CN112790130A

CN112790130A - Anti-swing building hanging basket for high-altitude operation

Info

Publication number: CN112790130A
Application number: CN202110110465.2A
Authority: CN
Inventors: 蒋辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2021-05-14

Abstract

The invention discloses an anti-swing construction hanging basket for high-altitude operation, which comprises a windmill mechanism and is characterized in that: the windmill mechanism comprises a windmill rod, the windmill rod is supported and connected with a shaft barrel, a plurality of large fan blades are sleeved on the periphery of the shaft barrel in a sleeved mode, a plurality of wind rods are correspondingly arranged on one side of each large fan blade and connected with the shaft barrel, clamping blocks are arranged on the surfaces of the plurality of wind rods, clamping grooves are formed in the surfaces of the plurality of large fan blades, the clamping blocks and the clamping grooves are of a matched structure, a plurality of micro motor shafts are arranged on the surfaces of the plurality of wind rods in a arrayed mode, damping plugs are arranged at the rear ends of the plurality of micro motor shafts, small fan blades are arranged on the plurality of micro motor shafts, a generator assembly is connected inside the shaft barrel, a direction indicator is arranged below the windmill mechanism, and an oil removing mechanism is arranged below the direction indicator.

Description

Anti-swing building hanging basket for high-altitude operation

Technical Field

The invention relates to the technical field of marine suspended cultivation, in particular to an anti-swing building hanging basket for high-altitude operation.

Background

With the progress of technology, offshore wind power generation has also made a breakthrough in water depth and offshore, and site selection has been developed to open sea and deep sea. In the aspect of ocean breeding, there is the mode that the hanging basket is suspended in midair in the high altitude, the buoyant raft is bred and is bred the biology, directly hoist whole hanging basket when breeding the end and can harvest fast, improved breeding efficiency, the technology can also assist wind power generation to combine and supply energy to the hanging basket in the high altitude suspension simultaneously.

In the hanging basket cultivation process of the jellyfish, before a storm comes, the jellyfish is warned by secondary waves transmitted from water, the secondary waves are 8-13 Hz sound waves generated by the violent friction of air and the ocean, the speed of the secondary waves transmitted in the water is 1450 m/s, and the speed is much higher than the movement speed of the storm and the ocean. This secondary wave is not audible to us and therefore the jellyfish has the effect of predicting the storm.

The existing hanging basket cultivation wind power generation utilization rate of the offshore wind field is low, and meanwhile, the existing hanging basket cultivation of the offshore wind field cannot prevent the offshore storm condition and is easy to damage, so that the design of the anti-swing building hanging basket for high-altitude operation, which has high energy utilization rate and strong storm resistance, is necessary.

Disclosure of Invention

The invention aims to provide an anti-swing construction hanging basket for high-altitude operation, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an anti-swing construction hanging basket for high altitude construction, includes windmill mechanism, its characterized in that: windmill mechanism includes the windmill pole, the windmill pole supports and is connected with the axle cylinder, the big fan blade of a plurality of has been cup jointed to the outer surrounding ring cover of axle cylinder, big fan blade one side correspondence is provided with a plurality of wind pole, a plurality of the wind pole all is connected with the axle cylinder, a plurality of the wind pole surface is provided with the fixture block, a plurality of big fan blade surface all is provided with the draw-in groove, the fixture block is the cooperation structure with the draw-in groove, a plurality of wind pole surface arrangement is provided with the little spindle of a plurality of, a plurality of the rear end of little spindle all is provided with the damping stopper, all is provided with little fan blade on the little spindle of a plurality of, axle cylinder internal connection has generator component.

According to the technical scheme, the lower part of the windmill mechanism is provided with a direction indicator, the lower part of the direction indicator is provided with an oil removing mechanism, the lower part of the oil removing mechanism is provided with a transit box, two ends of the transit box are connected with hanging baskets, the lower part of the transit box is provided with a pumping mechanism, the lower part of the pumping mechanism is provided with a ground mechanism, the direction indicator, the oil removing mechanism, the transit box and the pumping mechanism are all positioned on a windmill rod, the bottom of the windmill rod is positioned in the ground mechanism, the pumping mechanism comprises an outer spherical shell, an inner spherical shell is arranged in the outer spherical shell, two sides of the inner spherical shell are provided with pumping pipes, push blocks are arranged in the pumping pipes, two ends of each push block are fixedly connected with a first hinge rod, a pull rope is connected between each push block and the hanging baskets, the surface of the inner spherical shell is provided with a one-way liquid inlet, and the pumping pipes are connected, the pumping pressure pipe is provided with a one-way valve chamber.

According to the technical scheme, the direction indicator comprises a lower rotary table, an one-way ratchet wheel is arranged between the lower rotary table and the windmill rod, an air sensing plate is arranged on one side of the lower rotary table, an upper movable table is arranged above the lower rotary table, the upper movable table is fixedly connected with the windmill rod, a torsion tube is connected between the lower rotary table and the upper movable table, and the torsion tube is connected with a pumping pressure tube.

According to the technical scheme, the oil removing mechanism comprises a frustum cavity, a threaded sleeve cavity is arranged in the middle of the frustum cavity, the inner side of the threaded sleeve cavity is in threaded connection with the windmill rod, through holes are formed in two sides of the frustum cavity, a connecting rod is connected with a spring inside the through holes, oil collecting ladles are arranged at two ends of the connecting rod, folded plates are arranged on two sides of the inner portion of the frustum cavity, and a negative pressure pipe is connected to one side of the threaded sleeve cavity.

According to the technical scheme, the other end of the negative pressure pipe is connected with a purification tank, an upper valve cover is arranged at the top inside the purification tank, an upper floating ball is arranged on the inner side of the upper valve cover, a lower valve cover is arranged at the bottom inside the purification tank, a lower floating ball is arranged on the inner side of the lower valve cover, the upper valve cover is connected with a pipeline inside the shaft barrel, and a sprinkler head is connected with the pipeline of the lower valve cover.

According to the technical scheme, the inside dot explosion mechanism that is provided with of beam barrel, the dot explosion mechanism includes the ring cover, be provided with the cam in the ring cover, the inside a plurality of pressure cavity that is provided with of ring cover, a plurality of all be connected with oil pipe between the pressure cavity, be provided with the inlet port on the oil pipe, the inlet port both ends are provided with the check valve, the inlet port is connected with last valve bonnet pipe, press the inside piston rod that is provided with of cavity, piston rod one end is provided with the spring, it is provided with the flint to press cavity one side, it is provided with the pressure valve to press cavity port department, it is connected with the ware of throwing something and feeding to press the cavity pipe connection, press the cavity pipe connection to have the sound ring, the sound ring is the ring form setting in the hanging flower.

According to the technical scheme, the hanging basket comprises a fish feeding bin and a breeding bin, a partition plate is arranged between the fish feeding bin and the breeding bin, the feeder comprises a spraying ball and a sucking pipe, the partition plate is located between the sucking pipe and the spraying ball, a floating ball is arranged inside the breeding bin and is connected with a foundation mechanism through a pipeline, the foundation mechanism comprises a foundation shell, the foundation shell is connected with the floating ball through a pipeline, an air pressure cavity is arranged inside the hinge rod, and the air pressure cavity is connected with the foundation shell through a pipeline.

According to the technical scheme, the inside control chamber that is provided with of transfer case, the control chamber both sides are provided with the valve plate, the control chamber is connected with the pump pressure pipe, two the valve plate is connected with the folding rod with two hanging flower basket tops respectively, control chamber internal connection has hinge rod two, the inside check valve cover that is provided with of check valve room, the check valve cover cooperation is connected with the check valve ball, check valve room both sides are provided with the injection pipe, be connected with the guide arm between check valve ball and the hinge rod two.

According to the technical scheme, a plurality of wall bags are arranged on the inner wall of the breeding bin, a main buffering air bag is arranged inside the foundation shell, a plurality of auxiliary buffering air bags are arranged on two sides of the main buffering air bag, a foundation block is arranged below the main buffering air bag and fixedly connected with the windmill rods, and the wall bags and the auxiliary buffering air bags are connected in a one-to-one correspondence mode.

According to the technical scheme, the outer spherical shell is provided with a plurality of barbs, and the barbs and the hanging basket are of a matched structure.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) by arranging the windmill mechanism, when the wind is breeze on the sea surface, the small fan blade can rotate to drive the micro motor shaft to generate electricity, when the large fan blade rotates, friction is generated between parts inside the shaft cylinder due to rotation, so that heat is generated, gas inside the shaft cylinder is heated and expanded, air pressure is generated inside the wind pole, the air pressure pushes the micro motor shaft to be convex forwards, the resistance plug is rubbed with the wind pole, the micro motor shaft stops rotating, the small fan blade stops rotating, the rotation of the fan blade is adaptively switched according to the wind speed on the sea surface, and the maximum wind energy utilization rate is achieved;

(2) the effect that the windmill rod drives the large fan blade to rotate along with the wind sensing plate is achieved by arranging the direction indicator, and the wind sensing plate is always parallel to the wind direction under the action of wind power, so that the large fan blade always faces the wind flow direction no matter what wind direction, wind energy is fully absorbed, and the effect of improving the wind energy extraction efficiency of the windmill mechanism is achieved;

(3) the rotating speed can be adjusted in a self-adaptive mode according to the size of the wind waves by arranging the frustum cavity, the rotating speed is higher when the wind waves are larger, the generated centrifugal force can effectively prevent seawater from entering the oil removing mechanism, and the purity of extracted petroleum is greatly improved;

(4) the automatic fish feeding device is provided with the point explosion mechanism, so that the uniform feeding is realized, the waste effect is avoided, meanwhile, the explosion sound generated by the point explosion mechanism is transmitted into the sound guide ring, so that the explosion sound is emitted from the periphery of the hanging basket in a ring shape, the fish school is driven to a place with relatively more fish food in the middle of the hanging basket, the automatic fish feeding device also has the effect of reminding fish school to feed, the waste of the fish food caused by the fact that part of the fish school is not found in time after the fish food is fed is prevented, and the effect of saving the fish food is achieved;

(5) the pneumatic cavity is arranged, so that the phenomenon that fish food is completely accumulated to one side of the hanging basket due to the centrifugal force generated by the rotation of the hanging basket when the vortex comes temporarily on the sea surface is realized, the damage of the centrifugal force of the fish food to the hanging basket during the vortex is reduced, and the reduction of the material suction efficiency of the material suction pipe due to the fact that the fish food is completely accumulated at one position is avoided; meanwhile, after the floating ball is expanded, the four walls of the hanging basket are supported from the inside, so that the effect of protecting the hanging basket from being damaged under the impact of the vortex flow is achieved;

(6) the transfer box is arranged, so that the function of the beacon is disabled when tornadoes come, the beacon is effectively prevented from rotating randomly everywhere due to turbulent airflow caused by the tornadoes, the windmill mechanism rotates irregularly and quickly, the stable and stable rotation of the windmill mechanism when the tornadoes come is improved, and the windmill mechanism is prevented from being damaged by the tornadoes;

(7) through being provided with the wallbag and assisting buffering gasbag, come temporarily when the storm, can follow jellyfish and flee the opposite direction of escaping and blow to windmill mechanism, make windmill mechanism drive windmill pole and empty toward jellyfish escape direction, cause the ground piece slope, and escape the same one side of direction with jellyfish and assist buffering gasbag by the wallbag extrusion struts, cooperate main buffering gasbag again to carry out pertinence buffering and anti-slope to the ground piece, and then improved windmill mechanism prevention and anti-storm's performance, reached and avoided windmill mechanism to be blown down by the storm effect.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a specific principle of the present invention;

FIG. 3 is a schematic view of the windmill mechanism of the present invention;

FIG. 4 is a schematic diagram of the specific structure of the explosion mechanism of the present invention;

in the figure: 1. a windmill mechanism; 11. a large fan blade; 12. a small fan blade; 13. a shaft cylinder; 14. a windmill pole; 15. a wind lever; 2. an oil removing mechanism; 21. a frustum cavity; 22. an oil collecting gourd ladle; 23. a threaded sleeve cavity; 24. a purification tank; 3. an explosion mechanism; 31. sleeving a ring; 32. an oil pipe; 33. an oil inlet hole; 34. a pressure chamber; 35. a cam; 4. a hanging basket; 41. a fish food bin; 42. a culture bin; 43. a feeder; 44. a floating ball; 45. a wall capsule; 5. a pumping mechanism; 51. an outer spherical shell; 52. an inner spherical shell; 53. a liquid pumping pipe; 54. a first hinge rod; 6. a transfer box; 61. a one-way valve chamber; 62. a control chamber; 7. a foundation mechanism; 71. a foundation shell; 72. a main buffer air bag; 73. a foundation block; 74. an auxiliary buffer air bag; 8. and a beacon.

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. 1-4, the present invention provides the following technical solutions: the utility model provides an anti-swing construction hanging flower basket for high altitude construction, includes windmill mechanism 1, its characterized in that: the windmill mechanism 1 comprises a windmill rod 14, the windmill rod 14 is supported and connected with a shaft barrel 13, a plurality of large wind blades 11 are sleeved on a ring sleeve 31 on the periphery of the shaft barrel 13, a plurality of wind rods 15 are correspondingly arranged on one side of each large wind blade 11, the plurality of wind rods 15 are all connected with the shaft barrel 13, fixture blocks are arranged on the surfaces of the plurality of wind rods 15, clamping grooves are formed in the surfaces of the plurality of large wind blades 11, the fixture blocks and the clamping grooves are of a matched structure, a plurality of micro motor shafts are arranged on the surfaces of the plurality of wind rods 15, damping plugs are arranged at the rear ends of the plurality of micro motor shafts, small wind blades 12 are arranged on the plurality of micro motor shafts, and a generator component is; the windmill mechanism 1 is arranged on the sea surface, when sea wind comes, the wind blows to the large fan blade 11, the large fan blade 11 rotates, the wind rod 15 is driven to rotate through the matching of the clamping blocks and the clamping grooves, the wind rod 15 drives the shaft barrel 13 and further drives the generator component inside the shaft barrel to generate electricity, the effect of collecting wind energy of a sea wind field and converting the wind energy into electric energy is achieved, when the air quantity of the sea surface is small, breeze is not enough to drive the large fan blade 11 to rotate, the small fan blades 12 are arranged on the wind rod 15, when the breeze of the sea surface is small, the small fan blades 12 can rotate to drive the micro motor shaft to generate electricity, when the large fan blade 11 drives the shaft barrel 13 to rotate to generate electricity, friction is generated between parts inside the shaft barrel 13 due to rotation, heat is generated, the gas inside the shaft barrel 13 is heated to expand, air pressure is generated inside the wind rod 15, the air pressure, the micro motor shaft stops rotating, so that the small fan blades 12 stop rotating, the effect that the small fan blades 12 stop rotating when the large fan blades 11 rotate is achieved, the wind energy utilization efficiency of the large fan blades 11 is prevented from being affected due to airflow disorder caused by rotation of the small fan blades 12, and finally the effect that the fan blades are switched to rotate in a self-adaptive mode according to the sea surface wind speed is achieved, and the maximum wind energy utilization rate is achieved.

The lower part of the windmill mechanism 1 is provided with a beacon 8, the lower part of the beacon 8 is provided with an oil removing mechanism 2, the lower part of the oil removing mechanism 2 is provided with a transit box 6, two ends of the transit box 6 are connected with hanging baskets 4, the lower part of the transit box 6 is provided with a pumping pressure mechanism 5, the lower part of the pumping pressure mechanism 5 is provided with a foundation mechanism 7, the beacon 8 and the oil removing mechanism 2, the transfer case 6 and the pumping pressure mechanism 5 are both positioned on the windmill rod 14, the bottom of the windmill rod 14 is positioned in the foundation mechanism 7, the pumping pressure mechanism 5 comprises an outer spherical shell 51, an inner spherical shell 52 is arranged in the outer spherical shell 51, pumping liquid pipes 53 are arranged on two sides of the inner spherical shell 52, push blocks are arranged in the pumping liquid pipes 53, two ends of each push block are fixedly connected with a first hinge rod 54, a pull rope is connected between each push block and the hanging basket 4, a one-way liquid inlet is arranged on the surface of the inner spherical shell 52, a pumping pressure pipe is connected between the inner spherical shell 52 and the direction indicator 8, and a one-way valve chamber 61 is arranged on each; the hanging basket 4 is connected with the transfer box 6 and is fixed on the windmill rod 14 along with the transfer box 6, because the hanging basket 4 is in the sea, the hanging basket 4 is driven to shake back and forth in the sea when the sea water flows, the hanging basket 4 can intermittently pull the push block through the pull rope when shaking back and forth, when the hanging basket 4 is far away from the pumping mechanism 5, the push block is pulled to enable the inner side of the pump liquid pipe 53 to generate negative pressure, the inner spherical shell 52 sucks the sea water through the one-way liquid inlet, when the hanging basket 4 is close to the pumping mechanism 5, the pull rope is loosened, the push plate rebounds under the effect of the rebounding force of the first hinge rod 54, the pump pressure in the inner spherical shell 52 is utilized to pump the sucked sea water to the wind vane through the pump pipe, meanwhile, because the one-way valve chamber 61 is arranged, the sea water which is pumped to the wind vane can not return, and further, as the hanging basket 4 shakes in the sea water, the effect of power is provided for the direction of the direction indicator 8 to the windmill mechanism 1, meanwhile, the pumping mechanism 5 can also suck phytoplankton such as aquatic weeds in seawater in the process of sucking seawater and send the phytoplankton into the pumping pipe, the aquatic weeds are extruded and ground under the action of high water pressure, the aquatic weeds which are extruded and ground are sprayed into the hanging basket 4 during subsequent backflow, and the aquatic weeds are prevented from being accumulated near the hanging basket 4 and food is provided for fish schools.

The beacon 8 comprises a lower rotary table, a one-way ratchet wheel is arranged between the lower rotary table and the windmill rod 14, an air sensing plate is arranged on one side of the lower rotary table, an upper rotary table is arranged above the lower rotary table, the upper rotary table is fixedly connected with the windmill rod 14, a torsion tube is connected between the lower rotary table and the upper rotary table, and the torsion tube is connected with a pump pressure tube; the vane 8 cuts off the windmill pole 14, when the wind blowing from sea surface reaches the wind sensing plate, if the wind sensing plate is not parallel to the wind direction, the wind sensing plate will receive the lateral thrust of the wind flow, and then drive the lower rotary disc to rotate along with the wind sensing plate in one way, the rotary disc will distort after rotating, the pump pressure pipe will pump high water pressure in the torsion pipe, the torsion pipe will be pumped straight under high water pressure, and because the lower rotary disc and the windmill pole 14 are provided with one-way ratchets, when the torsion pipe is pumped straight, the reverse acting force received by the lower rotary disc will be blocked, so that the hydraulic pump drives the upper rotary disc above the torsion pipe to follow the rotation of the lower rotary disc, and the upper rotary disc is fixedly connected with the cut-off upper part windmill pole 14, thereby realizing the function that the windmill pole 14 drives the large wind blade 11 to follow the rotation of the wind sensing plate, under the wind force, the wind sensing plate is always parallel to the wind direction, and no matter what wind direction the large wind blade 11 faces the wind direction all the time, the wind energy is fully absorbed, and the effect of improving the wind energy extraction efficiency of the windmill mechanism 1 is achieved.

The oil removing mechanism 2 comprises a frustum cavity 21, a threaded sleeve cavity 23 is arranged in the middle of the frustum cavity 21, the inner side of the threaded sleeve cavity 23 is in threaded connection with the windmill rod 14, two sides of the frustum cavity 21 are provided with through holes, springs inside the through holes are connected with connecting rods, two ends of each connecting rod are provided with oil collecting ladles 22, two sides of the inside of the frustum cavity 21 are provided with folded plates, and one side of the threaded sleeve cavity 23 is connected with a negative pressure pipe; when a large amount of oil floats on the sea surface, the density of the oil is less than that of the sea water, so that the oil collecting dipper 22 floating on the sea surface is subjected to buoyancy reduction and slightly sinks, the surrounding oil is introduced into the oil collecting dipper 22, meanwhile, the waves on the sea surface continuously fluctuate, the oil collecting dipper 22 also vertically shakes relative to the frustum cavity 21, each time the oil collecting dipper 22 relatively upwards shakes to the frustum cavity 21, the oil collecting flutters blocked by the through holes, the oil in the oil collecting dipper cavity is subjected to inertia action and enters the frustum cavity 21 through the through holes, the threaded sleeve cavity 23 is connected with the frustum cavity 21, the external part of the threaded sleeve cavity 23 is connected with a negative pressure pipe, so that the threaded sleeve cavity 23 generates negative pressure suction force on the internal part of the frustum cavity 21, the oil entering the frustum cavity 21 is sucked to the threaded sleeve cavity 23, the oil can be mixed with the sea water when the oil collecting dipper 22 collects oil, and each time a large amount of liquid is sucked into the threaded sleeve cavity 23, only the former part of liquid can enter, the latter part pushes the folded plate in the entering process, so that the folded plate is closed to block the latter part of liquid and then flows out of the perforation, and the density of the oil is less than that of the seawater and the oil is easier to be sucked, therefore, the former part of liquid is mostly oil, the effect of primarily filtering the seawater is realized by arranging the folded plate, and the oil absorption purity of the oil removing mechanism 2 is improved; when the wave is great, the wave can drive frustum chamber 21 and float from top to bottom, and threaded sleeve chamber 23 and windmill pole 14 threaded connection, rock from top to bottom at frustum chamber 21 and make it rotatory around windmill pole 14 simultaneously, because of when sea surface wave is great, partial wave can directly impact inside frustum chamber 21, be inhaled by threaded sleeve chamber 23, and then carry the existence production influence to the oil, through above-mentioned step, frustum chamber 21 can be according to wave size self-adaptation adjustment rotational speed, the big rotational speed of wave is higher, the centrifugal force of production can effectively avoid the sea water to sneak into among the oil removal mechanism 2, the purity of drawing the oil has been improved greatly.

The other end of the negative pressure pipe is connected with a purification tank 24, the top in the purification tank 24 is provided with an upper valve cover, the inner side of the upper valve cover is provided with an upper floating ball 44, the bottom in the purification tank 24 is provided with a lower valve cover, the inner side of the lower valve cover is provided with a lower floating ball 44, the upper valve cover is connected with the pipeline in the shaft barrel 13, and the pipeline of the lower valve cover is connected with a sprinkler head; after the primarily purified oil collected in the threaded sleeve cavity 23 is pumped into the purification tank 24 by the negative pressure pipe, the oil liquid is placed still in the purification tank 24, the doped seawater is distributed at the lower layer of the purification tank 24, the pure oil stock solution is distributed at the upper layer of the purification tank 24, the buoyancy is small due to the small density of the oil, the floating ball 44 sinks, the upper valve cover is conducted, the pure oil stock solution enters the upper pipeline and flows into the shaft barrel 13, the buoyancy of the seawater at the lower layer is large, the lower floating ball 44 floats upwards to conduct the lower valve cover, the seawater can flow out of the lower valve cover to the sprinkler head, the seawater falls onto the sea surface near the hanging basket 4 from the sprinkler head, the effect of driving the fish swarm near the culture device is achieved, and the phenomenon that other fish species in the sea damage the hanging basket 4 and culture fish swarm is avoided; when the inside of the purifying tank 24 is totally petroleum, the lower floating ball 44 cannot float upwards due to small buoyancy, and the lower valve cover is blocked, so that secondary leakage of the petroleum is avoided, and when the inside of the purifying tank 24 is totally seawater, the upper floating ball 44 cannot sink due to large buoyancy, and the upper valve cover is blocked, so that the purified petroleum is prevented from being reduced due to the fact that the seawater enters the shaft barrel 13; the effect of further separating the petroleum and the seawater is realized through the steps, and the separated seawater is used for driving away external fish schools, so that the effect of protecting the cultured fish schools is achieved.

The shaft barrel 13 is internally provided with the detonation mechanism 3, the detonation mechanism 3 comprises a ring sleeve 31, a cam 35 is arranged in the ring sleeve 31, a plurality of pressure chambers 34 are arranged in the ring sleeve 31, oil pipes 32 are connected among the pressure chambers 34, oil inlets 33 are arranged on the oil pipes 32, one-way valves are arranged at two ends of the oil inlets 33, the oil inlets 33 are connected with an upper valve cover pipeline, a piston rod is arranged in the pressure chambers 34, one end of the piston rod is provided with a spring, one side of each pressure chamber 34 is provided with a flint, a pressure valve is arranged at the port of each pressure chamber 34, the pressure chambers 34 are connected with a feeder 43 through a pipeline, the pressure chambers 34 are connected with a sound guide ring in a circular ring shape and are arranged above the hanging basket 4; the ring sleeve 31 is connected with the shaft barrel 13 and rotates along with the shaft barrel 13, the cam 35 is arranged in the ring sleeve 31, when the ring sleeve 31 rotates, the cam 35 rotates compared with the ring sleeve 31, so that the cam 35 continuously extrudes a piston rod, purified high-purity petroleum is pumped into the oil inlet hole 33 through a pipeline and flows to the inside of the pressure chamber 34 through the oil pipe 32, when the piston rod is extruded, the piston rod extrudes the inside of the pressure chamber 34, the check valves on the two sides of the pressure chamber 34 enable the gas to be not discharged when the pressure chamber 34 is extruded, when the piston rod is extruded to the maximum value, the air pressure in the pressure chamber 34 is highest, the internal energy reaches the maximum, the rough part on one side of the piston rod marks the fling stone, under the condition that the petroleum is filled in the high pressure and the inside, sparks are ignited, the pressure valve is opened, the air pressure generated by explosion in the pressure chamber 34 is conveyed to the feeder 43 along the pipeline, and then the fish food is fried through the feeder 43, make fish food spray the scope bigger, it is even to spread all over, compare in the tradition fish food of throwing something and feeding, can only concentrate the input in 4 local portions of hanging flower basket, can cause fish food to distribute inhomogeneously, some fish can not eat the result that the fish eaten, and can also put in fish food because of concentrating one place, make this fish food too late to eat and be washed away by the sea water, cause the waste, therefore, through being provided with some mechanism 3 of exploding, the even food of throwing has been realized, avoid extravagant effect, the explosion sound that the mechanism 3 of exploding produced simultaneously propagates in the sound guide ring, make explosion sound be cyclic annular and send around hanging flower basket 4, realized driving the shoal of fish to reach the place that the middle fish food of hanging flower basket 4 is more relatively, also have the effect of reminding shoal of fish food feed, prevent to put in behind the fish food that some shoal fish food is in time not discover to cause fish food extravagant.

The hanging basket 4 comprises a fish food bin 41 and a culture bin 42, a partition plate is arranged between the fish food bin 41 and the culture bin 42, the feeder 43 comprises a spraying ball and a suction pipe, the partition plate is positioned between the suction pipe and the spraying ball, a floating ball 44 is arranged inside the culture bin 42, the floating ball 44 is in pipeline connection with the foundation mechanism 7, the foundation mechanism 7 comprises a foundation shell 71, the foundation shell 71 is in pipeline connection with the floating ball 44, an air pressure cavity is arranged inside the first hinge rod 54, and the air pressure cavity is in pipeline connection with the foundation shell 71; the fish feed bin 41 and the culture bin 42 are isolated by a partition plate, fish food is filled in the fish feed bin 41, the side wall of the material suction pipe is provided with a one-way port, fish food around the fish feed bin can enter from the one-way port under the action of side pressure, when the pressure chamber 34 is exploded by the igniter 3, instant explosive force can spray the fish food stored in the material suction pipe out, meanwhile, air flow in the material suction pipe rapidly passes through the material suction pipe during explosion, so that negative pressure is generated in the material suction pipe, the fish food around the fish feed bin 41 is sucked and supplemented, the steps are circulated, the functions of automatic material spraying and fish feeding and automatic material supplementing are realized, when tornado exists on the sea surface, a vortex is generated in the sea area near the hanging basket 4, the hanging basket 4 rotates around the windmill rod 14 under the action of the vortex, a pull rope between the hanging basket 4 and the push block is tightened under the action of centrifugal force, the push block is pulled from the interior of the pump pipe 53 to the outer spherical shell 51, so that the, the air pressure cavity is squeezed to be reduced by the hinge rod I54, air flow in the air pressure cavity is squeezed to the interior of the foundation shell 71 and is pumped into the floating ball 44 from the foundation shell 71, the floating ball 44 is expanded, buoyancy is increased, the partition is propped against and moves upwards under the action of buoyancy, the fish food bin 41 is reduced, internal fish food is more compact under the extrusion of the partition and is not easy to shake in the fish food bin 41, so that temporary sea surface vortexes are realized, the fish food cannot be completely accumulated to one side of the hanging basket 4 due to centrifugal force generated by the rotation of the hanging basket 4, the damage of the centrifugal force of the fish food to the hanging basket 4 during vortexing is reduced, and the problem that the material suction efficiency of the material suction pipe is reduced due to the fact that the fish food is completely accumulated; meanwhile, after the floating ball 44 is expanded, the four walls of the hanging basket 4 are supported from the inside, and the effect of protecting the hanging basket 4 from being damaged under the impact of the vortex flow is achieved.

A control cavity 62 is arranged in the transfer case 6, valve plates are arranged on two sides of the control cavity 62, the control cavity 62 is connected with a pump pressure pipe, the two valve plates are respectively connected with the tops of the two hanging baskets 4 through folding rods, a second hinge rod is connected in the control cavity 62, a one-way valve cover is arranged in the one-way valve chamber 61, the one-way valve cover is connected with a one-way valve ball in a matched mode, injection pipes are arranged on two sides of the one-way valve chamber 61, and a guide rod is connected between the one-way valve; when tornado exists on the sea surface, centrifugal force generated by continuous rotation of the hanging basket 4 also pulls the folding rod at the top end of the hanging basket 4, the folding rod pulls the valve plate, the valve plate is pulled to two sides by overcoming the torsion of the hinge rod II, the hinge rod II is straightened, a guide rod connected with the hinge rod II is further pulled, the one-way valve ball is pulled open, the one-way valve chamber 61 is conducted in two directions, after the one-way valve chamber 61 is conducted in two directions, the pumping mechanism 5 pumps seawater pointing to the marker 8 through the pumping pipe to flow back, the seawater flows back to the inside of the one-way valve chamber 61 because the marker 8 is in a higher position, the water pressure of the backflow is higher, the backflow water is ejected from the ejection pipes at two sides to flush the hanging basket 4, garbage such as fish food, fish dung and the like remained on the four walls of the hanging basket 4 is flushed away from the hanging basket 4, and ground seaweed at the ejection position is used for feeding fish, the probability of oxygen deficiency death and infectious disease increase of fish schools caused by poor permeability is achieved, and the success rate of hanging basket 4 cultivation is improved; meanwhile, because of the backflow of seawater, the water pressure in the pump pumping pipe is reduced, when tornado comes, the wind sensing plate senses that the tornado comes from the force in different directions to drive the lower rotary disc to rotate, the water pressure in the torsion pipe is not enough to pump the torsion pipe straight, and therefore the upper movable disc cannot be driven to rotate along with the torsion pipe, the function of disabling the directional indicator 8 is achieved when the tornado comes, the directional indicator 8 is effectively prevented from rotating randomly at any place due to the turbulent airflow caused by the tornado, the windmill mechanism 1 is enabled to rotate irregularly and rapidly, the stable and stable rotation of the windmill mechanism 1 when the tornado comes is improved, and the windmill mechanism 1 is prevented from being damaged by the tornado.

The inner wall of the breeding bin 42 is provided with a plurality of wall bags 45, a main buffering air bag 72 is arranged inside the foundation shell 71, a plurality of auxiliary buffering air bags 74 are arranged on two sides of the main buffering air bag 72, a foundation block 73 is arranged below the main buffering air bag 72, the foundation block 73 is fixedly connected with the windmill pole 14, and the wall bags 45 are correspondingly connected with the auxiliary buffering air bags 74 one by one; the jellyfishes are cultured in the culture bin 42, when a storm comes, the jellyfishes can concentrate on escaping in one direction and further impact one of the wall bags 45, the air pressure extruded by the impact of the wall bag 45 flows into the corresponding auxiliary buffering air bag 74 through a pipeline, so that the auxiliary buffering air bag 74 on one side in the same escaping direction as the jellyfishes is propped open, when the storm comes, the air pressure extruded by the impact of the wall bag 45 can blow to the windmill mechanism 1 from the opposite direction of the jellyfishes escaping, the windmill mechanism 1 drives the windmill rod 14 to topple in the escaping direction of the jellyfishes, the foundation block 73 inclines, the auxiliary buffering air bag 74 on one side in the same escaping direction as the jellyfishes is propped open, the main buffering air bag 72 is matched to conduct targeted buffering and inclination resisting on the foundation block 73, the preventing and storm resisting performance of the windmill mechanism 1 is improved, and the effect of preventing the windmill mechanism 1 from being blown down by the storm is achieved.

The surface of the outer spherical shell 51 is provided with a plurality of barbs, and the barbs and the hanging basket 4 are in a matching structure; when the hanging basket 4 is used for a long time and is influenced by storms and the like, the hanging basket 4 gradually becomes loose, so that the deformation amplitude of the hanging basket 4 is increased when the hanging basket 4 shakes, when the hanging basket 4 loosens to a certain value, the hanging basket 4 can shake on the outer spherical shell 51 along with the shaking of sea waves, the barbed hooks on the outer spherical shell 51 hook the net wires, the loose hanging basket 4 is tensioned again, the hanging basket 4 which is loosened is prevented from being damaged by the impact of the sea waves more greatly, the effect of slowing down the damage speed of the hanging basket 4 is achieved, meanwhile, the net wires hook on the outer spherical shell 51, the hanging basket 4 is further fixed, and the possibility of impact separation of the hanging basket 4 is reduced.

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.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an anti-swing construction hanging basket for high altitude construction, includes windmill mechanism (1), its characterized in that: windmill mechanism (1) is including windmill pole (14), windmill pole (14) support is connected with axle cylinder (13), a plurality of big fan blade (11) have been cup jointed in axle cylinder (13) peripheral ring cover (31), big fan blade (11) one side correspondence is provided with a plurality of wind pole (15), a plurality of wind pole (15) all are connected with axle cylinder (13), a plurality of wind pole (15) surface is provided with fixture block, a plurality of big fan blade (11) surface all is provided with the draw-in groove, fixture block and draw-in groove are cooperation structure, a plurality of wind pole (15) surface arrangement is provided with a plurality of micromotor axle, a plurality of the rear end of micromotor axle all is provided with the damping stopper, all is provided with little fan blade (12) on a plurality of micromotor axle, axle cylinder (13) internal connection has generator assembly.

2. The anti-swing construction basket for high-altitude operation according to claim 1, characterized in that: the lower part of the windmill mechanism (1) is provided with a direction indicator (8), the lower part of the direction indicator (8) is provided with an oil removing mechanism (2), the lower part of the oil removing mechanism (2) is provided with a transit box (6), two ends of the transit box (6) are connected with a hanging basket (4), the lower part of the transit box (6) is provided with a pumping mechanism (5), the lower part of the pumping mechanism (5) is provided with a foundation mechanism (7), the direction indicator (8), the oil removing mechanism (2), the transit box (6) and the pumping mechanism (5) are all positioned on a windmill rod (14), the bottom of the windmill rod (14) is positioned in the foundation mechanism (7), the pumping mechanism (5) comprises an outer spherical shell (51), an inner spherical shell (52) is arranged inside the outer spherical shell (51), pump liquid pipes (53) are arranged on two sides of the inner spherical shell (52), and a pushing block is arranged in the pump liquid pipes (53), the improved lifting device is characterized in that first hinge rods (54) are fixedly connected to the two ends of the push block, a pull rope is connected between the push block and the hanging basket (4), a one-way liquid inlet is formed in the surface of the inner spherical shell (52), a pump pumping pipe is connected between the inner spherical shell (52) and the direction indicator (8), and a one-way valve chamber (61) is formed in the pump pumping pipe.

3. The anti-swing construction basket for high-altitude operation according to claim 2, characterized in that: the direction indicator (8) is including lower carousel, be provided with one-way ratchet down between carousel and windmill pole (14), carousel one side is provided with the induced air board down, lower carousel top is provided with the driving disk, go up driving disk and windmill pole (14) fixed connection, be connected with the torque tube down between carousel and the last driving disk, the torque tube is connected with the pump pressure union coupling.

4. The anti-swing construction basket for high-altitude operation according to claim 3, characterized in that: deoiling mechanism (2) is including frustum chamber (21), the centre department of frustum chamber (21) is provided with screw thread cover chamber (23), so-called screw thread cover chamber (23) inboard and windmill pole (14) threaded connection, frustum chamber (21) both sides are provided with the perforation, the inside spring coupling that perforates has the connecting rod, the connecting rod both ends are provided with collection oil dipper (22), the inside both sides of frustum chamber (21) are provided with the folded plate, screw thread cover chamber (23) one side is connected with the negative pressure pipe.

5. The anti-swing construction basket for high altitude construction according to claim 4, wherein: the other end of the negative pressure pipe is connected with a purification tank (24), an upper valve cover is arranged at the inner top of the purification tank (24), an upper floating ball (44) is arranged on the inner side of the upper valve cover, a lower valve cover is arranged at the inner bottom of the purification tank (24), a lower floating ball (44) is arranged on the inner side of the lower valve cover, the upper valve cover is connected with an inner pipeline of the shaft barrel (13), and a sprinkler head is connected with the lower valve cover through a pipeline.

6. The anti-swing construction basket for high altitude construction according to claim 5, wherein: an explosion mechanism (3) is arranged in the shaft barrel (13), the explosion mechanism (3) comprises a ring sleeve (31), a cam (35) is arranged in the ring sleeve (31), a plurality of pressure chambers (34) are arranged in the ring sleeve (31), oil pipes (32) are connected among the pressure chambers (34), an oil inlet hole (33) is arranged on the oil pipe (32), two ends of the oil inlet hole (33) are provided with one-way valves, the oil inlet hole (33) is connected with an upper valve bonnet pipeline, a piston rod is arranged in the pressure chamber (34), one end of the piston rod is provided with a spring, one side of the pressure chamber (34) is provided with a flint, a pressure valve is arranged at the port of the pressure chamber (34), a feeding device (43) is connected with the pressure chamber (34) through a pipeline, the pressure chamber (34) is connected with a sound guide ring through a pipeline, and the sound guide ring is arranged above the hanging basket (4) in a circular ring shape.

7. The anti-swing construction basket for high altitude construction according to claim 6, wherein: hanging flower basket (4) are eaten storehouse (41) and are bred storehouse (42) including the fish, the fish is eaten storehouse (41) and is bred and be provided with the baffle between storehouse (42), feeder (43) are including spraying the ball and inhaling the material pipe, the baffle is located inhales the material pipe and sprays between the ball, breed storehouse (42) inside and be provided with floater (44), floater (44) and ground mechanism (7) pipe connection, ground mechanism (7) are including ground casing (71), ground casing (71) and floater (44) pipe connection, the inside atmospheric pressure chamber that is provided with of hinge bar (54), atmospheric pressure chamber and ground casing (71) pipe connection.

8. The anti-swing construction basket for high altitude construction according to claim 7, wherein: the improved oil-water separation device is characterized in that a control cavity (62) is arranged inside the transfer case (6), valve plates are arranged on two sides of the control cavity (62), the control cavity (62) is connected with a pumping pressure pipe, two folding rods are connected with the top portions of two hanging baskets (4) through the valve plates respectively, a hinge rod II is connected with the inside of the control cavity (62), a check valve cover is arranged inside the check valve chamber (61), a check valve ball is connected with the check valve cover in a matched mode, injection pipes are arranged on two sides of the check valve chamber (61), and guide rods are connected between the check valve ball and the hinge rod II.

9. The anti-swing construction basket for high altitude construction according to claim 8, wherein: breed and be provided with a plurality of wall bag (45) on storehouse (42) inner wall, ground casing (71) inside is provided with main buffering gasbag (72), main buffering gasbag (72) both sides are provided with a plurality of and assist buffering gasbag (74), the below of main buffering gasbag (72) is provided with ground base block (73), ground base block (73) and windmill pole (14) fixed connection, a plurality of wall bag (45) are connected with assisting buffering gasbag (74) one-to-one.

10. The anti-swing construction basket for high altitude construction according to claim 9, wherein: the surface of the outer spherical shell (51) is provided with a plurality of barbs, and the barbs and the hanging basket (4) are of a matching structure.