to have vacuum tube 81, body shell and water storage cylinder 71 are separating devices, U type pipe 84 is housed in the vacuum tube 81, hydrothermal solution pipe 75 inboards are to have aluminium matter endothermic tube 24, aluminium matter endothermic tube 24 enlarges the endotherm area of solar energy hydrothermal solution pipe 75, extend condenser 15 solar energy is concentrated on solar energy hydrothermal solution pipe 75, make solar energy hydrothermal solution pipe 75 produce the hydrothermal solution of several times high temperature, hot water water storage cylinder 71 inner faces are to have a hot coil 93, be to have a hydrothermal solution pipe 75 above the hot coil 93, be to have a cooling liquid tube 85 below the hot coil 93, cooling liquid tube 85 connects heat-collecting box 63 and hydrothermal solution pipe 75, and water pump 91 is housed on the cooling liquid tube 85, and water pump 91 pressurizations circulate cold liquid and hydrothermal solution, hydrothermal solution pipe 75 passes the hot water water storage cylinder, and hydrothermal solution mat hot coil 93 calorifies the hot water water storage cylinder.
21. this case illustrates as Figure 21: the boiler structure chart.The body shell of this device is to have vacuum tube 81, body shell and unboiled water water storage cylinder 71 and hot boiling water tube 95 are separating devices, the water valve 92 that has ball float 43 in the unboiled water water storage cylinder 71, raw cooling water (RCW) flows into unboiled water water storage cylinder 71 through water valve 92, hot-water line 73 is housed in the vacuum tube 81, hot-water line 73 both sides are to have aluminium matter absorber plate 23, aluminium matter absorber plate 23 enlarges the endotherm area of solar water heating pipe 73, cold water pipe connects hot-water line 72, extend condenser 15 solar energy is concentrated on solar water heating pipe 72, make solar water heating pipe 72 produce the hot boiling water of several times high temperature, hot boiling water flows into hot boiling water tube 95, the water valve 92 that has ball float in hot boiling water tube 95 inner faces, controller control cold water and hot water circuit flow.
22. this case embodiment illustrates as Figure 22: the rotary cover stereo appearance figure.The body shell 01 of this device is to have hot water water storage cylinder 71 and hot-water line 72, long strip type solar energy rotary cover 31 is the condenser frames 14 with rectangular V-arrangement, condenser frame 14 tops are that the locking long strip type extends condenser 15, be that long strip type solar water heating pipe 72 is housed within the long strip type condenser frame 14, extend condenser 15 solar energy is concentrated on solar water heating pipe 72, make solar water heating pipe produce the hot water of several times high temperature.
23. this case embodiment illustrates as Figure 23: the rotary cover structure chart.Condenser frame 14 front and back of rotary cover 31 have rotating shaft, condenser frame 14 rotating shafts are that dress is fixed on the bearing 34 of body shell 01, belt gear 32 is housed on the rotating shaft of rotary cover 31, on 21 in the motor belt gear 32 also is housed, dentation belt 25 is to connect the belt gear 32 of 21 in motor and the belt gear 32 of rotary cover 31, the 21 automatic turns of circuit board 03 control motor, every morning is from the rotation of east orientation west, rotate every night from West to East, rotary cover 31 can be with the extension condenser 15 timing automatic transfers of solar thermal collector towards solar source, make solar thermal collector can turn to solar tracking automatically, improve the usefulness of solar energy heating.Be to have the condenser 15 of extension above the rotary cover 31, be equipped with hot-water line 72 in the middle of the rotary cover 31, extend condenser 15 solar energy is concentrated on solar water heating pipe 72, make solar water heating pipe 72 produce the hot water of several times high temperature.
24. this case embodiment illustrates as Figure 24: the rotary cover three-dimensional exploded view.Be to have cold water pipe 73 below the hot water water storage cylinder 71, be to have hot-water line 72 above the hot water water storage cylinder, hot-water line passes the rotating shaft 34 of rotary cover, and hot water rises and to be stored in hot water water storage cylinder 71, is to have cold water pipe below the hot water water storage cylinder, cold water pipe connects hot-water line, cold water and hot water circuit are flowed, and hot water rises and is stored in water storage cylinder 71, and this device hot water water storage cylinder has electric heater 74, overcast and rainy available electric heater 74 heating water storage cylinder 71, multiple mode of heating guarantees the never disconnected hot water supply that stops.Extend condenser 15 solar energy is concentrated on solar water heating pipe 72, make solar water heating pipe 72 produce the hot water of several times high temperature.
25. this case embodiment illustrates as Figure 25: rotary cover action schematic diagram.When the sunshine light source moved, every morning, the timer circuit plate made the sunshine cover on hot-water line 72 through the 31 automatic turns of motor 21 timing controlled rotary covers, improves the optically focused amount effectively from the rotation of east orientation west.As Figure 25-1, every morning, the sun rose from east. and rotary cover 31 automatic turns are offset east, sunshine can concentrate on the hot-water line 72, as Figure 25-2, noon every day the sun rise in directly over. rotary cover 31 automatic turns are moved upward, sunshine can concentrate on the hot-water line 72, as Figure 25-3, every afternoon, the sun westwards fell. and rotary cover 31 automatic turns are offset to the west, sunshine can concentrate on the hot-water line 72, improves the optically focused amount effectively, and rotary cover 31 can be with the extension condenser 15 timing automatic transfers of solar thermal collector towards solar source, make solar energy send out heat collector and can turn to solar tracking automatically, improve the usefulness of solar electrical energy generation.
26. this device of this case embodiment illustrates as Figure 26:thermal and electric two way stereo appearance figure and Figure 27:thermal and electric two way structure chart. has solar cell array 41 and heat collector 61 simultaneously; The body shell 01 of this device is to have hot water water storage cylinder 71; Hot-water line 72 and battery 54; Long strip type solar energy rotary cover 31 is the condenser frames 14 with rectangular V-arrangement; Condenser frame 14 tops are that locking long strip type plane or curved surface extend condenser 15; Condenser frame 14 tops are that photosensor 33 is housed; That solar water heating pipe 72 is housed within the array condenser frame 14; That long strip type solar silicon chip 42 is housed within the array long strip type condenser frame 14 in addition
27. this case embodiment illustrates as Figure 28: the thermal and electric two way three-dimensional exploded view.Condenser frame 14 front and back of rotary cover 31 have rotating shaft, condenser frame 14 rotating shafts are that dress is fixed on the bearing of body shell, belt gear 32 is housed on the rotating shaft of rotary cover 31, on 21 in the motor belt gear 32 also is housed, one dentation belt 25 is to connect the belt gear of 21 in motor and the belt gear of rotary cover 31, the 21 automatic turns of photosensor circuit board 03 control motor, every morning is from the rotation of east orientation west, rotate every night from West to East, rotary cover 31 can be transferred the extension condenser 15 of solar cell array 41 and heat collector 61 towards solar source automatically, make solar cell array 41 and heat collector 61 can turn to solar tracking automatically, improve the usefulness of solar electrical energy generation and thermal-arrest, extend condenser 15 solar energy is concentrated on solar water heating pipe 72, make solar water heating pipe 72 produce the hot water of several times high temperature, be to have a cold water pipe 73 below the hot water water storage cylinder 71, be to have a hot-water line 72 above the hot water water storage cylinder 71, hot-water line 72 passes the rotating shaft of rotary cover 31, hot water rises and is stored in hot water water storage cylinder 71, extend condenser 15 solar energy is concentrated on solar silicon chip 42, the electrical power storage of solar silicon chip 42 generations is given motor 21 usefulness in battery 54 and power supply.
28. this case embodiment illustrates as Figure 29: thermal and electric two way action schematic diagram.When the sunshine light source moved, every morning, the photosensor circuit board made the sunshine cover on hot-water line 72 and solar silicon chip 42 through the 31 automatic turns of motor 21 control rotary covers, improves the optically focused amount effectively from the rotation of east orientation west.As Figure 29-1, every morning, the sun rose from east, rotary cover 31 automatic turns are offset east, sunshine can concentrate on hot-water line 72 and the solar silicon chip 42, as Figure 29-2, noon every day the sun rise in directly over. rotary cover 31 automatic turns are moved upward, sunshine can concentrate on hot-water line 72 and the solar silicon chip 42, as Figure 29-3, every afternoon, the sun westwards fell. and rotary cover 31 automatic turns are offset to the west, sunshine can concentrate on hot-water line 72 and the solar silicon chip 42, improve the optically focused amount effectively, rotary cover 31 can be transferred the extension condenser 11 of solar thermal collector 61 and electric organ 41 towards solar source automatically, makes solar thermal collector and electric organ 41 can turn to solar tracking automatically, improves the usefulness of solar electrical energy generation and thermal-arrest.

Claims (6)

1. solar energy intensively effective concentrating collector, comprise the extension condenser, condenser frame, reflection shield, the body shell, one group of solar thermal collector and thermal storage device, one group of solar thermal collector is housed in the body shell, it is characterized in that: be strip to be housed extend condenser on group leader's bar shaped solar thermal collector, extending the condenser below is that dress is fixed in condenser frame, solar water heating pipe becomes strip to be fixedly arranged in the groove of condenser frame, the condenser frame below is to have the strip reflection shield, and reflection shield can be gathered in the solar energy reflection on the solar thermal collector, and adjustable support can be with potent extension condenser tuning solar source, strip extends condenser and reflection shield is concentrated on the strip solar thermal collector, and solar thermal collector is communicated in thermal storage device.
2. a solar strong extends condenser, it is characterized in that: extending condenser is the simple eye extension condenser in plane, or the plane compound eye extends condenser, or curved compound eye extension condenser,
The simple eye extension condenser in plane extends convex lens or thin flat mirror or the section that revolves Qu Jing on the plane, is exactly the simple eye extension condenser in plane,
The plane compound eye extends condenser, several convex lens or thin flat mirror or the section that revolves Qu Jing extended on the plane, and be exactly that condenser is extended on the compound eye plane,
Curved compound eye is extended condenser, several convex lens or thin flat mirror or the section that revolves Qu Jing extended on one or more curved surfaces, and be exactly that curved compound eye is extended condenser.
3. solar energy intensively effective concentrating collector according to claim 1, it is characterized in that: wherein heat collector top is to have the condenser of extension and the below is to have to press from both sides solar energy vacuum tube in the reflection shield, the condenser frame of array heat collector is housed in the body shell and extends condenser, be that the extension condenser is housed on the condenser frame, condenser frame is into undaform, extend condenser and also become undaform, the groove of each wave condenser frame inside is that solar energy vacuum tube and hot-water line are housed, vacuum tube is interior pipe and outer tube vacuum heat-insulation, the hot-water line inboard is to have aluminium matter endothermic tube, the condenser frame below is to have reflection shield, extend condenser and be loaded on solar water heating pipe and endothermic tube top, reflection shield is loaded on solar water heating pipe and endothermic tube below, and solar water heating pipe is communicated with the hot water water storage cylinder.
4. solar energy intensively effective concentrating collector according to claim 1, it is characterized in that: wherein be to have vacuum tube in the heat collector, pipe top tool extends condenser and interior pipe below tool reflective membrane outside the vacuum tube, aluminium matter endothermic tube is housed in the vacuum tube, aluminium matter endothermic tube both sides accompany U type pipe, the vacuum tube of array solar thermal collector is housed in the body shell, and vacuum tube is interior pipe and outer tube vacuum heat-insulation, and the extension condenser of vacuum tube and reflective membrane are concentrated on endothermic tube and the U type pipe.
5. solar energy intensively effective concentrating collector according to claim 1, it is characterized in that: wherein be to have vacuum tube in the solar thermal collector, pipe top tool extends condenser and interior pipe below tool reflective membrane outside the vacuum tube, tool one aluminium matter endothermic tube in the vacuum tube, in the aluminium matter endothermic tube heat pipe is housed, the extension condenser of vacuum tube is loaded on the endothermic tube top, reflective membrane is loaded on the endothermic tube below, extending condenser and reflective membrane is concentrated on the heat pipe of endothermic tube, heat pipe stretches into the hot water water storage cylinder, endothermic tube conducts heat in heat pipe, and adopting heat pipes for heat transfer is in the hot water water storage cylinder.
6. solar energy intensively effective concentrating collector according to claim 1, it is characterized in that: wherein be to have solar thermal collector and electric organ simultaneously in the solar thermal collector, be to have the hot water water storage cylinder in the body shell, hot-water line, long strip type solar energy rotary cover and battery, long strip type solar energy rotary cover is the condenser frame with rectangular V-arrangement, the condenser frame top is that condenser and photosensor are extended in locking, be that hot-water line is housed within the array condenser frame, be that solar silicon chip is housed within the array condenser frame in addition, has rotating shaft before and after the condenser frame of rotary cover, the rotating shaft of condenser frame is that dress is fixed on the bearing of body shell, the dentation belt pulley is housed on the rotating shaft of rotary cover, the dentation belt pulley also is housed on the motor drive shaft, the dentation belt is to connect the belt pulley of motor drive shaft and the belt pulley of rotary cover, the automatic turn of circuit board control motor, the extension condenser is equipped with in the rotary cover top, extend condenser and be loaded on the hot-water line top, hot-water line connects the hot water water storage cylinder, being to have cold water pipe below the hot water water storage cylinder, is to have hot-water line above the hot water water storage cylinder, and hot-water line passes the rotating shaft of rotary cover, hot-water line connects in the hot water water storage cylinder, and solar silicon chip connects battery and connects motor.
CN2008100677859A 2008-06-18 2008-06-18 Solar energy intensively effective concentrating collector Expired - Fee Related CN101307960B (en)

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Families Citing this family (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101841267A (en) * 2009-12-31 2010-09-22 袁长胜 High-energy module for solar power heat-collecting device
CN101892965B (en) * 2010-07-17 2013-03-20 李新民 Novel concentrator solar power generation heating system
CN101963402B (en) * 2010-10-25 2012-05-23 北京印刷学院 Solar hot water generating device with secondary reflection parabolic cylinder light-condensing cylindrical surface for light collecting
CN102522921A (en) * 2011-12-30 2012-06-27 吴喜元 Solar thermal-electric combination component
CN103574924A (en) * 2012-08-09 2014-02-12 施锋 Light-collecting composite solar photovoltaic photo-thermal combined collection converter
CN102944073B (en) * 2012-11-17 2015-10-21 门立山 Temperature solar water heater in family expenses
CN103486541B (en) * 2013-09-17 2015-10-21 汉舟四川环保科技有限公司 A kind of focus reflection formula dome skylight
CN104798662A (en) * 2015-04-21 2015-07-29 新疆汉源机械制造有限公司 Solar water pumping heating irrigation system
CN106152553B (en) * 2016-06-28 2018-01-12 西安建筑科技大学 A kind of train solar thermal collection system
CN106287919A (en) * 2016-09-28 2017-01-04 苏州市润兴新能源科技有限公司 A kind of high-efficiency solar heating system
CN106524534A (en) * 2016-10-13 2017-03-22 西安建筑科技大学 High-strength high-weather-resistance concentrating collector
WO2020027730A1 (en) * 2018-08-01 2020-02-06 7 Corporation Pte. Ltd. Improved solar panel
CN109084487A (en) * 2018-09-06 2018-12-25 广州市祺齐太阳能科技有限公司 A kind of light-collected solar water heater

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2366788Y (en) * 1999-04-14 2000-03-01 扬州市华扬太阳能热水器有限公司 Symmetrical type condenser for vacuum heat collector tube
CN2410588Y (en) * 2000-02-17 2000-12-13 李先航 Solar vacuum tube water heater
WO2003010471A1 (en) * 2001-07-25 2003-02-06 Jong Geun Park Solar tracking system and apparatus for warming water using thereof
CN200993492Y (en) * 2006-12-10 2007-12-19 李乃应 Solar fully-automatic tracking device
CN101093110A (en) * 2007-07-13 2007-12-26 江苏邗建集团有限公司 Parallel type aluminum made solar energy collector with fins
CN201014791Y (en) * 2007-03-14 2008-01-30 哈尔滨振北节能材料开发有限公司 Solar energy panel heater

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2366788Y (en) * 1999-04-14 2000-03-01 扬州市华扬太阳能热水器有限公司 Symmetrical type condenser for vacuum heat collector tube
CN2410588Y (en) * 2000-02-17 2000-12-13 李先航 Solar vacuum tube water heater
WO2003010471A1 (en) * 2001-07-25 2003-02-06 Jong Geun Park Solar tracking system and apparatus for warming water using thereof
CN200993492Y (en) * 2006-12-10 2007-12-19 李乃应 Solar fully-automatic tracking device
CN201014791Y (en) * 2007-03-14 2008-01-30 哈尔滨振北节能材料开发有限公司 Solar energy panel heater
CN101093110A (en) * 2007-07-13 2007-12-26 江苏邗建集团有限公司 Parallel type aluminum made solar energy collector with fins

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