Water area floating aeration device
Technical Field
The invention relates to the technical field of environmental protection treatment, in particular to a water area floating aeration device.
Background
In the water treatment process, the aeration equipment is the key equipment for the biological pretreatment of water supply and the biological treatment of sewage. The aeration device transfers oxygen in the air into liquid in the aeration tank to supply oxygen required by metabolism of aerobic organisms, and simultaneously, water in the tank is fully and uniformly mixed to achieve the aim of biological treatment;
aeration devices in the market cannot prevent stains and impurities in water from eroding the interior of the device, the phenomenon of sewage backflow easily occurs to affect the aeration efficiency of a water area, and a proper water bath aperture can not be selected to be matched for use according to the specific conditions of water quality, so that the water area floating aeration device is provided.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a water area floating aeration device, which solves the problems that the aeration device can not block the inside of the device from being eroded by stains and impurities in water, the sewage backflow phenomenon is easy to occur to influence the aeration efficiency of the water area, and the proper water bath aperture can not be selected for matching use according to the specific conditions of water quality.
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a float aeration equipment in waters, includes the aeration machine main casing body, the inner cover section of thick bamboo that is used for the secondary filter rivers is installed to the inboard of the aeration machine main casing body, the cover core section of thick bamboo that is used for buffering rivers is installed to the installation of inner cover section of thick bamboo, the both ends are overlapped respectively and are equipped with a set of bearing between cover core section of thick bamboo and the inner cover section of thick bamboo, the drinking water mechanism that is used for carrying rivers is installed to the inboard of cover core section of thick bamboo, the water bath group hole inboard that inner cover section of thick bamboo surface was seted up is installed and is used for cutting the sawtooth group piece of rivers in, one side of sawtooth group piece is provided with and is used for preventing taking off of water bath group hole jam and colludes, drinking water mechanism is including the bullet plastic pipe that is used for accelerating water velocity, one side of bullet plastic pipe is provided with and is used for encircleing the side cutter plate of cutting the bubble.
Preferably, the inner cover section of thick bamboo is including being arranged in with water bath group hole of rivers injection to the air, four groups water bath group hole runs through on the surface of inner cover section of thick bamboo and sets up, and the cross sectional shape in four water bath group holes of group is all inequality, every group the water accuse subassembly that is used for controlling out water shape and velocity of flow is all installed to the inboard in water bath group hole, the inboard both sides symmetry in water bath group hole has set firmly a plurality of convex bodies, the downside of accuse water subassembly is connected with the stretch-draw spring, the other end and the convex body fixed connection of stretch-draw spring.
Preferably, accuse water subassembly is including being used for the hinge joint at the inboard hinge rod of water bath group hole, movable sector plate has set firmly on the hinge rod, and is a plurality of sawtooth group piece sets up side by side in movable sector plate bottom, one side of sawtooth group piece is run through and has been seted up the keyhole, the bilateral symmetry of activity sector plate is provided with two sets of taking off and colludes, prevents that movable sector plate from losing the separation effect to impurity, and the guarantee activity sector plate is to the effective guard action of device inside.
Preferably, the bolt hole cooperation stretch-draw spring that activity sector was seted up on through the sawtooth subassembly is with water bath group hole bullet installation, activity sector is colluded through taking off and is organized the hole identical with water bath, activity sector passes through the articulated mast and water bath group hole rotation sets up, destroys the bubble by the serration on sawtooth group piece surface, ensures that rivers blowout water personally submits the water smoke state, further enlarges the effective area of contact of rivers and air, reduces the bubble content in the rivers.
Preferably, the water drinking mechanism comprises a water cutting assembly for cutting bubbles, an accelerating assembly is arranged on the rear side of the water cutting assembly, a compression pump is connected to the rear side of the accelerating assembly, a water closing hopper for performing secondary filtration on water flow is connected to the rear side of the compression pump, and the water cutting assembly is communicated with the compression pump through the accelerating assembly.
Preferably, cut the water subassembly including the water spray bucket that is used for changing rivers injection position, the leading edge position of water spray bucket is circular array and has laid a plurality of drainage branch, the surface symmetry of drainage branch has set firmly the side cutting board, the one end of drainage branch runs through the water spray bucket and sets up rather than the inner chamber intercommunication, via the relative high-speed rotation between rivers and the side cutting board to and under the homeopathic cutting of sawtooth group piece to rivers, can effectively smash the cutting by filterable large granule impurity in the rivers.
Preferably, the subassembly is including the section of thick bamboo jar that is used for carrying rivers with higher speed, the front end edge position of section of thick bamboo jar has set firmly a plurality of pylons, the front end middle part of section of thick bamboo jar is connected with the bottom plate via the pylon, the one end of bullet plastic pipe is connected with the front end middle part of section of thick bamboo jar, the other end and the switching pipe intercommunication of bullet plastic pipe set up, through setting firmly the side cutting board at drainage branch avris, to the relative cutting of bubble, realize the first cutting to the bubble, effectively reduce the bubble content in the rivers, promote the aeration efficiency of water.
Advantageous effects
The invention provides a floating aeration device for a water area. The method has the following beneficial effects:
1. this aeration equipment, through the activity fan board on the rivers jack-up hinge bar, make rivers spout the surface of water through the aperture of different shapes, make rivers and air contact, effectively dissolve the oxygen in the air in the aquatic, under the activity stretch-draw condition to activity fan board via the stretch-draw spring, effectively avoid the impurity in the waters to block up water bath group hole, with the upper surface of impurity separation at activity fan board, drive down through inside water pressure, when realizing the aeration in waters, effectively will pile up the impurity jack-up on activity fan board surface, avoid activity fan board surface impurity to pile up, prevent that the impurity in the waters from influencing the aeration effect of device to this waters.
2. The aeration device can stretch and draw the movable fan plate back to the original position in time through the stretching spring, so that the movable fan plate is tightly embedded and blocked with the water bath group hole, the flushed impurities are effectively prevented from flowing back to the water bath group hole to block the hole cavity, the dirt and the impurities in water are prevented from eroding the inner side of the water bath group hole, and the sewage backflow phenomenon caused by the untight embedding of the water bath group hole and the movable fan plate is avoided.
3. This aeration equipment through a plurality of sawtooth group pieces that set up side by side in activity fan board bottom for when rivers flow through water bath group hole inboard, destroy the bubble by the serration on sawtooth group piece surface, ensure that rivers blowout water personally submits the water smoke state, further enlarge the effective area of contact of rivers and air, reduce the bubble content in the rivers, effectively increase the aeration efficiency of water.
4. This aeration equipment through the inseparable cooperation of taking off hook and water bath group hole inside wall that utilizes activity fan board front end, effectively avoids activity fan board upper portion impurity to pile up when more, causes the local activity of activity fan board, prevents that activity fan board from losing the barrier effect to impurity, ensures the effective guard action of activity fan board to device inside.
5. This aeration equipment, establish under the sliding fit of bearing between inner cover tube and cover core section of thick bamboo through the cover, via the motor of aeration machine main casing body one end installation, can drive inner cover tube rotatory in the outside of cover core section of thick bamboo, under the regional difference of water mist that the group hole of water bath of different shape sizes erupted robbed the condition, can be according to the particular case of quality of water, select suitable water bath group hole aperture size to arrange the use in pairs, in order to avoid the relatively poor waters of quality of water, just cause the inside serious jam condition of device to take place after short-term use.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic view of the internal structure of the main housing of the aerator of the invention;
FIG. 3 is a schematic structural view of an inner shroud and a sleeve in the present invention;
FIG. 4 is a schematic view of the structure of the water bath group holes in the present invention;
FIG. 5 is a schematic structural view of a water control assembly according to the present invention;
FIG. 6 is a schematic structural view of a drinking mechanism according to the present invention;
FIG. 7 is a schematic structural diagram of an acceleration assembly according to the present invention;
fig. 8 is a schematic structural view of the water cutting assembly according to the present invention.
In the figure: 1. a main shell of the aerator; 2. an inner shroud; 21. carrying out water bath hole forming; 211. a water control assembly; 2111. a hinged lever; 2112. a movable fan plate; 2113. saw tooth group sheets; 2114. a keyhole; 2115. hooking; 212. a convex body; 213. tensioning the spring; 3. a sleeve core cylinder; 31. a bearing; 4. a water drinking mechanism; 41. a water cutting assembly; 411. a water spraying bucket; 412. a drainage strut; 413. a side cutter plate; 42. an acceleration component; 421. a cylinder; 422. a pole frame; 423. a plastic tube is formed; 424. a bottom gusset plate; 425. a transfer tube; 43. a compression pump; 44. closing the water bucket.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-8, the present invention provides a technical solution: a water area floating aeration device comprises an aerator main shell body 1, the aerator main shell body 1, an inner sleeve 2 for secondary water flow filtration is installed on the inner side of the aerator main shell body 1, a sleeve core barrel 3 for buffering water flow is installed on the inner sleeve 2, a group of bearings 31 is respectively sleeved at two ends between the sleeve core barrel 3 and the inner sleeve 2, a drinking mechanism 4 for conveying water flow is installed on the inner side of the sleeve core barrel 3, a sawtooth group piece 2113 for cutting bubbles in water flow is installed on the inner side of a water bath group hole 21 formed in the surface of the inner sleeve 2, a hook 2115 for preventing the water bath group hole 21 from being blocked is arranged on one side of the sawtooth group piece 2113, the drinking mechanism 4 comprises an elastic plastic pipe 423 for accelerating the water flow speed, and a side knife plate 413 for surrounding the cut bubbles is arranged on one side of the elastic plastic pipe 423;
as shown in fig. 1-5, the inner cover tube 2 includes water bath group holes 21 for injecting water flow into air, the four groups of water bath group holes 21 are formed through the surface of the inner cover tube 2, the cross-sectional shapes of the four groups of water bath group holes 21 are different, water control assemblies 211 for controlling the shape and flow rate of water outlet are mounted on the inner sides of each group of water bath group holes 21, a plurality of convex bodies 212 are symmetrically and fixedly arranged on the two sides of the inner sides of the water bath group holes 21, a tension spring 213 is connected to the lower side of the water control assembly 211, and the other end of the tension spring 213 is fixedly connected to the convex bodies 212; the water control assembly 211 comprises a hinge rod 2111 movably hinged to the inner side of the water bath group hole 21, a movable fan plate 2112 is fixedly arranged on the hinge rod 2111, a plurality of sawtooth group sheets 2113 are arranged at the bottom of the movable fan plate 2112 side by side, one side of each sawtooth group sheet 2113 is provided with a bolt hole 2114 in a penetrating manner, and two groups of raking hooks 2115 are symmetrically arranged on two sides of the movable fan plate 2112; the movable fan plate 2112 is elastically installed with the water bath group hole 21 through a bolt hole 2114 formed on the sawtooth group plate 2113 and the tension spring 213, the movable fan plate 2112 is matched with the water bath group hole 21 through a hook 2115, and the movable fan plate 2112 is rotatably arranged with the water bath group hole 21 through a hinge bar 2111.
When in work, the water pump arranged on the main shell 1 of the aerator is used for conveying water flow to the inner side of the inner sleeve 2, then the water flow is guided to the water bath group holes 21 on the inner sleeve 2 through the core sleeve 3, under the pressure of great water pressure, the water flow jacks up the movable fan plate 2112 on the hinge bar 2111, so that the water flow is jetted out of the water surface through the apertures with different shapes, the water flow is contacted with the air, the oxygen in the air is effectively dissolved in the water, under the condition that the stretching spring 213 stretches the movable fan plate 2112 movably, impurities in the water area are effectively prevented from blocking the water bath group hole 21, the impurities are blocked on the upper surface of the movable fan plate 2112, under the driving of the internal water pressure, the aeration of the water area is realized, and simultaneously, impurities accumulated on the surface of the movable fan plate 2112 are effectively jacked up, so that the accumulation of the impurities on the surface of the movable fan plate 2112 is avoided, and the influence of the impurities in the water area on the aeration effect of the device on the water area is prevented;
the movable fan plate 2112 is timely tensioned and returned to the original position through the tensioning spring 213, so that the movable fan plate 2112 and the water bath group hole 21 are tightly embedded and blocked, flushed impurities are effectively prevented from flowing back to the water bath group hole 21 to block the hole cavity, dirt and impurities in water are prevented from eroding the inner side of the water bath group hole 21, the phenomenon of sewage backflow caused by untight embedding of the water bath group hole 21 and the movable fan plate 2112 is avoided, meanwhile, the phenomenon that inferior sewage which is not purified and filtered infects the inside of the device is avoided, and the protection effect on the inside of the device is achieved;
through the plurality of the sawtooth group plates 2113 arranged at the bottom of the movable fan plate 2112 side by side, when water flows through the inner side of the water bath group hole 21, the sawtoothed bulges on the surfaces of the sawtooth group plates 2113 destroy bubbles, so that the water spraying surface of the water flow is ensured to be in a water mist state, the effective contact area of the water flow and air is further enlarged, the bubble content in the water flow is reduced, and the aeration efficiency of the water is effectively increased; by means of the close fit between the hook 2115 at the front end of the movable fan plate 2112 and the inner side wall of the water bath group hole 21, the local movement of the movable fan plate 2112 caused by the accumulation of more impurities on the upper part of the movable fan plate 2112 is effectively avoided, the movable fan plate 2112 is prevented from losing the blocking effect on the impurities, and the effective protection effect of the movable fan plate 2112 on the inside of the device is guaranteed.
As shown in fig. 1 to 8, the present invention provides a technical solution: a water area floating aeration device comprises an aerator main shell body 1, the aerator main shell body 1, an inner sleeve 2 for secondary water flow filtration is installed on the inner side of the aerator main shell body 1, a sleeve core barrel 3 for buffering water flow is installed on the inner sleeve 2, a group of bearings 31 is respectively sleeved at two ends between the sleeve core barrel 3 and the inner sleeve 2, a drinking mechanism 4 for conveying water flow is installed on the inner side of the sleeve core barrel 3, a sawtooth group piece 2113 for cutting bubbles in water flow is installed on the inner side of a water bath group hole 21 formed in the surface of the inner sleeve 2, a hook 2115 for preventing the water bath group hole 21 from being blocked is arranged on one side of the sawtooth group piece 2113, the drinking mechanism 4 comprises an elastic plastic pipe 423 for accelerating the water flow speed, and a side knife plate 413 for surrounding the cut bubbles is arranged on one side of the elastic plastic pipe 423;
as shown in fig. 6-8, the water drinking mechanism 4 includes a water cutting assembly 41 for cutting bubbles, an accelerating assembly 42 is disposed at the rear side of the water cutting assembly 41, a compression pump 43 is connected to the rear side of the accelerating assembly 42, a water closing bucket 44 for secondarily filtering water flow is connected to the rear side of the compression pump 43, and the water cutting assembly 41 is communicated with the compression pump 43 through the accelerating assembly 42; the water cutting assembly 41 comprises a water spraying bucket 411 used for changing the water spraying direction, a plurality of drainage support rods 412 are distributed on the front side edge of the water spraying bucket 411 in a circular array, side knife boards 413 are symmetrically and fixedly arranged on the surfaces of the drainage support rods 412, and one end of each drainage support rod 412 penetrates through the water spraying bucket 411 and is communicated with the inner cavity of the drainage support rod 412; the accelerating component 42 comprises a cylinder 421 for conveying water flow, a plurality of rod frames 422 are fixedly arranged at the edge of the front end of the cylinder 421, the middle part of the front end of the cylinder 421 is connected with a bottom-locking plate 424 through the rod frames 422, one end of an elasto-plastic pipe 423 is connected with the middle part of the front end of the cylinder 421, and the other end of the elasto-plastic pipe 423 is communicated with the switching pipe 425.
When the aerator works, the inner cover cylinder 2 can be driven to rotate at the outer side of the sleeve core cylinder 3 by the motor arranged at one end of the aerator main shell 1 under the sliding fit of the bearing 31 sleeved between the inner cover cylinder 2 and the sleeve core cylinder 3, and due to the fact that water mist areas sprayed out by the water bath group holes 21 with different shapes and sizes are different, the proper water bath group holes 21 can be selected according to the water quality conditions of different water areas for matching use, so that the water areas with poor water quality are avoided, and the serious blockage condition inside the device is caused after short-term use;
the water flow is conveyed to the interior of the compression pump 43 through the water closing hopper 44, the water flow is guided to the water spraying hopper 411 through the elasto-plastic pipe 423 at the front end of the cylinder 421, after the water flow is accelerated through the elasto-plastic pipe 423 arranged spirally, the accelerated water flow is output through the water spraying hopper 411 and the drainage support rod 412 respectively under the guidance of the switching pipe 425, the bubbles are cut relatively through the side knife plate 413 fixedly arranged at the side of the drainage support rod 412, the first cutting of the bubbles is realized, the bubble content in the water flow is effectively reduced, and the aeration efficiency of the water is improved; the water flow is cut for the second time after passing through the sawtooth component plates 2113, so that the cutting load of the sawtooth component plates 2113 on bubbles is effectively reduced, and the content of the bubbles in the water is effectively reduced; and through the relative high-speed rotation between the water flow and the side cutting plate 413 and the consequent cutting of the water flow by the sawtooth assembly sheets 2113, large particle impurities which are not filtered in the water flow can be effectively crushed and cut, the impurities with larger particle sizes are prevented from blocking the device from the inside, and the long-term normal operation of the aeration device is ensured.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.