CN207348206U - Assembled architecture south wall solar heat corridor constructs - Google Patents

Assembled architecture south wall solar heat corridor constructs Download PDF

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Publication number
CN207348206U
CN207348206U CN201720559018.4U CN201720559018U CN207348206U CN 207348206 U CN207348206 U CN 207348206U CN 201720559018 U CN201720559018 U CN 201720559018U CN 207348206 U CN207348206 U CN 207348206U
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China
Prior art keywords
south
balcony
water tank
temperature water
assembled architecture
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CN201720559018.4U
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Chinese (zh)
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曹荣光
宋孝春
张斌
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China Architecture Design and Research Group Co Ltd
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CHINA ARCHITECTURE DESIGN INSTITUTE Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/44Heat exchange systems

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  • Photovoltaic Devices (AREA)

Abstract

A kind of assembled architecture south wall solar heat corridor construction, including:Balcony in the south, in balcony and room in the south between be equipped with partition wall, the southern side of balcony in the south is large area French window;Solar panels, solar panels are arranged in balcony in the south, are fixed on partition wall;Low temperature water tank, low temperature water tank are placed in balcony in the south, are connected with water source, while are also connected by the circulation waterway with pump with solar panels;High-temperature water tank, high-temperature water tank are placed in balcony in the south, are connected with water source, while are also connected with water terminal;Electric water source heat pump to exchange heat device, electric water source heat pump to exchange heat device are placed in balcony in the south, and are connected by the exchange pipeline of medium heat-transfer with low temperature water tank, high-temperature water tank.The utility model is widely applicable, as long as there is the building of the balcony in the south with French window, can all install and use, limited from place, balcony in the south has large area French window, and sunlight is shining into balcony in the south, solar panels heat absorption in balcony in the south, produces thermal energy, then realizes and utilizes.

Description

Assembled architecture south wall solar heat corridor constructs
Technical field
It the utility model is related to a kind of solar energy hot water supply system applied under construction.
Background technology
Traditional building solar water heating system, is limited by place, the general only owner of low-rise dwelling and house top layer Owner can install, can not all be promoted the use of a large area in many occasions such as high residential building.In addition, traditional building, its Nan Qiang is longer by the irradiation time of the sun in summer, so needing sunshade toward contact, this has just wasted the solar energy of many.
Utility model content
The purpose of this utility model is to provide a kind of assembled architecture south wall solar heat corridor construction, to solve traditional build Build solar water heating system and install and use the technical problem for being limited and cannot being widely applied and without sunshade function by place.
To achieve the above object, the utility model adopts the following technical solution:A kind of assembled architecture south wall solar heat Corridor constructs, it is characterised in that including:Balcony in the south, in balcony and room in the south between be equipped with partition wall, the southern side of balcony in the south is big Area French window;Solar panels, solar panels are arranged in balcony in the south, are fixed on partition wall;Low temperature water tank, low temperature water tank are put Put in balcony in the south, connected with water source, while also connected by the circulation waterway with pump with solar panels, and then by the sun The thermal energy storage that energy plate is absorbed to is into low temperature water tank;High-temperature water tank, high-temperature water tank are placed in balcony in the south, are connected with water source It is logical, while also connected with water terminal;Electric water source heat pump to exchange heat device, electric water source heat pump to exchange heat device are placed in balcony in the south, and It is connected by the exchange pipeline of medium heat-transfer with low temperature water tank, high-temperature water tank, and then the thermal energy transmission that will be stored in low temperature water tank Into high-temperature water tank.
Preferably, the top of the balcony in the south is light tight insulation roof.
Preferably, the east and west sides of the balcony in the south are light tight thermal insulation wall.
Preferably, the partition wall is equipped with door.
Preferably, the partition wall is equipped with the window between balcony in the south in room.
Preferably, in the balcony in the south, the inner side of large area French window is equipped with window blind.
Preferably, the glass pane of the large area French window is ultra-clear glasses.
Preferably, the balcony in the south is rectangle.
Preferably, the balcony in the south grow 7.2 meters, it is 3.6 meters high, 1.5 meters wide.
The utility model has the characteristics that and beneficial effect compared with prior art:
The utility model is widely applicable, as long as there is the building of the balcony in the south with French window, can install and use, no Limited by place.
The utility model sets solar panels indoor on the partition wall between balcony in the south, the black collection in solar panels Circulated in heat pipe by water makes high-temperature water tube wall thermal energy storage to low temperature water tank, low temperature water tank by electric water source heat pump to exchange heat device Case produces hot water, and hot water is saved in high-temperature water tank, and then realizes high-quality thermal water utilization.
The utility model realizes that balcony in the south has large area made of ultra-clear glasses to fall using building part south wall structure Ground window, sunlight are shining into balcony in the south, and the solar panels heat absorption in balcony in the south, produces thermal energy, then realize and utilize.
The utility model is in southern wall surface design the south balcony of building, and balcony in the south has light tight insulation roof, east The western light tight thermal insulation wall in both sides, the large area French window of balcony in the south are installed for ultra-clear glasses by constructing, and large area falls The inner side installation window blind of ground window, thermal energy can be reduced in summer and is entered in building.
The utility model winter can produce more hot water, supply building hot water, it is possible to achieve family life hot water supply and 12 square meters heat;Summer is by the window blind on the inside of balcony in the south, it can be achieved that reducing the purpose of thermal energy;At the same time in balcony in the south Vegetables can be planted, improve quality of the life.
Brief description of the drawings
The utility model is described in more detail below in conjunction with the accompanying drawings.
Fig. 1 is the structure diagram of the utility model.
Fig. 2 is the connection relation signal between solar panels, low temperature water tank, electric water source heat pump to exchange heat device and high-temperature water tank Figure.
Reference numeral:1- solar panels, 2-, in 3- rooms, 4- the souths balcony, 5- window blinds, 6- large area Window, 8- low temperature water tanks, 9- electricity water source heat pump to exchange heat device, 10- high-temperature water in French window, 7- rooms between balcony in the south Case, 11- water sources, 12- water terminals, the exchange pipeline of 13- medium heat-transfers, 14- pumps, the light tight thermal insulation walls of 15-, 16- partition walls, 17- circulation waterways.
Embodiment
Referring to shown in Fig. 1, Fig. 2, this assembled architecture south wall solar heat corridor constructs embodiment, including:
Balcony 4 in the south, 3 in balcony 4 and room in the south between be equipped with partition wall 16, partition wall 16 is equipped with door 2, room and the south sun Window 7 between platform.The southern side of balcony 4 in the south is large area French window 6, it is preferred that the glass pane of large area French window 6 is ultrawhite Glass, in balcony 4 in the south, the inner side of large area French window 6 be equipped with window blind 5.The top of balcony 4 in the south is light tight thermal insulation separation Hot roof, the east and west sides of balcony 4 in the south are light tight thermal insulation wall 15.
In the present embodiment, the south balcony 4 is rectangle, 7.2 meters long, 3.6 meters high, 1.5 meters wide.
Solar panels 1, solar panels 1 are arranged in balcony 4 in the south, are fixed on partition wall 16.
Low temperature water tank 8, low temperature water tank 8 are placed in balcony 4 in the south, are connected with water source 11, while also by with pump 14 Circulation waterway 17 connected with solar panels 1 and then by the thermal energy storage that solar panels 1 are absorbed into low temperature water tank 8.
High-temperature water tank 10, high-temperature water tank 10 are placed in balcony 4 in the south, are connected with water source 11, at the same also with water terminal 12 connections.
Electric water source heat pump to exchange heat device 9, electric water source heat pump to exchange heat device 9 is placed in balcony 4 in the south, and passes through medium heat-transfer Exchange pipeline 13 to be connected with low temperature water tank 8, high-temperature water tank 10, and then the thermal energy stored in low temperature water tank 8 is delivered to high-temperature water In case 10.
The utility model can provide high-quality heat source with the help of electric water source heat pump to exchange heat device for building hot water:Pass through heat It can calculate, under the conditions of sunny in Beijing area, day produces 35 degree~45 degree 900 liters of hot water.

Claims (9)

  1. A kind of 1. assembled architecture south wall solar heat corridor construction, it is characterised in that including:
    Balcony in the south(4), balcony in the south(4)With in room(3)Between be equipped with partition wall(16), balcony in the south(4)Southern side be big face Product French window(6);
    Solar panels(1), solar panels(1)It is arranged on balcony in the south(4)In, it is fixed on partition wall(16)On;
    Low temperature water tank(8), low temperature water tank(8)It is placed on balcony in the south(4)In, with water source(11)Connection, at the same also by with Pump(14)Circulation waterway(17)With solar panels(1)Connection and then by solar panels(1)The thermal energy storage being absorbed to is to low temperature Water tank(8)In;
    High-temperature water tank(10), high-temperature water tank(10)It is placed on balcony in the south(4)In, with water source(11)Connection, at the same also with water Terminal(12)Connection;
    Electric water source heat pump to exchange heat device(9), electric water source heat pump to exchange heat device(9)It is placed on balcony in the south(4)In, and pass through medium heat-transfer Exchange pipeline(13)With low temperature water tank(8), high-temperature water tank(10)Connection, and then by low temperature water tank(8)The thermal energy of middle storage passes It is delivered to high-temperature water tank(10)In.
  2. 2. assembled architecture south wall solar heat corridor construction according to claim 1, it is characterised in that:The south balcony (4)Top be light tight insulation roof.
  3. 3. assembled architecture south wall solar heat corridor construction according to claim 1, it is characterised in that:The south balcony (4)East and west sides be light tight thermal insulation wall(15).
  4. 4. assembled architecture south wall solar heat corridor construction according to claim 1, it is characterised in that:The partition wall(16) It is equipped with door(2).
  5. 5. assembled architecture south wall solar heat corridor construction according to claim 1, it is characterised in that:The partition wall(16) It is equipped with the window between balcony in the south in room(7).
  6. 6. assembled architecture south wall solar heat corridor construction according to claim 1, it is characterised in that:The south balcony (4)In, large area French window(6)Inner side be equipped with window blind(5).
  7. 7. assembled architecture south wall solar heat corridor construction according to claim 1, it is characterised in that:The large area falls Ground window(6)Glass pane be ultra-clear glasses.
  8. 8. assembled architecture south wall solar heat corridor construction according to claim 1, it is characterised in that:The south balcony (4)For rectangle.
  9. 9. assembled architecture south wall solar heat corridor construction according to claim 8, it is characterised in that:The south balcony (4)It is 7.2 meters long, 3.6 meters high, 1.5 meters wide.
CN201720559018.4U 2017-05-19 2017-05-19 Assembled architecture south wall solar heat corridor constructs Active CN207348206U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201720559018.4U CN207348206U (en) 2017-05-19 2017-05-19 Assembled architecture south wall solar heat corridor constructs

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201720559018.4U CN207348206U (en) 2017-05-19 2017-05-19 Assembled architecture south wall solar heat corridor constructs

Publications (1)

Publication Number Publication Date
CN207348206U true CN207348206U (en) 2018-05-11

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201720559018.4U Active CN207348206U (en) 2017-05-19 2017-05-19 Assembled architecture south wall solar heat corridor constructs

Country Status (1)

Country Link
CN (1) CN207348206U (en)

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Address after: 100044, No. 19 Che Zhuang Street, Beijing, Xicheng District

Patentee after: China Architectural Design & Research Institute Co Ltd

Address before: 100044 National Housing Engineering Center, 19 Che Kung Chuang street, Xicheng District, Beijing.

Patentee before: CHINA ARCHITECTURE DESIGN INSTITUTE CO., LTD.