CN209798885U - Ground cold air water intaking ware - Google Patents
Ground cold air water intaking ware Download PDFInfo
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- CN209798885U CN209798885U CN201920415927.XU CN201920415927U CN209798885U CN 209798885 U CN209798885 U CN 209798885U CN 201920415927 U CN201920415927 U CN 201920415927U CN 209798885 U CN209798885 U CN 209798885U
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- air
- pipe
- condenser
- refrigeration
- water
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Abstract
The utility model belongs to the technical field of condensation system water, a ground cold air water intaking ware is related to, including inlet air channel, condenser pipe subassembly, refrigeration subassembly, air-out passageway and storage water tank, the condenser pipe subassembly includes the condenser pipe and runs through the refrigeration pipe of condenser pipe inside setting, the refrigeration subassembly includes interconnect compressor and condenser, condenser pipe one end is connected with inlet air channel, the other end and storage water tank connection, the storage water tank is linked together with the air-out passageway, refrigeration pipe one end is connected with the compressor, and the other end is connected with the condenser, still be equipped with the immersible pump in the storage water tank. The utility model makes full use of soil to reduce temperature, and reduces unnecessary energy consumption; the spiral arrangement of the condenser pipe assembly can greatly increase the heat exchange area and improve the heat exchange efficiency; and simultaneously, the utility model discloses structure integrated level is better, both beautifully also be convenient for install and dismantle, has simple structure, convenient operation, reliable and stable, advantage such as water intaking is effectual, efficient.
Description
Technical Field
The utility model belongs to the technical field of the condensation system water, concretely relates to ground cold air water intaking ware.
Background
The water resource in China is unevenly distributed in time and space, the water pollution is serious, the contradiction between supply and demand of fresh water is increasingly aggravated, and the problem of shortage of fresh water supply in islands, mountains, frontier sentries, disaster areas, arid areas, deserts and other areas is very prominent. The traditional ways to solve the problem of fresh water supply in the areas comprise remote fresh water transportation, seawater desalination, underground water exploitation, rainwater collecting cellar building and the like. Fresh water transportation costs are high due to the inconvenient transportation in some areas. Seawater desalination is only suitable for coastal areas, and is not suitable for wide application due to technical and cost limitations. Groundwater mining in some regions is extremely difficult and of limited quantity. The rain collecting cellar in the arid mountainous area is easy to cause water pollution due to long water storage period and lack of disinfection measures, and the safety of water for people and livestock is difficult to guarantee. In order to thoroughly solve the problem of difficulty in obtaining fresh water in a specific area and a specific application environment, it is urgently needed to develop a simple, practical, low-cost and widely applicable fresh water supply technology.
Because the atmosphere is rich in fresh water and is not limited by regions, particularly in islands, coastal areas and high mountain areas, the air humidity is high, and a new idea is provided for obtaining liquid fresh water (air water taking for short) from the air to solve the problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the defects and the insufficiency existing in the prior art and providing a ground cold air water intake device with simple structure, convenient operation, stability and reliability and high energy utilization rate.
In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a ground cold air ware of fetching water, includes inlet air passageway, condenser pipe subassembly, refrigeration subassembly, air-out passageway and storage water tank, the condenser pipe subassembly includes the condenser pipe and runs through the refrigeration pipe of the inside setting of condenser pipe, the refrigeration subassembly includes interconnect compressor and condenser, condenser pipe one end is connected with inlet air channel, and the other end and storage water tank connection, the storage water tank is linked together with the air-out passageway, refrigeration pipe one end is connected with the compressor, and the other end is connected with the condenser, still be equipped with the immersible pump in the storage water tank.
Preferably, a first centrifugal fan is arranged in the air inlet at the end part of the air inlet channel.
Preferably, the condensation pipe assemblies are provided with two groups which are arranged in a staggered and spiral mode.
Preferably, a spiral heat exchange fin is arranged between the condensation pipe and the refrigeration pipe.
Preferably, a restrictor is arranged between the refrigerating pipe and the condenser.
Preferably, a second centrifugal fan is arranged on the condenser.
Preferably, the end of the air inlet channel far away from the air inlet is arranged inside the air outlet channel, the air inlet channel is connected with the air outlet channel in a sealing manner, a plurality of air outlets are formed in the end, connected with the air inlet channel, of the air outlet channel, and the end, far away from the air inlet channel, of the air outlet channel is connected with the water storage tank.
Preferably, the condenser pipe assembly is arranged outside the air outlet channel, the refrigeration assembly is arranged inside the air outlet channel, and the condenser pipe assembly is connected with the air inlet channel and the refrigeration assembly inside the air outlet channel through connecting pipes.
Preferably, the submersible pump can discharge water in the water storage tank to the outside of the air inlet channel through the water outlet pipe.
After the technical scheme is adopted, the utility model provides a pair of ground cold air water intaking ware has following beneficial effect:
The utility model has the advantages that the condenser pipe is arranged below the soil, and the temperature difference between the soil and the air is utilized to cool the air to produce water, so that the resource can be reasonably utilized, and the problem of shortage of fresh water can be solved; specifically, air is sucked into the condensation pipe through the first centrifugal fan and cooled to be below a dew point, so that water vapor is condensed and condensed to obtain liquid water, the contact area is increased due to the arrangement of the spiral heat exchange fins, the heat exchange efficiency is improved, and the efficiency of air water making is improved; by the arrangement of the refrigerating assembly, refrigeration compensation can be provided when the temperature of the condensing pipe is not enough to enable the air to reach the dew point temperature, and the effect of air water making is further ensured; the arrangement of the compressor and the condenser in the refrigeration assembly can recycle the refrigerant for compensating and cooling, thereby improving the energy utilization rate and reducing the cost investment; therefore, the utility model discloses a not only environmental protection but also the efficient carries out the purpose of water intaking to the air, has advantages such as simple structure, convenient operation, reliable and stable, energy utilization rate height.
Drawings
Fig. 1 is a schematic structural view of a ground cooling air water intake device of the present invention;
FIG. 2 is a sectional view of the structure of a ground cooling air water intake device of the present invention;
fig. 3 is a sectional view of the condenser tube assembly according to the present invention.
wherein: the air conditioner comprises an air inlet channel 1, an air inlet 11, a first centrifugal fan 12, a condenser pipe assembly 2, a condenser pipe 21, a refrigerating pipe 22, a spiral heat exchange plate 23, a refrigerating assembly 3, a compressor 31, a condenser 32, a throttler 33, a second centrifugal fan 34, an air outlet channel 4, an air outlet 41, a water storage tank 5, a submersible pump 6, a connecting pipe 7 and a water outlet pipe 8.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
As shown in fig. 1-3, the utility model relates to a ground cold air water intaking ware, including inlet air channel 1, condenser pipe subassembly 2, refrigeration subassembly 3, air-out passageway 4 and storage water tank 5, be equipped with first centrifugal fan 12 in the air intake 11 of inlet air channel 1 tip, inlet air channel 1 keeps away from the one end setting of air intake 11 inside air-out passageway 4, and sealing connection between inlet air channel 1 and the air-out passageway 4, refrigeration subassembly 3 sets up inside air-out passageway 4, the one end that inlet air channel 1 is connected to air-out passageway 4 is equipped with a plurality of air outlets 41, inlet air channel 1's one end is kept away from to air-out passageway 4 is connected with storage water tank 5.
Condenser pipe subassembly 2 is equipped with two sets ofly, crisscross the setting of spiraling is outside at air-out passageway 4, condenser pipe subassembly 2 is connected with air inlet channel 1 and the refrigeration subassembly 3 of air-out passageway 4 inside through connecting pipe 7, and is concrete, condenser pipe subassembly 2 includes condenser pipe 21 and runs through the inside refrigeration pipe 22 that sets up of condenser pipe 21, be equipped with spiral heat exchanger fin 23 between condenser pipe 21 and the refrigeration pipe 22, condenser pipe 21 one end is connected with the air inlet channel 1 that sets up in air-out passageway 4 inside, the other end is connected with storage water tank 5, the air gets into condenser pipe 21 by air inlet channel 1, the rivers that separate out go into storage water tank 5, because storage water tank 5 is linked together with air-out passageway 4, all the other gases are discharged through air-.
Refrigeration subassembly 3 includes interconnect compressor 31 and condenser 32, refrigeration pipe 22 one end is connected with compressor 31, and the other end is connected with condenser 32, constitutes the return circuit between compressor 31, refrigeration pipe 22 and the condenser 32 three, specifically, is equipped with flow controller 33 between refrigeration pipe 22 and the condenser 32, is equipped with second centrifugal fan 34 on the condenser 32 for the radiating effect to condenser 32.
Still be equipped with immersible pump 6 in the storage water tank 5, immersible pump 6 can be with the water in the storage water tank 5 outside through outlet pipe 8 row to inlet air duct 1.
The utility model relates to a when ground cold air water intaking ware uses, whole device is with collecting the moisture purpose in the air, bury underground below the air outlet 41, carry the air from the external world through first centrifugal fan 12 in the condenser pipe 21 that spirals and set up, condenser pipe 21 is direct and soil contact as condensing equipment, because air and soil coefficient of heat conductivity are different, cause the temperature difference of soil and air, soil temperature is less than the air temperature during the daytime, when the difference in temperature reaches the dew point of outside air, water delays underground condenser pipe 21 pipe wall from the air and appears, water flows into storage water tank 5 along the pipe wall, all the other air then discharge ground through the position that storage water tank 5 and air-out passageway 4 communicate, accomplish a heat transfer circulation; when the sensor detects that the soil temperature is not enough to enable the air in the condensation pipe 21 to reach the dew point temperature, the compressor 31 is started, the refrigerant is sent into the refrigeration pipe 22 to supplement the cold quantity for the condensation pipe 21 to enable the condensation pipe to reach the dew point, the refrigerant enters the condenser 32 through the throttler 33 after being evaporated and is condensed and then returns to the compressor 31 again, and a cold quantity supplement cycle is completed; the compressor 31 is controlled by a frequency converter, so that the underground condenser pipe 21 is maintained in a certain temperature range, the water taking device can be maintained in a stable water outlet working condition for a long time, and the efficiency and the stability are greatly improved; when the water in the water storage tank 5 reaches a set water level, the water taking device stops working, and when water is needed, the water is pumped to the ground by the submersible pump 6 in the water storage tank 5.
It should be noted that the utility model discloses a driving energy that water intaking ware adopted can come from solar energy, adopts clean energy as the system energy drive, and is pollution-free, accords with the big direction of present environmental protection.
In conclusion, the utility model fully utilizes the soil to cool, and reduces unnecessary energy consumption; the spiral arrangement of the condenser pipe assembly can greatly increase the heat exchange area and improve the heat exchange efficiency; and simultaneously, the utility model discloses structure integrated level is better, both beautifully also be convenient for install and dismantle, has simple structure, convenient operation, reliable and stable, advantage such as water intaking is effectual, efficient.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (9)
1. The utility model provides a ground cold air ware of fetching water, includes inlet air channel (1), condenser pipe subassembly (2), refrigeration subassembly (3), air-out passageway (4) and storage water tank (5), its characterized in that: condenser pipe subassembly (2) include condenser pipe (21) and run through the inside refrigeration pipe (22) that sets up of condenser pipe (21), refrigeration subassembly (3) are including interconnect compressor (31) and condenser (32), condenser pipe (21) one end is connected with inlet air channel (1), and the other end is connected with storage water tank (5), storage water tank (5) are linked together with air-out passageway (4), refrigeration pipe (22) one end is connected with compressor (31), and the other end is connected with condenser (32), still be equipped with immersible pump (6) in storage water tank (5).
2. A chilled air water intake as claimed in claim 1, wherein: a first centrifugal fan (12) is arranged in an air inlet (11) at the end part of the air inlet channel (1).
3. A chilled air water intake as claimed in claim 1, wherein: the two groups of the condensation pipe assemblies (2) are arranged and are arranged in a staggered and spiral mode.
4. A chilled air water intake as claimed in claim 1, wherein: spiral heat exchange fins (23) are arranged between the condensation pipe (21) and the refrigeration pipe (22).
5. A chilled air water intake as claimed in claim 1, wherein: a restrictor (33) is arranged between the refrigerating pipe (22) and the condenser (32).
6. A chilled air water intake as claimed in claim 1, wherein: the condenser (32) is provided with a second centrifugal fan (34).
7. A chilled air water intake according to claim 2, wherein: the one end setting that air intake (11) were kept away from in inlet air channel (1) is inside air-out passageway (4), and sealing connection between inlet air channel (1) and air-out passageway (4), the one end that inlet air channel (1) is connected in air-out passageway (4) is equipped with a plurality of air outlets (41), the one end that inlet air channel (1) were kept away from in air-out passageway (4) is connected with storage water tank (5).
8. A chilled air water intake according to claim 7, wherein: condenser tube subassembly (2) set up in air-out passageway (4) outside, and refrigeration subassembly (3) set up inside air-out passageway (4), condenser tube subassembly (2) are connected with inside inlet air channel (1) of air-out passageway (4) and refrigeration subassembly (3) through connecting pipe (7).
9. A chilled air water intake as claimed in claim 1, wherein: the submersible pump (6) can discharge water in the water storage tank (5) to the outside of the air inlet channel (1) through the water outlet pipe (8).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920415927.XU CN209798885U (en) | 2019-03-29 | 2019-03-29 | Ground cold air water intaking ware |
Applications Claiming Priority (1)
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CN201920415927.XU CN209798885U (en) | 2019-03-29 | 2019-03-29 | Ground cold air water intaking ware |
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CN209798885U true CN209798885U (en) | 2019-12-17 |
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CN201920415927.XU Expired - Fee Related CN209798885U (en) | 2019-03-29 | 2019-03-29 | Ground cold air water intaking ware |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111926884A (en) * | 2020-08-03 | 2020-11-13 | 中国水利水电科学研究院 | Low-energy-consumption geographical cooling type air moisture irrigation device |
CN113026864A (en) * | 2021-04-21 | 2021-06-25 | 常州大学 | Condensing type water making device |
-
2019
- 2019-03-29 CN CN201920415927.XU patent/CN209798885U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111926884A (en) * | 2020-08-03 | 2020-11-13 | 中国水利水电科学研究院 | Low-energy-consumption geographical cooling type air moisture irrigation device |
CN113026864A (en) * | 2021-04-21 | 2021-06-25 | 常州大学 | Condensing type water making device |
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GR01 | Patent grant | ||
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20191217 Termination date: 20210329 |
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CF01 | Termination of patent right due to non-payment of annual fee |