CN201028835Y

CN201028835Y - Energy accumulating household solar device

Info

Publication number: CN201028835Y
Application number: CNU2007200196008U
Authority: CN
Inventors: 杜克诚; 刘保唐
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-03-24
Filing date: 2007-03-24
Publication date: 2008-02-27
Anticipated expiration: 2017-03-24

Abstract

The utility model relates to an energy storing type household solar energy device and belongs to the solar energy device art domain. The utility model is characterized in that the utility model comprises a heat collecting device which is connected with the high and low temperature medium converting assembly device; the high and low temperature medium converting assembly device is connected with the energy release device and the high temperature medium high heat preserving storing device through the whole medium heat preserving transmission device; and the circulating passage of the whole solar device is provided with high temperature proof medium. The utility model focuses the solar energy on the high temperature proof medium to enhance the temperature of the liquid medium and then the high temperature liquid medium is put into the high temperature preserving medium storing device to utilize the substance which needs to be heat in the storing device. The utility model enlarges the applying range of the solar device and can enhance the operating efficiency of the solar energy.

Description

A kind of energy accumulating household solar device

One, technical field

The utility model relates to a kind of energy accumulating household solar device, belongs to the solar energy equipment technical field.

Two, background technology

At present, energy tensity worldwide is well-known, the more important thing is the carbon dioxide that discharges in the carbon containing energy combustion process in atmosphere, and it is fatal that the mankind are only had the influence of the survival environment of relying.Therefore launch rapidly as a kind of utilization and exploitation of not having the solar energy of any pollution, of all shapes and colors, the kind of utilizing that present people directly utilize solar energy to substitute the carbon containing energy is divided into three major types basically: the 1st, and photovoltaic generation, the 2nd, solar water heater, the 3rd, solar energy reflection solar furnace.

Though these 3 kinds of forms are had large improvement in recent years, their limitation does not also obtain breaking through:

1. photovoltaic cell heat energy energy conversion efficiency is low, photovoltaic material is expensive, the storage battery capacity is little, electricity stores the price height.

Though 2. solar water heater develops into the hot device of electron tubes type collective from various closing-sunning types very much progress has been arranged, its product is found everywhere through the world, but its limitation still exists, this water heater can only solve the needs of people to hot water, but three meals in a day to the resident, to this free of contamination energy demand real solution of also failing, because how much hot water in these water heaters is no matter has, its maximum temperature can only reach 100 ℃, and these energy under normal conditions no matter what, can only reach this temperature can't make its temperature of reaching higher of superposeing come for the people used.

Though 3. the solar energy reflection kitchen range can improve the temperature Centralized energy be used for cooking, cooking etc. is the cooking service, but the kitchen range of Salar light-gathering reflection at present can only use in the open, this type of service is inconvenience but also unhygienic not only, and the operating personnel's that burn danger is arranged, and more most important is that compole is short when utilizing.

Three, summary of the invention

The purpose of this utility model is to overcome the deficiency of existing solar water heater and solar energy reflection cumulative light kitchen range, a kind of expansion solar energy equipment scope of application is provided, improve the utilization rate of solar energy in domestic life, make that it can be widely used in cooking, cooking, heating installation, have a bath, the energy accumulating household solar device of cold/hot air-conditioning etc.

A kind of energy accumulating household solar device, its special character is to include heat collector, heat collector is connected with high and low temperature medium heat-preserving reversing delivery assembly device, high and low temperature medium heat-preserving reversing delivery assembly device is communicated with energy releasing device and heat preserving storage equipment using high temperature media by system-wide medium heat-preserving conveying device, is the thermostable heat-conductive medium in the circulation canal of whole solar energy equipment;

Also be provided with autotracker on the described heat collector, the vertical shaft 12 of high and low temperature medium heat-preserving reversing delivery assembly device is provided with rotary power unit;

The double-deck high insulation energy storage canister of the vacuum solid of described heat preserving storage equipment using high temperature media 52 tops also are communicated with the media preheating supplementary device;

Described heat collector, support half cycle vacuum metal thermal-collecting tube 2 by thermal-collecting tube support 7, optically focused reflector 1 be positioned at half cycle vacuum metal thermal-collecting tube 2 under, the two ends of half cycle vacuum metal thermal-collecting tube 2 are communicated with resistant to elevated temperatures medium inflow pipe 5, medium effuser 6 respectively, and the end that the half cycle vacuum metal thermal-collecting tube 2 of heat collector is communicated with medium effuser 6 also is communicated with expansion buffer 3, steam vent 4 by connecting duct 16;

Half cycle vacuum metal thermal-collecting tube 2 is the double-deck half cycle vacuum heat-insulating layer structure of the band vacuum chamber 85 that is made of thermal-collecting tube 81 and shell 82, exposed parts scribbles semi-conducting material blacking heat-sink shell 83 on the heat absorption tube wall of thermal-collecting tube 81, and the heat absorption tube wall has been provided with and has reduced the choked flow grid 84 of air in heat absorption tube wall upper reaches action usefulness;

High and low temperature medium heat-preserving reversing delivery assembly device, comprise that the optically focused reflector supports transverse axis 11, the optically focused reflector supports transverse axis 11 and connects optically focused reflector support vertical shaft 12, the optically focused reflector supports vertical shaft 12 by optically focused reflector assembly bracket 27 fixed supports, the optically focused reflector support transverse axis 11 outer pivot bush units respectively with medium inflow pipe 5, the medium commutation slip cap 9 that medium effuser 6 is communicated with, 10, the medium commutation slip cap 9 of splendid attire high and low temperature medium, 10 are communicated with the medium transport pipeline 80 in the optically focused reflector support vertical shaft 12,79 to vertical shaft reversing plate 17, vertical shaft reversing plate 17 is communicated with bottom plate 18 movable symmetry coupling sealings, vertical shaft reversing plate 17 and the bottom plate 18 outer vertical shaft reversing plate overcoats 19 that are provided with band sealing cap 15, bottom plate 18 is communicated with medium transport pipeline 13,14, medium transport pipeline 13,14 are connected to muff 28;

Autotracker on the heat collector is automatic comprehensive automatic sun tracking device, the autotracker top is provided with and horizontally rotates automatic tracing photoelectric sensor 71, and the heat collector below connects the sun elevation angle and follows the tracks of bearing castor 25, the non-track 26 that horizontally rotates of optically focused reflector automatically; Rotary power unit on the high and low temperature medium heat-preserving reversing delivery assembly device is that by connecting rod 22 connection drive scroll bars 21, turbine 20, turbine 20 connects drive optically focused reflectors and supports vertical shaft 12 rotations rotary power unit by motor 23;

System-wide medium heat-preserving conveying device, be conducted with high and low temperature medium heat-preserving reversing delivery assembly device, energy releasing device respectively by the medium transport pipeline that is located in the medium transport pipe muff, being communicated with medium circulation pump 48 and corresponding controlled valve in the medium transport pipeline, is high temperature resistant synthetic fluid heat-conducting medium in the medium transport pipeline; System-wide medium heat-preserving conveying device also is conducted by medium transport pipeline and heat preserving storage equipment using high temperature media; The medium transport pipeline is an enamel metal vacuum chamber medium transport pipe; Medium circulation pump 48 is isolated electronic medium transport pump;

Energy releasing device, comprise thermal medium chamber 40,44, pot and stove 41,43, incubator 42,45, the input, the output interface that are communicated with the thermal medium chamber by the medium transport pipeline of system-wide medium heat-preserving conveying device by controlled valve 38,39, the top sealing connection in thermal medium chamber is provided with pot and stove, and the below sealing in thermal medium chamber is provided with incubator; Pot and stove and thermal medium chamber constitute laminated heat-preserving liquid medium heating-range, and pot and stove can be flat kitchen range pot, also can be the circular bottom pot kitchen range;

Energy releasing device can also be communicated with heating air-conditioning heating equipment by controlled valve, heating air-conditioning heat supply interface 75 for the medium transport pipeline of system-wide medium heat-preserving conveying device;

Heat preserving storage equipment using high temperature media, the double-deck high insulation energy storage canister 52 of vacuum solid is high insulation vacuum, solid double-layer thermal resistance high-temperature medium energy storage canister, the double-deck high insulation energy storage canister of vacuum solid 52 inside are provided with jar 50 in the energy storage of solid laminated heat-preserving, jar 50 interior belows are communicated with medium transport pipeline 29,30 in the energy storage of solid laminated heat-preserving, jars 50 top is provided with MEDIA FLOW and opens one's mouth and 54 communicate the top connection expansion buffer 57 of the double-deck high insulation energy storage canister 52 of vacuum solid, steam vent 58 with the double-deck high insulation energy storage canister 52 of vacuum solid in the energy storage of solid laminated heat-preserving;

The media preheating supplementary device comprises 1 group of vacuum glass tube heat collector 59 that vacuum glass tube heat collector supporting plate 60 supports, vacuum glass tube heat collector 59 upper end open feed incubator 61, incubator 61 is communicated with the double-deck high insulation energy storage canister 52 of vacuum solid by medium transport pipe 65, electrically operated valve 66, and medium transport pipe 65 also is communicated with system-wide medium heat-preserving conveying device by medium transport pump 67.

A kind of energy accumulating household solar device of the utility model has overcome the deficiency of existing solar water heater and solar energy reflection cumulative light kitchen range, enlarged the solar energy equipment scope of application, improved the utilization rate of solar energy in domestic life, make that it can be widely used in cooking, cooking, heating installation, have a bath, cold/hot air-conditioning etc.

Four, description of drawings

Fig. 1: a kind of energy accumulating household solar device structural representation;

Fig. 2: half cycle vacuum metal thermal-collecting tube vertical view;

Fig. 3: half cycle vacuum metal thermal-collecting tube upward view;

Fig. 4: half cycle vacuum metal thermal-collecting tube left view;

Fig. 5: a kind of energy accumulating household solar device annexation schematic diagram.

In the drawings, 1, the optically focused reflector, 2, half cycle vacuum metal thermal-collecting tube, 3, the expansion buffer, 4, steam vent, 5, the medium inflow pipe, 6, the medium effuser, 7, the thermal-collecting tube support, 8, the thermal-collecting tube support, 9, medium commutation slip cap, 10, medium commutation slip cap, 11, the optically focused reflector supports transverse axis, 12, the optically focused reflector supports vertical shaft, 13, the medium transport pipe, 14, the medium transport pipe, 15, sealing cap, 16, connecting duct, 17, vertical shaft commutation mounting plate, 18, vertical shaft commutation bottom plate, 19, vertical shaft reversing plate overcoat, 20, turbine, 21, scroll bar, 22, connecting rod, 23, motor, 24, the motor supporting plate, 25, the bearing castor, 26, the non-track that horizontally rotates of optically focused reflector, 27, optically focused reflector assembly bracket, 28, muff, 29, the medium transport pipeline, 30, the medium transport pipeline, 31, manually-operated gate, 32, the medium transport pipeline, 33, the medium transport pipeline, 34, manually-operated gate, 35, the medium transport pipeline, 36, manually-operated gate, 37, medium transport pipeline, 38, manually-operated gate, 39, manually-operated gate, 40, the thermal medium chamber, 41, flat kitchen range pot, 42, incubator, 43, round bottom kitchen range pot, 44, the thermal medium chamber, 45, incubator, 46, the medium transport pipeline, 47, the medium transport pipeline, 48, the medium circulation pump, 49, the medium transport pipeline, 50, jar in the energy storage of solid laminated heat-preserving, 51, heat-conducting medium, 52, vacuum, solid double-layer insulation energy storage canister, 53, high-temperature medium, 54, MEDIA FLOW is opened one's mouth, 55, electrically operated valve, 56, connecting duct, 57, the expansion buffer, 58, steam vent, 59, vacuum glass tube heat collector, 60, the vacuum glass tube heat collector supporting plate, 61, incubator, 62, cryogenic media, 63, the expansion buffer, 64, steam vent, 65, the medium transport pipeline, 66, electrically operated valve, 67, the medium circulation pump, 68, electrically operated valve, 69, the medium transport pipeline, 70, medium transport pipe muff, 71, photoelectric sensor, 72, the heat collector pallet stand, 73, connecting duct, 74, valve, 75, heating air-conditioning heat supply interface, 76, heating air-conditioning backflow interface, 77, valve, 78, valve, 79, the medium transport pipeline, 80, the medium transport pipeline, 81, thermal-collecting tube, 82, shell, 83, semi-conducting material blacking heat-sink shell, 84, the choked flow grid, 85, vacuum chamber, ultralow thermal conductivity factor

solid material

86,87,88.

Five, the specific embodiment

Following with reference to accompanying drawing 1-5, provide the best specific embodiment of the present utility model, be used for formation of the present utility model is further specified.

A kind of energy accumulating household solar device, include heat collector, heat collector is connected with high and low temperature medium heat-preserving reversing delivery assembly device, high and low temperature medium heat-preserving reversing delivery assembly device is communicated with energy releasing device and heat preserving storage equipment using high temperature media by system-wide medium heat-preserving conveying device, heat collector is provided with autotracker, high and low temperature medium heat-preserving reversing delivery assembly device is provided with rotary power unit, the double-deck high insulation energy storage canister of the vacuum solid of heat preserving storage equipment using high temperature media 52 tops are communicated with the media preheating supplementary device, are the thermostable heat-conductive medium in the circulation canal of whole solar energy equipment;

In the accompanying drawing 1: its effect of high and low temperature medium heat-preserving reversing delivery assembly device be make heated medium and cooling medium can face upward free flow under the situation of bowing or rotating at reflecting condenser, and be provided with and prevent dielectric leakage, activity link 9,10,79,80,11,17,18,13,14, wherein the 79, the 80th, can be on the stuck-at-7 with vertical shaft 12 rotations, 13, the 14th, on the stuck-at-8, the 18th, be fixed on the vertical shaft commutation overcoat 19.The optically focused reflector supports transverse axis 11, the optically focused reflector supports in vertical shaft 12, the vertical shaft reversing plate overcoat 19 and is respectively equipped with ultralow thermal conductivity factor

solid material

86,87,88.

In the accompanying drawing 1: heat preserving storage equipment using high temperature media, high insulation vacuum, solid, 3 layers of housing of double-deck adiabatic energy storage canister all adopt sheet metal to make, the insulating barrier of jar 50 adopts solid material in the energy storage of solid laminated heat-preserving, 52 internal layer heat-insulating materials adopt solid material, and 52 secondary insulation forms adopt vacuum insulation.52 metal shell outer surfaces adopt glaze enamel, in case use oxygen molecule to enter from metal lattice for a long time heat insulation effect are weakened, and 52 adopt double-deck adiabatic internal layer effect mainly to alleviate the secondary insulation burden, favourable prolongation temperature retention time.

In the accompanying drawing 1: accumulation energy type rural area household solar device medium transport overall process all adopts vacuum insulation type metal tube, can not adopt the vacuum heat-insulating pipe place all to make thermal medium in cyclic process energy be run out and may reduce with the strict insulation of solid material.

In the accompanying drawing 1: energy releasing device, kitchen range pot and dielectric cavity layer, insulation cladding is made by sheet metal, these kitchen range belong to special stove, filling solid heat-insulating material in the incubator 42,45, the flat kitchen range pot bottom draining pore that do not clean a pot, the medium inlet and outlet piping all moves under keeping warm mode, special special use such as valve.

Among the accompanying drawing 2-4: half cycle vacuum metal thermal-collecting tube is to be made of all-metal, scribble semi-conducting material blacking heat-sink shell on the heat absorption tube wall, choked flow grid on the heat absorption tube wall are moving at heat absorption tube wall upper reaches in order to reduce air, because thermal-collecting tube has bigger inclination angle when normal the use.

Electric control system and automatic tracking system comprise power switch, auto-man switch, relay, temperature controller and sensor etc.

During use, at first hired roughneck's movable valve 36,31, make the heat-conducting medium 51 in the energy storage canister 50 under the effect of medium circulation pump 48, pass through medium transport pipeline 35,49,13,80,5 import 2 heating of half cycle vacuum heat collection pipe, then through medium transport pipe 6,79,14,29 to energy storage canister 50, constitute the medium circulation loop, connect automatically controlled power supply again, open the power switch of solar tracking control system and medium circulation pump 48, after focus point is accurately aimed at drop point, tracking control system just stops automatically, behind light off-focal area 1/3rd, automatic following control system can start automatically.Medium circulation pump 48 work backs begin to heat the heat-conducting medium 51 in the jar 50 in the energy storage by half cycle vacuum metal thermal-collecting tube.Heat-conducting medium in the energy storage canister 52 53 is also discontented at this moment; because of some carries out preheating by vacuum glass tube heat collector 59 in vacuum glass heat collector 59 and incubator 61; automatic control system is opened electrically operated valve 66 and is made medium enter energy storage canister 52 when treating that medium temperature in the incubator 61 reaches 100 ℃; half cycle metal vacuum thermal-collecting tube 2 at first heats heat-conducting medium 51; because the amount of this part medium is few; be its temperature to be brought up to the temperature of cooking and needing in two hours of 9 o'clock to the 11 o'clock morning; after the temperature of the heat-conducting medium 51 in energy storage in the jar 50 improves; temperature in the energy storage in the jar can guarantee its temperature owing to there is the solid interlayer insulating layer protection of jar 50 in the energy storage very slow to high-temperature medium 53 propagation for using noon.Medium after 2 heating of half cycle vacuum heat collection pipe is carried high-temperature medium in the jar 50 through medium transport pipe 29 in energy storage, after the valve 31 of medium transport pipe 30 is closed, open valve 34, medium in the energy storage in jars 50 is opened one's mouth through MEDIA FLOW and 54 is entered energy storage canister 52, medium temperature in the energy storage canister 52 is improved, remove the consumption of cooking at noon to heat, remaining heat all is accumulated in the energy storage canister 52, when temperature in the jar equates with the temperature of vacuum metal thermal-collecting tube 2, medium circulation pump 48 can quit work automatically, and medium circulation pump 48 all can not quit work automatically when having sunlight and not aiming at focus, under the unexpected cloudy situation, half cycle vacuum metal thermal-collecting tube 2 can't heat medium, can earlier close manually-operated gate 36 as utilizing the heat in the energy storage canister 52 this moment, opens valve 78, open valve 38 or 39, start medium circulation pump 48 and get final product.If show evening or next day to use morning heat energy, close 36 by above-mentioned, opening 78 directly circulates kitchen range and energy storage canister 52, in the time of whatsoever be or when what mode to use heat energy with all at first valve-off 36 make medium circulation pump 48, the kitchen range pot, energy storage canister 52 open circuit circulating pumps 67 will start automatically, squeezing in the preheating incubator 61 partly of a part of medium used it in order to preheating, kitchen range pot 41,42 use is to open valve 68 or 39 to make thermal medium introduce thermal medium chamber 44 or 40 by the medium transport pipe to be circulated by medium circulation pump 48, under the situation of periphery insulation directly to the bottom of a pan heating or to heating, conveying thermals source such as refrigeration are finished the utilization to solar energy.

A kind of energy accumulating household solar device of present embodiment is with the sun, concentration of energy makes the temperature raising of liquid medium again these high-temp liquid media be injected high thermal insulation medium holder by the complete stroke thermal insulating conveyance conduit to a kind of resistant to elevated temperatures liquid medium, during use the high-temperature medium in the holder released the material that heating need heat and utilizes, this form not only can utilization in a day of sunlight is arranged and also dinner and next day breakfast can use.Utilize the auxiliary preheating daylighting area of 4 square metres collection area and 1 square metre the heat energy that is equivalent to 10 kilowatt hours is provided every day can for the user under the normal situation of sunlight, its design feature is applicable to that numerous residents use and the factory of the one-storey house of living, school, hotel, restaurant, bathing pool etc. concentrate unit with heat.

Claims

1. energy accumulating household solar device, it is characterized in that including heat collector, heat collector is connected with high and low temperature medium heat-preserving reversing delivery assembly device, high and low temperature medium heat-preserving reversing delivery assembly device is communicated with energy releasing device and heat preserving storage equipment using high temperature media by system-wide medium heat-preserving conveying device, is the thermostable heat-conductive medium in the circulation canal of whole solar energy equipment.

2. according to the described a kind of energy accumulating household solar device of claim 2, it is characterized in that also being provided with on the described heat collector autotracker, high and low temperature medium heat-preserving reversing delivery assembly device is provided with rotary power unit, autotracker on the heat collector is, the autotracker top is provided with and horizontally rotates automatic tracing photoelectric sensor (71), and the heat collector below connects the sun elevation angle and follows the tracks of bearing castor (25), the non-track (26) that horizontally rotates of optically focused reflector automatically; Rotary power unit on the high and low temperature medium heat-preserving reversing delivery assembly device is, rotary power unit connects drive scroll bar (21), turbine (20) by motor (23) by connecting rod (22), and turbine (20) connection drive optically focused reflector supports vertical shaft (12) and rotates.

3. according to the described a kind of energy accumulating household solar device of claim 1, the double-deck high insulation energy storage canister (52) of the vacuum solid top that it is characterized in that described heat preserving storage equipment using high temperature media also is communicated with the media preheating supplementary device, the media preheating supplementary device comprises the vacuum glass tube heat collector (59) that vacuum glass tube heat collector supporting plate (60) supports, vacuum glass tube heat collector (59) upper end open feeds incubator (61), incubator (61) is by medium transport pipe (65), electrically operated valve (66) is communicated with the double-deck high insulation energy storage canister of vacuum solid (52), and medium transport pipe (65) also is communicated with system-wide medium heat-preserving conveying device by medium transport pump (67).

4. according to the described a kind of energy accumulating household solar device of claim 1, it is characterized in that described heat collector, support half cycle vacuum metal thermal-collecting tube (2) by thermal-collecting tube support (7), optically focused reflector (1) be positioned at half cycle vacuum metal thermal-collecting tube (2) under, the two ends of half cycle vacuum metal thermal-collecting tube (2) are communicated with resistant to elevated temperatures medium inflow pipe (5), medium effuser (6) respectively, and the end that the half cycle vacuum metal thermal-collecting tube (2) of heat collector is communicated with medium effuser (6) also is communicated with expansion buffer (3), steam vent (4) by connecting duct (16).

5. according to the described a kind of energy accumulating household solar device of claim 1, it is characterized in that high and low temperature medium heat-preserving reversing delivery assembly device, comprise that the optically focused reflector supports transverse axis (11), the optically focused reflector supports transverse axis (11) and connects optically focused reflector support vertical shaft (12), the optically focused reflector supports vertical shaft (12) by optically focused reflector assembly bracket (27) fixed support, the optically focused reflector support the outer pivot bush unit of transverse axis (11) respectively with medium inflow pipe (5), the medium commutation slip cap (9) that medium effuser (6) is communicated with, (10), the medium commutation slip cap (9) of splendid attire high and low temperature medium, (10) connection optically focused reflector supports the medium transport pipeline (80) in the vertical shaft (12), (79) to vertical shaft reversing plate (17), vertical shaft reversing plate (17) is communicated with the sealing of the movable symmetry coupling of bottom plate (18), vertical shaft reversing plate (17) and the outer vertical shaft reversing plate overcoat (19) that is provided with band sealing cap (15) of bottom plate (18), bottom plate (18) is communicated with medium transport pipeline (13), (14), medium transport pipeline (13), (14) be connected to muff (28).

6. according to the described a kind of energy accumulating household solar device of claim 4, it is characterized in that half cycle vacuum metal thermal-collecting tube (2) is by the double-deck half cycle vacuum heat-insulating layer structure of thermal-collecting tube (81) with the band vacuum chamber (85) of shell (82) formation, exposed parts scribbles semi-conducting material blacking heat-sink shell (83) on the heat absorption tube wall of thermal-collecting tube (81), and the heat absorption tube wall has been provided with and has reduced the choked flow grid (84) of air in heat absorption tube wall upper reaches action usefulness.

7. according to the described a kind of energy accumulating household solar device of claim 1, it is characterized in that system-wide medium heat-preserving conveying device, by be located in the medium transport pipe muff the medium transport pipeline respectively with high and low temperature medium heat-preserving reversing delivery assembly device, energy releasing device is conducted, be communicated with medium circulation pump (48) and corresponding controlled valve in the medium transport pipeline, it in the medium transport pipeline high temperature resistant synthetic fluid heat-conducting medium, system-wide medium heat-preserving conveying device is conducted by medium transport pipeline and heat preserving storage equipment using high temperature media, and the medium transport pipeline is an enamel metal vacuum chamber medium transport pipe; Medium circulation pump (48) is isolated electronic medium transport pump.

8. according to the described a kind of energy accumulating household solar device of claim 1, it is characterized in that energy releasing device, comprise thermal medium chamber, pot and stove, incubator, the input, the output interface that are communicated with the thermal medium chamber by the medium transport pipeline of system-wide medium heat-preserving conveying device by controlled valve, the top sealing connection in thermal medium chamber is provided with pot and stove, and the below sealing in thermal medium chamber is provided with incubator.

9. according to the described a kind of energy accumulating household solar device of claim 1, it is characterized in that heat preserving storage equipment using high temperature media, comprise the double-deck high insulation energy storage canister (52) of vacuum solid, the double-deck high insulation energy storage canister (52) of vacuum solid inside is provided with jar (50) in the energy storage of solid laminated heat-preserving, connection medium transport pipeline (29) in below in jar (50) in the energy storage of solid laminated heat-preserving, (30), in the energy storage of solid laminated heat-preserving the top of jar (50) be provided with MEDIA FLOW open one's mouth (54) communicate the top connection expansion buffer (57) of the double-deck high insulation energy storage canister of vacuum solid (52) with the double-deck high insulation energy storage canister of vacuum solid (52), steam vent (58).

10. according to the described a kind of energy accumulating household solar device of claim 1, it is characterized in that energy releasing device can also be communicated with heating air-conditioning heating equipment by controlled valve, heating air-conditioning heat supply interface (75) for the medium transport pipeline of system-wide medium heat-preserving conveying device.