CN220684872U - Integrated water micro-aeration device utilizing clean energy - Google Patents
Integrated water micro-aeration device utilizing clean energy Download PDFInfo
- Publication number
- CN220684872U CN220684872U CN202322329692.1U CN202322329692U CN220684872U CN 220684872 U CN220684872 U CN 220684872U CN 202322329692 U CN202322329692 U CN 202322329692U CN 220684872 U CN220684872 U CN 220684872U
- Authority
- CN
- China
- Prior art keywords
- connecting pipe
- aeration
- waterwheel
- floating body
- aeration device
- 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.)
- Active
Links
- 238000005273 aeration Methods 0.000 title claims abstract description 175
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 122
- 230000005540 biological transmission Effects 0.000 claims description 33
- 239000007921 spray Substances 0.000 claims description 21
- 230000000903 blocking effect Effects 0.000 claims description 15
- 241000883990 Flabellum Species 0.000 claims 1
- 230000005611 electricity Effects 0.000 abstract description 11
- 230000009286 beneficial effect Effects 0.000 abstract description 3
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 23
- 239000001301 oxygen Substances 0.000 description 23
- 229910052760 oxygen Inorganic materials 0.000 description 23
- IJGRMHOSHXDMSA-UHFFFAOYSA-N Atomic nitrogen Chemical compound N#N IJGRMHOSHXDMSA-UHFFFAOYSA-N 0.000 description 4
- 239000003344 environmental pollutant Substances 0.000 description 4
- 231100000719 pollutant Toxicity 0.000 description 4
- 238000005276 aerator Methods 0.000 description 3
- 238000005286 illumination Methods 0.000 description 3
- 238000010248 power generation Methods 0.000 description 3
- 241000195493 Cryptophyta Species 0.000 description 2
- 206010028980 Neoplasm Diseases 0.000 description 2
- OAICVXFJPJFONN-UHFFFAOYSA-N Phosphorus Chemical compound [P] OAICVXFJPJFONN-UHFFFAOYSA-N 0.000 description 2
- 201000011510 cancer Diseases 0.000 description 2
- 230000015556 catabolic process Effects 0.000 description 2
- 238000006731 degradation reaction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000004146 energy storage Methods 0.000 description 2
- 238000012851 eutrophication Methods 0.000 description 2
- 230000036210 malignancy Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 229910052757 nitrogen Inorganic materials 0.000 description 2
- 235000015097 nutrients Nutrition 0.000 description 2
- 239000005416 organic matter Substances 0.000 description 2
- 229910052698 phosphorus Inorganic materials 0.000 description 2
- 239000011574 phosphorus Substances 0.000 description 2
- 239000013049 sediment Substances 0.000 description 2
- 238000003911 water pollution Methods 0.000 description 2
- 238000010521 absorption reaction Methods 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 239000007789 gas Substances 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 150000002926 oxygen Chemical class 0.000 description 1
- 238000006213 oxygenation reaction Methods 0.000 description 1
- 238000005381 potential energy Methods 0.000 description 1
- 239000010865 sewage Substances 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 238000003756 stirring Methods 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
Landscapes
- Wind Motors (AREA)
Abstract
An integrated water micro-aeration device utilizing clean energy comprises a clean energy device, a buoyancy bracket and an aeration device; the buoyancy bracket comprises a plurality of floating bodies and a connecting frame, and the connecting frame is in a shape of Chinese character 'tian'; the floating bodies are positioned in the gaps of the connecting frames and fixedly connected with the connecting frames; the center of the connecting frame is also provided with an electric storage device; the clean energy device comprises a windmill, a waterwheel and a solar panel; the windmill is positioned at the center of the connecting frame, the waterwheel is positioned at two sides of the connecting frame and fixedly connected with the connecting frame, the solar panel is positioned above the connecting frame and fixedly connected with the connecting frame, and the aeration device is positioned in front of and behind the connecting frame and connected with the connecting frame. When the device is applied, the device is placed on the water surface, and the floating body generates buoyancy to prevent the device from sinking; the whole device is symmetrically designed, and the mass distribution is uniform, so that the device is beneficial to floating; the device can utilize wind power, hydraulic power and solar energy to generate electricity for the aeration device to aerate towards the water body. Therefore, the design can generate electricity in various ways and has stable buoyancy.
Description
Technical Field
The utility model relates to an aeration device, belongs to the technical field of sewage treatment equipment, and particularly relates to an integrated water micro-aeration device utilizing clean energy.
Background
In recent years, river and lake water pollution has become increasingly serious with the increase in human activities and the massive discharge of pollutants. Wherein, nitrogen, phosphorus, organic matters and the like are used as common pollutants in the water body to cause eutrophication and black and odorous damage the normal structure and function of the water ecological system. The algae bloom spoilage process and organic matter degradation consume a large amount of dissolved oxygen in the water body to make the water body present anaerobic state. This anaerobic condition further exacerbates the release of nutrients accumulated in the sediment, thereby creating a water eutrophication-black odor-anaerobic malignancy cycle. Therefore, it is important to maintain the dissolved oxygen in the water body at a normal level as an important factor for the propagation of aquatic organisms and the balance development of the ecosystem.
The application number is 202120539356.8, and the application date is 2021, 03 and 16 Chinese patent discloses a novel intelligent solar energy storage electric aerator, which utilizes solar energy to generate electricity automatically and has high automation degree, but the device can only generate electricity through solar energy to enable the aerator to perform aeration, so that the continuous operation capability is poor, namely the aerator cannot continuously operate under different weather conditions. Therefore, the power generation energy source in the prior art is single.
The disclosure of this background section is only intended to increase the understanding of the general background of the application and should not be taken as an admission or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.
Disclosure of Invention
The utility model aims to overcome the defect and problem of single power generation energy in the prior art and provides an integrated water micro-aeration device utilizing clean energy.
In order to achieve the above object, the technical solution of the present utility model is:
an integrated water micro-aeration device utilizing clean energy, wherein the device comprises a clean energy device, a buoyancy bracket and an aeration device;
the buoyancy support comprises a plurality of floating bodies and a connecting frame, wherein the connecting frame comprises a transverse connecting pipe and a vertical connecting pipe, the middle part of the transverse connecting pipe is vertically connected with the middle part of the vertical connecting pipe at the center of the connecting frame, one end of the transverse connecting pipe is connected with the middle part of a left connecting pipe, one end of the transverse connecting pipe, which is far away from the left connecting pipe, is connected with the middle part of a right connecting pipe, one end of the vertical connecting pipe is connected with the middle part of a front connecting pipe, one end of the vertical connecting pipe, which is far away from the front connecting pipe, is connected with one end of the left connecting pipe, the other end of the front connecting pipe is connected with the other end of the right connecting pipe, one end of the rear connecting pipe is connected with one end of the left connecting pipe, and the other end of the rear connecting pipe is connected with the other end of the right connecting pipe; the floating bodies comprise a front left floating body, a front right floating body, a rear left floating body and a rear right floating body, wherein the front left floating body, the front right floating body, the rear left floating body and the rear right floating body are symmetrically distributed along the center of the connecting frame, one end of the front left floating body is connected with a front connecting pipe, the other end of the front left floating body is connected with a transverse connecting pipe, one end of the front right floating body is connected with the front connecting pipe, the other end of the front right floating body is connected with the transverse connecting pipe, one end of the rear left floating body is connected with a rear connecting pipe, the other end of the rear left floating body is connected with the transverse connecting pipe, and one end of the rear right floating body is connected with the rear connecting pipe; an electric storage device is further arranged at the center of the connecting frame;
the clean energy device comprises a windmill, a waterwheel and a solar panel; the windmill is positioned at the center of the connecting frame, the waterwheel comprises a left waterwheel and a right waterwheel, the left waterwheel is connected with a left connecting pipe, and the right waterwheel is connected with a right connecting pipe; the solar panel is fixed above the front left floating body, the front right floating body, the rear left floating body and the rear right floating body;
the aeration device comprises a front aeration device and a rear aeration device, wherein the front aeration device is connected with a front connecting pipe, and the rear aeration device is connected with a rear connecting pipe.
The structure of the front aeration device and the structure of the rear aeration device are in mirror symmetry along the transverse connecting pipe, an aeration hole is arranged at a position below the front aeration device, the aeration hole is a through hole, one end of the aeration hole is communicated with one end of the aeration pipe, and the other end of the aeration pipe is communicated with the top of the aeration spray head;
the aeration spray head is internally provided with a cavity, a plurality of air outlet holes are uniformly distributed on the outer surface of the aeration spray head, and the air outlet holes are through holes.
The number of the aeration holes is three, the aeration holes are respectively positioned on the left side, the lower side and the right side of the front aeration device, the three aeration holes are all connected with aeration pipes, and the lower parts of the aeration pipes are all connected with aeration spray heads.
An air inlet hole is arranged above the front aeration device, the air inlet hole is a through hole, and the air inlet hole is connected with one end of the air inlet pipe.
The windmill comprises a fan main body and a fan tower; the lower extreme of fan pylon is connected with power storage device, the upper end of fan pylon is connected with the fan main part.
The fan main body comprises fan blades and a transmission shaft, wherein the fan blades are spindle-shaped, the top surfaces and the bottom surfaces of the fan blades are both in plane structures, and a plurality of blades are distributed on the side surfaces of the fan blades; the top of the fan blade is connected with one end of a transmission shaft, and the other end of the transmission shaft is connected with a generator;
the blade is convex, the blade includes blade top, blade tail and blade middle part, and the lateral wall of adjacent blade tail is connected, the blade top is located adjacent blade top's below or top, the left end at blade middle part presents the angle increase trend for the flabellum center to the right-hand member, between the adjacent blade, and the blade middle part that is located the left end is higher than the blade middle part that is located the right-hand member.
The structures of the left waterwheel and the right waterwheel are mirror symmetry along the vertical connecting pipe; the left waterwheel comprises a waterwheel main body and a waterwheel tower; one end of the waterwheel tower is connected with the waterwheel main body, and the other end of the waterwheel tower is connected with the left connecting pipe or the right connecting pipe.
The left waterwheel comprises a water transmission shaft and water wheels;
the water wheel comprises a left circular ring, water retaining sheets and a right circular ring, wherein the central lines of the left circular ring and the right circular ring are on the same straight line, the water retaining sheets are uniformly distributed between the left circular ring and the right circular ring, one end of each water retaining sheet is vertically connected with the left circular ring, and the other end of each water retaining sheet is vertically connected with the right circular ring; the left circular ring and the right circular ring have the same structure, the center of the left circular ring is provided with a circular disc, a plurality of connecting beams are uniformly distributed between the left circular ring and the circular disc, one end of each connecting beam is connected with the left circular ring, the other end of each connecting beam is connected with the circular disc, and the water transmission shaft is connected with the circular disc.
The solar panel is connected with the top of the connecting frame or the electric storage device through the panel rack.
The number of the solar panels is four, one end, close to the transverse connecting pipe, of the solar panels is lower, one end, far away from the transverse connecting pipe, of the solar panels is higher, and one end, close to the electric storage device, of the solar panels is fixed with the top of the electric storage device through a board frame.
Compared with the prior art, the utility model has the beneficial effects that:
1. the utility model relates to an integrated water micro-aeration device utilizing clean energy, which comprises a clean energy device, a buoyancy bracket and an aeration device, wherein the buoyancy bracket is arranged on the clean energy device; the buoyancy support comprises a plurality of floating bodies and a connecting frame, the connecting frame comprises six connecting pipes spliced into a shape of a Chinese character 'tian', the floating bodies are respectively positioned in gaps generated by the six connecting pipes and connected with the connecting pipes, the size of the floating bodies is matched with the gaps, and an electric storage device is arranged in the middle of the connecting frame; the clean energy device comprises a windmill, a waterwheel and a solar panel; the windmill is positioned at the center of the connecting frame, the waterwheel comprises a left waterwheel and a right waterwheel, and the left waterwheel and the right waterwheel are respectively positioned at the left side and the right side of the connecting frame and are fixed with the connecting frame; the solar panel is fixed above the connecting frame; the aeration device comprises a front aeration device and a rear aeration device, wherein the front aeration device and the rear aeration device are respectively positioned in front of and behind the connecting frame and are fixed with the connecting frame; under the condition of illumination, the solar panel converts light energy into electric energy, and then the electric energy is transmitted into the electric storage device for storage; under the condition of wind power, the wind power converts wind energy into mechanical energy, then converts the mechanical energy into electric energy, and then transmits the electric energy into an electric storage device for storage; under the condition of hydraulic power, the waterwheel converts potential energy of water into mechanical energy, converts the mechanical energy into electric energy, and then transmits the electric energy into the electric storage device for storage; the utility model adopts three clean energy sources to generate power, can adapt to various weather conditions, and has good sustainable operation capability. Therefore, the utility model has diversified power generation energy sources and stable buoyancy.
2. In the integrated water micro-aeration device utilizing clean energy, a plurality of aeration pipes are connected below the aeration device, an aeration spray head is connected below each aeration pipe, a plurality of air outlet holes are uniformly distributed on the outer surface of each aeration spray head, a check valve is further arranged on each aeration pipe, the top of the aeration device is connected with an air inlet pipe, the air inlet pipe is provided with the check valve, and when the integrated water micro-aeration device utilizing clean energy is applied, an electric storage device supplies power to the aeration device, high-pressure oxygen is generated in the aeration device, and enters the aeration spray heads after being introduced into the aeration pipes, and then the high-pressure oxygen is scattered in a water body through the air outlet holes so as to achieve the purpose of increasing dissolved oxygen of the water; because of the three aeration spray heads, the covered oxygen supply volume is larger; the high-pressure oxygen is integrally dispersed into a plurality of small aggregates through the air injection holes, so that the contact area of the oxygen and water is increased, and the oxygen dissolving efficiency is increased; the aeration pipe and the air inlet pipe are both provided with check valves to prevent liquid from flowing back into the aeration device. Therefore, the aeration device can efficiently increase the content of dissolved oxygen in the water body.
3. The utility model relates to an integrated water micro-aeration device utilizing clean energy, which comprises a windmill main body and a fan tower, wherein one end of the fan tower is connected with an electric storage device, the other end of the fan tower is connected with a fan main body, and the fan main body comprises fan blades, a transmission shaft and a generator; the fan blades are cylinders with large middle parts and small two ends, the side surfaces of the fan blades are uniformly provided with a plurality of blades, each blade comprises a blade middle part, the blade middle part positioned at the left end is higher than the blade middle part positioned at the right end between the adjacent blades, namely, gaps are reserved between the blades, when the fan blades are used, when wind blows, the surface blades wrapped on the fan blades start to rotate along the circumference of the fan blades, the top of the fan blades drive a transmission shaft to rotate, the transmission shaft is connected with a generator, the generator converts mechanical energy transmitted by the transmission shaft into electric energy, the generator is connected with an electric storage device, and the electric energy is converted into chemical energy for storage after entering the electric storage device; the blades are wrapped on the periphery of the fan blades, so that when wind blows from different directions, the fan blades can be blown, and the wind energy utilization efficiency is high. Therefore, the utility model has high utilization efficiency of wind energy.
4. In the integrated water body micro-aeration device utilizing clean energy, the waterwheel is connected with a left connecting pipe or a right connecting pipe through a waterwheel frame, the waterwheel is provided with a left circular ring, a water retaining piece and a right circular ring, the water retaining piece is positioned between the left circular ring and the right circular ring, two ends of the water retaining piece are vertically connected with the left circular ring and the right circular ring, a circular disc is arranged in the middle of the waterwheel, the circular disc is connected with the left circular ring or the right circular ring through a connecting beam, a transmission shaft is connected with the circular disc, and when the integrated water body micro-aeration device is applied, the integrated water body micro-aeration device floats on the water surface, so that half of the waterwheel is under the water surface, and the other half of the integrated water body micro-aeration device is in the air, when the water flow impacts the water retaining piece, the water retaining piece drives the left circular ring and the right circular ring to rotate so as to drive the circular disc to rotate, torque is transmitted to a transmission shaft, and the transmission shaft converts mechanical energy into electric energy through a generator; meanwhile, as the water surface is stirred when the waterwheel rotates, the contact area between the water surface and air is increased, so that the content of dissolved oxygen in the water body is increased. Therefore, the utility model has high water energy utilization efficiency.
5. In the integrated water micro-aeration device utilizing clean energy, the number of the solar panels is four, the solar panels are fixed with the top of the electric storage device or the connecting frame through the panel frame, and when the integrated water micro-aeration device utilizing clean energy is applied, the solar panels convert light energy into electric energy and then transmit the electric energy to the electric storage device for storage under the condition of solar illumination; the solar panel is designed to be in an axisymmetric shape by taking the transverse connecting pipe as an axisymmetric shape, so that the mass of the device can be evenly distributed, and the efficiency of collecting light energy of the solar panel can be maximized (the optimal installation angle of the solar panel is 40-45 degrees). Therefore, the device has balanced quality and high solar energy utilization efficiency.
Drawings
Fig. 1 is a schematic structural view of the present utility model.
Fig. 2 is a front view of the present utility model.
Fig. 3 is a left side view of the present utility model.
Fig. 4 is a top cross-sectional view of the present utility model.
Fig. 5 is a front cross-sectional view of the present utility model.
Fig. 6 is an enlarged view of the aeration apparatus of fig. 1.
Fig. 7 is an enlarged view of the aeration jet head of fig. 6.
Fig. 8 is an enlarged view of the windmill in fig. 1.
Fig. 9 is an enlarged view of the waterwheel of fig. 1.
Fig. 10 is a right side view of the solar panel of fig. 1.
In the figure: the clean energy source device 1, the buoyancy support 2, the aeration device 3, the front aeration device 31, the rear aeration device 32, the aeration holes 33, the aeration pipe 34, the aeration spray head 35, the air outlet holes 36, the air inlet holes 37, the air inlet pipe 38, the check valve 39, the floating body 4, the front left floating body 41, the front right floating body 42, the rear left floating body 43, the rear right floating body 44, the connecting frame 5, the transverse connecting pipe 51, the vertical connecting pipe 52, the left connecting pipe 53, the right connecting pipe 54, the front connecting pipe 55, the rear connecting pipe 56, the electric storage device 6, the windmill 7, the fan main body 71, the fan tower 72, the fan blade 73, the transmission shaft 74, the blade 75, the blade top 751, the blade tail 752, the blade middle 753, the generator 76, the waterwheel 8, the waterwheel 81, the right waterwheel 82, the waterwheel main body 83, the waterwheel tower 84, the water transmission shaft 85, the waterwheel 86, the left circular ring 861, the water blocking piece 862, the right circular ring 863, the wafer 864, the connecting beam 865, the solar panel 9, and the panel bridge 91.
Detailed Description
The utility model is described in further detail below with reference to the accompanying drawings and detailed description.
Referring to fig. 1-10, an integrated water micro-aeration device utilizing clean energy includes a clean energy device 1, a buoyancy bracket 2 and an aeration device 3;
the buoyancy bracket 2 comprises a plurality of floating bodies 4 and a connecting frame 5, wherein the connecting frame 5 comprises a transverse connecting pipe 51 and a vertical connecting pipe 52, the middle part of the transverse connecting pipe 51 is vertically connected with the middle part of the vertical connecting pipe 52 at the center of the connecting frame 5, one end of the transverse connecting pipe 51 is connected with the middle part of a left connecting pipe 53, one end of the transverse connecting pipe 51 far away from the left connecting pipe 53 is connected with the middle part of a right connecting pipe 54, one end of the vertical connecting pipe 52 is connected with the middle part of a front connecting pipe 55, one end of the vertical connecting pipe 52 far away from the front connecting pipe 55 is connected with the middle part of a rear connecting pipe 56, one end of the front connecting pipe 55 is connected with one end of the left connecting pipe 53, the other end of the front connecting pipe 55 is connected with the other end of the right connecting pipe 54, one end of the rear connecting pipe 56 is connected with one end of the left connecting pipe 53, and the other end of the rear connecting pipe 56 is connected with the other end of the right connecting pipe 54; the plurality of floating bodies 4 comprise a front left floating body 41, a front right floating body 42, a rear left floating body 43 and a rear right floating body 44, wherein the front left floating body 41, the front right floating body 42, the rear left floating body 43 and the rear right floating body 44 are symmetrically distributed along the center of the connecting frame 5, one end of the front left floating body 41 is connected with a front connecting pipe 55, the other end of the front left floating body 41 is connected with a transverse connecting pipe 51, one end of the front right floating body 42 is connected with the front connecting pipe 55, the other end of the front right floating body 42 is connected with the transverse connecting pipe 51, one end of the rear left floating body 43 is connected with a rear connecting pipe 56, the other end of the rear left floating body 43 is connected with the transverse connecting pipe 51, and one end of the rear right floating body 44 is connected with the rear connecting pipe 56; an electric storage device 6 is also arranged at the central part of the connecting frame 5;
the clean energy device 1 comprises a windmill 7, a waterwheel 8 and a solar panel 9; the windmill 7 is positioned at the central part of the connecting frame 5, the waterwheel 8 comprises a left waterwheel 81 and a right waterwheel 82, the left waterwheel 81 is connected with the left connecting pipe 53, and the right waterwheel 82 is connected with the right connecting pipe 54; the solar panel 9 is fixed above the front left floating body 41, the front right floating body 42, the rear left floating body 43 and the rear right floating body 44;
the aeration device 3 comprises a front aeration device 31 and a rear aeration device 32, the front aeration device 31 is connected with a front connecting pipe 55, and the rear aeration device 32 is connected with a rear connecting pipe 56.
The structure of the front aeration device 31 and the rear aeration device 32 are in mirror symmetry along a transverse connecting pipe 51, an aeration hole 33 is arranged at a position below the front aeration device 31, the aeration hole 33 is a through hole, one end of the aeration hole 33 is communicated with one end of an aeration pipe 34, and the other end of the aeration pipe 34 is communicated with the top of an aeration spray head 35;
the aeration spray head 35 is internally provided with a cavity, a plurality of air outlet holes 36 are uniformly distributed on the outer surface of the aeration spray head 35, and the air outlet holes 36 are all through holes.
The number of the aeration holes 33 is three, the aeration holes 33 are respectively positioned on the left side, the lower side and the right side of the front aeration device 31, the three aeration holes 33 are all connected with aeration pipes 34, and the lower sides of the aeration pipes 34 are all connected with aeration spray heads 35.
An air inlet hole 37 is arranged above the front aeration device 31, the air inlet hole 37 is a through hole, and the air inlet hole 37 is connected with one end of an air inlet pipe 38.
The windmill 7 comprises a fan main body 71 and a fan tower 72; the lower end of the fan tower 72 is connected to the power storage device 6, and the upper end of the fan tower 72 is connected to the fan main body 71.
The fan main body 71 comprises fan blades 73 and a transmission shaft 74, the fan blades 73 are spindle-shaped, the top surface and the bottom surface of the fan blades 73 are both in a plane structure, and a plurality of blades 75 are distributed on the side surfaces of the fan blades 73; the top of the fan blade 73 is connected with one end of a transmission shaft 74, and the other end of the transmission shaft 74 is connected with a generator 76;
the blade 75 is circular arc, the blade 75 comprises a blade top 751, a blade tail 752 and a blade middle 753, the side walls of the adjacent blade tails 752 are connected, the blade top 751 is located below or above the adjacent blade top 751, the left end to the right end of the blade middle 753 presents an angle increasing trend relative to the center of the blade 73, the blade 75 is located at the left end, and the middle of the blade 75 is located at the right end, between the adjacent blades 75.
The structures of the left waterwheel 81 and the right waterwheel 82 are mirror symmetry along the vertical connecting pipe 52; the left waterwheel 81 comprises a waterwheel main body 83 and a waterwheel tower 84; one end of the waterwheel tower 84 is connected with the waterwheel main body 83, and the other end of the waterwheel tower 84 is connected with the left connecting pipe 53 or the right connecting pipe 54.
The left waterwheel 81 comprises a water transmission shaft 85 and a waterwheel 86;
the water wheel 86 includes a left ring 861, a water blocking piece 862 and a right ring 863, wherein the center lines of the left ring 861 and the right ring 863 are on a straight line, the water blocking piece 862 is uniformly distributed between the left ring 861 and the right ring 863, one end of the water blocking piece 862 is vertically connected with the left ring 861, and the other end of the water blocking piece 862 is vertically connected with the right ring 863; the left circular ring 861 and the right circular ring 863 have the same structure, a circular disc 864 is arranged at the center of the left circular ring 861, a plurality of connecting beams 865 are uniformly distributed between the left circular ring 861 and the circular disc 864, one end of each connecting beam 865 is connected with the left circular ring 861, the other end of each connecting beam is connected with the circular disc 864, and the water transmission shaft 85 is connected with the circular disc 864.
The solar panel 9 is connected to the top of the connection frame 5 or the power storage device 6 via the panel bridge 91.
The number of the solar panels 9 is four, one end, close to the transverse connecting pipe 51, of the solar panels 9 is lower, one end, far away from the transverse connecting pipe 51, of the solar panels 9 is higher, and one end, close to the power storage device 6, of the solar panels 9 is fixed to the top of the power storage device 6 through the panel bridge 91.
The supplementary explanation of the present utility model is as follows:
in recent years, river and lake water pollution has become increasingly serious with the increase in human activities and the massive discharge of pollutants. Wherein, nitrogen, phosphorus, organic matters and the like are used as common pollutants in the water body to cause eutrophication and black and odorous damage the normal structure and function of the water ecological system. The algae bloom spoilage process and organic matter degradation consume a large amount of dissolved oxygen in the water body to make the water body present anaerobic state. This anaerobic condition further exacerbates the release of nutrients accumulated in the sediment, thereby creating a water eutrophication-black odor-anaerobic malignancy cycle. Therefore, it is important that dissolved oxygen in water be maintained at normal levels as an important factor in the growth of aquatic organisms and the balanced development of the ecosystem.
The utility model provides an oxygenation aeration device combining three clean energy sources of waterpower, wind power and photovoltaics to generate electricity, which can be ensured to run in all weather in different seasons and different weather when being used for self-cleaning of black and odorous water bodies. That is, the windmill 7 generates electricity by using wind power when the wind power exists, the waterwheel 8 generates electricity by using water power when the water flows, the solar panel 9 generates electricity by using solar energy when the solar light exists, and the electric energy is stored in the electric storage device 6 for the aeration device 3 to use; high-pressure gas is generated in the aeration device 3, reaches the aeration nozzle 35 through the aeration pipe 34, and moves into the water body from the aeration nozzle 35 through the air outlet holes 6, so that the dissolved oxygen in the water body is maintained at a normal level.
Example 1:
referring to fig. 1-10, an integrated water micro-aeration device utilizing clean energy includes a clean energy device 1, a buoyancy bracket 2 and an aeration device 3; the buoyancy bracket 2 comprises a plurality of floating bodies 4 and a connecting frame 5, wherein the connecting frame 5 comprises a transverse connecting pipe 51 and a vertical connecting pipe 52, the middle part of the transverse connecting pipe 51 is vertically connected with the middle part of the vertical connecting pipe 52 at the center of the connecting frame 5, one end of the transverse connecting pipe 51 is connected with the middle part of a left connecting pipe 53, one end of the transverse connecting pipe 51 far away from the left connecting pipe 53 is connected with the middle part of a right connecting pipe 54, one end of the vertical connecting pipe 52 is connected with the middle part of a front connecting pipe 55, one end of the vertical connecting pipe 52 far away from the front connecting pipe 55 is connected with the middle part of a rear connecting pipe 56, one end of the front connecting pipe 55 is connected with one end of the left connecting pipe 53, the other end of the front connecting pipe 55 is connected with the other end of the right connecting pipe 54, one end of the rear connecting pipe 56 is connected with one end of the left connecting pipe 53, and the other end of the rear connecting pipe 56 is connected with the other end of the right connecting pipe 54; the plurality of floating bodies 4 comprise a front left floating body 41, a front right floating body 42, a rear left floating body 43 and a rear right floating body 44, wherein the front left floating body 41, the front right floating body 42, the rear left floating body 43 and the rear right floating body 44 are symmetrically distributed along the center of the connecting frame 5, one end of the front left floating body 41 is connected with a front connecting pipe 55, the other end of the front left floating body 41 is connected with a transverse connecting pipe 51, one end of the front right floating body 42 is connected with the front connecting pipe 55, the other end of the front right floating body 42 is connected with the transverse connecting pipe 51, one end of the rear left floating body 43 is connected with a rear connecting pipe 56, the other end of the rear left floating body 43 is connected with the transverse connecting pipe 51, and one end of the rear right floating body 44 is connected with the rear connecting pipe 56; an electric storage device 6 is also arranged at the central part of the connecting frame 5; the clean energy device 1 comprises a windmill 7, a waterwheel 8 and a solar panel 9; the windmill 7 is positioned at the central part of the connecting frame 5, the waterwheel 8 comprises a left waterwheel 81 and a right waterwheel 82, the left waterwheel 81 is connected with the left connecting pipe 53, and the right waterwheel 82 is connected with the right connecting pipe 54; the solar panel 9 is fixed above the front left floating body 41, the front right floating body 42, the rear left floating body 43 and the rear right floating body 44; the aeration device 3 comprises a front aeration device 31 and a rear aeration device 32, the front aeration device 31 is connected with a front connecting pipe 55, and the rear aeration device 32 is connected with a rear connecting pipe 56.
When the device is applied, the device is firstly placed on the surface of a water area needing aeration, and then object fixing devices such as ropes are used, and the device can generate larger and uniform buoyancy because the device comprises a front left floating body 41, a front right floating body 42, a rear left floating body 43 and a rear right floating body 44 which are symmetrically distributed and are internally provided with cavities, so that the device can float on the water surface and cannot sink; the device also comprises a windmill 7, a waterwheel 8 and a solar panel 9, wherein the windmill 7 is positioned in the middle of the connecting frame 5, the waterwheel is positioned at two sides of the connecting frame 5, and the solar panel 9 is positioned above the connecting frame 5, so that the clean energy device 1 is symmetrically distributed on the connecting frame 5, the structure and the mass of the device are stable, and the device is beneficial to floating on the water surface; under the condition of wind power, the windmill 7 can utilize wind power to generate electricity, under the condition of water conservancy, the waterwheel 8 can utilize hydroelectric power to generate electricity, and under the condition of solar illumination, the solar panel 9 can utilize solar energy to generate electricity, so that the device can supply power for the aeration device under various different weather conditions.
Example 2:
the basic content is the same as in example 1, except that:
referring to fig. 1-7, the structures of the front aeration device 31 and the rear aeration device 32 are mirror-symmetrical along the transverse connection pipe 51, an aeration hole 33 is arranged at a position below the front aeration device 31, the aeration hole 33 is a through hole, one end of the aeration hole 33 is communicated with one end of an aeration pipe 34, and the other end of the aeration pipe 34 is communicated with the top of an aeration nozzle 35; the aeration spray head 35 is internally provided with a cavity, a plurality of air outlet holes 36 are uniformly distributed on the outer surface of the aeration spray head 35, and the air outlet holes 36 are all through holes. The number of the aeration holes 33 is three, the aeration holes 33 are respectively positioned on the left side, the lower side and the right side of the front aeration device 31, the three aeration holes 33 are all connected with aeration pipes 34, and the lower sides of the aeration pipes 34 are all connected with aeration spray heads 35. An air inlet hole 37 is arranged above the front aeration device 31, the air inlet hole 37 is a through hole, and the air inlet hole 37 is connected with one end of an air inlet pipe 38.
When the device is applied, the electric energy generated by the clean energy device 1 is stored in the electric storage device 6, then the electric storage device 6 supplies power for the aeration device 3, the electric pump in the aeration device 3 generates high-pressure oxygen, the high-pressure oxygen is introduced into the aeration pipe 33, the high-pressure oxygen flows downwards along the aeration pipe 34 to reach the aeration spray head 35, then the high-pressure oxygen passes through the air outlet hole 36 to reach the water body, and the oxygen is dissolved in the water body to increase the content of dissolved oxygen in the water body; because the air outlet holes 36 are small holes with smaller diameters, the high-pressure oxygen is dispersed into small oxygen clusters, so that the contact area with the water body is increased, and the oxygen dissolving efficiency is improved.
Example 3:
the basic content is the same as in example 1, except that:
referring to fig. 1-10, the windmill 7 includes a fan main body 71 and a fan tower 72; the lower end of the fan tower 72 is connected to the power storage device 6, and the upper end of the fan tower 72 is connected to the fan main body 71. The fan main body 71 comprises fan blades 73 and a transmission shaft 74, the fan blades 73 are spindle-shaped, the top surface and the bottom surface of the fan blades 73 are both in a plane structure, and a plurality of blades 75 are distributed on the side surfaces of the fan blades 73; the top of the fan blade 73 is connected with one end of a transmission shaft 74, and the other end of the transmission shaft 74 is connected with a generator 76; the blade 75 is circular arc, the blade 75 comprises a blade top 751, a blade tail 752 and a blade middle 753, the side walls of the adjacent blade tails 752 are connected, the blade top 751 is located below or above the adjacent blade top 751, the left end to the right end of the blade middle 753 presents an angle increasing trend relative to the center of the blade 73, the blade 75 is located at the left end, and the middle of the blade 75 is located at the right end, between the adjacent blades 75.
When the wind blows to the windmill 7, the blades 75 are driven by the wind force to rotate by the blades 73, the blades 73 drive the transmission shaft 74 to rotate, the transmission shaft 74 is connected with a generator, the generator converts mechanical energy into electric energy, and then the electric energy is transmitted to the electric storage device 6 for storage; since the blades 75 are wrapped around the outer surfaces of the blades 73, wind blown from different directions can rotate the blades 75.
Example 4:
the basic content is the same as in example 1, except that:
referring to fig. 1-9, the structures of the left water truck 81 and the right water truck 82 are mirror symmetrical along the vertical connecting pipe 52; the left waterwheel 81 comprises a waterwheel main body 83 and a waterwheel tower 84; one end of the waterwheel tower 84 is connected with the waterwheel main body 83, and the other end of the waterwheel tower 84 is connected with the left connecting pipe 53 or the right connecting pipe 54. The left waterwheel 81 comprises a water transmission shaft 85 and a waterwheel 86; the water wheel 86 includes a left ring 861, a water blocking piece 862 and a right ring 863, wherein the center lines of the left ring 861 and the right ring 863 are on a straight line, the water blocking piece 862 is uniformly distributed between the left ring 861 and the right ring 863, one end of the water blocking piece 862 is vertically connected with the left ring 861, and the other end of the water blocking piece 862 is vertically connected with the right ring 863; the left circular ring 861 and the right circular ring 863 have the same structure, a circular disc 864 is arranged at the center of the left circular ring 861, a plurality of connecting beams 865 are uniformly distributed between the left circular ring 861 and the circular disc 864, one end of each connecting beam 865 is connected with the left circular ring 861, the other end of each connecting beam is connected with the circular disc 864, and the water transmission shaft 85 is connected with the circular disc 864.
When the device is applied, the device is positioned on the water surface, one half of the waterwheel main body 83 is positioned on the water surface, the other half of the waterwheel main body is positioned under the water surface, when water flow impacts the water blocking sheet 862, the water blocking sheet 862 drives the left circular ring 861 and the right circular ring 863 to rotate simultaneously, the circular sheets 864 in the middle of the left circular ring 861 and the right circular ring 863 also rotate simultaneously, the circular sheets 864 transmit rotation to the water transmission shaft 85, the water transmission shaft 85 is connected with a generator, the generator converts mechanical energy into electric energy, and the electric energy is transmitted to the electric storage device 6 for storage; because the water wheel 86 is positioned on the water surface and is positioned under the water surface, the water wheel 86 can stir the water surface when rotating, thereby increasing the contact area between the water surface and the air, and further increasing the content of the dissolved oxygen in the water body.
Example 5:
the basic content is the same as in example 1, except that:
referring to fig. 1 to 10, the solar panel 9 is connected to the top of the connection frame 5 or the power storage device 6 via a panel bridge 91. The number of the solar panels 9 is four, one end, close to the transverse connecting pipe 51, of the solar panels 9 is lower, one end, far away from the transverse connecting pipe 51, of the solar panels 9 is higher, and one end, close to the power storage device 6, of the solar panels 9 is fixed to the top of the power storage device 6 through the panel bridge 91.
When the solar energy storage device is applied, under the condition of sunlight, the solar panel 9 converts light energy into electric energy and transmits the electric energy to the electric storage device 6 for storage; the solar panels 9 are symmetrically distributed by taking the transverse connecting pipe 51 as a center, one end of the solar panels 9 close to the transverse connecting pipe 51 is lower, and one end far away from the transverse connecting pipe 51 is higher, so that an inclination angle exists between the solar panels 9 and the horizontal line of the device, and when the inclination angle exists in the solar panels, the light energy absorption efficiency is higher; the solar panel 9 is fixed by the panel bridge 91, so the firmness of the solar panel 9 is good.
The above description is merely of preferred embodiments of the present utility model, and the scope of the present utility model is not limited to the above embodiments, but all equivalent modifications or variations according to the present disclosure will be within the scope of the claims.
Claims (10)
1. An integrated water micro-aeration device utilizing clean energy, which is characterized in that: the device comprises a clean energy device (1), a buoyancy bracket (2) and an aeration device (3);
the buoyancy support (2) comprises a plurality of floating bodies (4) and a connecting frame (5), wherein the connecting frame (5) comprises a transverse connecting pipe (51) and a vertical connecting pipe (52), the middle part of the transverse connecting pipe (51) is vertically connected with the middle part of the vertical connecting pipe (52) on the central part of the connecting frame (5), one end of the transverse connecting pipe (51) is connected with the middle part of a left connecting pipe (53), one end of the transverse connecting pipe (51) far away from the left connecting pipe (53) is connected with the middle part of a right connecting pipe (54), one end of the vertical connecting pipe (52) is connected with the middle part of a front connecting pipe (55), one end of the vertical connecting pipe (52) far away from the front connecting pipe (55) is connected with one end of the left connecting pipe (53), the other end of the front connecting pipe (55) is connected with the other end of the right connecting pipe (54), one end of the rear connecting pipe (56) is connected with one end of the left connecting pipe (53), and the other end of the rear connecting pipe (56) is connected with the other end of the right connecting pipe (54). The plurality of floating bodies (4) comprise a front left floating body (41), a front right floating body (42), a rear left floating body (43) and a rear right floating body (44), wherein the front left floating body (41), the front right floating body (42), the rear left floating body (43) and the rear right floating body (44) are distributed symmetrically along the center of the connecting frame (5), one end of the front left floating body (41) is connected with a front connecting pipe (55), the other end of the front left floating body (41) is connected with a transverse connecting pipe (51), one end of the front right floating body (42) is connected with the front connecting pipe (55), the other end of the front right floating body (42) is connected with the transverse connecting pipe (51), one end of the rear left floating body (43) is connected with a transverse connecting pipe (51), one end of the rear right floating body (44) is connected with the rear connecting pipe (56), and the other end of the rear right floating body (44) is connected with the transverse connecting pipe (51); an electric storage device (6) is also arranged at the central part of the connecting frame (5);
the clean energy device (1) comprises a windmill (7), a waterwheel (8) and a solar panel (9); the windmill (7) is positioned at the center of the connecting frame (5), the waterwheel (8) comprises a left waterwheel (81) and a right waterwheel (82), the left waterwheel (81) is connected with the left connecting pipe (53), and the right waterwheel (82) is connected with the right connecting pipe (54); the solar panel (9) is fixed above the front left floating body (41), the front right floating body (42), the rear left floating body (43) and the rear right floating body (44);
the aeration device (3) comprises a front aeration device (31) and a rear aeration device (32), wherein the front aeration device (31) is connected with a front connecting pipe (55), and the rear aeration device (32) is connected with a rear connecting pipe (56).
2. An integrated water micro-aeration device utilizing clean energy according to claim 1, wherein: the structure of the front aeration device (31) and the structure of the rear aeration device (32) are in mirror symmetry along a transverse connecting pipe (51), an aeration hole (33) is formed in a position, which is below the front aeration device (31), the aeration hole (33) is a through hole, one end of the aeration hole (33) is communicated with one end of an aeration pipe (34), and the other end of the aeration pipe (34) is communicated with the top of an aeration spray head (35);
the aeration spray head (35) is internally provided with a cavity, a plurality of air outlet holes (36) are uniformly distributed on the outer surface of the aeration spray head (35), and the air outlet holes (36) are all through holes.
3. An integrated water micro-aeration device utilizing clean energy according to claim 2, wherein: the number of the aeration holes (33) is three, the aeration holes (33) are respectively positioned on the left side, the lower side and the right side of the front aeration device (31), the three aeration holes (33) are connected with aeration pipes (34), and the lower sides of the aeration pipes (34) are connected with aeration spray heads (35).
4. An integrated water micro-aeration device utilizing clean energy according to claim 3, wherein: an air inlet hole (37) is formed in the upper portion of the front aeration device (31), the air inlet hole (37) is a through hole, and the air inlet hole (37) is connected with one end of an air inlet pipe (38).
5. An integrated water micro-aeration device utilizing clean energy according to claim 1, wherein: the windmill (7) comprises a fan main body (71) and a fan tower (72); the lower end of the fan tower (72) is connected with the power storage device (6), and the upper end of the fan tower (72) is connected with the fan main body (71).
6. An integrated water micro-aeration device utilizing clean energy according to claim 5, wherein: the fan main body (71) comprises fan blades (73) and a transmission shaft (74), the fan blades (73) are in a spindle shape, the top surface and the bottom surface of the fan blades (73) are both in a plane structure, and a plurality of blades (75) are distributed on the side surfaces of the fan blades (73); the top of the fan blade (73) is connected with one end of a transmission shaft (74), and the other end of the transmission shaft (74) is connected with a generator (76);
the blade (75) is arc, blade (75) include blade roof (751), blade tail (752) and blade middle part (753), and the lateral wall of adjacent blade tail (752) is connected, blade roof (751) are located below or above adjacent blade roof (751), the left end of blade middle part (753) presents the angle increase trend to the right-hand member for flabellum (73) center, between adjacent blade (75), blade (75) middle part that is located the left end is higher than blade (75) middle part that is located the right-hand member.
7. An integrated water micro-aeration device utilizing clean energy according to claim 1, wherein: the structures of the left waterwheel (81) and the right waterwheel (82) are mirror symmetry along the vertical connecting pipe (52); the left waterwheel (81) comprises a waterwheel main body (83) and a waterwheel tower (84); one end of the waterwheel tower (84) is connected with the waterwheel main body (83), and the other end of the waterwheel tower (84) is connected with the left connecting pipe (53) or the right connecting pipe (54).
8. An integrated water micro-aeration device utilizing clean energy according to claim 7, wherein: the left water truck (81) comprises a water transmission shaft (85) and a water truck wheel (86);
the water wheel (86) comprises a left circular ring (861), water blocking sheets (862) and a right circular ring (863), wherein the central lines of the left circular ring (861) and the right circular ring (863) are on the same straight line, the water blocking sheets (862) are uniformly distributed between the left circular ring (861) and the right circular ring (863), one end of each water blocking sheet (862) is vertically connected with the left circular ring (861), and the other end of each water blocking sheet (862) is vertically connected with the right circular ring (863); the left circular ring (861) and the right circular ring (863) are identical in structure, a circular disc (864) is arranged at the center of the left circular ring (861), a plurality of connecting beams (865) are uniformly distributed between the left circular ring (861) and the circular disc (864), one end of each connecting beam (865) is connected with the left circular ring (861), the other end of each connecting beam is connected with the circular disc (864), and the water transmission shaft (85) is connected with the circular disc (864).
9. An integrated water micro-aeration device utilizing clean energy according to claim 1, wherein: the solar panel (9) is connected with the top of the connecting frame (5) or the power storage device (6) through the panel frame (91).
10. An integrated water micro-aeration device utilizing clean energy according to claim 9, wherein: the number of the solar panels (9) is four, one end, close to the transverse connecting pipe (51), of each solar panel (9) is lower, one end, far away from the transverse connecting pipe (51), of each solar panel (9) is higher, and one end, close to the power storage device (6), of each solar panel (9) is fixed with the top of the power storage device (6) through a panel frame (91).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322329692.1U CN220684872U (en) | 2023-08-29 | 2023-08-29 | Integrated water micro-aeration device utilizing clean energy |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322329692.1U CN220684872U (en) | 2023-08-29 | 2023-08-29 | Integrated water micro-aeration device utilizing clean energy |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220684872U true CN220684872U (en) | 2024-03-29 |
Family
ID=90376933
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322329692.1U Active CN220684872U (en) | 2023-08-29 | 2023-08-29 | Integrated water micro-aeration device utilizing clean energy |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220684872U (en) |
-
2023
- 2023-08-29 CN CN202322329692.1U patent/CN220684872U/en active Active
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN201386046Y (en) | Aeration device with wind energy and solar energy as power to increase oxygen for water body | |
| KR101469426B1 (en) | A Floating Type Water Purification Facility | |
| CN101676226A (en) | Three-dimensional waterbody circular oxygenation purification plant and method | |
| CN204508949U (en) | A kind of ecological riverway vertical lift type aerating apparatus | |
| CN107129005B (en) | Internal light source ball string type photocatalytic water quality purification box | |
| CN102874940B (en) | Wind-force directly-driven circulating aeration equipment | |
| CN104628145B (en) | A kind of multifunctional in-situ aeration water body cleaning equipment and construction method thereof | |
| KR20180095973A (en) | high performance water circulation apparatus using solar | |
| CN209835742U (en) | Self-purifying device for wide water surface | |
| CN107973412A (en) | A kind of water pump-ecological floating island integrated water treatment system | |
| CN201809220U (en) | Flow-forming aeration machine | |
| CN220684872U (en) | Integrated water micro-aeration device utilizing clean energy | |
| CN201264941Y (en) | Three-dimensional water circulation oxygenation purification apparatus | |
| CN201582042U (en) | Water flow impeller generation unit | |
| CN210041695U (en) | Bamboo raft type power generation device | |
| CN207998494U (en) | A kind of micro-nano aerator of solar energy self-control pure oxygen | |
| CN207891136U (en) | A kind of micro-nano oxygenation running water machine of laminar flow switch type | |
| KR20200099286A (en) | Water Purifying Apparatus Having New And Renewable Energy Generation Function | |
| CN111809581B (en) | Protruding type baffle waterwheel energizer with gradually dense hole | |
| CN114992053A (en) | Marine hydrogen plant | |
| CN210714916U (en) | Circulating water power station | |
| CN112479357A (en) | All-weather monitoring type wind energy aeration device for lake treatment | |
| CN113087132A (en) | Efficient aeration device for micro-nano bubbles in water in riverway and use method thereof | |
| CN114873716B (en) | Wind-solar coupling new energy river water purification system | |
| CN102086065A (en) | Water body wind energy reoxygenation device and water body reoxygenation method thereof |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant |