CN105245070A - Large power disk generator - Google Patents

Abstract

The invention discloses a large power disk generator, comprising an upper end cap and a lower end cap, and a plurality of rotor assemblies which are stacked between the upper end cap and the lower end cap; a stator assembly is arranged between the adjacent rotor assemblies; the stator assembly is arranged between the upper end cap and the rotor assembly adjacent to the upper end cap; the stator assembly is arranged between the lower end cap and the rotor assembly adjacent to the lower end cap; the large power disc generator also comprises a stator shaft; the stator assembly is fixed on the stator shaft; a plurality of magnet blocks are arranged along the circumference direction on the inner sides of the upper end cap and the lower end cap; the upper end cap is connected to the upper end of the stator shaft through a first bearing; and the lower end cap is connected to the lower end of the stator shaft through the second bearing. The large power disc generator has the plurality of rotor assemblies and the plurality of stator assemblies, which can effectively convert more kinetic energy to electric energy and can satisfy the need for big power generation.

Description

High-power disk generator

Technical field

The present invention relates to disk generator, more particularly, relate to a kind of high-power disk generator.

Background technology

Disk generator is generally used for vertical axis wind power generation system.Existing disk generator generally only has a stator disc, and be positioned at top rotary table above stator and be positioned at the lower rotary table below stator disc, stator disc circumferentially arranges multiple coil, top rotary table and lower rotary table then arrange multiple permanent magnet, when top rotary table and lower rotary table relative stator disc spins, generation current in the coil on stator disc.Because stator disc only has one, make the power of existing disk generator little, energy output is few, and generating efficiency is low, can not meet the demand of Electricity Generation.

Summary of the invention

The object of the present invention is to provide a kind of high-power disk generator, to meet the needs of Electricity Generation.

On the one hand, high-power disk generator provided by the invention comprises upper end cover and bottom end cover, and the stacked multiple rotor assembly be arranged between described upper end cover and bottom end cover, stator module is provided with between adjacent rotor assembly, also be provided with stator module between described upper end cover and the rotor assembly adjacent with described upper end cover, between described bottom end cover and the rotor assembly adjacent with described bottom end cover, be also provided with stator module;

Described high-power disk generator also comprises stator axis;

Described stator module comprises circular stator disc, and the coil be evenly arranged on along described stator disc circumferencial direction on described stator disc, coil number m on each described stator disc is the common multiple of 2 and 3, described stator disc is fixed in described stator axis by axle core connector, described axle core connector is set in described stator axis, and described stator disc is fixed on described axle core connector;

The medial surface of described upper end cover and described bottom end cover is along the circumferential direction provided with multiple magnet block respectively uniformly, described upper end cover is connected by the upper end of clutch shaft bearing with described stator axis, described bottom end cover is connected with the lower end of described stator axis by the second bearing, the number of the described magnet block on described upper end cover and described bottom end cover is all n, n is the common multiple of 2 and 3, and m>n;

Described rotor assembly comprises rotor disk, described rotor disk comprises columnar ring wall and by the annular backup pad formed that radially extends internally inside described ring wall, the ring wall of adjacent rotor assembly is stacked to link together, described annular backup pad is along the circumferential direction provided with multiple magnet block uniformly, and the number of the magnet block on each rotor assembly is n;

Described rotor disk, stator disc and stator axis are coaxially arranged, the part being provided with coil of described stator disc extend between the annular backup pad of two adjacent rotor disks, described rotor disk, described upper end cover and bottom end cover are together when described stator disc rotates, and coil described in the magnetic field intercepts of described magnet block is with generation current in described coil;

The top of described upper end cover is provided with the axle connecting portion for connecting power input shaft.

In high-power disk generator of the present invention, described stator axis has the passage supplying the power input lines of described coil to pass through.

In high-power disk generator of the present invention, described upper end cover, bottom end cover and described rotor disk form by without the punching press of magnetic metal material or die casting, and described stator disc is made up of pottery or bakelite.

On the other hand, high-power disk generator provided by the invention comprises upper end cover and bottom end cover, and the stacked multiple rotor assembly be arranged between described upper end cover and bottom end cover, stator module is provided with between two adjacent described rotor assembly, also be provided with stator module between described upper end cover and the rotor assembly adjacent with described upper end cover, between described bottom end cover and the rotor assembly adjacent with described bottom end cover, be also provided with stator module;

Described high-power disk generator also comprises stator axis;

Described stator module comprises circular stator disc, and the coil be evenly arranged on along described stator disc circumferencial direction on described stator disc, described stator disc is fixed in described stator axis by axle core connector, described axle core connector is set in described stator axis, and described stator disc is fixed on described axle core connector;

The medial surface of described upper end cover and described bottom end cover is along the circumferential direction provided with multiple magnet block respectively uniformly, and described upper end cover is connected by the upper end of clutch shaft bearing with described stator axis, and described bottom end cover is connected with the lower end of described stator axis by the second bearing;

Described rotor assembly comprises rotor disk, described rotor disk comprises columnar ring wall and by the annular backup pad formed that radially extends internally inside described ring wall, the ring wall of adjacent rotor assembly is stacked to link together, and described annular backup pad is along the circumferential direction provided with multiple magnet block uniformly;

Described rotor disk, stator disc and stator axis are coaxially arranged, the part being provided with coil of described stator disc extend between the annular backup pad of two adjacent rotor disks, described rotor disk, described upper end cover and bottom end cover are together when described stator disc rotates, and coil described in the magnetic field intercepts of described magnet block is with generation current in described coil.

In high-power disk generator of the present invention, the coil number m on each described stator disc is the common multiple of 2 and 3.

In high-power disk generator of the present invention, the common multiple of the number of the described magnet block on described upper end cover and described bottom end cover to be all n, n be 2 and 3, and m>n, the number of the magnet block on each rotor assembly is n.

In high-power disk generator of the present invention, described stator axis has the passage supplying the power input lines of described coil to pass through.

In high-power disk generator of the present invention, described upper end cover, bottom end cover and described rotor disk form by without the punching press of magnetic metal material or die casting.

In high-power disk generator of the present invention, described stator disc is made up of pottery or bakelite.

In high-power disk generator of the present invention, the top of described upper end cover is provided with the axle connecting portion for connecting power input shaft.

Implement high-power disk generator of the present invention, there is following beneficial effect: high-power disk generator of the present invention has multiple rotor set and multiple stator pack, can be electric energy by more kinetic transformation effectively, the needs of Electricity Generation can be met.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the structural representation of an embodiment of high-power disk generator of the present invention;

Fig. 2 is the decomposing schematic representation of the high-power disk generator shown in Fig. 1;

Fig. 3 is the stator module of high-power disk generator of the present invention and the decomposing schematic representation of rotor assembly;

Fig. 4 is the schematic diagram in the magnetic field that the magnet block of a rotor assembly of high-power disk generator of the present invention produces;

Fig. 5 is the schematic diagram in the magnetic field that all rotor assembly of high-power disk generator of the present invention are formed together.

Embodiment

In order to be illustrated more clearly in the present invention, below in conjunction with preferred embodiments and drawings, the present invention is described further.Parts similar in accompanying drawing represent with identical Reference numeral.It will be appreciated by those skilled in the art that specifically described content is illustrative and nonrestrictive, should not limit the scope of the invention with this below.

In order to there be understanding clearly to technical characteristic of the present invention, object and effect, now contrast accompanying drawing and describe the specific embodiment of the present invention in detail.

Be described below in detail the embodiment of high-power disk generator of the present invention, the example of these embodiments is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.

In the description of high-power disk generator of the present invention, it will be appreciated that, term "front", "rear", " on ", D score, " upper end ", " lower end ", " top ", the orientation of the instruction such as " bottom " or position relationship be based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.In addition, term " first ", " second " etc. only for describing object, and can not be interpreted as instruction or hint relative importance.

As shown in Figure 1, Figure 2 and Figure 3, be an embodiment of high-power disk generator of the present invention.The high-power disk generator of this embodiment comprises upper end cover 1 and bottom end cover 2, and the stacked multiple rotor assembly 3 be arranged between upper end cover 1 and bottom end cover 2, and multiple rotor assembly 3 stacks gradually together from top to bottom.Each rotor assembly 3 comprises a rotor disk 30, and rotor disk 30 comprises columnar ring wall 31 and by the annular backup pad 32 formed that radially extends internally inside ring wall 31.The stacked sidewall being joined together to form high-power disk generator of ring wall 31 of adjacent rotor assembly 3, can be linked together by any suitable mode between ring wall 31, such as be bolted, weld or other conventional modes be suitable for connect, the ring wall 31 of rotor disk 30 is topmost together with the edge conjunction of upper end cover 1, the ring wall 31 of rotor disk 30 is bottom together with the edge conjunction of bottom end cover 2, and the ring wall 31 of upper end cover 1, rotor disk 30 and bottom end cover 2 define the outline of high-power disk generator.The annular backup pad 32 of the rotor disk of rotor assembly 3 is along the circumferential direction provided with multiple magnet block 6 uniformly, and the common multiple of the number of the magnet block 6 on each rotor assembly 3 to be n, n be 2 and 3, namely n can be divided exactly by 2 and 3.The medial surface of upper end cover 1 and bottom end cover 2 is along the circumferential direction provided with multiple magnet block 6 respectively uniformly, the number of the magnet block 6 on upper end cover 1 and bottom end cover 2 is all also n, and namely upper end cover 1 is identical with the number of the magnet block 6 on rotor assembly 3 with the number of the magnet block 6 on bottom end cover 2.Magnet block 6 is permanent magnet, such as alloy permanent magnet, can be to be made up of NdFeB material, can also be ferrite permanent magnet.

Referring to Fig. 1 and Fig. 2, stator module 4 is provided with between adjacent rotor assembly 3 in high-power disk generator of the present invention, also stator module 4 is provided with between upper end cover 1 and the rotor assembly 3 adjacent with upper end cover 1, also be provided with stator module 4 between bottom end cover 2 and the rotor assembly 3 adjacent with bottom end cover 2, high-power disk generator also comprises stator axis 5.Stator module 4 comprises circular stator disc 40, and the coil 41 be evenly arranged on along stator disc 40 circumferencial direction on stator disc 40, coil 41 can have the copper cash with insulating barrier to be coiled into, coil 41 number m on each stator disc 40 is also the common multiple of 2 and 3, and preferred m>n, stator disc 40 is fixed in stator axis 5 by axle core connector 42, axle core connector 42 is set in stator axis 5, stator disc 40 is fixed on axle core connector 42, particularly, axle core connector 42 has the through hole passed for stator axis 5, axle core connector 42 to be enclosed within stator axis 5 and to be fixed in stator axis 5, axle core connector 42 also has the flange portion be connected with stator disc 40, stator disc 40 is fixedly connected with the flange portion of axle core connector 42.Rotor disk 30, stator disc 40 and stator axis 5 are coaxially arranged, and the part being provided with coil 41 of stator disc 40 extend between the annular backup pad 32 of two adjacent rotor disks 30.Upper end cover 1 is connected with the upper end of stator axis 5 by clutch shaft bearing 71, bottom end cover 2 is connected with the lower end of stator axis 5 by the second bearing 72, and such upper end cover 1 and bottom end cover 2 and the rotor assembly between upper end 1 and bottom end cover 23 can rotate by relative stator axle 5 together.Rotor disk 30, upper end cover 1 and bottom end cover 2 are when relative stator dish 40 rotates together, and the magnetic field intercepts coil 41 of magnet block 6, with generation current in coil 41, generates electricity thus.The electric current conveniently produced in coil 41 can transfer out easily, the passage supplying the power input lines of coil 41 to pass through can be set in stator axis 5, such as, stator axis 5 can be hollow-core construction, and the power input lines of coil 41 can pass through from the center of stator axis 5.

In high-power disk generator of the present invention, upper end cover 1, bottom end cover 2 and rotor disk 30 form by without the punching press of magnetic metal material or die casting, such as can by aluminium, aluminium alloy, copper, copper alloy, stainless steel or other made by punching press or extrusion process without magnetic metal material.Stator disc 40 is made up of insulating material, such as, can be made up of pottery or bakelite (phenolic plastics) or other insulating material.

Referring to Fig. 1, conveniently be connected with power input shaft, the such as rotating shaft of vertical axis wind power generation wind wheel, the top of upper end cover 1 is provided with the axle connecting portion 8 for connecting power input shaft, the rotating shaft of vertical axis wind power generation wind wheel can be connected with axle connecting portion 8, when vertical axis wind power generation wind wheel rotates, upper end cover 1, rotor assembly 3 relative stator assembly 4 together with bottom end cover 2 can be driven to rotate, to produce electric power.Referring to Fig. 4 and Fig. 5, the schematic diagram in the magnetic field that the magnet block 6 that wherein Fig. 4 is a rotor assembly 3 produces, Fig. 5 is then the schematic diagram in the magnetic field that all rotor assembly 3 of whole high-power disk generator produce together, when vertical axis wind power generation wind wheel rotor driven assembly 3 rotates, the magnetic field that rotor assembly 3 produces is just along with rotor assembly 3 rotates together, due to stator module 4 geo-stationary, during the coil 41 of magnetic field intercepts stator module 4 that rotor assembly 3 produces, electric current will be formed in coil 41, thus, along with the not stall of rotor assembly 3 is moved, electric current in coil 41 just generates endlessly.

In high-power disk generator of the present invention, the number of the magnet block 6 on each rotor assembly 3, upper end cover 1 and bottom end cover 2 is preferably n, n is the common multiple of 2 and 3, the number of the coil 41 on each stator module 4 is preferably m, m is also the common multiple of 2 or 3, and preferred m>n.But it will be appreciated that equally, magnet block 6 number on each rotor assembly 3 of high-power disk generator of the present invention, upper end cover 1 and bottom end cover 2 is not limited to the common multiple of 2 and 3, and the number of the coil 41 on each stator module 4 is also not limited to the common multiple of 2 and 3.

High-power disk generator of the present invention has multiple rotor set and multiple stator pack, can be electric energy by more kinetic transformation effectively, can meet the needs of Electricity Generation.

By reference to the accompanying drawings embodiments of the invention are described above; but the present invention is not limited to above-mentioned embodiment; above-mentioned embodiment is only schematic; instead of it is restrictive; those of ordinary skill in the art is under enlightenment of the present invention; do not departing under the ambit that present inventive concept and claim protect, also can make a lot of form, these all belong within protection of the present invention.

Claims (10)

1. a high-power disk generator, it is characterized in that, comprise upper end cover (1) and bottom end cover (2), and the stacked multiple rotor assembly (3) be arranged between described upper end cover (1) and bottom end cover (2), stator module (4) is provided with between adjacent rotor assembly (3), also stator module (4) is provided with between described upper end cover (1) and the rotor assembly (3) adjacent with described upper end cover (1), also stator module (4) is provided with between described bottom end cover (2) and the rotor assembly (3) adjacent with described bottom end cover (2),

Described high-power disk generator also comprises stator axis (5);

Described stator module (4) comprises circular stator disc (40), and the coil (41) be evenly arranged on along described stator disc (40) circumferencial direction on described stator disc (40), coil (41) number m on each described stator disc (40) is the common multiple of 2 and 3, described stator disc (40) is fixed in described stator axis (5) by axle core connector (42), described axle core connector (42) is set in described stator axis (5), and described stator disc (40) is fixed on described axle core connector (42);

The medial surface of described upper end cover (1) and described bottom end cover (2) is along the circumferential direction provided with multiple magnet block (6) respectively uniformly, described upper end cover (1) is connected by the upper end of clutch shaft bearing (71) with described stator axis (5), described bottom end cover (2) is connected by the lower end of the second bearing (72) with described stator axis (5), the number of the described magnet block (6) on described upper end cover (1) and described bottom end cover (2) is all n, n is the common multiple of 2 and 3, and m>n;

Described rotor assembly (3) comprises rotor disk (30), described rotor disk (30) comprises columnar ring wall (31) and radially to be extended internally the annular backup pad (32) formed by described ring wall (31) inner side, the ring wall (31) of adjacent rotor assembly (3) is stacked to link together, described annular backup pad (32) is along the circumferential direction provided with multiple magnet block (6) uniformly, and the number of the magnet block (6) on each rotor assembly (3) is n;

Described rotor disk (30), stator disc (40) and stator axis (5) are coaxially arranged, the part being provided with coil (41) of described stator disc (40) extend between the annular backup pad (32) of two adjacent rotor disks (30), described rotor disk (30), described upper end cover (1) and bottom end cover (2) are together when described stator disc (40) rotates, and coil (41) described in the magnetic field intercepts of described magnet block (6) is with generation current in described coil (41);

The top of described upper end cover (1) is provided with the axle connecting portion (8) for connecting power input shaft.

2. high-power disk generator according to claim 1, is characterized in that, described stator axis (5) has the passage supplying the power input lines of described coil (41) to pass through.

3. high-power disk generator according to claim 1, it is characterized in that, described upper end cover (1), bottom end cover (2) and described rotor disk (30) form by without the punching press of magnetic metal material or die casting, and described stator disc (40) is made up of pottery or bakelite.

4. a high-power disk generator, it is characterized in that, comprise upper end cover (1) and bottom end cover (2), and the stacked multiple rotor assembly (3) be arranged between described upper end cover (1) and bottom end cover (2), stator module (4) is provided with between two adjacent described rotor assembly (3), also stator module (4) is provided with between described upper end cover (1) and the rotor assembly (3) adjacent with described upper end cover (1), also stator module (4) is provided with between described bottom end cover (2) and the rotor assembly (3) adjacent with described bottom end cover (2),

Described high-power disk generator also comprises stator axis (5);

Described stator module (4) comprises circular stator disc (40), and the coil (41) be evenly arranged on along described stator disc (40) circumferencial direction on described stator disc (40), described stator disc (40) is fixed in described stator axis (5) by axle core connector (42), described axle core connector (42) is set in described stator axis (5), and described stator disc (40) is fixed on described axle core connector (42);

The medial surface of described upper end cover (1) and described bottom end cover (2) is along the circumferential direction provided with multiple magnet block (6) respectively uniformly, described upper end cover (1) is connected by the upper end of clutch shaft bearing (71) with described stator axis (5), and described bottom end cover (2) is connected by the lower end of the second bearing (72) with described stator axis (5);

Described rotor assembly (3) comprises rotor disk (30), described rotor disk (30) comprises columnar ring wall (31) and radially to be extended internally the annular backup pad (32) formed by described ring wall (31) inner side, the ring wall (31) of adjacent rotor assembly (3) is stacked to link together, and described annular backup pad (32) is along the circumferential direction provided with multiple magnet block (6) uniformly;

Described rotor disk (30), stator disc (40) and stator axis (5) are coaxially arranged, the part being provided with coil (41) of described stator disc (40) extend between the annular backup pad (32) of two adjacent rotor disks (30), described rotor disk (30), described upper end cover (1) and bottom end cover (2) are together when described stator disc (40) rotates, and coil (41) described in the magnetic field intercepts of described magnet block (6) is with generation current in described coil (41).

5. high-power disk generator according to claim 4, is characterized in that, coil (41) the number m on each described stator disc (40) is the common multiple of 2 and 3.

6. high-power disk generator according to claim 5, it is characterized in that, the number of the described magnet block (6) on described upper end cover (1) and described bottom end cover (2) is all n, n is the common multiple of 2 and 3, and m>n, the number of the magnet block (6) on each rotor assembly (3) is n.

7. high-power disk generator according to claim 4, is characterized in that, described stator axis (5) has the passage supplying the power input lines of described coil (41) to pass through.

8. high-power disk generator according to claim 4, is characterized in that, described upper end cover (1), bottom end cover (2) and described rotor disk (30) form by without the punching press of magnetic metal material or die casting.

9. high-power disk generator according to claim 4, is characterized in that, described stator disc (40) is made up of pottery or bakelite.

10. high-power disk generator according to claim 4, is characterized in that, the top of described upper end cover (1) is provided with the axle connecting portion (8) for connecting power input shaft.