KR100933574B1 - Laminated assembly stator with coil winding used for vertical axis wind power generator - Google Patents

Abstract

The present invention relates to a laminated assembly stator in which a coil winding body used in a vertical shaft wind turbine is coupled, and in particular, as a stator of a vertical shaft wind turbine, a stepped portion (1) and a step at a top and a bottom thereof as a tubular cylindrical tube. (1) Cylindrical column member having a bolt-shaped screw portion (2) formed with a screw thread on the outer end surface of the end section, and perforated with a wire drawing hole (3) for guiding the wire connected to the coil to the lower surface of the cylindrical tube. (5) and the upper housing (8), which is formed with a plurality of fastening screw grooves (7) formed in the inner surface of the disc (1) and a bearing (6) rotated by a bearing as a medium to the step (1) A thread is formed in the center of the inner surface of the protrusion 10 and the disc-shaped flange 11 through which the center portion is penetrated to be coupled to the housing 9 and the upper and lower bolt-shaped screw portions 2 of the cylindrical column member 5. It has a molded nut-shaped screw portion 12, a plurality of disk-shaped flanges 11 on the outer peripheral surface The protruding flange 14 in which the two fastening holes 13 are formed, and the coil winding body 17 provided with the coil 16 of the column circumferential surface 15 of the cylindrical pillar member 5 are fixed to the coil winding. A laminated assembly stator (A) having a structure in which an electric wire 18 connected to the hull 17 is exposed to the outside of the tower through the inside of the cylindrical column member 5 through the wire drawing hole 3 is formed.

Description

Multi-layered stator with coil winding used for vertical axis wind power generators

 The present invention relates to a laminated assembly stator having a coil winding body used in a vertical axis wind power generator.

 In general, vertical wind turbines that generate electricity by rotating the braid by the wind are installed at a constant height from the ground. The structure of such a wind power generator is largely buried in the ground and installed at a constant height with a pillar member (tower) and a generator. It consists of a braid and other accessories. A vertical shaft wind turbine is installed on top of the pillar member to be driven by wind to generate electricity.

 The conventional vertical wind turbine described in the background art can only install one vertical wind turbine on one pillar member, and in case of failure of the vertical wind turbine, a lot of time is required to repair and replace the vertical wind turbine installed high above the ground. Because of this demand, electricity cannot be produced until repair and replacement are made, and the economical disadvantage of the vertical axis wind turbine installed due to the expensive facility investment and the economical disadvantage of installing only one vertical shaft wind turbine generator on one pillar member. As the capacity of the wind turbines becomes larger and larger, wind turbines have become an economical problem in the installation of vertical wind turbines in low wind speed areas.

The present invention has been made in view of the problems and improvement methods of the prior art, and as a stator of a vertical axis wind power generator, a stepped section (1) and its stepped section (1) end section at the top and bottom as a tubular cylindrical tube A cylindrical pillar member 5 having a threaded bolt-shaped screw portion 2 formed on the outer side surface thereof, and having a wire drawing hole 3 for guiding the wires connected to the coil outwards on the lower surface of the cylindrical tube; An upper housing 8 and a lower housing 9 in which a bearing 6 that is coupled to the stepped portion 1 via a bearing is rotated and a plurality of fastening screw grooves 7 are formed on the circumferential surface of the disc; A nut-shaped screw part in which a screw thread is formed in a central portion of the cylindrical part 11 and the inner side of the protruding portion 10 and the disk-shaped flange 11 so as to be coupled to the upper and lower bolt-shaped screw parts 2 on the outer surface of the cylindrical pillar member 5. 12, a protruding flange (1) in which a plurality of fastening holes (13) are formed on an outer circumferential surface of the disk-shaped flange (11). 4) and the electric wire 18 connected to the coil winding body 17 by fixing and fixing the coil winding body 17 provided with the coil 16 to the column circumferential surface 15 of the cylindrical column member 5 above. A laminated assembly stator (A) having a structure exposed to the outside of the tower through the inside of the cylindrical column member (5) through the wire drawing hole (3) is configured. This laminated assembly stator (A) is a permanent magnet 20 is coupled to the inner side made of a separate casing 21 is a rotor 21 attached to the braid 19 on the outer side is the permanent magnet 20 and the coil winding of the present invention The hull 17 is disposed with a predetermined gap between each other, and the casing 21 body is coupled to the fastening screw groove 7 of the upper housing 8 and the lower housing 9 of the present invention by a fastening body and is vertical. When the blade 19 attached to the outside of the casing 21 by the wind is rotated by the wind generator, the electricity is generated in the coil winding body 17 of the present invention, the wire drawing hole (3) of the cylindrical column member (5) The wire 18 is transmitted to the outside of the pillar member (tower) of the vertical shaft wind turbine generator.

When explaining the effect of the present invention as described above, the conventional vertical axis wind power generator has one vertical shaft wind power generator mounted on one column member (tower), the laminated assembly stator (A) of the present invention is a vertical column of the vertical axis wind power generator At the same time, the function of the member and the role of the stator in which the coil winding body is coupled, and a fastening bolt and a nut between the fastening holes 13 of the disc-shaped flanges 11 coupled to the upper and lower parts of the plurality of laminated assembly stators (A) As a structure that can be assembled and assembled, the flange fastening hole of the base pillar member buried on the ground and the bottom disk-shaped flange 11 of the laminated assembly stator (A) of the present invention is placed in close contact with the fastening bolts, nuts are firmly assembled and fixed On top of the assembled stackable stator (A), a plurality of stacked stackers (A) are continuously assembled in the same manner in succession, and a plurality of vertical columns are mounted on one pillar member (tower). It is possible to drive economical wind power generators even in a region of low wind speed by installing wind power generators, and it is easy to repair and replace even if a specific vertical wind power generator breaks out of a plurality of vertical shafts. Wind power generators can operate normally to minimize disruptions in power production.

Hereinafter, the present invention was created in order to solve the above problems, an object of the present invention is to mount a plurality of vertical axis wind power generator in one vertical axis wind turbine unit (tower) to drive the vertical axis wind power generator at low wind speed It is to provide a laminated assembly stator incorporating a coil winding body for an economical vertical axis wind power generator that makes it easy to achieve.

Laminated assembly stator coupled to the coil winding used in the vertical axis wind power generator according to the present invention for achieving the above object,

A stator of a vertical axis wind power generator, which is a tubular cylindrical tube having upper and lower portions with a stepped portion and a bolt-shaped screw portion formed with threads formed on the outer end face of the stepped portion, and a coil on the lower portion of the cylindrical tube. Cylindrical column member which is perforated with a wire drawing hole for guiding the connected wire out,

An upper housing in which a bearing is rotated by being coupled to the stepped portion via a bearing, and a plurality of fastening screw grooves are formed on a circumferential surface of the disc.

A protruding portion through which the center is penetrated so as to be coupled to the upper and lower bolt-shaped screw portion outer surfaces of the cylindrical pillar member, and a nut-shaped screw portion with a screw thread formed at the inner surface of the disc-shaped flange, and a plurality of fastening holes are provided on the outer surface of the disc-shaped flange. Molded extruded flange,

The coil winding body provided with the coil is fixedly coupled to the pillar circumferential surface of the cylindrical pillar member so that the wire connected to the coil winding body is exposed to the outside of the tower through the inside of the cylindrical pillar member through the wire drawing hole.

The structure of the coil winding body provided with the coil on the circumferential surface of the pillar may use a cylindrical coil winding body for winding the coil in a normal slot or a disc coil winding body for winding the coil to the surface layer on a disc. have.

In addition, the diameter and length of the cylindrical column member are designed to be variable.

Preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 to 8, the laminated prefabricated stator coupled to the coil winding body used in the vertical axis wind power generator according to the present invention is large cylindrical column member (5), step (1), protruding flange (14), The coil winding body 17, the upper housing 8, and the lower housing 9 are comprised.

A stator of a vertical wind turbine, having a tubular cylindrical tube having a stepped portion (1) and a bolted screw portion (2) formed with threads formed on the outer end face of the stepped portion (1) at the top and bottom thereof. And a cylindrical column member (5) having a perforated wire drawing hole (3) for guiding the wire connected to the coil out on the lower surface of the cylindrical tube, and a bearing rotating to the stepped portion (1) via a bearing ( 6) is installed in the upper housing (8), lower housing (9), and the upper and lower bolt-shaped screw portion of the cylindrical column member (5) formed in the circumferential surface on the side of the disk 2) a protruding portion 10 through which the center is penetrated so as to be coupled to the outer surface, and a nut-shaped screw portion 12 formed with a screw thread in the inner surface of the disk-shaped flange 11, and a plurality of disk-shaped flanges 11 on the outer peripheral surface. Protruding flange 14 in which two fastening holes 13 are formed, and a coil 16 is provided on the column circumferential surface 15 of the cylindrical column member 5. The laminated assembly of the structure in which the coil winding body 17 is coupled and fixed so that the wire 18 connected to the coil winding body 17 is exposed to the outside of the tower through the inside of the cylindrical column member 5 through the wire drawing hole 3. Stator A is configured. This laminated assembly stator (A) is a permanent magnet 20 is coupled to the inner side made of a separate casing 21 is a rotor 21 attached to the braid 19 on the outer side is the permanent magnet 20 and the coil winding of the present invention The hull 17 is disposed with a predetermined gap between each other, and the casing 21 main body is coupled to the fastening screw groove 7 of the upper housing 8 and the lower housing 9 of the present invention and is a vertical wind generator. When the blade 19 attached to the outer side of the casing 21 is rotated by wind, electric power is generated in the coil winding body 17 of the present invention, so that the wire drawing hole 3 of the cylindrical column member 5 is opened. Through the wire 18 is transmitted to the outside of the pillar member (tower) of the vertical axis wind power generator.
In addition, referring to Figures 1 to 8, the laminated assembly stator coupled to the coil winding body used in the vertical axis wind power generator according to the present invention, the tubular cylindrical column member 5 is formed with a step (1) at the top and bottom ), A pair of housings (8, 9) rotatably coupled to the cylindrical column member (5), and a pair of housings (8, 9) each to prevent separation from the cylindrical column member (5). A pair of protruding flanges 14 coupled to the lower stepped portion 1 and a coil winding body 17 coupled to the outer circumferential surface of the cylindrical columnar member 5.
In addition, referring to Figures 1 to 8 (particularly Figure 8), in accordance with the present invention coupled to the coil winding body used in the vertical axis wind power generator comprising a plurality of unit assemblies (see Figures 1 to 7) to be laminated assembly In the laminated assembly stator, the unit assembly includes a tubular cylindrical pillar member 5 having a stepped portion 1 formed on the upper and lower portions thereof, and a pair of housings 8 rotatably coupled to the cylindrical pillar member 5. 9), a pair of protruding flanges 14 coupled to the upper and lower stepped portions 1, and a cylindrical column to prevent each of the pair of housings 8 and 9 from being separated from the cylindrical columnar member 5; Coil winding body 17 is coupled to the outer peripheral surface of the member (5).

1 is a cross-sectional structural view of a laminated assembly stator according to the present invention

Figure 2 is a cross-sectional structural view showing another embodiment of a laminated assembly stator according to the present invention

Figure 3 is a front view showing a laminated assembly stator assembly state according to the present invention

4 is a perspective view of a protruding flange used in the laminated assembly stator according to the present invention;

5 is a perspective view of the upper and lower housings for use in the laminated assembly stator according to the present invention.

Figure 6 is a perspective view of a cylindrical column member for use in the laminated assembly stator according to the present invention.

Figure 7 is a cross-sectional structure diagram of the permanent magnet is coupled to the laminated assembly stator according to the present invention and the casing coupled to the braid is coupled

8 is a front view of a state in which a plurality of vertical wind turbines in which casings are coupled to a laminated prefabricated stator according to the present invention are laminated to a pillar member embedded in the ground;

<Explanation of symbols for the main parts of the drawings>

A: Laminated assembly stator 1: Step part 2: Bolt type screw part 3: Wire drawing hole

5: Cylindrical cylindrical member 6: Bearing 7: Fastening screw groove 8: Upper housing

9: Lower housing 10: Projection part 11: Disc flange 12: Nut type screw part

DESCRIPTION OF SYMBOLS 13: Fastening hole 14: Protrusion flange 15: Pillar surface 16: Coil 17: Coil winding body

18: wire 19: braid 20: permanent magnet 21: casing

Claims (5)

A tubular cylindrical columnar member 5 having a stepped portion 1 having a bolt-shaped screw thread 2 formed on an outer side of an upper end and a lowered end thereof, and having a wire drawing hole 3 for guiding electric wires; A plurality of fastening screw grooves (7) formed on a circumferential surface thereof, the upper housing (8) and the lower housing (9) being fastened to the stepped portion (1) and rotating through the bearing (6) embedded therein; A nut-type screw thread 12 corresponding to the bolt-type screw thread 2 is formed to be coupled to the bolt-shaped thread thread 2, and an upper protrusion flange and a lower protrusion flange 14 in which a plurality of fastening holes 13 are formed in a cross section. ); And It includes a coil winding body 17 fastened to the circumferential surface 15 of the cylindrical column member 5, The coil 16 in the coil winding 17 is connected to the wire and penetrates the inside of the cylindrical pillar member 5 to be connected to the outside. Prefabricated stator. The method of claim 1, The coil winding body 17 is a laminated assembly stator coupled to the coil winding body used in the vertical axis wind power generator, characterized in that consisting of a cylindrical winding coil in a conventional slot. The method of claim 1, The coil winding body 17 is a laminated assembly stator coupled to the coil winding body used in a vertical axis wind power generator, characterized in that the disk is formed in the shape of a disk wound on the surface layer on the disk. A tubular cylindrical column member having a stepped portion formed at an upper portion and a lower portion; A pair of housings rotatably coupled to the cylindrical pillar member; A pair of protrusion flanges coupled to the upper and lower stepped portions to prevent each of the pair of housings from being separated from the cylindrical pillar member; And Laminated assembly stator coupled to the coil winding body used in the vertical axis wind turbine, characterized in that it comprises a coil winding coupled to the outer peripheral surface of the cylindrical column member. In the laminated assembly stator coupled to the coil winding body used in a vertical axis wind power generator including a plurality of unit assemblies to be laminated assembly, the unit assembly, A tubular cylindrical column member having a stepped portion formed at an upper portion and a lower portion; A pair of housings rotatably coupled to the cylindrical pillar member; A pair of protrusion flanges coupled to the upper and lower stepped portions to prevent each of the pair of housings from being separated from the cylindrical pillar member; And Laminated assembly stator coupled to the coil winding body used in the vertical axis wind turbine, characterized in that it comprises a coil winding coupled to the outer peripheral surface of the cylindrical column member.

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