CN106014777A - Integrated reversed assembling mixed-flow type hydraulic generator - Google Patents

Abstract

The invention discloses an integrated reversed assembling mixed-flow type hydraulic generator which comprises an armature mechanism, an excitation mechanism, a sealing cover mechanism, a draft tube, a guide vane mechanism, a turning wheel and a volute. The volute, the guide vane mechanism, the turning wheel and the draft tube sequentially form a water flow channel; the sealing cover mechanism comprises a rotary cover and a fixed cover; the rotary cover and the fixed cover are connected through a sealing bearing to form a closed annular cavity; the armature mechanism and the excitation mechanism are coaxially installed in the annular cavity in parallel in an inner layer and outer layer mode; the excitation mechanism is installed in the rotary cover; and the armature mechanism is installed in the fixed cover. The integrated reverse assembling mixed-flow type hydraulic generator is long in service life, low in building cost and production and management cost and high in water power conversion efficiency.

Description

A kind of integration anti-dress mixed-flow wheel electromotor

Technical field

The present invention relates to hydroelectric facility field, particularly relate to a kind of integration anti-dress mixed-flow wheel electromotor.

Background technology

Hydroturbine generator can be divided into impulse turbine and the big class of reaction turbine two by operation principle.The runner of impulse turbine is rotated by the impact of current, and in work process, the pressure of current is constant, mainly the conversion of kinetic energy；The runner of reaction turbine is rotated by the counteracting force of current in water, in work process current pressure can and kinetic energy all change, but mainly pressure can conversion.

Impulse turbine, owing to its active wheel only part crosses water, part bucket stress, therefore such hydraulic turbine necessary flow is less, is relatively suitable for the generating place of low discharge high water head.Impulse turbine, can be divided into the formula of hitting of cutting (also known as bucket-type) and tilt-impulse type two class by the flow direction of current, and under the conditions of isometrical water wheels, the stress arm of force cutting the formula of hitting is relatively big relative to tilt-impulse type, but it is relatively small to run water wheels rotating speed.

Reaction turbine can be divided into mixed-flow, axial-flow type, diagonal flow type and tubular.In Francis turbine, current, radially into stator mechanism, axially flow out runner；In axial flow hydraulic turbine, current radially into stator, axially into flow out runner；In inclined flow turbine, current flow to runner radially into stator favouring the direction of a certain angle of main shaft, or flow to stator and runner to favour the direction of main shaft；In tubular turbine, current flow to stator and runner vertically.Axial-flow type, tubular and inclined flow turbine also can be divided into by its structure determines paddle and rotary propeller type.The runner bucket determining paddle is fixing；The runner bucket of rotary propeller type can be in operation and rotate, to adapt to the change of head and load around sharf.Currently used relatively broad mainly axial-flow type and Francis turbine.

The generally existing problem of the existing hydraulic turbine is: 1) impeller of the hydraulic turbine need to be by longer transmission shaft driven with electromotor and excitation electromotor, and generally, installation for the ease of power transmission shaft is changed, power transmission shaft junction can use Flange joint, simultaneously in order to maintain power transmission shaft stable rotation, avoid eccentric rotary, multiple bearing can be set in the junction of rotating shaft and middle part, bearing increase the friction energy-dissipating that can strengthen in rotation process, bearing easily burns out because of temperature arrising caused by friction, and longer power transmission shaft is when there is eccentric rotary, it is easily caused and electromotor is caused damage；2) electromotor and the exciter of existing hydroturbine generator can produce substantial amounts of used heat at work (mainly by heavy current heat production in wire, and bearing pivoting friction heat production), need special heat radiation is installed, cooling system, work as heat radiation, when cooling system goes wrong, it is easily caused movement, bearing burns out, even if under cooling system normally works, owing to stator and rotor are interior, outer layer is distributed, it is positioned at used heat that the rotor of internal layer produces and need to be transmitted to the external world by stator and rotor every space gap layer, little every the heat conduction rate of space gap layer, the bigger temperature difference is there is in internal layer rotor with outer layer stator, internal layer rotor easily burns；3) the existing hydraulic turbine, owing to existing in flow energy utilization, bigger water flow dynamic energy is remaining and frictional heat is lost, and the utilization rate of flow energy is relatively low, present stage, and the relatively high stable efficiency of axial flow hydraulic turbine is only 90%；4) existing often group hydrogenerator is all the customization machine for different terrain, causes raw material, assembly, wire rod and the parts can not be general, it is impossible to enough batch productions；5) needing to bear the stress of higher temperature or bigger due to the parts such as the stator in hydrogenerator, rotor, salient pole, power transmission shaft, the parts such as its stator, rotor, salient pole, power transmission shaft require height to the strength of materials.Above-mentioned factor causes bigger input cost and production management's cost to the construction in power station, and power station production production capacity is relatively low, and the small-sized available hydraulic power potentials of part is wasted.

Summary of the invention

The technical problem to be solved is: 1) in existing hydroturbine generator, power transmission shaft and bearing are owing to stress is relatively big, friction product temperature is higher, and its loss is bigger；2) electromotor and the exciter of existing hydroturbine generator can produce substantial amounts of used heat at work, needs to install special cooling system, and the cooling effect of its cooling system is not good enough, easily burn movement；3) the relatively high stable efficiency of the existing hydraulic turbine is only about 90%；4) existing hydrogenerator is all the customization machine for different terrain, and volume exists larger difference, it is impossible to enough batch productions；5) parts such as the stator in hydrogenerator, rotor, salient pole, power transmission shaft require height to the strength of materials.

For solving its technical problem the technical solution adopted in the present invention it is: a kind of integration anti-dress mixed-flow wheel electromotor, including armature mechanism, excitation mechanism, seal closure body mechanism, draft tube, stator mechanism, runner and spiral case；Spiral case, stator mechanism, runner and draft tube constitute water stream channel successively；

Seal closure body mechanism includes rotary cover and fixes cover, and rotary cover and fixing cover connect and compose the toroidal cavity of closing coaxially through sealing bearing；

Armature mechanism inside and outside layer coaxial with excitation mechanism is arranged in toroidal cavity side by side；

Excitation mechanism is arranged in rotary cover, and armature mechanism is arranged in fixing cover；

Armature mechanism includes that the first armature winding and the second armature winding, the first armature winding and the second armature winding coaxial upper and lower layer annular spread arranged side by side is in fixing cover；

Excitation mechanism includes the first Exciting Windings for Transverse Differential Protection and the second Exciting Windings for Transverse Differential Protection, and the first Exciting Windings for Transverse Differential Protection and the second Exciting Windings for Transverse Differential Protection coaxial upper and lower layer annular spread arranged side by side are in rotary cover；

The lower ring excircle of runner is fixing connects rotary cover inner periphery, and fixing cover is fixedly mounted on draft tube upper end；

As optimizing explanation further, described rotary cover is provided with conduction brush at the joint gap of fixing cover, and conduction brush is for the input of exciting current.

As optimizing further, the position, gap of described draft tube and stator mechanism and rotary cover arranges ceramic seal bearing；This kind of structure can improve the sealing of toroidal cavity, improves the working environment sealing bearing, reduces the stress load sealing bearing, reduces the friction of fixing cover and rotary cover.

As optimizing further, in order to have more preferable water resistance, described rotary cover and junction, fixing flaring angle are provided with the folding shape centrifugal drying waterside ring cooperated, and the clearance aperture of folding shape centrifugal drying waterside ring is radially outward.

As optimizing further, in order to preferably strengthen water dumping effect and the wearability of folding shape centrifugal drying waterside ring, in the ring of described folding shape centrifugal drying waterside, it is also equipped with resin wear ring.

Operation principle: the described integration of this invention is counter fills mixed-flow wheel electromotor, during work, current are through the guiding of stator mechanism and control, flow into runner, runner is rotated cover common rotation under the driving of water flow pressure, and rotary cover drives the first Exciting Windings for Transverse Differential Protection and the second Exciting Windings for Transverse Differential Protection to rotate, and the first Exciting Windings for Transverse Differential Protection and the second Exciting Windings for Transverse Differential Protection are respectively cut the first armature winding and the coil of the second armature winding, the electric current of the first armature winding is powered for excitation, and the second armature winding is used for exporting.

Integration of the present invention is counter fills mixed-flow wheel electromotor, owing to its armature mechanism and excitation mechanism are directly arranged between draft tube and runner by seal closure body mechanism, the used heat that power generation operation process produces can directly reject heat in current by rotary cover and fixing cover, effectively eliminates special cold true cooling system.And, integration of the present invention is counter fills mixed-flow wheel electromotor, rotor structure pattern relative to conventional generator, its heat conduction without by between rotor and stator every dead level, its armature mechanism and excitation mechanism used heat can directly reject heat in current, compare existing generator heat-radiation mode, have more preferable radiating effect, the problem burning movement can be prevented effectively from, increase the service life of equipment.

Integration of the present invention is counter fills mixed-flow wheel electromotor, its first armature winding and the second armature winding are internally positioned, it is arranged in rotary cover, first Exciting Windings for Transverse Differential Protection and the second Exciting Windings for Transverse Differential Protection are externally-located, it is fixed in fixing cover, its first armature winding and the second armature winding rotate, this kind of structure distribution is contrary with the distribution of Exciting Windings for Transverse Differential Protection with armature winding in existing conventional generator, namely anti-assembling structure pattern, the Exciting Windings for Transverse Differential Protection of this kind of mixed-flow wheel electromotor has bigger distribution area, the magnetic field that each Exciting Windings for Transverse Differential Protection terminal produces influences each other less, magnetic field distribution amplitude is bigger, there is preferable excitation efficiency.

Beneficial effect: the anti-mixed-flow wheel electromotor that fills of integration of the present invention, effectively eliminates the cold true cooling system of routine, has more preferable radiating effect, can be prevented effectively from the problem burning movement, increases the service life of equipment；Simultaneously, owing to armature mechanism, excitation mechanism are integrated with runner, power transmission is without by power transmission shaft parts transmission, the anti-mixed-flow wheel generating function that fills of integration of the present invention effectively avoids power transmission shaft eccentricity issues and bearing friction energy consumption issues, simplify the structure of hydroturbine generator, reduce material requirements, reduce equipment volume largely, the versatility of enhancing equipment, reduces power plant construction cost and production management's cost.

Additionally, the anti-mixed-flow wheel electromotor that fills of integration of the present invention has higher transmission efficiency, the stabilization efficiency of its hydraulic turbine generator is up to more than 93%.

Accompanying drawing explanation

Fig. 1 is the vertical cross section TV structure schematic diagram of the present invention program one；

Fig. 2 is the horizontal cross-sectional structural representation of the present invention program one；

Fig. 3 is the vertical cross section TV structure schematic diagram of the present invention program two；

Fig. 4 is to roll over shape centrifugal drying waterside ring structure enlarged diagram in the present invention program two；

Fig. 5 is to roll over shape centrifugal drying waterside ring structure enlarged diagram in the present invention program three；

In figure: 1 be armature mechanism, 11 be the first armature winding, 12 be the second armature winding, 2 be excitation mechanism, 21 be the first Exciting Windings for Transverse Differential Protection, 22 be the second Exciting Windings for Transverse Differential Protection, 3 be seal closure body mechanism, 31 be rotary cover, 32 be fixing cover, 33 for seal bearing, 34 be toroidal cavity, 35 be ceramic seal bearing, 36 be folding shape centrifugal drying waterside ring, 37 be resin wear ring, 4 be draft tube, 5 be stator mechanism, 6 be runner, 7 be spiral case, 8 be conduction brush.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described；Obviously, described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

Scheme one (as depicted in figs. 1 and 2): a kind of integration anti-dress mixed-flow wheel electromotor, including armature mechanism 1, excitation mechanism 2, seal closure body mechanism 3, draft tube 4, stator mechanism 5, runner 6 and spiral case 7；Spiral case 7, stator mechanism 5, runner 6 and draft tube 4 constitute water stream channel successively；

Seal closure body mechanism 3 includes that rotary cover 31 and fixing cover 32, rotary cover 31 and fixing cover 32 connect and compose the toroidal cavity 34 of closing coaxially through sealing bearing 33；

Armature mechanism 1 inside and outside layer coaxial with excitation mechanism 2 is arranged in toroidal cavity 34 side by side；

Excitation mechanism 2 is arranged in rotary cover 31, and armature mechanism 1 is arranged in fixing cover 32；

Armature mechanism 1 includes that the first armature winding 11 and the second armature winding 12, the first armature winding 11 and the second armature winding 12 coaxial upper and lower layer annular spread arranged side by side are in fixing cover 32；

Excitation mechanism 2 includes the first Exciting Windings for Transverse Differential Protection 21 and the second Exciting Windings for Transverse Differential Protection 22, and the first Exciting Windings for Transverse Differential Protection 21 and the second Exciting Windings for Transverse Differential Protection 22 coaxial upper and lower layer annular spread arranged side by side are in rotary cover 31；

Fixing rotary cover 31 inner periphery that connects of the lower ring excircle of runner 6, fixing cover 32 is fixedly mounted on draft tube 4 upper end；

Rotary cover 32 is provided with conduction brush 8 at the joint gap of fixing cover 33, and conduction brush 8 is used for being conductively connected extraneous rectifying installation and excitation mechanism 2.

As further illustrating, in order to reduce the friction that rotary cover 32 is subject to, improving its sealing, described stator mechanism 5 arranges ceramic seal bearing 35 with the position, gap of rotary cover 32 simultaneously.

By such scheme one embodiment, the anti-stabilization efficiency of mixed-flow wheel electromotor that fills of described integration, up to 93%, compares traditional axial flow type hydro-turbo generator, and efficiency improves about 4%.

Scheme two (as shown in Figure 3 and Figure 4): be with scheme one difference: in order to have more preferable water resistance, described rotary cover 32 is connected edge and is provided with the folding shape centrifugal drying waterside ring 36 cooperated with fixing cover 33, and the clearance aperture of folding shape centrifugal drying waterside ring 36 is radially outward.

Scheme three (as shown in Figure 5): be with scheme one difference: in order to preferably strengthen water dumping effect and the wearability of folding shape centrifugal drying waterside ring 36, be also equipped with resin wear ring 37 in described folding shape centrifugal drying waterside ring 36.

Last it is noted that the foregoing is only the preferred embodiments of the present invention; it is not limited to the present invention; although the present invention being described in detail with reference to previous embodiment; for a person skilled in the art; technical scheme described in foregoing embodiments still can be modified by it; or wherein portion of techniques feature is carried out equivalent; all within the spirit and principles in the present invention; the any modification, equivalent substitution and improvement etc. made, should be included within the scope of the present invention.

Claims (5)

1. null1. an integration is counter fills mixed-flow wheel electromotor，Including armature mechanism (1)、Excitation mechanism (2)、Seal closure body mechanism (3)、Draft tube (4)、Stator mechanism (5)、Runner (6) and spiral case (7)，Spiral case (7)、Stator mechanism (5)、Runner (6) and draft tube (4) constitute water stream channel successively，Seal closure body mechanism (3) includes rotary cover (31) and fixing cover (32)，Rotary cover (31) and fixing cover (32) connect and compose the toroidal cavity (34) of closing coaxially through sealing bearing (33)，Armature mechanism (1) and excitation mechanism (2) are coaxially interior、Outer layer is arranged in toroidal cavity (34) side by side，Excitation mechanism (2) is arranged in rotary cover (31)，Armature mechanism (1) is arranged in fixing cover (32)，Armature mechanism (1) includes the first armature winding (11) and the second armature winding (12)，First armature winding (11 and second armature winding (12) coaxial on、Lower floor's annular spread arranged side by side is in fixing cover (32)，Excitation mechanism (2) includes the first Exciting Windings for Transverse Differential Protection (21) and the second Exciting Windings for Transverse Differential Protection (22)，On first Exciting Windings for Transverse Differential Protection (21) is coaxial with the second Exciting Windings for Transverse Differential Protection (22)、Lower floor's annular spread arranged side by side is in rotary cover (31)，The lower ring excircle of runner (6) is fixing connects rotary cover (31) inner periphery，Fixing cover (32) is fixedly mounted on draft tube (4) upper end.
2. Integration the most according to claim 1 is counter fills mixed-flow wheel electromotor, it is characterised in that: described rotary cover (31) is provided with conduction brush (8) at the joint gap of fixing cover (32).
3. Integration the most according to claim 2 is counter fills mixed-flow wheel electromotor, it is characterised in that: described rotary cover (31) is provided with ceramic seal bearing (35) with the position, gap of draft tube (4) and the position, gap of rotary cover (31) and stator mechanism (5).
4. Integration the most according to claim 3 is counter fills mixed-flow wheel electromotor, it is characterized in that: described rotary cover (31) is provided with, with fixing cover (32) junction, corner, folding shape centrifugal drying waterside ring (36) cooperated, and the clearance aperture of folding shape centrifugal drying waterside ring (36) is radially outward.
5. Integration the most according to claim 4 is counter fills mixed-flow wheel electromotor, it is characterised in that: it is also equipped with resin wear ring (37) in described folding shape centrifugal drying waterside ring (36).