CN114151283A - Intelligent aerogenerator based on thing networking - Google Patents

Abstract

The invention belongs to the technical field of wind power generation equipment, and particularly relates to an intelligent wind driven generator based on the Internet of things, which comprises a rack, wherein the top end of the rack is provided with an engine room; the water storage tank is arranged on one side of the cabin, two sides of the top end of the water storage tank are rotatably connected with baffle plates through torsional springs, the end parts of the two baffle plates, which are close to each other, are provided with magnetic blocks, the bottom surfaces of the end parts, which are close to each other, of the baffle plates are connected with floating blocks, the surface of the cabin is wrapped with a heat dissipation layer, and the heat dissipation layer is connected with the bottom end of the water storage tank through a conveying strip; according to the invention, the baffle plate capable of plugging the water storage tank along with the liquid level is arranged, so that the evaporation loss of rainwater in the water storage tank is reduced, the conveying strips can continuously convey the rainwater to the heat dissipation layer on the outer surface of the cabin and efficiently dissipate the heat in the cabin, an electric driving structure is not required, the energy is saved, the environment is protected, and meanwhile, the heat dissipation work of the wind driven generator can be performed more stably.

Description

Intelligent aerogenerator based on thing networking

Technical Field

The invention belongs to the technical field of wind power generation equipment, and particularly relates to an intelligent wind driven generator based on the Internet of things.

Background

The wind driven generator has the working principle that the wind wheel rotates under the action of wind force, the kinetic energy of the wind is converted into mechanical energy of a wind wheel shaft, and the generator is driven by the wind wheel shaft to rotate to generate electricity. The wind-driven generator generally comprises wind wheels, a generator (including a device), a direction regulator (empennage), a tower, a speed-limiting safety mechanism, an energy storage device and other components.

The Chinese patent with publication number CN107575350B discloses an intelligent wind driven generator with good cooling effect based on the Internet of things, which comprises a cabin and a cooling mechanism, wherein the cooling mechanism comprises a water cooling mechanism and an air cooling mechanism, the water cooling mechanism comprises a water storage tank, a water bucket, an ash discharge pipe, a first water pipe, a water pump, a second water pipe, a third water pipe and a fourth water pipe, the air cooling mechanism comprises a flat plate, an air guide box, a first air pipe, a second air pipe and two supporting rods, the water storage mechanism and a filtering mechanism are arranged in the water storage tank, the intelligent wind driven generator with good cooling effect based on the Internet of things collects water solution in the water storage tank through the water storage mechanism, after the filtering mechanism is used for isolating silt in rainwater, the cooling mechanism is used for cooling, the temperature of the surface of the cabin is taken away through the water cooling mechanism, cold air is conveyed to the inner wall of the cabin through the water cooling mechanism, and hot air is discharged, the cooling effect is further enhanced, so that the components are at a proper environment temperature, and the practicability of the equipment is further improved.

However, in the water storage tank on the wind driven generator based on the internet of things in the technology, the water storage tank needs to be controlled through the set electric structure, meanwhile, the collected rainwater needs to be radiated by the water pump to the engine room, electric energy is wasted, and the driving structure is difficult to maintain timely after being damaged, so that the radiating effect of the wind driven generator is influenced.

Therefore, the invention provides an intelligent wind driven generator based on the Internet of things.

Disclosure of Invention

To remedy the deficiencies of the prior art, at least one of the technical problems set forth in the background is addressed.

The technical scheme adopted by the invention for solving the technical problems is as follows: the intelligent wind driven generator based on the Internet of things comprises a rack, wherein a cabin is arranged at the top end of the rack, the end part of the cabin is rotatably connected with a rotating rod, and the outer end of the rotating rod is connected with blades; the water storage tank is arranged on one side of the cabin, inclined baffles are rotatably connected to two sides of the top end of the water storage tank through torsional springs, mutually attracted magnetic blocks are arranged at the end parts, close to each other, of the two baffle plates, when the end parts of the two magnetic blocks are attached in an adsorption mode, the two baffle plates form a V-shaped structure, floating blocks are connected to the bottom surfaces, close to each other, of the end parts of the baffle plates, the surface of the cabin is wrapped with a heat dissipation layer made of water absorbing materials, the heat dissipation layer is connected with the bottom end of the water storage tank through a conveying pipe, a water absorbing material is arranged in an inner pipe of the conveying pipe and penetrates through a conveying strip in the conveying pipe, a temperature sensor is mounted on the surface of the cabin, and the temperature sensor is connected with the central processing unit through a local area network; in the water storage tank on the wind driven generator in the prior art, the electric structure is arranged to control water storage of the water storage tank, and meanwhile, a water pump is needed to dissipate collected rainwater to an engine room, so that electric energy is wasted, and the driving structure is difficult to maintain in time after being damaged, so that the heat dissipation effect of the wind driven generator is influenced; when the wind driven generator is used, the end parts of the baffles which are close to each other are far away from each other under the action of the torsion spring, rainwater can flow into the water storage tank from a gap between the two baffles until the liquid level in the water storage tank rises to the floating block, upward buoyancy is applied to the floating block, so that the floating block drives the end parts of the baffles which are close to each other to be close to each other until the magnetic blocks at the end parts of the two baffles can attract each other and contact and attach to each other, the two baffles in the V shape can block the water storage tank at the moment, evaporation loss of the rainwater in the water storage tank in subsequent sunny days is reduced, and when the wind driven generator meets the rainy days again, the two baffles can be opened again under the gravity of the rainwater along with the accumulation of the rainwater at the top cavities of the two baffles, so that the water storage work of the water storage tank can be automatically carried out, and the conveying strips can continuously convey the rainwater to the heat dissipation layer on the outer surface of the engine room, and carry out more efficient heat dissipation to the cabin inside through the endothermic form of rainwater evaporation, the operation of storage water tank and heat dissipation mechanism no longer need set up the electric drive structure simultaneously, more energy-concerving and environment-protective, also make simultaneously aerogenerator's heat dissipation work can more stable going on, simultaneously through setting up the temperature-sensing ware that can carry out the monitoring to its temperature on the cabin surface, when the operation of cabin inside high load and heat dissipation are not enough, central processing unit can control the power of generator this moment, reduce the condition that the generator burns out, thereby make the work of generator can pass through the form of thing networking, carry out intelligent regulation, the working life of generator has further been improved.

Preferably, the side wall of the cabin close to the water storage tank is connected with a heat absorption bag, the side wall of the water storage tank corresponding to one side of the heat absorption bag is connected with a support plate, the conveying pipe consists of a fixed pipe and a movable pipe, the free end of the movable pipe is connected to the side wall of the heat absorption bag and is attached to the side wall of the support plate, the free end of the fixed pipe penetrates through the support plate, a gap is reserved between the free end of the fixed pipe and the end part of the movable pipe, and the free end of the movable pipe can be driven to be attached to the free end of the fixed pipe when the heat absorption bag expands; when the temperature on cabin surface is higher, the inside gas of heat absorption bag is heated the inflation this moment, and drive the movable tube on the heat absorption bag to fixed pipe one side motion, until both inside conveying strip tip align and contact, make the conveying strip of mutual intercommunication in movable tube and the fixed pipe can be with the smooth transport of rainwater to the heat dissipation layer, when the temperature on cabin surface is lower and need not dispel the heat, the heat absorption bag drives the conveying strip on the movable tube and the conveying strip disconnection on the fixed pipe after restoring to the throne this moment, the backup pad can carry out the shutoff to the tip of movable tube this moment, reduce the evaporation loss of rainwater in its inside conveying strip, rainwater in the heat dissipation layer is no longer lasting inflow rainwater after the evaporation simultaneously, reduce the waste of rainwater, thereby the utilization effect of rainwater in the water storage tank has been improved.

Preferably, a supporting net is connected inside the fixed pipe, a sliding block is connected to one surface, close to the movable pipe, of the supporting net through a spring, the cross section of the sliding block is in a trapezoidal shape with a wide inner part and a narrow outer part, and the conveying strip penetrates through the supporting net and the inside of the sliding block; when the movable pipe aligns with fixed pipe under the drive of heat absorption bag, the slider pushed the movable pipe inside under the effect of spring this moment to drive the abundant contact of the transport strip in its inside transport strip and the movable pipe, thereby make connection and the intercommunication that two pipe fittings can be stable, improved the stability of transport strip when carrying the rainwater.

Preferably, an annular sleeve is connected to the end face of the cabin at the rotating rod, a group of annular uniformly-distributed arc-shaped pressing bags are connected to the side wall inside the annular sleeve, an air inlet pipe is connected to one end, away from the cabin, of each pressing bag, an air outlet pipe is connected to one end, close to the cabin, of each pressing bag, the free end of each air outlet pipe extends into the cabin, check valves are respectively mounted on the air inlet pipe and the air outlet pipe, and a pressing rod capable of extruding the pressing bags is connected to the side wall of the rotating rod; can drive the pressure pole when the bull stick rotates and extrude pressing the bag, and when pressing the bag by the extrusion, the check valve of intake pipe department is in the closed condition, and the check valve on the outlet duct is in the open condition, thereby make the cold gas in the pressure bag spout cabin inside through the outlet duct, and carry out more efficient heat dissipation to cabin inside, when the depression bar crosses pressing the bag and no longer extrudees it, press the bag to reset under self elastic effect, the check valve of intake pipe department opens this moment, and the check valve of outlet duct department closes, thereby make the pressure bag can inhale outside cold gas, make the heat dissipation work of pressing the bag can continuously reciprocating go on.

Preferably, the annular sleeve is made of stainless steel materials, and a gap is formed between the end part of the pressure rod and the pressure bag; when the temperature on cabin surface is lower and need not dispel the heat, this moment because there is the clearance between depression bar and the pressure bag, reduce the depression bar and press the bag contact extrusion when rotating, and to the rotation condition that produces the resistance of bull stick, make the work of bull stick accessible operation, when the temperature of cabin terminal surface is higher, the cabin can be through the quick transmission of heat to the pressure bag inside through stainless steel's annular cover this moment, make the pressure bag expand to the position department that can contact with the depression bar, thereby make going on that the heat dissipation work of pressure bag can be smooth.

Preferably, the end part of the pressure lever is rotatably connected with a ball, the side wall of the end part of the pressure lever is connected with a brush strip made of a water-absorbing material, and the bottom end of the side wall inside the annular sleeve is provided with an oil storage tank; the pressure lever can reduce the abrasion and the frictional resistance of the pressure lever to the surface of the pressure bag by utilizing the rolling of the ball on the pressure bag, and meanwhile, the brush strip on the pressure lever can adsorb lubricating oil preserved in the oil storage tank in advance and brush the lubricating oil on the surface of each pressure bag, thereby further reducing the friction between the pressure lever and the pressure bag.

Preferably, the end parts of the baffles close to each other are connected with expansion blocks, and the expansion blocks are made of water-swelling water-stop strip materials; when two baffle tops remain the rainwater, but be not enough to push up two baffles when opening, the inflation piece with rainwater contact this moment is in the inflation back for two baffles are equipped with the tip of magnetic block and keep away from each other, and until the appeal of two magnetic blocks is less than the torsional spring effort that the baffle received, opening that two baffles can be smooth this moment, thereby make inside the inflow storage water tank that the remaining rainwater in two baffle tops can be smooth, can in time supply the inside rainwater quantity of storage water tank.

Preferably, an arc-shaped plate is connected to the top surface of the baffle corresponding to one side of the top end of the expansion block, a liquid leakage groove is formed in one end, close to the baffle, of the arc-shaped plate, arc-shaped grooves are formed in the end portions, close to each other, of the arc-shaped plates, a limiting net is connected to the inner portions of the arc-shaped grooves in a sliding mode, and an elastic block is connected between the limiting net and the inner ends of the arc-shaped grooves; the rainwater can contact with spacing net and inflation piece through the weeping groove, when two inflation pieces expand gradually, the tip that the arc was close to each other this moment can support all the time to press the laminating under the effect of elasticity piece to can carry on spacingly to the deformation direction of inflation piece, make the inflation piece can more effectual extend to the horizontal direction, thereby can drive two baffle tip more efficiently and open.

Preferably, a sliding cavity is formed in the top surface of one end, away from each other, of the baffle plate, a sliding plate is connected inside the sliding cavity in a sliding mode, the side wall of the sliding plate is attached to the inner wall of the sliding cavity, an elastic rope is connected between the sliding plate and the top end of the water storage tank, an air bag is arranged inside the expansion block, and the air bag is communicated with the inner end of the sliding cavity through an airflow pipe; can compress the gasbag when the inflation piece, and pass through the air current pipe with inside gas of its portion inside the sliding chamber of impressing, make the slide to the sliding chamber top slide, after rainy day, because the restoration of inflation piece needs certain time, make the liquid level in the water storage tank can descend during this period, thereby can't drive the baffle through the slider and reset, the inflation piece evaporates gradually and when reseing at its inside rainwater this moment, the gasbag can reset in step and drive the slide and slide to the inner of sliding chamber, thereby pull the baffle through the elasticity rope and carry out the forced reset, and then make the top of water storage tank can carry out stable shutoff.

Preferably, a sliding groove is formed in the baffle corresponding to the magnetic block, the magnetic block is connected with the sliding groove in a sliding manner, and one end, close to the expansion block, of the sliding groove is communicated with the airflow pipe through a flow dividing pipe; when the inflation piece pressed the inside gas of gasbag into the air current pipe, partly air current can flow in the sliding tray through the shunt tubes to drive the motion of magnetism piece to the one side of keeping away from each other, reduced the effort of two magnetism piece inter attraction, made two baffles can open by the high efficiency more smoothly.

The invention has the following beneficial effects:

1. according to the invention, the baffle plate capable of plugging the water storage tank along with the liquid level is arranged, so that the evaporation loss of rainwater in the water storage tank is reduced, and meanwhile, in rainy days, along with the accumulation of rainwater in the top chambers of the two baffle plates, the two baffle plates can be opened again under the gravity of the rainwater, so that the water storage work of the water storage tank can be automatically carried out, the conveying strips can continuously convey the rainwater to the heat dissipation layer on the outer surface of the cabin, the interior of the cabin is more efficiently dissipated by the way of rainwater evaporation and heat absorption, an electric driving structure is not required to be arranged, the energy is saved, the environment is protected, and meanwhile, the heat dissipation work of the wind driven generator can be carried out more stably.

2. According to the invention, when the surface temperature of the cabin is low and heat dissipation is not needed, the heat absorption bag drives the conveying strips on the movable pipe to be disconnected with the conveying strips on the fixed pipe, at the moment, the supporting plate can block the end part of the movable pipe, so that the evaporation loss of rainwater in the conveying strips inside the movable pipe is reduced, and simultaneously rainwater in the heat dissipation layer does not continuously flow into the rainwater after evaporation is finished, so that the waste of the rainwater is reduced, and the utilization effect of the rainwater in the water storage tank is improved.

Drawings

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

The invention will be further explained with reference to the drawings.

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

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a partial schematic view of the present invention at the location of the support plate;

FIG. 5 is a schematic structural view of the present invention in a state where the fixed pipe is engaged with the movable pipe;

FIG. 6 is a schematic view of a partial structure of a water storage tank in the second embodiment;

FIG. 7 is an enlarged view at B in FIG. 6;

in the figure: the device comprises a rack 1, a cabin 2, a rotating rod 3, blades 4, a water storage tank 5, a baffle 6, a magnetic block 7, a floating block 8, a heat dissipation layer 9, a conveying pipe 10, a conveying strip 11, a heat absorption bag 12, a supporting plate 13, a fixed pipe 14, a movable pipe 15, a supporting net 16, a sliding block 17, an annular sleeve 18, a pressing bag 19, an air inlet pipe 20, an air outlet pipe 21, a one-way valve 22, a pressing rod 23, a ball 24, a brush strip 25, an oil storage tank 26, an expansion block 27, an arc-shaped plate 28, a liquid leakage tank 29, a limiting net 30, an elastic block 31, a sliding plate 32, an elastic rope 33, an air bag 34, an air flow pipe 35, a sliding groove 36 and a shunt pipe 37.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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.

The first embodiment is as follows:

referring to fig. 1-2, an intelligent wind turbine based on the internet of things according to an embodiment of the present invention includes a frame 1, a nacelle 2 is disposed at a top end of the frame 1, a rotating rod 3 is rotatably connected to an end of the nacelle 2, and blades 4 are connected to an outer end of the rotating rod 3; the water storage tank is arranged on one side of the cabin 2, two sides of the top end of the water storage tank 5 are rotatably connected with inclined baffles 6 through torsional springs, the end parts, close to each other, of the two baffles 6 are provided with magnetic blocks 7 which attract each other, when the end parts of the two magnetic blocks 7 are adsorbed and attached, the two baffles 6 are in a V-shaped shape, the bottom surfaces, close to each other, of the end parts of the two baffles 6 are connected with floating blocks 8, the surface of the cabin 2 is wrapped with a heat dissipation layer 9 made of a water absorption material, the heat dissipation layer 9 is connected with the bottom end of the water storage tank 5 through a conveying pipe 10, an inner pipe of the conveying pipe 10 is provided with a water absorption material and penetrates through a conveying strip 11 inside the conveying pipe, a temperature sensor is arranged on the surface of the cabin 2, and the temperature sensor is connected with a central processing unit through a local area network; in the water storage tank on the wind driven generator in the prior art, the electric structure is arranged to control water storage of the water storage tank, and meanwhile, a water pump is needed to dissipate collected rainwater to the cabin 2, so that electric energy is wasted, and the driving structure is difficult to maintain in time after being damaged, so that the heat dissipation effect of the wind driven generator is influenced; when the wind driven generator is used, the end parts of the baffles 6 which are close to each other are far away from each other under the action of the torsion spring, rainwater can flow into the water storage tank 5 from the gap between the two baffles 6 at the moment until the liquid level in the water storage tank 5 rises to the floating block 8, and upward buoyancy is applied to the floating block 8, so that the floating block 8 drives the end parts of the baffles 6 which are close to each other to be close to each other until the magnetic blocks 7 at the end parts of the two baffles 6 can attract each other and contact and attach each other, at the moment, the two baffles 6 in the V shape can block the water storage tank 5, the evaporation loss of the rainwater in the water storage tank 5 in the following sunny days is reduced, and simultaneously when the rainwater meets the rainy days again, the two baffles 6 can be opened again under the gravity of the rainwater along with the accumulation of the top cavities of the two baffles 6, so that the water storage operation of the water storage tank 5 can be automatically carried out, and the conveying strips 11 can continuously convey the rainwater to the heat dissipation layer 9 on the outer surface of the cabin 2, the interior of the cabin 2 is radiated more efficiently in a rainwater evaporation and heat absorption mode, and meanwhile, an electric driving structure is not needed to be arranged in the operation of the water storage tank 5 and the radiating mechanism, so that the energy is saved, the environment is protected, and meanwhile, the radiating work of the wind driven generator can be performed more stably; simultaneously through the temperature-sensing ware that can carry out monitoring to its temperature setting on 2 surfaces in cabin, when 2 inside high load operation in cabin and the heat dissipation is not enough, central processing unit can control the power of generator this moment, reduces the condition that the generator burns out to make the work of generator can carry out intelligent regulation through the form of thing networking, further improved the working life of generator.

As shown in fig. 4-5, a heat absorption bag 12 is connected to a side wall of the cabin 2 close to the water storage tank 5, a support plate 13 is connected to a side wall of the water storage tank 5 corresponding to one side of the heat absorption bag 12, the conveying pipe 10 is composed of a fixed pipe 14 and a movable pipe 15, a free end of the movable pipe 15 is connected to the side wall of the heat absorption bag 12 and is attached to the side wall of the support plate 13, the free end of the fixed pipe 14 penetrates through the support plate 13 and has a gap with an end of the movable pipe 15, and the free end of the movable pipe 15 can be driven to be attached to the free end of the fixed pipe 14 when the heat absorption bag 12 expands; when the temperature on the surface of the cabin 2 is higher, the gas inside the heat absorption bag 12 is heated to expand and drives the movable tube 15 on the heat absorption bag 12 to move towards one side of the fixed tube 14 until the end parts of the conveying strips 11 inside the heat absorption bag and the fixed tube are aligned and contacted, so that the mutually communicated conveying strips 11 in the movable tube 15 and the fixed tube 14 can smoothly convey rainwater to the heat dissipation layer 9, when the temperature on the surface of the cabin 2 is lower and heat dissipation is not needed, the heat absorption bag 12 drives the conveying strips 11 on the movable tube 15 to be disconnected with the conveying strips 11 on the fixed tube 14 after resetting, the supporting plate 13 can plug the end parts of the movable tube 15 at the moment, evaporation loss of rainwater in the conveying strips 11 inside the cabin is reduced, meanwhile, rainwater in the heat dissipation layer 9 does not continuously flow into the rainwater after evaporation, waste of the rainwater is reduced, and accordingly, and the utilization effect of the rainwater in the water storage tank 5 is improved.

A supporting net 16 is connected inside the fixed pipe 14, a sliding block 17 is connected to one surface, close to the movable pipe 15, of the supporting net 16 through a spring, the cross section of the sliding block 17 is in a trapezoidal shape with a wide inner part and a narrow outer part, and the conveying strip 11 penetrates through the supporting net 16 and the sliding block 17; when the movable tube 15 aligns with the fixed tube 14 under the drive of the heat absorption bag 12, the slide block 17 presses the movable tube 15 under the action of the spring, and drives the conveying strips 11 in the movable tube 15 to be in full contact with the conveying strips 11 in the movable tube 15, so that the two pipe fittings can be stably connected and communicated, and the stability of the conveying strips 11 in the rainwater conveying process is improved.

As shown in fig. 3, an annular sleeve 18 is connected to the end face of the nacelle 2 at the position of the rotating rod 3, a group of annular uniformly-distributed arc-shaped pressing bags 19 is connected to the side wall inside the annular sleeve 18, an air inlet pipe 20 is connected to one end, away from the nacelle 2, of each pressing bag 19, an air outlet pipe 21 is connected to one end, close to the nacelle 2, of each pressing bag 19, the free end of each air outlet pipe 21 extends into the nacelle 2, check valves 22 are respectively installed on the air inlet pipe 20 and the air outlet pipe 21, and a pressing rod 23 capable of pressing the pressing bags 19 is connected to the side wall of the rotating rod 3; the rotating rod 3 can drive the pressure rod 23 to extrude the pressure bag 19 when rotating, and the pressure bag 19 is extruded, the check valve 22 at the air inlet pipe 20 is in a closed state, and the check valve 22 on the air outlet pipe 21 is in an open state, so that cold gas in the pressure bag 19 can be sprayed into the cabin 2 through the air outlet pipe 21, and more efficient heat dissipation is performed on the inside of the cabin 2, when the pressure rod 23 crosses the pressure bag 19 and is not extruded any more, the pressure bag 19 resets under the elastic effect of the pressure bag 19, at the moment, the check valve 22 at the air inlet pipe 20 is opened, and the check valve 22 at the air outlet pipe 21 is closed, so that the pressure bag 19 can suck the external cold gas, and the heat dissipation work of the pressure bag 19 can be continuously performed in a reciprocating manner.

The annular sleeve 18 is made of stainless steel material, and a gap is arranged between the end part of the pressure rod 23 and the pressure bag 19; when the temperature on the surface of the cabin 2 is lower and does not need heat dissipation, at the moment, because a gap exists between the pressure rod 23 and the pressure bag 19, the contact extrusion of the pressure rod 23 and the pressure bag 19 when rotating is reduced, and resistance is generated to the rotation of the pressure rod 3, so that the work of the pressure rod 3 can be operated without obstacles, when the temperature of the end surface of the cabin 2 is higher, the cabin 2 can rapidly transmit heat to the inside of the pressure bag 19 through the annular sleeve 18 made of stainless steel, so that the pressure bag 19 expands to the position where the pressure rod 23 can be contacted, and the heat dissipation work of the pressure bag 19 can be smoothly carried out.

The end part of the pressure lever 23 is rotatably connected with a ball 24, the side wall of the end part of the pressure lever 23 is connected with a brush strip 25 made of water-absorbing material, and the bottom end of the side wall inside the annular sleeve 18 is provided with an oil storage tank 26; the press rod 23 can reduce the abrasion and the frictional resistance of the press rod 23 on the surface of the press bag 19 by utilizing the rolling of the ball 24 on the press bag 19, and the brush strip 25 on the press rod 23 can adsorb the lubricating oil preserved in the oil storage tank 26 in advance and brush the lubricating oil on the surface of each press bag 19, thereby further reducing the friction between the press rod 23 and the press bag 19.

Example two:

as shown in fig. 6 to 7, a first comparative example, in which another embodiment of the present invention is: the end parts of the baffles 6 close to each other are connected with expansion blocks 27, and the expansion blocks 27 are made of water-swelling water-stop strip materials; when two 6 tops of baffle remain the rainwater, but be not enough to push up two baffles 6, the inflation piece 27 with the rainwater contact this moment is in the inflation back for two baffles 6 are equipped with the tip of magnetic block 7 and keep away from each other, and until the appeal of two magnetic blocks 7 is less than the torsional spring effort that baffle 6 received, two baffles 6 can be smooth opening this moment, thereby make inside 5 that the remaining rainwater in two 6 tops of baffle can be smooth inflow storage water tank, can in time supply the inside rainwater quantity of storage water tank 5.

The top surface of the baffle 6 corresponding to one side of the top end of the expansion block 27 is connected with an arc-shaped plate 28, one end of the arc-shaped plate 28 close to the baffle 6 is provided with a liquid leakage groove 29, the end parts of the arc-shaped plates 28 close to each other are provided with arc-shaped grooves, the inner parts of the arc-shaped grooves are connected with a limiting net 30 in a sliding manner, and an elastic block 31 is connected between the limiting net 30 and the inner ends of the arc-shaped grooves; the rainwater can contact with the expansion block 27 through weeping groove 29 and spacing net 30, when two expansion blocks 27 expand gradually, the tip that the arc 28 was close to each other this moment can support all the time to press the laminating under the effect of elastic block 31 to can be spacing to the deformation direction of expansion block 27, make expansion block 27 can more effectual extend to the horizontal direction, thereby can drive two 6 tip of baffle of efficient and open.

A sliding cavity is formed in the top surface of one end, away from each other, of the baffle 6, a sliding plate 32 is connected in the sliding cavity in a sliding mode, the side wall of the sliding plate 32 is attached to the inner wall of the sliding cavity, an elastic rope 33 is connected between the sliding plate 32 and the top end of the water storage tank 5, an air bag 34 is arranged in the expansion block 27, and the air bag 34 is communicated with the inner end of the sliding cavity through an air flow pipe 35; can compress gasbag 34 when inflation piece 27 expands, and pass through the gas flow pipe 35 with its inside gas and impress inside the sliding chamber, make slide 32 slide to the sliding chamber top, after rainy day, because the restoration of inflation piece 27 needs certain time, make the liquid level in the storage water tank 5 can descend during this period, thereby can't drive baffle 6 through slider 8 and reset, inflation piece 27 evaporates gradually and when reseing at its inside rainwater this moment, gasbag 34 can reset in step and drive slide 32 and slide to the sliding chamber inner, thereby pull baffle 6 through elastic rope 33 and reset by force, and then make the top of storage water tank 5 carry out stable shutoff.

A sliding groove 36 is formed in the baffle 6 corresponding to the magnetic block 7, the magnetic block 7 is connected with the sliding groove 36 in a sliding manner, and one end of the sliding groove 36 close to the expansion block 27 is communicated with the airflow pipe 35 through a shunt pipe 37; when the expansion block 27 presses the air inside the air bag 34 into the air flow pipe 35, a part of the air flow can flow into the sliding groove 36 through the shunt pipe 37 and drive the magnetic blocks 7 to move towards the sides away from each other, so that the acting force of the mutual attraction of the two magnetic blocks 7 is reduced, and the two baffle plates 6 can be opened more smoothly and efficiently.

The working principle is as follows: the end parts of the baffles 6 close to each other are far away from each other under the action of the torsion spring, rainwater can flow into the water storage tank 5 from the gap between the two baffles 6 at the moment until the liquid level in the water storage tank 5 rises to the floating block 8, and upward buoyancy is applied to the floating block 8, so that the floating block 8 drives the end parts of the baffles 6 close to each other until the magnetic blocks 7 at the end parts of the two baffles 6 can attract each other and contact and attach to each other, at the moment, the two baffles 6 in a V shape can block the water storage tank 5, the evaporation loss of the rainwater in the water storage tank 5 in subsequent sunny days is reduced, and simultaneously when the rainwater meets the rainy days again, the two baffles 6 can be opened again under the gravity of the rainwater along with the accumulation of the rainwater in the top chambers of the two baffles 6, so that the water storage work of the water storage tank 5 can be automatically carried out, and the conveying strips 11 can continuously convey the rainwater to the heat dissipation layer 9 on the outer surface of the cabin 2, the interior of the cabin 2 is radiated more efficiently in a rainwater evaporation and heat absorption mode, and meanwhile, an electric driving structure is not needed to be arranged in the operation of the water storage tank 5 and the radiating mechanism, so that the energy is saved, the environment is protected, and meanwhile, the radiating work of the wind driven generator can be performed more stably; when the temperature of the surface of the cabin 2 is high, the gas inside the heat absorption bag 12 is heated to expand and drives the movable tube 15 on the heat absorption bag 12 to move towards one side of the fixed tube 14 until the end parts of the conveying strips 11 inside the heat absorption bag and the fixed tube are aligned and contacted, so that the mutually communicated conveying strips 11 in the movable tube 15 and the fixed tube 14 can smoothly convey rainwater to the heat dissipation layer 9, when the temperature of the surface of the cabin 2 is low and heat dissipation is not needed, the heat absorption bag 12 drives the conveying strips 11 on the movable tube 15 to be disconnected with the conveying strips 11 on the fixed tube 14 after resetting, the supporting plate 13 can plug the end parts of the movable tube 15 at the moment, evaporation loss of rainwater in the conveying strips 11 inside the cabin is reduced, and meanwhile, rainwater in the heat dissipation layer 9 does not continuously flow into the rainwater after evaporation, so that the waste of the rainwater is reduced, and the utilization effect of the rainwater in the water storage tank 5 is improved; when the movable tube 15 is aligned with the fixed tube 14 under the driving of the heat absorption bag 12, the sliding block 17 is pressed into the movable tube 15 under the action of the spring at the moment, and drives the conveying strips 11 in the movable tube 15 to be fully contacted with the conveying strips 11 in the movable tube 15, so that the two pipe fittings can be stably connected and communicated, and the stability of the conveying strips 11 in rainwater conveying is improved; when the rotating rod 3 rotates, the pressing rod 23 can be driven to extrude the pressing bag 19, when the pressing bag 19 is extruded, the check valve 22 at the air inlet pipe 20 is in a closed state, and the check valve 22 on the air outlet pipe 21 is in an open state, so that cold gas in the pressing bag 19 can be sprayed into the cabin 2 through the air outlet pipe 21, and the inside of the cabin 2 is more efficiently radiated; when the surface temperature of the cabin 2 is low and heat dissipation is not needed, at the moment, because a gap exists between the pressure rod 23 and the pressure bag 19, the situation that the pressure rod 23 is in contact with and extrudes the pressure bag 19 when rotating and resistance is generated on the rotation of the pressure rod 3 is reduced, so that the work of the pressure rod 3 can run without obstacles, and when the end surface temperature of the cabin 2 is high, the cabin 2 can rapidly transmit heat to the inside of the pressure bag 19 through the stainless steel annular sleeve 18, so that the pressure bag 19 expands to the position where the pressure rod 23 can be in contact, and the heat dissipation work of the pressure bag 19 can be smoothly carried out; the pressure rod 23 can reduce the abrasion and the frictional resistance of the pressure rod 23 to the surface of the pressure bag 19 by utilizing the rolling of the ball 24 on the pressure bag 19, and the brush strip 25 on the pressure rod 23 can adsorb the lubricating oil preserved in the oil storage tank 26 in advance and brush the lubricating oil on the surface of each pressure bag 19, thereby further reducing the friction between the pressure rod 23 and the pressure bag 19; when rainwater is remained at the top ends of the two baffles 6 but is not enough to push the two baffles 6 open, the end parts of the two baffles 6 provided with the magnetic blocks 7 are far away from each other after the expansion blocks 27 contacted with the rainwater expand until the attraction force of the two magnetic blocks 7 is smaller than the torsion spring acting force borne by the baffles 6, and the two baffles 6 can be smoothly opened, so that the rainwater remained at the top parts of the two baffles 6 can smoothly flow into the water storage tank 5, and the rainwater consumption in the water storage tank 5 can be timely supplemented; rainwater can contact with the expansion blocks 27 through the liquid leakage groove 29 and the limiting net 30, when the two expansion blocks 27 expand gradually, the end parts of the arc-shaped plates 28 close to each other can be pressed and attached all the time under the action of the elastic blocks 31, so that the deformation direction of the expansion blocks 27 can be limited, the expansion blocks 27 can extend to the horizontal direction more effectively, and the end parts of the two baffle plates 6 can be driven to be opened more efficiently; when the expansion block 27 expands, the air bag 34 can be compressed, and the air in the expansion block is pressed into the sliding cavity through the airflow pipe 35, so that the sliding plate 32 slides towards the top of the sliding cavity, after raining, the liquid level in the water storage tank 5 can descend in the period due to the reset of the expansion block 27 needing a certain time, so that the baffle 6 cannot be driven by the floating block 8 to reset, at the moment, when the rainwater in the expansion block 27 is gradually evaporated and reset, the air bag 34 can be synchronously reset and drives the sliding plate 32 to slide towards the inner end of the sliding cavity, so that the baffle 6 is pulled by the elastic rope 33 to forcibly reset, and the top end of the water storage tank 5 can be stably plugged; when the expansion block 27 presses the air inside the air bag 34 into the air flow pipe 35, a part of the air flow can flow into the sliding groove 36 through the shunt pipe 37 and drive the magnetic blocks 7 to move towards the sides away from each other, so that the acting force of the mutual attraction of the two magnetic blocks 7 is reduced, and the two baffle plates 6 can be opened more smoothly and efficiently.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An intelligent wind driven generator based on the Internet of things comprises a rack (1), wherein a cabin (2) is arranged at the top end of the rack (1), a rotating rod (3) is rotatably connected to the end part of the cabin (2), and blades (4) are connected to the outer end of the rotating rod (3); the method is characterized in that: a water storage tank (5) is arranged on one side of the engine room (2), inclined baffles (6) are respectively and rotatably connected with the two sides of the top end of the water storage tank (5) through torsion springs, and the mutually close ends of the two baffles (6) are provided with mutually attracted magnetic blocks (7), when the end parts of the two magnetic blocks (7) are attached, the shape formed by the two baffles (6) is V-shaped, the bottom surfaces of the end parts of the baffle plates (6) which are close to each other are connected with a floating block (8), the surface of the engine room (2) is wrapped with a heat dissipation layer (9) made of water absorption material, the heat dissipation layer (9) is connected with the bottom end of the water storage tank (5) through a conveying pipe (10), the inner pipe of the conveying pipe (10) is provided with a conveying strip (11) which is made of water-absorbing material and penetrates through the conveying pipe, the surface of the engine room (2) is provided with a temperature sensor, and the temperature sensor is connected with the central processing unit through a local area network.

2. The intelligent wind driven generator based on the internet of things as claimed in claim 1, wherein: be connected with heat absorption bag (12) on the lateral wall that cabin (2) are close to storage water tank (5), be connected with backup pad (13) on storage water tank (5) lateral wall that heat absorption bag (12) one side corresponds, conveyer pipe (10) comprise fixed pipe (14) and activity pipe (15), the free end of activity pipe (15) is connected on the lateral wall of heat absorption bag (12) and is laminated mutually with the lateral wall of backup pad (13), the free end of fixed pipe (14) run through backup pad (13) and with the tip of activity pipe (15) between have the clearance, just can drive the free end of activity pipe (15) and laminate mutually with the free end of fixed pipe (14) when heat absorption bag (12) expand.

3. The intelligent wind driven generator based on the internet of things as claimed in claim 2, wherein: the utility model discloses a conveyor belt, including fixed pipe (14), the internal connection of fixed pipe (14) has supporting network (16), there is slider (17) one side that supporting network (16) are close to movable pipe (15) through spring coupling, the cross sectional shape of slider (17) sets up to the trapezoidal form of interior wide outside, conveying strip (11) run through inside supporting network (16) and slider (17).

4. The intelligent wind driven generator based on the internet of things as claimed in claim 1, wherein: be connected with annular cover (18) on cabin (2) terminal surface of bull stick (3) department, be connected with the pressure bag (19) of a set of annular equipartition and arc form on the inside lateral wall of annular cover (18), the one end of keeping away from cabin (2) in pressure bag (19) is connected with intake pipe (20), the one end that is close to cabin (2) in pressure bag (19) is connected with outlet duct (21), the free end of outlet duct (21) stretches into to cabin (2) inside, install check valve (22) on intake pipe (20) and outlet duct (21) respectively, be connected with on bull stick (3) lateral wall and carry out extruded depression bar (23) to pressure bag (19).

5. The intelligent wind driven generator based on the Internet of things as claimed in claim 4, wherein: the annular sleeve (18) is made of stainless steel materials, and a gap is arranged between the end part of the pressure rod (23) and the pressure bag (19).

6. The intelligent wind driven generator based on the Internet of things as claimed in claim 4, wherein: the utility model discloses a brush, including depression bar (23), brush strip (25) that are connected with the material that absorbs water on the lateral wall of depression bar (23) tip, oil storage tank (26) have been seted up to the inside lateral wall bottom of annular cover (18).

7. The intelligent wind driven generator based on the internet of things as claimed in claim 1, wherein: the end parts of the baffles (6) close to each other are connected with expansion blocks (27), and the expansion blocks (27) are made of water-swelling water-stopping strip materials.

8. The intelligent wind driven generator based on the internet of things as claimed in claim 7, wherein: the expansion block (27) is connected with an arc-shaped plate (28) on the top surface of a baffle (6) corresponding to one side of the top end of the expansion block (27), a liquid leakage groove (29) is formed in one end, close to the baffle (6), of the arc-shaped plate (28), an arc-shaped groove is formed in the end portion, close to the baffle (6), of the arc-shaped plate (28), a limiting net (30) is connected inside the arc-shaped groove in a sliding mode, and an elastic block (31) is connected between the limiting net (30) and the inner end of the arc-shaped groove.

9. The intelligent wind driven generator based on the internet of things as claimed in claim 7, wherein: the water storage tank is characterized in that a sliding cavity is formed in the top face, far away from each other, of one end of the baffle plate (6), a sliding plate (32) is connected to the inside of the sliding cavity in a sliding mode, the side wall of the sliding plate (32) is attached to the inner wall of the sliding cavity, an elastic rope (33) is connected between the top end of the sliding plate (32) and the top end of the water storage tank (5), an air bag (34) is arranged inside the expansion block (27), and the air bag (34) is communicated with the inner end of the sliding cavity through an air flow pipe (35).

10. The intelligent wind driven generator based on the internet of things as claimed in claim 9, wherein: a sliding groove (36) is formed in the baffle (6) corresponding to the magnetic block (7), the magnetic block (7) is connected with the sliding groove (36) in a sliding mode, and one end, close to the expansion block (27), of the sliding groove (36) is communicated with the airflow pipe (35) through a flow dividing pipe (37).

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