CN110439755A

CN110439755A - A kind of wind turbine formula dc generator

Info

Publication number: CN110439755A
Application number: CN201910872661.6A
Authority: CN
Inventors: 刘志恒
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-16
Filing date: 2019-09-16
Publication date: 2019-11-12

Abstract

A kind of wind turbine formula dc generator, its feature includes: axis (1), fixed ventilation mesh enclosure (4), fixed end cap (18) and electromagnetic coil stator frame (5), the left end of the axis (1) is connected by bearing A (2-1) with turbine flabellum (2), fixed ventilation mesh enclosure (4) is fixedly connected on the right end axis of the turbine flabellum (2), fixed ventilation mesh enclosure (4) is fabricated to round reticular structure, fixed ventilation mesh enclosure (4) the right side outer circular edge is fixedly connected with electromagnetic coil stator frame (5) left end using welding manner, electromagnetic coil stator frame (5) right end is fixedly connected with the left side outer circular edge of fixed end cap (18) using welding manner, fixed ventilation mesh enclosure (4) left side outer circular edge is welded with wind scooper (3), the interior air-guiding aisle of the wind scooper (3) It is fabricated to the small cone cell of the big right end in left end.

Description

A kind of wind turbine formula dc generator

Technical field

The invention belongs to technical field of generators, and in particular to a kind of wind turbine formula dc generator.

Background technique

Country advocates use clean energy resource energetically, sets up higher mark post for new-energy automobile industry, but with new energy Car ownership it is continuous soaring, pendulum first in face of client is that the course continuation mileage of new-energy automobile is not able to satisfy client and needs It asks, then the course continuation mileage for how solving new-energy automobile has become people's hot topic of insider, it is existing at present new Energy automobile can only determine its course continuation mileage by the charge capacity of cells, and cannot will come head-on in driving process The resistance of wind use well, it will be argued that thus and this windage be converted into effective benefit that electric energy is a kind of energy With.

In conclusion being directed in the insufficient situation of new energy pure electric automobile course continuation mileage at present, to overcome above-mentioned presence The technical issues of, increase new-energy automobile course continuation mileage, study a wind turbine formula dc generator just have it is very necessary Realistic meaning.

Summary of the invention

The purpose of the present invention is to provide a kind of wind turbine formula dc generators, to solve to propose in above-mentioned background technique The problem of.

To achieve the above object, the invention provides the following technical scheme:

A kind of wind turbine formula dc generator, feature include: axis (1), fixed ventilation mesh enclosure (4), fixed end cap (18) it is connected by bearing A (2-1) with turbine flabellum (2) with electromagnetic coil stator frame (5), the left end of the axis (1), the turbine Fixed ventilation mesh enclosure (4) is fixedly connected on the right end axis of flabellum (2), fixed ventilation mesh enclosure (4) is fabricated to round netted Structure, fixed ventilation mesh enclosure (4) the right side outer circular edge and electromagnetic coil stator frame (5) left end connect using welding manner is fixed It connecing, electromagnetic coil stator frame (5) right end is fixedly connected with the left side outer circular edge of fixed end cap (18) using welding manner, Fixed ventilation mesh enclosure (4) left side outer circular edge is welded with wind scooper (3), the interior air-guiding aisle production of wind scooper (3) At the small cone cell of the big right end in left end.

Preferably, the sky that fixed ventilation mesh enclosure (4) and fixed end cap (18) and electromagnetic coil stator frame (5) are constituted Between be successively arranged from left to right first bearing group (9) in inner shaft (1), second bearing group (13) and 3rd bearing group (17).

Preferably, first bearing group (9) periphery is fixedly connected with the first rotor air duct (8) centre bore, and described One rotor air duct (8) periphery cooperates and is fixedly connected with the centre bore of first annular magnet (7), the first rotor wind Road (8) and first annular magnet (7) junction right end are fixedly installed first annular retaining ring (23), the electromagnetic coil stator frame (5) inside is fixed with first annular electromagnetic coil (6) with first annular magnet (7) opposite position.

Preferably, second bearing group (13) periphery is fixedly connected with second rotor air duct (12) centre bore, described Second rotor air duct (12) periphery cooperates and is fixedly connected with the centre bore of the second annular magnet (11), and described second turn Sub-air channel (12) and the second annular magnet (11) junction right end are fixedly installed the second annular retaining ring (24), the electromagnetism delineation The second annular magnet coil (10) are fixed with the second annular magnet (11) opposite position on the inside of subrack (5).

Preferably, 3rd bearing group (17) periphery is fixedly connected with third trochanter air duct (16) centre bore, described Third trochanter air duct (16) periphery cooperates and is fixedly connected with the centre bore of third annular magnet (15), and the third turns Sub-air channel (16) and third annular magnet (15) junction right end are fixedly installed third annular retaining ring (25), the electromagnetism delineation Third annular magnet coil (14) are fixed with third annular magnet (15) opposite position on the inside of subrack (5).

Preferably, fixed end cap (18) centre bore is connected by bearing B (19) with rear air ducting (26), after described Air ducting (26) interior centre bore is connected by bearing C (20) and bearings D (21) with axis (1), and the rear air ducting (26) is right End periphery is fixedly connected with belt pulley (22), is equipped with helical form flabellum in described rear air ducting (26) its wind guide channel.

Preferably, the first rotor air duct (8) is tapered and internal equipped with helical form flabellum.

Preferably, second rotor air duct (12) are tapered and internal equipped with helical form flabellum, the second rotor wind Road (12) inlet diameter is identical as the right end outlet diameter of the first rotor air duct (8).

Preferably, the third trochanter air duct (16) is tapered and internal equipped with helical form flabellum, the third trochanter wind Road (16) inlet diameter is identical as the right end outlet diameter of the second wind guide channel (12).

Preferably, the first rotor air duct (8), the second rotor air duct (12) and third trochanter air duct (16) structure phase Together.

Compared with prior art, the present invention provides a kind of wind turbine formula dc generator, have it is following the utility model has the advantages that

Using automobile, when running at high speed, the opposite superelevation wind speed generated with automobile passes through turbine principle of differential pressure drive direct current Electrical power generators improve the course continuation mileage of new energy pure electric automobile.

Detailed description of the invention

Attached drawing is used to provide further understanding of the present invention, and constitutes part of specification, with reality of the invention It applies example to be used to explain the present invention together, not be construed as limiting the invention, in the accompanying drawings:

Fig. 1 is a kind of arrangement structural schematic diagram of wind turbine formula dc generator proposed by the present invention.

Fig. 2 is wind scooper (3) described in a kind of wind turbine formula dc generator proposed by the present invention, fixed ventilated net It covers (4) and assembles schematic cross-section.

Fig. 3 is wind scooper (3) described in a kind of wind turbine formula dc generator proposed by the present invention, fixed ventilated net It covers (4) and assembles left view.

Fig. 4 is wind scooper (3) described in a kind of wind turbine formula dc generator proposed by the present invention, fixed ventilated net It covers (4) and assembles right view.

Fig. 5 is fixed ventilation mesh enclosure (4) side described in a kind of wind turbine formula dc generator proposed by the present invention View.

Fig. 6 is in electromagnetic coil stator frame (5) described in a kind of wind turbine formula dc generator proposed by the present invention Schematic cross-section.

Fig. 7 is the side of electromagnetic coil stator frame (5) described in a kind of wind turbine formula dc generator proposed by the present invention Face schematic diagram.

Fig. 8 is fixation end cap (18) side view described in a kind of wind turbine formula dc generator proposed by the present invention Figure.

Fig. 9 is fixation end cap (18) cross-sectional view described in a kind of wind turbine formula dc generator proposed by the present invention.

Figure 10 is the vertical of the first rotor air duct (8) described in a kind of wind turbine formula dc generator proposed by the present invention Stereogram.

Figure 11 is the stereopsis of turbine flabellum (2) described in a kind of wind turbine formula dc generator proposed by the present invention Figure.

Figure 12 is the vertical of rear air ducting (26) described in a kind of wind turbine formula dc generator proposed by the present invention Stereogram.

In figure: axis (1), turbine flabellum (2), wind scooper (3), fixed ventilation mesh enclosure (4), electromagnetic coil stator frame (5), first Annular magnet coil (6), first annular magnet (7), the first rotor air duct (8), first bearing group (9), the second annular electromagnetic It encloses (10), the second annular magnet (11), the second rotor air duct (12), second bearing group (13), third annular magnet coil (14), Third annular magnet (15), third trochanter air duct (16), 3rd bearing group (17), fixed end cap (18), bearing B (19), bearing C (20), bearings D (21), belt pulley (22), first annular retaining ring (23), the second annular retaining ring (24), third annular retaining ring (25), Air ducting (26) afterwards.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that term " on ", "lower", "inner", "outside" " front end ", " rear end ", The orientation or positional relationship of the instructions such as " both ends ", " one end ", " other end " is to be based on the orientation or positional relationship shown in the drawings, only It is that for the convenience of describing the present invention and simplifying the description, rather than the device or element of indication or suggestion meaning must have specifically Orientation is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.In addition, term " first ", " the Two " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation " " is set Be equipped with ", " connection " etc., shall be understood in a broad sense, such as " connection ", may be a fixed connection, may be a detachable connection or one The connection of body formula；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, it can also be indirect by intermediary It is connected, can be the connection inside two elements.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

Fig. 1-12 is please referred to, the present invention provides a kind of technical solution:

A kind of wind turbine formula dc generator, feature include: axis 1, fixed ventilation mesh enclosure 4, fixed end cap 18 and electricity The left end of magnetosphere stator frame 5, the axis 1 is connected by bearing A2-1 with turbine flabellum 2, on the right end axis of the turbine flabellum 2 It is fixedly connected with fixed ventilation mesh enclosure 4, the fixed ventilation mesh enclosure 4 is fabricated to round reticular structure, the fixed ventilation mesh enclosure 4 Right side outer circular edge is fixedly connected with 5 left end of electromagnetic coil stator frame using welding manner, 5 right end of electromagnetic coil stator frame with The left side outer circular edge of fixed end cap 18 is fixedly connected using welding manner, the fixed ventilation 4 left side outer circumferential edge of mesh enclosure Edge is welded with wind scooper 3, and air-guiding aisle is fabricated to the small cone cell of the big right end in left end in the wind scooper 3.

The present invention, preferred embodiment, the fixed ventilation mesh enclosure 4 and fixed end cap 18 and 5 institute of electromagnetic coil stator frame First bearing group 9, second bearing group 13 and 3rd bearing group 17 are successively arranged in the space inner shaft 1 of composition from left to right.

The present invention, preferred embodiment, 9 periphery of first bearing group and 8 centre bore of the first rotor air duct are fixed to be connected It connecing, 8 periphery of the first rotor air duct cooperates and is fixedly connected with the centre bore of first annular magnet 7, and described first Rotor air duct 8 and first annular 7 junction right end of magnet are fixedly installed first annular retaining ring 23, the electromagnetic coil stator frame 5 Inside and first annular 7 opposite position of magnet are fixed with first annular electromagnetic coil 6.

The present invention, preferred embodiment, 13 periphery of second bearing group are fixed with 12 centre bore of the second rotor air duct Connection, second rotor air duct, 12 periphery cooperates and is fixedly connected with the centre bore of the second annular magnet 11, described Second rotor air duct 12 and 11 junction right end of the second annular magnet are fixedly installed the second annular retaining ring 24, the electromagnetism delineation 5 inside of subrack is fixed with the second annular magnet coil 10 with 11 opposite position of the second annular magnet.

The present invention, preferred embodiment, 17 periphery of 3rd bearing group are fixed with 16 centre bore of third trochanter air duct Connection, 16 periphery of third trochanter air duct cooperates and is fixedly connected with the centre bore of third annular magnet 15, described Third trochanter air duct 16 and 15 junction right end of third annular magnet are fixedly installed third annular retaining ring 25, the electromagnetism delineation 5 inside of subrack is fixed with third annular magnet coil 14 with 15 opposite position of third annular magnet.

The present invention, preferred embodiment, fixed 18 centre bore of end cap pass through bearing B19 and rear 26 phase of air ducting Even, centre bore is connected by bearing C20 and bearings D 21 with axis 1 in the rear air ducting 26,26 right end of the rear air ducting Periphery is fixedly connected with belt pulley 22, is equipped with helical form flabellum in described its wind guide channel of rear air ducting 26.

The present invention, preferred embodiment, the first rotor air duct 8 are tapered and internal equipped with helical form flabellum.

The present invention, preferred embodiment, second rotor air duct 12 is tapered and internal equipped with helical form flabellum, described Second rotor air duct, 12 inlet diameter is identical as the right end outlet diameter in the first rotor air duct 8.

The present invention, preferred embodiment, the third trochanter air duct 16 is tapered and internal equipped with helical form flabellum, described 16 inlet diameter of third trochanter air duct is identical as the right end outlet diameter of the second wind guide channel 12.

The working principle of the invention and process for using are as follows:

Then the high speed winds that automobile heads on sequentially enter first turn by 3 wind-guiding of wind scooper by turbine flabellum 2 Sub-air channel 8, the second rotor air duct 12 and third trochanter air duct 16, i.e., in dc generator machine cavity, then the change for passing through cavity space Change, and push its high-speed rotation under the action of intra helical flabellum, to drive first annular magnet 7, the second annular magnetic Iron 11 and third annular magnet 15 rotate, and realize first annular electromagnetic coil 6, the second annular magnet coil 10, third annular Electromagnetic coil 14 cuts first annular magnet 7, the magnetic line of force of the second annular magnet 11 and third annular magnet 15 and generate electric current, Play the role of power generation.

It, for the ordinary skill in the art, can be with although having discovered that and describing the embodiment of the present invention Understand without departing from the principles and spirit of the present invention can to these embodiments carry out it is a variety of variation, modification, replacement and Modification, the scope of the present invention is defined by the appended.

Claims

1. a kind of wind turbine formula dc generator, feature includes: axis (1), fixed ventilation mesh enclosure (4), fixed end cap (18) It is connected by bearing A (2-1) with turbine flabellum (2) with the left end of electromagnetic coil stator frame (5), the axis (1), the turbine flabellum (2) fixed ventilation mesh enclosure (4) is fixedly connected on right end axis, fixed ventilation mesh enclosure (4) is fabricated to round reticular structure, Fixed ventilation mesh enclosure (4) the right side outer circular edge is fixedly connected with electromagnetic coil stator frame (5) left end using welding manner, institute Electromagnetic coil stator frame (5) right end is stated to be fixedly connected with the left side outer circular edge of fixed end cap (18) using welding manner, it is described Fixed ventilation mesh enclosure (4) left side outer circular edge is welded with wind scooper (3), and the interior air-guiding aisle of the wind scooper (3) is fabricated to a left side The cone cell for holding big right end small.

2. a kind of wind turbine formula dc generator according to claim 1, it is characterised in that: the fixed ventilation mesh enclosure (4) it is successively arranged first from left to right in the space inner shaft (1) constituted with fixed end cap (18) and electromagnetic coil stator frame (5) Bearing group (9), second bearing group (13) and 3rd bearing group (17).

3. a kind of wind turbine formula dc generator according to claim 2, it is characterised in that: the first bearing group (9) periphery is fixedly connected with the first rotor air duct (8) centre bore, the first rotor air duct (8) periphery with it is first annular The centre bore of magnet (7) cooperates and is fixedly connected, the first rotor air duct (8) and first annular magnet (7) junction Right end is fixedly installed first annular retaining ring (23), corresponding with first annular magnet (7) on the inside of the electromagnetic coil stator frame (5) Position is fixed with first annular electromagnetic coil (6).

4. a kind of wind turbine formula dc generator according to claim 2, it is characterised in that: the second bearing group (13) periphery is fixedly connected with second rotor air duct (12) centre bore, second rotor air duct (12) periphery and the second ring The centre bore of shape magnet (11) cooperates and is fixedly connected, and second rotor air duct (12) and the second annular magnet (11) are tied Right end is fixedly installed the second annular retaining ring (24) at conjunction, electromagnetic coil stator frame (5) inside and the second annular magnet (11) Opposite position is fixed with the second annular magnet coil (10).

5. a kind of wind turbine formula dc generator according to claim 2, it is characterised in that: the 3rd bearing group (17) periphery is fixedly connected with third trochanter air duct (16) centre bore, third trochanter air duct (16) periphery and third ring The centre bore of shape magnet (15) cooperates and is fixedly connected, and the third trochanter air duct (16) and third annular magnet (15) are tied Right end is fixedly installed third annular retaining ring (25) at conjunction, electromagnetic coil stator frame (5) inside and third annular magnet (15) Opposite position is fixed with third annular magnet coil (14).

6. a kind of wind turbine formula dc generator according to claim 1, it is characterised in that: the fixed end cap (18) Centre bore is connected by bearing B (19) with rear air ducting (26), and rear air ducting (26) the interior centre bore passes through bearing C (20) it is connected with bearings D (21) with axis (1), rear air ducting (26) the right end periphery is fixedly connected with belt pulley (22), Helical form flabellum is equipped with after described in air ducting (26) its wind guide channel.

7. a kind of wind turbine formula dc generator according to claim 3, it is characterised in that: the first rotor air duct (8) tapered and internal equipped with helical form flabellum.

8. a kind of wind turbine formula dc generator according to claim 4, it is characterised in that: second rotor air duct (12) tapered and internal be equipped with helical form flabellum, second rotor air duct (12) inlet diameter and the first rotor air duct (8) Right end outlet diameter it is identical.

9. a kind of wind turbine formula dc generator according to claim 5, it is characterised in that: the third trochanter air duct (16) it is tapered and it is internal be equipped with helical form flabellum, third trochanter air duct (16) inlet diameter and the second wind guide channel (12) Right end outlet diameter is identical.