CN205078399U - Power device blows - Google Patents

Abstract

The utility model discloses a power device blows, including main shaft, wind wheel, a plurality of fan and a plurality of jet -propelled gasbag to reach the direction wind channel that corresponds respectively with each fan, the wind wheel is installed on the main shaft, each wind channel of leading sets up around the wind wheel, each fan is blown to the wind wheel through the wind channel of leading, be equipped with inflation inlet and air jet on the jet -propelled gasbag, the inflation inlet is connected with aerating device, the air jet is connected with the wind channel of leading to jet -propelled direction is the same with the airflow direction in direction wind channel, the fan blows the wind wheel with jet -propelled gasbag and rotates, the wind wheel drives the main shaft and rotates. The utility model discloses a fan and jet -propelled gasbag are blown to the wind wheel and are ordered about the wind wheel and rotate, drive the main shaft by the wind wheel again and rotate, are suitable for aerogenerator to use, can guarantee the aerogenerator electricity generation of can all continuously turning round under the circumstances of windy or gentle breeze, have reached the requirement of lasting power supply.

Description

Air blowing power plant

Technical field

The utility model relates to motivational drive technical field, is specifically related to a kind of air blowing power plant.

Background technique

Along with the fast development of economy, the depletion rate of the energy is also constantly accelerated, energy shortage has become a problem be on the rise, and wind energy is more and more subject to people's attention as a kind of renewable energy sources, being developed in order to the important problem of current energy source engineering one of wind energy.At present, wind energy transformation is mainly that electric energy is utilized by wind-driven generator by wind energy, existing wind-driven generator generally be unable to do without air vane wheel and drives generator amature rotation to generate electricity, and in physical environment, wind is capricious often, not only wind direction changes constantly, the size of wind does not stop change yet, due to the reason of existing windmill structure, when wind-force is less or gentle breeze time, because windmill impeller can not get enough wind-drive, be difficult to drive electrical generators rotor turns, wind-power electricity generation is restricted exactly, the requirement continuing generating and continued power cannot be met.Meanwhile, because wind-force deficiency can not operate, generator can only leave unused, and causes the wasting of resources, and long-term stagnation also can cause the damage of getting rusty of equipment.Therefore need to research and develop new drive unit, to improve the operation of a machine problem comprising wind-driven generator.

Model utility content

The utility model, for the disappearance of prior art existence, provides a kind of air blowing power plant improving machine run problem.

To achieve these objectives, the technological scheme that adopts of the utility model is as follows:

A kind of air blowing power plant, comprise main shaft, wind wheel, multiple blower fan, multiple air-injection air sac, and the guiding air channel corresponding respectively with each blower fan, described wind wheel is installed on main shaft, described each guiding air channel is arranged at around wind wheel, and one end is communicated with the intake grill of wind wheel, described each blower fan is arranged at the other end in corresponding guiding air channel respectively, and blown to wind wheel by guiding air channel, described air-injection air sac is provided with inflation inlet and puff prot, described inflation inlet is connected with inflator, described puff prot is connected with guiding air channel, and jet direction is identical with the airflow direction in guiding air channel, described blower fan and air-injection air sac blow wind wheel and rotate, described wind wheel drives main axis.

As a kind of preferred version, described air-injection air sac comprises hard shell, and the soft utricule be arranged in hard shell, the top and bottom of described hard shell are respectively equipped with the inflation inlet and puff prot that are communicated with the air cavity of soft utricule, described inflation inlet place is provided with unidirectional normally open solenoid valve, and described puff prot place is provided with impulse electromagnetic valve.

As a kind of preferred version, described each guiding air channel is uniformly distributed in around wind wheel, and airflow direction and wind wheel edge tangentially are arranged.

As a kind of preferred version, the output port of described blower fan is tightly connected with the air inlet end mouth in guiding air channel.

As a kind of preferred version, described air-injection air sac number is identical with blower fan number, the side of the air inlet end mouth in described guiding air channel is provided with the air jet pipe be communicated with air channel of leading, the jet direction of described air jet pipe is identical with the airflow direction in guiding air channel, and the puff prot of described air-injection air sac is tightly connected with corresponding air jet pipe.

As a kind of preferred version, also comprise multiple first ion generator and multiple second ion generator, described first ion generator is located at corresponding blower fan place, and be connected with the output port of this blower fan, described second ion generator is located at corresponding air-injection air sac place, and is connected with the puff prot of this air-injection air sac.

As a kind of preferred version, described first ion generator is positive ion generator, and described second ion generator is negative ion generator.

As a kind of preferred version, described inflator comprises air compressor and compressed air hose, and described compressed air hose is connected with air compressor by air pipe, and the puff prot of described air-injection air sac is connected with compressed air hose by air pipe.

The utility model compared with prior art has obvious advantage and beneficial effect, specifically, by arranging wind wheel on main shaft, blower fan and air-injection air sac are set around wind wheel, wind wheel can be blown by blower fan and air-injection air sac and order about rotation, then drive main axis by wind wheel, the utility model is particularly useful for wind-driven generator and uses, can ensureing that wind-driven generator can generate electricity when having wind or gentle breeze in continuous running, reaching the requirement continuing generating and continued power.Meanwhile, generator be able to continuous running it also avoid equipment because of wind-force too small, or secular stagnation time calm and the wasting of resources that causes, or corrosion damages.

For more clearly setting forth structure characteristic of the present utility model, technological means and the specific purposes reached thereof and function, below in conjunction with accompanying drawing and specific embodiment, the utility model is described in further detail:

Accompanying drawing explanation

Fig. 1 is the assembling assumption diagram of the embodiment of the utility model;

The plan view of the embodiment of Fig. 2 the utility model;

The structural drawing of the air-injection air sac of the embodiment of Fig. 3 the utility model;

The using state figure of the embodiment of Fig. 4 the utility model.

Accompanying drawing identifier declaration:

1, main shaft, 10, wind wheel, 11, intake grill,

12, relief opening, 13, positive ion generator, 14, negative ion generator,

20, blower fan, 21, output port, 30, air-injection air sac,

31, inflation inlet, 32, puff prot, 33, hard shell,

34, soft utricule, 35, unidirectional normally open solenoid valve, 36, impulse electromagnetic valve,

37, air cavity, 40, guiding air channel, 41, air inlet end mouth,

42, air jet pipe, 50, air compressor, 51, air pipe,

52, compressed air hose.

Embodiment

First, please refer to shown in Fig. 1, a kind of air blowing power plant, comprise wind wheel 10, four blower fans 20 and four air-injection air sacs 30, and the guiding air channel 40 corresponding respectively with each blower fan 20, described wind wheel 10 is installed on the main shaft 1 of generator, described each guiding air channel 40 is arranged at wind wheel 10 around, and one end is communicated with the intake grill 11 of wind wheel 10, described each blower fan 20 is arranged at the other end in corresponding guiding air channel 40 respectively, and blown to wind wheel 10 by guiding air channel 40, described air-injection air sac 30 is provided with inflation inlet 31 and puff prot 32, described inflation inlet 31 is connected with inflator, described puff prot 32 is connected with guiding air channel 40, and jet direction is identical with the airflow direction in guiding air channel 40, described blower fan 20 and air-injection air sac 30 blow wind wheel 10 and rotate, described wind wheel 10 drives main shaft 1 to rotate.Described blower fan 20 place is also provided with positive ion generator 13, and air-injection air sac 30 place of institute is provided with the negative ion generator 14 corresponding with positive ion generator 13, and the top of described wind wheel is provided with the relief opening 12 of an axial centre.By arranging this relief opening 12, can make in the air current flow of wind wheel 10 inside more smooth and easy, improving the mechanical efficiency of blower fan 20 and air-injection air sac 30.

As shown in Figure 2, described each guiding air channel 40 is uniformly distributed in wind wheel 10 around, and airflow direction and wind wheel 10 edge tangentially are arranged, described blower fan 20 is arranged at air inlet end mouth 41 place in corresponding guiding air channel 40, and the output port 21 of blower fan 20 is tightly connected with the air inlet end mouth 41 in guiding air channel 40, described positive ion generator 13 is arranged at corresponding blower fan 20 place, and is connected with the output port 21 of this blower fan 20.The side of the air inlet end mouth 41 in described guiding air channel 40 is provided with the air jet pipe 42 be communicated with air channel 40 of leading, the jet direction of described air jet pipe 42 is identical with the airflow direction in guiding air channel 40, the puff prot 32 of described air-injection air sac 30 is tightly connected with corresponding air jet pipe 42 by an air pipe 51, described negative ion generator 14 is arranged at corresponding air-injection air sac 30 place, and is connected with the puff prot 32 of this air-injection air sac 30.By arranging ion generator, air-flow in guiding air channel 40 can be made with positive ion or negative ion, by the interaction force of positive ion and negative ion, increasing the driving force driving wind wheel 10, improving and drive effect.In figure, the position of kation anion generator can exchange.

As shown in Figure 3, described air-injection air sac 30 comprises hard shell 33, and the soft utricule 34 be arranged in hard shell 33, the top and bottom of described hard shell 33 are respectively equipped with the inflation inlet 31 and puff prot 32 that are communicated with the air cavity 37 of soft utricule 34, described inflation inlet 31 place is provided with unidirectional normally open solenoid valve 35, keeps one-way air inlet state when described unidirectional normally open solenoid valve 35 works.Described puff prot 32 place is provided with impulse electromagnetic valve 36, and described impulse electromagnetic valve 36 can control to open, close automatically, and timing guide is jet in air channel 40.When described air-injection air sac inflates 30, soft utricule 34 expands gradually, the outer wall of final air cavity 37 is butted on the internal face of hard shell 33, when air pressure reaches predetermined value, impulse electromagnetic valve 36 is opened, powerful air-flow moment flows to guiding air channel 40 in air cavity 37, forms the driving force that wind wheel 10 rotates.

As shown in Figure 4, in use, air-injection air sac 30 needs inflator to carry out inflation could continue use, in the present embodiment, described inflator comprises air compressor 50 and compressed air hose 52, and some air pipes 51, described compressed air hose 52 is connected with air compressor 50 by air pipe 51, and the puff prot 32 of described air-injection air sac 30 is connected with compressed air hose 52 by air pipe 51.Described spray institute air bag in use preferably two air-injection air sacs 30 diametrically guide is jet to air channel 40 simultaneously.

As mentioned above, in the present embodiment, the utility model is for wind-driven generator, it should be noted that, the utility model is not limited to use on wind-driven generator, also can be used for the equipment that other needs drive running.

The above, it is only preferred embodiment of the present utility model, not in order to limit the utility model, thus every according to technology of the present utility model actual above embodiment is done any amendment, equivalent replacement, improvement etc., all still belong in the scope of technical solutions of the utility model.

Claims (8)

1. air blowing power plant, it is characterized in that: comprise main shaft, wind wheel, multiple blower fan, multiple air-injection air sac, and the guiding air channel corresponding respectively with each blower fan, described wind wheel is installed on main shaft, described each guiding air channel is arranged at around wind wheel, and one end is communicated with the intake grill of wind wheel, described each blower fan is arranged at the other end in corresponding guiding air channel respectively, and blown to wind wheel by guiding air channel, described air-injection air sac is provided with inflation inlet and puff prot, described inflation inlet is connected with inflator, described puff prot is connected with guiding air channel, and jet direction is identical with the airflow direction in guiding air channel, described blower fan and air-injection air sac blow wind wheel and rotate, described wind wheel drives main axis.

2. air blowing power plant according to claim 1, it is characterized in that: described air-injection air sac comprises hard shell, and the soft utricule be arranged in hard shell, the top and bottom of described hard shell are respectively equipped with the inflation inlet and puff prot that are communicated with the air cavity of soft utricule, described inflation inlet place is provided with unidirectional normally open solenoid valve, and described puff prot place is provided with impulse electromagnetic valve.

3. air blowing power plant according to claim 1, is characterized in that: described each guiding air channel is uniformly distributed in around wind wheel, and airflow direction and wind wheel edge tangentially are arranged.

4. air blowing power plant according to claim 1, is characterized in that: the output port of described blower fan is tightly connected with the air inlet end mouth in guiding air channel.

5. air blowing power plant according to claim 1, it is characterized in that: described air-injection air sac number is identical with blower fan number, the side of the air inlet end mouth in described guiding air channel is provided with the air jet pipe be communicated with air channel of leading, the jet direction of described air jet pipe is identical with the airflow direction in guiding air channel, and the puff prot of described air-injection air sac is tightly connected with corresponding air jet pipe.

6. air blowing power plant according to claim 1, it is characterized in that: also comprise multiple first ion generator and multiple second ion generator, described first ion generator is located at corresponding blower fan place, and be connected with the output port of this blower fan, described second ion generator is located at corresponding air-injection air sac place, and is connected with the puff prot of this air-injection air sac.

7. air blowing power plant according to claim 6, is characterized in that: described first ion generator is positive ion generator, and described second ion generator is negative ion generator.

8. air blowing power plant according to claim 1, it is characterized in that: described inflator comprises air compressor and compressed air hose, described compressed air hose is connected with air compressor by air pipe, and the puff prot of described air-injection air sac is connected with compressed air hose by air pipe.