CN2861334Y - Hollow solar energy heat collection wall - Google Patents

Hollow solar energy heat collection wall Download PDF

Info

Publication number
CN2861334Y
CN2861334Y CN 200620068341 CN200620068341U CN2861334Y CN 2861334 Y CN2861334 Y CN 2861334Y CN 200620068341 CN200620068341 CN 200620068341 CN 200620068341 U CN200620068341 U CN 200620068341U CN 2861334 Y CN2861334 Y CN 2861334Y
Authority
CN
China
Prior art keywords
heat
heat exchanger
pipe
hollow
plate
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 200620068341
Other languages
Chinese (zh)
Inventor
吴冠昌
吴锡波
Original Assignee
吴锡波
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 吴锡波 filed Critical 吴锡波
Priority to CN 200620068341 priority Critical patent/CN2861334Y/en
Application granted granted Critical
Publication of CN2861334Y publication Critical patent/CN2861334Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • 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

Abstract

The utility model relates to a hollow solar energy heat collector wall, which belongs to the architectural field, and comprises a metal joist rack, an inner metope, a transparent outside metope, and a plurality of plate heat-pipe heat collectors. The heat collector, which comprises a plane heat collecting board, a first heat exchanger, a second heat exchanger, a heat conduct channel and a return flow channel communicated with the plane heat collecting board, is arranged in the hollow wall which is composed of the metal joist rack, the inner metope, the transparent outside metope, and the insulating layer. In the first heat exchanger, the water pipe gets through it. When the water pipe enters or comes out of the heat exchanger, the external wall of the water pipe is airproof with the heat exchanger. The second heat exchanger is close to the inner wall, heat preservation materials exist among plane collecting heat board, the second heat exchanger, and every board type collecting heater. The water pipe, thrilling through every board type collecting heater and first heat exchanger, then connects through the joint pipe, an intake pipe connects with the cold water source, and an outlet pipe enters into a water storage tank. The hollow solar energy collecting heating wall can supply hot water on demand, or supply heat for inner rooms.

Description

Hollow solar collecting wall
Technical field
The utility model belongs to a kind of non-bearing infilled wall of building field, relates to a kind of hollow solar collecting wall.
Technical background
Development along with world architecture industry and Application of Solar Energy technology has come on all referred agenda of building energy conservation and solar energy collector and architecture-integral.At present, existing various energy-saving building components, some is to add heat insulating material in building unit, reduces its coefficient of thermal conductivity, to increase its heat-insulating property; Or cold bridge is set in solid wall, and stoping the transmission of heat, these belong to passive energy-conservation, and they can only reduce the amount of indoor heat to outdoor propagation, can not absorb solar energy and be converted into heat energy utilization.Research to solar energy collector and architecture-integral has at present also had certain progress, and more product occurring is that plug-in vacuum tube solar heating element is set on roofing, metope or balcony, or the solar water heater of metal heat pipe is housed in vacuum tube.Though go a step further with combining of building is advanced in years to solar energy collector, but still the glass tube that has a vacuum tube solar heating element directly be heated liquid and contact, Glass breadks easily, easily fried, the unsafe problem of operation on metope, the combining of solar energy collector and building veritably of also being unrealized.And the function of present most of heat collectors is all more single, and living water use can only be provided, and when can not be in the sky cold to indoor heating.
The utility model content
It is a kind of building unit that the purpose of this utility model is to provide a kind of, is again solar energy collector, can be as required to user's heat supply water, or to the hollow solar collecting wall of indoor heating.
The purpose of this utility model adopts following technical scheme to realize: hollow solar collecting wall provided by the utility model is by metal truss, in, wall face, heat insulating material and solar energy collector are formed, be characterized in that described solar energy collector is a N plate-type heat-pipe heat collector, N 〉=1, this N plate-type heat-pipe heat collector places by metal truss, interior metope, in the hollow wall that printing opacity wall face and insulation layer constitute, each plate-type heat-pipe heat collector is by the planar set hot plate, associated first heat exchanger, second heat exchanger, passage of heat and back flow channel constitute, the planar set hot plate is towards the printing opacity exterior wall, heat pipe on the planar set hot plate successively with first heat exchanger, passage of heat, second heat exchanger and back flow channel communicate, first heat exchanger is the horizontal heat exchanger that places the top of planar set hot plate to communicate with heat pipe on the thermal-arrest plate, there is water pipe to pass in first heat exchanger, water pipe advances, go out the outer wall and the sealing of heat exchanger end of the first heat exchanger place pipe, second heat exchanger is near interior wall, towards the planar set hot plate of printing opacity exterior wall and near between second heat exchanger of interior wall, between each board-like heat collector heat insulating material is arranged, after the water pipe that passes each board-like heat collector first heat exchanger joined by connecting tube, water inlet pipe and cold water source joined; Outlet pipe enters water storage tank, and water storage tank is arranged on indoor.
The operating principle of hollow solar collecting wall that the utility model provides is as described below: sunshine sees through the printing opacity wall face, penetrate on the heat collector tube face of planar set hot plate, working medium in the heat pipe is gathered solar energy and is converted heat energy to, evaporation after working medium is heated, when interior temperature does not need to heat, pass the logical cold water of water pipe of first heat exchanger, steam state working medium arrives and places the top of planar set hot plate to communicate with heat pipe on the plate, first heat exchanger of horizontally set, with the cold water heat-shift in the first heat exchanger inner conduit, make the cold water heating, flow to bath water is provided in the water storage tank, the working medium after the interchange of heat becomes the liquid flow product heat cal rod, carries out thermal cycle once more; When interior temperature is hanged down the needs heating, the obstructed cold water of water pipe in first heat exchanger, the steam state working medium of carrying heat arrives second heat exchanger that communicates with it by first heat exchanger, heat transfer path, by interior wall to indoor transmission heat, with indoor cold air heat-shift, steam state working medium becomes liquid state behind the heat-shift, flows back to the heat pipe of planar set hot plate by back flow channel, carry out thermal cycle once more ...Because have insulation layer to be separated by between second heat exchanger and the planar set hot plate, blocked the path of heat to outdoor transmission, heat can only be yearned for indoor transmission by folk prescription.Owing on the plate-type heat-pipe heat collector, be provided with first, second heat exchanger that communicates with the planar set hot plate, be provided with cold water pipe in first heat exchanger and pass.The plate-type heat-pipe heat collector of this structure can be controlled the flow direction of heat as required.Make hollow thermal-arrest wall can be as required provide hot water or to indoor heating to the user.Owing between heat pipe, heat transfer path and first, second heat exchanger of each board-like heat collector midplane thermal-arrest plate, communicate, and constitute a closed system, working medium is transmitted heat in a closed circuit passage, therefore, in hollow wall in the thermal-arrest process of each board-like heat collector, working medium can not reduce, and can remain good running status.Board-like heat collector in the utility model hollow core body of wall heat collector, owing to be provided with first heat exchanger, second heat exchanger that communicates with heat pipe on the planar set hot plate, in first heat exchanger water pipe is arranged, water pipe is into and out of the outer wall and the sealing of heat exchanger end of the first heat exchanger place pipe, double circulation has been adopted in the water supply of whole system, heating, and system's operation is very safe.
This hollow solar collecting wall is a kind of building unit---non-bearing formula infilled wall, it is again a kind of solar energy collector, plate-type heat-pipe heat collector and conveying hot water or cold water's pipeline all is arranged in this hollow wall, realized the integrated of solar energy collector and building veritably, avoided because peripheral hardware aqueduct and the inharmonic embarrassment of building, with destruction to the building style, also avoided the infringement to heat collector such as wind, rain, snow, prolonged its application life.Simultaneously, avoided causing the user of many high-rise buildings to use the difficulty of solar water heater because roof area is little.But made full use of the daylighting area of body of wall, because what the plate-type heat-pipe heat collector adopted is planar set hot plate thermal-arrest, whole thermal-arrest plate all is to adopt hot side, and collecting efficiency can reach more than 60%, calculated 60 ℃ of hot water 100KG of average every square metre of daily output by 8 hour duration of sunshine.The setting of two heat exchangers in the plate-type heat-pipe heat collector makes this hollow solar collecting wall possesses simultaneously provides hot water and function from heating to the user, has solved the heating problem, particularly Huaihe River of northern area, the solar heating problem of the Yangtze river basin.Greatly reduce the consumption of conventional energy resource, fully shown energy-conservation and environmental-protection function of the present utility model.Getting the average of the whole year solar radiant energy is 700 kilocalories/meter 2. hour, planar set hot plate evenly heat efficient gets 60%, and per hour every square metre produces the suitable 0.5 kilowatt electric energy of heat, one 10 square metres hollow thermal-arrest wall, by planar set hot plate heat collector surface account for wherein 80%, calculated by 8 hour sunshine every day, can save 11680 kilowatt hours the whole year.Heat insulating material between the planar set hot plate and second heat exchanger has strengthened the heat insulation function of body of wall, and the planar set hot plate absorbs solar heat simultaneously, has reduced the radiations heat energy of the sun to metope, thereby has reduced the power consumption that uses air-conditioning summer, has also strengthened energy-saving effect.The hollow solar collecting wall that the utility model is given can be made south, east, the integral-filled wall of west facade, partially filled wall (wall, breast on the window), partially filled roofing, guardrail etc. as required.Generally, one three, four-hole people's family have 3-4m 2Collector area heat supply water with enough having used, so, if south, east, the whole thermal-arrest wall of west facade have enough hot water to use in hot day; At cold day, can adopt a part of plate-type heat-pipe heat collector to pass the logical cold water of water pipe of first heat exchanger, make the cold water heating by first heat exchanger, provide life hot water to the user, another part plate-type heat-pipe heat collector passes the obstructed cold water of water pipe of first heat exchanger, the heat of heat pipe collection is directly sent to second heat exchanger near interior wall through steam state working medium, to indoor heating.This hollow solar collecting wall itself is exactly a kind of building unit.Solar energy collector is arranged in the hollow wall, and the building of integrated design is occurred with brand-new appearance.Difference according to the installation site can be designed corresponding hollow solar collecting wall, the architect is in design process, can be according to the needs of architectural concept, take into full account and installation site size, the shape outward appearance of selected member product, and than the moulded integration that is easier to realize with building.
Description of drawings
Fig. 1 is the structural representation (front schematic view) of hollow solar collecting wall embodiment one provided by the utility model;
Fig. 2 is the structural representation (longitudinal profile schematic diagram) of hollow solar collecting wall shown in Figure 1;
Fig. 3 is the structural representation (schematic perspective view) of hollow solar collecting wall shown in Figure 1;
Fig. 4 is the structural representation (front schematic view) of the embodiment two of hollow solar collecting wall provided by the utility model;
Fig. 5 is the structural representation (longitudinal profile schematic diagram) of hollow solar collecting wall shown in Figure 4;
Fig. 6 is the structural representation (front schematic view) of the embodiment three of hollow solar collecting wall provided by the utility model;
Fig. 7 is the structural representation (longitudinal profile schematic diagram) of hollow solar collecting wall shown in Figure 6.
Among the figure: 1, printing opacity exterior wall, 2, interior wall, 2.1, the shutter on interior wall, 3, metal truss, 4, the plate-type heat-pipe heat collector, 4.1, the planar set hot plate, 4.11, the heat pipe on the planar set hot plate, 4.2, first heat exchanger, 4.21, the water pipe by first heat exchanger.4.3, passage of heat, 4.4, second heat exchanger, 4.5, back flow channel, 5, heat insulating material.
The specific embodiment
Below in conjunction with the description of drawings specific embodiment of the present utility model.Figure 1 shows that the utility model provides the Facad structure schematic diagram of hollow solar collecting wall embodiment one.Fig. 2 is the longitudinal profile structural representation of hollow solar collecting wall shown in Figure 1.Fig. 3 is the perspective view of hollow solar collecting wall shown in Figure 1, in order to show the installation situation of board-like heat collector on metal truss, has only drawn two board-like heat collectors and metal truss in Fig. 3, and all the other all do not omit and draw.Wall on the window of embodiment one south orientation that provides.Constitute the framework of a hollow wall by metal truss 3, printing opacity wall face 1 and interior metope 2 from figure hollow solar collecting wall provided by the utility model as can be known, two plate-type heat-pipe heat collectors 4 have been installed on the metal truss 3 of this hollow wall, and heat collector 4 is installed on the metal truss by connector 4.12.Plate-type heat-pipe heat collector 4 is by planar set hot plate 4.1, the first heat exchangers 4.2, and passage of heat 4.3, the second heat exchangers 4.4 and back flow channel 4.5 are formed.Planar set hot plate 4.1 in the plate-type heat-pipe heat collector 4, first heat exchanger 4.2, passage of heat 4.3, it is tetragonal hollow cylinder that the back flow channel 4.4 and second heat exchanger 4.5 surround a cross section, the hollow cavity level trend of hollow cylinder, planar set hot plate 4.1 in the plate-type heat-pipe heat collector 4, first heat exchanger 4.2, passage of heat 4.3, the back flow channel 4.4 and second heat exchanger 4.5 are formed four cylinders that hollow cylinder is communicated with, planar set hot plate 4.1 is towards printing opacity exterior wall 1,30 ° of angles are arranged between the two, second heat exchanger 4.5 is near interior metope 2, on interior metope 2 and second heat exchanger, 4.4 corresponding positions, have shutter 2.1.From the top joint face to the planar set hot plate 4.1 of printing opacity exterior wall 1 with are first heat exchangers 4.2 and passage of heat 4.3 towards second heat exchanger 4.4 of interior wall 2, what connect the two from the below is back flow channel 4.5, each cylinder of hollow cylinder constitutes by the double-level-metal plate, on each cylinder except that first heat exchanger 4.2, the weld seam that connects the double-level-metal plate is all arranged, bead direction is perpendicular to the rib of hollow cylinder, length is less than the distance of forming between two ribs of this cylinder, and these weld seams connect together the double-level-metal plate and form heat pipe 4.11, passage of heat 4.3, each branch of second heat exchanger 4.4 and back flow channel 4.5.First heat exchanger 4.2 has water pipe 4.21 for the horizontal heat exchanger that the top that places planar set hot plate 4.1 communicates with heat pipe 4.11 on the thermal-arrest plate in first heat exchanger 4.2 as we know from the figure, and water pipe is into and out of the outer wall and the sealing of heat exchanger end of the first heat exchanger place pipe.The air intake of second heat exchanger is higher than the venthole of planar set hot plate heat pipe in the plate-type heat-pipe heat collector, the liquid outlet of second heat exchanger 4.4 is higher than the inlet of planar set hot plate heat pipe, has been full of heat insulating material 5 in the hollow cylinder that is surrounded by planar set hot plate 4.1, first heat exchanger 4.2 and passage of heat 4.3, second heat exchanger 4.4 and back flow channel 4.5.This hollow solar collecting wall operating principle is as follows: sunshine sees through printing opacity wall face 1, penetrate on the heat collector surface of planar set hot plate 4.1, working medium in the heat pipe 4.11 is gathered solar energy and is converted heat energy to, evaporation after working medium is heated, when interior temperature does not need to heat, pass the logical cold water of water pipe of first heat exchanger 4.2, steam state working medium arrives and to place the top of planar set hot plate to communicate with heat pipe on the thermal-arrest plate, first heat exchanger 4.2 of horizontally set, this moment with the first heat exchanger inner conduit in the cold water heat-shift, make the cold water heating, flow to be installed in the indoor water storage tank bath water is provided, below water pipe water inlet in board-like heat collector first heat exchanger be connected with water inlet manifold, water pipe water inlet in its delivery port and top board-like heat collector first heat exchanger is connected, and the flow of hot water of its delivery port outflow enters in the water storage tank.Working medium after the interchange of heat becomes the liquid flow product heat cal rod, carries out thermal cycle once more; When interior temperature is hanged down the needs heating, the obstructed cold water of water pipe in first heat exchanger 4.2, the steam state working medium of carrying heat arrives second heat exchanger 4.4 that communicates with it by first heat exchanger, heat transfer path, by the shutter on the interior wall 2 2.1 to indoor transmission heat, with indoor cold air heat-shift, steam state working medium becomes liquid state behind the heat-shift, flows back to the heat pipe of planar set hot plate by back flow channel 4.5, carry out thermal cycle once more ...Because have insulation layer to be separated by between second heat exchanger 4.4 and the planar set hot plate 4.1, blocked the path of heat to outdoor transmission, heat can only be yearned for indoor transmission by folk prescription.Owing between heat pipe, heat transfer path and first, second heat exchanger of each board-like heat collector midplane thermal-arrest plate, communicate, and constitute a closed system, working medium is transmitted heat in a closed circuit passage, therefore, in hollow wall in the thermal-arrest process of each board-like heat collector, working medium can not reduce, and can remain good running status.Board-like heat collector in the utility model hollow core body of wall heat collector, owing to be provided with first heat exchanger, second heat exchanger that communicates with planar set hot plate heat pipe, in first heat exchanger water pipe is arranged, water pipe is into and out of the outer wall and the sealing of heat exchanger end of the first heat exchanger place pipe, the plate-type heat-pipe heat collector of this structure, can control the flow direction of heat as required, make hollow thermal-arrest wall can be as required provide hot water or to indoor heating to the user.Simultaneously, double circulation has been adopted in the water supply of whole system, heating, and system's operation is very safe.Owing between the heat collector surface of printing opacity wall face and planar set hot plate 30 ° angle is arranged, make that most time is in limited body of wall space in 1 year, the daylighting face of planar set hot plate is approaching vertical with incident ray, under the identical situation of daylighting area, improved the collecting efficiency of planar set hot plate greatly.The printing opacity wall face of this hollow solar collecting wall can adopt light transmissive materials such as tempered glass or organic glass, adopts low iron tempered glass in the present embodiment, coats the layer of silicon dioxide film on the surfaces externally and internally of tempered glass, is used for reducing the reflex of light.Interior metope adopts composite material, and metal truss adopts steel, and the plate-type heat-pipe heat collector adopts stainless sheet steel or copper material to make, and adopts selection, punching press, folds, cuts out, welds, assembles, leak detection, topping up, mechanical productive technology such as vacuumizes and make.Heat insulating material in the plate-type heat-pipe heat collector adopts polyurethane foam, the working medium of being filled in the plate-type heat-pipe heat collector heat pipe adopts water, water-alcohol mixture etc., heat insulating material between each plate-type heat-pipe heat collector can adopt polyurethane foam, also can adopt other insulation fibres.
Figure 4 shows that the structural representation of the utility model embodiment two, Fig. 5 is the longitudinal profile schematic diagram of hollow solar collecting wall shown in Figure 4.Embodiment two provides the one side west to whole vertical plane wall.The structure of the hollow solar collecting wall shown in this embodiment is identical with embodiment one described structure, just angle is zero between the heat collector surface of printing opacity wall face and planar set hot plate, four board-like heat collectors are arranged in the hollow solar collecting wall, upper and lower two-layer, every layer each two, water inlet pipe is connected with water pipe in following two board-like heat collector first heat exchangers successively, is connected with water pipe in top two board-like heat collector first heat exchangers again, and the flow of hot water that its delivery port flows out enters in the water storage tank.On interior wall 2, have among this embodiment and second heat exchanger, 4.4 corresponding heat exchange transom windows, the position that board-like heat collector is installed, second heat exchanger 4.4 is seated in this heat exchange transom window, becomes the part of interior wall 2, can be directly to indoor transmission heat and indoor cold air heat-shift.The west that this embodiment provided is to the hollow solar collecting wall of whole facade, and not only, the sky can provide bath hot water when warm, when it is cold, and also can be to indoor heating.The thermal-arrest wall of this structure, because the planar set hot plate absorbs solar heat, reduced the radiations heat energy of the sun to metope, reduce indoor temperature, thereby reduced the power consumption that uses air-conditioning summer, also improved energy-saving effect, not only, thoroughly solved sun problem with a western exposure, and, made full use of solar energy.This structure also is suitable for the east elevation wall.
Fig. 6 is the structural representation of hollow solar collecting wall embodiment three provided by the utility model.This embodiment is a hollow solar collecting part roofing.Its structure is basic identical with the foregoing description one.Constitute the framework of a hollow wall by metal truss 3, printing opacity wall face 1 and interior metope 2, a plate-type heat-pipe heat collector 4 has been installed on the metal truss 3 of this hollow wall, plate-type heat-pipe heat collector 4 structures are with embodiment one, because of roofing itself has a gradient, so angle is zero between plate-type heat-pipe heat collector 4 midplane thermal-arrest plates and transparent outer roofing.This structure of hollow solar heat-collection roof as a kind of building unit, can organically combine with building.
Hollow solar collecting wall provided by the utility model can also combine with " incomparable steel " building of utilizing " light gauge cold-formed steel shape dwelling house technology " to form, plate-type heat-pipe heat collector described in the utility model directly is preset on the metal truss in " incomparable steel " body of wall, inside and outside metope, metal truss and the heat insulating material of shared incomparable steel building, light transmissive materials such as the tempered glass of the wall face employing printing opacity of appropriate section or organic glass, make formation that life hot water, the solar energy heating building that the sky can heat when cold can be provided in hot day.

Claims (5)

1, a kind of hollow solar collecting wall, by metal truss, in, wall face, heat insulating material and solar energy collector are formed, it is characterized in that described solar energy collector is a N plate-type heat-pipe heat collector, N 〉=1, this N plate-type heat-pipe heat collector places by metal truss, interior metope, in the hollow wall that printing opacity wall face and insulation layer constitute, each plate-type heat-pipe heat collector is by the planar set hot plate, associated first heat exchanger, second heat exchanger, passage of heat and back flow channel constitute, the planar set hot plate is towards the printing opacity exterior wall, heat pipe on the planar set hot plate successively with first heat exchanger, passage of heat, second heat exchanger and back flow channel communicate, first heat exchanger is the horizontal heat exchanger that places the top of planar set hot plate to communicate with heat pipe on the thermal-arrest plate, there is water pipe to pass in first heat exchanger, water pipe advances, go out the outer wall and the sealing of heat exchanger end at the first heat exchanger place, second heat exchanger is near interior wall, towards the planar set hot plate of printing opacity exterior wall and near between second heat exchanger of interior wall, between each board-like heat collector heat insulating material is arranged, after the water pipe that passes each board-like heat collector first heat exchanger joined by connecting tube, water inlet pipe and cold water source joined; Outlet pipe enters water storage tank, and water storage tank is arranged on indoor.
2, hollow solar collecting wall according to claim 1, it is characterized in that the planar set hot plate in the described plate-type heat-pipe heat collector, first heat exchanger and passage of heat, second heat exchanger, it is tetragonal hollow cylinder that back flow channel surrounds a cross section, the hollow cavity level trend of hollow cylinder, the planar set hot plate of plate-type heat-pipe heat collector, first heat exchanger and passage of heat, second heat exchanger and back flow channel are formed four cylinders that hollow cylinder is communicated with, from the top joint face to the planar set hot plate of printing opacity exterior wall be first heat exchanger and passage of heat towards second heat exchanger of interior wall; What connect the two from the below is back flow channel, each cylinder of hollow cylinder constitutes by the double-level-metal plate, on each cylinder except that first heat exchanger, the weld seam that connects the double-level-metal plate is all arranged, bead direction is perpendicular to the rib of hollow cylinder, length is less than the distance of forming between two ribs of this cylinder, these weld seams are with the double-level-metal plate formation heat pipe that connects together, passage of heat, each branch of second heat exchanger and back flow channel, wherein the air intake of second heat exchanger is higher than the venthole of planar set hot plate heat pipe, the liquid outlet of second heat exchanger is higher than the inlet of planar set hot plate heat pipe, by the planar set hot plate, first heat exchanger and passage of heat, filled up heat insulating material in the hollow cavity of the hollow cylinder that second heat exchanger and back flow channel surround.
3, hollow solar collecting wall according to claim 1 and 2 is characterized in that planar set hot plate and the angle between the transparent wall face in the described plate-type heat-pipe heat collector is 0-30 °.
4, hollow solar collecting wall according to claim 1 and 2 is characterized in that having shutter on the interior wall of described hollow solar collecting wall and the corresponding position of second heat exchanger.
5, hollow solar collecting wall according to claim 1 and 2 is characterized in that described plate-type heat-pipe heat collector is installed on the metal truss of hollow wall.
CN 200620068341 2006-01-05 2006-01-05 Hollow solar energy heat collection wall Expired - Fee Related CN2861334Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200620068341 CN2861334Y (en) 2006-01-05 2006-01-05 Hollow solar energy heat collection wall

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200620068341 CN2861334Y (en) 2006-01-05 2006-01-05 Hollow solar energy heat collection wall

Publications (1)

Publication Number Publication Date
CN2861334Y true CN2861334Y (en) 2007-01-24

Family

ID=37658963

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200620068341 Expired - Fee Related CN2861334Y (en) 2006-01-05 2006-01-05 Hollow solar energy heat collection wall

Country Status (1)

Country Link
CN (1) CN2861334Y (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102220787A (en) * 2011-04-14 2011-10-19 杜文娟 Cooling and heat insulating method for external wall by using passage-type external wall building structure
CN102444212A (en) * 2011-04-14 2012-05-09 杜文娟 Channel type cooling and heat-preserving building outer wall structure
CN102444221A (en) * 2011-04-14 2012-05-09 杜文娟 Building structure of atomizing and cooling outer wall
CN101591950B (en) * 2008-05-29 2012-10-10 淄博环能海臣环保技术服务有限公司 Plate type heat collecting building material component taking glass vacuum tube chain plate as heat insulation diffuser

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101591950B (en) * 2008-05-29 2012-10-10 淄博环能海臣环保技术服务有限公司 Plate type heat collecting building material component taking glass vacuum tube chain plate as heat insulation diffuser
CN102220787A (en) * 2011-04-14 2011-10-19 杜文娟 Cooling and heat insulating method for external wall by using passage-type external wall building structure
CN102444212A (en) * 2011-04-14 2012-05-09 杜文娟 Channel type cooling and heat-preserving building outer wall structure
CN102444221A (en) * 2011-04-14 2012-05-09 杜文娟 Building structure of atomizing and cooling outer wall
CN102444212B (en) * 2011-04-14 2013-07-24 杜文娟 Channel type cooling and heat-preserving building outer wall structure
CN102444221B (en) * 2011-04-14 2014-12-24 杜文娟 Building structure of atomizing and cooling outer wall

Similar Documents

Publication Publication Date Title
CN2861334Y (en) Hollow solar energy heat collection wall
CN108425427A (en) A kind of high energy-saving type energy storage building
CN103245079A (en) Vacuum-tube-type split solar water heater
CN106440416A (en) High-performance heat collection solar thermal and roof integrated system
CN1995862A (en) Hollow solar collecting wall
CN2758362Y (en) New solar energy utilization building material and its high efficiency heat preservation device
CN1828172A (en) Novel solar energy heat-collector
CN202417227U (en) Integrated corner type heat collection photothermal french window of photothermal building
CN201181121Y (en) Water-proof heat-preservation vacuum tube solar energy heat collector
CN2742343Y (en) Novel multifunction solar energy collector
CN203629082U (en) Barrier-type solar water heater
CN108571767A (en) A kind of active/passive solar energy housing
CN205351461U (en) Photovoltaic window power generation and heat supply system
CN201081426Y (en) Novel and practical product utilizing solar heat in special multiplex green house
CN100565034C (en) Domestic solar water heater of mounting on overhung window
CN204494579U (en) The solar heating integrated with building roof and ventilation energy composite energy system
CN1482421A (en) Solar heating and hot-water roof
CN108930358A (en) A kind of embedded concrete panel of heat pipe and house
CN2585127Y (en) Light plate light-transmitting type solar water heater with heating and sunshade function
CN201078059Y (en) Solar heat collection architectural materials
CN201695588U (en) Modularized solar heat collecting construction component
CN212271703U (en) Energy-saving and environment-friendly residential building
CN101082237A (en) Glass heat-proof curtain wall structure
CN101149166A (en) Solar energy heat-collecting heat-storage system combined with architecture outer wall
CN200989674Y (en) Modular window type solar water heater

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20070124

Termination date: 20140105