CN204627860U

CN204627860U - Honeycomb wind-driven generator

Info

Publication number: CN204627860U
Application number: CN201520144628.9U
Authority: CN
Inventors: 耿天侃
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-03-13
Filing date: 2015-03-13
Publication date: 2015-09-09
Anticipated expiration: 2025-03-13

Abstract

A kind of honeycomb wind-driven generator, comprise at least two impellers, generator, described impeller is connected with generator, described generator exports electrical network by cable, particularly, also comprise honeycomb support, gear, described honeycomb support is provided with putting chamber, wherein the quantity of putting chamber is corresponding consistent with impeller quantity, described impeller to be located in putting chamber and to be fixed by rotating shaft, described gear is provided with ratchet, driving mechanism, Power output chain, described ratchet sleeve is connected in rotating shaft, adjacent impeller is connected with ratchet by driving mechanism, ratchet is provided with in described Power output chain, the impeller adjacent with Power output chain is connected by driving mechanism and Power output chain, described Power output chain is connected with generator.The utility model has that to take volume little, and fabricating cost is low, and generated energy is large, the advantage that using scope is wide, meets the new energy environmental protection policy that country advocates.

Description

Honeycomb wind-driven generator

Technical field

The utility model relates to electrical generator fields, espespecially a kind of honeycomb wind-driven generator.

Background technique

Along with socioeconomic development, electric energy has become the requisite energy in people's daily life and work.Current, the source of China's electric power mainly relies on thermal power generation and hydroelectric power, and wherein thermal power generation is the heat-driven generator rotation generating produced by coal combustion, and such generator is due to a large amount of fire coal of needs, easily cause haze, major polluting atmosphere environment; Hydroelectric power is then drive generator rotation generating by the flowing of water, although can not pollution of atmosphere be produced, but the restriction of geographical conditions can be subject to, need have Store water on the waters compared with Large Water drop could realize generate electricity, construction cost is high, the area taken is large, can make destruction to the ecotope of locality.

Along with the propelling of China's energy-conserving and environment-protective policy, wind energy power is valued by the people gradually.Wind-driven generator utilizes wind-force to drive blade rotary, and impel electrical power generators, it can not produce pollution, does not limit by geographical conditions, and construction cost is low, takies volume little, has an impact hardly to ecotope, is thus subject to the great attention of country.There is following shortcoming in current wind-driven generator: 1. mostly all adopts monomotor form, the wind turbine power generation amount of this form is less, efficiency is low, the requirement of power supply cannot be met, the utilization ratio of wind energy is very low, need to build multiple wind-driven generator or be arranged on the larger area of long-term wind-force and could meet power reguirements, thus add construction cost; 2. in order to improve generated energy and the power of single wind-driven generator, the impeller diameter of wind-driven generator expands by people, its largest diameter can reach the height that 40 meters are equivalent to 15 floors, although these large-scale wind driven generators largely can improve generated energy, but excessive rotor diameter brings great inconvenience not only to installation and transport, also had certain constraint to the place of installing wind-driven generator, and the cost manufactured is high simultaneously, is unfavorable for that large-scale popularization is quoted.

Model utility content

For solving the problem, the utility model provides a kind of fabricating cost low, and generated energy is large, and using scope is wide, takies the honeycomb wind-driven generator that volume is little.

For achieving the above object, the technical solution adopted in the utility model is: a kind of honeycomb wind-driven generator, comprise at least two impellers, generator, described impeller is connected with generator, described generator exports electrical network by cable, particularly, also comprise honeycomb support, gear, described honeycomb support is provided with putting chamber, wherein the quantity of putting chamber is corresponding consistent with impeller quantity, described impeller to be located in putting chamber and to be fixed by rotating shaft, described gear is provided with ratchet, driving mechanism, Power output chain, described ratchet sleeve is connected in rotating shaft, adjacent impeller is connected with ratchet by driving mechanism, ratchet is provided with in described Power output chain, the impeller adjacent with Power output chain is connected by driving mechanism and Power output chain, described Power output chain is connected with generator.

Particularly, described driving mechanism is chain, and adjacent impeller is socketed on ratchet by chain and connects, and the impeller adjacent with Power output chain is socketed on ratchet by chain and is connected with Power output chain.

Particularly, described driving mechanism is belt, and adjacent impeller is connected on ratchet by belt sleeve and connects, and the impeller adjacent with Power output chain is connected on ratchet by belt sleeve and is connected with Power output chain.

Particularly, described driving mechanism is gear, and adjacent impeller is connected with a joggle by gear and ratchet, and the impeller adjacent with Power output chain is engaged by gear and ratchet and be connected with Power output chain.

Particularly, described driving mechanism comprises gear and transmission shaft, wherein said gear is connected to the two ends of transmission shaft, the gear at transmission shaft two ends engages with the ratchet gear of adjacent fan-wheel respectively, and the gear at transmission shaft two ends engages with the ratchet of Power output chain and the ratchet of the impeller adjacent with Power output chain respectively.

Particularly, the equal diameters of described impeller.

Particularly, the diameter of described impeller is unequal.

The beneficial effects of the utility model are:

1. the utility model is by arranging honeycomb support, multiple equal diameters or unequal impeller being arranged as honeycomb is arranged on honeycomb support, again adjacent impeller is connected with generator by gear, and be connected with driving mechanism by ratchet between adjacent impeller, the power of each impeller is added on Power output chain, by Power output chain, power is passed on generator, breeze wind can be realized, to the strong adaptability of wind speed, applied widely, do not limit by region, fully can meet the requirement for " distributed power station " in China's energy new planning.

2. the utility model structure is simple, manufacture difficulty is little, assemble convenient to construct, and adopt the mode of impeller power superposition to export, the impeller little by multiple volume can realize high generated energy, do not need the impeller making bulky, overcome current wind-power electricity generation single-machine capacity and expand difficult bottleneck, there is considerable economic benefit;

3. the loaded down with trivial details problems such as the utility model is with the impeller production and processing of same specification, eliminates exploitation one power station one design, and a unit one designs, unit one processing specification, are applicable to scale processing, thus effectively reduce cost of production.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is the utility model internal structure schematic diagram;

Fig. 3 is the utility model putting chamber structural representation;

Fig. 4 is system block diagram of the present utility model.

Drawing reference numeral illustrates: 1-impeller; 11-rotating shaft; 2-honeycomb support; 21-putting chamber; 3-ratchet; 4-driving mechanism; 5-Power output chain.

Embodiment

Refer to shown in Fig. 1-4, the utility model is about a kind of honeycomb wind-driven generator, comprise at least two impellers 1, generator, described impeller 1 is connected with generator, described generator exports electrical network by cable, particularly, also comprise honeycomb support 2, gear, described honeycomb support 2 is provided with putting chamber 21, wherein the quantity of putting chamber 21 is corresponding consistent with impeller 1 quantity, it is interior and fixing by rotating shaft 11 that described impeller 1 is located at putting chamber 21, described gear is provided with ratchet 3, driving mechanism 4, Power output chain 5, described ratchet 3 is socketed in rotating shaft 11, adjacent impeller 1 is connected with ratchet 3 by driving mechanism 4, ratchet 3 is provided with in described Power output chain 5, the impeller 1 adjacent with Power output chain 5 is connected by driving mechanism 4 and Power output chain 5, described Power output chain 5 is connected with generator.

Compared to existing technology, the utility model by being arranged on multiple impeller 1 on honeycomb support 2 as honeycomb arrangement, the power of impeller 1 is being superposed by the ratchet 3 in gear and driving mechanism 4, the power of superposition is reached Power output chain 5, by Power output chain 5, power is reached generator again and send electric energy, therefore larger generated energy can be realized in the area that wind-force is more weak, improve Generation Rate, the problem of building the local wind resource size in wind power station need not be considered, applied widely, fully can meet the requirement for " distributed power station " in China's energy new planning, because the power of generating is formed by stacking by the power of multiple impeller 1, therefore the impeller 1 making bulky for increasing generated energy can be avoided, overcome current wind-driven generator single-machine capacity expand difficult bottleneck and greatly can reduce making, transport, the difficulty of installing and cost, structure is simple, takies volume little.

Particularly, described driving mechanism 4 is chain, and adjacent impeller 1 is socketed on ratchet 3 by chain and connects, and the impeller 1 adjacent with Power output chain 5 is socketed on ratchet 3 by chain and is connected with Power output chain 5.

Adopt such scheme, chain is as conventional driving mechanism 4, and do not need accurate processing and accurate cooperation, easy to use, cost of production is low, effectively can realize the power superposition of impeller 1 and the power of superposition is reached Power output chain 5.

Particularly, described driving mechanism 4 is belt, and adjacent impeller 1 is connected on ratchet 3 by belt sleeve and connects, and the impeller 1 adjacent with Power output chain 5 is connected on ratchet 3 by belt sleeve and is connected with Power output chain 5.

Adopt such scheme, use belt as driving mechanism 4, cost of production is lower, can realize steady superposition and the transmission of impeller 1 power, and transmission process generation noise is little.

Particularly, described driving mechanism 4 is gear, and adjacent impeller 1 is connected with a joggle by gear and ratchet 3, and the impeller 1 adjacent with Power output chain 5 is engaged by gear and ratchet 3 and be connected with Power output chain 5.

Adopt such scheme, it is accurate that gear has transmission, the advantages such as volume is little, efficiency is high, the life-span is long, adopts gear as driving mechanism 4, effectively can improve the superposition of impeller 1 power and the precision of transmission, improve Generation Rate.

Particularly, described driving mechanism 4 comprises gear and transmission shaft, wherein said gear is connected to the two ends of transmission shaft, the gear at transmission shaft two ends respectively with ratchet 3 gears meshing of adjacent fan-wheel 1, the gear at transmission shaft two ends engages with the ratchet 3 of Power output chain 5 and the ratchet 3 of the impeller 1 adjacent with Power output chain 5 respectively.

Adopt such scheme, the mode coordinated by transmission shaft and gear as driving mechanism 4, the superposition of impeller 1 power and the precision of transmission higher, more effectively can improve generating efficiency, the area being specially adapted to wind-force more weak realizes breeze wind.

Particularly, the equal diameters of described impeller 1.

Particularly, the diameter of described impeller 1 is unequal.

Below by specific embodiment, the utility model is further described.

The utility model is applied widely, can be applicable to the region of any wind speed, only need place to be arranged on the area with air flowing and can to realize generating.The power of each impeller 1 can be superimposed by ratchet in gear 3 and driving mechanism 4, single impeller 1 rotates under wind-force effect, when the rotating speed of Power output chain 5 exceedes certain impeller 1 rotating speed, ratchet 3 can make this impeller 1 depart from Power output chain 5, when impeller 1 rotating speed is greater than the gait of march of Power output chain 5, this power then can drive Power output chain 5, in addition because air has flexible reason, when impeller 1 is superimposed power by ratchet 3 and driving mechanism 4, the power of its moment can not damage whole system.

As further improvement, putting chamber 21 part due to honeycomb support 2 can allow distinguished and admirable mistake, and remaining part can play gear wind action, in the area that wind speed is larger, flow velocity is slowed down, increasing electricity output by the increasing diameter of impeller 1 and the size of putting chamber 21; If region wind speed is low, by reducing the size of impeller 1 diameter and putting chamber 21, strengthens the area of honeycomb support, reducing over wind area, the wind speed flowing through impeller 1 is increased, thus improves impeller 1 rotating speed, increasing electricity output.

As further improvement; local due to honeycomb support 2 has the effect of keeping out the wind; the utility model can be designed to the larger body that keeps out the wind of volume; the position arranged can be city; can also be countryside, a wind-power electricity generation group of planes for scale can be designed to, while can realizing huge generated energy; for some areas windproof, desert area sand-fixing effect is significantly, and can available protecting ecotope.

As further improvement, the utility model can according to concrete area surroundings, and design is applicable to the shape of local environment, as in desert or the woods, can make tree crown shape; Build highway limit in and can make body of wall shape; Build in the middle of city and can make various fairshaped mansion or other modern building shapes, to improve generated energy and to adapt to local style and features.

Above mode of execution is only be described preferred implementation of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that the common engineers and technicians in related domain make the technical solution of the utility model and improvement, all should fall in protection domain that claims of the present utility model determine.

Claims

1. a honeycomb wind-driven generator, comprise at least two impellers, generator, described impeller is connected with generator, described generator delivers to electrical network by cable, it is characterized in that, also comprise honeycomb support, gear, described honeycomb support is provided with putting chamber, wherein the quantity of putting chamber is corresponding consistent with impeller quantity, described impeller to be located in putting chamber and to be fixed by rotating shaft, described gear is provided with ratchet, driving mechanism, Power output chain, described ratchet sleeve is connected in rotating shaft, adjacent impeller is connected with ratchet by driving mechanism, ratchet is provided with in described Power output chain, the impeller adjacent with Power output chain is connected by driving mechanism and Power output chain, described Power output chain is connected with generator.

2. honeycomb wind-driven generator according to claim 1, it is characterized in that, described driving mechanism is chain, and adjacent impeller is socketed on ratchet by chain and connects, and the impeller adjacent with Power output chain is socketed on ratchet by chain and is connected with Power output chain.

3. honeycomb wind-driven generator according to claim 1, it is characterized in that, described driving mechanism is belt, and adjacent impeller is connected on ratchet by belt sleeve and connects, and the impeller adjacent with Power output chain is connected on ratchet by belt sleeve and is connected with Power output chain.

4. honeycomb wind-driven generator according to claim 1, is characterized in that, described driving mechanism is gear, and adjacent impeller is connected with a joggle by gear and ratchet, and the impeller adjacent with Power output chain is engaged by gear and ratchet and be connected with Power output chain.

5. honeycomb wind-driven generator according to claim 1, it is characterized in that, described driving mechanism comprises gear and transmission shaft, wherein said gear is connected to the two ends of transmission shaft, the gear at transmission shaft two ends engages with the ratchet gear of adjacent fan-wheel respectively, and the gear at transmission shaft two ends engages with the ratchet of Power output chain and the ratchet of the impeller adjacent with Power output chain respectively.

6. honeycomb wind-driven generator according to claim 1, is characterized in that, the equal diameters of described impeller.

7. honeycomb wind-driven generator according to claim 1, is characterized in that, the diameter of described impeller is unequal.