CN115974290B - Comprehensive repair platform for stagnant water body - Google Patents

Abstract

The invention provides a comprehensive repair platform for stagnant water, which belongs to the technical field of environmental protection equipment and comprises a platform, wherein a main solar panel, a functional fluorine material oxygenation system, an indigenous bacteria in-situ enrichment culture slow-release system, an adjusting mechanism and a flow pushing pump controlled by the adjusting mechanism are arranged on the platform. The comprehensive repair platform for stagnant water bodies can integrate a functional fluorine material oxygenation system, an indigenous bacteria in-situ enrichment culture slow-release system and energy power equipment on the platform, realizes water pollutant removal through the synergistic effect of enhanced oxygenation and indigenous bacteria biological functions, and simultaneously realizes full disturbance of the water bodies and controllable disturbance and surface update of bottom mud by means of the adjustment of the direction and angle of a push flow pump by a platform moving and adjusting mechanism, thereby improving the temperature, illumination layering state and nutrient substance area distribution of the water bodies, destroying the growth environment of blue-green algae, controlling the dynamic balance of the release and removal rate of the bottom mud pollutants, and realizing the purposes of omni-directional and multi-medium repair of the water bodies.

Description

Comprehensive repair platform for stagnant water body

Technical Field

The invention belongs to the technical field of environmental protection equipment, and particularly relates to a comprehensive repair platform for stagnant water bodies.

Background

At present, large-area stagnant water exists in China, the water is in a closed and non-flowing state, the water is easy to become anoxic, various organisms in the water are inactivated, and finally the water quality is deteriorated and even becomes black and odorous water. If in summer with proper temperature and sufficient illumination, the stagnant water body can easily generate and burst eutrophication phenomena of blue algae or green algae, and a large number of fishes and aquatic animals die, even the water body is blackened and smelly, so that the ecological balance of the water body is thoroughly destroyed.

When purifying above-mentioned stagnant water, will generally install aeration and artifical charge (fungus) equipment on the platform, utilize the power of platform to advance on the surface of water to adopt aeration and artifical charge (fungus) equipment to purify the water, this kind of mode of combination can exist extravagant manpower and can not normalize the operation, and the purpose that the omnidirectional three-dimensional purification of difficult accomplish, in addition, also can lead to whole system relatively huge, improvement manufacturing cost.

Disclosure of Invention

The invention aims to provide a comprehensive repair platform for stagnant water, which not only can comprehensively repair water, but also has simpler self-structure and lower cost, and can realize zero-carbon and zero-cost operation.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a diapause water body comprehensive restoration platform, which comprises a platform, be provided with main solar panel, function fluorine material oxygenation system and native fungus normal position enrichment culture slow-release system on the platform, still be provided with adjustment mechanism on the platform, adjustment mechanism's lower extreme extends to in the aquatic and installs the plug flow pump, function fluorine material oxygenation system and native fungus normal position enrichment culture slow-release system intercommunication the overflow chamber of plug flow pump is in order to provide oxygen micro-nano bubble and enrichment culture back native fungus body through the plug flow pump to the water body, main solar panel is used for providing the electric energy to the plug flow pump;

the adjusting mechanism comprises a supporting frame arranged on one side of the platform, a fixing frame is rotatably arranged on the supporting frame, the upper end of the fixing frame extends to the upper side of the platform and is provided with a steering piece, the flow pushing pump is rotatably arranged at the lower end of the fixing frame, the steering piece passes through the fixing frame to adjust the transverse angle of the flow pushing pump, a lifting pull rod is arranged on the fixing frame in a penetrating mode, and the lower end of the pull rod is rotatably connected with the flow pushing pump to adjust the longitudinal angle of the flow pushing pump.

In one possible implementation, the functional fluorine material oxygenation system comprises an air pump, an oxygen cylinder, and a functional fluorine material micro-nano bubble generating tube, wherein the air pump or the oxygen cylinder can provide air or oxygen sources, and the functional fluorine material micro-nano bubble generating tube can generate air or oxygen bubbles with the diameter ranging from 0.1 to 20 micrometers.

In one possible implementation manner, the indigenous bacteria in-situ enrichment culture slow-release system comprises an indigenous bacteria in-situ enrichment culture tank, an indigenous bacteria slow-release tank, an oxygenation pipe, a nutrient solution input pipe and a moisture control adjusting valve, wherein the indigenous bacteria in-situ enrichment culture tank is positioned in the indigenous bacteria slow-release tank, the indigenous bacteria in-situ enrichment culture tank is provided with a liquid inlet end and a liquid outlet end, the oxygenation pipe extends into the indigenous bacteria slow-release tank from outside to inside and is positioned at the bottom of the indigenous bacteria in-situ enrichment culture tank, the nutrient solution input pipe penetrates into the indigenous bacteria slow-release tank from outside to inside and extends into the indigenous bacteria in-situ enrichment culture tank, the indigenous bacteria in-situ enrichment culture tank is filled with biological filler, and the moisture control adjusting valve controls the overflow speed of the indigenous bacteria in-situ enrichment culture tank to adjust the speed of bacteria.

In one possible implementation manner, the supporting frame comprises a rotating disc horizontally arranged, a plurality of arc-shaped slides concentrically arranged are arranged on the rotating disc, a plurality of positioning pieces are arranged at the upper end of the supporting frame, and the positioning pieces are in one-to-one correspondence to penetrate through the arc-shaped slides.

In a possible implementation manner, the support frame further comprises a fixing frame fixedly arranged on the upper end face of the rotating disc and two connecting pipes penetrating through the rotating disc, the steering piece is installed at the upper end of the fixing frame, the lower ends of the two connecting pipes are respectively and rotatably connected to two sides of the middle of the impeller pump, the pull rod vertically penetrates through the rotating disc, the lower end of the pull rod is connected with a U-shaped frame, and the two free ends of the U-shaped frame are respectively and rotatably connected to two sides of the impeller pump and far away from one end of an opening of the impeller pump.

In one possible implementation manner, the two connecting pipes comprise an airflow pipe and a thallus flow guide pipe, wherein a hollow runner is formed in the airflow pipe, the airflow pipe is communicated with the functional fluorine material oxygenation system through a pipeline, the thallus flow guide pipe is communicated with the indigenous bacteria in-situ enrichment culture slow-release system through a pipeline, and the lower end of the airflow pipe and the lower end of the thallus flow guide pipe are both communicated with an overflow cavity of the thrust pump.

In one possible implementation manner, the upper end surface of the rotating disc is vertically provided with a sleeve, the side wall of the sleeve is provided with a plurality of positioning holes from top to bottom, the pull rod penetrates through the sleeve and is in sliding fit with the sleeve, the outer wall of the pull rod is detachably provided with a positioning pin, and the positioning pin penetrates through any positioning hole to position the pull rod at different heights.

In one possible implementation manner, the upper portion of the pull rod is provided with an angle indication rod, the fixing frame is provided with an angle dial, an angle scale is marked on the angle dial in an arc shape, the front end of the angle indication rod is provided with an indication end, the front side of the angle indication rod is hinged to the angle dial, the hinge point is located at the circle center of the angle scale, the rear side of the angle indication rod is provided with a strip-shaped groove along the length direction of the angle indication rod, and the side wall of the upper portion of the pull rod is provided with a protruding piece, and the protruding piece penetrates through the strip-shaped groove and can slide along the strip-shaped groove.

In a possible implementation manner, the platform comprises a main platform and a plurality of auxiliary platforms arranged on the circumference of the main platform, the functional fluorine material oxygenation system is arranged on the upper end face of the main platform, the indigenous bacteria in-situ enrichment culture slow-release system is arranged in the middle of the upper end face of the main platform, the regulating mechanism is arranged on one side of the main platform, a plurality of main solar panels are correspondingly arranged on the auxiliary platforms one by one, and the light receiving face at the upper end of the main solar panels is obliquely arranged from inside to outside.

In one possible implementation, a side of the main platform away from the adjusting mechanism is provided with a secondary solar panel, and a lighting device is mounted on the top of the functional fluorine material oxygenation system, and the secondary solar panel is used for providing electric energy to the lighting device.

In one possible implementation, the main platform and the auxiliary platform are both made of plastic material and are internally filled with foam.

In one possible implementation, the integrated repair platform for stagnant water further comprises an anchor for fixing at the bottom of the water, and the platform is rotatably connected with the anchor through a rigid rod with a length capable of being connected.

The comprehensive repair platform for stagnant water bodies has the beneficial effects that: compared with the prior art, the platform floats on water bodies such as rivers and lakes, and the functional fluorine material oxygenation system and the indigenous bacteria in-situ enrichment culture slow-release system are arranged on the platform, oxygen is contained in the functional fluorine material oxygenation system, and thalli are contained in the indigenous bacteria in-situ enrichment culture slow-release system. The platform is provided with a plug flow pump through an adjusting mechanism, the plug flow pump is positioned below the liquid level of the water body, and the functional fluorine material oxygenation system and the indigenous bacteria in-situ enrichment culture slow-release system are respectively connected with the plug flow pump through pipelines so that oxygen and bacteria enter an overflow cavity of the plug flow pump. The main solar panel on the platform absorbs solar energy and converts the solar energy into electric energy so that the plug flow pump starts to work, the impeller in the plug flow pump rotates rapidly, oxygen and thalli in the overcurrent cavity are mixed and continuously discharged into the water body to repair the water body, and meanwhile, the rapidly rotating impeller provides thrust for the water body so as to provide power for the whole platform to travel on the water body. The plug flow pump is arranged on the adjusting mechanism, and hooks are arranged on the air flow pipe and the thallus honeycomb duct and can be adjusted up and down. The push flow pump is located the lower extreme of mount, and the mount can rotate for the support frame of connection in platform one side to adjust the open-ended transverse angle of push flow pump, the pull rod can go up and down for the mount, utilizes lever principle, uses the mount and pushes flow pump's hookup location as the axis of rotation, thereby the pull rod goes up and down and adjusts the open-ended longitudinal angle of push flow pump. The comprehensive repair platform for stagnant water bodies can integrate a functional fluorine material oxygenation system, an indigenous bacteria in-situ enrichment culture slow-release system and energy power equipment on the platform, utilizes a plug flow pump to mix oxygen and thalli to repair the water bodies and provide advancing power for the platform, has high self integration level, and has simpler structure and reduced manufacturing cost. Meanwhile, by means of platform movement and adjustment of the direction and angle of the impeller pump by the adjusting mechanism, the full disturbance of the water body and the controllable disturbance and surface update of the sediment are realized, so that the temperature, the illumination layering state and the nutrient substance area distribution of the water body are improved, the blue-green algae growth environment is destroyed, the dynamic balance of the sediment pollutant release and removal rate is controlled, and the purposes of all-dimensional and multi-medium restoration of the water body are realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a working schematic diagram of a comprehensive repair platform for stagnant water provided by an embodiment of the invention;

FIG. 2 is a top view of a comprehensive repair platform for stagnant water provided by an embodiment of the invention;

FIG. 3 is a schematic diagram of the overall structure of a comprehensive repair platform for stagnant water provided by the embodiment of the invention;

FIG. 4 is a schematic structural diagram of an indigenous bacteria in-situ enrichment culture slow-release system provided by the embodiment of the invention;

fig. 5 is a schematic structural diagram of an adjusting mechanism according to an embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

fig. 7 is a partial enlarged view at B in fig. 5.

Reference numerals illustrate:

1. a main platform; 2. an auxiliary platform; 3. a main solar panel; 4. a sub solar panel; 5. a functional fluorine material oxygenation system; 6. an indigenous bacteria in-situ enrichment culture slow-release system; 6-1, an indigenous bacteria in-situ enrichment culture tank; 6-2, a indigenous bacteria slow-release tank; 6-3, an oxygenation tube; 6-4 parts of nutrient solution input pipes, 6-5 parts of water flow control regulating valves; 7. a lighting device; 8. an adjusting mechanism; 9. a plug flow pump; 10. a support frame; 11. a fixing frame; 12. a steering member; 13. a gas flow tube; 14. a fungus honeycomb duct; 15. a pull rod; 16. a U-shaped frame; 17. a sleeve; 18. positioning holes; 19. a positioning pin; 20. an angle indication rod; 21. an angle scale; 22. a bar-shaped groove; 23. a protruding member; 24. an anchor; 25. a rigid rod; 26. a rotating disc; 27. an arc-shaped slideway; 28. a positioning piece; 29. an electric control system.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 7, a description will now be given of a comprehensive repair platform for stagnant water bodies. The comprehensive repair platform for the stagnant water body comprises a platform, wherein a main solar panel 3, a functional fluorine material oxygenation system 5 and an indigenous bacteria in-situ enrichment culture slow-release system 6 are arranged on the platform, an adjusting mechanism 8 is further arranged on the platform, the lower end of the adjusting mechanism 8 extends into the water body and is provided with a plug flow pump 9, the functional fluorine material oxygenation system 5 and the indigenous bacteria in-situ enrichment culture slow-release system 6 are communicated with an overflow cavity of the plug flow pump 9 to provide oxygen and thalli for the plug flow pump 9, and the main solar panel 3 is used for providing electric energy for the plug flow pump 9; the adjustment mechanism 8 is including installing the support frame 10 in one side of platform, rotates on the support frame 10 and is provided with mount 11, and the upper end of mount 11 extends to the platform top and installs steering member 12, and impeller pump 9 rotates the lower extreme of installing at mount 11, and steering member 12 passes through mount 11 in order to adjust impeller pump 9's transverse angle, runs through on the mount 11 and is provided with liftable pull rod 15, and impeller pump 9 is connected in order to adjust impeller pump 9's longitudinal angle in the lower extreme rotation of pull rod 15.

Compared with the prior art, the comprehensive repair platform for the stagnant water body provided by the invention floats on water bodies such as rivers and lakes, the functional fluorine material oxygenation system 5 and the indigenous bacteria in-situ enrichment culture slow-release system 6 are arranged on the platform, oxygen is contained in the functional fluorine material oxygenation system 5, and bacteria are contained in the indigenous bacteria in-situ enrichment culture slow-release system 6. The platform is provided with a plug flow pump 9 through an adjusting mechanism 8, the plug flow pump 9 is positioned below the liquid level of the water body, and the functional fluorine material oxygenation system 5 and the indigenous bacteria in-situ enrichment culture slow release system 6 are respectively connected with the plug flow pump 9 through pipelines so that oxygen and bacteria enter a flow passage cavity of the plug flow pump 9. The main solar panel 3 on the platform absorbs solar energy and converts the solar energy into electric energy so that the plug flow pump 9 starts to work, the impeller in the plug flow pump 9 rotates rapidly, oxygen and thalli in the overflow cavity are mixed and continuously discharged into the water body to repair the water body, and meanwhile, the rapidly rotating impeller provides thrust for the water body so as to provide power for the whole platform to travel on the water body. Wherein, the impeller pump 9 is installed on adjustment mechanism 8, is located the lower extreme of mount 11, and mount 11 can rotate for the support frame 10 of being connected in platform one side to adjust the transverse angle of impeller pump 9's opening, pull rod 15 can go up and down for mount 11, utilizes lever principle, uses the hookup location of mount 11 and impeller pump 9 as the axis of rotation, thereby the longitudinal angle of the opening of impeller pump 9 is adjusted to pull rod 15 lift. The comprehensive repair platform for stagnant water bodies can integrate the functional fluorine material oxygenation system 5, the indigenous bacteria in-situ enrichment culture slow-release system 6 and energy power equipment on the platform, utilizes the plug flow pump 9 to mix oxygen and thalli to repair the water bodies and provide advancing power for the platform, has high self integration level, and simpler structure and reduces manufacturing cost. Meanwhile, by means of platform movement and adjustment of the direction and angle of the impeller pump 9 by the adjusting mechanism 8, full disturbance of the water body and controllable disturbance and surface update of the sediment are realized, so that the temperature, the illumination layering state and the nutrient substance area distribution of the water body are improved, the blue-green algae growth environment is destroyed, the dynamic balance of the sediment pollutant release and removal rate is controlled, and the purposes of omnibearing and multi-medium restoration of the water body are realized.

Specifically, the platform includes main platform 1 and auxiliary platform 2, and main platform 1 is rectangular platform, and auxiliary platform 2 is six evenly distributed around main platform 1 to be connected with main platform 1 through the support body, can balance the platform, increased the stability of platform. The up end of auxiliary platform 2 is the inclined plane, and the incline direction on this inclined plane is from inside to outside downward sloping, and six main solar panels 3 one-to-one are installed on the inclined plane of auxiliary platform 2 to make the light-receiving face of main solar panel 3 upper end outwards slope setting, with the illumination that is suitable for different time and different intensity.

Wherein, main platform 1 and auxiliary platform 2 all use plastics panel such as PP material to make, and inside packing foam has the back anti-sinking effect of intaking.

The right side of the upper end face of the main platform 1 is provided with an electric control system 29, the functional fluorine material oxygenation system 5 is positioned on the left side of the upper end face of the main platform 1, the functional fluorine material oxygenation system 5 comprises an air pump, an oxygen bottle and a functional fluorine material micro-nano bubble generating tube, the air pump or the oxygen bottle can provide air or oxygen sources, and the functional fluorine material micro-nano bubble generating tube can generate air or oxygen bubbles with the diameter ranging from 0.1 to 20 micrometers.

In addition, an electric control module is correspondingly arranged in the electric control system 29, the functional fluorine material oxygenation system 5 is provided with a booster pump, and the booster pump can provide oxygen and thalli increasing power for the functional fluorine material oxygenation system 5 and the indigenous bacteria in-situ enrichment culture slow release system 6 to the plug flow pump 9. The main solar panel 3 converts solar energy into electric energy through absorption, and the electric energy is transmitted to the plug flow pump 9 through an electric control module in the electric control system 29 to power the plug flow pump 9.

One side of the main platform 1 is provided with an adjusting mechanism 8, the other side of the main platform 1 is symmetrically provided with a functional fluorine material oxygenation system 5, the adjusting mechanism 8 and the functional fluorine material oxygenation system 5 are symmetrically arranged on two sides of the main platform 1, the platform can be balanced as much as possible, and the risk of overturning the platform is reduced. In addition, a circular tube is reserved at the top of the indigenous bacteria in-situ enrichment culture slow release system 6 and is used for connecting ornaments, lighting equipment 7 such as LED light bands are arranged on the circular tube, the auxiliary solar panel 4 converts solar energy into electric energy through absorption, the electric energy is transmitted to the lighting equipment 7 through an electric control module in the electric control system 29, the electric energy is provided for the lighting equipment 7, and the lighting equipment can be lightened in night or in an environment with insufficient light, so that lighting and warning effects are provided.

Referring to fig. 5 and 7, the adjusting mechanism 8 includes a supporting frame 10 connected to one side of the platform, the supporting frame 10 extends horizontally and outwards, a rotating disc 26 is disposed on an upper end surface of the supporting frame 10, the rotating disc 26 is disposed horizontally, the rotating disc 26 is provided with a plurality of arc-shaped slide ways 27 in its circumferential direction by its center, and the arc-shaped slide ways 27 penetrate through the rotating disc 26 from top to bottom. Meanwhile, a plurality of positioning pieces 28 are correspondingly arranged on the upper end face of the support frame 10, the plurality of positioning pieces 28 correspondingly penetrate through corresponding arc-shaped slide ways 27 one by one, and when the rotating disc 26 rotates, the positioning pieces 28 slide relative to the radian of the arc-shaped slide ways 27, so that the rotating disc 26 rotates around the circle center of the rotating disc. By means of the rotation of the rotary disk 26 and the adjustment of the transverse angle of the thrust pump 9, the cruising speed of the device can be controlled and adjusted effectively.

The fixing frame 11 is a portal frame and comprises two parallel longitudinal beams and a transverse beam, wherein the transverse beam is horizontally welded at the upper ends of the two longitudinal beams, the lower ends of the two longitudinal beams are welded at the upper end face of the rotating disc 26, the upper ends of the transverse beams are provided with longitudinal connecting rods, and the tops of the longitudinal connecting rods are provided with steering members 12.

Specifically, the indigenous bacteria in-situ enrichment culture slow-release system 6 installed on the platform comprises an indigenous bacteria in-situ enrichment culture tank 6-1, an indigenous bacteria slow-release tank 6-2, an oxygenation pipe 6-3, a nutrient solution input pipe 6-4 and a water flow control regulating valve 6-5, wherein the indigenous bacteria in-situ enrichment culture tank 6-1 is positioned in the indigenous bacteria slow-release tank 6-2, the indigenous bacteria in-situ enrichment culture tank 6-1 is provided with a liquid inlet end and a liquid outlet end, the oxygenation pipe 6-3 extends into the indigenous bacteria slow-release tank 6-2 from outside to inside and is positioned at the bottom of the indigenous bacteria in-situ enrichment culture tank 6-1, the nutrient solution input pipe 6-4 penetrates the indigenous bacteria slow-release tank 6-2 from outside to inside and extends into the indigenous bacteria in-situ enrichment culture tank 6-1, the water flow control regulating valve 6-5 controls the excessive flow rate of the indigenous bacteria in-situ enrichment culture tank 6-1 to regulate the release speed of bacteria, and the indigenous bacteria in-situ enrichment culture tank 6-1 is filled with biological filler and a cycle operation mode is adopted alternately. The periodic circulation alternate operation mode comprises a micro-nano bubble reinforced water body indigenous bacteria attaching stage, a water body indigenous bacteria directional enrichment culture stage and a slow release stage of the biological filler indigenous bacteria to the water body. The functional fluorine material oxygenation system 5 and the indigenous bacteria in-situ enrichment culture slow-release system 6 realize the efficient aerobic biological action to remove the water pollutants through the synergistic action of micro-nano bubble enhanced oxygenation and in-situ directional enrichment culture to release the indigenous bacteria. The platform is driven to rotate through the operation of the plug flow pump 9, so that the water body outside the ship is mixed with micro-nano bubbles generated by the functional fluorine material oxygenation system 5 through a water tank on the side surface of the platform, then flows automatically to the indigenous bacteria in-situ enrichment culture tank 6-1, the attachment and enrichment of the indigenous bacteria on biological fillers are enhanced through the attachment effect of a micro-nano bubble interface and the indigenous bacteria and biological carriers, then, a specific culture medium is added according to a water quality restoration target in the indigenous bacteria in-situ enrichment culture tank to conduct directional expansion culture on the indigenous bacteria, the functions of carbon reduction, denitrification, phosphorus collection and the like are realized, the indigenous bacteria become dominant bacteria groups, then flow into the indigenous bacteria slow release tank 6-2 through the aeration overflow effect, and then are slowly released to an overflow cavity of the plug flow pump 9 through the lower end of the bacterial honeycomb duct 14. Wherein the oxygenation tube 6-3 provides oxygen for the culture of indigenous bacteria, the nutrient solution input tube 6-4 provides nutrition for the culture of indigenous bacteria, and the water flow control regulating valve 6-5 is a regulating valve for controlling the water amount which is shunted to the indigenous bacteria slow release tank 6-2. The two connecting pipes are longitudinally arranged in parallel and penetrate through the rotating disc 26 from top to bottom, the lower ends of the two connecting pipes are rotationally connected to the two sides of the plug flow pump 9, and the inner cavities of the two connecting pipes are communicated with the flow passing cavity of the plug flow pump 9.

Wherein, two connecting pipes are air current pipe 13 and thallus honeycomb duct 14 respectively, and air current pipe 13 passes through pipeline intercommunication function fluorine material oxygenation system 5, and thallus honeycomb duct 14 passes through pipeline intercommunication indigenous fungus normal position enrichment culture slow-release system 6, and the booster pump can carry out the pressure boost to the thallus of air current pipe 13's oxygen and thallus honeycomb duct 14, makes oxygen and thallus enter into the overflow chamber of impeller pump 9 smoothly, mixes and discharges into the water through quick rotatory impeller. The airflow pipe 13 and the thallus honeycomb duct 14 are respectively welded on the same side of the fixed frame 11, the steering part 12 rotates the fixed frame 11 through a longitudinal connecting rod, the fixed frame 11 drives the rotating disc 26 to rotate, and simultaneously the airflow pipe 13 and the thallus honeycomb duct 14 are driven to rotate, so that the transverse rotation of the push pump 9 connected to the lower ends of the airflow pipe 13 and the thallus honeycomb duct is realized, and the transverse angle of the push pump 9 is adjusted.

The rotating disc 26 is provided with a reserved opening, the upper end face of the rotating disc 26 is detachably provided with a cover plate through bolts, the cover plate is buckled on the reserved opening, the cover plate cannot completely cover the reserved opening, two through holes are formed in the edges of the two sides of the reserved opening, and the airflow pipe 13 and the thallus honeycomb duct 14 respectively penetrate through the two through holes. The air flow pipe 13 and the thallus honeycomb duct 14 can be designed in a multi-section way, the ports are in threaded sealing connection, and when the water body is deeper, the multi-section pipeline can be connected, so that the plug flow pump 9 reaches a deepwater area, and the adjustment of the plug flow pump 9 in the height direction is realized. In addition, hooks can be arranged on the airflow pipe 13 and the thallus honeycomb duct 14, the hooks are connected to the fixing frame 11, and the purpose of adjusting the depth of the lower ends of the airflow pipe 13 and the thallus honeycomb duct 14 into a water body is achieved by adjusting the vertical positions of the hooks, at the moment, the pull rod 15 can slide up and down along the sleeve 17 to be matched with the adjustment of the push flow pump 9 in the depth direction of the water body. The device can be used in water bodies with different depths, the water outlet of the plug flow pump 9 is guaranteed to be at the optimal position of the proper depth of the water body, the water body is fully disturbed, the bottom mud is disturbed controllably and the surface is updated controllably, so that the temperature, the illumination layering state and the nutrient substance area distribution of the water body are improved, the blue-green algae growth environment is destroyed, the dynamic balance of the bottom mud pollutant release and removal rate is controlled, and the purposes of all-round and multi-medium restoration of the water body are realized. When the multistage pipeline needs to be connected, the cover plate can be detached, and the reserved opening can provide a large enough operation space, so that the connection pipe or the whole pipe fitting can be detached and installed conveniently.

The sleeve 17 is further installed on the upper end face of the rotating disc 26, the sleeve 17 is located on one side, far away from the reserved opening, of the fixing frame 11, through holes are formed in the end face of the rotating disc 26 and the sleeve 17 in a concentric mode, the pull rod 15 longitudinally penetrates through the sleeve 17, the U-shaped frame 16 is connected to the lower end of the pull rod 15, two free ends of the U-shaped frame 16 are respectively connected to the tail end, far away from the opening, of the push pump 9 in a rotating mode, of the pull rod 15 can ascend and descend relative to the sleeve 17, accordingly the U-shaped frame 16 at the lower end of the pull rod 15 drives the tail end of the push pump 9 to ascend and descend synchronously, the rotating joint of the airflow pipe 13, the thallus honeycomb duct 14 and the push pump 9 serves as a rotating shaft, and the push pump 9 is longitudinally rotated, and accordingly the longitudinal angle of the opening of the push pump 9 is adjusted, and bottom mud is improved.

Referring to fig. 5 and 6, a plurality of positioning holes 18 are longitudinally formed in the side wall of the sleeve 17 at intervals, insertion holes are formed in the side wall of the same side of the pull rod 15 opposite to the sleeve 17, when the pull rod 15 is lifted and lowered to drive the push pump 9 to reach a specific longitudinal angle range, the pull rod 15 is lifted and adjusted appropriately again, the insertion holes of the pull rod 15 and the positioning holes 18 closest to the insertion holes reach the insertion holes, and positioning pins 19 penetrate through the insertion holes of the positioning holes 18, so that the pull rod 15 is positioned, and the push pump 9 is kept at a specific longitudinal angle to meet the water body restoration requirement.

In order to facilitate operators to accurately grasp the longitudinal angle of the plug flow pump 9 in the water body on the platform, an angle scale 21 is welded in the middle of the lower end face of the transverse beam of the fixing frame 11, the angle scale 21 is longitudinally arranged, and one side of the angle scale 21 is provided with an angle scale in an arc shape. One end of the angle indication rod 20 is provided with a sharp angle structure, the sharp angle structure forms an indication end, one side of the angle indication rod 20 close to the indication end is hinged to the angle scale 21, the hinge point of the angle indication rod 20 and the angle scale 21 is located at the center of the angle scale, the other side of the angle indication rod 20 is provided with a bar groove 22 along the length direction of the bar groove 22, the pull rod 15 is located on the side wall of the upper portion of the sleeve 17, the protruding piece 23 is a bolt penetrating through the pull rod 15, the rod portion of the bolt penetrates through the bar groove 22, a nut of the bolt is located on the outer side of the bar groove 22, the outer diameter of the nut is larger than the width of the bar groove 22, and separation of the bar groove 22 and the pull rod 15 is avoided. When the pull rod 15 is lifted, the rod part of the bolt slides relative to the bar-shaped groove 22, so that the angle indicating rod 20 rotates by taking the hinge point of the angle indicating rod and the angle dial 21 as the axis, and the indicating end at the front end of the angle indicating rod 20 points to the angle scale on the angle dial 21, and the value of the longitudinal angle of the plug flow pump 9 can be read quickly.

In order to facilitate operators to accurately grasp the transverse angle of the push pump 9 in the water body on the platform, the steering piece 12 is a steering wheel, the circumference of the steering wheel is provided with a marking rod with an angle mark, and when the push pump 9 is not transversely deflected, the marking rod of the steering wheel of 0 degree indicates towards the right rear direction, namely the right rear direction of the running track of the platform. When the steering part 12 drives the two connecting pipes to rotate through the fixing frame 11 and the rotating disc 26, and accordingly drives the push pump 9 to rotate at a transverse angle, the marking rod at the corresponding angle on the steering disc correspondingly rotates to face to the right rear, and at the moment, the numerical value of the transverse angle at which the push pump 9 rotates in place is obtained.

According to the environmental characteristics of the water body to be repaired, the comprehensive repair platform for the stagnant water body can be correspondingly improved:

if the comprehensive repair platform for the stagnant water body is used, a water area with a small area, such as a pit, landscape water and the like, needs to be repaired. The anchor 24 is positioned in advance at the bottom of the water body, the position of the positioning anchor 24 is the center position of the water body, the end part of the rigid rod 25 is integrally formed or welded with a rotating pipe, the anchor 24 penetrates through the rotating pipe to be inserted into the ground, the rigid rods 25 with different lengths and inclined angles are matched to adapt to the water bodies with different widths and different depths, the rigid rods 25 can be made into a plurality of sections, the end parts are in threaded connection, and the integral length of the rigid rods 25 is adjusted by connecting different numbers of the rigid rods 25, so that the action range of the equipment is adjusted. After the platform is started, circumferential rotation taking the anchoring piece 24 as an axle center can be realized, the whole area of the water body can be covered, and when the cruising diameter of the platform is greater than 2/3 of the width of the water body, the opening of the plug flow pump 9 can be adjusted to face the anchoring piece 24 as much as possible so as to improve the repairing effect of the internal area; when the cruising diameter of the platform is far smaller than 1/2 of the water area, the opening of the plug flow pump 9 can be adjusted to be opposite to the anchoring piece 24 as far as possible so as to improve the repairing effect of the outer area.

If the comprehensive repair platform for the stagnant water body is used, water areas with larger areas, such as lakes, reservoirs and the like, can be repaired, the plug flow pumps 9 can be simultaneously arranged on the left side and the right side of the platform, and the plug flow pumps 9 are also arranged on the rear side of the platform. Meanwhile, oxygen and thalli are mixed into a water body through the plug flow pumps 9 arranged at the left side and the right side, the function of a propelling platform is mainly completed by the plug flow pump 9 at the rear side, and of course, the plug flow pump 9 at the rear side can also be communicated with the functional fluorine material oxygenation system 5 and the indigenous bacteria in-situ enrichment culture slow release system 6 through pipelines, valves are arranged on corresponding pipelines, and the valves are opened according to the size of the platform and the pollution condition of the water body according to the situation and quantitatively mixed into the water body to repair the water body in a matched manner.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The comprehensive repair platform for the stagnant water body is characterized by comprising a platform, wherein a main solar panel (3), a functional fluorine material oxygenation system (5) and an indigenous bacteria in-situ enrichment culture slow-release system (6) are arranged on the platform, an adjusting mechanism (8) is also arranged on the platform, the lower end of the adjusting mechanism (8) extends into the water body and is provided with a push pump (9), the functional fluorine material oxygenation system (5) and the indigenous bacteria in-situ enrichment culture slow-release system (6) are communicated with an overflow cavity of the push pump (9) so as to provide oxygen micro-nano bubbles for the water body and indigenous bacteria after enrichment culture through the push pump (9), and the main solar panel (3) is used for providing electric energy for the push pump (9); the impeller in the impeller pump rotates rapidly, oxygen and thalli in the overflow cavity are mixed and continuously discharged into the water body to repair the water body, and meanwhile, the rapidly rotating impeller provides thrust for the water body so as to provide power for the whole platform to travel on the water body;

the adjusting mechanism (8) comprises a supporting frame (10) arranged on one side of the platform, a fixing frame (11) is rotatably arranged on the supporting frame (10), the upper end of the fixing frame (11) extends to the upper side of the platform and is provided with a steering piece (12), the impeller pump (9) is rotatably arranged at the lower end of the fixing frame (11), the steering piece (12) is used for adjusting the transverse angle of the impeller pump (9) through the fixing frame (11), a lifting pull rod (15) is arranged on the fixing frame (11) in a penetrating mode, and the lower end of the pull rod (15) is rotatably connected with the impeller pump (9) to adjust the longitudinal angle of the impeller pump (9); the comprehensive repair platform for the stagnant water body further comprises an anchor piece (24) which is fixed at the bottom of the water, and the platform is rotationally connected with the anchor piece (24) through a rigid rod (25) which can be connected in length;

the in-situ enrichment culture slow release system (6) of the indigenous bacteria comprises an in-situ enrichment culture tank (6-1), an indigenous bacteria slow release tank (6-2), an oxygenation pipe (6-3), a nutrient solution input pipe (6-4) and a water flow control regulating valve (6-5), wherein the in-situ enrichment culture tank (6-1) of the indigenous bacteria is positioned in the in-situ enrichment culture tank (6-2), the in-situ enrichment culture tank (6-1) of the indigenous bacteria is provided with a liquid inlet end and a liquid outlet end, the oxygenation pipe (6-3) extends into the in-situ enrichment culture tank (6-2) from outside to inside and is positioned at the bottom of the in-situ enrichment culture tank (6-1), the nutrient solution input pipe (6-4) penetrates into the in-situ enrichment culture tank (6-2) from outside to inside and extends into the in-situ enrichment culture tank (6-1), and the in-situ enrichment culture tank (6-1) of the indigenous bacteria is filled with the biological filler (6-1) from outside to inside, and the water flow control regulating valve is used for in-situ enrichment culture speed of the indigenous bacteria (6-1).

2. The comprehensive repair platform for stagnant water bodies, as set forth in claim 1, characterized in that the functional fluorine material oxygenation system (5) comprises an air pump, an oxygen cylinder and a functional fluorine material micro-nano bubble generating tube, wherein the air pump or the oxygen cylinder provides air or oxygen source, and the functional fluorine material micro-nano bubble generating tube generates air or oxygen bubbles with the diameter ranging from 0.1 to 20 microns.

3. The comprehensive repair platform for stagnant water bodies according to claim 1, wherein the support frame (10) comprises a horizontally arranged rotating disc (26), a plurality of arc-shaped slide ways (27) which are concentrically arranged are arranged on the rotating disc (26), a plurality of positioning pieces (28) are arranged at the upper end of the support frame (10), and the positioning pieces (28) penetrate through the arc-shaped slide ways (27) in a one-to-one correspondence manner.

4. A stagnant water body comprehensive restoration platform as claimed in claim 3, characterized in that the supporting frame (10) further comprises a fixing frame (11) fixedly arranged on the upper end face of the rotating disc (26) and two connecting pipes penetrating through the rotating disc (26), the steering part (12) is arranged at the upper end of the fixing frame (11), the lower ends of the two connecting pipes are respectively and rotatably connected to two sides of the middle part of the push flow pump (9), the pull rod (15) vertically penetrates through the rotating disc (26), the lower end of the pull rod (15) is connected with a U-shaped frame (16), and the two free ends of the U-shaped frame (16) are respectively and rotatably connected to two sides of the push flow pump (9) and far away from the opening end of the push flow pump (9).

5. The comprehensive repair platform for stagnant water bodies according to claim 4, wherein the two connecting pipes comprise an air flow pipe (13) with a hollow runner arranged inside and a thallus guide pipe (14), the air flow pipe (13) is communicated with the functional fluorine material oxygenation system (5) through a pipeline, the thallus guide pipe (14) is communicated with the indigenous bacteria in-situ enrichment culture slow-release system (6) through a pipeline, and the lower end of the air flow pipe (13) and the lower end of the thallus guide pipe (14) are both communicated with an overflow cavity of the push pump (9).

6. The comprehensive repair platform for stagnant water bodies as set forth in claim 4, wherein a sleeve (17) is vertically arranged on the upper end surface of the rotating disc (26), a plurality of positioning holes (18) are formed in the side wall of the sleeve (17) from top to bottom, the pull rod (15) penetrates through the sleeve (17) and is in sliding fit with the sleeve, a positioning pin (19) is detachably arranged on the outer wall of the pull rod (15), and the positioning pin (19) penetrates through any positioning hole (18) to position the pull rod (15) at different heights.

7. The comprehensive repair platform for stagnant water bodies according to claim 4, wherein an angle indication rod (20) is arranged on the upper portion of the pull rod (15), an angle dial (21) is arranged on the fixing frame (11), an angle scale is marked on the angle dial (21) in an arc shape, an indication end is arranged at the front end of the angle indication rod (20), the front side of the angle indication rod (20) is hinged to the angle dial (21) and a hinging point is located at the circle center of the angle scale, a strip-shaped groove (22) is formed in the rear side of the angle indication rod (20) along the length direction of the angle indication rod, a protruding piece (23) is arranged on the side wall of the upper portion of the pull rod (15), and the protruding piece (23) penetrates through the strip-shaped groove (22) and can be arranged along the strip-shaped groove (22) in a sliding mode.

8. The comprehensive repair platform for stagnant water bodies according to claim 1, wherein the platform comprises a main platform (1) and a plurality of auxiliary platforms (2) arranged on the circumference of the main platform (1), the functional fluorine material oxygenation system (5) is arranged on the upper end face of the main platform (1), the indigenous bacteria in-situ enrichment culture slow release system (6) is arranged in the middle of the upper end face of the main platform (1), the regulating mechanism (8) is arranged on one side of the main platform (1), the plurality of main solar panels (3) are correspondingly arranged on the plurality of auxiliary platforms (2) one by one, and the light receiving face at the upper end of the main solar panels (3) is obliquely arranged from inside to outside.

9. The comprehensive repair platform for stagnant water bodies, as set forth in claim 8, characterized in that an auxiliary solar panel (4) is provided at one side of the main platform (1), a lighting device (7) is installed at the top of the functional fluorine material oxygenation system (5), and the auxiliary solar panel (4) is used for providing electric energy to the lighting device (7).

10. The comprehensive repair platform for stagnant water bodies as claimed in claim 9, wherein the main platform (1) and the auxiliary platform (2) are both made of plastic materials, and foam is filled in the main platform and the auxiliary platform.

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