CN212204681U - Solar integrated heating system - Google Patents
Solar integrated heating system Download PDFInfo
- Publication number
- CN212204681U CN212204681U CN202020076056.6U CN202020076056U CN212204681U CN 212204681 U CN212204681 U CN 212204681U CN 202020076056 U CN202020076056 U CN 202020076056U CN 212204681 U CN212204681 U CN 212204681U
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- 238000010438 heat treatment Methods 0.000 title claims abstract description 53
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 69
- 238000004321 preservation Methods 0.000 claims abstract description 19
- 239000011521 glass Substances 0.000 claims abstract description 18
- 238000005338 heat storage Methods 0.000 claims abstract description 11
- 238000009413 insulation Methods 0.000 claims description 4
- 239000008399 tap water Substances 0.000 claims description 2
- 235000020679 tap water Nutrition 0.000 claims description 2
- 230000000694 effects Effects 0.000 abstract description 5
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical compound C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 abstract description 4
- 238000004146 energy storage Methods 0.000 abstract description 3
- 238000001816 cooling Methods 0.000 abstract description 2
- 239000003345 natural gas Substances 0.000 abstract description 2
- 238000009434 installation Methods 0.000 description 7
- 238000010276 construction Methods 0.000 description 5
- 230000009286 beneficial effect Effects 0.000 description 3
- 238000005259 measurement Methods 0.000 description 3
- 238000012795 verification Methods 0.000 description 3
- 238000003287 bathing Methods 0.000 description 2
- 230000006837 decompression Effects 0.000 description 2
- 230000007547 defect Effects 0.000 description 2
- 239000007789 gas Substances 0.000 description 2
- 239000011449 brick Substances 0.000 description 1
- 239000004568 cement Substances 0.000 description 1
- 239000003245 coal Substances 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000009792 diffusion process Methods 0.000 description 1
- 239000003292 glue Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 230000009467 reduction Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 238000010792 warming Methods 0.000 description 1
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/60—Planning or developing urban green infrastructure
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Abstract
The utility model provides a solar integrated heating system, which comprises a heat collecting part, a cellar part and a heated house part; the heat collecting part is formed by pressing a shell and a heat insulating layer into a whole, a light collecting film is adhered to the inner surface of the heat insulating layer, vacuum glass is additionally arranged in the light collecting film, and a gap is formed between the light collecting film and the vacuum glass; the first air outlet of the heat collecting unit is connected with the second air inlet of the cellar part, and the first air inlet of the heat collecting unit is connected with the second air outlet of the cellar part, so that continuous hot air supply circulation of the heat collecting part and the cellar part is formed and supplied to the heated house part; the cellar part also comprises a heat storage component and a water tank which are used for assisting the heated room part to heat. The utility model discloses well heat-collecting part passes through the solar energy heat-retaining to set up the energy storage that circulating line guaranteed secret cellar for storing things part, secret cellar for storing things part also has certain heat preservation effect under the condition of natural gas cooling, is connected to the house part of being heated through setting up circulating line, with the heating of guaranteeing the house of heating of confession, neither polluted environment, also facilitates the use.
Description
Technical Field
The utility model relates to a heating technical field, specifically speaking relates to a solar energy integrated heating system.
Background
The traditional heating comprises firewood burning, coal-fired heating, gas heating and the like, particularly in rural areas, each house has an independent house and courtyard, and unlike the centralized heating of urban buildings, firewood or coal needs to be collected before the cold day to prepare gas equipment for heating, so that the heating is inconvenient and pollutes the environment.
SUMMERY OF THE UTILITY MODEL
In order to solve the defects of the prior art, the utility model aims to provide a solar integrated heating system to overcome the defects in the prior art.
In order to achieve the above object, the present invention provides a solar integrated heating system, which comprises a heat collecting part, a cellar part and a heated house part; the heat collecting part comprises a plurality of heat collecting units, and each heat collecting unit comprises a shell, a first heat preservation layer, a light collecting film and vacuum glass; a first heat preservation layer is laid on the inner surface of the shell, the shell and the first heat preservation layer are pressed into a whole, a lighting film is pasted on the inner surface of the first heat preservation layer and used for heating in the heating unit, vacuum glass is inlaid on a cavity defined by the shell to play a heat preservation role, and a gap is formed between the lighting film and the vacuum glass; each heat collecting unit is fixed on a fixing frame erected on the ground, two adjacent heat collecting units are communicated through a first pipeline, the first pipeline is communicated into a gap of each heat collecting unit, a first air outlet is formed in the first heat collecting unit, and a first air inlet is formed in the last heat collecting unit; the cellar part comprises a cellar and a cellar top, the cellar is arranged below the ground, the side wall and the bottom surface of the cellar are provided with waterproof layers, a second heat-insulating layer is paved in the waterproof layers, and a cellar body fixing layer is paved in the second heat-insulating layer; the cellar top cover is arranged on the opening of the cellar, the middle part of the cellar top is provided with a cellar cover opening, the cellar top is provided with a second air inlet, a second air outlet and a third air outlet, and the bottom of the cellar is provided with a third air inlet; the second air inlet is communicated with the first air outlet through a second pipeline, the second pipeline extends into the cellar from the second air inlet and extends to the bottom surface of the cellar, the second air outlet is communicated with the first air inlet through a third pipeline, the third pipeline extends into the top of the cellar from the second air outlet, and the third pipeline is provided with a first air circulating pump so as to form continuous hot air supply circulation of the heat collecting part and the cellar part; the heated house part comprises a fourth air inlet and a fourth air outlet, the fourth air inlet is communicated with the third air outlet through a fourth pipeline, a second air circulating pump is arranged on the fourth pipeline, and the fourth air outlet is communicated with the third air inlet through a fifth pipeline so as to form continuous hot air supply circulation of the cellar part and the heated house part.
Through above-mentioned technical scheme, adopt hot part to pass through the solar energy heat-retaining to set up the energy storage that circulating line guaranteed underground cellar for storing things part, underground cellar for storing things part also has certain heat preservation effect under the condition of natural cold, is connected to the house part of being heated through setting up circulating line, in order to guarantee the heating of the house of supplying heat, neither polluted environment also facilitates the use. According to actual measurement, the heat collecting unit can enable the circulating air to reach more than 70 ℃, the temperature reaching the cellar is about 70 ℃, heat can be supplied after 5-6 hours, and the temperature reaching the interior of a heated house is about 50 ℃.
As a further explanation of the solar integrated heating system of the present invention, preferably, the cellar part further includes a heat storage member, the heat storage member is disposed in the cellar, the heat storage member includes a honeycomb frame and a water bag, the honeycomb frame is arranged in the cellar at a certain gap, so that the left gap is used as an air circulation, and the water bag is placed in the honeycomb frame.
Through the technical scheme, the water bag is used for heat storage and supply in the cellar, the temperature of the water bag is heated through hot circulating air, the water bag is heated along with indoor heat supply and temperature reduction in the cellar, when the temperature in the cellar is lower than that of the water bag, the water in the water bag through circulating air releases heat energy to achieve the aim of keeping the temperature in the cellar balanced so as to achieve the aim of continuous heat supply, a certain temperature can be kept, and the temperature is generally kept at about 60 ℃, so that the temperature balance in the cellar is ensured.
As right solar energy integrated heating system's further explanation, preferably, the cellar for storing things part still includes the water tank, and the water tank setting is in the cellar for storing things, and water tank bottom intercommunication has the outlet pipe, has the water pump on the outlet pipe, and water tank top intercommunication has inlet tube, circulating pipe and decompression pipe, inlet tube and running water pipe connection, circulating pipe with be heated the heating installation pipe connection in the house portion, the decompression pipe communicates to subaerial.
Through the technical scheme, the heat energy of the water in the water tank is used as the auxiliary heating of the heated house part, and is used for supplying heat to the heating radiators, bathing, kitchen water or the like, so that the water heating device has convenience, the water in the water tank is heated through circulating hot air, the water temperature in the water tank can be raised to about 60 ℃ and kept, and the temperature is about 60 ℃ generally.
As a further illustration of the solar integrated heating system of the present invention, it is preferred that the depth of the housing is 18-25 cm. Through the technical scheme, the shell is too thin and is not beneficial to installation, the temperature of the shell is too thick, the diffusion is fast, the depth of the shell is 18-25CM after multiple improvements, the installation is convenient, and the aim of enabling the circulating air to reach more than 70 ℃ can be achieved.
As a further explanation of the solar integrated heating system of the present invention, it is preferable that the gap between the lighting film and the vacuum glass is 10 cm. Through the technical scheme, the vacuum glass is favorably installed, and the heat-insulating performance effect achieved by the vacuum glass is optimal.
As a further explanation of the solar integrated heating system of the present invention, it is preferable that the ratio of the heated area of the heated house part to the capacity of the cellar is 1m3:0.3m3。
By the technical scheme, the cellar has too small capacity for storing heatThe short continuous heat supply time is short, the water in the water bag is slowly heated up due to the large capacity of the cellar, the heat supply to the indoor is not facilitated in the shortest time, and the ratio of the heated area of the heated house part to the capacity of the cellar is 1m after verification for many times3:0.3m3In the process, the temperature of the cellar can be kept at about 70 ℃, heat can be supplied after the cellar reaches 5-6 hours, and the temperature of the heat supplied to the heated house is about 50 ℃.
As a further explanation of the solar integrated heating system of the present invention, it is preferable that the cellar is 2.5-3.2m away from the ground; the distance between the pit cover opening and the ground is 45 cm.
By the technical scheme, the cellar is designed to be 2.5-3.2 meters away from the ground, so that the construction is convenient, and personnel are safe up and down; the pit cover opening is too shallow from the ground to be difficult to preserve heat and too deep to be easy to construct, and after multiple verification, the pit cover opening is 45cm-50cm from the ground to be easy to preserve heat and construct.
As a further explanation of the solar integrated heating system of the present invention, preferably, the first pipe is wrapped with a heat insulating layer.
The utility model has the advantages as follows: the utility model discloses well heat-collecting part passes through the solar energy heat-retaining to set up the energy storage that circulating line guaranteed underground cellar for storing things part, underground cellar for storing things part also has certain heat preservation effect under the condition of natural gas cooling, is connected to the house part of being heated through setting up circulating line, with the heating of guaranteeing the house of heating of supplying heat, neither polluted environment, also facilitate the use, can reach more than 20 ℃ through this system heat supply indoor temperature.
Drawings
Fig. 1 is a schematic structural view of a solar integrated heating system according to the present invention.
Detailed Description
In order to further understand the structure, characteristics and other objects of the present invention, the following detailed description is given with reference to the accompanying preferred embodiments, which are only used to illustrate the technical solution of the present invention and are not intended to limit the present invention.
As shown in fig. 1, a solar integrated heating system includes a heat collecting part 1, a cellar part 2 and a heated house part 3.
The heat collecting part 1 comprises a plurality of heat collecting units, and each heat collecting unit comprises a shell 11, a first heat preservation layer 12, a light collecting film 13 and vacuum glass 14. The shell 11 is made into different lengths and widths according to the size of a field, the too thin shell is not beneficial to installation, the too thick shell can emit temperature quickly, and the depth of the shell is set to be 18-25cm through multiple improvements, so that the installation is convenient, and the temperature can not be emitted too quickly. The inner surface of the shell 11 is paved with a first heat preservation layer 12, the shell 11 and the first heat preservation layer 12 are pressed into a whole, air inlet and outlet holes are reserved, the inner surface of the first heat preservation layer 12 is pasted with a lighting film 13 for warming in the heating unit, vacuum glass 14 with the same specification is inlaid in a cavity surrounded by the shell 11 and can be glued with glue to play a heat preservation role, the vacuum glass and the shell keep a plane after construction, a gap 15 is formed between the lighting film 13 and the vacuum glass 14, preferably, the gap 15 is 10cm, the vacuum glass is favorably installed, and the heat preservation performance effect achieved by the vacuum glass is optimal.
Firstly, selecting a place with sufficient sunlight and long sunlight irradiation time, installing different numbers of heat collecting units according to the size of a heating area, fixing each heat collecting unit on a fixing frame erected on the ground, connecting the heat collecting units by a first pipeline 16, then additionally installing a circulating pipeline by the first heat collecting unit and the last heat collecting unit to be connected with a cellar part 2, and wrapping a heat insulating layer outside the first pipeline 16. The first pipeline 16 is communicated to the gap 15 of each heat collecting unit, the first heat collecting unit is provided with a first air outlet 17, and the last heat collecting unit is provided with a first air inlet 18.
The cellar part 2 comprises a cellar 21 and a cellar top 22, the cellar 21 is arranged below the ground, a pit with the depth of 2.5-3.2m and unlimited shape (designed according to the terrain) is dug near the heated room part 3 and is used as the cellar 21, the depth of the cellar is 2.5-3.2 meters away from the ground, the design is convenient for construction, the personnel are safe up and down, the capacity and the volume of the cellar are determined according to the area of the heated room part 3, and the cellar has too small capacity, less stored heat and short continuous heating time due to too small capacityThe water in the water bag with too large capacity in the cellar is heated slowly to be not beneficial to supplying heat to the indoor in the shortest time, and the ratio of the heated area of the part 3 of the general heated house to the capacity of the cellar 21 is 1m after being verified for many times3:0.3m3Optimally, the pit surface is smooth to facilitate construction, a waterproof layer 211 is made on the bottom area and the vertical surface of the pit after the pit is dug, a second heat insulation layer 212 is made, a pit body fixing layer 213 is made finally, the pit body is covered after the pit body fixing layer is finished, a pit top 22 is prefabricated, a pit cover opening 221 and a pipeline installation opening are reserved on the pit top 22, the pit top 22 is used for covering the opening of the pit 21, the pit cover opening is too shallow from the ground and is not easy to insulate heat, the pit top is too deep and is not easy to construct, the pit cover opening is 45cm-50cm away from the ground after multiple verification, the heat insulation and the construction are easy, and the linear distance between the pit cover opening 221 and the ground is 45.
The pipeline mounting openings of the cellar top 22 are set as a second air inlet 222 and a second air outlet 223; the second air inlet 222 of the cellar 21 is connected with the first air outlet 17 of the heat collecting part 1 through a second pipeline 25, the second pipeline 25 extends to the farthest position opposite to the second air outlet 223 of the cellar 21 to the bottom of the cellar 21, so that the temperature in the cellar is balanced, the second air outlet 223 of the cellar 21 is designed at the top of the cellar 21 and is connected with the first air inlet 18 of the heat collecting part 1 through a third pipeline 26, and the third pipeline 26 is provided with a first air circulating pump 27 to form continuous hot air supply circulation of the heat collecting part 1 and the cellar part 2. According to actual measurement, the heat collecting unit can enable the circulating air to reach more than 70 ℃, the temperature of the circulating air reaching the cellar is about 70 ℃, and the circulating air can supply heat after reaching the cellar for 5-6 hours.
Preferably, the cellar heat storage is designed, and a heat storage member 23 is provided in the cellar 21. Firstly, making frames, building a honeycomb frame 231 by red bricks or cement blocks, arranging the honeycomb frames 231 in the cellar 21 at certain intervals, leaving gaps between the frames for air circulation, placing a water bag 232 filled with water into each honeycomb of the honeycomb frame 231, using the water for heat storage and heat supply, and filling the cellar. The temperature of the water bag is heated by hot circulating air, the water in the water bag is heated and then is reduced along with indoor heat supply and the temperature in the cellar, when the temperature in the cellar is lower than the temperature of the water in the water bag, the water in the water bag starts to release heat energy through circulating air so as to keep the temperature in the cellar balanced and further achieve the purpose of continuous heat supply, and the temperature can be kept at a certain temperature which is generally kept at about 60 ℃.
More preferably, a water tank 24 space is reserved in the cellar 21, water in the water tank 24 is used for heating and bathing or other uses by connecting water-heating air sheets in the heated house part 3, a water outlet pipe 241 is arranged at the bottom of the water tank 24 and is used for being connected with a heating radiator, a bathroom and a kitchen, a water pump 242 is arranged on the water outlet pipe 241 for supplying water, a water inlet pipe 243, a pressure reducing pipe 245 and a circulating water pipe 244 are arranged at the top of the water tank 24, the water inlet pipe 243 is connected with a tap water pipeline, the circulating water pipe 244 is connected with a heating pipeline, heat energy generated by water in the water tank is only used for auxiliary heating, and the pressure reducing pipe 245 is communicated to the ground so as to ensure that. The water in the water tank is heated by circulating hot air, and the temperature of the water in the water tank can be raised to about 60 ℃ and maintained, and the temperature is about 60 ℃ generally.
The pipeline mounting port of the cellar top 22 is also provided with a third air outlet 224, and the third air outlet 224 is arranged at the top of the cellar 21 and extends to the ground; the bottom of the cellar 21 is provided with a third air inlet 225, and the third air inlet 225 is communicated to the bottom of the cellar 21 and extends to the ground.
The heated house portion 3 includes a fourth air inlet 31 and a fourth air outlet 32, a fourth air outlet 32 is designed at a corner of the heated house portion 3, the fourth air outlet 32 is connected with a third air inlet 225 of the cellar 21 through a fifth pipe 210, the fourth air inlet 31 of the heated house portion 3 and a third air outlet 224 of the cellar 21 are connected through a fourth pipe 28, the fourth pipe 28 is arranged in each room of the heated house portion 3, one air outlet is installed in each room, a second air circulating pump 29 is additionally installed on the fourth pipe 28, so as to form a continuous hot air supply cycle of the cellar portion 2 and the heated house portion 3. According to actual measurement, the heating temperature reaching the heated house is about 50 ℃. After the installation is finished, a layer of heat insulation layer is added above the cellar 21 and the cellar top 22, and the bottom surface is backfilled to restore the original shape. The indoor temperature of the heat supply room can reach more than 20 ℃ through the system.
It should be noted that the above mentioned embodiments and embodiments are intended to demonstrate the practical application of the technical solution provided by the present invention, and should not be interpreted as limiting the scope of the present invention. Various modifications, equivalent substitutions and improvements will occur to those skilled in the art and are intended to be within the spirit and scope of the present invention. The protection scope of the present invention is subject to the appended claims.
Claims (8)
1. Solar integrated heating system, characterized in that it comprises a heat collecting part (1), a cellar part (2) and a heated house part (3); wherein,
the heat collecting part (1) comprises a plurality of heat collecting units, and each heat collecting unit comprises a shell (11), a first heat preservation layer (12), a light collecting film (13) and vacuum glass (14); a first heat preservation layer (12) is laid on the inner surface of the shell (11), the shell (11) and the first heat preservation layer (12) are pressed into a whole, a lighting film (13) is pasted on the inner surface of the first heat preservation layer (12) and used for heating in the heating unit, vacuum glass (14) is embedded on a cavity enclosed by the shell (11) to play a heat preservation role, and a gap (15) is formed between the lighting film (13) and the vacuum glass (14);
each heat collecting unit is fixed on a fixed frame erected on the ground, two adjacent heat collecting units are communicated through a first pipeline (16), the first pipeline (16) is communicated into a gap (15) of each heat collecting unit, a first air outlet (17) is formed in the first heat collecting unit, and a first air inlet (18) is formed in the last heat collecting unit;
the cellar part (2) comprises a cellar (21) and a cellar top (22), the cellar (21) is arranged below the ground, waterproof layers (211) are arranged on the side wall and the bottom surface of the cellar (21), a second heat-insulating layer (212) is laid in the waterproof layers (211), and a cellar body fixing layer (213) is laid in the second heat-insulating layer (212); the cellar top (22) is covered on the opening of the cellar (21), the middle part of the cellar top (22) is provided with a cellar cover opening (221), the cellar top (22) is provided with a second air inlet (222), a second air outlet (223) and a third air outlet (224), and the bottom of the cellar (21) is provided with a third air inlet (225);
the second air inlet (222) is communicated with the first air outlet (17) through a second pipeline (25), the second pipeline (25) extends into the cellar (21) from the second air inlet (222) and extends to the bottom surface of the cellar (21), the second air outlet (223) is communicated with the first air inlet (18) through a third pipeline (26), the third pipeline (26) extends into the cellar top (22) from the second air outlet (223), and a first air circulating pump (27) is arranged on the third pipeline (26) to form continuous hot air supply circulation of the heat collecting part (1) and the cellar part (2);
the heated house part (3) comprises a fourth air inlet (31) and a fourth air outlet (32), the fourth air inlet (31) is communicated with the third air outlet (224) through a fourth pipeline (28), a second air circulating pump (29) is arranged on the fourth pipeline (28), and the fourth air outlet (32) is communicated with the third air inlet (225) through a fifth pipeline (210) so as to form continuous hot air supply circulation of the cellar part (2) and the heated house part (3).
2. Solar integrated heating system according to claim 1, characterised in that the cellar section (2) further comprises a heat storage member (23), the heat storage member (23) being arranged inside the cellar (21), the heat storage member (23) comprising a honeycomb frame (231) and water bags (232), the honeycomb frame (231) being arranged with a certain clearance inside the cellar (21) so that the clearance left is used for air circulation, the water bags (232) being placed inside the honeycomb frame (231).
3. The solar integrated heating system according to claim 1, wherein the cellar section (2) further comprises a water tank (24), the water tank (24) is arranged in the cellar (21), the bottom of the water tank (24) is communicated with a water outlet pipe (241), the water outlet pipe (241) is provided with a water pump (242), the top of the water tank (24) is communicated with a water inlet pipe (243), a circulating water pipe (244) and a pressure reducing pipe (245), the water inlet pipe (243) is connected with a tap water pipeline, the circulating water pipe (244) is connected with a heating pipeline in the heated room section (3), and the pressure reducing pipe (245) is communicated to the ground.
4. Solar integrated heating system according to claim 1, characterised in that the depth of the housing (11) is 18-25 cm.
5. Solar integrated heating system according to claim 1, characterised in that the gap (15) between the lighting film (13) and the vacuum glass (14) is 10 cm.
6. Solar integrated heating system according to claim 1, characterised in that the ratio of the heated area of the heated house part (3) to the capacity of the cellar (21) is 1m3:0.3m3。
7. Solar integrated heating system according to claim 1, characterised in that the cellar (21) is 2.5-3.2m from the ground; the cellar cover opening (221) is 45cm away from the ground.
8. Solar integrated heating system according to claim 1, in which the first pipe (16) is wrapped with a layer of insulation.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020076056.6U CN212204681U (en) | 2020-01-14 | 2020-01-14 | Solar integrated heating system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020076056.6U CN212204681U (en) | 2020-01-14 | 2020-01-14 | Solar integrated heating system |
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Publication Number | Publication Date |
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CN212204681U true CN212204681U (en) | 2020-12-22 |
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CN202020076056.6U Expired - Fee Related CN212204681U (en) | 2020-01-14 | 2020-01-14 | Solar integrated heating system |
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CN (1) | CN212204681U (en) |
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2020
- 2020-01-14 CN CN202020076056.6U patent/CN212204681U/en not_active Expired - Fee Related
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Granted publication date: 20201222 Termination date: 20220114 |