CN103986290A - Efficient and integrated double-rotor bidirectional power generator device - Google Patents

Abstract

The invention discloses an efficient and integrated double-rotor bidirectional power generator device. The device comprises a shell, a first impeller, a second impeller, an inner rotor drive device and an outer rotor drive device, wherein the first impeller and the second impeller are arranged at the two ends of the shell respectively, and the inner rotor drive device and the outer rotor drive device are arranged in the shell. The inner rotor drive device comprises an inner shaft, an inner rotor arranged in the middle of the inner shaft, a first one-way gear and a second one-way gear, wherein the first one-way gear and the second one-way gear are arranged at the two ends of the inner shaft respectively. The outer rotor drive device comprises an outer rotor, a third one-way gear, a fourth one-way gear, a first outer shaft and a second outer shaft, wherein the first outer shaft and the second outer shaft are arranged on the two sides of the inner rotor respectively. The rotation direction of the inner rotor and the rotation direction of the outer rotor keep unchanged all the time, and accordingly power generation quality can be improved, inertia impact generated when the rotation directions of the impellers change between the impellers and the rotors can be effectively avoided, the service life of the power generator is prolonged, and additionally, the problem that the power generator is difficult to start can be solved due to the one-way gears.

Description

A kind of effective integrated birotor two-way generator device

Technical field

The invention discloses a kind of generating equipment, be specifically related to a kind of effective integrated birotor two-way generator device.

Background technology

The generator that tradition is used is mainly comprised of structures such as stator and rotors, and wherein stator is fixed, rotor motion, thus send electricity.In recent years, some have proposed a kind of novel electric generator structure, remove generator unit stator that is:, change into and contain two rotors, and these two rotors are by driving conversion equipment can realize reverse relative rotation simultaneously.

Although now had some to design the generator that can realize these specific (special) requirements, and the total electricity generating principle of these generators is also all similar, but be but of all kinds to realizing this critical system of driving conversion equipment of birotor counter-rotating simultaneously.

Wang Jingjing, Ye Sijin, Zheng Weigang. a kind of fully utilize wind energy ocean current can the design [J] of Novel dual-rotor generator. the frequency converter world. 2013 (10). in disclose a kind of internal rotor (former rotor) and external rotor (former stator) and be respectively fixedly connected with one and follow axle, and one end of two axles respectively fills an impeller that deflection angle is contrary, realizes birotor counter-rotating.But this device is relatively suitable for vertical direction, arrange, it is low that horizontal arrangement can structural strength, and difficulty can meet stable operation under larger stress.

In the patent No., be in ZL200910264407.4, disclose by shunting driving gearshaft, reverse gear ring, steering spindle etc. and formed and drive conversion equipment, and the patent No. is in ZL201210334291.9, to adopt epicyclic gearbox as driving conversion equipment to realize two turning, but generator starting torque is larger, be difficult for starting.

In the patent No., be in ZL02235745.9, to disclose axle in employing to be fixedly connected with internal rotor, and one group of stressed rear right handed impeller of torsional angle angle is installed; Outer shaft is that hollow shaft is enclosed within outward on interior axle, and be fixedly connected with external rotor, the impeller of one group of stressed rear counter clockwise direction rotation of torsional angle angle is also installed simultaneously, thereby realizing birotor reverses, it is more that but this device is installed impeller, after while having ignored incoming flow, impeller causes larger resistance can to front impeller, so the efficiency of this device can be lower.

The comprehensive birotor generator of having developed at present, although they are different aspect driving conversion equipment, but they have a common feature, that is: cardinal principle is all to use two axles, and the two ends of every axle are all fixedly connected with an impeller with a rotor respectively, so two-spool, turning to can be along with turning to of impeller changes and change, like this except can affecting to some extent power generating quality, also can cause the generator resistance of start to be difficult to greatly start, and the life-span is low, so current existing birotor generator is only suitable for some specific occasions, as be applied in the one-way fluid of flow speed stability, and be not suitable for the unsettled two-way generating of flow path direction.

Summary of the invention

Goal of the invention: in order to overcome the deficiencies in the prior art, the invention provides a kind of effective integrated birotor two-way generator device.

Technical scheme: for solving the problems of the technologies described above, a kind of effective integrated birotor two-way generator device disclosed by the invention, the internal rotor drive unit and the external rotor drive unit that comprise shell, be located at the first impeller and second impeller at shell two ends and be located at enclosure, described internal rotor drive unit comprises an interior axle, is located at interior axle middle internal rotor, the first ratchet that is located at interior axle two ends and the second ratchet, described the first ratchet and the second ratchet outside are respectively equipped with one first thrust bearing and the second thrust bearing, and described the first ratchet is fixedly connected with the second impeller is detachable with the first impeller respectively with the second ratchet, described external rotor drive unit comprises external rotor, the 3rd ratchet, the 4th ratchet, be located at respectively the first outer shaft and second outer shaft of internal rotor both sides, one end of described the first outer shaft and the second outer shaft is fixedly connected with the second impeller with the first impeller respectively, the other end of described the first outer shaft and the second outer shaft is respectively equipped with the 3rd ratchet and the 4th ratchet, described external rotor is located at internal rotor outside, external rotor two ends are connected with the 4th ratchet with the 3rd ratchet respectively, described the first ratchet, the 3rd ratchet teeth groove rotation direction is identical, described the second ratchet is seen all identical with the 4th ratchet teeth groove rotation direction from same direction, the setting angle of blade of the first impeller and the second impeller arranges axisymmetricly centered by vertical plane in the middle of interior axle 8.

Further, in order to support interior axle and outer shaft, between described the first outer shaft and the second outer shaft two ends and interior axle, be respectively equipped with one group of the 3rd thrust bearing.

Further, described internal rotor both sides are respectively equipped with a thrust plate being located on interior axle, are provided with one the 4th thrust bearing between described thrust plate and interior axle.

Further, described external rotor two ends are respectively equipped with a removable end cap, are provided with one the 6th thrust bearing between described removable end cap and outer shaft.

Further, ratchet comprises external tooth and the internal tooth being connected with external tooth, the interior ring of described external tooth is provided with one group of teeth groove that rotation direction is identical, described internal tooth comprises two connectors and the connecting ring being connected with two connectors, described the first ratchet is connected with interior axle by connecting ring with the second ratchet, by external tooth, be detachably fixedly connected with the second impeller with the first impeller respectively, described the 3rd ratchet is connected with the second outer shaft with the first outer shaft respectively by connecting ring with the 4th ratchet, by external tooth, is detachably fixedly linked respectively with external rotor.The first ratchet is identical with the second unmarried tooth radius size, and the 3rd ratchet is identical with the 4th ratchet radius size, and the 3rd ratchet radius is greater than the first ratchet radius.

Further, be provided with one first collector ring in described external rotor, described the first collector ring is located on the first outer shaft, and described the first outer shaft is provided with second collector ring being connected by lead-in wire with the first collector ring.

Further, be respectively equipped with one the 5th thrust bearing on described the first outer shaft and the second outer shaft, described the first outer shaft is connected with shell by the 5th thrust bearing with the second outer shaft.

Further, for the liquid such as anti-sealing enter, in body, cause damage, thereby can utilize its energy generating in the aqueous fluids such as ocean, between described the first outer shaft and the second outer shaft and shell, be respectively equipped with a seal.

Further, on described the first outer shaft and the second outer shaft, be a step convergent divergent channel with the junction of the first impeller and the second impeller.

Further, the described external tooth periphery that is detachably fixedly connected as the first ratchet and the second ratchet, the 3rd ratchet and the 4th ratchet is welded with key, the first ratchet and the second ratchet embed impeller keyway by key, and the 3rd ratchet and the 4th ratchet embed in external rotor keyway by key.

In the present invention, internal rotor is many magnetic poles permanent magnet and is fixedly connected with interior axle, interior axle two ends are realized and being dynamically connected with the first impeller and the second impeller respectively by the first ratchet and the second ratchet respectively, and outer shaft is dynamically connected with external rotor realization by the 3rd ratchet and the 4th ratchet; The setting angle of blade of these two impellers in the middle of interior axle centered by vertical plane axisymmetricly; The first thrust bearing and the second thrust bearing are installed respectively in interior axle two ends, play the moving support between interior axle and impeller and transmit incoming flow thrust; On two outer shafts, be respectively equipped with one the 5th thrust bearing, play the suffered incoming flow thrust of generator is passed to shell, finally by shell, keep single unit system balance; In addition, on internal rotor interior axle nearby, a thrust bearing is installed, thrust bearing outer ring embeds in thrust plate, and this thrust plate mainly plays and supports internal rotor balanced action; Armature winding is housed in external rotor, and the second collector ring that first electricity that in external rotor, armature winding produces passes on the outer shaft of the left side by the first collector ring on the outer shaft of the left side is drawn, and exports by package lead.

Beneficial effect: the present invention has the following advantages with respect to prior art:

1, the present invention can realize no matter how two wheel rotation directions that remain reciprocal rotation change, the rotation direction of the inner and outer Rotator of generator can remain that direction is constant separately, so not only can improve power generating quality, inertia impact in the time of can also effectively avoiding impeller rotation direction to change and between rotor, improves generator useful life.

2, the present invention is by using ratchet, the interior teeth of ratchet and outer teeth groove be not in disconnecting contactless state owing to starting, so two impellers can start by zero load, thereby drive two rotor startups, avoid starting torque to occur compared with situation large to start.

3, the present invention not only can be in one-way fluid, can also be used in along impeller shaft to the frequent fluid changing of flow direction in, realize two-way generating, applied widely, as the design utilizes marine stream to realize two-way generating for inshore.

4, structural principle of the present invention can be applied in some Practical Project equipment equally, realizes the specific (special) requirements in some engineering application.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is that the present invention removes the structural representation after housing.

Fig. 3 is internal rotor driving device structure schematic diagram of the present invention.

Fig. 4 is ratchet structural representation in the present invention.

Fig. 5 is the second impeller transmission schematic diagram in the present invention.

Fig. 6 is the first impeller transmission schematic diagram in the present invention.

Embodiment

Below in conjunction with accompanying drawing, the present invention is further described.

As shown in Figures 1 to 4, a kind of effective integrated birotor two-way generator device, the internal rotor drive unit and the external rotor drive unit that comprise shell 4, be located at first impeller 3 at shell 4 two ends and the second impeller 3 ＇ and be located at shell 4 inside, described internal rotor drive unit comprises an interior axle 8, is located at middle internal rotor 5, the first ratchet 18 that is located at interior axle 8 two ends and the second ratchet 18 ＇ of interior axle 8, described the first ratchet 18 and the second ratchet 18 ＇ outsides are respectively equipped with one first thrust bearing 16 and the second thrust bearing 16 ＇, the external tooth 2 of described the first ratchet 18 and the second ratchet 18 ＇ respectively with the first impeller 3 and detachable being fixedly connected with of the second impeller 3 ＇, described external rotor drive unit comprises external rotor 6, the 3rd ratchet 12, the 4th ratchet 12 ＇, be located at respectively the first outer shaft 7 and second outer shaft 7 ＇ of internal rotor 5 both sides, one end of described the first outer shaft 7 and the second outer shaft 7 ＇ is fixedly connected with the second impeller 3 ＇ with the first impeller 3 respectively, the other end of described the first outer shaft 7 and the second outer shaft 7 ＇ is respectively equipped with the 3rd ratchet 12 and the 4th ratchet 12 ＇, described external rotor 6 is located at internal rotor 5 outsides, external rotor 6 two ends are connected with the 4th ratchet 12 ＇ with the 3rd ratchet 12 respectively, described the first ratchet 18, the 3rd ratchet 12, the second ratchet 18 ＇ are identical with the 4th ratchet 12 ＇ teeth groove rotation directions, the setting angle of blade of the first impeller 3 and the second impeller 3 ＇ arranges axisymmetricly centered by vertical plane in the middle of interior axle 8, between described the first outer shaft 7 and the second outer shaft 7 ＇ two ends and interior axle 8, be respectively equipped with one group of the 3rd thrust bearing 19,20, described internal rotor 5 both sides are respectively equipped with a thrust plate 13 being located on interior axle 8, are provided with one the 4th thrust bearing 17 between described thrust plate 13 and interior axle 8, described external rotor 6 two ends are respectively equipped with a removable end cap 11, between described removable end cap 11 and outer shaft, be provided with one the 6th thrust bearing 22, ratchet comprises external tooth 2 and the internal tooth 1 being connected with external tooth 2, the interior ring of described external tooth 2 is provided with one group of teeth groove that rotation direction is identical, described internal tooth 1 comprises two connector 1a and the connecting ring 1b being connected with two connector 1a, described the first ratchet 18 is connected with interior axle 8 by connecting ring 1b with the second ratchet 18 ＇, and be connected with the second impeller 3 ＇ with the first impeller 3 respectively by external tooth 2, described the 3rd ratchet 12 is connected with the second outer shaft 7 ＇ with the first outer shaft 7 respectively by connecting ring 1b with the 4th ratchet 12 ＇, by external tooth 2, be connected with external rotor 6 respectively, in described external rotor 6, be provided with one first collector ring 14, described the first collector ring 14 is located on the first outer shaft 7, and described the first outer shaft 7 is provided with second collector ring 15 being connected by lead-in wire with the first collector ring 14, on described the first outer shaft 7 and the second outer shaft 7 ＇, be respectively equipped with one the 5th thrust bearing 9, described the first outer shaft 7 is connected with shell 4 by the 5th thrust bearing 9 with the second outer shaft 7 ＇, between described the first outer shaft 7 and the second outer shaft 7 ＇ and shell 4, be respectively equipped with a seal 10, described the first outer shaft 7 and the second outer shaft 7 ＇ are upper is step hierarchical structure 21 with the junction of the first impeller 3 and the second impeller 3 ＇.Described external tooth 2 peripheries that are detachably fixedly connected as the first ratchet 18 and the second ratchet 18 ＇, the 3rd ratchet 12 and the 4th ratchet 12 ＇ are welded with key 1c, the first ratchet 18 and the second ratchet 18 ＇ embed impeller keyway by key 1c, and the 3rd ratchet 12 and the 4th ratchet 12 ＇ embed in external rotor keyway by key 1c.

The incoming flow power conversion of the present embodiment: as shown in Figures 1 and 2, the setting angle of blade of the first impeller 3 and the second impeller 3 ＇ is contrary, Ji Yanqi center vertical plane axisymmetricly, when incoming flow impacts the second impeller from the right direction, the second impeller can be rotated counterclockwise (from the second impeller frontal) under incoming flow effect, then incoming flow will continue to impact the first impeller, because the first impeller is contrary with the stagger angle of the second impeller, so now the first impeller can carry out clockwise direction (from the second impeller frontal) rotation, thereby realize the mechanical energy that the power conversion of incoming flow is become to impeller.

The turbomachine of the present embodiment can transmit: as shown in Figure 5, the energy of realizing the second impeller by being used in combination the 4th ratchet 12 ＇ that teeth groove rotation direction is identical and the second ratchet 18 ＇ and interior outer shaft transmits the mechanical energy transfer device of impeller.Because the second impeller 3 ＇ are dynamically connected by axle 8 in ratchet 18 ＇ and generator, with the second outer shaft 7 ＇ for being fixedly connected with, so when the second impeller 3 ＇ are rotated counterclockwise (from the second impeller frontal), now the second impeller 3 ＇ are driving link, thereby drive external tooth 2 and the second outer shaft 7 ＇ of the second ratchet 18 ＇ of its inside to be therewith rotated counterclockwise, relative its internal tooth (1) 1 of the external tooth 2 of the second ratchet 18 ＇ is driving link, from Fig. 5, in the second impeller 3 ＇, the rotation direction of the external tooth 2 of the second ratchet 18 ＇ is known, now external tooth 2 rotation directions and internal tooth (1) 1 cannot coincide, so the second impeller is rotated counterclockwise internal axle 8 and has no effect, again because the second outer shaft 7 ＇ and generator external rotor 6 are dynamically connected by the 4th ratchet 12 ＇, so when the second outer shaft 7 ＇ are rotated counterclockwise, can drive the internal tooth 1 of the 4th ratchet 12 ＇ that are fixedly connected with the second outer shaft 7 ＇ to be rotated counterclockwise simultaneously, the external tooth 2 of relative the 4th ratchet 12 ＇, now the internal tooth 1 of the 4th ratchet 12 ＇ is driving link, from Fig. 5, the known internal tooth being rotated counterclockwise 1 of the teeth groove rotation direction of this gear just in time matches with external tooth 2 teeth groove, thereby drive external tooth 2 to be rotated counterclockwise, and then the generator external rotor 6 that drive is fixedly connected with external tooth 2 is rotated counterclockwise simultaneously, and being rotated counterclockwise of the second impeller affects internal rotor 5 nothings.

With respect to the second impeller 3 ＇, now 3, the first impeller is clockwise direction rotation, the energy transmission device of the first impeller 3 and ratchet teeth groove rotation direction are identical with the second impeller 3 ＇'s, as shown in Figure 6, the energy of realizing the first impeller 3 by the 3rd identical ratchet 12 of teeth groove rotation direction and the first ratchet 18 transmits, so when the first impeller 3 turns clockwise, drive external tooth 2 and first outer shaft 7 of the first ratchet 18 of its inside to turn clockwise, from Fig. 6, the teeth groove rotation direction of the ratchet 18 of the first impeller 3 is known, now external tooth 2 rotation directions and internal tooth 1 match, thereby realize, drive interior axle 8 to turn clockwise, again because interior axle 8 is fixedly connected with internal rotor 5, so the first impeller 3 drive internal rotors 5 turn clockwise (now external rotor 6 is for being rotated counterclockwise), the same with the second outer shaft 7 ＇, the first outer shaft 7 is to be also dynamically connected with external rotor 6 by the 3rd ratchet 12, because the first outer shaft 7 is now for turning clockwise, so drive the internal tooth 1 of the left side ratchet 12 being fixedly connected with it to turn clockwise, external tooth 2 with respect to this ratchet, now the internal tooth 1 of this ratchet is driving link, but the internal tooth 1 and the external tooth 2 that turn clockwise cannot coincide, so the external rotor 6 being fixedly connected with external tooth 2 is not affected by lobus sinister wheel, the lobus sinister wheel turning clockwise only can drive internal rotor to turn clockwise, and to external rotor without any active force.

In summary, the second impeller 3 ＇ that are rotated counterclockwise only can drive external rotor 6 to be rotated counterclockwise, and 3, the first impeller turning clockwise can drive internal rotor 5 to turn clockwise, thereby realize inner-outer birotor counter-rotating simultaneously.When first incoming flow impacts the first impeller 3 from left direction, now 3, the first impeller is for being rotated counterclockwise (watching visual angle with identical, from lobus dexter wheel front) above, and the second impeller 3 ＇ are for turning clockwise; The same with above-mentioned energy transfer principle, now the first impeller 3 continues drive external rotor 6 to keep being rotated counterclockwise, the second impeller 3 ＇ continue drive internal rotor 5 to keep turning clockwise, thereby realize the no matter direction of rotation of two impellers, how to change, the internal rotor 5 of this generator and the direction of rotation of external rotor 6 can remain constant.

Electric energy output in the present embodiment: on the first outer shaft 7 of generator, two collector rings 14,15 are housed respectively; in figure, the first collector ring 14 is arranged on unofficial biography 6 inside; the second collector ring 15 is arranged on external rotor 6 outsides; containment vessel is inner; and two collector rings are fixedly connected with by wire, conductor arrangement is in the surface, inside of the first outer shaft 7.The electric weight that in stator, winding produces in electromagnetic induction; collection by stator interior the first collector ring 14 is delivered on the second collector ring 15 above motor outer shaft; then by these the second collector ring 15 extracting power supply cords, through fixed protecting sheathing 4, electricity is derived.

The above is only the preferred embodiment of the present invention; be noted that for those skilled in the art; under the premise without departing from the principles of the invention, can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. an effective integrated birotor two-way generator device, is characterized in that: comprise shell (4), be located at the first impeller (3) and second impeller (3 ＇) at shell (4) two ends and be located at shell (4) inner internal rotor drive unit and external rotor drive unit, described internal rotor drive unit comprises an interior axle (8), is located at interior axle (8) middle internal rotor (5), the first ratchet (18) that is located at interior axle (8) two ends and the second ratchet (18 ＇), described the first ratchet (18) and the second ratchet (18 ＇) outside is respectively equipped with one first thrust bearing (16) and the second thrust bearing (16 ＇), and described the first ratchet (18) and the second ratchet (18 ＇) are dynamically connected with the first impeller (3) and the second impeller (3 ＇) respectively, described external rotor drive unit comprises external rotor (6), the 3rd ratchet (12), the 4th ratchet (12 ＇), be located at respectively the first outer shaft (7) and second outer shaft (7 ＇) of internal rotor (5) both sides, one end of described the first outer shaft (7) and the second outer shaft (7 ＇) is fixedly connected with the second impeller (3 ＇) with the first impeller (3) respectively, the other end of described the first outer shaft (7) and the second outer shaft (7 ＇) is respectively equipped with the 3rd ratchet (12) and the 4th ratchet (12 ＇), described external rotor (6) is located at internal rotor (5) outside, external rotor (6) two ends are connected with the 4th ratchet (12 ＇) with the 3rd ratchet (12) respectively, described the first ratchet (18), the 3rd ratchet (12), described the second ratchet (18 ＇) is all identical with the 4th ratchet (12 ＇) teeth groove rotation direction, and the setting angle of blade of the first impeller (3) and the second impeller (3 ＇) arranges axisymmetricly centered by vertical plane in the middle of interior axle (8).

2. effective integrated birotor two-way generator device according to claim 1, is characterized in that: between described the first outer shaft (7) and the second outer shaft (7 ＇) two ends and interior axle (8), be respectively equipped with one group of the 3rd thrust bearing (19,20).

3. effective integrated birotor two-way generator device according to claim 1 and 2, it is characterized in that: described internal rotor (5) both sides are respectively equipped with a thrust plate (13) being located on interior axle (8), between described thrust plate (13) and interior axle (8), be provided with one the 4th thrust bearing (17).

4. effective integrated birotor two-way generator device according to claim 1, is characterized in that: described external rotor (6) two ends are respectively equipped with a removable end cap (11).

5. effective integrated birotor two-way generator device according to claim 1, it is characterized in that: ratchet comprises external tooth (2) and the internal tooth (1) being connected with external tooth (2), the interior ring of described external tooth (2) is provided with one group of teeth groove that rotation direction is identical, described internal tooth (1) comprises two connectors (1a) and the connecting ring (1b) being connected with two connectors (1a), described the first ratchet (18) is connected with interior axle by connecting ring (1b) with the second ratchet (18 ＇), by external tooth (2), be detachably fixedly connected with the second impeller (3 ＇) with the first impeller (3) respectively, described the 3rd ratchet (12) is connected with the second outer shaft (7 ＇) with the first outer shaft (7) respectively by connecting ring (1b) with the 4th ratchet (12 ＇), by external tooth (2), be detachably fixedly linked with external rotor (6) respectively.

6. effective integrated birotor two-way generator device according to claim 5, it is characterized in that: in described external rotor (6), be provided with one first collector ring (14), it is upper that described the first collector ring (14) is located at the first outer shaft (7), and described the first outer shaft (7) is provided with second collector ring (15) being connected by lead-in wire with the first collector ring (14).

7. according to the effective integrated birotor two-way generator device described in claim 1 or 6, it is characterized in that: on described the first outer shaft (7) and the second outer shaft (7 ＇), be respectively equipped with one the 5th thrust bearing (9), described the first outer shaft (7) is connected with shell (4) by the 5th thrust bearing (9) with the second outer shaft (7 ＇).

8. effective integrated birotor two-way generator device according to claim 1, is characterized in that: between described the first outer shaft (7) and the second outer shaft (7 ＇) and shell (4), be respectively equipped with a seal (10).

9. effective integrated birotor two-way generator device according to claim 1, is characterized in that: described the first outer shaft (7) and the second outer shaft (7 ＇) are upper is a trapezoidal hierarchical structure (21) with the junction of the first impeller (3) and the second impeller (3 ＇).

10. effective integrated birotor two-way generator device according to claim 5, it is characterized in that: described external tooth (2) periphery that is detachably fixedly connected as the first ratchet (18) and the second ratchet (18 ＇), the 3rd ratchet (12) and the 4th ratchet (12 ＇) is welded with key (1c), the first ratchet (18) and the second ratchet (18 ＇) embed impeller keyway by key (1c), and the 3rd ratchet (12) and the 4th ratchet (12 ＇) embed in external rotor keyway by key (1c).