CN203248317U - Improved man-made wind power circulation generating device - Google Patents

Abstract

The utility model discloses an improved mad-made wind power circulation generating device. The air is driven by a driving blade of an airflow driving generator to form airflow, and when the airflow enters an air exhaust absorption chamber of an air exhaust shell with large cross section area from an air inlet chamber with small cross section area through guiding blades, a low-pressure vacuum zone can be generated around an air outlet of the air inlet chamber. Pumping holes are formed in corresponding positions around the air exhaust absorption chamber, a large amount of outside air can be absorbed to be collected, the wind power output by the air exhaust absorption chamber is a sum of the original driving airflow and the pumped outside air amount, and an essential amplifying effect is achieved. In addition, a stator blade arranged in an air outlet of the air exhaust and absorption chamber is matched with the guiding blades in the air outlet of the air inlet chamber, the output air flow forms a spiral rotational wind pillar with force centralized to be aligned at a rotor blade of a wind driven generator, and the rotor blade can produce maximum kinetic energy to drive the wind driven generator to operate to generate electricity, and an effect of improving the conversion efficiency is achieved.

Description

The artificial wind circulating electricity generating device of transforming

Technical field

The utility model relates to a kind of artificial wind circulating electricity generating device of improvement, particularly relates to a kind of driving gas flow generator that utilizes the suction chamber high velocity air of small cross-sectional area is driven the suction chamber that is fed into the long-pending shell of bleeding in large-section, reaches the wind-force amplification effect; And the suction chamber exhaust outlet by the suction chamber exhaust outlet that drives gas flow generator and the shell of bleeding is respectively arranged with guide vane and stator vane matches, the air-flow that can cause suction chamber is along the rotor blade that forms helical rotary wind post that strength concentrates on every side and precisely be injected in wind-driven generator, make rotor blade can produce maximum kinetic energy and drive wind-driven generator running generating, reach the artificial wind circulating electricity generating device that improves conversion efficiency.

Background technique

In generation technology, wind-power electricity generation is a kind of generation mode of environmental protection, wind-force is free clean energy resource, can be inexhaustible, nexhaustible, but natural wind and the non-stable energy, with landing pit, the difference in weather and season, air quantity and wind direction also have sizable difference, and some area all the year round air quantity is powerful, can produce considerable electric weight, only there is wind in some area in specific season, namely can't generate electricity in the season that does not have wind, moreover air quantity also can be subject to the impact of building or landform and decay, therefore wind generating unit must be installed in remote spaciousness or the higher place of physical features, take up an area widely, need equipment for power transmission and distribution, the noise during the wind-driven generator running is large, influential local ecological doubt, and its installation cost and maintenance expense are quite expensive.

To sum up, wind-power electricity generation not only is difficult for popularizing because of the restriction of natural surroundings, and has the shortcoming that generated energy is unstable and cost is high, only can be used for the auxiliary energy, can be more universal in order to make wind-power electricity generation, and existing wind generating technology is still needed and is further improved.

This shows that above-mentioned existing wind-power electricity generation obviously still has inconvenience and defective, and demands urgently further being improved in structure and use.Therefore how to found a kind of artificial wind circulating electricity generating device of transformation of new structure, also becoming the current industry utmost point needs improved target.

Summary of the invention

The purpose of this utility model is, overcome the defective that existing wind-power electricity generation exists, and provide a kind of artificial wind circulating electricity generating device of transformation of new structure, technical problem to be solved is to make it can improve above-mentioned disappearance, and the enforcement that makes wind-power electricity generation more simple and easy, convenient, economical, do not take up space and tool efficient, the artificial wind circulating electricity generating device that can be everywhere is very suitable for practicality.

The purpose of this utility model and solve its technical problem and realize by the following technical solutions.According to the artificial wind circulating electricity generating device of a kind of improvement that the utility model proposes, include driving gas flow generator, one or more shell and the wind-driven generator of bleeding; It is characterized in that, this driving gas flow generator is provided with gas inlet shell, gas inlet shell one end is provided with gas-entered passageway, another end is installed on deflector, and cause and form each other suction chamber, in suction chamber, be provided with the driving fan blade, this driving fan blade and caused by drive motor to enter the air stream of suction chamber to spray through deflector; This shell of bleeding is installed in the deflector set terminal that drives gas flow generator, in the shell of bleeding of deflector corresponding end, be provided with the stator deflector, and cause and form each other suction chamber, the sectional area of this suction chamber is large than the sectional area of the suction chamber of gas inlet shell, this suction chamber is around the suction chamber exhaust outlet corresponding position and be provided with outside suction bole is communicated in, and this stator deflector can be exported with direction initialization for the air-flow of suction chamber; This wind-driven generator is installed in the shell outside of bleeding, and is installed on rotor blade in its rotating shaft, and this rotor blade is contiguous relative with the stator deflector that is installed in the shell of bleeding, and can be rotated by the air stream drives that the stator deflector is exported.

The purpose of this utility model and solve its technical problem and also can be applied to the following technical measures to achieve further.

The artificial wind circulating electricity generating device of aforesaid improvement, it is characterized in that this shell of respectively bleeding is the plural serial stage assembling, previous stage shell output terminal and the rear one-level shell input end of bleeding of bleeding is connected in series, and the suction chamber sectional area of the shells of bleeding at different levels is bled the suction chamber sectional area of shell for large than previous stage.

The artificial wind circulating electricity generating device of aforesaid improvement is characterized in that the driving fan blade of this driving gas flow generator drives warp let-off deflector with the air that enters, and makes air-flow form concentrated helical rotary wind post ejection.

The artificial wind circulating electricity generating device of aforesaid improvement is characterized in that this deflector that is installed in gas inlet shell is hollow shape, is provided with a plurality of guide vanes corresponding to interval that are on every side, forms guide channel between each guide vane.

The artificial wind circulating electricity generating device of aforesaid improvement is characterized in that this stator deflector that is installed in the shell of bleeding is hollow shape, is provided with a plurality of stator vanes corresponding to interval that are on every side, forms guide channel between each stator vane.

The artificial wind circulating electricity generating device of aforesaid improvement is characterized in that the stator vane of the stator deflector installed in this shell of bleeding, and is opposite each other with the true dip direction of the rotor blade of wind-driven generator.

The artificial wind circulating electricity generating device of aforesaid improvement is characterized in that the drive motor of this driving gas flow generator is installed in the suction chamber of gas inlet shell.

The artificial wind circulating electricity generating device of aforesaid improvement is characterized in that this wind-driven generator and is connecting inverter that this inverter is connected with charge controller with load respectively.

The artificial wind circulating electricity generating device of aforesaid improvement it is characterized in that this charge controller and connect storage battery, and storage battery is connected with the drive motor of driving gas flow generator.

The utility model compared with prior art has obvious advantage and beneficial effect.As known from the above, for achieving the above object, the utility model provides a kind of and has utilized the driving fan blade that drives gas flow generator that air is driven to deliver air-flow, and by the suction chamber of small cross-sectional area when guide vane enters the suction chamber of the long-pending shell of bleeding in large-section, can produce the low-voltage vacuum band around the exhaust outlet of this suction chamber, and the corresponding position around this suction chamber is provided with again suction bole and is converged by a large amount of the suction for outside air, then should will for the summation of original driving air-flow+suction outside air amount, reach the essence amplification effect by the wind-force of suction chamber output; In addition, being provided with stator vane with this suction chamber exhaust outlet matches with the guide vane of suction chamber exhaust outlet, cause output gas flow and form the rotor blade that the concentrated helical rotary wind post of strength is aimed at wind-driven generator, then this rotor blade can produce maximum kinetic energy and drive wind-driven generator running generating, reach and improve the conversion efficiency effect.

By technique scheme, the artificial wind circulating electricity generating device of the utility model transformation has following advantages and beneficial effect at least:

1, because of output＞input, the electric power of output still can provide the electric power of extraneous load except can keeping system operation cycle generating, the same cleaning, the free renewable sources of energy of belonging to natural wind-power electricity generation.

2, be not subjected to weather, season and environmental limit, can 24 hours, the not generating of annual nothing.

3, can be installed on indoorly fully, need not be installed on the expense that installation base can be saved in the place of the higher spaciousness of physical features.

4, indoor because being installed on fully, except can overcoming any rugged environment, still can no longer need the setting of pylon and huge power transmission and distribution system towards the independently-powered future development of miniaturization, tool is easy to implement, does not take up space and Economy.

5, can answer actual use need to do plural serial stage, tool improves the generating efficiency effect.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of specification, and for above-mentioned and other objects, features and advantages of the present utility model can be become apparent, below especially exemplified by preferred embodiment, and the cooperation accompanying drawing, be described in detail as follows.

Description of drawings

Fig. 1 is the utility model the first embodiment's cross-sectional schematic.

Fig. 2 is the utility model guide vane embodiment's schematic perspective view.

Fig. 3 is the utility model the second embodiment's cross-sectional schematic.

A: suction chamber B, B ', B ": suction chamber

B, b ', b ": suction bole

10: drive gas flow generator 101: gas inlet shell

1011: gas-entered passageway 102: deflector

1021: guide vane 1022: guide channel

103: drive motor 104: drive fan blade

1041: air inlet end 1042: outlet side

20,20 ', 20 ": the shell 201 of bleeding: stator deflector

2011: stator vane 2012: guide channel

30: wind-driven generator 301: rotor blade

40: inverter 50: charge controller

60: storage battery 70: load

Embodiment

Be to reach technological means and the effect that predetermined goal of the invention is taked for further setting forth the utility model, below in conjunction with accompanying drawing and preferred embodiment, artificial its embodiment of wind circulating electricity generating device, structure, feature and effect thereof to according to the transformation that the utility model proposes are described in detail as follows.

See also Fig. 1, shown in Figure 2, the artificial wind circulating electricity generating device of a kind of improvement of the utility model, mainly be provided with and drive gas flow generator 10, this driving gas flow generator 10 is provided with gas inlet shell 101, gas inlet shell 101 two ends are opening, be provided with gas-entered passageway 1011 at gas inlet shell 101 1 ends, another end is installed on deflector 102, makes and forms suction chamber A between gas-entered passageway 1011 and the deflector 102; This deflector 102 is hollow and annular (such as Fig. 2), is provided with a plurality of guide vanes corresponding to interval 1021 that are on every side, outside formation guide channel 1022 is communicated between each guide vane 1021; In the suction chamber A of gas inlet shell 101, be provided with drive motor 103 and drive fan blade 104, this drives fan blade 104 driven motors 103 and drives rotation, drive the air inlet channel 1011 of the air inlet end 1041 corresponding gas inlet shells 101 of fan blade 104, the deflector 102 that outlet side 1042 corresponding gas inlet shell 101 another ends of driving fan blade 104 are installed, air-flow is through the guide channel 1022 of deflector 102 in the shape of a spiral can to cause the air that is entered by gas-entered passageway 1011, and formation strength concentrates helical rotary wind post to spray outward.

Above-mentioned, install in addition at deflector 102 set terminals (being the exhaust outlet of suction chamber A) that drive gas flow generator 10 and to be connected with the shell 20 of bleeding, this shell 20 of bleeding is provided with stator deflector 201 in deflector 102 corresponding end that drive gas flow generator 10, each other and form suction chamber B, the sectional area of this suction chamber B is greater than suction chamber A sectional area, make drive gas flow generator 10 with air-flow by the suction chamber A of small cross-sectional area when deflector 102 is sent into the long-pending suction chamber B in large-section fast, around the exhaust outlet of the suction chamber A that drives gas flow generator 10, can produce the low-voltage vacuum band; This suction chamber B is at the exhaust outlet corresponding position of suction chamber A and be provided with outside suction bole b is communicated in, and the low-voltage vacuum band that the exhaust outlet of suction chamber A is produced can suck outside air automatically, reaches the effect of amplifying suction chamber B air-flow; This stator deflector 201 that is installed in shell 20 1 ends of bleeding roughly the same is hollow and annular with the deflector 102 that is installed in driving gas flow generator 10, be provided with a plurality of stator vanes corresponding to interval 2011 that are on every side, outside formation guide channel 2012 is communicated between each stator vane 2011; Wherein, this is installed in the stator vane 2011 of the stator deflector 201 of the shell 20 of bleeding, and be to match with deflector 102 guide vanes 1021 that are installed in driving gas flow generator 10, cause the air-flow that enters suction chamber B and be exaggerated and form the helical rotary wind post that strength is concentrated, and sprayed fast by guide channel 2012.

Above-mentioned, the outside at the shell 20 of bleeding is provided with wind-driven generator 30 in addition, it turns takes out 300 and is provided with rotating rotor blade 301, when rotor blade 301 rotation, can drive the rotor of wind-driven generator 30 inside to produce induction current, wherein, this rotor blade 301 is contiguous relative with the stator vane 2011 of the stator deflector 201 that is installed in the shell 20 of bleeding, the direction of both blade leans and opposite each other, the amplification that suction chamber B is produced, the helical rotary wind post that output is concentrated is after stator vane 2011 guidings, the aligning rotor blade 301 that can concentrate strength on, and then cause the kinetic energy driving wind-driven generator 30 running generatings that rotor blade 301 can produce maximum.

That is, utilize above-mentioned the utility model that consists of, behind the drive motor 103 that start to drive gas flow generator 10, drive fan blade 104 and be driven to rotate, and cause air and sucked by the air inlet channel 1011 driven fan blades 104 of gas inlet shell 101 and enter suction chamber A; After this original driving air-flow enters suction chamber A, all guide vanes 1021 water conservancy diversion by deflector 102 and drive the lasting rotation of fan blade 104 will enter fast along the guide channel 1022 of deflector 102 the suction chamber B of the shell 20 of bleeding; Continue it, because suction chamber B is provided with outside suction bole b is communicated at the exhaust outlet of suction chamber A (driving the exhaust outlet of gas flow generator 10) corresponding position, and the sectional area of this suction chamber B is large than suction chamber A again, according to the Bai Nuli law in the fluid mechanics (when sectional area hour, liquid speed is large, when liquid speed is large, pressure is low), this drives the air-flow that gas flow generator 10 produces, when delivering into fast the suction chamber B of larger sectional area by the long-pending suction chamber A of small cross sections, naturally can produce the low-voltage vacuum band on every side at the exhaust outlet (driving the exhaust outlet of gas flow generator 10) of suction chamber A, and automatically outside air is sucked from suction bole b in a large number, make the air-flow in this suction chamber B become original driving air-flow (namely, driven the original air-flow that is fed into by suction chamber A)+summation of suction outside air amount, reach direct amplification wind-force effect, simultaneously, the stator deflector 201 of installing by this suction chamber B another end and the deflector of suction chamber A 102 cooperate, the air-flow that is exaggerated in this suction chamber B, can continue again the helical rotary wind post concentrated with strength and spray fast along the guide channel 2012 of stator deflector 201, and the direct rotor blade 301 of aligning injection wind-driven generator 30; Continue it, because this is installed in the rotor blade 301 of the wind-driven generator 30 in shell 20 outsides of bleeding, be contiguous relative with the stator vane 301 of the stator deflector 201 that is installed in the shell 20 of bleeding, and the direction of blade lean is opposite each other mutually, then should spray fast by 2022 from the water conservancy diversion of stator deflector 201 through the helical rotary wind post that aspirating chamber B amplifies, and with concentrate strength on form aim at be injected in the rotor blade 301 of wind-driven generator 30 after, nature, this rotor blade 301 just can produce maximum kinetic energy and drive wind-driven generator 30 running generatings, reaches essence and improves the conversion efficiency effect.

Above-mentioned, because the air-flow that this driving gas flow generator 10 produces can produce the low-voltage vacuum band at the aspirating chamber B of the shell 20 of a bleeding end, and this low-voltage vacuum band can aspirate the air-flow generation amplification that outside air makes suction chamber B, and cause this and amplify air-flow and form the helical rotary wind post that strength is concentrated, aim at the rotor blade 301 that is injected in wind-driven generator 30 through stator deflector 201 again, then this rotor blade 301 can produce according to this maximum kinetic energy and drive wind-driven generator 30 running generatings, reach and improve under the conversion efficiency situation, nature, most of electric power that this wind-driven generator 30 produces just can be exported for load 70 by the inverter 40 through connecting, the electric power of fraction then can be from inverter 40 via charge controller 50 cross-over connection storage batterys 60, the electric power that the drive motor 103 that on the one hand additional initial start drives gas flow generator 10 consumes, lay in simultaneously the electric power of resetting, keep on the one hand the usefulness of system continuous running.

That is, the artificial wind circulating electricity generating device of the utility model improvement, mainly make the little original driving air-flow of generation by starting the drive motor 103 that drives gas flow generator 10, suction chamber B by the shell 20 of bleeding implements nature with little original driving air-flow again, simple and easy amplification action, just can produce the rotor blade 301 that powerful air-flow (wind-force) precisely is injected in wind-driven generator 30, and make wind-driven generator 30 generating of turning round according to this, because exporting wind-force greater than input wind-force, so generated output is greater than supplying with the power that drives air-flow, under this state, the electric power that this wind-driven generator 30 sends, except can supplying with the generating of self holding means operation cycle, especially still the outer load that has remainder electric power to supply with system is used, for pure utilization air is power, need not consume earth resource, do not produce the renewable sources of energy of pollution, really be and the electricity generating device of tool economic value and high conversion efficiency.

Please cooperate again shown in Figure 3, should actually use needs, the artificial wind circulating electricity generating device of the utility model improvement, the shell 20 of bleeding that also the post air-flow can be amplified is done plural serial stage and is formed 20,20 ', 20 " ... etc.; be the suction chamber B that forms of the shells 20 of bleeding at different levels (20 '; 20 ") (B '; B ") sectional area, setting rear one-level for is large than previous stage, the sectional area of more suction chambers of series connection progression B is larger, make previous stage suction chamber B (B '; B ") output air-flow deliver into rear one-level suction chamber B (B '; B ") after become the driving air-flow of rear one-level, accordingly, by suction chamber B at different levels (B '; B ") on every side default suction bole b (b '; b ") can implement simultaneously to aspirate the outside air action, nature, just can reach by section and amplify output gas flow (wind-force) purpose, and then in the end one-level suction chamber B (B '; B "), reach the effect of compiling huge wind-drive wind-driven generator 30 running generatings.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, although the utility model discloses as above with preferred embodiment, yet be not to limit the utility model, any those skilled in the art, within not breaking away from the technical solutions of the utility model scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, any simple modification that foundation technical spirit of the present utility model is done above embodiment, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (9)

1. the artificial wind circulating electricity generating device of a transformation includes driving gas flow generator, one or more shell and the wind-driven generator of bleeding; It is characterized in that, this driving gas flow generator is provided with gas inlet shell, gas inlet shell one end is provided with gas-entered passageway, another end is installed on deflector, and cause and form each other suction chamber, in suction chamber, be provided with the driving fan blade, this driving fan blade and caused by drive motor to enter the air stream of suction chamber to spray through deflector; This shell of bleeding is installed in the deflector set terminal that drives gas flow generator, in the shell of bleeding of deflector corresponding end, be provided with the stator deflector, and cause and form each other suction chamber, the sectional area of this suction chamber is large than the sectional area of the suction chamber of gas inlet shell, this suction chamber is around the suction chamber exhaust outlet corresponding position and be provided with outside suction bole is communicated in, and this stator deflector can be exported with direction initialization for the air-flow of suction chamber; This wind-driven generator is installed in the shell outside of bleeding, and is installed on rotor blade in its rotating shaft, and this rotor blade is contiguous relative with the stator deflector that is installed in the shell of bleeding, and can be rotated by the air stream drives that the stator deflector is exported.

2. the artificial wind circulating electricity generating device of transformation as claimed in claim 1, it is characterized in that this shell of respectively bleeding is the plural serial stage assembling, previous stage shell output terminal and the rear one-level shell input end of bleeding of bleeding is connected in series, and the suction chamber sectional area of the shells of bleeding at different levels is bled the suction chamber sectional area of shell for large than previous stage.

3. the artificial wind circulating electricity generating device of transformation as claimed in claim 1 is characterized in that the driving fan blade of this driving gas flow generator drives warp let-off deflector with the air that enters, and makes air-flow form concentrated helical rotary wind post ejection.

4. the artificial wind circulating electricity generating device of transformation as claimed in claim 1 is characterized in that this deflector that is installed in gas inlet shell is hollow shape, is provided with a plurality of guide vanes corresponding to interval that are on every side, forms guide channel between each guide vane.

5. the artificial wind circulating electricity generating device of transformation as claimed in claim 1 is characterized in that this stator deflector that is installed in the shell of bleeding is hollow shape, is provided with a plurality of stator vanes corresponding to interval that are on every side, forms guide channel between each stator vane.

6. the artificial wind circulating electricity generating device of transformation as claimed in claim 1 is characterized in that the stator vane of the stator deflector installed in this shell of bleeding, and is opposite each other with the true dip direction of the rotor blade of wind-driven generator.

7. the artificial wind circulating electricity generating device of transformation as claimed in claim 1 is characterized in that the drive motor of this driving gas flow generator is installed in the suction chamber of gas inlet shell.

8. the artificial wind circulating electricity generating device of transformation as claimed in claim 1 is characterized in that this wind-driven generator and is connecting inverter, and this inverter is connected with charge controller with load respectively.

9. the artificial wind circulating electricity generating device of transformation as claimed in claim 8 it is characterized in that this charge controller and connect storage battery, and storage battery is connected with the drive motor of driving gas flow generator.