CN202134985U

CN202134985U - Wind driven generator and vertical wind driven generator

Info

Publication number: CN202134985U
Application number: CN 201120259760
Authority: CN
Inventors: 潘雄飞
Original assignee: Individual
Current assignee: XISHUANGBANNA SHANGTE NEW ENERGY TECHNOLOGY DEVELOPMENT Co Ltd
Priority date: 2011-07-21
Filing date: 2011-07-21
Publication date: 2012-02-01
Anticipated expiration: 2021-07-21

Abstract

The present utility model discloses a wind driven generator which comprises an upper shell, a lower shell, fan blades, a first coil arranged between the upper shell and the lower shell, and a rotating shaft respectively connected with the fan blades and the first coil. Magnets are respectively arranged on the inner sides of the upper shell and the lower shell, a protruding shell is formed along the axial direction of the rotating shaft by the upper shell, and the protruding shell is rotated around the rotating shaft. An annular cavity is arranged inside the protruding shell, magnets are arranged on the two side surfaces of the cavity, the first coil is provided with an annular coil capable of matching with the annular cavity. The present utility model also discloses a vertical wind driven generator. In the generator, an independent generating structure is formed on the upper shell, the magnets and the annular coil are added, the motor structure resource of the generator is better utilized, and the generating capacity of the wind driven generator is greatly increased.

Description

Wind-driven generator and rectilinear wind-driven generator

Technical field

The utility model relates to generator, particularly a kind of wind-driven generator and rectilinear wind-driven generator.

Background technology

The motor of existing wind-driven generator is to be made up of the magnet that one group of coil and coil both sides are arranged on the upper and lower shell; The coil in the wind-driven generator motor and the negligible amounts of magnet; Do not utilize the infrastructure resource of motor well,, just must scale up motor on the whole as increasing the energy output of wind-driven generator; Perhaps parallelly connected, the plural generator of connecting, cost is bigger.

The utility model content

The main purpose of the utility model provides a kind of wind-driven generator and rectilinear wind-driven generator, is intended to more reasonably utilize the infrastructure resource of wind-driven generator, realizes that the energy output of generator increases greatly.

The utility model proposes a kind of wind-driven generator; Comprise upper casing, lower casing, be arranged on first coil between upper casing and the lower casing and the rotating shaft that can be connected with fan blade, first coil respectively; The inboard of said upper casing, lower casing is respectively arranged with magnet; Said upper casing also can rotate around said rotating shaft along the axial projection formation convex hull of said rotating shaft; Be provided with annular cavity in the said convex hull, the two side of said cavity is provided with magnet, said first coil be provided with one can with the suitable making toroidal coil of said annular cavity.

Preferably, also comprise the mesochite that is fixedly installed between said upper casing and the lower casing, the both sides of said mesochite are respectively arranged with magnet, between said lower casing, mesochite, are provided with second coil, and said second coil is fixedly connected with said rotating shaft.

Preferably, said first coil is connected with said making toroidal coil.

Preferably, the number of turn of said first coil, second coil is identical or inequality.

Preferably, the electric current of said first coil, making toroidal coil, second coil derivation line is all drawn in said rotating shaft.

The utility model proposes a kind of rectilinear wind-driven generator again; Comprise upper casing, lower casing, vertically be provided with receive wind apparatus, be arranged between upper casing and the lower casing first coil and can be respectively and the said rotating shaft that be connected by wind apparatus, first coil; The inboard of said upper casing, lower casing is respectively arranged with magnet; Said upper casing also can rotate around said rotating shaft along the axial projection formation convex hull of said rotating shaft; Be provided with annular cavity in the said convex hull, the two side of said cavity is provided with magnet, said first coil be provided with one can with the suitable making toroidal coil of said annular cavity.

Preferably, said first coil is connected with said making toroidal coil.

The upper casing of the utility model wind-driven generator, rectilinear wind-driven generator forms convex hull along the axial projection of said rotating shaft; Be provided with annular cavity in the convex hull, the two side of cavity is provided with magnet, and first coil is provided with the suitable making toroidal coil of annular cavity; Thereby formed an independently electrification structure; Increased magnet and coil, utilized the electric machine structure resource of generator better, the energy output of wind-driven generator is increased considerably.

Description of drawings

Fig. 1 is the exploded view of an embodiment of the utility model wind-driven generator;

Fig. 2 is the sketch map after Fig. 1 wind-driven generator combination;

Fig. 3 is the cutaway view of Fig. 2 wind-driven generator.

The realization of the utility model purpose, functional characteristics and advantage will combine embodiment, further specify with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

With reference to Fig. 1, Fig. 2, Fig. 3; One embodiment of a kind of wind-driven generator of the utility model is proposed; Comprise upper casing 100, lower casing 200, be used to drive rotating shaft fan blade (scheming not shown), be arranged on first coil 500 between upper casing 100 and the lower casing 200 and the rotating shaft 700 that can be connected with fan blade, first coil 500 respectively, the inboard of upper casing 100, lower casing 200 is respectively arranged with magnet 400, upper casing 100 forms convex hull 800 along the axial projection of rotating shaft 700; Convex hull 800 can 700 rotate around the shaft; And be connected with this rotating shaft 700 through bearing, being provided with annular cavity in the convex hull 800, the two side of annular cavity in the vertical direction is provided with magnet 400; First coil 500 is provided with one, and can be connected with making toroidal coil 900 with suitable making toroidal coil 900, the first coils 500 of annular cavity also can be separate.Making toroidal coil 900 places in the annular cavity, and making toroidal coil 900 can cut the magnetic induction line between the cavity two side when rotating, thereby produces electric current.

Wind-driven generator also comprises the mesochite 300 that is fixedly installed between upper casing 100 and the lower casing 200, and the both sides of mesochite 300 are respectively arranged with magnet 400, between lower casing 200, mesochite 300, is provided with second coil, 600, the second coils 600 and is fixedly connected with rotating shaft 700.The number of turn of first coil 500, second coil 600 is identical or inequality.The electric current of first coil 500, making toroidal coil 900, second coil 600 is derived line and all in rotating shaft 700, is drawn.It is separate that the electric current of first coil 500, making toroidal coil 900 and second coil 600 is derived line, also can be together in series.

Formed an independently electrification structure on the upper casing 100 of the utility model wind-driven generator; Utilize the electric machine structure resource of generator better, increased magnet 400 and making toroidal coil 900, therefore; Wind-driven generator has just increased the electric energy that making toroidal coil 900 is produced in generating; The energy output of the utility model is increased considerably, and a generating function produces bigger electric current, has reduced cost.

The utility model proposes an a kind of embodiment of rectilinear wind-driven generator again; It has comprised the wind-driven generator of Fig. 1, Fig. 2, Fig. 3; Comprising upper casing 100, lower casing 200, vertically be provided with receive wind apparatus (scheme not shown), be arranged between upper casing 100 and the lower casing 200 first coil 500 and can be respectively and the rotating shaft 700 that be connected by wind apparatus, first coil 500, receive the wind apparatus in the vertical direction suitable or rotate counterclockwise and drive rotating shaft 700.The inboard of upper casing 100, lower casing 200 is respectively arranged with magnet 400; Upper casing 100 forms convex hull 800 along the axial projection of rotating shaft 700; Convex hull 800 can 700 rotate around the shaft; And be connected with this rotating shaft 700 through bearing, being provided with annular cavity in the convex hull 800, the two side of annular cavity in the vertical direction is provided with magnet 400; First coil 500 is provided with one, and can be connected with making toroidal coil 900 with suitable making toroidal coil 900, the first coils 500 of annular cavity also can be separate.Making toroidal coil 900 places in the annular cavity, and making toroidal coil 900 can cut the magnetic induction line between the cavity two side when rotating, thereby produces electric current.

The embodiment of this rectilinear wind-driven generator also comprises other technical scheme of above-mentioned wind-driven generator embodiment, and the technique effect that is reached is also identical, repeats no more at this.

The above is merely the preferred embodiment of the utility model; Be not thus the restriction the utility model claim; Every equivalent structure transformation that utilizes the utility model specification and accompanying drawing content to be done; Or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the utility model.

Claims

1. wind-driven generator; Comprise upper casing, lower casing, fan blade, be arranged on first coil between upper casing and the lower casing and the rotating shaft that can be connected with said fan blade, first coil respectively; The inboard of said upper casing, lower casing is respectively arranged with magnet; It is characterized in that said upper casing forms convex hull and can be provided with annular cavity in the said convex hull around said rotating shaft rotation along the axial projection of said rotating shaft; The two side of said cavity is provided with magnet, said first coil be provided with one can with the suitable making toroidal coil of said annular cavity.

2. wind-driven generator according to claim 1; It is characterized in that; Also comprise the mesochite that is fixedly installed between said upper casing and the lower casing; The both sides of said mesochite are respectively arranged with magnet, between said lower casing, mesochite, are provided with second coil, and said second coil is fixedly connected with said rotating shaft.

3. wind-driven generator according to claim 1 and 2 is characterized in that, said first coil is connected with said making toroidal coil.

4. wind-driven generator according to claim 3 is characterized in that, the number of turn of said first coil, second coil is identical or inequality.

5. wind-driven generator according to claim 4 is characterized in that, the electric current of said first coil, making toroidal coil, second coil is derived line and all in said rotating shaft, drawn.

6. rectilinear wind-driven generator; Comprise upper casing, lower casing, vertically be provided with receive wind apparatus, be arranged between upper casing and the lower casing first coil and can be respectively and the said rotating shaft that be connected by wind apparatus, first coil; The inboard of said upper casing, lower casing is respectively arranged with magnet; It is characterized in that said upper casing forms convex hull and can be provided with annular cavity in the said convex hull around said rotating shaft rotation along the axial projection of said rotating shaft; The two side of said cavity is provided with magnet, said first coil be provided with one can with the suitable making toroidal coil of said annular cavity.

7. rectilinear wind-driven generator according to claim 6; It is characterized in that; Also comprise the mesochite that is fixedly installed between said upper casing and the lower casing; The both sides of said mesochite are respectively arranged with magnet, between said lower casing, mesochite, are provided with second coil, and said second coil is fixedly connected with said rotating shaft.

8. according to claim 6 or 7 described rectilinear wind-driven generators, it is characterized in that said first coil is connected with said making toroidal coil.

9. rectilinear wind-driven generator according to claim 8 is characterized in that, the number of turn of said first coil, second coil is identical or inequality.