CN203478633U - Large underground solar heat storage warehouse - Google Patents

Abstract

The utility model belongs to the field of solar energy and particularly discloses a large underground solar heat storage warehouse. The large underground solar heat storage warehouse can be built underground independently. It would be better if the large underground solar heat storage warehouse is planned together with an underground garage when a building is designed. The large underground solar heat storage warehouse comprises a heat medium storage warehouses A, B and C (147), a coolant recovery warehouse D (146) and a monitoring room (145). The monitoring room (145), a warehouse content monitoring instrument (144) and a warehouse temperature monitoring instrument (149) are used for monitoring the operation condition of the heat storage warehouse in real time. A coolant pump (140) and a heat medium pump (150) are used for adjusting and controlling the stable operation of the heat storage warehouse. The heat storage warehouse is wholly wrapped in a heat preserving layer (147). Coolant solar photovoltaic cells can generate large amount of 350-400DEG C energy carrying heat media. The large underground solar heat storage warehouse is a best choice for reliably storing energy carrying heat media at normal operation time for operation of solar energy resources in poor weather.

Description

The underground large-scale heat-storing warehouse of solar energy

Technical field

The invention belongs to the field of solar energy, especially the underground large-scale heat-storing warehouse of solar energy.

Background technology

In the face of inexhaustible, with not complete sun clean energy resource, in exploitation and application, " day has round the clock solar energy source, it has wind and rain " this impassable natural law, make scientific and technical personnel in the industry feel true puzzlement, finding a kind of solar energy subsidizes shortfall with bumper harvest, long-acting peace technical scheme of a specified duration, to overcome the bottleneck in practical application, arrived very urgent time, adopt refrigerant type solar panel and the underground large-scale heat-storing warehouse technology of solar energy to realize seamless link, a large amount of during normal operation, up to carrying up to 350 ℃-400 ℃, can be stored in the underground large-scale heat-storing warehouse of solar energy by heating agent, when not good enough in order to sunshine, still solar energy can be runed former, it is only choosing.

Summary of the invention

The present invention's object is to disclose the underground large-scale heat-storing warehouse of a kind of solar energy to society.

The invention belongs to the field of solar energy, especially the underground large-scale heat-storing warehouse of solar energy.The underground large-scale heat-storing warehouse of solar energy in the time of can building on separately the architectural design of underground ，Ruo Neng building, is done integrated planning together with underground garage, be in fact get twice the result with half the effort be; The underground large-scale heat-storing warehouse of solar energy, comprises, heating agent storage vault A, B, C(147), refrigerant recovering storehouse D(146) and Control Room (145); Described Control Room (145), storage capacity monitor (144) and storehouse temperature monitor (149) Real-Time Monitoring heat-storing warehouse operation situation, steadily run by refrigerant pump (140) and heat medium pump (150) regulation and control heat-storing warehouse; Described heat-storing warehouse, integral body is coated among heat-insulation layer (147); Refrigerant type solar-energy photo-voltaic cell, in daily operation situation, can produce year energy heating agents a large amount of, up to 350 ℃-400 ℃; How carrying during normal operation can store by a heating agent reliably, when good enough in order to light, not operate equally solar energy source yet? the underground large-scale heat-storing warehouse of solar energy, surely belongs to best behave.

The invention has the advantages that.

Capacity is large, and energy efficiency is high, and operating cost is low.Employing reinforced concrete is built, can realize large capacity and store solar energy and lag behind, and construction and operating cost relatively cheap.

Save land resource, and more easily insulation.While building on the architectural design of underground ，Ruo Neng building, do integrated planning together with underground garage, be in fact get twice the result with half the effort be.

Subsidize shortfall with bumper harvest, long-acting peace of a specified duration.Refrigerant type photovoltaic generation could produce a large amount of heats when normal operation, how by what obtain for refrigerant type photovoltaic generation enforcement heat radiation operation, to carry and can store reliably by heating agent, when good enough in order to light, also can not operate equally solar energy source! The underground large-scale heat-storing warehouse of solar energy, surely belongs to best behave.

Technical scheme of the present invention is to realize like this.

The underground large-scale heat-storing warehouse of solar energy, comprises, refrigerant circulation and heating agent store two parts; Described refrigerant circulation, comprises, refrigerant cantilevered solar column (32), refrigerant type solar panels (40), refrigerant pipeline (102), refrigerant pump (140) and refrigerant return pipe (152); Described heating agent stores, comprise, heating agent pipeline (103), heating agent source capsule (141), enter that valve (142) is propped up in storehouse, the device of air (143) that overflows, storage capacity monitor (144), Control Room (145), refrigerant recovering storehouse D(146), heating agent storage vault A, B, C(147), heat-insulation layer (148), storehouse temperature monitor (149), heat medium pump (150), pump to control and prop up valve (151) and a heating agent efferent duct (153); It is characterized in that, described heating agent storage vault A, B, C(147), under Control Room (145) regulation and control, by the storehouse of entering of setting up separately, prop up valve (142) connection heating agent source capsule (141), that reception produces from the upper refrigerant type solar panels (40) of refrigerant cantilevered solar column (32), year energy heating agent up to 350 ℃-400 ℃, be stored in respectively heating agent storage vault A, B, C(147) in; Described heat medium pump (150), controls a valve (151) by pumping, respectively with heating agent storage vault A, B, C(147) be connected, under Control Room (145) regulation and control, being stored in heating agent storage vault A, B, C(147) in heating agent, transfer to object apparatus; Described refrigerant return pipe (152), has fallen warm refrigerant after recovery heating, comes together in refrigerant recovering storehouse D(146) in; Described refrigerant pump (140), under Control Room (145) regulation and control, collecting in refrigerant recovering storehouse D(146) in refrigerant, transfer to the refrigerant type solar panels (40) that are arranged on refrigerant cantilevered solar column (32), refrigerant type solar panels (40) are implemented to heat radiation; Described refrigerant is implemented the operation of heat radiation, is the energy heating agent process of carrying obtaining up to 350 ℃-400 ℃; Described heating agent storage vault A, B, C(147) and refrigerant recovering storehouse D(146) in, be equipped with the excessive device of air (143) of storage capacity monitor (144), storehouse temperature monitor (149) and thermal-insulating type by Control Room (145) monitoring; Described heat-storing warehouse is whole, is coated among heat-insulation layer (147).

Described refrigerant cantilevered solar column (32), comprise: king-post (35), straight angle tracker (37), pipeline connection box (39), refrigerant type solar panel (40), angle tracker (41) hangs down, right solar panels (106), the curved column base of cantilever (99), end face solar panels (100), runing rest (101), refrigerant pipeline (102), heating agent pipeline (103), fluid pressure line (104), electrical pipeline (105), the curved post of cantilever (34), cantilever seat bolt (107), left solar panels (108), pipeline house steward (109), king-post seat (33), bearing A(111), horizontal rotary gear (112), bearing B(113) and worm gear reducer motor (110), the solar panels (100,108,106) of described refrigerant cantilevered solar column (32), be installed on respectively the end face of the king-post (35) that is hollow structure and the curved post of cantilever (34) that layering is arranged at king-post (35) both sides upper, form the structure of solar energy cantilever post type, the width of described end face solar panels (100), consistent with the overall width that is installed on the left and right solar panels (108,106) on the curved column base of L-shaped cantilever (99) of king-post (35) both sides, the curved post of described cantilever (34) long-armed, by screw thread in conjunction with being connected with the curved column base of cantilever (99), the curved column base of described cantilever (99), is connected with king-post (35) by cantilever seat bolt (107), the galianconism of the described curved post of the cantilever with connecting bend (34), connects piece bolt (129) by cantilever and is connected with the vertical angle tracker (41) of solar panels (100,108,106), described vertical angle tracker (41), by runing rest (101), is connected with the runing rest (101) of solar panels (100,108,106), described refrigerant cantilevered solar column (32), has generating and the dual-use function of heat supply concurrently.

Described refrigerant type solar panels (40) and solar panels (100,108,106), be the parts of isostructure different size, is installed on respectively on the top of refrigerant cantilevered solar column (32) and the curved post of cantilever (34) of both sides; Described refrigerant type solar panels (40), comprise self-tapping screw (130), sunlight axle (131), lens group support (132), lens group plate (133), the low temperature mouth of pipe (134), connection box (135), installing plate (136), photovoltaic cell (137), four-in-one framework (138), connecting bolt (139), fin (140), back cover plate (141), focusing group (142), communication channel (143), refrigerant medium (144), temperature controller (145), the high temperature mouth of pipe (146), sealing ring (147) and heat-insulation layer (148); Described lens group plate (133), adopts the high resin of transparency to be injection molded into the laterally zygomorphic pellicle mirror shell plates by monomer pellicle mirror shell matrix, and two pellicle mirror shell plateses are through supersonic thermal setting, forms lens group plate (133) after injecting transparent chemical liquids; Described lens group plate (133), the lens group support (132) that is fixedly mounted on four-in-one framework (138) by self-tapping screw (130) is upper, forms totally enclosed operating environment; Lens group support (132) on described four-in-one framework (138), connection box (135), installing plate (136) and fin (137) are to be the four-in-one member of four one; Described four-in-one framework (138), be " H " structure, the top of " H " structure, lens group support (132), be the middle athwartship plane of " H " structure four-in-one framework (138), be the installing plate (136) of described photovoltaic cell (137), below described athwartship plane, be provided with described fin (140); The described periphery that is " H " structure four-in-one framework (138) bottom, forms described connection box (135); Described connection box (135), is connected by connecting bolt (139) and described seal base (141), forms the integral body of refrigerant type solar panels (40); On the framework of described four-in-one framework (138) below, be also provided with the low temperature mouth of pipe (134) and the high temperature mouth of pipe (146), refrigerant medium (144), by the low temperature mouth of pipe (134) input, is exported from the high temperature mouth of pipe (146); Described temperature controller (145), be positioned on the high temperature mouth of pipe (146) of solar panels, 350 degrees Celsius of described temperature controller (145) operating temperatures, when temperature controller (145) records temperature on the high temperature mouth of pipe (146) and reaches 350 degrees Celsius, temperature controller (145) circuit is connected, refrigerant circulation is started working, and during 350 degrees Celsius of the temperature decline on the high temperature mouth of pipe (146), refrigerant circulation stops; Described sunlight axle (131), sees through lens group plate (133) and forms intensive focusing group (142); In the plane of described focusing group (142) land, be the installing plate (136) in four-in-one framework (138), photovoltaic cell (137) is mounted thereon; The central shaft of described photovoltaic cell (137) and the central shaft of lens, keep absolute consistent, to guarantee that the focus energy land that focus on group (142) are on the central point of photovoltaic cell (137); Distance between described photovoltaic cell (137) and lens group plate (133), is limited by the focal length of lens group plate (133); Both sides and the bottom of described refrigerant type solar panels (40) are provided with heat-insulation layer (148).

Accompanying drawing explanation

Accompanying drawing 1 is the underground large-scale heat-storing warehouse schematic diagram of solar energy of the present invention.

Accompanying drawing 2 is the underground large-scale heat-storing warehouse of solar energy of the present invention and related organization's schematic layout pattern.

Accompanying drawing 3 is refrigerant cantilevered solar column structural representation of the present invention.

Accompanying drawing 4 is refrigerant type solar panels of the present invention (40) heat supply theory and structure schematic diagram.

The specific embodiment

In Fig. 1, sign claim be: refrigerant pump (140), heating agent source capsule (141), enter that valve (142) is propped up in storehouse, device of air (143), storage capacity monitor (144), Control Room (145), refrigerant recovering storehouse D(146 overflow), heating agent storage vault A, B, C(147), heat-insulation layer (148), storehouse temperature monitor (149), heat medium pump (150), pump to control and prop up valve (151), refrigerant return pipe (152) and a heating agent efferent duct (153).

In Fig. 2 part token name claim be: adopting can system (01), transmission system (02), energy adjusting system (03), monitoring system (04), clean classification workshop (1), refrigerant cantilevered solar column (32), king-post seat (33), the curved post of cantilever (34), king-post (35), hydraulic power unit (36), straight angle tracker (37), Master Control Room (38), pipeline connection box (39), refrigerant type solar panels (40), angle tracker (41) hangs down, refrigerant pumping plant (42), category filter workshop (43), briquetting, between drying vehicle (44), underground heat-insulation layer (45), heating agent bank (46), refrigerant Hui Ku (47), boiler steam room (48), hold, become, power distribution room (49), power supply automatic switchover (50), national grid (51) and circulation low-temperature circulating dry distillation tower (52).

Fig. 3 mark title is: king-post (35), straight angle tracker (37), pipeline connection box (39), refrigerant type solar panels (40), angle tracker (41) hangs down, right solar panels (98), the curved column base of cantilever (99), end face solar panels (100), runing rest (101), refrigerant pipeline (102), heating agent pipeline (103), fluid pressure line (104), electrical pipeline (105), the curved post of cantilever (34), cantilever seat bolt (107), left solar panels energy (108), pipeline house steward (109), king-post seat (33), bearing A(111), king-post gear (112), bearing B(113), worm gear reducer motor (114).

Fig. 4 mark title is: self-tapping screw (130), sunlight axle (131), lens group support (132), lens group plate (133), the low temperature mouth of pipe (134), installing plate (136), photovoltaic cell (137), fin (140), four-in-one framework (138), connecting bolt (139), seal base (141), focus on group (142), communication channel (143), refrigerant medium (144), sealing ring (147), temperature controller (145), the high temperature mouth of pipe (146) and heat-insulation layer (148).

Below in conjunction with accompanying drawing, describe the present invention in detail.

As shown in Figure 2, the underground large-scale heat-storing warehouse of solar energy, is the conveyance system of refrigerant type solar column; The underground large-scale heat-storing warehouse of solar energy, comprises, hot and cold matchmaker's output, input and hot and cold matchmaker store two parts.

As shown in Figure 2, described hot and cold matchmaker's output, input, comprise, refrigerant cantilevered solar column (32), refrigerant type solar panels (40), refrigerant pipeline (102) and heating agent pipeline (103).

As shown in Figure 1, the underground large-scale heat-storing warehouse of described solar energy, comprise, refrigerant pump (140), heating agent source capsule (141), enter that valve (142) is propped up in storehouse, the device of air (143) that overflows, storage capacity monitor (144), Control Room (145), refrigerant recovering storehouse D(146), heating agent storage vault A, B, C(147), heat-insulation layer (148), storehouse temperature monitor (149), heat medium pump (150), pump to control and prop up valve (151), refrigerant return pipe (152) and a heating agent efferent duct (153).

As shown in Figure 1, the underground large-scale heat-storing warehouse of described solar energy in the time of can building on separately the architectural design of underground ，Ruo Neng building, is done integrated planning together with underground garage, be in fact get twice the result with half the effort be.

As shown in Figure 1, described heating agent storage vault A, B, C(147), under Control Room (145) regulation and control, by the storehouse of entering of setting up separately, prop up valve (142) connection heating agent source capsule (141), that reception produces from the upper refrigerant type solar panels (40) of refrigerant cantilevered solar column (32), year energy heating agent up to 350 ℃-400 ℃, be stored in respectively heating agent storage vault A, B, C(147) in.

As shown in Figure 1, described heat medium pump (150), controls a valve (151) by pumping, respectively with heating agent storage vault A, B, C(147) be connected, under Control Room (145) regulation and control, being stored in heating agent storage vault A, B, C(147) in heating agent, transfer to object apparatus.

As shown in Figure 1, described refrigerant return pipe (152), has fallen warm refrigerant after recovery heating, comes together in refrigerant recovering storehouse D(146) in.

As shown in Figure 1, described refrigerant pump (140), under Control Room (145) regulation and control, collecting in refrigerant recovering storehouse D(146) in refrigerant, transfer to the refrigerant type solar panels (40) that are arranged on refrigerant cantilevered solar column (32), refrigerant type solar panels (40) are implemented to heat radiation.

Further, described refrigerant is implemented the operation of heat radiation, is the energy heating agent process of carrying obtaining up to 350 ℃-400 ℃.

As shown in Figure 1, described heating agent storage vault A, B, C(147) and refrigerant recovering storehouse D(146) in, be equipped with the excessive device of air (143) of storage capacity monitor (144), storehouse temperature monitor (149) and thermal-insulating type by Control Room (145) monitoring.

As shown in Figure 1, described heat-storing warehouse is whole, is coated among heat-insulation layer (147).

Described refrigerant cantilevered solar column (32), comprise: king-post (35), straight angle tracker (37), pipeline connection box (39), refrigerant type solar panel (40), angle tracker (41) hangs down, right solar panels (106), the curved column base of cantilever (99), end face solar panels (100), runing rest (101), refrigerant pipeline (102), heating agent pipeline (103), fluid pressure line (104), electrical pipeline (105), the curved post of cantilever (34), cantilever seat bolt (107), left solar panels (108), pipeline house steward (109), king-post seat (33), bearing A(111), horizontal rotary gear (112), bearing B(113) and worm gear reducer motor (110).

The solar panels (100,108,106) of described refrigerant cantilevered solar column (32), be installed on respectively the end face of the king-post (35) that is hollow structure and the curved post of cantilever (34) that layering is arranged at king-post (35) both sides upper, form the structure of solar energy cantilever post type.

The width of described end face solar panels (100), consistent with the overall width that is installed on the left and right solar panels (108,106) on the curved column base of L-shaped cantilever (99) of king-post (35) both sides.

The curved post of described cantilever (34) long-armed, by screw thread in conjunction with being connected with the curved column base of cantilever (99); The curved column base of described cantilever (99), is connected with king-post (35) by cantilever seat bolt (107).

The galianconism of the described curved post of the cantilever with connecting bend (34), connects piece bolt (129) by cantilever and is connected with the vertical angle tracker (41) of solar panels (100,108,106).

Described vertical angle tracker (41), by runing rest (101), is connected with the runing rest (101) of solar panels (100,108,106); Described refrigerant cantilevered solar column (32), has generating and the dual-use function of heat supply concurrently.

As shown in Figure 3, described refrigerant cantilevered solar column (32), comprise: king-post (35), straight angle tracker (37), pipeline connection box (39), refrigerant type solar panel (40), angle tracker (41) hangs down, right solar panels (106), the curved column base of cantilever (99), end face solar panels (100), runing rest (101), refrigerant pipeline (102), heating agent pipeline (103), fluid pressure line (104), electrical pipeline (105), the curved post of cantilever (34), cantilever seat bolt (107), left solar panels (108), pipeline house steward (109), king-post seat (33), bearing A(111), horizontal rotary gear (112), bearing B(113) and worm gear reducer motor (110).

Shown in Fig. 3, the solar panels (100,108,106) of described refrigerant cantilevered solar column (32), be installed on respectively the end face of the king-post (35) that is hollow structure and the curved post of cantilever (34) that layering is arranged at king-post (35) both sides upper, form the structure of solar energy cantilever post type.

Shown in Fig. 3, the width of described end face solar panels (100), consistent with the overall width that is installed on the left and right solar panels (108,106) on the curved column base of L-shaped cantilever (99) of king-post (35) both sides.

Shown in Fig. 3, the curved post of described cantilever (34) long-armed, by screw thread in conjunction with being connected with the curved column base of cantilever (99); The curved column base of described cantilever (99), is connected with king-post (35) by cantilever seat bolt (107).

As shown in Figure 3, the galianconism of the described curved post of the cantilever with connecting bend (34), connects piece bolt (129) by cantilever and is connected with the vertical angle tracker (41) of solar panels (100,108,106).

Described vertical angle tracker (41), by runing rest (101), is connected with the runing rest (101) of solar panels (100,108,106).

As shown in Figure 3, described refrigerant type solar panels (40), have adopted real-time tracking sunlight axle, lens group focusing, refrigerant heat radiation, totally-enclosed operation complex art, have sufficient generating of getting over and the dual-use function of heat supply.

As shown in Figure 3, described refrigerant type solar panels (40) and solar panels (100,108,106), be the parts of isostructure different size, is installed on respectively on the top of refrigerant cantilevered solar column (32) and the curved post of cantilever (34) of both sides.

As shown in Figure 4, described refrigerant type solar panels (40), comprise, self-tapping screw (130), sunlight axle (131), lens group support (132), lens group plate (133), the low temperature mouth of pipe (134), connection box (135), installing plate (136), photovoltaic cell (137), four-in-one framework (138), connecting bolt (139), fin (140), back cover plate (141), focus on group (142), communication channel (143), refrigerant medium (144), temperature controller (145), the high temperature mouth of pipe (146), sealing ring (147) and heat-insulation layer (148).

As shown in Figure 4, described lens group plate (133), adopt the high resin of transparency to be injection molded into the laterally zygomorphic pellicle mirror shell plates by monomer pellicle mirror shell matrix, two pellicle mirror shell plateses are through supersonic thermal setting, form lens group plate (133) after injecting transparent chemical liquids; Described lens group plate (133), the lens group support (132) that is fixedly mounted on four-in-one framework (138) by self-tapping screw (130) is upper, forms totally enclosed operating environment.

As shown in Figure 4, lens group support (132), connection box (135), installing plate (136) and the fin (137) on described four-in-one framework (138) is to be the four-in-one member of four one.

Further, described four-in-one framework (138), be " H " structure, the top of " H " structure, being lens group support (132), being the athwartship plane in the middle of " H " structure four-in-one framework (138), is the installing plate (136) of described photovoltaic cell (137), below described athwartship plane, be provided with described fin (140); The described periphery that is " H " structure four-in-one framework (138) bottom, forms described connection box (135).

Further, described connection box (135), is connected by connecting bolt (139) and described seal base (141), forms the integral body of refrigerant type solar panels (40).

As shown in Figure 4, described temperature controller (145), be positioned on the high temperature mouth of pipe (146) of solar panels, 350 degrees Celsius of described temperature controller (145) operating temperatures, when temperature controller (145) records temperature on the high temperature mouth of pipe (146) and reaches 350 degrees Celsius, temperature controller (145) circuit is connected, and refrigerant circulation is started working, during 350 degrees Celsius of the temperature decline on the high temperature mouth of pipe (146), refrigerant circulation stops.

As shown in Figure 4, described sunlight axle (131), sees through lens group plate (133) and forms intensive focusing group (142); In the plane of described focusing group (142) land, be the installing plate (136) in four-in-one framework (138), photovoltaic cell (137) is mounted thereon.

As shown in Figure 4, the central shaft of described photovoltaic cell (137) and the central shaft of lens, keep absolute consistent, to guarantee that the focus energy land that focus on group (142) are on the central point of photovoltaic cell (137).

As shown in Figure 4, the distance between described photovoltaic cell (137) and lens group plate (133), is limited by the focal length of lens group plate (133); Both sides and the bottom of described refrigerant type solar panels (40) are provided with heat-insulation layer (148).

Claims (3)

1. the underground large-scale heat-storing warehouse of solar energy, comprises, refrigerant circulation and heating agent store two parts; Described refrigerant circulation, comprises, refrigerant cantilevered solar column (32), refrigerant type solar panels (40), refrigerant pipeline (102), refrigerant pump (140) and refrigerant return pipe (152); Described heating agent stores, comprise, heating agent pipeline (103), heating agent source capsule (141), enter that valve (142) is propped up in storehouse, the device of air (143) that overflows, storage capacity monitor (144), Control Room (145), refrigerant recovering storehouse D(146), heating agent storage vault A, B, C(147), heat-insulation layer (148), storehouse temperature monitor (149), heat medium pump (150), pump to control and prop up valve (151) and a heating agent efferent duct (153); It is characterized in that, described heating agent storage vault A, B, C(147), under Control Room (145) regulation and control, by the storehouse of entering of setting up separately, prop up valve (142) connection heating agent source capsule (141), that reception produces from the upper refrigerant type solar panels (40) of refrigerant cantilevered solar column (32), year energy heating agent up to 350 ℃-400 ℃, be stored in respectively heating agent storage vault A, B, C(147) in; Described heat medium pump (150), controls a valve (151) by pumping, respectively with heating agent storage vault A, B, C(147) be connected, under Control Room (145) regulation and control, being stored in heating agent storage vault A, B, C(147) in heating agent, transfer to object apparatus; Described refrigerant return pipe (152), has fallen warm refrigerant after recovery heating, comes together in refrigerant recovering storehouse D(146) in; Described refrigerant pump (140), under Control Room (145) regulation and control, collecting in refrigerant recovering storehouse D(146) in refrigerant, transfer to the refrigerant type solar panels (40) that are arranged on refrigerant cantilevered solar column (32), refrigerant type solar panels (40) are implemented to heat radiation; Described heating agent storage vault A, B, C(147) and refrigerant recovering storehouse D(146) in, be equipped with the excessive device of air (143) of storage capacity monitor (144), storehouse temperature monitor (149) and thermal-insulating type by Control Room (145) monitoring; Described heat-storing warehouse is whole, is coated among heat-insulation layer (147).

2. the underground large-scale heat-storing warehouse of solar energy according to claim 1, it is characterized in that, described refrigerant cantilevered solar column (32), comprise: king-post (35), straight angle tracker (37), pipeline connection box (39), refrigerant type solar panel (40), angle tracker (41) hangs down, right solar panels (106), the curved column base of cantilever (99), end face solar panels (100), runing rest (101), refrigerant pipeline (102), heating agent pipeline (103), fluid pressure line (104), electrical pipeline (105), the curved post of cantilever (34), cantilever seat bolt (107), left solar panels (108), pipeline house steward (109), king-post seat (33), bearing A(111), horizontal rotary gear (112), bearing B(113) and worm gear reducer motor (110), the solar panels (100,108,106) of described refrigerant cantilevered solar column (32), be installed on respectively the end face of the king-post (35) that is hollow structure and the curved post of cantilever (34) that layering is arranged at king-post (35) both sides upper, form the structure of solar energy cantilever post type, the width of described end face solar panels (100), consistent with the overall width that is installed on the left and right solar panels (108,106) on the curved column base of L-shaped cantilever (99) of king-post (35) both sides, the curved post of described cantilever (34) long-armed, by screw thread in conjunction with being connected with the curved column base of cantilever (99), the curved column base of described cantilever (99), is connected with king-post (35) by cantilever seat bolt (107), the galianconism of the described curved post of the cantilever with connecting bend (34), connects piece bolt (129) by cantilever and is connected with the vertical angle tracker (41) of solar panels (100,108,106), described vertical angle tracker (41), by runing rest (101), is connected with the runing rest (101) of solar panels (100,108,106), described refrigerant cantilevered solar column (32), has generating and the dual-use function of heat supply concurrently.

3. the underground large-scale heat-storing warehouse of solar energy according to claim 1, it is characterized in that, described refrigerant type solar panels (40) and solar panels (100,108,106), for the parts of isostructure different size, be installed on respectively on the top of refrigerant cantilevered solar column (32) and the curved post of cantilever (34) of both sides; Described refrigerant type solar panels (40), comprise self-tapping screw (130), sunlight axle (131), lens group support (132), lens group plate (133), the low temperature mouth of pipe (134), connection box (135), installing plate (136), photovoltaic cell (137), four-in-one framework (138), connecting bolt (139), fin (140), back cover plate (141), focusing group (142), communication channel (143), refrigerant medium (144), temperature controller (145), the high temperature mouth of pipe (146), sealing ring (147) and heat-insulation layer (148); Described lens group plate (133), adopts the high resin of transparency to be injection molded into the laterally zygomorphic pellicle mirror shell plates by monomer pellicle mirror shell matrix, and two pellicle mirror shell plateses are through supersonic thermal setting, forms lens group plate (133) after injecting transparent chemical liquids; Described lens group plate (133), the lens group support (132) that is fixedly mounted on four-in-one framework (138) by self-tapping screw (130) is upper, forms totally enclosed operating environment; Lens group support (132) on described four-in-one framework (138), connection box (135), installing plate (136) and fin (137) are to be the four-in-one member of four one; Described four-in-one framework (138), be " H " structure, the top of " H " structure, lens group support (132), be the middle athwartship plane of " H " structure four-in-one framework (138), be the installing plate (136) of described photovoltaic cell (137), below described athwartship plane, be provided with described fin (140); The described periphery that is " H " structure four-in-one framework (138) bottom, forms described connection box (135); Described connection box (135), is connected by connecting bolt (139) and described seal base (141), forms the integral body of refrigerant type solar panels (40); On the framework of described four-in-one framework (138) below, be also provided with the low temperature mouth of pipe (134) and the high temperature mouth of pipe (146), refrigerant medium (144), by the low temperature mouth of pipe (134) input, is exported from the high temperature mouth of pipe (146); Described temperature controller (145), be positioned on the high temperature mouth of pipe (146) of solar panels, 350 degrees Celsius of described temperature controller (145) operating temperatures, when temperature controller (145) records temperature on the high temperature mouth of pipe (146) and reaches 350 degrees Celsius, temperature controller (145) circuit is connected, refrigerant circulation is started working, and during 350 degrees Celsius of the temperature decline on the high temperature mouth of pipe (146), refrigerant circulation stops; Described sunlight axle (131), sees through lens group plate (133) and forms intensive focusing group (142); In the plane of described focusing group (142) land, be the installing plate (136) in four-in-one framework (138), photovoltaic cell (137) is mounted thereon; The central shaft of described photovoltaic cell (137) and the central shaft of lens, keep absolute consistent, to guarantee that the focus energy land that focus on group (142) are on the central point of photovoltaic cell (137); Distance between described photovoltaic cell (137) and lens group plate (133), is limited by the focal length of lens group plate (133); Both sides and the bottom of described refrigerant type solar panels (40) are provided with heat-insulation layer (148).

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