CN209539497U - Breeze generating set based on narrow volume Puffer nest - Google Patents

Abstract

The problem of the utility model relates to the breeze generating set based on narrow volume Puffer nest, the collection efficiency of the existing breeze generating set wind energy of effective solution is low, can not increase the collection efficiency of wind energy in a limited space；Its technical solution solved be include collecting wind structure, cyclone structure and air exhausting structure, the cyclone structure includes the collection wind box of inner hollow, it is rotatably assorted along the vertical direction inside the collection wind box and is provided with generator blade, the generator blade lower end is coaxially fixedly installed with gentle breeze-driven generator, and the generator blade upper end is coaxially fixed with the subsidiary generator blade being placed on the outside of collection wind box；The collection wind structure includes collecting the fixed duct set of wind box rear end connection, and the collection wind structure further includes the secondary duct set for collecting the L shape that connection fixed opening in wind box two sides is arranged towards upper end；The air exhausting structure includes collecting the fixed discharge pipe of wind box front end connection；The utility model clever structure, practical, the utilization efficiency of wind energy is high.

Description

Breeze generating set based on narrow volume Puffer nest

Technical field

The utility model relates to breeze wind technical field, specifically a kind of breeze wind dress based on narrow volume Puffer nest It sets.

Background technique

Wind-power electricity generation increasingly receives the concern of people as a kind of renewable energy, in wind power generation field, especially Breeze wind, gentle breeze is ubiquitous, and implication amount is huge.But very high threshold is always existed using collection to gentle breeze, mainly There are wind speed threshold, the thresholds such as collection efficiency, the bottleneck that these thresholds always need to break through, in the micro-power generators of traditional wind In, main problem be it is low to the collection efficiency of wind energy, the collection efficiency of wind energy can not be increased in a limited space；

Narrow volume Puffer is the one of which of four tooth Puffer suborder of spoke fin net-rope Tetraodontiformes, four tooth Molidae, is subtropical zone fish, narrow The nest that volume Puffer is built is narrow volume Puffer nest, research shows that narrow volume Puffer nest can accelerate the ocean current near by nest, from And ocean current can be made to blow afloat the fine sand in seabed and be collected, the present apparatus can increase wind energy by using narrow volume Puffer nest Utilization efficiency；

Therefore, the utility model provides a kind of breeze generating set based on narrow volume Puffer nest, not only improves space utilization Efficiency, and collection efficiency and utilization efficiency to wind energy can be increased.

Utility model content

For above situation, for the defect for overcoming the prior art, the utility model provides a kind of based on narrow volume Puffer nest The collection efficiency of breeze generating set, the existing breeze generating set wind energy of effective solution is low, in a limited space The problem of efficiency of the collection of wind energy can not be increased.

The utility model includes collection wind structure, cyclone structure and air exhausting structure, and the cyclone structure includes inner hollow Collect wind box, is rotatably assorted along the vertical direction inside the collection wind box and is provided with generator blade, the generator blade lower end is same Axis is fixedly installed with gentle breeze-driven generator, and the generator blade upper end is coaxially fixed with the subsidiary generator leaf being placed on the outside of collection wind box Piece；

The collection wind structure includes collecting the fixed duct set of wind box rear end connection, and the collection wind structure further includes collection wind box two The secondary duct set for the L shape that connection fixed opening in side is arranged towards upper end；

The air exhausting structure includes collecting the fixed discharge pipe of wind box front end connection.

Preferably, the cyclone structure include collect wind box inner surface circumference uniform distribution shaped form four deflectors, four The deflector is respectively placed in the duct set, discharge pipe and two secondary duct sets and collection wind box connectivity part；

Four baffle surfaces are respectively provided with narrow volume Puffer structure of nest.

Preferably, two secondary duct set upper ends are respectively connected with swan-neck of the opening towards front end, the swan-neck Lower end and secondary duct set are rotatably assorted setting, and the rear end of the swan-neck is fixedly installed wind vane.

Preferably, the lower end of the swan-neck is fixed with the sliding block of annular, and the section of the sliding block is "T"-shaped setting, institute The sliding slot that annular is installed at secondary duct set upper end opening is stated, the section of the sliding slot is "T"-shaped setting, the sliding block and cunning Slot is rotatably assorted setting.

Preferably, the duct set and discharge pipe are alternately arranged with collection wind box junction, two secondary duct sets and collection Wind box junction is alternately arranged.

Preferably, the duct set, discharge pipe and swan-neck be at front opening internal diameter be greater than end internal diameter it is hollow Round speaker shape structure.

Preferably, the generator blade and subsidiary generator blade include being vertically arranged the leaf being rotatably assorted with collection wind box Bobbin, the generator blade and subsidiary generator blade include several blades being connected on the outside of sharf, the blade Outer ledge is set as radian shape, and arc back is backwards to the connection inlet of duct set and collection wind box.

The utility model clever structure, it is practical, wind energy utilization efficiency can be increased, increase collection inlet number, avoid Because collect air port it is excessive due to so that some air inlets has been become air outlet, so that making the efficiency of breeze generating set reduces；Cyclone knot Structure can will collect air port collect wind energy carry out water conservancy diversion, maximally utilize collected wind energy, and can prevent multi-air intake by In molecular collision and caused by energy loss；

The structure mainly carries out water conservancy diversion to wind collected by collection wind structure, and structure interior surface uses the knot of narrow volume Puffer nest (narrow volume Puffer nest can accelerate the ocean current near by nest to structure, receive so as to blow afloat ocean current by the fine sand in seabed Collection), make wind direction keep generating strongest driving force to power generation blade, when air-flow passes through air outlet, a part of air-flow change side It being flowed out to from air outlet, a part continues to press on blade rotation, and the enclosure space of the structure can increase the utilization efficiency of wind energy, Air outlet and air inlet are alternately arranged with cyclone structural attachments, and the air pressure generated in cyclone structure can push blade to rotate, When blade state type, then air inlet can gradually rise with the air pressure in blade, and then rotate blade.

Detailed description of the invention

Fig. 1 is the utility model perspective view schematic diagram.

Fig. 2 is the utility model top view illustration.

Fig. 3 is that the utility model removes perspective view schematic diagram after swan-neck.

Fig. 4 is that the utility model removes perspective view schematic diagram after swan-neck and subsidiary generator blade.

Fig. 5 is the utility model collection wind box internal generator blade assembly relation perspective view schematic diagram.

Fig. 6 is the utility model swan-neck structural schematic diagram.

Fig. 7 is the utility model front view schematic diagram.

Fig. 8 is the utility model subsidiary generator blade perspective view schematic diagram.

Appended drawing reference: 1, collect wind structure；2, cyclone structure；3, air exhausting structure；4, collect wind box；5, generator blade；6, secondary Generator blade；7, duct set；8, secondary duct set；9, discharge pipe；10, deflector；11, narrow volume Puffer structure of nest；12, it is bent Pipe；13, wind vane；14, sliding block；15, deflector hole；16, sharf；17, blade.

Specific embodiment

Aforementioned and other technology contents, feature and effect in relation to the utility model, in following cooperation with reference to figures 1 through figure In the detailed description of 8 pairs of embodiments, can clearly it present.The structure content being previously mentioned in following embodiment is with explanation Book attached drawing is reference.

Each exemplary embodiment of the utility model is described below with reference to accompanying drawings.

The utility model is a kind of breeze generating set based on narrow volume Puffer nest, including collection wind structure 1, cyclone structure 2 With air exhausting structure 3, the cyclone structure 2 includes the collection wind box 4 of inner hollow, and collection wind box 4 can be placed in ground or building top It holds and is fixed by the bracket, be rotatably assorted along the vertical direction inside the collection wind box 4 and be provided with generator blade 5, the power generation 5 lower end of machine blade is coaxially fixedly installed with gentle breeze-driven generator, and gentle breeze-driven generator is a kind of prior art, i.e., in generator blade 5 Gentle breeze-driven generator work is driven when rotation, then realizes the purpose of wind-power electricity generation, 5 upper end of generator blade is coaxially fixed with It is placed in the subsidiary generator blade 6 in 4 outside of collection wind box, please refers to Fig. 1 and Fig. 5, generator blade 5 and subsidiary generator blade 6 are coaxial It is fixedly connected, when the subsidiary generator blade 6 for being placed in 4 outside of collection wind box receives the effect rotation of wind-force, is able to drive in collection Generator blade 5 inside wind box 4 rotates, i.e., gentle breeze-driven generator work is driven when generator blade 5 rotates, and realizes wind-force hair The purpose of electricity；

The collection wind structure 1 includes the fixed duct set 7 of collection 4 rear end of wind box connection, and duct set 7 is through setting and collection wind box 4 connections, the effect of duct set 7 are to collect wind energy, i.e., when wind is blown into from the inlet of duct set 7, into after collection 4 inside of wind box The rotation of generator blade 5 can be blown, gentle breeze-driven generator work is driven when generator blade 5 rotates, then realizes wind-power electricity generation Purpose；

Fig. 3 and Fig. 4 are please referred to, the collection wind structure 1 further includes collecting the fixed opening of 4 two sides of wind box connection to set towards upper end The secondary duct set 8 for the L shape set, the presence of secondary duct set 8 make device have the air port Duo Ji, increase the collection wind effect of device Rate, the structure can be collected the wind of different directions；

The air exhausting structure 3 includes the fixed discharge pipe 9 of collection 4 front end of wind box connection, and the presence of discharge pipe 9 has ensured air Circulation, play the role of water conservancy diversion, can will be smoothly discharged with the gas of the corresponding air outlet of collection wind box 4, should be noted herein that , the effect of duct set 7 and discharge pipe 9 can be interchanged, depend on the direction of wind herein, i.e., as shown in fig. 1, wind from When the direction of front end is blown, discharge pipe 9 at this time has the function of duct set, and duct set 7 at this time has wind action；

Air-flow enters through duct set 7, blows the rotation of generator blade 5, and air-flow is when by the outlet of discharge pipe 9, and one Divide air-flow to change direction to flow out from discharge pipe 9, a part continues to press on the rotation of generator blade 5, the enclosure space of the collection wind box 4 The utilization efficiency of wind energy, air outlet and air inlet can be increased to be alternately arranged with collection 4 junction of wind box, generated in cyclone structure Air pressure can pushing generator blade 5 rotate, when 5 state type of generator blade, then the air pressure in air inlet and blade can gradually It increases, and then rotates generator blade 5.

Embodiment two please refers to Fig. 5 and Fig. 6 on the basis of example 1, and the cyclone structure 2 includes in collection wind box 4 Four deflectors 10 of the uniformly distributed shaped form of surface perimeter, four deflectors 10 are respectively placed in the duct set 7, discharge pipe 9 and two secondary duct sets 8 and collection 4 connectivity part of wind box, the presence of four deflectors 10 enable the wind that enters in collection wind box 4 with The rotation of higher efficiency drives generator blade 5 avoids overflowing for wind energy from dissipating；

Four 10 surfaces of deflector are respectively provided with the structure 11 of narrow volume Puffer nest；

The present embodiment can accelerate the ocean near by nest by using the narrow narrow volume Puffer nest of volume Puffer structure of nest 11( Stream, is collected so as to blow afloat ocean current by the fine sand in seabed), make wind direction keep generating strongest driving to power generation blade Power, when air-flow passes through air outlet, a part of air-flow changes direction and flows out from air outlet, and a part continues to press on generator blade 5 rotations, the enclosure space of the structure can increase the utilization efficiency of wind energy.

Embodiment three to make two secondary duct sets 8 preferably collection wind, improves collection on the basis of example 1 The efficiency of wind please refers to Fig. 1 and Fig. 2, and two 8 upper ends of the secondary duct set are respectively connected with swan-neck 12 of the opening towards front end, Wind can the opening from swan-neck 12 towards front end be blown into, then via secondary duct set 8 enter collection 4 inside pushing generator of wind box The rotation of blade 5, indefinite due to wind direction, the lower end of the swan-neck 12 and secondary duct set 8 are rotatably assorted setting, the bending The rear end of pipe 12 is fixedly installed wind vane 13, and swan-neck 12 and wind vane 13 should use lighter material, avoid wind energy cannot Blow the rotation of swan-neck 12；

When blowing air over, maximum wind power will drive the rotation of wind vane 13, so that wind vane 13 is complied with maximum wind direction and swings, from And drive the opening of swan-neck 12 to turn at maximum wind direction, and collected with this it is maximum distinguished and admirable, it is distinguished and admirable entered by swan-neck 12 described in Secondary duct set 8 in, then via secondary duct set 8 enter collection 4 inside pushing generator blade 5 of wind box rotation.

Example IV, on the basis of example 1, for make device using it is more convenient rationally, please refer to Fig. 3 and Fig. 7, the lower end of the swan-neck 12 are fixed with the sliding block 14 of annular, and the section of the sliding block 14 is "T"-shaped setting, the secondary collection The sliding slot 15 of annular is installed at 8 upper end opening of air hose, the section of the sliding slot 13 is "T"-shaped setting, the sliding block 14 with Sliding slot 15 is rotatably assorted setting.

Embodiment five, on the basis of example 1, the duct set 7 and discharge pipe 9 replace row with collection 4 junction of wind box Column, two secondary duct sets 8 are alternately arranged with collection 4 junction of wind box, as shown in Fig. 2, two secondary duct sets 8 and collection wind 4 junction of box is alternately arranged, and wind can preferably form cyclone when entering collection 4 inside of wind box, and air-flow preferably flows, so that collection The air pressure that wind box 4 generates can preferably pushing generator blade 5 rotate.

Embodiment six, on the basis of example 1, the duct set 7, discharge pipe 9 and swan-neck 12 are front opening Locate the horn-like structure of hollow circular that internal diameter is greater than end internal diameter, be set as horn-like structure, in order to most efficiently collect wind energy.

Embodiment seven, on the basis of example 1, the generator blade 5 and subsidiary generator blade 6 include vertical The sharf 16 being rotatably assorted with collection wind box 4 is set, and the generator blade 5 and subsidiary generator blade 6 include being connected to leaf Several blades 17 in 16 outside of bobbin, the outer ledge of the blade 17 are set as radian shape, and arc back is backwards to duct set 7 and collection The connection inlet of wind box 4, in order to increase the forced area that wind blows blade 17, so that entering the wind inside collection wind box 4 It is more easy to blow the rotation of generator blade 5.

The utility model clever structure, it is practical, wind energy utilization efficiency can be increased, increase collection inlet number, avoid Because collect air port it is excessive due to so that some air inlets has been become air outlet, so that making the efficiency of breeze generating set reduces；Cyclone knot Structure can will collect air port collect wind energy carry out water conservancy diversion, maximally utilize collected wind energy, and can prevent multi-air intake by In molecular collision and caused by energy loss；

The structure mainly carries out water conservancy diversion to wind collected by collection wind structure, and structure interior surface uses the knot of narrow volume Puffer nest (narrow volume Puffer nest can accelerate the ocean current near by nest to structure, receive so as to blow afloat ocean current by the fine sand in seabed Collection), make wind direction keep generating strongest driving force to power generation blade, when air-flow passes through air outlet, a part of air-flow change side It being flowed out to from air outlet, a part continues to press on blade rotation, and the enclosure space of the structure can increase the utilization efficiency of wind energy, Air outlet and air inlet are alternately arranged with cyclone structural attachments, and the air pressure generated in cyclone structure can push blade to rotate, When blade state type, then air inlet can gradually rise with the air pressure in blade, and then rotate blade.

Claims (7)

1. the breeze generating set based on narrow volume Puffer nest, which is characterized in that including collection wind structure (1), cyclone structure (2) and go out Wind structure (3), the cyclone structure (2) include the collection wind box (4) of inner hollow, and the collection wind box (4) is internal along the vertical direction It is rotatably assorted and is provided with generator blade (5), generator blade (5) lower end is coaxially fixedly installed with gentle breeze-driven generator, institute It states generator blade (5) upper end and is coaxially fixed with the subsidiary generator blade (6) being placed on the outside of collection wind box (4)；

Collection wind structure (1) includes the fixed duct set (7) of collection wind box (4) rear end connection, and the collection wind structure (1) further includes The secondary duct set (8) for the L shape that connection fixed opening in collection wind box (4) two sides is arranged towards upper end；

The air exhausting structure (3) includes the fixed discharge pipe (9) of collection wind box (4) front end connection.

2. the breeze generating set according to claim 1 based on narrow volume Puffer nest, which is characterized in that the cyclone structure It (2) include four deflectors (10) for collecting the shaped form of wind box (4) inner surface circumference uniform distribution, four deflectors (10) are respectively It is placed in the duct set (7), discharge pipe (9) and two secondary duct sets (8) and collection wind box (4) connectivity part；

Four deflector (10) surfaces are respectively provided with narrow volume Puffer structure of nest (11).

3. the breeze generating set according to claim 1 based on narrow volume Puffer nest, which is characterized in that two secondary collection Air hose (8) upper end is respectively connected with swan-neck (12) of the opening towards front end, the lower end of the swan-neck (12) and secondary duct set (8) Be rotatably assorted setting, and the rear end of the swan-neck (12) is fixedly installed wind vane (13).

4. the breeze generating set according to claim 3 based on narrow volume Puffer nest, which is characterized in that the swan-neck (12) lower end is fixed with the sliding block (14) of annular, and the section of the sliding block (14) is "T"-shaped setting, the pair duct set (8) Be installed with the sliding slot (15) of annular at upper end opening, the section of the sliding slot (15) is "T"-shaped setting, the sliding block (14) with Sliding slot (15) is rotatably assorted setting.

5. the breeze generating set according to claim 1 based on narrow volume Puffer nest, which is characterized in that the duct set (7) it is alternately arranged with discharge pipe (9) with collection wind box (4) junction, two secondary duct sets (8) and collection wind box (4) junction It is alternately arranged.

6. the breeze generating set according to claim 1 based on narrow volume Puffer nest, which is characterized in that the duct set (7), discharge pipe (9) and swan-neck (12) are the horn-like structure of hollow circular that internal diameter is greater than end internal diameter at front opening.

7. the breeze generating set according to claim 1 based on narrow volume Puffer nest, which is characterized in that the generator leaf Piece (5) and subsidiary generator blade (6) include being vertically arranged the sharf (16) being rotatably assorted with collection wind box (4), the power generation Machine blade (5) and subsidiary generator blade (6) include several blades (17) being connected on the outside of sharf (16), the blade (17) outer ledge is set as radian shape, connection inlet of the arc back backwards to duct set (7) and collection wind box (4).