CN102022286A - Axle seat for fixing rotor apparatus - Google Patents

Abstract

The invention relates to an axle seat for fixing a rotor apparatus, wherein the axle seat is equipped on power equipments of wind power flapping-wing machines and waterpower flapping-wing machines. The axle seat comprises a rotor axle seat which possesses a wing wheel axle seat or a fixing terminal relative to the wing wheel axle seat. The rotor axle seat is used for supporting the rotor apparatus, and the wing wheel axle seat can be connected with a wing wheel. The central axis of the rotor axle seat is superposed or partially parallel with that of the wing wheel axle seat. The invention has functions such as optimizing structures of flapping-wing machines etc. to realize power equipments with higher power, efficiency and reliability for the flapping-wing machines.

Description

Rotor arrangement is axle bed fixedly

Technical field

The present invention relates to the fixing axle bed of a kind of rotor arrangement on wind-force, the waterpower flapping wing power equipment.

Technical background

The scheme that I provide a kind of revolving flapping wings reducing machine on December 14th, 2008, application number is 2008101884409, this scheme provides a kind of new power technologies such as can be used for wind-power electricity generation, hydroelectric power and communications and transportation, the fins that employing flexible material such as parachute fabric or elastic material material are made in this scheme etc. rotatablely move around a central axis reducing, realize power generating equipment or required power-assisted of facilities for transport and communication or transmission of power; I provide a kind of planet of flapping wing device to change on April 14th, 2009 and have raised linkage, application number 20091016630.6.More than include following technological scheme in two kinds of invention schemes: i.e. the gear matched of the sprocket wheel of the chain of rotor arrangement both sides and rotor arrangement both sides or belt such as Toothed belt and rotor arrangement both sides, in this article, the sprocket wheel or the gear that will link to each other with wing chain lever arrangement is called wing wheel again.Has following deficiency in this technological scheme: because the wing wheel at rotor arrangement two ends and axle need to rotate, rotor arrangement also need rotate, and the winding plant on the rotor arrangement also must constantly be changed between forward and reverse in rotor rotation, hydraulic system or electrical installations lack effectively control on the rotor arrangement, the wing wheel of rotor arrangement and both sides is all wanted bearing load, if the wing wheel coaxial rotation of rotor arrangement and both sides can influence each other.

Summary of the invention

Purpose of the present invention provides fixedly axle bed of a kind of rotor arrangement for the flapping wing device exactly.

Another object of the present invention is exactly the fixing axle bed of a kind of flow that provides flow control for the hydraulic pressure installation on the rotor arrangement.

Another object of the present invention is exactly the fixing axle bed of a kind of distribution that flapping wing device for electrical installations on the rotor arrangement provides distribution control.

Another object of the present invention provides fixedly axle bed of a kind of photoelectric control for the control of electric power on the rotor arrangement and electrical signal exactly.

A kind of rotor arrangement involved in the present invention fixedly axle bed is achieved in that it is characterized in that having the rotor axle bed, and the rotor axle bed has the wing wheel axle bed or has the relevant fixed end of wing wheel axle bed.

The rotating shaft of rotor arrangement and bearing can directly be assemblied in the axis hole of rotor axle bed, and perhaps the axis hole of rotor arrangement and bearing are assemblied on the axle of rotor axle bed; The central axes of the central axis of rotor axle bed and wing wheel axle bed or be parallel to each other or have certain parallelism, if it is too big that the central axis parallelism of the central axis of rotor axle bed and wing wheel axle bed differs, the motion of the folding and unfolding of fin and wing chain lever arrangement will be subjected to bigger influence.When rotor axle bed and wing wheel axle bed coexist on the part, the parallelism ratio is easier to realize, when the rotor axle bed separates with the wing wheel axle bed, when respectively rack-mount, the central axis of rotor axle bed and the central axis of wing wheel axle bed still need to keep overlapping or are parallel to each other or have certain parallelism.

The load that rotor arrangement bore can directly be delivered to support by the rotor axle bed, can not produce bigger influence to wing wheel.

A kind of flow involved in the present invention fixedly axle bed is achieved in that to have the rotor axle bed, and the rotor axle bed has wing wheel axle bed or the relevant fixed end of wing wheel axle bed; It is characterized in that axle bed has flow end and assignment hole.

The flow end can cooperate with the rotor on the rotor arrangement, oil hydraulic pump or oil hydraulic motor turnover oil that assignment hole can be used for elevator hydraulic system on the rotor arrangement provide passage, and assignment hole can also provide passage for the hydraulic control of other hydraulic element of hydraulic system on the rotor arrangement.

The flow end can have seal groove on the axle bed, seal ring is installed in the seal groove and is cooperated with rotor to prevent that hydraulic fluid leak is outside axle bed.

A kind of distribution involved in the present invention fixedly axle bed is achieved in that to have the rotor axle bed, and the rotor axle bed has wing wheel axle bed or the relevant fixed end of wing wheel axle bed; It is characterized in that axle bed has power distribution unit.

Power distribution unit can cooperate with the rotor on the rotor arrangement, can be used for that electric power system and other control system provide power supply or electric power output or electric control signal on the rotor arrangement.

Rotor arrangement can adopt brush to contact with power distribution unit.

Can include the isolation layer of forming by insulating material between power distribution unit and the axle bed.

A kind of photoelectric control involved in the present invention fixedly axle bed is achieved in that to have the rotor axle bed, and the rotor axle bed has wing wheel axle bed or the relevant fixed end of wing wheel axle bed; It is characterized in that axle bed has the light signal generating means.

The configurable photoelectric sensor of rotor arrangement changes light signal on the axle bed into automatically controlled signal with the system on the control rotor arrangement.

The invention will be further described below in conjunction with embodiment.

Description of drawings

Shown in the accompanying drawing 1 is fixedly one of the embodiment of axle bed of rotor arrangement involved in the present invention.

Shown in the accompanying drawing 2 be rotor arrangement involved in the present invention fixedly axle bed embodiment two.

Shown in the accompanying drawing 3 is fixedly one of the embodiment of axle bed of a kind of flow involved in the present invention.

Shown in the accompanying drawing 4 is fixedly one of the embodiment of axle bed of a kind of photoelectric control involved in the present invention.

Shown in the accompanying drawing 5 is fixedly one of the embodiment of axle bed of a kind of distribution involved in the present invention.

Shown in the accompanying drawing 6 is the fixedly fixing embodiment's of axle bed one of the practical application example of the embodiment of axle bed and accompanying drawing 3 related flows of accompanying drawing 1 related rotor arrangement.

Shown in the accompanying drawing 7 is the fixedly embodiment's one of axle bed one of practical application examples of accompanying drawing 2 related rotor arrangements.

Shown in the accompanying drawing 8 is the structural drawing of the related planet hoisting linkage device of application examples in the accompanying drawing 7.

In the accompanying drawing 1: 1, rotor axle bed center line; 2, rotor axle bed; 3, cantilever, 4, the relevant fixed end of wing wheel axle bed.

In the accompanying drawing 2: 5, wing wheel axle bed; 6, rotor axle bed center line; 7, rotor axle bed; 8, wing wheel axle bed center line.

In the accompanying drawing 3: 9, flow end; 10, seal groove; 11, rotor axle bed; 12, rotor axle bed center line; 13, the relevant fixed end of wing wheel axle bed; 14, assignment hole.

In the accompanying drawing 4: 20, light signal generating means; 21, unthreaded hole; 22, rotor axle bed; 23, rotor axle bed center line; 24, wing wheel axle bed; 25, wing wheel axle bed center line.

In the accompanying drawing 5: 30, wing wheel axle bed center line; 31, distributor track; 32, distribution end; 33, rotor axle bed; 34, rotor axle bed center line;

In the accompanying drawing 6: 40, generator; 41, break; 42, power chain; 43, synchronous sprocket wheel power plant; 44, central axis; 45, gantry support; 46, wing chain lever arrangement; 47, fin; 48, slideway; 49, high-end flapping wing wing wheel; 50, synchronous sprocket wheel power plant; 51, the fixing axle bed of flow; 52, the fixing axle bed of rotor arrangement; 53, rotor arrangement; 54, the fixing axle bed of flow; 55, low side flapping wing wing wheel.

In the accompanying drawing 7: 60, low side flapping wing wing wheel; 61, flapping wing chain; 62, slideway; 63, the fixing axle bed of rotor arrangement; 64, synchronizer; 65, electricity generating device; 66, high-end flapping wing wing wheel; 67, linkage is raised in the planet commentaries on classics; 68, the fixing axle bed central axis of rotor arrangement; 69, high-end flapping wing wing wheel central axis; 70, rotor arrangement.

In the accompanying drawing 8: 71, rotor; 72, gear B; 73, elevator axle B; 74, gear train; 75, gear A; 76, elevator axle A.

Embodiment

Among the embodiment of accompanying drawing 1, rotor axle bed 2 is used to assemble the central shaft of rotor arrangement, rotor axle bed 2 can be fixed on the support of flapping wing device by the relevant fixed end 4 of wing wheel axle bed, during assembling, must keep or the coincidence parallel or substantially parallel with the central axis of wing wheel axle bed of rotor axle bed center line 1.

In the accompanying drawing 2, wing wheel axle bed 5 is used to assemble the axle of wing wheel, and rotor arrangement can be installed in the rotor axle bed 7, and wing wheel axle bed center line 8 is parallel with rotor axle bed center line 6.

In the accompanying drawing 3, rotor axle bed 11 can be fixed on the support of flapping wing device by the relevant fixed end 13 of wing wheel axle bed, flow end 9 and assignment hole 14 cooperate with rotor arrangement on being assemblied in rotor axle bed 11, the flow direction of control hydraulic oil, seal groove 10 is used for the fitting tight circle, during assembling, must keep or the coincidence parallel or substantially parallel of rotor axle bed center line 12 with the central axis of wing wheel axle bed.

In the accompanying drawing 4, the axle of rotor arrangement can be assemblied in the axis hole of rotor axle bed 22, light signal generating means 20 can produce optical signal, can receive the optical signal of light signal generating means 20 with the photoelectric induction device on the axle of rotor arrangement by unthreaded hole 21, to realize the electrical work on the control rotor arrangement.Rotor axle bed center line 23 overlaps with wing wheel axle bed center line 25.

In the accompanying drawing 5, distribution end 32 and distributor track 31 cooperate with rotor arrangement on being assemblied in axle bed 33 with the electrical work on the control rotor arrangement, and rotor axle bed center line 34 overlaps with wing wheel axle bed center line 30.

Shown in the accompanying drawing 6 is a kind of large-scale flapping wing wind generating unit, and it is made up of two groups of flapping wing devices, 2 rotor arrangements 53 by flow fixedly axle bed 51, rotor arrangement fixedly axle bed 52, flow fixedly axle bed 54 be fixed on the gantry support 45; Flow is the fixedly central axis and low side flapping wing wing wheel 52 central axes of axle bed 55 of axle bed 51 and rotor arrangement fixedly, and is parallel with the central axis of high-end flapping wing wing wheel 49.Wind-force drives the rotation of fin 47, fin 47 drives the rotation of high-end flapping wing chain 49 and low side flapping wing chain 55 by wing chain lever arrangement 46, the rotation of low side flapping wing wing wheel 55 drives power chain 42 and rotates, and power chain 42 drives generator 40 and rotates generating, and break 41 can be realized braking.Basically can not produce bigger influence mutually between rotor arrangement 53 and the low side flapping wing wing wheel 55.

Slideway 48 helps preventing rocking of flapping wing chain and impacts; The synchronous rotation of the low side sprocket wheel 55 of synchronous sprocket wheel power plant 43 and synchronous sprocket wheel power plant 50 control rotor arrangements 53 both sides.

Because the main parts size of this flapping wing wind generating unit is positioned at the low side of electricity generating device, relatively near ground, dismounting is very convenient with maintenance, because fin 47 adopts flexible material, in light weight, cost is low, effective large size capturing wind energy can be fit to the wind-power electricity generation and the deepwater wind-power electricity generation of most lands on the earth.

Shown in the accompanying drawing 7 is a kind of large-scale flapping wing hydroelectric installation, shown in the accompanying drawing 8 is that planet related in the accompanying drawing 7 changes the structural drawing of raising linkage 67, the rotor arrangement that the central shaft at rotor arrangement 70 two ends is assemblied in two ends is fixedly on the axle bed 63, rotor arrangement fixedly axle bed 63 is assemblied on the support by the relevant fixed end of wing wheel axle bed, waterpower drives fin and rotates, and drive the rotation of high-end flapping wing wing wheel 66 and low side flapping wing wing wheel 60, the central axis 68 of rotor axle bed is parallel with the central axis 69 of high-end flapping wing wing wheel 66 and low side flapping wing wing wheel 6, the rotation of high-end flapping wing wing wheel 66 drives synchronizer 64 and rotates, synchronizer 64 drives electricity generating device 65 and rotates generating, can not produce bigger influence mutually basically between rotor arrangement 70 and the high-end flapping wing wing wheel 66.

In the accompanying drawing 8, fin can link to each other with elevator axle A 76 by its reel, another fin can link to each other with elevator axle B73 by its reel, the rotation of stretching out meeting drive elevator axle A76 of fin, elevator axle A76 is by gear A 75, gear train 74, the engagement rotation drive elevator axle B73 counter-rotating mutually mutually of gear B 72, the rotation of elevator axle B73 is regained another coupled fin synchronously, fin and fin have certain force of strain all the time under hydraulic action, reach the purpose of two fin interlocks, therefore, because rotor arrangement is installed in rotor arrangement fixedly on the axle bed of axle bed 63, it is very simple that the planet that connects axle changes the structure of raising linkage 67, and can improve planet and change the working efficiency of raising linkage 67, the planet that does not connect axle in addition changes to be raised in the linkage 67, just do not have center hole, lubricant oil just can not leak by its center hole yet yet.

The principle of revolving flapping wings device with use that to please refer to application number in detail be a kind of revolving flapping wings reducing machine of 2008101884409 and application number is that linkage is raised in 20091016630.6 planet commentaries on classics.

Claims (7)

1. the present invention relates to the fixing axle bed of a kind of rotor arrangement on wind-force, the waterpower flapping wing device power equipment, it is characterized in that having the rotor axle bed, the rotor axle bed has wing wheel axle bed or the relevant fixed end of wing wheel axle bed.

2. the present invention relates to fixedly axle bed of a kind of flow, it is characterized in that having the rotor axle bed, the rotor axle bed has wing wheel axle bed or the relevant fixed end of wing wheel axle bed.

3. a kind of flow according to claim 2 is axle bed fixedly, it is characterized in that axle bed has flow end and assignment hole.

4. the present invention relates to fixedly axle bed of a kind of distribution, it is characterized in that having the rotor axle bed, the rotor axle bed has wing wheel axle bed or the relevant fixed end of wing wheel axle bed.

5. a kind of distribution according to claim 4 is axle bed fixedly, it is characterized in that axle bed has power distribution unit.

6. the present invention relates to fixedly axle bed of a kind of photoelectric control, it is characterized in that having the rotor axle bed, the rotor axle bed has wing wheel axle bed or the relevant fixed end of wing wheel axle bed.

7. a kind of photoelectric control according to claim 6 is axle bed fixedly, it is characterized in that axle bed has the light signal generating means.

Images