CN203499922U - Air compressed wind power generation equipment - Google Patents

Abstract

The utility model discloses an air compressed wind power generation equipment, which comprises an air wheel, a speed-increasing gearbox, a rotary piston air compressor, a high pressure air tube, an air storage tank, a pneumatic machine and a generator. An impeller shaft of the air wheel is connected with a power input shaft of the speed-increasing gearbox; a power output shaft of the speed-increasing gearbox is connected with a rotating shaft of the rotary piston air compressor; an air outlet of the rotary piston air compressor is connected with the air storage tank through the high pressure air tube; the air storage tank is connected with the pneumatic machine through the high pressure air tube; the pneumatic machine is connected with the generator. Wind energy is converted into mechanical energy through the air wheel, the air is compressed in the air storage tank through the rotary piston air compressor to convert the mechanical energy into internal energy, and the internal energy is converted into electric energy through the pneumatic machine and the generator, so that the air compressed wind power generation equipment has high generating efficiency and stable output voltage, can utilize the wind energy in a concentrating way, and is more simple in structure and low in design and manufacture cost and operating cost.

Description

A kind of compressed air type wind power plant

Technical field

The utility model relates to wind generating technology, relates in particular to a kind of compressed air type wind power plant.

Background technique

Wind-power electricity generation is renewable energy sources, is clean energy resource, is developed rapidly in the world, and along with socioeconomic develop rapidly, the energy becomes the economic bottleneck that continues sound development of impact day by day.Wind-power electricity generation more and more becomes the Main Means of renewable energy power generation.And that the horizontal shaft wind-power unit that we adopt now exists structure member is large, to manufacture, transportation, difficulty is installed, generating efficiency is low, safeguards the defects such as complicated.

Model utility content

Technical problem to be solved in the utility model is: a kind of compressed air type wind power plant is provided, and not only generating efficiency is high, output voltage stabilization, and can focus utilization wind energy, simplified apparatus, has reduced design and manufacture cost and operating cost.

For solving the problems of the technologies described above, the utility model proposes a kind of compressed air type wind power plant, comprise wind wheel, step-up gear, rotary-piston air compressor, high-pressure air pipe, gas holder, pneumatic motor and generator, the impeller shaft of described wind wheel is connected with the power input shaft of step-up gear, the pto＝power take-off of step-up gear is connected with the rotating shaft of rotary-piston air compressor, the air outlet hole of described rotary-piston air compressor is connected with gas holder by high-pressure air pipe, between gas holder and pneumatic motor, with high-pressure air pipe, be connected, pneumatic motor is connected with generator.

Its further technological scheme is that described impeller shaft is provided with the some wind wheel blades that are circular shape.

Its further technological scheme is, described rotary-piston air compressor comprises rotor cylindrical shell, with the stator cylindrical shell of inlet hole and air outlet hole, after coordinating with stator cylindrical shell inscribe, rotor cylindrical shell forms the confined space for air compressing, described rotor cylindrical shell is along being slidably equipped with two blades in its diametric(al), between blade and rotor cylindrical shell, be provided with spring, blade moves reciprocatingly and the inwall of maintenance and stator cylindrical shell connects along the diametric(al) of rotor cylindrical shell under the effect of spring.

Its further technological scheme is that the high-pressure air pipe between described gas holder and pneumatic motor is provided with ratio adjusting valve, between generator and ratio adjusting valve, is provided with controller.

Its further technological scheme is, described wind wheel adopts more than one or one, and the quantity of described rotary-piston air compressor equates with wind wheel quantity.

Technique scheme at least has following beneficial effect:

The utility model becomes mechanical energy by wind wheel by wind energy transformation, by rotary-piston air compressor by air compressing in gas holder, mechanical energy is converted into interior energy, by pneumatic motor and generator, be converted into electric energy again, not only generating efficiency is high, output voltage stabilization, and can focus utilization wind energy, device structure is simpler, has reduced design and manufacture cost and operating cost.

Accompanying drawing explanation

Fig. 1 is the utility model compressed air type wind power plant embodiment one structural representation.

Fig. 2 is the structural representation of wind wheel in the utility model compressed air type wind power plant.

Fig. 3 is the structural representation of rotary-piston air compressor in the utility model compressed air type wind power plant.

Fig. 4 is the utility model compressed air type wind power plant embodiment two structural representation.

Embodiment

It should be noted that, in the situation that not conflicting, embodiment and the feature in embodiment in the application can combine mutually.Below in conjunction with accompanying drawing, the utility model is described further.

Embodiment one:

As shown in Figure 1, compressed air type wind power plant disclosed in the utility model comprises wind wheel 1, step-up gear 2, rotary-piston air compressor 3, high-pressure air pipe 4, gas holder 5, pneumatic motor 6 and generator 7, the impeller shaft 11 of wind wheel 1 is connected with the power input shaft 21 of step-up gear 2, the pto＝power take-off 22 of step-up gear 2 is connected with the rotating shaft of rotary-piston air compressor 3, the air outlet hole 312 of rotary-piston air compressor 3 is connected with gas holder 5 by high-pressure air pipe 4, between gas holder and pneumatic motor 6, with high-pressure air pipe 4, be connected, pneumatic motor 6 is connected with generator 7.

As shown in Figure 2, impeller shaft 11 is provided with the some wind wheel blades 12 that are circular shape, because wind wheel blade 12 is arcs, so wind blows from any direction, is all stressed windward at concave surface, drives wind wheel 1 to rotate, and can utilize more efficiently wind energy.

As shown in Figure 3, rotary-piston air compressor 3 comprises stator cylindrical shell 31, rotor cylindrical shell 32, blade 33, and wherein, the sidewall of stator cylindrical shell 31 is provided with inlet hole 311 and air outlet hole 312; In rotor cylindrical shell 32 inscribes and stator cylindrical shell 31, rotating shaft is fixedly located on rotor cylindrical shell 32, with rotor driven cylindrical shell 32, rotates, and supplies the confined space of air compressing after rotor cylindrical shell 32 coordinates with stator cylindrical shell 31 inscribes with formation; Blade 33 has two, two blades 33 are 180 degree angles along rotor cylindrical shell 32 diametric(al)s and are slidably installed on rotor cylindrical shell 32, between blade 33 and rotor cylindrical shell 32, be provided with spring 34, when rotor cylindrical shell 32 rotates like this, blade 33 can constantly be done fore and aft motion, simultaneously under the effect of spring 34 power, blade 33 is connected on stator cylindrical shell 31 inwalls all the time, between maintenance and stator cylindrical shell 31 inwalls, be sealed and matched, air drives rotor cylindrical shell 32 rotate and by blade 33, air entered gas holder 5 from air outlet hole 312 by rotating shaft from inlet hole 311 sucks.

Embodiment two:

As shown in Figure 4, the high-pressure air pipe 4 between gas holder 5 and pneumatic motor 6 is provided with ratio adjusting valve 8, between generator 7 and ratio adjusting valve 8, is provided with controller 9.The output voltage of controller 9 monitoring generators 6, when voltage overrate, control ratio modulating valve 8 is turned down compressed air require; Otherwise, heighten compressed air require; Thereby the output voltage that makes generator 6 keeps stable.

Embodiment three:

Wind wheel 1 adopts more than one or one, and the quantity of described rotary-piston air compressor 3 equates with wind wheel 1 quantity.Such as can be easily by the pressurized air of a plurality of rotary-piston air compressors 3 outputs, concentrate to be transported to a gas holder 5 and to store, then as the power source of pneumatic motor 6, focus utilization wind energy, raises the efficiency, simplified apparatus.

The utility model becomes mechanical energy by wind wheel 1 by wind energy transformation, by rotary-piston air compressor 3 by air compressing in gas holder 5, mechanical energy is converted into interior energy, by pneumatic motor 6 and generator 7, be converted into electric energy again, not only generating efficiency is high, output voltage stabilization, and can focus utilization wind energy, device structure is simpler, has reduced design and manufacture cost and operating cost.

The above is embodiment of the present utility model; it should be pointed out that for those skilled in the art, do not departing under the prerequisite of the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (5)

1. a compressed air type wind power plant, it is characterized in that, comprise wind wheel (1), step-up gear (2), rotary-piston air compressor (3), high-pressure air pipe (4), gas holder (5), pneumatic motor (6) and generator (7), the impeller shaft (11) of described wind wheel (1) is connected with the power input shaft (21) of step-up gear (2), the pto＝power take-off (22) of step-up gear (2) is connected with the rotating shaft of rotary-piston air compressor (3), the air outlet hole (312) of described rotary-piston air compressor (3) is connected with gas holder (5) by high-pressure air pipe (4), between gas holder (5) and pneumatic motor (6), with high-pressure air pipe (4), be connected, pneumatic motor (6) is connected with generator (7).

2. compressed air type wind power plant as claimed in claim 1, is characterized in that, described impeller shaft (11) is provided with the some wind wheel blades (12) that are circular shape.

3. compressed air type wind power plant as claimed in claim 1, it is characterized in that, described rotary-piston air compressor (3) comprises rotor cylindrical shell (31), the stator cylindrical shell (32) of band inlet hole (311) and air outlet hole (312), after coordinating with stator cylindrical shell (32) inscribe, rotor cylindrical shell (31) forms the confined space for air compressing, described rotor cylindrical shell (31) is along being slidably equipped with two blades (33) in its diametric(al), between blade (33) and rotor cylindrical shell (31), be provided with spring (34), blade (33) moves reciprocatingly and the inwall of maintenance and stator cylindrical shell (32) connects along the diametric(al) of rotor cylindrical shell (31) under the effect of spring (34).

4. compressed air type wind power plant as claimed in claim 1, it is characterized in that, high-pressure air pipe (4) between described gas holder (5) and pneumatic motor (6) is provided with ratio adjusting valve (8), between generator (7) and ratio adjusting valve (8), is provided with controller (9).

5. compressed air type wind power plant as claimed in claim 1, is characterized in that, described wind wheel (1) adopts more than one or one, and the quantity of described rotary-piston air compressor (3) equates with wind wheel (1) quantity.

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